diff options
Diffstat (limited to 'deps/gyp/pylib')
38 files changed, 26705 insertions, 0 deletions
diff --git a/deps/gyp/pylib/gyp/MSVSNew.py b/deps/gyp/pylib/gyp/MSVSNew.py new file mode 100644 index 0000000000..845dcb0639 --- /dev/null +++ b/deps/gyp/pylib/gyp/MSVSNew.py @@ -0,0 +1,340 @@ +# Copyright (c) 2012 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +"""New implementation of Visual Studio project generation.""" + +import os +import random + +import gyp.common + +# hashlib is supplied as of Python 2.5 as the replacement interface for md5 +# and other secure hashes. In 2.6, md5 is deprecated. Import hashlib if +# available, avoiding a deprecation warning under 2.6. Import md5 otherwise, +# preserving 2.4 compatibility. +try: + import hashlib + _new_md5 = hashlib.md5 +except ImportError: + import md5 + _new_md5 = md5.new + + +# Initialize random number generator +random.seed() + +# GUIDs for project types +ENTRY_TYPE_GUIDS = { + 'project': '{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}', + 'folder': '{2150E333-8FDC-42A3-9474-1A3956D46DE8}', +} + +#------------------------------------------------------------------------------ +# Helper functions + + +def MakeGuid(name, seed='msvs_new'): + """Returns a GUID for the specified target name. + + Args: + name: Target name. + seed: Seed for MD5 hash. + Returns: + A GUID-line string calculated from the name and seed. + + This generates something which looks like a GUID, but depends only on the + name and seed. This means the same name/seed will always generate the same + GUID, so that projects and solutions which refer to each other can explicitly + determine the GUID to refer to explicitly. It also means that the GUID will + not change when the project for a target is rebuilt. + """ + # Calculate a MD5 signature for the seed and name. + d = _new_md5(str(seed) + str(name)).hexdigest().upper() + # Convert most of the signature to GUID form (discard the rest) + guid = ('{' + d[:8] + '-' + d[8:12] + '-' + d[12:16] + '-' + d[16:20] + + '-' + d[20:32] + '}') + return guid + +#------------------------------------------------------------------------------ + + +class MSVSSolutionEntry(object): + def __cmp__(self, other): + # Sort by name then guid (so things are in order on vs2008). + return cmp((self.name, self.get_guid()), (other.name, other.get_guid())) + + +class MSVSFolder(MSVSSolutionEntry): + """Folder in a Visual Studio project or solution.""" + + def __init__(self, path, name = None, entries = None, + guid = None, items = None): + """Initializes the folder. + + Args: + path: Full path to the folder. + name: Name of the folder. + entries: List of folder entries to nest inside this folder. May contain + Folder or Project objects. May be None, if the folder is empty. + guid: GUID to use for folder, if not None. + items: List of solution items to include in the folder project. May be + None, if the folder does not directly contain items. + """ + if name: + self.name = name + else: + # Use last layer. + self.name = os.path.basename(path) + + self.path = path + self.guid = guid + + # Copy passed lists (or set to empty lists) + self.entries = sorted(list(entries or [])) + self.items = list(items or []) + + self.entry_type_guid = ENTRY_TYPE_GUIDS['folder'] + + def get_guid(self): + if self.guid is None: + # Use consistent guids for folders (so things don't regenerate). + self.guid = MakeGuid(self.path, seed='msvs_folder') + return self.guid + + +#------------------------------------------------------------------------------ + + +class MSVSProject(MSVSSolutionEntry): + """Visual Studio project.""" + + def __init__(self, path, name = None, dependencies = None, guid = None, + spec = None, build_file = None, config_platform_overrides = None, + fixpath_prefix = None): + """Initializes the project. + + Args: + path: Absolute path to the project file. + name: Name of project. If None, the name will be the same as the base + name of the project file. + dependencies: List of other Project objects this project is dependent + upon, if not None. + guid: GUID to use for project, if not None. + spec: Dictionary specifying how to build this project. + build_file: Filename of the .gyp file that the vcproj file comes from. + config_platform_overrides: optional dict of configuration platforms to + used in place of the default for this target. + fixpath_prefix: the path used to adjust the behavior of _fixpath + """ + self.path = path + self.guid = guid + self.spec = spec + self.build_file = build_file + # Use project filename if name not specified + self.name = name or os.path.splitext(os.path.basename(path))[0] + + # Copy passed lists (or set to empty lists) + self.dependencies = list(dependencies or []) + + self.entry_type_guid = ENTRY_TYPE_GUIDS['project'] + + if config_platform_overrides: + self.config_platform_overrides = config_platform_overrides + else: + self.config_platform_overrides = {} + self.fixpath_prefix = fixpath_prefix + self.msbuild_toolset = None + + def set_dependencies(self, dependencies): + self.dependencies = list(dependencies or []) + + def get_guid(self): + if self.guid is None: + # Set GUID from path + # TODO(rspangler): This is fragile. + # 1. We can't just use the project filename sans path, since there could + # be multiple projects with the same base name (for example, + # foo/unittest.vcproj and bar/unittest.vcproj). + # 2. The path needs to be relative to $SOURCE_ROOT, so that the project + # GUID is the same whether it's included from base/base.sln or + # foo/bar/baz/baz.sln. + # 3. The GUID needs to be the same each time this builder is invoked, so + # that we don't need to rebuild the solution when the project changes. + # 4. We should be able to handle pre-built project files by reading the + # GUID from the files. + self.guid = MakeGuid(self.name) + return self.guid + + def set_msbuild_toolset(self, msbuild_toolset): + self.msbuild_toolset = msbuild_toolset + +#------------------------------------------------------------------------------ + + +class MSVSSolution: + """Visual Studio solution.""" + + def __init__(self, path, version, entries=None, variants=None, + websiteProperties=True): + """Initializes the solution. + + Args: + path: Path to solution file. + version: Format version to emit. + entries: List of entries in solution. May contain Folder or Project + objects. May be None, if the folder is empty. + variants: List of build variant strings. If none, a default list will + be used. + websiteProperties: Flag to decide if the website properties section + is generated. + """ + self.path = path + self.websiteProperties = websiteProperties + self.version = version + + # Copy passed lists (or set to empty lists) + self.entries = list(entries or []) + + if variants: + # Copy passed list + self.variants = variants[:] + else: + # Use default + self.variants = ['Debug|Win32', 'Release|Win32'] + # TODO(rspangler): Need to be able to handle a mapping of solution config + # to project config. Should we be able to handle variants being a dict, + # or add a separate variant_map variable? If it's a dict, we can't + # guarantee the order of variants since dict keys aren't ordered. + + + # TODO(rspangler): Automatically write to disk for now; should delay until + # node-evaluation time. + self.Write() + + + def Write(self, writer=gyp.common.WriteOnDiff): + """Writes the solution file to disk. + + Raises: + IndexError: An entry appears multiple times. + """ + # Walk the entry tree and collect all the folders and projects. + all_entries = set() + entries_to_check = self.entries[:] + while entries_to_check: + e = entries_to_check.pop(0) + + # If this entry has been visited, nothing to do. + if e in all_entries: + continue + + all_entries.add(e) + + # If this is a folder, check its entries too. + if isinstance(e, MSVSFolder): + entries_to_check += e.entries + + all_entries = sorted(all_entries) + + # Open file and print header + f = writer(self.path) + f.write('Microsoft Visual Studio Solution File, ' + 'Format Version %s\r\n' % self.version.SolutionVersion()) + f.write('# %s\r\n' % self.version.Description()) + + # Project entries + sln_root = os.path.split(self.path)[0] + for e in all_entries: + relative_path = gyp.common.RelativePath(e.path, sln_root) + # msbuild does not accept an empty folder_name. + # use '.' in case relative_path is empty. + folder_name = relative_path.replace('/', '\\') or '.' + f.write('Project("%s") = "%s", "%s", "%s"\r\n' % ( + e.entry_type_guid, # Entry type GUID + e.name, # Folder name + folder_name, # Folder name (again) + e.get_guid(), # Entry GUID + )) + + # TODO(rspangler): Need a way to configure this stuff + if self.websiteProperties: + f.write('\tProjectSection(WebsiteProperties) = preProject\r\n' + '\t\tDebug.AspNetCompiler.Debug = "True"\r\n' + '\t\tRelease.AspNetCompiler.Debug = "False"\r\n' + '\tEndProjectSection\r\n') + + if isinstance(e, MSVSFolder): + if e.items: + f.write('\tProjectSection(SolutionItems) = preProject\r\n') + for i in e.items: + f.write('\t\t%s = %s\r\n' % (i, i)) + f.write('\tEndProjectSection\r\n') + + if isinstance(e, MSVSProject): + if e.dependencies: + f.write('\tProjectSection(ProjectDependencies) = postProject\r\n') + for d in e.dependencies: + f.write('\t\t%s = %s\r\n' % (d.get_guid(), d.get_guid())) + f.write('\tEndProjectSection\r\n') + + f.write('EndProject\r\n') + + # Global section + f.write('Global\r\n') + + # Configurations (variants) + f.write('\tGlobalSection(SolutionConfigurationPlatforms) = preSolution\r\n') + for v in self.variants: + f.write('\t\t%s = %s\r\n' % (v, v)) + f.write('\tEndGlobalSection\r\n') + + # Sort config guids for easier diffing of solution changes. + config_guids = [] + config_guids_overrides = {} + for e in all_entries: + if isinstance(e, MSVSProject): + config_guids.append(e.get_guid()) + config_guids_overrides[e.get_guid()] = e.config_platform_overrides + config_guids.sort() + + f.write('\tGlobalSection(ProjectConfigurationPlatforms) = postSolution\r\n') + for g in config_guids: + for v in self.variants: + nv = config_guids_overrides[g].get(v, v) + # Pick which project configuration to build for this solution + # configuration. + f.write('\t\t%s.%s.ActiveCfg = %s\r\n' % ( + g, # Project GUID + v, # Solution build configuration + nv, # Project build config for that solution config + )) + + # Enable project in this solution configuration. + f.write('\t\t%s.%s.Build.0 = %s\r\n' % ( + g, # Project GUID + v, # Solution build configuration + nv, # Project build config for that solution config + )) + f.write('\tEndGlobalSection\r\n') + + # TODO(rspangler): Should be able to configure this stuff too (though I've + # never seen this be any different) + f.write('\tGlobalSection(SolutionProperties) = preSolution\r\n') + f.write('\t\tHideSolutionNode = FALSE\r\n') + f.write('\tEndGlobalSection\r\n') + + # Folder mappings + # Omit this section if there are no folders + if any([e.entries for e in all_entries if isinstance(e, MSVSFolder)]): + f.write('\tGlobalSection(NestedProjects) = preSolution\r\n') + for e in all_entries: + if not isinstance(e, MSVSFolder): + continue # Does not apply to projects, only folders + for subentry in e.entries: + f.write('\t\t%s = %s\r\n' % (subentry.get_guid(), e.get_guid())) + f.write('\tEndGlobalSection\r\n') + + f.write('EndGlobal\r\n') + + f.close() diff --git a/deps/gyp/pylib/gyp/MSVSProject.py b/deps/gyp/pylib/gyp/MSVSProject.py new file mode 100644 index 0000000000..db1ceede34 --- /dev/null +++ b/deps/gyp/pylib/gyp/MSVSProject.py @@ -0,0 +1,208 @@ +# Copyright (c) 2012 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +"""Visual Studio project reader/writer.""" + +import gyp.common +import gyp.easy_xml as easy_xml + +#------------------------------------------------------------------------------ + + +class Tool(object): + """Visual Studio tool.""" + + def __init__(self, name, attrs=None): + """Initializes the tool. + + Args: + name: Tool name. + attrs: Dict of tool attributes; may be None. + """ + self._attrs = attrs or {} + self._attrs['Name'] = name + + def _GetSpecification(self): + """Creates an element for the tool. + + Returns: + A new xml.dom.Element for the tool. + """ + return ['Tool', self._attrs] + +class Filter(object): + """Visual Studio filter - that is, a virtual folder.""" + + def __init__(self, name, contents=None): + """Initializes the folder. + + Args: + name: Filter (folder) name. + contents: List of filenames and/or Filter objects contained. + """ + self.name = name + self.contents = list(contents or []) + + +#------------------------------------------------------------------------------ + + +class Writer(object): + """Visual Studio XML project writer.""" + + def __init__(self, project_path, version, name, guid=None, platforms=None): + """Initializes the project. + + Args: + project_path: Path to the project file. + version: Format version to emit. + name: Name of the project. + guid: GUID to use for project, if not None. + platforms: Array of string, the supported platforms. If null, ['Win32'] + """ + self.project_path = project_path + self.version = version + self.name = name + self.guid = guid + + # Default to Win32 for platforms. + if not platforms: + platforms = ['Win32'] + + # Initialize the specifications of the various sections. + self.platform_section = ['Platforms'] + for platform in platforms: + self.platform_section.append(['Platform', {'Name': platform}]) + self.tool_files_section = ['ToolFiles'] + self.configurations_section = ['Configurations'] + self.files_section = ['Files'] + + # Keep a dict keyed on filename to speed up access. + self.files_dict = dict() + + def AddToolFile(self, path): + """Adds a tool file to the project. + + Args: + path: Relative path from project to tool file. + """ + self.tool_files_section.append(['ToolFile', {'RelativePath': path}]) + + def _GetSpecForConfiguration(self, config_type, config_name, attrs, tools): + """Returns the specification for a configuration. + + Args: + config_type: Type of configuration node. + config_name: Configuration name. + attrs: Dict of configuration attributes; may be None. + tools: List of tools (strings or Tool objects); may be None. + Returns: + """ + # Handle defaults + if not attrs: + attrs = {} + if not tools: + tools = [] + + # Add configuration node and its attributes + node_attrs = attrs.copy() + node_attrs['Name'] = config_name + specification = [config_type, node_attrs] + + # Add tool nodes and their attributes + if tools: + for t in tools: + if isinstance(t, Tool): + specification.append(t._GetSpecification()) + else: + specification.append(Tool(t)._GetSpecification()) + return specification + + + def AddConfig(self, name, attrs=None, tools=None): + """Adds a configuration to the project. + + Args: + name: Configuration name. + attrs: Dict of configuration attributes; may be None. + tools: List of tools (strings or Tool objects); may be None. + """ + spec = self._GetSpecForConfiguration('Configuration', name, attrs, tools) + self.configurations_section.append(spec) + + def _AddFilesToNode(self, parent, files): + """Adds files and/or filters to the parent node. + + Args: + parent: Destination node + files: A list of Filter objects and/or relative paths to files. + + Will call itself recursively, if the files list contains Filter objects. + """ + for f in files: + if isinstance(f, Filter): + node = ['Filter', {'Name': f.name}] + self._AddFilesToNode(node, f.contents) + else: + node = ['File', {'RelativePath': f}] + self.files_dict[f] = node + parent.append(node) + + def AddFiles(self, files): + """Adds files to the project. + + Args: + files: A list of Filter objects and/or relative paths to files. + + This makes a copy of the file/filter tree at the time of this call. If you + later add files to a Filter object which was passed into a previous call + to AddFiles(), it will not be reflected in this project. + """ + self._AddFilesToNode(self.files_section, files) + # TODO(rspangler) This also doesn't handle adding files to an existing + # filter. That is, it doesn't merge the trees. + + def AddFileConfig(self, path, config, attrs=None, tools=None): + """Adds a configuration to a file. + + Args: + path: Relative path to the file. + config: Name of configuration to add. + attrs: Dict of configuration attributes; may be None. + tools: List of tools (strings or Tool objects); may be None. + + Raises: + ValueError: Relative path does not match any file added via AddFiles(). + """ + # Find the file node with the right relative path + parent = self.files_dict.get(path) + if not parent: + raise ValueError('AddFileConfig: file "%s" not in project.' % path) + + # Add the config to the file node + spec = self._GetSpecForConfiguration('FileConfiguration', config, attrs, + tools) + parent.append(spec) + + def WriteIfChanged(self): + """Writes the project file.""" + # First create XML content definition + content = [ + 'VisualStudioProject', + {'ProjectType': 'Visual C++', + 'Version': self.version.ProjectVersion(), + 'Name': self.name, + 'ProjectGUID': self.guid, + 'RootNamespace': self.name, + 'Keyword': 'Win32Proj' + }, + self.platform_section, + self.tool_files_section, + self.configurations_section, + ['References'], # empty section + self.files_section, + ['Globals'] # empty section + ] + easy_xml.WriteXmlIfChanged(content, self.project_path, + encoding="Windows-1252") diff --git a/deps/gyp/pylib/gyp/MSVSSettings.py b/deps/gyp/pylib/gyp/MSVSSettings.py new file mode 100644 index 0000000000..773b74e984 --- /dev/null +++ b/deps/gyp/pylib/gyp/MSVSSettings.py @@ -0,0 +1,1063 @@ +# Copyright (c) 2012 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +"""Code to validate and convert settings of the Microsoft build tools. + +This file contains code to validate and convert settings of the Microsoft +build tools. The function ConvertToMSBuildSettings(), ValidateMSVSSettings(), +and ValidateMSBuildSettings() are the entry points. + +This file was created by comparing the projects created by Visual Studio 2008 +and Visual Studio 2010 for all available settings through the user interface. +The MSBuild schemas were also considered. They are typically found in the +MSBuild install directory, e.g. c:\Program Files (x86)\MSBuild +""" + +import sys +import re + +# Dictionaries of settings validators. The key is the tool name, the value is +# a dictionary mapping setting names to validation functions. +_msvs_validators = {} +_msbuild_validators = {} + + +# A dictionary of settings converters. The key is the tool name, the value is +# a dictionary mapping setting names to conversion functions. +_msvs_to_msbuild_converters = {} + + +# Tool name mapping from MSVS to MSBuild. +_msbuild_name_of_tool = {} + + +class _Tool(object): + """Represents a tool used by MSVS or MSBuild. + + Attributes: + msvs_name: The name of the tool in MSVS. + msbuild_name: The name of the tool in MSBuild. + """ + + def __init__(self, msvs_name, msbuild_name): + self.msvs_name = msvs_name + self.msbuild_name = msbuild_name + + +def _AddTool(tool): + """Adds a tool to the four dictionaries used to process settings. + + This only defines the tool. Each setting also needs to be added. + + Args: + tool: The _Tool object to be added. + """ + _msvs_validators[tool.msvs_name] = {} + _msbuild_validators[tool.msbuild_name] = {} + _msvs_to_msbuild_converters[tool.msvs_name] = {} + _msbuild_name_of_tool[tool.msvs_name] = tool.msbuild_name + + +def _GetMSBuildToolSettings(msbuild_settings, tool): + """Returns an MSBuild tool dictionary. Creates it if needed.""" + return msbuild_settings.setdefault(tool.msbuild_name, {}) + + +class _Type(object): + """Type of settings (Base class).""" + + def ValidateMSVS(self, value): + """Verifies that the value is legal for MSVS. + + Args: + value: the value to check for this type. + + Raises: + ValueError if value is not valid for MSVS. + """ + + def ValidateMSBuild(self, value): + """Verifies that the value is legal for MSBuild. + + Args: + value: the value to check for this type. + + Raises: + ValueError if value is not valid for MSBuild. + """ + + def ConvertToMSBuild(self, value): + """Returns the MSBuild equivalent of the MSVS value given. + + Args: + value: the MSVS value to convert. + + Returns: + the MSBuild equivalent. + + Raises: + ValueError if value is not valid. + """ + return value + + +class _String(_Type): + """A setting that's just a string.""" + + def ValidateMSVS(self, value): + if not isinstance(value, basestring): + raise ValueError('expected string; got %r' % value) + + def ValidateMSBuild(self, value): + if not isinstance(value, basestring): + raise ValueError('expected string; got %r' % value) + + def ConvertToMSBuild(self, value): + # Convert the macros + return ConvertVCMacrosToMSBuild(value) + + +class _StringList(_Type): + """A settings that's a list of strings.""" + + def ValidateMSVS(self, value): + if not isinstance(value, basestring) and not isinstance(value, list): + raise ValueError('expected string list; got %r' % value) + + def ValidateMSBuild(self, value): + if not isinstance(value, basestring) and not isinstance(value, list): + raise ValueError('expected string list; got %r' % value) + + def ConvertToMSBuild(self, value): + # Convert the macros + if isinstance(value, list): + return [ConvertVCMacrosToMSBuild(i) for i in value] + else: + return ConvertVCMacrosToMSBuild(value) + + +class _Boolean(_Type): + """Boolean settings, can have the values 'false' or 'true'.""" + + def _Validate(self, value): + if value != 'true' and value != 'false': + raise ValueError('expected bool; got %r' % value) + + def ValidateMSVS(self, value): + self._Validate(value) + + def ValidateMSBuild(self, value): + self._Validate(value) + + def ConvertToMSBuild(self, value): + self._Validate(value) + return value + + +class _Integer(_Type): + """Integer settings.""" + + def __init__(self, msbuild_base=10): + _Type.__init__(self) + self._msbuild_base = msbuild_base + + def ValidateMSVS(self, value): + # Try to convert, this will raise ValueError if invalid. + self.ConvertToMSBuild(value) + + def ValidateMSBuild(self, value): + # Try to convert, this will raise ValueError if invalid. + int(value, self._msbuild_base) + + def ConvertToMSBuild(self, value): + msbuild_format = (self._msbuild_base == 10) and '%d' or '0x%04x' + return msbuild_format % int(value) + + +class _Enumeration(_Type): + """Type of settings that is an enumeration. + + In MSVS, the values are indexes like '0', '1', and '2'. + MSBuild uses text labels that are more representative, like 'Win32'. + + Constructor args: + label_list: an array of MSBuild labels that correspond to the MSVS index. + In the rare cases where MSVS has skipped an index value, None is + used in the array to indicate the unused spot. + new: an array of labels that are new to MSBuild. + """ + + def __init__(self, label_list, new=None): + _Type.__init__(self) + self._label_list = label_list + self._msbuild_values = set(value for value in label_list + if value is not None) + if new is not None: + self._msbuild_values.update(new) + + def ValidateMSVS(self, value): + # Try to convert. It will raise an exception if not valid. + self.ConvertToMSBuild(value) + + def ValidateMSBuild(self, value): + if value not in self._msbuild_values: + raise ValueError('unrecognized enumerated value %s' % value) + + def ConvertToMSBuild(self, value): + index = int(value) + if index < 0 or index >= len(self._label_list): + raise ValueError('index value (%d) not in expected range [0, %d)' % + (index, len(self._label_list))) + label = self._label_list[index] + if label is None: + raise ValueError('converted value for %s not specified.' % value) + return label + + +# Instantiate the various generic types. +_boolean = _Boolean() +_integer = _Integer() +# For now, we don't do any special validation on these types: +_string = _String() +_file_name = _String() +_folder_name = _String() +_file_list = _StringList() +_folder_list = _StringList() +_string_list = _StringList() +# Some boolean settings went from numerical values to boolean. The +# mapping is 0: default, 1: false, 2: true. +_newly_boolean = _Enumeration(['', 'false', 'true']) + + +def _Same(tool, name, setting_type): + """Defines a setting that has the same name in MSVS and MSBuild. + + Args: + tool: a dictionary that gives the names of the tool for MSVS and MSBuild. + name: the name of the setting. + setting_type: the type of this setting. + """ + _Renamed(tool, name, name, setting_type) + + +def _Renamed(tool, msvs_name, msbuild_name, setting_type): + """Defines a setting for which the name has changed. + + Args: + tool: a dictionary that gives the names of the tool for MSVS and MSBuild. + msvs_name: the name of the MSVS setting. + msbuild_name: the name of the MSBuild setting. + setting_type: the type of this setting. + """ + + def _Translate(value, msbuild_settings): + msbuild_tool_settings = _GetMSBuildToolSettings(msbuild_settings, tool) + msbuild_tool_settings[msbuild_name] = setting_type.ConvertToMSBuild(value) + + _msvs_validators[tool.msvs_name][msvs_name] = setting_type.ValidateMSVS + _msbuild_validators[tool.msbuild_name][msbuild_name] = ( + setting_type.ValidateMSBuild) + _msvs_to_msbuild_converters[tool.msvs_name][msvs_name] = _Translate + + +def _Moved(tool, settings_name, msbuild_tool_name, setting_type): + _MovedAndRenamed(tool, settings_name, msbuild_tool_name, settings_name, + setting_type) + + +def _MovedAndRenamed(tool, msvs_settings_name, msbuild_tool_name, + msbuild_settings_name, setting_type): + """Defines a setting that may have moved to a new section. + + Args: + tool: a dictionary that gives the names of the tool for MSVS and MSBuild. + msvs_settings_name: the MSVS name of the setting. + msbuild_tool_name: the name of the MSBuild tool to place the setting under. + msbuild_settings_name: the MSBuild name of the setting. + setting_type: the type of this setting. + """ + + def _Translate(value, msbuild_settings): + tool_settings = msbuild_settings.setdefault(msbuild_tool_name, {}) + tool_settings[msbuild_settings_name] = setting_type.ConvertToMSBuild(value) + + _msvs_validators[tool.msvs_name][msvs_settings_name] = ( + setting_type.ValidateMSVS) + validator = setting_type.ValidateMSBuild + _msbuild_validators[msbuild_tool_name][msbuild_settings_name] = validator + _msvs_to_msbuild_converters[tool.msvs_name][msvs_settings_name] = _Translate + + +def _MSVSOnly(tool, name, setting_type): + """Defines a setting that is only found in MSVS. + + Args: + tool: a dictionary that gives the names of the tool for MSVS and MSBuild. + name: the name of the setting. + setting_type: the type of this setting. + """ + + def _Translate(unused_value, unused_msbuild_settings): + # Since this is for MSVS only settings, no translation will happen. + pass + + _msvs_validators[tool.msvs_name][name] = setting_type.ValidateMSVS + _msvs_to_msbuild_converters[tool.msvs_name][name] = _Translate + + +def _MSBuildOnly(tool, name, setting_type): + """Defines a setting that is only found in MSBuild. + + Args: + tool: a dictionary that gives the names of the tool for MSVS and MSBuild. + name: the name of the setting. + setting_type: the type of this setting. + """ + _msbuild_validators[tool.msbuild_name][name] = setting_type.ValidateMSBuild + + +def _ConvertedToAdditionalOption(tool, msvs_name, flag): + """Defines a setting that's handled via a command line option in MSBuild. + + Args: + tool: a dictionary that gives the names of the tool for MSVS and MSBuild. + msvs_name: the name of the MSVS setting that if 'true' becomes a flag + flag: the flag to insert at the end of the AdditionalOptions + """ + + def _Translate(value, msbuild_settings): + if value == 'true': + tool_settings = _GetMSBuildToolSettings(msbuild_settings, tool) + if 'AdditionalOptions' in tool_settings: + new_flags = '%s %s' % (tool_settings['AdditionalOptions'], flag) + else: + new_flags = flag + tool_settings['AdditionalOptions'] = new_flags + _msvs_validators[tool.msvs_name][msvs_name] = _boolean.ValidateMSVS + _msvs_to_msbuild_converters[tool.msvs_name][msvs_name] = _Translate + + +def _CustomGeneratePreprocessedFile(tool, msvs_name): + def _Translate(value, msbuild_settings): + tool_settings = _GetMSBuildToolSettings(msbuild_settings, tool) + if value == '0': + tool_settings['PreprocessToFile'] = 'false' + tool_settings['PreprocessSuppressLineNumbers'] = 'false' + elif value == '1': # /P + tool_settings['PreprocessToFile'] = 'true' + tool_settings['PreprocessSuppressLineNumbers'] = 'false' + elif value == '2': # /EP /P + tool_settings['PreprocessToFile'] = 'true' + tool_settings['PreprocessSuppressLineNumbers'] = 'true' + else: + raise ValueError('value must be one of [0, 1, 2]; got %s' % value) + # Create a bogus validator that looks for '0', '1', or '2' + msvs_validator = _Enumeration(['a', 'b', 'c']).ValidateMSVS + _msvs_validators[tool.msvs_name][msvs_name] = msvs_validator + msbuild_validator = _boolean.ValidateMSBuild + msbuild_tool_validators = _msbuild_validators[tool.msbuild_name] + msbuild_tool_validators['PreprocessToFile'] = msbuild_validator + msbuild_tool_validators['PreprocessSuppressLineNumbers'] = msbuild_validator + _msvs_to_msbuild_converters[tool.msvs_name][msvs_name] = _Translate + + +fix_vc_macro_slashes_regex_list = ('IntDir', 'OutDir') +fix_vc_macro_slashes_regex = re.compile( + r'(\$\((?:%s)\))(?:[\\/]+)' % "|".join(fix_vc_macro_slashes_regex_list) +) + +def FixVCMacroSlashes(s): + """Replace macros which have excessive following slashes. + + These macros are known to have a built-in trailing slash. Furthermore, many + scripts hiccup on processing paths with extra slashes in the middle. + + This list is probably not exhaustive. Add as needed. + """ + if '$' in s: + s = fix_vc_macro_slashes_regex.sub(r'\1', s) + return s + + +def ConvertVCMacrosToMSBuild(s): + """Convert the the MSVS macros found in the string to the MSBuild equivalent. + + This list is probably not exhaustive. Add as needed. + """ + if '$' in s: + replace_map = { + '$(ConfigurationName)': '$(Configuration)', + '$(InputDir)': '%(RootDir)%(Directory)', + '$(InputExt)': '%(Extension)', + '$(InputFileName)': '%(Filename)%(Extension)', + '$(InputName)': '%(Filename)', + '$(InputPath)': '%(FullPath)', + '$(ParentName)': '$(ProjectFileName)', + '$(PlatformName)': '$(Platform)', + '$(SafeInputName)': '%(Filename)', + } + for old, new in replace_map.iteritems(): + s = s.replace(old, new) + s = FixVCMacroSlashes(s) + return s + + +_EXCLUDED_SUFFIX_RE = re.compile('^(.*)_excluded$') + + +def ConvertToMSBuildSettings(msvs_settings, stderr=sys.stderr): + """Converts MSVS settings (VS2008 and earlier) to MSBuild settings (VS2010+). + + Args: + msvs_settings: A dictionary. The key is the tool name. The values are + themselves dictionaries of settings and their values. + stderr: The stream receiving the error messages. + + Returns: + A dictionary of MSBuild settings. The key is either the MSBuild tool name + or the empty string (for the global settings). The values are themselves + dictionaries of settings and their values. + """ + msbuild_settings = {} + for msvs_tool_name, msvs_tool_settings in msvs_settings.iteritems(): + if msvs_tool_name in _msvs_to_msbuild_converters: + msvs_tool = _msvs_to_msbuild_converters[msvs_tool_name] + for msvs_setting, msvs_value in msvs_tool_settings.iteritems(): + if msvs_setting in msvs_tool: + # Invoke the translation function. + try: + msvs_tool[msvs_setting](msvs_value, msbuild_settings) + except ValueError, e: + print >> stderr, ('Warning: while converting %s/%s to MSBuild, ' + '%s' % (msvs_tool_name, msvs_setting, e)) + else: + # This may be unrecognized because it's an exclusion list. If the + # setting name has the _excluded suffix, then check the root name. + unrecognized = True + m = re.match(_EXCLUDED_SUFFIX_RE, msvs_setting) + if m: + root_msvs_setting = m.group(1) + unrecognized = root_msvs_setting not in msvs_tool + + if unrecognized: + # We don't know this setting. Give a warning. + print >> stderr, ('Warning: unrecognized setting %s/%s ' + 'while converting to MSBuild.' % + (msvs_tool_name, msvs_setting)) + else: + print >> stderr, ('Warning: unrecognized tool %s while converting to ' + 'MSBuild.' % msvs_tool_name) + return msbuild_settings + + +def ValidateMSVSSettings(settings, stderr=sys.stderr): + """Validates that the names of the settings are valid for MSVS. + + Args: + settings: A dictionary. The key is the tool name. The values are + themselves dictionaries of settings and their values. + stderr: The stream receiving the error messages. + """ + _ValidateSettings(_msvs_validators, settings, stderr) + + +def ValidateMSBuildSettings(settings, stderr=sys.stderr): + """Validates that the names of the settings are valid for MSBuild. + + Args: + settings: A dictionary. The key is the tool name. The values are + themselves dictionaries of settings and their values. + stderr: The stream receiving the error messages. + """ + _ValidateSettings(_msbuild_validators, settings, stderr) + + +def _ValidateSettings(validators, settings, stderr): + """Validates that the settings are valid for MSBuild or MSVS. + + We currently only validate the names of the settings, not their values. + + Args: + validators: A dictionary of tools and their validators. + settings: A dictionary. The key is the tool name. The values are + themselves dictionaries of settings and their values. + stderr: The stream receiving the error messages. + """ + for tool_name in settings: + if tool_name in validators: + tool_validators = validators[tool_name] + for setting, value in settings[tool_name].iteritems(): + if setting in tool_validators: + try: + tool_validators[setting](value) + except ValueError, e: + print >> stderr, ('Warning: for %s/%s, %s' % + (tool_name, setting, e)) + else: + print >> stderr, ('Warning: unrecognized setting %s/%s' % + (tool_name, setting)) + else: + print >> stderr, ('Warning: unrecognized tool %s' % tool_name) + + +# MSVS and MBuild names of the tools. +_compile = _Tool('VCCLCompilerTool', 'ClCompile') +_link = _Tool('VCLinkerTool', 'Link') +_midl = _Tool('VCMIDLTool', 'Midl') +_rc = _Tool('VCResourceCompilerTool', 'ResourceCompile') +_lib = _Tool('VCLibrarianTool', 'Lib') +_manifest = _Tool('VCManifestTool', 'Manifest') + + +_AddTool(_compile) +_AddTool(_link) +_AddTool(_midl) +_AddTool(_rc) +_AddTool(_lib) +_AddTool(_manifest) +# Add sections only found in the MSBuild settings. +_msbuild_validators[''] = {} +_msbuild_validators['ProjectReference'] = {} +_msbuild_validators['ManifestResourceCompile'] = {} + +# Descriptions of the compiler options, i.e. VCCLCompilerTool in MSVS and +# ClCompile in MSBuild. +# See "c:\Program Files (x86)\MSBuild\Microsoft.Cpp\v4.0\1033\cl.xml" for +# the schema of the MSBuild ClCompile settings. + +# Options that have the same name in MSVS and MSBuild +_Same(_compile, 'AdditionalIncludeDirectories', _folder_list) # /I +_Same(_compile, 'AdditionalOptions', _string_list) +_Same(_compile, 'AdditionalUsingDirectories', _folder_list) # /AI +_Same(_compile, 'AssemblerListingLocation', _file_name) # /Fa +_Same(_compile, 'BrowseInformationFile', _file_name) +_Same(_compile, 'BufferSecurityCheck', _boolean) # /GS +_Same(_compile, 'DisableLanguageExtensions', _boolean) # /Za +_Same(_compile, 'DisableSpecificWarnings', _string_list) # /wd +_Same(_compile, 'EnableFiberSafeOptimizations', _boolean) # /GT +_Same(_compile, 'EnablePREfast', _boolean) # /analyze Visible='false' +_Same(_compile, 'ExpandAttributedSource', _boolean) # /Fx +_Same(_compile, 'FloatingPointExceptions', _boolean) # /fp:except +_Same(_compile, 'ForceConformanceInForLoopScope', _boolean) # /Zc:forScope +_Same(_compile, 'ForcedIncludeFiles', _file_list) # /FI +_Same(_compile, 'ForcedUsingFiles', _file_list) # /FU +_Same(_compile, 'GenerateXMLDocumentationFiles', _boolean) # /doc +_Same(_compile, 'IgnoreStandardIncludePath', _boolean) # /X +_Same(_compile, 'MinimalRebuild', _boolean) # /Gm +_Same(_compile, 'OmitDefaultLibName', _boolean) # /Zl +_Same(_compile, 'OmitFramePointers', _boolean) # /Oy +_Same(_compile, 'PreprocessorDefinitions', _string_list) # /D +_Same(_compile, 'ProgramDataBaseFileName', _file_name) # /Fd +_Same(_compile, 'RuntimeTypeInfo', _boolean) # /GR +_Same(_compile, 'ShowIncludes', _boolean) # /showIncludes +_Same(_compile, 'SmallerTypeCheck', _boolean) # /RTCc +_Same(_compile, 'StringPooling', _boolean) # /GF +_Same(_compile, 'SuppressStartupBanner', _boolean) # /nologo +_Same(_compile, 'TreatWChar_tAsBuiltInType', _boolean) # /Zc:wchar_t +_Same(_compile, 'UndefineAllPreprocessorDefinitions', _boolean) # /u +_Same(_compile, 'UndefinePreprocessorDefinitions', _string_list) # /U +_Same(_compile, 'UseFullPaths', _boolean) # /FC +_Same(_compile, 'WholeProgramOptimization', _boolean) # /GL +_Same(_compile, 'XMLDocumentationFileName', _file_name) + +_Same(_compile, 'AssemblerOutput', + _Enumeration(['NoListing', + 'AssemblyCode', # /FA + 'All', # /FAcs + 'AssemblyAndMachineCode', # /FAc + 'AssemblyAndSourceCode'])) # /FAs +_Same(_compile, 'BasicRuntimeChecks', + _Enumeration(['Default', + 'StackFrameRuntimeCheck', # /RTCs + 'UninitializedLocalUsageCheck', # /RTCu + 'EnableFastChecks'])) # /RTC1 +_Same(_compile, 'BrowseInformation', + _Enumeration(['false', + 'true', # /FR + 'true'])) # /Fr +_Same(_compile, 'CallingConvention', + _Enumeration(['Cdecl', # /Gd + 'FastCall', # /Gr + 'StdCall'])) # /Gz +_Same(_compile, 'CompileAs', + _Enumeration(['Default', + 'CompileAsC', # /TC + 'CompileAsCpp'])) # /TP +_Same(_compile, 'DebugInformationFormat', + _Enumeration(['', # Disabled + 'OldStyle', # /Z7 + None, + 'ProgramDatabase', # /Zi + 'EditAndContinue'])) # /ZI +_Same(_compile, 'EnableEnhancedInstructionSet', + _Enumeration(['NotSet', + 'StreamingSIMDExtensions', # /arch:SSE + 'StreamingSIMDExtensions2'])) # /arch:SSE2 +_Same(_compile, 'ErrorReporting', + _Enumeration(['None', # /errorReport:none + 'Prompt', # /errorReport:prompt + 'Queue'], # /errorReport:queue + new=['Send'])) # /errorReport:send" +_Same(_compile, 'ExceptionHandling', + _Enumeration(['false', + 'Sync', # /EHsc + 'Async'], # /EHa + new=['SyncCThrow'])) # /EHs +_Same(_compile, 'FavorSizeOrSpeed', + _Enumeration(['Neither', + 'Speed', # /Ot + 'Size'])) # /Os +_Same(_compile, 'FloatingPointModel', + _Enumeration(['Precise', # /fp:precise + 'Strict', # /fp:strict + 'Fast'])) # /fp:fast +_Same(_compile, 'InlineFunctionExpansion', + _Enumeration(['Default', + 'OnlyExplicitInline', # /Ob1 + 'AnySuitable'], # /Ob2 + new=['Disabled'])) # /Ob0 +_Same(_compile, 'Optimization', + _Enumeration(['Disabled', # /Od + 'MinSpace', # /O1 + 'MaxSpeed', # /O2 + 'Full'])) # /Ox +_Same(_compile, 'RuntimeLibrary', + _Enumeration(['MultiThreaded', # /MT + 'MultiThreadedDebug', # /MTd + 'MultiThreadedDLL', # /MD + 'MultiThreadedDebugDLL'])) # /MDd +_Same(_compile, 'StructMemberAlignment', + _Enumeration(['Default', + '1Byte', # /Zp1 + '2Bytes', # /Zp2 + '4Bytes', # /Zp4 + '8Bytes', # /Zp8 + '16Bytes'])) # /Zp16 +_Same(_compile, 'WarningLevel', + _Enumeration(['TurnOffAllWarnings', # /W0 + 'Level1', # /W1 + 'Level2', # /W2 + 'Level3', # /W3 + 'Level4'], # /W4 + new=['EnableAllWarnings'])) # /Wall + +# Options found in MSVS that have been renamed in MSBuild. +_Renamed(_compile, 'EnableFunctionLevelLinking', 'FunctionLevelLinking', + _boolean) # /Gy +_Renamed(_compile, 'EnableIntrinsicFunctions', 'IntrinsicFunctions', + _boolean) # /Oi +_Renamed(_compile, 'KeepComments', 'PreprocessKeepComments', _boolean) # /C +_Renamed(_compile, 'ObjectFile', 'ObjectFileName', _file_name) # /Fo +_Renamed(_compile, 'OpenMP', 'OpenMPSupport', _boolean) # /openmp +_Renamed(_compile, 'PrecompiledHeaderThrough', 'PrecompiledHeaderFile', + _file_name) # Used with /Yc and /Yu +_Renamed(_compile, 'PrecompiledHeaderFile', 'PrecompiledHeaderOutputFile', + _file_name) # /Fp +_Renamed(_compile, 'UsePrecompiledHeader', 'PrecompiledHeader', + _Enumeration(['NotUsing', # VS recognized '' for this value too. + 'Create', # /Yc + 'Use'])) # /Yu +_Renamed(_compile, 'WarnAsError', 'TreatWarningAsError', _boolean) # /WX + +_ConvertedToAdditionalOption(_compile, 'DefaultCharIsUnsigned', '/J') + +# MSVS options not found in MSBuild. +_MSVSOnly(_compile, 'Detect64BitPortabilityProblems', _boolean) +_MSVSOnly(_compile, 'UseUnicodeResponseFiles', _boolean) + +# MSBuild options not found in MSVS. +_MSBuildOnly(_compile, 'BuildingInIDE', _boolean) +_MSBuildOnly(_compile, 'CompileAsManaged', + _Enumeration([], new=['false', + 'true', # /clr + 'Pure', # /clr:pure + 'Safe', # /clr:safe + 'OldSyntax'])) # /clr:oldSyntax +_MSBuildOnly(_compile, 'CreateHotpatchableImage', _boolean) # /hotpatch +_MSBuildOnly(_compile, 'MultiProcessorCompilation', _boolean) # /MP +_MSBuildOnly(_compile, 'PreprocessOutputPath', _string) # /Fi +_MSBuildOnly(_compile, 'ProcessorNumber', _integer) # the number of processors +_MSBuildOnly(_compile, 'TrackerLogDirectory', _folder_name) +_MSBuildOnly(_compile, 'TreatSpecificWarningsAsErrors', _string_list) # /we +_MSBuildOnly(_compile, 'UseUnicodeForAssemblerListing', _boolean) # /FAu + +# Defines a setting that needs very customized processing +_CustomGeneratePreprocessedFile(_compile, 'GeneratePreprocessedFile') + + +# Directives for converting MSVS VCLinkerTool to MSBuild Link. +# See "c:\Program Files (x86)\MSBuild\Microsoft.Cpp\v4.0\1033\link.xml" for +# the schema of the MSBuild Link settings. + +# Options that have the same name in MSVS and MSBuild +_Same(_link, 'AdditionalDependencies', _file_list) +_Same(_link, 'AdditionalLibraryDirectories', _folder_list) # /LIBPATH +# /MANIFESTDEPENDENCY: +_Same(_link, 'AdditionalManifestDependencies', _file_list) +_Same(_link, 'AdditionalOptions', _string_list) +_Same(_link, 'AddModuleNamesToAssembly', _file_list) # /ASSEMBLYMODULE +_Same(_link, 'AllowIsolation', _boolean) # /ALLOWISOLATION +_Same(_link, 'AssemblyLinkResource', _file_list) # /ASSEMBLYLINKRESOURCE +_Same(_link, 'BaseAddress', _string) # /BASE +_Same(_link, 'CLRUnmanagedCodeCheck', _boolean) # /CLRUNMANAGEDCODECHECK +_Same(_link, 'DelayLoadDLLs', _file_list) # /DELAYLOAD +_Same(_link, 'DelaySign', _boolean) # /DELAYSIGN +_Same(_link, 'EmbedManagedResourceFile', _file_list) # /ASSEMBLYRESOURCE +_Same(_link, 'EnableUAC', _boolean) # /MANIFESTUAC +_Same(_link, 'EntryPointSymbol', _string) # /ENTRY +_Same(_link, 'ForceSymbolReferences', _file_list) # /INCLUDE +_Same(_link, 'FunctionOrder', _file_name) # /ORDER +_Same(_link, 'GenerateDebugInformation', _boolean) # /DEBUG +_Same(_link, 'GenerateMapFile', _boolean) # /MAP +_Same(_link, 'HeapCommitSize', _string) +_Same(_link, 'HeapReserveSize', _string) # /HEAP +_Same(_link, 'IgnoreAllDefaultLibraries', _boolean) # /NODEFAULTLIB +_Same(_link, 'IgnoreEmbeddedIDL', _boolean) # /IGNOREIDL +_Same(_link, 'ImportLibrary', _file_name) # /IMPLIB +_Same(_link, 'KeyContainer', _file_name) # /KEYCONTAINER +_Same(_link, 'KeyFile', _file_name) # /KEYFILE +_Same(_link, 'ManifestFile', _file_name) # /ManifestFile +_Same(_link, 'MapExports', _boolean) # /MAPINFO:EXPORTS +_Same(_link, 'MapFileName', _file_name) +_Same(_link, 'MergedIDLBaseFileName', _file_name) # /IDLOUT +_Same(_link, 'MergeSections', _string) # /MERGE +_Same(_link, 'MidlCommandFile', _file_name) # /MIDL +_Same(_link, 'ModuleDefinitionFile', _file_name) # /DEF +_Same(_link, 'OutputFile', _file_name) # /OUT +_Same(_link, 'PerUserRedirection', _boolean) +_Same(_link, 'Profile', _boolean) # /PROFILE +_Same(_link, 'ProfileGuidedDatabase', _file_name) # /PGD +_Same(_link, 'ProgramDatabaseFile', _file_name) # /PDB +_Same(_link, 'RegisterOutput', _boolean) +_Same(_link, 'SetChecksum', _boolean) # /RELEASE +_Same(_link, 'StackCommitSize', _string) +_Same(_link, 'StackReserveSize', _string) # /STACK +_Same(_link, 'StripPrivateSymbols', _file_name) # /PDBSTRIPPED +_Same(_link, 'SupportUnloadOfDelayLoadedDLL', _boolean) # /DELAY:UNLOAD +_Same(_link, 'SuppressStartupBanner', _boolean) # /NOLOGO +_Same(_link, 'SwapRunFromCD', _boolean) # /SWAPRUN:CD +_Same(_link, 'TurnOffAssemblyGeneration', _boolean) # /NOASSEMBLY +_Same(_link, 'TypeLibraryFile', _file_name) # /TLBOUT +_Same(_link, 'TypeLibraryResourceID', _integer) # /TLBID +_Same(_link, 'UACUIAccess', _boolean) # /uiAccess='true' +_Same(_link, 'Version', _string) # /VERSION + +_Same(_link, 'EnableCOMDATFolding', _newly_boolean) # /OPT:ICF +_Same(_link, 'FixedBaseAddress', _newly_boolean) # /FIXED +_Same(_link, 'LargeAddressAware', _newly_boolean) # /LARGEADDRESSAWARE +_Same(_link, 'OptimizeReferences', _newly_boolean) # /OPT:REF +_Same(_link, 'RandomizedBaseAddress', _newly_boolean) # /DYNAMICBASE +_Same(_link, 'TerminalServerAware', _newly_boolean) # /TSAWARE + +_subsystem_enumeration = _Enumeration( + ['NotSet', + 'Console', # /SUBSYSTEM:CONSOLE + 'Windows', # /SUBSYSTEM:WINDOWS + 'Native', # /SUBSYSTEM:NATIVE + 'EFI Application', # /SUBSYSTEM:EFI_APPLICATION + 'EFI Boot Service Driver', # /SUBSYSTEM:EFI_BOOT_SERVICE_DRIVER + 'EFI ROM', # /SUBSYSTEM:EFI_ROM + 'EFI Runtime', # /SUBSYSTEM:EFI_RUNTIME_DRIVER + 'WindowsCE'], # /SUBSYSTEM:WINDOWSCE + new=['POSIX']) # /SUBSYSTEM:POSIX + +_target_machine_enumeration = _Enumeration( + ['NotSet', + 'MachineX86', # /MACHINE:X86 + None, + 'MachineARM', # /MACHINE:ARM + 'MachineEBC', # /MACHINE:EBC + 'MachineIA64', # /MACHINE:IA64 + None, + 'MachineMIPS', # /MACHINE:MIPS + 'MachineMIPS16', # /MACHINE:MIPS16 + 'MachineMIPSFPU', # /MACHINE:MIPSFPU + 'MachineMIPSFPU16', # /MACHINE:MIPSFPU16 + None, + None, + None, + 'MachineSH4', # /MACHINE:SH4 + None, + 'MachineTHUMB', # /MACHINE:THUMB + 'MachineX64']) # /MACHINE:X64 + +_Same(_link, 'AssemblyDebug', + _Enumeration(['', + 'true', # /ASSEMBLYDEBUG + 'false'])) # /ASSEMBLYDEBUG:DISABLE +_Same(_link, 'CLRImageType', + _Enumeration(['Default', + 'ForceIJWImage', # /CLRIMAGETYPE:IJW + 'ForcePureILImage', # /Switch="CLRIMAGETYPE:PURE + 'ForceSafeILImage'])) # /Switch="CLRIMAGETYPE:SAFE +_Same(_link, 'CLRThreadAttribute', + _Enumeration(['DefaultThreadingAttribute', # /CLRTHREADATTRIBUTE:NONE + 'MTAThreadingAttribute', # /CLRTHREADATTRIBUTE:MTA + 'STAThreadingAttribute'])) # /CLRTHREADATTRIBUTE:STA +_Same(_link, 'DataExecutionPrevention', + _Enumeration(['', + 'false', # /NXCOMPAT:NO + 'true'])) # /NXCOMPAT +_Same(_link, 'Driver', + _Enumeration(['NotSet', + 'Driver', # /Driver + 'UpOnly', # /DRIVER:UPONLY + 'WDM'])) # /DRIVER:WDM +_Same(_link, 'LinkTimeCodeGeneration', + _Enumeration(['Default', + 'UseLinkTimeCodeGeneration', # /LTCG + 'PGInstrument', # /LTCG:PGInstrument + 'PGOptimization', # /LTCG:PGOptimize + 'PGUpdate'])) # /LTCG:PGUpdate +_Same(_link, 'ShowProgress', + _Enumeration(['NotSet', + 'LinkVerbose', # /VERBOSE + 'LinkVerboseLib'], # /VERBOSE:Lib + new=['LinkVerboseICF', # /VERBOSE:ICF + 'LinkVerboseREF', # /VERBOSE:REF + 'LinkVerboseSAFESEH', # /VERBOSE:SAFESEH + 'LinkVerboseCLR'])) # /VERBOSE:CLR +_Same(_link, 'SubSystem', _subsystem_enumeration) +_Same(_link, 'TargetMachine', _target_machine_enumeration) +_Same(_link, 'UACExecutionLevel', + _Enumeration(['AsInvoker', # /level='asInvoker' + 'HighestAvailable', # /level='highestAvailable' + 'RequireAdministrator'])) # /level='requireAdministrator' +_Same(_link, 'MinimumRequiredVersion', _string) +_Same(_link, 'TreatLinkerWarningAsErrors', _boolean) # /WX + + +# Options found in MSVS that have been renamed in MSBuild. +_Renamed(_link, 'ErrorReporting', 'LinkErrorReporting', + _Enumeration(['NoErrorReport', # /ERRORREPORT:NONE + 'PromptImmediately', # /ERRORREPORT:PROMPT + 'QueueForNextLogin'], # /ERRORREPORT:QUEUE + new=['SendErrorReport'])) # /ERRORREPORT:SEND +_Renamed(_link, 'IgnoreDefaultLibraryNames', 'IgnoreSpecificDefaultLibraries', + _file_list) # /NODEFAULTLIB +_Renamed(_link, 'ResourceOnlyDLL', 'NoEntryPoint', _boolean) # /NOENTRY +_Renamed(_link, 'SwapRunFromNet', 'SwapRunFromNET', _boolean) # /SWAPRUN:NET + +_Moved(_link, 'GenerateManifest', '', _boolean) +_Moved(_link, 'IgnoreImportLibrary', '', _boolean) +_Moved(_link, 'LinkIncremental', '', _newly_boolean) +_Moved(_link, 'LinkLibraryDependencies', 'ProjectReference', _boolean) +_Moved(_link, 'UseLibraryDependencyInputs', 'ProjectReference', _boolean) + +# MSVS options not found in MSBuild. +_MSVSOnly(_link, 'OptimizeForWindows98', _newly_boolean) +_MSVSOnly(_link, 'UseUnicodeResponseFiles', _boolean) +# These settings generate correctly in the MSVS output files when using +# e.g. DelayLoadDLLs! or AdditionalDependencies! to exclude files from +# configuration entries, but result in spurious artifacts which can be +# safely ignored here. See crbug.com/246570 +_MSVSOnly(_link, 'AdditionalLibraryDirectories_excluded', _folder_list) +_MSVSOnly(_link, 'DelayLoadDLLs_excluded', _file_list) +_MSVSOnly(_link, 'AdditionalDependencies_excluded', _file_list) + +# MSBuild options not found in MSVS. +_MSBuildOnly(_link, 'BuildingInIDE', _boolean) +_MSBuildOnly(_link, 'ImageHasSafeExceptionHandlers', _boolean) # /SAFESEH +_MSBuildOnly(_link, 'LinkDLL', _boolean) # /DLL Visible='false' +_MSBuildOnly(_link, 'LinkStatus', _boolean) # /LTCG:STATUS +_MSBuildOnly(_link, 'PreventDllBinding', _boolean) # /ALLOWBIND +_MSBuildOnly(_link, 'SupportNobindOfDelayLoadedDLL', _boolean) # /DELAY:NOBIND +_MSBuildOnly(_link, 'TrackerLogDirectory', _folder_name) +_MSBuildOnly(_link, 'MSDOSStubFileName', _file_name) # /STUB Visible='false' +_MSBuildOnly(_link, 'SectionAlignment', _integer) # /ALIGN +_MSBuildOnly(_link, 'SpecifySectionAttributes', _string) # /SECTION +_MSBuildOnly(_link, 'ForceFileOutput', + _Enumeration([], new=['Enabled', # /FORCE + # /FORCE:MULTIPLE + 'MultiplyDefinedSymbolOnly', + 'UndefinedSymbolOnly'])) # /FORCE:UNRESOLVED +_MSBuildOnly(_link, 'CreateHotPatchableImage', + _Enumeration([], new=['Enabled', # /FUNCTIONPADMIN + 'X86Image', # /FUNCTIONPADMIN:5 + 'X64Image', # /FUNCTIONPADMIN:6 + 'ItaniumImage'])) # /FUNCTIONPADMIN:16 +_MSBuildOnly(_link, 'CLRSupportLastError', + _Enumeration([], new=['Enabled', # /CLRSupportLastError + 'Disabled', # /CLRSupportLastError:NO + # /CLRSupportLastError:SYSTEMDLL + 'SystemDlls'])) + + +# Directives for converting VCResourceCompilerTool to ResourceCompile. +# See "c:\Program Files (x86)\MSBuild\Microsoft.Cpp\v4.0\1033\rc.xml" for +# the schema of the MSBuild ResourceCompile settings. + +_Same(_rc, 'AdditionalOptions', _string_list) +_Same(_rc, 'AdditionalIncludeDirectories', _folder_list) # /I +_Same(_rc, 'Culture', _Integer(msbuild_base=16)) +_Same(_rc, 'IgnoreStandardIncludePath', _boolean) # /X +_Same(_rc, 'PreprocessorDefinitions', _string_list) # /D +_Same(_rc, 'ResourceOutputFileName', _string) # /fo +_Same(_rc, 'ShowProgress', _boolean) # /v +# There is no UI in VisualStudio 2008 to set the following properties. +# However they are found in CL and other tools. Include them here for +# completeness, as they are very likely to have the same usage pattern. +_Same(_rc, 'SuppressStartupBanner', _boolean) # /nologo +_Same(_rc, 'UndefinePreprocessorDefinitions', _string_list) # /u + +# MSBuild options not found in MSVS. +_MSBuildOnly(_rc, 'NullTerminateStrings', _boolean) # /n +_MSBuildOnly(_rc, 'TrackerLogDirectory', _folder_name) + + +# Directives for converting VCMIDLTool to Midl. +# See "c:\Program Files (x86)\MSBuild\Microsoft.Cpp\v4.0\1033\midl.xml" for +# the schema of the MSBuild Midl settings. + +_Same(_midl, 'AdditionalIncludeDirectories', _folder_list) # /I +_Same(_midl, 'AdditionalOptions', _string_list) +_Same(_midl, 'CPreprocessOptions', _string) # /cpp_opt +_Same(_midl, 'ErrorCheckAllocations', _boolean) # /error allocation +_Same(_midl, 'ErrorCheckBounds', _boolean) # /error bounds_check +_Same(_midl, 'ErrorCheckEnumRange', _boolean) # /error enum +_Same(_midl, 'ErrorCheckRefPointers', _boolean) # /error ref +_Same(_midl, 'ErrorCheckStubData', _boolean) # /error stub_data +_Same(_midl, 'GenerateStublessProxies', _boolean) # /Oicf +_Same(_midl, 'GenerateTypeLibrary', _boolean) +_Same(_midl, 'HeaderFileName', _file_name) # /h +_Same(_midl, 'IgnoreStandardIncludePath', _boolean) # /no_def_idir +_Same(_midl, 'InterfaceIdentifierFileName', _file_name) # /iid +_Same(_midl, 'MkTypLibCompatible', _boolean) # /mktyplib203 +_Same(_midl, 'OutputDirectory', _string) # /out +_Same(_midl, 'PreprocessorDefinitions', _string_list) # /D +_Same(_midl, 'ProxyFileName', _file_name) # /proxy +_Same(_midl, 'RedirectOutputAndErrors', _file_name) # /o +_Same(_midl, 'SuppressStartupBanner', _boolean) # /nologo +_Same(_midl, 'TypeLibraryName', _file_name) # /tlb +_Same(_midl, 'UndefinePreprocessorDefinitions', _string_list) # /U +_Same(_midl, 'WarnAsError', _boolean) # /WX + +_Same(_midl, 'DefaultCharType', + _Enumeration(['Unsigned', # /char unsigned + 'Signed', # /char signed + 'Ascii'])) # /char ascii7 +_Same(_midl, 'TargetEnvironment', + _Enumeration(['NotSet', + 'Win32', # /env win32 + 'Itanium', # /env ia64 + 'X64'])) # /env x64 +_Same(_midl, 'EnableErrorChecks', + _Enumeration(['EnableCustom', + 'None', # /error none + 'All'])) # /error all +_Same(_midl, 'StructMemberAlignment', + _Enumeration(['NotSet', + '1', # Zp1 + '2', # Zp2 + '4', # Zp4 + '8'])) # Zp8 +_Same(_midl, 'WarningLevel', + _Enumeration(['0', # /W0 + '1', # /W1 + '2', # /W2 + '3', # /W3 + '4'])) # /W4 + +_Renamed(_midl, 'DLLDataFileName', 'DllDataFileName', _file_name) # /dlldata +_Renamed(_midl, 'ValidateParameters', 'ValidateAllParameters', + _boolean) # /robust + +# MSBuild options not found in MSVS. +_MSBuildOnly(_midl, 'ApplicationConfigurationMode', _boolean) # /app_config +_MSBuildOnly(_midl, 'ClientStubFile', _file_name) # /cstub +_MSBuildOnly(_midl, 'GenerateClientFiles', + _Enumeration([], new=['Stub', # /client stub + 'None'])) # /client none +_MSBuildOnly(_midl, 'GenerateServerFiles', + _Enumeration([], new=['Stub', # /client stub + 'None'])) # /client none +_MSBuildOnly(_midl, 'LocaleID', _integer) # /lcid DECIMAL +_MSBuildOnly(_midl, 'ServerStubFile', _file_name) # /sstub +_MSBuildOnly(_midl, 'SuppressCompilerWarnings', _boolean) # /no_warn +_MSBuildOnly(_midl, 'TrackerLogDirectory', _folder_name) +_MSBuildOnly(_midl, 'TypeLibFormat', + _Enumeration([], new=['NewFormat', # /newtlb + 'OldFormat'])) # /oldtlb + + +# Directives for converting VCLibrarianTool to Lib. +# See "c:\Program Files (x86)\MSBuild\Microsoft.Cpp\v4.0\1033\lib.xml" for +# the schema of the MSBuild Lib settings. + +_Same(_lib, 'AdditionalDependencies', _file_list) +_Same(_lib, 'AdditionalLibraryDirectories', _folder_list) # /LIBPATH +_Same(_lib, 'AdditionalOptions', _string_list) +_Same(_lib, 'ExportNamedFunctions', _string_list) # /EXPORT +_Same(_lib, 'ForceSymbolReferences', _string) # /INCLUDE +_Same(_lib, 'IgnoreAllDefaultLibraries', _boolean) # /NODEFAULTLIB +_Same(_lib, 'IgnoreSpecificDefaultLibraries', _file_list) # /NODEFAULTLIB +_Same(_lib, 'ModuleDefinitionFile', _file_name) # /DEF +_Same(_lib, 'OutputFile', _file_name) # /OUT +_Same(_lib, 'SuppressStartupBanner', _boolean) # /NOLOGO +_Same(_lib, 'UseUnicodeResponseFiles', _boolean) +_Same(_lib, 'LinkTimeCodeGeneration', _boolean) # /LTCG +_Same(_lib, 'TargetMachine', _target_machine_enumeration) + +# TODO(jeanluc) _link defines the same value that gets moved to +# ProjectReference. We may want to validate that they are consistent. +_Moved(_lib, 'LinkLibraryDependencies', 'ProjectReference', _boolean) + +# TODO(jeanluc) I don't think these are genuine settings but byproducts of Gyp. +_MSVSOnly(_lib, 'AdditionalLibraryDirectories_excluded', _folder_list) + +_MSBuildOnly(_lib, 'DisplayLibrary', _string) # /LIST Visible='false' +_MSBuildOnly(_lib, 'ErrorReporting', + _Enumeration([], new=['PromptImmediately', # /ERRORREPORT:PROMPT + 'QueueForNextLogin', # /ERRORREPORT:QUEUE + 'SendErrorReport', # /ERRORREPORT:SEND + 'NoErrorReport'])) # /ERRORREPORT:NONE +_MSBuildOnly(_lib, 'MinimumRequiredVersion', _string) +_MSBuildOnly(_lib, 'Name', _file_name) # /NAME +_MSBuildOnly(_lib, 'RemoveObjects', _file_list) # /REMOVE +_MSBuildOnly(_lib, 'SubSystem', _subsystem_enumeration) +_MSBuildOnly(_lib, 'TrackerLogDirectory', _folder_name) +_MSBuildOnly(_lib, 'TreatLibWarningAsErrors', _boolean) # /WX +_MSBuildOnly(_lib, 'Verbose', _boolean) + + +# Directives for converting VCManifestTool to Mt. +# See "c:\Program Files (x86)\MSBuild\Microsoft.Cpp\v4.0\1033\mt.xml" for +# the schema of the MSBuild Lib settings. + +# Options that have the same name in MSVS and MSBuild +_Same(_manifest, 'AdditionalManifestFiles', _file_list) # /manifest +_Same(_manifest, 'AdditionalOptions', _string_list) +_Same(_manifest, 'AssemblyIdentity', _string) # /identity: +_Same(_manifest, 'ComponentFileName', _file_name) # /dll +_Same(_manifest, 'GenerateCatalogFiles', _boolean) # /makecdfs +_Same(_manifest, 'InputResourceManifests', _string) # /inputresource +_Same(_manifest, 'OutputManifestFile', _file_name) # /out +_Same(_manifest, 'RegistrarScriptFile', _file_name) # /rgs +_Same(_manifest, 'ReplacementsFile', _file_name) # /replacements +_Same(_manifest, 'SuppressStartupBanner', _boolean) # /nologo +_Same(_manifest, 'TypeLibraryFile', _file_name) # /tlb: +_Same(_manifest, 'UpdateFileHashes', _boolean) # /hashupdate +_Same(_manifest, 'UpdateFileHashesSearchPath', _file_name) +_Same(_manifest, 'VerboseOutput', _boolean) # /verbose + +# Options that have moved location. +_MovedAndRenamed(_manifest, 'ManifestResourceFile', + 'ManifestResourceCompile', + 'ResourceOutputFileName', + _file_name) +_Moved(_manifest, 'EmbedManifest', '', _boolean) + +# MSVS options not found in MSBuild. +_MSVSOnly(_manifest, 'DependencyInformationFile', _file_name) +_MSVSOnly(_manifest, 'UseFAT32Workaround', _boolean) +_MSVSOnly(_manifest, 'UseUnicodeResponseFiles', _boolean) + +# MSBuild options not found in MSVS. +_MSBuildOnly(_manifest, 'EnableDPIAwareness', _boolean) +_MSBuildOnly(_manifest, 'GenerateCategoryTags', _boolean) # /category +_MSBuildOnly(_manifest, 'ManifestFromManagedAssembly', + _file_name) # /managedassemblyname +_MSBuildOnly(_manifest, 'OutputResourceManifests', _string) # /outputresource +_MSBuildOnly(_manifest, 'SuppressDependencyElement', _boolean) # /nodependency +_MSBuildOnly(_manifest, 'TrackerLogDirectory', _folder_name) diff --git a/deps/gyp/pylib/gyp/MSVSSettings_test.py b/deps/gyp/pylib/gyp/MSVSSettings_test.py new file mode 100755 index 0000000000..9bd37ec348 --- /dev/null +++ b/deps/gyp/pylib/gyp/MSVSSettings_test.py @@ -0,0 +1,1483 @@ +#!/usr/bin/env python + +# Copyright (c) 2012 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +"""Unit tests for the MSVSSettings.py file.""" + +import StringIO +import unittest +import gyp.MSVSSettings as MSVSSettings + + +class TestSequenceFunctions(unittest.TestCase): + + def setUp(self): + self.stderr = StringIO.StringIO() + + def _ExpectedWarnings(self, expected): + """Compares recorded lines to expected warnings.""" + self.stderr.seek(0) + actual = self.stderr.read().split('\n') + actual = [line for line in actual if line] + self.assertEqual(sorted(expected), sorted(actual)) + + def testValidateMSVSSettings_tool_names(self): + """Tests that only MSVS tool names are allowed.""" + MSVSSettings.ValidateMSVSSettings( + {'VCCLCompilerTool': {}, + 'VCLinkerTool': {}, + 'VCMIDLTool': {}, + 'foo': {}, + 'VCResourceCompilerTool': {}, + 'VCLibrarianTool': {}, + 'VCManifestTool': {}, + 'ClCompile': {}}, + self.stderr) + self._ExpectedWarnings([ + 'Warning: unrecognized tool foo', + 'Warning: unrecognized tool ClCompile']) + + def testValidateMSVSSettings_settings(self): + """Tests that for invalid MSVS settings.""" + MSVSSettings.ValidateMSVSSettings( + {'VCCLCompilerTool': { + 'AdditionalIncludeDirectories': 'folder1;folder2', + 'AdditionalOptions': ['string1', 'string2'], + 'AdditionalUsingDirectories': 'folder1;folder2', + 'AssemblerListingLocation': 'a_file_name', + 'AssemblerOutput': '0', + 'BasicRuntimeChecks': '5', + 'BrowseInformation': 'fdkslj', + 'BrowseInformationFile': 'a_file_name', + 'BufferSecurityCheck': 'true', + 'CallingConvention': '-1', + 'CompileAs': '1', + 'DebugInformationFormat': '2', + 'DefaultCharIsUnsigned': 'true', + 'Detect64BitPortabilityProblems': 'true', + 'DisableLanguageExtensions': 'true', + 'DisableSpecificWarnings': 'string1;string2', + 'EnableEnhancedInstructionSet': '1', + 'EnableFiberSafeOptimizations': 'true', + 'EnableFunctionLevelLinking': 'true', + 'EnableIntrinsicFunctions': 'true', + 'EnablePREfast': 'true', + 'Enableprefast': 'bogus', + 'ErrorReporting': '1', + 'ExceptionHandling': '1', + 'ExpandAttributedSource': 'true', + 'FavorSizeOrSpeed': '1', + 'FloatingPointExceptions': 'true', + 'FloatingPointModel': '1', + 'ForceConformanceInForLoopScope': 'true', + 'ForcedIncludeFiles': 'file1;file2', + 'ForcedUsingFiles': 'file1;file2', + 'GeneratePreprocessedFile': '1', + 'GenerateXMLDocumentationFiles': 'true', + 'IgnoreStandardIncludePath': 'true', + 'InlineFunctionExpansion': '1', + 'KeepComments': 'true', + 'MinimalRebuild': 'true', + 'ObjectFile': 'a_file_name', + 'OmitDefaultLibName': 'true', + 'OmitFramePointers': 'true', + 'OpenMP': 'true', + 'Optimization': '1', + 'PrecompiledHeaderFile': 'a_file_name', + 'PrecompiledHeaderThrough': 'a_file_name', + 'PreprocessorDefinitions': 'string1;string2', + 'ProgramDataBaseFileName': 'a_file_name', + 'RuntimeLibrary': '1', + 'RuntimeTypeInfo': 'true', + 'ShowIncludes': 'true', + 'SmallerTypeCheck': 'true', + 'StringPooling': 'true', + 'StructMemberAlignment': '1', + 'SuppressStartupBanner': 'true', + 'TreatWChar_tAsBuiltInType': 'true', + 'UndefineAllPreprocessorDefinitions': 'true', + 'UndefinePreprocessorDefinitions': 'string1;string2', + 'UseFullPaths': 'true', + 'UsePrecompiledHeader': '1', + 'UseUnicodeResponseFiles': 'true', + 'WarnAsError': 'true', + 'WarningLevel': '1', + 'WholeProgramOptimization': 'true', + 'XMLDocumentationFileName': 'a_file_name', + 'ZZXYZ': 'bogus'}, + 'VCLinkerTool': { + 'AdditionalDependencies': 'file1;file2', + 'AdditionalDependencies_excluded': 'file3', + 'AdditionalLibraryDirectories': 'folder1;folder2', + 'AdditionalManifestDependencies': 'file1;file2', + 'AdditionalOptions': 'a string1', + 'AddModuleNamesToAssembly': 'file1;file2', + 'AllowIsolation': 'true', + 'AssemblyDebug': '2', + 'AssemblyLinkResource': 'file1;file2', + 'BaseAddress': 'a string1', + 'CLRImageType': '2', + 'CLRThreadAttribute': '2', + 'CLRUnmanagedCodeCheck': 'true', + 'DataExecutionPrevention': '2', + 'DelayLoadDLLs': 'file1;file2', + 'DelaySign': 'true', + 'Driver': '2', + 'EmbedManagedResourceFile': 'file1;file2', + 'EnableCOMDATFolding': '2', + 'EnableUAC': 'true', + 'EntryPointSymbol': 'a string1', + 'ErrorReporting': '2', + 'FixedBaseAddress': '2', + 'ForceSymbolReferences': 'file1;file2', + 'FunctionOrder': 'a_file_name', + 'GenerateDebugInformation': 'true', + 'GenerateManifest': 'true', + 'GenerateMapFile': 'true', + 'HeapCommitSize': 'a string1', + 'HeapReserveSize': 'a string1', + 'IgnoreAllDefaultLibraries': 'true', + 'IgnoreDefaultLibraryNames': 'file1;file2', + 'IgnoreEmbeddedIDL': 'true', + 'IgnoreImportLibrary': 'true', + 'ImportLibrary': 'a_file_name', + 'KeyContainer': 'a_file_name', + 'KeyFile': 'a_file_name', + 'LargeAddressAware': '2', + 'LinkIncremental': '2', + 'LinkLibraryDependencies': 'true', + 'LinkTimeCodeGeneration': '2', + 'ManifestFile': 'a_file_name', + 'MapExports': 'true', + 'MapFileName': 'a_file_name', + 'MergedIDLBaseFileName': 'a_file_name', + 'MergeSections': 'a string1', + 'MidlCommandFile': 'a_file_name', + 'ModuleDefinitionFile': 'a_file_name', + 'OptimizeForWindows98': '1', + 'OptimizeReferences': '2', + 'OutputFile': 'a_file_name', + 'PerUserRedirection': 'true', + 'Profile': 'true', + 'ProfileGuidedDatabase': 'a_file_name', + 'ProgramDatabaseFile': 'a_file_name', + 'RandomizedBaseAddress': '2', + 'RegisterOutput': 'true', + 'ResourceOnlyDLL': 'true', + 'SetChecksum': 'true', + 'ShowProgress': '2', + 'StackCommitSize': 'a string1', + 'StackReserveSize': 'a string1', + 'StripPrivateSymbols': 'a_file_name', + 'SubSystem': '2', + 'SupportUnloadOfDelayLoadedDLL': 'true', + 'SuppressStartupBanner': 'true', + 'SwapRunFromCD': 'true', + 'SwapRunFromNet': 'true', + 'TargetMachine': '2', + 'TerminalServerAware': '2', + 'TurnOffAssemblyGeneration': 'true', + 'TypeLibraryFile': 'a_file_name', + 'TypeLibraryResourceID': '33', + 'UACExecutionLevel': '2', + 'UACUIAccess': 'true', + 'UseLibraryDependencyInputs': 'true', + 'UseUnicodeResponseFiles': 'true', + 'Version': 'a string1'}, + 'VCMIDLTool': { + 'AdditionalIncludeDirectories': 'folder1;folder2', + 'AdditionalOptions': 'a string1', + 'CPreprocessOptions': 'a string1', + 'DefaultCharType': '1', + 'DLLDataFileName': 'a_file_name', + 'EnableErrorChecks': '1', + 'ErrorCheckAllocations': 'true', + 'ErrorCheckBounds': 'true', + 'ErrorCheckEnumRange': 'true', + 'ErrorCheckRefPointers': 'true', + 'ErrorCheckStubData': 'true', + 'GenerateStublessProxies': 'true', + 'GenerateTypeLibrary': 'true', + 'HeaderFileName': 'a_file_name', + 'IgnoreStandardIncludePath': 'true', + 'InterfaceIdentifierFileName': 'a_file_name', + 'MkTypLibCompatible': 'true', + 'notgood': 'bogus', + 'OutputDirectory': 'a string1', + 'PreprocessorDefinitions': 'string1;string2', + 'ProxyFileName': 'a_file_name', + 'RedirectOutputAndErrors': 'a_file_name', + 'StructMemberAlignment': '1', + 'SuppressStartupBanner': 'true', + 'TargetEnvironment': '1', + 'TypeLibraryName': 'a_file_name', + 'UndefinePreprocessorDefinitions': 'string1;string2', + 'ValidateParameters': 'true', + 'WarnAsError': 'true', + 'WarningLevel': '1'}, + 'VCResourceCompilerTool': { + 'AdditionalOptions': 'a string1', + 'AdditionalIncludeDirectories': 'folder1;folder2', + 'Culture': '1003', + 'IgnoreStandardIncludePath': 'true', + 'notgood2': 'bogus', + 'PreprocessorDefinitions': 'string1;string2', + 'ResourceOutputFileName': 'a string1', + 'ShowProgress': 'true', + 'SuppressStartupBanner': 'true', + 'UndefinePreprocessorDefinitions': 'string1;string2'}, + 'VCLibrarianTool': { + 'AdditionalDependencies': 'file1;file2', + 'AdditionalLibraryDirectories': 'folder1;folder2', + 'AdditionalOptions': 'a string1', + 'ExportNamedFunctions': 'string1;string2', + 'ForceSymbolReferences': 'a string1', + 'IgnoreAllDefaultLibraries': 'true', + 'IgnoreSpecificDefaultLibraries': 'file1;file2', + 'LinkLibraryDependencies': 'true', + 'ModuleDefinitionFile': 'a_file_name', + 'OutputFile': 'a_file_name', + 'SuppressStartupBanner': 'true', + 'UseUnicodeResponseFiles': 'true'}, + 'VCManifestTool': { + 'AdditionalManifestFiles': 'file1;file2', + 'AdditionalOptions': 'a string1', + 'AssemblyIdentity': 'a string1', + 'ComponentFileName': 'a_file_name', + 'DependencyInformationFile': 'a_file_name', + 'GenerateCatalogFiles': 'true', + 'InputResourceManifests': 'a string1', + 'ManifestResourceFile': 'a_file_name', + 'OutputManifestFile': 'a_file_name', + 'RegistrarScriptFile': 'a_file_name', + 'ReplacementsFile': 'a_file_name', + 'SuppressStartupBanner': 'true', + 'TypeLibraryFile': 'a_file_name', + 'UpdateFileHashes': 'truel', + 'UpdateFileHashesSearchPath': 'a_file_name', + 'UseFAT32Workaround': 'true', + 'UseUnicodeResponseFiles': 'true', + 'VerboseOutput': 'true'}}, + self.stderr) + self._ExpectedWarnings([ + 'Warning: for VCCLCompilerTool/BasicRuntimeChecks, ' + 'index value (5) not in expected range [0, 4)', + 'Warning: for VCCLCompilerTool/BrowseInformation, ' + "invalid literal for int() with base 10: 'fdkslj'", + 'Warning: for VCCLCompilerTool/CallingConvention, ' + 'index value (-1) not in expected range [0, 3)', + 'Warning: for VCCLCompilerTool/DebugInformationFormat, ' + 'converted value for 2 not specified.', + 'Warning: unrecognized setting VCCLCompilerTool/Enableprefast', + 'Warning: unrecognized setting VCCLCompilerTool/ZZXYZ', + 'Warning: for VCLinkerTool/TargetMachine, ' + 'converted value for 2 not specified.', + 'Warning: unrecognized setting VCMIDLTool/notgood', + 'Warning: unrecognized setting VCResourceCompilerTool/notgood2', + 'Warning: for VCManifestTool/UpdateFileHashes, ' + "expected bool; got 'truel'" + '']) + + def testValidateMSBuildSettings_settings(self): + """Tests that for invalid MSBuild settings.""" + MSVSSettings.ValidateMSBuildSettings( + {'ClCompile': { + 'AdditionalIncludeDirectories': 'folder1;folder2', + 'AdditionalOptions': ['string1', 'string2'], + 'AdditionalUsingDirectories': 'folder1;folder2', + 'AssemblerListingLocation': 'a_file_name', + 'AssemblerOutput': 'NoListing', + 'BasicRuntimeChecks': 'StackFrameRuntimeCheck', + 'BrowseInformation': 'false', + 'BrowseInformationFile': 'a_file_name', + 'BufferSecurityCheck': 'true', + 'BuildingInIDE': 'true', + 'CallingConvention': 'Cdecl', + 'CompileAs': 'CompileAsC', + 'CompileAsManaged': 'Pure', + 'CreateHotpatchableImage': 'true', + 'DebugInformationFormat': 'ProgramDatabase', + 'DisableLanguageExtensions': 'true', + 'DisableSpecificWarnings': 'string1;string2', + 'EnableEnhancedInstructionSet': 'StreamingSIMDExtensions', + 'EnableFiberSafeOptimizations': 'true', + 'EnablePREfast': 'true', + 'Enableprefast': 'bogus', + 'ErrorReporting': 'Prompt', + 'ExceptionHandling': 'SyncCThrow', + 'ExpandAttributedSource': 'true', + 'FavorSizeOrSpeed': 'Neither', + 'FloatingPointExceptions': 'true', + 'FloatingPointModel': 'Precise', + 'ForceConformanceInForLoopScope': 'true', + 'ForcedIncludeFiles': 'file1;file2', + 'ForcedUsingFiles': 'file1;file2', + 'FunctionLevelLinking': 'false', + 'GenerateXMLDocumentationFiles': 'true', + 'IgnoreStandardIncludePath': 'true', + 'InlineFunctionExpansion': 'OnlyExplicitInline', + 'IntrinsicFunctions': 'false', + 'MinimalRebuild': 'true', + 'MultiProcessorCompilation': 'true', + 'ObjectFileName': 'a_file_name', + 'OmitDefaultLibName': 'true', + 'OmitFramePointers': 'true', + 'OpenMPSupport': 'true', + 'Optimization': 'Disabled', + 'PrecompiledHeader': 'NotUsing', + 'PrecompiledHeaderFile': 'a_file_name', + 'PrecompiledHeaderOutputFile': 'a_file_name', + 'PreprocessKeepComments': 'true', + 'PreprocessorDefinitions': 'string1;string2', + 'PreprocessOutputPath': 'a string1', + 'PreprocessSuppressLineNumbers': 'false', + 'PreprocessToFile': 'false', + 'ProcessorNumber': '33', + 'ProgramDataBaseFileName': 'a_file_name', + 'RuntimeLibrary': 'MultiThreaded', + 'RuntimeTypeInfo': 'true', + 'ShowIncludes': 'true', + 'SmallerTypeCheck': 'true', + 'StringPooling': 'true', + 'StructMemberAlignment': '1Byte', + 'SuppressStartupBanner': 'true', + 'TrackerLogDirectory': 'a_folder', + 'TreatSpecificWarningsAsErrors': 'string1;string2', + 'TreatWarningAsError': 'true', + 'TreatWChar_tAsBuiltInType': 'true', + 'UndefineAllPreprocessorDefinitions': 'true', + 'UndefinePreprocessorDefinitions': 'string1;string2', + 'UseFullPaths': 'true', + 'UseUnicodeForAssemblerListing': 'true', + 'WarningLevel': 'TurnOffAllWarnings', + 'WholeProgramOptimization': 'true', + 'XMLDocumentationFileName': 'a_file_name', + 'ZZXYZ': 'bogus'}, + 'Link': { + 'AdditionalDependencies': 'file1;file2', + 'AdditionalLibraryDirectories': 'folder1;folder2', + 'AdditionalManifestDependencies': 'file1;file2', + 'AdditionalOptions': 'a string1', + 'AddModuleNamesToAssembly': 'file1;file2', + 'AllowIsolation': 'true', + 'AssemblyDebug': '', + 'AssemblyLinkResource': 'file1;file2', + 'BaseAddress': 'a string1', + 'BuildingInIDE': 'true', + 'CLRImageType': 'ForceIJWImage', + 'CLRSupportLastError': 'Enabled', + 'CLRThreadAttribute': 'MTAThreadingAttribute', + 'CLRUnmanagedCodeCheck': 'true', + 'CreateHotPatchableImage': 'X86Image', + 'DataExecutionPrevention': 'false', + 'DelayLoadDLLs': 'file1;file2', + 'DelaySign': 'true', + 'Driver': 'NotSet', + 'EmbedManagedResourceFile': 'file1;file2', + 'EnableCOMDATFolding': 'false', + 'EnableUAC': 'true', + 'EntryPointSymbol': 'a string1', + 'FixedBaseAddress': 'false', + 'ForceFileOutput': 'Enabled', + 'ForceSymbolReferences': 'file1;file2', + 'FunctionOrder': 'a_file_name', + 'GenerateDebugInformation': 'true', + 'GenerateMapFile': 'true', + 'HeapCommitSize': 'a string1', + 'HeapReserveSize': 'a string1', + 'IgnoreAllDefaultLibraries': 'true', + 'IgnoreEmbeddedIDL': 'true', + 'IgnoreSpecificDefaultLibraries': 'a_file_list', + 'ImageHasSafeExceptionHandlers': 'true', + 'ImportLibrary': 'a_file_name', + 'KeyContainer': 'a_file_name', + 'KeyFile': 'a_file_name', + 'LargeAddressAware': 'false', + 'LinkDLL': 'true', + 'LinkErrorReporting': 'SendErrorReport', + 'LinkStatus': 'true', + 'LinkTimeCodeGeneration': 'UseLinkTimeCodeGeneration', + 'ManifestFile': 'a_file_name', + 'MapExports': 'true', + 'MapFileName': 'a_file_name', + 'MergedIDLBaseFileName': 'a_file_name', + 'MergeSections': 'a string1', + 'MidlCommandFile': 'a_file_name', + 'MinimumRequiredVersion': 'a string1', + 'ModuleDefinitionFile': 'a_file_name', + 'MSDOSStubFileName': 'a_file_name', + 'NoEntryPoint': 'true', + 'OptimizeReferences': 'false', + 'OutputFile': 'a_file_name', + 'PerUserRedirection': 'true', + 'PreventDllBinding': 'true', + 'Profile': 'true', + 'ProfileGuidedDatabase': 'a_file_name', + 'ProgramDatabaseFile': 'a_file_name', + 'RandomizedBaseAddress': 'false', + 'RegisterOutput': 'true', + 'SectionAlignment': '33', + 'SetChecksum': 'true', + 'ShowProgress': 'LinkVerboseREF', + 'SpecifySectionAttributes': 'a string1', + 'StackCommitSize': 'a string1', + 'StackReserveSize': 'a string1', + 'StripPrivateSymbols': 'a_file_name', + 'SubSystem': 'Console', + 'SupportNobindOfDelayLoadedDLL': 'true', + 'SupportUnloadOfDelayLoadedDLL': 'true', + 'SuppressStartupBanner': 'true', + 'SwapRunFromCD': 'true', + 'SwapRunFromNET': 'true', + 'TargetMachine': 'MachineX86', + 'TerminalServerAware': 'false', + 'TrackerLogDirectory': 'a_folder', + 'TreatLinkerWarningAsErrors': 'true', + 'TurnOffAssemblyGeneration': 'true', + 'TypeLibraryFile': 'a_file_name', + 'TypeLibraryResourceID': '33', + 'UACExecutionLevel': 'AsInvoker', + 'UACUIAccess': 'true', + 'Version': 'a string1'}, + 'ResourceCompile': { + 'AdditionalIncludeDirectories': 'folder1;folder2', + 'AdditionalOptions': 'a string1', + 'Culture': '0x236', + 'IgnoreStandardIncludePath': 'true', + 'NullTerminateStrings': 'true', + 'PreprocessorDefinitions': 'string1;string2', + 'ResourceOutputFileName': 'a string1', + 'ShowProgress': 'true', + 'SuppressStartupBanner': 'true', + 'TrackerLogDirectory': 'a_folder', + 'UndefinePreprocessorDefinitions': 'string1;string2'}, + 'Midl': { + 'AdditionalIncludeDirectories': 'folder1;folder2', + 'AdditionalOptions': 'a string1', + 'ApplicationConfigurationMode': 'true', + 'ClientStubFile': 'a_file_name', + 'CPreprocessOptions': 'a string1', + 'DefaultCharType': 'Signed', + 'DllDataFileName': 'a_file_name', + 'EnableErrorChecks': 'EnableCustom', + 'ErrorCheckAllocations': 'true', + 'ErrorCheckBounds': 'true', + 'ErrorCheckEnumRange': 'true', + 'ErrorCheckRefPointers': 'true', + 'ErrorCheckStubData': 'true', + 'GenerateClientFiles': 'Stub', + 'GenerateServerFiles': 'None', + 'GenerateStublessProxies': 'true', + 'GenerateTypeLibrary': 'true', + 'HeaderFileName': 'a_file_name', + 'IgnoreStandardIncludePath': 'true', + 'InterfaceIdentifierFileName': 'a_file_name', + 'LocaleID': '33', + 'MkTypLibCompatible': 'true', + 'OutputDirectory': 'a string1', + 'PreprocessorDefinitions': 'string1;string2', + 'ProxyFileName': 'a_file_name', + 'RedirectOutputAndErrors': 'a_file_name', + 'ServerStubFile': 'a_file_name', + 'StructMemberAlignment': 'NotSet', + 'SuppressCompilerWarnings': 'true', + 'SuppressStartupBanner': 'true', + 'TargetEnvironment': 'Itanium', + 'TrackerLogDirectory': 'a_folder', + 'TypeLibFormat': 'NewFormat', + 'TypeLibraryName': 'a_file_name', + 'UndefinePreprocessorDefinitions': 'string1;string2', + 'ValidateAllParameters': 'true', + 'WarnAsError': 'true', + 'WarningLevel': '1'}, + 'Lib': { + 'AdditionalDependencies': 'file1;file2', + 'AdditionalLibraryDirectories': 'folder1;folder2', + 'AdditionalOptions': 'a string1', + 'DisplayLibrary': 'a string1', + 'ErrorReporting': 'PromptImmediately', + 'ExportNamedFunctions': 'string1;string2', + 'ForceSymbolReferences': 'a string1', + 'IgnoreAllDefaultLibraries': 'true', + 'IgnoreSpecificDefaultLibraries': 'file1;file2', + 'LinkTimeCodeGeneration': 'true', + 'MinimumRequiredVersion': 'a string1', + 'ModuleDefinitionFile': 'a_file_name', + 'Name': 'a_file_name', + 'OutputFile': 'a_file_name', + 'RemoveObjects': 'file1;file2', + 'SubSystem': 'Console', + 'SuppressStartupBanner': 'true', + 'TargetMachine': 'MachineX86i', + 'TrackerLogDirectory': 'a_folder', + 'TreatLibWarningAsErrors': 'true', + 'UseUnicodeResponseFiles': 'true', + 'Verbose': 'true'}, + 'Manifest': { + 'AdditionalManifestFiles': 'file1;file2', + 'AdditionalOptions': 'a string1', + 'AssemblyIdentity': 'a string1', + 'ComponentFileName': 'a_file_name', + 'EnableDPIAwareness': 'fal', + 'GenerateCatalogFiles': 'truel', + 'GenerateCategoryTags': 'true', + 'InputResourceManifests': 'a string1', + 'ManifestFromManagedAssembly': 'a_file_name', + 'notgood3': 'bogus', + 'OutputManifestFile': 'a_file_name', + 'OutputResourceManifests': 'a string1', + 'RegistrarScriptFile': 'a_file_name', + 'ReplacementsFile': 'a_file_name', + 'SuppressDependencyElement': 'true', + 'SuppressStartupBanner': 'true', + 'TrackerLogDirectory': 'a_folder', + 'TypeLibraryFile': 'a_file_name', + 'UpdateFileHashes': 'true', + 'UpdateFileHashesSearchPath': 'a_file_name', + 'VerboseOutput': 'true'}, + 'ProjectReference': { + 'LinkLibraryDependencies': 'true', + 'UseLibraryDependencyInputs': 'true'}, + 'ManifestResourceCompile': { + 'ResourceOutputFileName': 'a_file_name'}, + '': { + 'EmbedManifest': 'true', + 'GenerateManifest': 'true', + 'IgnoreImportLibrary': 'true', + 'LinkIncremental': 'false'}}, + self.stderr) + self._ExpectedWarnings([ + 'Warning: unrecognized setting ClCompile/Enableprefast', + 'Warning: unrecognized setting ClCompile/ZZXYZ', + 'Warning: unrecognized setting Manifest/notgood3', + 'Warning: for Manifest/GenerateCatalogFiles, ' + "expected bool; got 'truel'", + 'Warning: for Lib/TargetMachine, unrecognized enumerated value ' + 'MachineX86i', + "Warning: for Manifest/EnableDPIAwareness, expected bool; got 'fal'"]) + + def testConvertToMSBuildSettings_empty(self): + """Tests an empty conversion.""" + msvs_settings = {} + expected_msbuild_settings = {} + actual_msbuild_settings = MSVSSettings.ConvertToMSBuildSettings( + msvs_settings, + self.stderr) + self.assertEqual(expected_msbuild_settings, actual_msbuild_settings) + self._ExpectedWarnings([]) + + def testConvertToMSBuildSettings_minimal(self): + """Tests a minimal conversion.""" + msvs_settings = { + 'VCCLCompilerTool': { + 'AdditionalIncludeDirectories': 'dir1', + 'AdditionalOptions': '/foo', + 'BasicRuntimeChecks': '0', + }, + 'VCLinkerTool': { + 'LinkTimeCodeGeneration': '1', + 'ErrorReporting': '1', + 'DataExecutionPrevention': '2', + }, + } + expected_msbuild_settings = { + 'ClCompile': { + 'AdditionalIncludeDirectories': 'dir1', + 'AdditionalOptions': '/foo', + 'BasicRuntimeChecks': 'Default', + }, + 'Link': { + 'LinkTimeCodeGeneration': 'UseLinkTimeCodeGeneration', + 'LinkErrorReporting': 'PromptImmediately', + 'DataExecutionPrevention': 'true', + }, + } + actual_msbuild_settings = MSVSSettings.ConvertToMSBuildSettings( + msvs_settings, + self.stderr) + self.assertEqual(expected_msbuild_settings, actual_msbuild_settings) + self._ExpectedWarnings([]) + + def testConvertToMSBuildSettings_warnings(self): + """Tests conversion that generates warnings.""" + msvs_settings = { + 'VCCLCompilerTool': { + 'AdditionalIncludeDirectories': '1', + 'AdditionalOptions': '2', + # These are incorrect values: + 'BasicRuntimeChecks': '12', + 'BrowseInformation': '21', + 'UsePrecompiledHeader': '13', + 'GeneratePreprocessedFile': '14'}, + 'VCLinkerTool': { + # These are incorrect values: + 'Driver': '10', + 'LinkTimeCodeGeneration': '31', + 'ErrorReporting': '21', + 'FixedBaseAddress': '6'}, + 'VCResourceCompilerTool': { + # Custom + 'Culture': '1003'}} + expected_msbuild_settings = { + 'ClCompile': { + 'AdditionalIncludeDirectories': '1', + 'AdditionalOptions': '2'}, + 'Link': {}, + 'ResourceCompile': { + # Custom + 'Culture': '0x03eb'}} + actual_msbuild_settings = MSVSSettings.ConvertToMSBuildSettings( + msvs_settings, + self.stderr) + self.assertEqual(expected_msbuild_settings, actual_msbuild_settings) + self._ExpectedWarnings([ + 'Warning: while converting VCCLCompilerTool/BasicRuntimeChecks to ' + 'MSBuild, index value (12) not in expected range [0, 4)', + 'Warning: while converting VCCLCompilerTool/BrowseInformation to ' + 'MSBuild, index value (21) not in expected range [0, 3)', + 'Warning: while converting VCCLCompilerTool/UsePrecompiledHeader to ' + 'MSBuild, index value (13) not in expected range [0, 3)', + 'Warning: while converting VCCLCompilerTool/GeneratePreprocessedFile to ' + 'MSBuild, value must be one of [0, 1, 2]; got 14', + + 'Warning: while converting VCLinkerTool/Driver to ' + 'MSBuild, index value (10) not in expected range [0, 4)', + 'Warning: while converting VCLinkerTool/LinkTimeCodeGeneration to ' + 'MSBuild, index value (31) not in expected range [0, 5)', + 'Warning: while converting VCLinkerTool/ErrorReporting to ' + 'MSBuild, index value (21) not in expected range [0, 3)', + 'Warning: while converting VCLinkerTool/FixedBaseAddress to ' + 'MSBuild, index value (6) not in expected range [0, 3)', + ]) + + def testConvertToMSBuildSettings_full_synthetic(self): + """Tests conversion of all the MSBuild settings.""" + msvs_settings = { + 'VCCLCompilerTool': { + 'AdditionalIncludeDirectories': 'folder1;folder2;folder3', + 'AdditionalOptions': 'a_string', + 'AdditionalUsingDirectories': 'folder1;folder2;folder3', + 'AssemblerListingLocation': 'a_file_name', + 'AssemblerOutput': '0', + 'BasicRuntimeChecks': '1', + 'BrowseInformation': '2', + 'BrowseInformationFile': 'a_file_name', + 'BufferSecurityCheck': 'true', + 'CallingConvention': '0', + 'CompileAs': '1', + 'DebugInformationFormat': '4', + 'DefaultCharIsUnsigned': 'true', + 'Detect64BitPortabilityProblems': 'true', + 'DisableLanguageExtensions': 'true', + 'DisableSpecificWarnings': 'd1;d2;d3', + 'EnableEnhancedInstructionSet': '0', + 'EnableFiberSafeOptimizations': 'true', + 'EnableFunctionLevelLinking': 'true', + 'EnableIntrinsicFunctions': 'true', + 'EnablePREfast': 'true', + 'ErrorReporting': '1', + 'ExceptionHandling': '2', + 'ExpandAttributedSource': 'true', + 'FavorSizeOrSpeed': '0', + 'FloatingPointExceptions': 'true', + 'FloatingPointModel': '1', + 'ForceConformanceInForLoopScope': 'true', + 'ForcedIncludeFiles': 'file1;file2;file3', + 'ForcedUsingFiles': 'file1;file2;file3', + 'GeneratePreprocessedFile': '1', + 'GenerateXMLDocumentationFiles': 'true', + 'IgnoreStandardIncludePath': 'true', + 'InlineFunctionExpansion': '2', + 'KeepComments': 'true', + 'MinimalRebuild': 'true', + 'ObjectFile': 'a_file_name', + 'OmitDefaultLibName': 'true', + 'OmitFramePointers': 'true', + 'OpenMP': 'true', + 'Optimization': '3', + 'PrecompiledHeaderFile': 'a_file_name', + 'PrecompiledHeaderThrough': 'a_file_name', + 'PreprocessorDefinitions': 'd1;d2;d3', + 'ProgramDataBaseFileName': 'a_file_name', + 'RuntimeLibrary': '0', + 'RuntimeTypeInfo': 'true', + 'ShowIncludes': 'true', + 'SmallerTypeCheck': 'true', + 'StringPooling': 'true', + 'StructMemberAlignment': '1', + 'SuppressStartupBanner': 'true', + 'TreatWChar_tAsBuiltInType': 'true', + 'UndefineAllPreprocessorDefinitions': 'true', + 'UndefinePreprocessorDefinitions': 'd1;d2;d3', + 'UseFullPaths': 'true', + 'UsePrecompiledHeader': '1', + 'UseUnicodeResponseFiles': 'true', + 'WarnAsError': 'true', + 'WarningLevel': '2', + 'WholeProgramOptimization': 'true', + 'XMLDocumentationFileName': 'a_file_name'}, + 'VCLinkerTool': { + 'AdditionalDependencies': 'file1;file2;file3', + 'AdditionalLibraryDirectories': 'folder1;folder2;folder3', + 'AdditionalLibraryDirectories_excluded': 'folder1;folder2;folder3', + 'AdditionalManifestDependencies': 'file1;file2;file3', + 'AdditionalOptions': 'a_string', + 'AddModuleNamesToAssembly': 'file1;file2;file3', + 'AllowIsolation': 'true', + 'AssemblyDebug': '0', + 'AssemblyLinkResource': 'file1;file2;file3', + 'BaseAddress': 'a_string', + 'CLRImageType': '1', + 'CLRThreadAttribute': '2', + 'CLRUnmanagedCodeCheck': 'true', + 'DataExecutionPrevention': '0', + 'DelayLoadDLLs': 'file1;file2;file3', + 'DelaySign': 'true', + 'Driver': '1', + 'EmbedManagedResourceFile': 'file1;file2;file3', + 'EnableCOMDATFolding': '0', + 'EnableUAC': 'true', + 'EntryPointSymbol': 'a_string', + 'ErrorReporting': '0', + 'FixedBaseAddress': '1', + 'ForceSymbolReferences': 'file1;file2;file3', + 'FunctionOrder': 'a_file_name', + 'GenerateDebugInformation': 'true', + 'GenerateManifest': 'true', + 'GenerateMapFile': 'true', + 'HeapCommitSize': 'a_string', + 'HeapReserveSize': 'a_string', + 'IgnoreAllDefaultLibraries': 'true', + 'IgnoreDefaultLibraryNames': 'file1;file2;file3', + 'IgnoreEmbeddedIDL': 'true', + 'IgnoreImportLibrary': 'true', + 'ImportLibrary': 'a_file_name', + 'KeyContainer': 'a_file_name', + 'KeyFile': 'a_file_name', + 'LargeAddressAware': '2', + 'LinkIncremental': '1', + 'LinkLibraryDependencies': 'true', + 'LinkTimeCodeGeneration': '2', + 'ManifestFile': 'a_file_name', + 'MapExports': 'true', + 'MapFileName': 'a_file_name', + 'MergedIDLBaseFileName': 'a_file_name', + 'MergeSections': 'a_string', + 'MidlCommandFile': 'a_file_name', + 'ModuleDefinitionFile': 'a_file_name', + 'OptimizeForWindows98': '1', + 'OptimizeReferences': '0', + 'OutputFile': 'a_file_name', + 'PerUserRedirection': 'true', + 'Profile': 'true', + 'ProfileGuidedDatabase': 'a_file_name', + 'ProgramDatabaseFile': 'a_file_name', + 'RandomizedBaseAddress': '1', + 'RegisterOutput': 'true', + 'ResourceOnlyDLL': 'true', + 'SetChecksum': 'true', + 'ShowProgress': '0', + 'StackCommitSize': 'a_string', + 'StackReserveSize': 'a_string', + 'StripPrivateSymbols': 'a_file_name', + 'SubSystem': '2', + 'SupportUnloadOfDelayLoadedDLL': 'true', + 'SuppressStartupBanner': 'true', + 'SwapRunFromCD': 'true', + 'SwapRunFromNet': 'true', + 'TargetMachine': '3', + 'TerminalServerAware': '2', + 'TurnOffAssemblyGeneration': 'true', + 'TypeLibraryFile': 'a_file_name', + 'TypeLibraryResourceID': '33', + 'UACExecutionLevel': '1', + 'UACUIAccess': 'true', + 'UseLibraryDependencyInputs': 'false', + 'UseUnicodeResponseFiles': 'true', + 'Version': 'a_string'}, + 'VCResourceCompilerTool': { + 'AdditionalIncludeDirectories': 'folder1;folder2;folder3', + 'AdditionalOptions': 'a_string', + 'Culture': '1003', + 'IgnoreStandardIncludePath': 'true', + 'PreprocessorDefinitions': 'd1;d2;d3', + 'ResourceOutputFileName': 'a_string', + 'ShowProgress': 'true', + 'SuppressStartupBanner': 'true', + 'UndefinePreprocessorDefinitions': 'd1;d2;d3'}, + 'VCMIDLTool': { + 'AdditionalIncludeDirectories': 'folder1;folder2;folder3', + 'AdditionalOptions': 'a_string', + 'CPreprocessOptions': 'a_string', + 'DefaultCharType': '0', + 'DLLDataFileName': 'a_file_name', + 'EnableErrorChecks': '2', + 'ErrorCheckAllocations': 'true', + 'ErrorCheckBounds': 'true', + 'ErrorCheckEnumRange': 'true', + 'ErrorCheckRefPointers': 'true', + 'ErrorCheckStubData': 'true', + 'GenerateStublessProxies': 'true', + 'GenerateTypeLibrary': 'true', + 'HeaderFileName': 'a_file_name', + 'IgnoreStandardIncludePath': 'true', + 'InterfaceIdentifierFileName': 'a_file_name', + 'MkTypLibCompatible': 'true', + 'OutputDirectory': 'a_string', + 'PreprocessorDefinitions': 'd1;d2;d3', + 'ProxyFileName': 'a_file_name', + 'RedirectOutputAndErrors': 'a_file_name', + 'StructMemberAlignment': '3', + 'SuppressStartupBanner': 'true', + 'TargetEnvironment': '1', + 'TypeLibraryName': 'a_file_name', + 'UndefinePreprocessorDefinitions': 'd1;d2;d3', + 'ValidateParameters': 'true', + 'WarnAsError': 'true', + 'WarningLevel': '4'}, + 'VCLibrarianTool': { + 'AdditionalDependencies': 'file1;file2;file3', + 'AdditionalLibraryDirectories': 'folder1;folder2;folder3', + 'AdditionalLibraryDirectories_excluded': 'folder1;folder2;folder3', + 'AdditionalOptions': 'a_string', + 'ExportNamedFunctions': 'd1;d2;d3', + 'ForceSymbolReferences': 'a_string', + 'IgnoreAllDefaultLibraries': 'true', + 'IgnoreSpecificDefaultLibraries': 'file1;file2;file3', + 'LinkLibraryDependencies': 'true', + 'ModuleDefinitionFile': 'a_file_name', + 'OutputFile': 'a_file_name', + 'SuppressStartupBanner': 'true', + 'UseUnicodeResponseFiles': 'true'}, + 'VCManifestTool': { + 'AdditionalManifestFiles': 'file1;file2;file3', + 'AdditionalOptions': 'a_string', + 'AssemblyIdentity': 'a_string', + 'ComponentFileName': 'a_file_name', + 'DependencyInformationFile': 'a_file_name', + 'EmbedManifest': 'true', + 'GenerateCatalogFiles': 'true', + 'InputResourceManifests': 'a_string', + 'ManifestResourceFile': 'my_name', + 'OutputManifestFile': 'a_file_name', + 'RegistrarScriptFile': 'a_file_name', + 'ReplacementsFile': 'a_file_name', + 'SuppressStartupBanner': 'true', + 'TypeLibraryFile': 'a_file_name', + 'UpdateFileHashes': 'true', + 'UpdateFileHashesSearchPath': 'a_file_name', + 'UseFAT32Workaround': 'true', + 'UseUnicodeResponseFiles': 'true', + 'VerboseOutput': 'true'}} + expected_msbuild_settings = { + 'ClCompile': { + 'AdditionalIncludeDirectories': 'folder1;folder2;folder3', + 'AdditionalOptions': 'a_string /J', + 'AdditionalUsingDirectories': 'folder1;folder2;folder3', + 'AssemblerListingLocation': 'a_file_name', + 'AssemblerOutput': 'NoListing', + 'BasicRuntimeChecks': 'StackFrameRuntimeCheck', + 'BrowseInformation': 'true', + 'BrowseInformationFile': 'a_file_name', + 'BufferSecurityCheck': 'true', + 'CallingConvention': 'Cdecl', + 'CompileAs': 'CompileAsC', + 'DebugInformationFormat': 'EditAndContinue', + 'DisableLanguageExtensions': 'true', + 'DisableSpecificWarnings': 'd1;d2;d3', + 'EnableEnhancedInstructionSet': 'NotSet', + 'EnableFiberSafeOptimizations': 'true', + 'EnablePREfast': 'true', + 'ErrorReporting': 'Prompt', + 'ExceptionHandling': 'Async', + 'ExpandAttributedSource': 'true', + 'FavorSizeOrSpeed': 'Neither', + 'FloatingPointExceptions': 'true', + 'FloatingPointModel': 'Strict', + 'ForceConformanceInForLoopScope': 'true', + 'ForcedIncludeFiles': 'file1;file2;file3', + 'ForcedUsingFiles': 'file1;file2;file3', + 'FunctionLevelLinking': 'true', + 'GenerateXMLDocumentationFiles': 'true', + 'IgnoreStandardIncludePath': 'true', + 'InlineFunctionExpansion': 'AnySuitable', + 'IntrinsicFunctions': 'true', + 'MinimalRebuild': 'true', + 'ObjectFileName': 'a_file_name', + 'OmitDefaultLibName': 'true', + 'OmitFramePointers': 'true', + 'OpenMPSupport': 'true', + 'Optimization': 'Full', + 'PrecompiledHeader': 'Create', + 'PrecompiledHeaderFile': 'a_file_name', + 'PrecompiledHeaderOutputFile': 'a_file_name', + 'PreprocessKeepComments': 'true', + 'PreprocessorDefinitions': 'd1;d2;d3', + 'PreprocessSuppressLineNumbers': 'false', + 'PreprocessToFile': 'true', + 'ProgramDataBaseFileName': 'a_file_name', + 'RuntimeLibrary': 'MultiThreaded', + 'RuntimeTypeInfo': 'true', + 'ShowIncludes': 'true', + 'SmallerTypeCheck': 'true', + 'StringPooling': 'true', + 'StructMemberAlignment': '1Byte', + 'SuppressStartupBanner': 'true', + 'TreatWarningAsError': 'true', + 'TreatWChar_tAsBuiltInType': 'true', + 'UndefineAllPreprocessorDefinitions': 'true', + 'UndefinePreprocessorDefinitions': 'd1;d2;d3', + 'UseFullPaths': 'true', + 'WarningLevel': 'Level2', + 'WholeProgramOptimization': 'true', + 'XMLDocumentationFileName': 'a_file_name'}, + 'Link': { + 'AdditionalDependencies': 'file1;file2;file3', + 'AdditionalLibraryDirectories': 'folder1;folder2;folder3', + 'AdditionalManifestDependencies': 'file1;file2;file3', + 'AdditionalOptions': 'a_string', + 'AddModuleNamesToAssembly': 'file1;file2;file3', + 'AllowIsolation': 'true', + 'AssemblyDebug': '', + 'AssemblyLinkResource': 'file1;file2;file3', + 'BaseAddress': 'a_string', + 'CLRImageType': 'ForceIJWImage', + 'CLRThreadAttribute': 'STAThreadingAttribute', + 'CLRUnmanagedCodeCheck': 'true', + 'DataExecutionPrevention': '', + 'DelayLoadDLLs': 'file1;file2;file3', + 'DelaySign': 'true', + 'Driver': 'Driver', + 'EmbedManagedResourceFile': 'file1;file2;file3', + 'EnableCOMDATFolding': '', + 'EnableUAC': 'true', + 'EntryPointSymbol': 'a_string', + 'FixedBaseAddress': 'false', + 'ForceSymbolReferences': 'file1;file2;file3', + 'FunctionOrder': 'a_file_name', + 'GenerateDebugInformation': 'true', + 'GenerateMapFile': 'true', + 'HeapCommitSize': 'a_string', + 'HeapReserveSize': 'a_string', + 'IgnoreAllDefaultLibraries': 'true', + 'IgnoreEmbeddedIDL': 'true', + 'IgnoreSpecificDefaultLibraries': 'file1;file2;file3', + 'ImportLibrary': 'a_file_name', + 'KeyContainer': 'a_file_name', + 'KeyFile': 'a_file_name', + 'LargeAddressAware': 'true', + 'LinkErrorReporting': 'NoErrorReport', + 'LinkTimeCodeGeneration': 'PGInstrument', + 'ManifestFile': 'a_file_name', + 'MapExports': 'true', + 'MapFileName': 'a_file_name', + 'MergedIDLBaseFileName': 'a_file_name', + 'MergeSections': 'a_string', + 'MidlCommandFile': 'a_file_name', + 'ModuleDefinitionFile': 'a_file_name', + 'NoEntryPoint': 'true', + 'OptimizeReferences': '', + 'OutputFile': 'a_file_name', + 'PerUserRedirection': 'true', + 'Profile': 'true', + 'ProfileGuidedDatabase': 'a_file_name', + 'ProgramDatabaseFile': 'a_file_name', + 'RandomizedBaseAddress': 'false', + 'RegisterOutput': 'true', + 'SetChecksum': 'true', + 'ShowProgress': 'NotSet', + 'StackCommitSize': 'a_string', + 'StackReserveSize': 'a_string', + 'StripPrivateSymbols': 'a_file_name', + 'SubSystem': 'Windows', + 'SupportUnloadOfDelayLoadedDLL': 'true', + 'SuppressStartupBanner': 'true', + 'SwapRunFromCD': 'true', + 'SwapRunFromNET': 'true', + 'TargetMachine': 'MachineARM', + 'TerminalServerAware': 'true', + 'TurnOffAssemblyGeneration': 'true', + 'TypeLibraryFile': 'a_file_name', + 'TypeLibraryResourceID': '33', + 'UACExecutionLevel': 'HighestAvailable', + 'UACUIAccess': 'true', + 'Version': 'a_string'}, + 'ResourceCompile': { + 'AdditionalIncludeDirectories': 'folder1;folder2;folder3', + 'AdditionalOptions': 'a_string', + 'Culture': '0x03eb', + 'IgnoreStandardIncludePath': 'true', + 'PreprocessorDefinitions': 'd1;d2;d3', + 'ResourceOutputFileName': 'a_string', + 'ShowProgress': 'true', + 'SuppressStartupBanner': 'true', + 'UndefinePreprocessorDefinitions': 'd1;d2;d3'}, + 'Midl': { + 'AdditionalIncludeDirectories': 'folder1;folder2;folder3', + 'AdditionalOptions': 'a_string', + 'CPreprocessOptions': 'a_string', + 'DefaultCharType': 'Unsigned', + 'DllDataFileName': 'a_file_name', + 'EnableErrorChecks': 'All', + 'ErrorCheckAllocations': 'true', + 'ErrorCheckBounds': 'true', + 'ErrorCheckEnumRange': 'true', + 'ErrorCheckRefPointers': 'true', + 'ErrorCheckStubData': 'true', + 'GenerateStublessProxies': 'true', + 'GenerateTypeLibrary': 'true', + 'HeaderFileName': 'a_file_name', + 'IgnoreStandardIncludePath': 'true', + 'InterfaceIdentifierFileName': 'a_file_name', + 'MkTypLibCompatible': 'true', + 'OutputDirectory': 'a_string', + 'PreprocessorDefinitions': 'd1;d2;d3', + 'ProxyFileName': 'a_file_name', + 'RedirectOutputAndErrors': 'a_file_name', + 'StructMemberAlignment': '4', + 'SuppressStartupBanner': 'true', + 'TargetEnvironment': 'Win32', + 'TypeLibraryName': 'a_file_name', + 'UndefinePreprocessorDefinitions': 'd1;d2;d3', + 'ValidateAllParameters': 'true', + 'WarnAsError': 'true', + 'WarningLevel': '4'}, + 'Lib': { + 'AdditionalDependencies': 'file1;file2;file3', + 'AdditionalLibraryDirectories': 'folder1;folder2;folder3', + 'AdditionalOptions': 'a_string', + 'ExportNamedFunctions': 'd1;d2;d3', + 'ForceSymbolReferences': 'a_string', + 'IgnoreAllDefaultLibraries': 'true', + 'IgnoreSpecificDefaultLibraries': 'file1;file2;file3', + 'ModuleDefinitionFile': 'a_file_name', + 'OutputFile': 'a_file_name', + 'SuppressStartupBanner': 'true', + 'UseUnicodeResponseFiles': 'true'}, + 'Manifest': { + 'AdditionalManifestFiles': 'file1;file2;file3', + 'AdditionalOptions': 'a_string', + 'AssemblyIdentity': 'a_string', + 'ComponentFileName': 'a_file_name', + 'GenerateCatalogFiles': 'true', + 'InputResourceManifests': 'a_string', + 'OutputManifestFile': 'a_file_name', + 'RegistrarScriptFile': 'a_file_name', + 'ReplacementsFile': 'a_file_name', + 'SuppressStartupBanner': 'true', + 'TypeLibraryFile': 'a_file_name', + 'UpdateFileHashes': 'true', + 'UpdateFileHashesSearchPath': 'a_file_name', + 'VerboseOutput': 'true'}, + 'ManifestResourceCompile': { + 'ResourceOutputFileName': 'my_name'}, + 'ProjectReference': { + 'LinkLibraryDependencies': 'true', + 'UseLibraryDependencyInputs': 'false'}, + '': { + 'EmbedManifest': 'true', + 'GenerateManifest': 'true', + 'IgnoreImportLibrary': 'true', + 'LinkIncremental': 'false'}} + actual_msbuild_settings = MSVSSettings.ConvertToMSBuildSettings( + msvs_settings, + self.stderr) + self.assertEqual(expected_msbuild_settings, actual_msbuild_settings) + self._ExpectedWarnings([]) + + def testConvertToMSBuildSettings_actual(self): + """Tests the conversion of an actual project. + + A VS2008 project with most of the options defined was created through the + VS2008 IDE. It was then converted to VS2010. The tool settings found in + the .vcproj and .vcxproj files were converted to the two dictionaries + msvs_settings and expected_msbuild_settings. + + Note that for many settings, the VS2010 converter adds macros like + %(AdditionalIncludeDirectories) to make sure than inherited values are + included. Since the Gyp projects we generate do not use inheritance, + we removed these macros. They were: + ClCompile: + AdditionalIncludeDirectories: ';%(AdditionalIncludeDirectories)' + AdditionalOptions: ' %(AdditionalOptions)' + AdditionalUsingDirectories: ';%(AdditionalUsingDirectories)' + DisableSpecificWarnings: ';%(DisableSpecificWarnings)', + ForcedIncludeFiles: ';%(ForcedIncludeFiles)', + ForcedUsingFiles: ';%(ForcedUsingFiles)', + PreprocessorDefinitions: ';%(PreprocessorDefinitions)', + UndefinePreprocessorDefinitions: + ';%(UndefinePreprocessorDefinitions)', + Link: + AdditionalDependencies: ';%(AdditionalDependencies)', + AdditionalLibraryDirectories: ';%(AdditionalLibraryDirectories)', + AdditionalManifestDependencies: + ';%(AdditionalManifestDependencies)', + AdditionalOptions: ' %(AdditionalOptions)', + AddModuleNamesToAssembly: ';%(AddModuleNamesToAssembly)', + AssemblyLinkResource: ';%(AssemblyLinkResource)', + DelayLoadDLLs: ';%(DelayLoadDLLs)', + EmbedManagedResourceFile: ';%(EmbedManagedResourceFile)', + ForceSymbolReferences: ';%(ForceSymbolReferences)', + IgnoreSpecificDefaultLibraries: + ';%(IgnoreSpecificDefaultLibraries)', + ResourceCompile: + AdditionalIncludeDirectories: ';%(AdditionalIncludeDirectories)', + AdditionalOptions: ' %(AdditionalOptions)', + PreprocessorDefinitions: ';%(PreprocessorDefinitions)', + Manifest: + AdditionalManifestFiles: ';%(AdditionalManifestFiles)', + AdditionalOptions: ' %(AdditionalOptions)', + InputResourceManifests: ';%(InputResourceManifests)', + """ + msvs_settings = { + 'VCCLCompilerTool': { + 'AdditionalIncludeDirectories': 'dir1', + 'AdditionalOptions': '/more', + 'AdditionalUsingDirectories': 'test', + 'AssemblerListingLocation': '$(IntDir)\\a', + 'AssemblerOutput': '1', + 'BasicRuntimeChecks': '3', + 'BrowseInformation': '1', + 'BrowseInformationFile': '$(IntDir)\\e', + 'BufferSecurityCheck': 'false', + 'CallingConvention': '1', + 'CompileAs': '1', + 'DebugInformationFormat': '4', + 'DefaultCharIsUnsigned': 'true', + 'Detect64BitPortabilityProblems': 'true', + 'DisableLanguageExtensions': 'true', + 'DisableSpecificWarnings': 'abc', + 'EnableEnhancedInstructionSet': '1', + 'EnableFiberSafeOptimizations': 'true', + 'EnableFunctionLevelLinking': 'true', + 'EnableIntrinsicFunctions': 'true', + 'EnablePREfast': 'true', + 'ErrorReporting': '2', + 'ExceptionHandling': '2', + 'ExpandAttributedSource': 'true', + 'FavorSizeOrSpeed': '2', + 'FloatingPointExceptions': 'true', + 'FloatingPointModel': '1', + 'ForceConformanceInForLoopScope': 'false', + 'ForcedIncludeFiles': 'def', + 'ForcedUsingFiles': 'ge', + 'GeneratePreprocessedFile': '2', + 'GenerateXMLDocumentationFiles': 'true', + 'IgnoreStandardIncludePath': 'true', + 'InlineFunctionExpansion': '1', + 'KeepComments': 'true', + 'MinimalRebuild': 'true', + 'ObjectFile': '$(IntDir)\\b', + 'OmitDefaultLibName': 'true', + 'OmitFramePointers': 'true', + 'OpenMP': 'true', + 'Optimization': '3', + 'PrecompiledHeaderFile': '$(IntDir)\\$(TargetName).pche', + 'PrecompiledHeaderThrough': 'StdAfx.hd', + 'PreprocessorDefinitions': 'WIN32;_DEBUG;_CONSOLE', + 'ProgramDataBaseFileName': '$(IntDir)\\vc90b.pdb', + 'RuntimeLibrary': '3', + 'RuntimeTypeInfo': 'false', + 'ShowIncludes': 'true', + 'SmallerTypeCheck': 'true', + 'StringPooling': 'true', + 'StructMemberAlignment': '3', + 'SuppressStartupBanner': 'false', + 'TreatWChar_tAsBuiltInType': 'false', + 'UndefineAllPreprocessorDefinitions': 'true', + 'UndefinePreprocessorDefinitions': 'wer', + 'UseFullPaths': 'true', + 'UsePrecompiledHeader': '0', + 'UseUnicodeResponseFiles': 'false', + 'WarnAsError': 'true', + 'WarningLevel': '3', + 'WholeProgramOptimization': 'true', + 'XMLDocumentationFileName': '$(IntDir)\\c'}, + 'VCLinkerTool': { + 'AdditionalDependencies': 'zx', + 'AdditionalLibraryDirectories': 'asd', + 'AdditionalManifestDependencies': 's2', + 'AdditionalOptions': '/mor2', + 'AddModuleNamesToAssembly': 'd1', + 'AllowIsolation': 'false', + 'AssemblyDebug': '1', + 'AssemblyLinkResource': 'd5', + 'BaseAddress': '23423', + 'CLRImageType': '3', + 'CLRThreadAttribute': '1', + 'CLRUnmanagedCodeCheck': 'true', + 'DataExecutionPrevention': '0', + 'DelayLoadDLLs': 'd4', + 'DelaySign': 'true', + 'Driver': '2', + 'EmbedManagedResourceFile': 'd2', + 'EnableCOMDATFolding': '1', + 'EnableUAC': 'false', + 'EntryPointSymbol': 'f5', + 'ErrorReporting': '2', + 'FixedBaseAddress': '1', + 'ForceSymbolReferences': 'd3', + 'FunctionOrder': 'fssdfsd', + 'GenerateDebugInformation': 'true', + 'GenerateManifest': 'false', + 'GenerateMapFile': 'true', + 'HeapCommitSize': '13', + 'HeapReserveSize': '12', + 'IgnoreAllDefaultLibraries': 'true', + 'IgnoreDefaultLibraryNames': 'flob;flok', + 'IgnoreEmbeddedIDL': 'true', + 'IgnoreImportLibrary': 'true', + 'ImportLibrary': 'f4', + 'KeyContainer': 'f7', + 'KeyFile': 'f6', + 'LargeAddressAware': '2', + 'LinkIncremental': '0', + 'LinkLibraryDependencies': 'false', + 'LinkTimeCodeGeneration': '1', + 'ManifestFile': + '$(IntDir)\\$(TargetFileName).2intermediate.manifest', + 'MapExports': 'true', + 'MapFileName': 'd5', + 'MergedIDLBaseFileName': 'f2', + 'MergeSections': 'f5', + 'MidlCommandFile': 'f1', + 'ModuleDefinitionFile': 'sdsd', + 'OptimizeForWindows98': '2', + 'OptimizeReferences': '2', + 'OutputFile': '$(OutDir)\\$(ProjectName)2.exe', + 'PerUserRedirection': 'true', + 'Profile': 'true', + 'ProfileGuidedDatabase': '$(TargetDir)$(TargetName).pgdd', + 'ProgramDatabaseFile': 'Flob.pdb', + 'RandomizedBaseAddress': '1', + 'RegisterOutput': 'true', + 'ResourceOnlyDLL': 'true', + 'SetChecksum': 'false', + 'ShowProgress': '1', + 'StackCommitSize': '15', + 'StackReserveSize': '14', + 'StripPrivateSymbols': 'd3', + 'SubSystem': '1', + 'SupportUnloadOfDelayLoadedDLL': 'true', + 'SuppressStartupBanner': 'false', + 'SwapRunFromCD': 'true', + 'SwapRunFromNet': 'true', + 'TargetMachine': '1', + 'TerminalServerAware': '1', + 'TurnOffAssemblyGeneration': 'true', + 'TypeLibraryFile': 'f3', + 'TypeLibraryResourceID': '12', + 'UACExecutionLevel': '2', + 'UACUIAccess': 'true', + 'UseLibraryDependencyInputs': 'true', + 'UseUnicodeResponseFiles': 'false', + 'Version': '333'}, + 'VCResourceCompilerTool': { + 'AdditionalIncludeDirectories': 'f3', + 'AdditionalOptions': '/more3', + 'Culture': '3084', + 'IgnoreStandardIncludePath': 'true', + 'PreprocessorDefinitions': '_UNICODE;UNICODE2', + 'ResourceOutputFileName': '$(IntDir)/$(InputName)3.res', + 'ShowProgress': 'true'}, + 'VCManifestTool': { + 'AdditionalManifestFiles': 'sfsdfsd', + 'AdditionalOptions': 'afdsdafsd', + 'AssemblyIdentity': 'sddfdsadfsa', + 'ComponentFileName': 'fsdfds', + 'DependencyInformationFile': '$(IntDir)\\mt.depdfd', + 'EmbedManifest': 'false', + 'GenerateCatalogFiles': 'true', + 'InputResourceManifests': 'asfsfdafs', + 'ManifestResourceFile': + '$(IntDir)\\$(TargetFileName).embed.manifest.resfdsf', + 'OutputManifestFile': '$(TargetPath).manifestdfs', + 'RegistrarScriptFile': 'sdfsfd', + 'ReplacementsFile': 'sdffsd', + 'SuppressStartupBanner': 'false', + 'TypeLibraryFile': 'sfsd', + 'UpdateFileHashes': 'true', + 'UpdateFileHashesSearchPath': 'sfsd', + 'UseFAT32Workaround': 'true', + 'UseUnicodeResponseFiles': 'false', + 'VerboseOutput': 'true'}} + expected_msbuild_settings = { + 'ClCompile': { + 'AdditionalIncludeDirectories': 'dir1', + 'AdditionalOptions': '/more /J', + 'AdditionalUsingDirectories': 'test', + 'AssemblerListingLocation': '$(IntDir)a', + 'AssemblerOutput': 'AssemblyCode', + 'BasicRuntimeChecks': 'EnableFastChecks', + 'BrowseInformation': 'true', + 'BrowseInformationFile': '$(IntDir)e', + 'BufferSecurityCheck': 'false', + 'CallingConvention': 'FastCall', + 'CompileAs': 'CompileAsC', + 'DebugInformationFormat': 'EditAndContinue', + 'DisableLanguageExtensions': 'true', + 'DisableSpecificWarnings': 'abc', + 'EnableEnhancedInstructionSet': 'StreamingSIMDExtensions', + 'EnableFiberSafeOptimizations': 'true', + 'EnablePREfast': 'true', + 'ErrorReporting': 'Queue', + 'ExceptionHandling': 'Async', + 'ExpandAttributedSource': 'true', + 'FavorSizeOrSpeed': 'Size', + 'FloatingPointExceptions': 'true', + 'FloatingPointModel': 'Strict', + 'ForceConformanceInForLoopScope': 'false', + 'ForcedIncludeFiles': 'def', + 'ForcedUsingFiles': 'ge', + 'FunctionLevelLinking': 'true', + 'GenerateXMLDocumentationFiles': 'true', + 'IgnoreStandardIncludePath': 'true', + 'InlineFunctionExpansion': 'OnlyExplicitInline', + 'IntrinsicFunctions': 'true', + 'MinimalRebuild': 'true', + 'ObjectFileName': '$(IntDir)b', + 'OmitDefaultLibName': 'true', + 'OmitFramePointers': 'true', + 'OpenMPSupport': 'true', + 'Optimization': 'Full', + 'PrecompiledHeader': 'NotUsing', # Actual conversion gives '' + 'PrecompiledHeaderFile': 'StdAfx.hd', + 'PrecompiledHeaderOutputFile': '$(IntDir)$(TargetName).pche', + 'PreprocessKeepComments': 'true', + 'PreprocessorDefinitions': 'WIN32;_DEBUG;_CONSOLE', + 'PreprocessSuppressLineNumbers': 'true', + 'PreprocessToFile': 'true', + 'ProgramDataBaseFileName': '$(IntDir)vc90b.pdb', + 'RuntimeLibrary': 'MultiThreadedDebugDLL', + 'RuntimeTypeInfo': 'false', + 'ShowIncludes': 'true', + 'SmallerTypeCheck': 'true', + 'StringPooling': 'true', + 'StructMemberAlignment': '4Bytes', + 'SuppressStartupBanner': 'false', + 'TreatWarningAsError': 'true', + 'TreatWChar_tAsBuiltInType': 'false', + 'UndefineAllPreprocessorDefinitions': 'true', + 'UndefinePreprocessorDefinitions': 'wer', + 'UseFullPaths': 'true', + 'WarningLevel': 'Level3', + 'WholeProgramOptimization': 'true', + 'XMLDocumentationFileName': '$(IntDir)c'}, + 'Link': { + 'AdditionalDependencies': 'zx', + 'AdditionalLibraryDirectories': 'asd', + 'AdditionalManifestDependencies': 's2', + 'AdditionalOptions': '/mor2', + 'AddModuleNamesToAssembly': 'd1', + 'AllowIsolation': 'false', + 'AssemblyDebug': 'true', + 'AssemblyLinkResource': 'd5', + 'BaseAddress': '23423', + 'CLRImageType': 'ForceSafeILImage', + 'CLRThreadAttribute': 'MTAThreadingAttribute', + 'CLRUnmanagedCodeCheck': 'true', + 'DataExecutionPrevention': '', + 'DelayLoadDLLs': 'd4', + 'DelaySign': 'true', + 'Driver': 'UpOnly', + 'EmbedManagedResourceFile': 'd2', + 'EnableCOMDATFolding': 'false', + 'EnableUAC': 'false', + 'EntryPointSymbol': 'f5', + 'FixedBaseAddress': 'false', + 'ForceSymbolReferences': 'd3', + 'FunctionOrder': 'fssdfsd', + 'GenerateDebugInformation': 'true', + 'GenerateMapFile': 'true', + 'HeapCommitSize': '13', + 'HeapReserveSize': '12', + 'IgnoreAllDefaultLibraries': 'true', + 'IgnoreEmbeddedIDL': 'true', + 'IgnoreSpecificDefaultLibraries': 'flob;flok', + 'ImportLibrary': 'f4', + 'KeyContainer': 'f7', + 'KeyFile': 'f6', + 'LargeAddressAware': 'true', + 'LinkErrorReporting': 'QueueForNextLogin', + 'LinkTimeCodeGeneration': 'UseLinkTimeCodeGeneration', + 'ManifestFile': '$(IntDir)$(TargetFileName).2intermediate.manifest', + 'MapExports': 'true', + 'MapFileName': 'd5', + 'MergedIDLBaseFileName': 'f2', + 'MergeSections': 'f5', + 'MidlCommandFile': 'f1', + 'ModuleDefinitionFile': 'sdsd', + 'NoEntryPoint': 'true', + 'OptimizeReferences': 'true', + 'OutputFile': '$(OutDir)$(ProjectName)2.exe', + 'PerUserRedirection': 'true', + 'Profile': 'true', + 'ProfileGuidedDatabase': '$(TargetDir)$(TargetName).pgdd', + 'ProgramDatabaseFile': 'Flob.pdb', + 'RandomizedBaseAddress': 'false', + 'RegisterOutput': 'true', + 'SetChecksum': 'false', + 'ShowProgress': 'LinkVerbose', + 'StackCommitSize': '15', + 'StackReserveSize': '14', + 'StripPrivateSymbols': 'd3', + 'SubSystem': 'Console', + 'SupportUnloadOfDelayLoadedDLL': 'true', + 'SuppressStartupBanner': 'false', + 'SwapRunFromCD': 'true', + 'SwapRunFromNET': 'true', + 'TargetMachine': 'MachineX86', + 'TerminalServerAware': 'false', + 'TurnOffAssemblyGeneration': 'true', + 'TypeLibraryFile': 'f3', + 'TypeLibraryResourceID': '12', + 'UACExecutionLevel': 'RequireAdministrator', + 'UACUIAccess': 'true', + 'Version': '333'}, + 'ResourceCompile': { + 'AdditionalIncludeDirectories': 'f3', + 'AdditionalOptions': '/more3', + 'Culture': '0x0c0c', + 'IgnoreStandardIncludePath': 'true', + 'PreprocessorDefinitions': '_UNICODE;UNICODE2', + 'ResourceOutputFileName': '$(IntDir)%(Filename)3.res', + 'ShowProgress': 'true'}, + 'Manifest': { + 'AdditionalManifestFiles': 'sfsdfsd', + 'AdditionalOptions': 'afdsdafsd', + 'AssemblyIdentity': 'sddfdsadfsa', + 'ComponentFileName': 'fsdfds', + 'GenerateCatalogFiles': 'true', + 'InputResourceManifests': 'asfsfdafs', + 'OutputManifestFile': '$(TargetPath).manifestdfs', + 'RegistrarScriptFile': 'sdfsfd', + 'ReplacementsFile': 'sdffsd', + 'SuppressStartupBanner': 'false', + 'TypeLibraryFile': 'sfsd', + 'UpdateFileHashes': 'true', + 'UpdateFileHashesSearchPath': 'sfsd', + 'VerboseOutput': 'true'}, + 'ProjectReference': { + 'LinkLibraryDependencies': 'false', + 'UseLibraryDependencyInputs': 'true'}, + '': { + 'EmbedManifest': 'false', + 'GenerateManifest': 'false', + 'IgnoreImportLibrary': 'true', + 'LinkIncremental': '' + }, + 'ManifestResourceCompile': { + 'ResourceOutputFileName': + '$(IntDir)$(TargetFileName).embed.manifest.resfdsf'} + } + actual_msbuild_settings = MSVSSettings.ConvertToMSBuildSettings( + msvs_settings, + self.stderr) + self.assertEqual(expected_msbuild_settings, actual_msbuild_settings) + self._ExpectedWarnings([]) + + +if __name__ == '__main__': + unittest.main() diff --git a/deps/gyp/pylib/gyp/MSVSToolFile.py b/deps/gyp/pylib/gyp/MSVSToolFile.py new file mode 100644 index 0000000000..74e529a17f --- /dev/null +++ b/deps/gyp/pylib/gyp/MSVSToolFile.py @@ -0,0 +1,58 @@ +# Copyright (c) 2012 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +"""Visual Studio project reader/writer.""" + +import gyp.common +import gyp.easy_xml as easy_xml + + +class Writer(object): + """Visual Studio XML tool file writer.""" + + def __init__(self, tool_file_path, name): + """Initializes the tool file. + + Args: + tool_file_path: Path to the tool file. + name: Name of the tool file. + """ + self.tool_file_path = tool_file_path + self.name = name + self.rules_section = ['Rules'] + + def AddCustomBuildRule(self, name, cmd, description, + additional_dependencies, + outputs, extensions): + """Adds a rule to the tool file. + + Args: + name: Name of the rule. + description: Description of the rule. + cmd: Command line of the rule. + additional_dependencies: other files which may trigger the rule. + outputs: outputs of the rule. + extensions: extensions handled by the rule. + """ + rule = ['CustomBuildRule', + {'Name': name, + 'ExecutionDescription': description, + 'CommandLine': cmd, + 'Outputs': ';'.join(outputs), + 'FileExtensions': ';'.join(extensions), + 'AdditionalDependencies': + ';'.join(additional_dependencies) + }] + self.rules_section.append(rule) + + def WriteIfChanged(self): + """Writes the tool file.""" + content = ['VisualStudioToolFile', + {'Version': '8.00', + 'Name': self.name + }, + self.rules_section + ] + easy_xml.WriteXmlIfChanged(content, self.tool_file_path, + encoding="Windows-1252") diff --git a/deps/gyp/pylib/gyp/MSVSUserFile.py b/deps/gyp/pylib/gyp/MSVSUserFile.py new file mode 100644 index 0000000000..6c07e9a893 --- /dev/null +++ b/deps/gyp/pylib/gyp/MSVSUserFile.py @@ -0,0 +1,147 @@ +# Copyright (c) 2012 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +"""Visual Studio user preferences file writer.""" + +import os +import re +import socket # for gethostname + +import gyp.common +import gyp.easy_xml as easy_xml + + +#------------------------------------------------------------------------------ + +def _FindCommandInPath(command): + """If there are no slashes in the command given, this function + searches the PATH env to find the given command, and converts it + to an absolute path. We have to do this because MSVS is looking + for an actual file to launch a debugger on, not just a command + line. Note that this happens at GYP time, so anything needing to + be built needs to have a full path.""" + if '/' in command or '\\' in command: + # If the command already has path elements (either relative or + # absolute), then assume it is constructed properly. + return command + else: + # Search through the path list and find an existing file that + # we can access. + paths = os.environ.get('PATH','').split(os.pathsep) + for path in paths: + item = os.path.join(path, command) + if os.path.isfile(item) and os.access(item, os.X_OK): + return item + return command + +def _QuoteWin32CommandLineArgs(args): + new_args = [] + for arg in args: + # Replace all double-quotes with double-double-quotes to escape + # them for cmd shell, and then quote the whole thing if there + # are any. + if arg.find('"') != -1: + arg = '""'.join(arg.split('"')) + arg = '"%s"' % arg + + # Otherwise, if there are any spaces, quote the whole arg. + elif re.search(r'[ \t\n]', arg): + arg = '"%s"' % arg + new_args.append(arg) + return new_args + +class Writer(object): + """Visual Studio XML user user file writer.""" + + def __init__(self, user_file_path, version, name): + """Initializes the user file. + + Args: + user_file_path: Path to the user file. + version: Version info. + name: Name of the user file. + """ + self.user_file_path = user_file_path + self.version = version + self.name = name + self.configurations = {} + + def AddConfig(self, name): + """Adds a configuration to the project. + + Args: + name: Configuration name. + """ + self.configurations[name] = ['Configuration', {'Name': name}] + + def AddDebugSettings(self, config_name, command, environment = {}, + working_directory=""): + """Adds a DebugSettings node to the user file for a particular config. + + Args: + command: command line to run. First element in the list is the + executable. All elements of the command will be quoted if + necessary. + working_directory: other files which may trigger the rule. (optional) + """ + command = _QuoteWin32CommandLineArgs(command) + + abs_command = _FindCommandInPath(command[0]) + + if environment and isinstance(environment, dict): + env_list = ['%s="%s"' % (key, val) + for (key,val) in environment.iteritems()] + environment = ' '.join(env_list) + else: + environment = '' + + n_cmd = ['DebugSettings', + {'Command': abs_command, + 'WorkingDirectory': working_directory, + 'CommandArguments': " ".join(command[1:]), + 'RemoteMachine': socket.gethostname(), + 'Environment': environment, + 'EnvironmentMerge': 'true', + # Currently these are all "dummy" values that we're just setting + # in the default manner that MSVS does it. We could use some of + # these to add additional capabilities, I suppose, but they might + # not have parity with other platforms then. + 'Attach': 'false', + 'DebuggerType': '3', # 'auto' debugger + 'Remote': '1', + 'RemoteCommand': '', + 'HttpUrl': '', + 'PDBPath': '', + 'SQLDebugging': '', + 'DebuggerFlavor': '0', + 'MPIRunCommand': '', + 'MPIRunArguments': '', + 'MPIRunWorkingDirectory': '', + 'ApplicationCommand': '', + 'ApplicationArguments': '', + 'ShimCommand': '', + 'MPIAcceptMode': '', + 'MPIAcceptFilter': '' + }] + + # Find the config, and add it if it doesn't exist. + if config_name not in self.configurations: + self.AddConfig(config_name) + + # Add the DebugSettings onto the appropriate config. + self.configurations[config_name].append(n_cmd) + + def WriteIfChanged(self): + """Writes the user file.""" + configs = ['Configurations'] + for config, spec in sorted(self.configurations.iteritems()): + configs.append(spec) + + content = ['VisualStudioUserFile', + {'Version': self.version.ProjectVersion(), + 'Name': self.name + }, + configs] + easy_xml.WriteXmlIfChanged(content, self.user_file_path, + encoding="Windows-1252") diff --git a/deps/gyp/pylib/gyp/MSVSUtil.py b/deps/gyp/pylib/gyp/MSVSUtil.py new file mode 100644 index 0000000000..62e8d260d4 --- /dev/null +++ b/deps/gyp/pylib/gyp/MSVSUtil.py @@ -0,0 +1,267 @@ +# Copyright (c) 2013 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +"""Utility functions shared amongst the Windows generators.""" + +import copy +import os + + +_TARGET_TYPE_EXT = { + 'executable': '.exe', + 'loadable_module': '.dll', + 'shared_library': '.dll', +} + + +def _GetLargePdbShimCcPath(): + """Returns the path of the large_pdb_shim.cc file.""" + this_dir = os.path.abspath(os.path.dirname(__file__)) + src_dir = os.path.abspath(os.path.join(this_dir, '..', '..')) + win_data_dir = os.path.join(src_dir, 'data', 'win') + large_pdb_shim_cc = os.path.join(win_data_dir, 'large-pdb-shim.cc') + return large_pdb_shim_cc + + +def _DeepCopySomeKeys(in_dict, keys): + """Performs a partial deep-copy on |in_dict|, only copying the keys in |keys|. + + Arguments: + in_dict: The dictionary to copy. + keys: The keys to be copied. If a key is in this list and doesn't exist in + |in_dict| this is not an error. + Returns: + The partially deep-copied dictionary. + """ + d = {} + for key in keys: + if key not in in_dict: + continue + d[key] = copy.deepcopy(in_dict[key]) + return d + + +def _SuffixName(name, suffix): + """Add a suffix to the end of a target. + + Arguments: + name: name of the target (foo#target) + suffix: the suffix to be added + Returns: + Target name with suffix added (foo_suffix#target) + """ + parts = name.rsplit('#', 1) + parts[0] = '%s_%s' % (parts[0], suffix) + return '#'.join(parts) + + +def _ShardName(name, number): + """Add a shard number to the end of a target. + + Arguments: + name: name of the target (foo#target) + number: shard number + Returns: + Target name with shard added (foo_1#target) + """ + return _SuffixName(name, str(number)) + + +def ShardTargets(target_list, target_dicts): + """Shard some targets apart to work around the linkers limits. + + Arguments: + target_list: List of target pairs: 'base/base.gyp:base'. + target_dicts: Dict of target properties keyed on target pair. + Returns: + Tuple of the new sharded versions of the inputs. + """ + # Gather the targets to shard, and how many pieces. + targets_to_shard = {} + for t in target_dicts: + shards = int(target_dicts[t].get('msvs_shard', 0)) + if shards: + targets_to_shard[t] = shards + # Shard target_list. + new_target_list = [] + for t in target_list: + if t in targets_to_shard: + for i in range(targets_to_shard[t]): + new_target_list.append(_ShardName(t, i)) + else: + new_target_list.append(t) + # Shard target_dict. + new_target_dicts = {} + for t in target_dicts: + if t in targets_to_shard: + for i in range(targets_to_shard[t]): + name = _ShardName(t, i) + new_target_dicts[name] = copy.copy(target_dicts[t]) + new_target_dicts[name]['target_name'] = _ShardName( + new_target_dicts[name]['target_name'], i) + sources = new_target_dicts[name].get('sources', []) + new_sources = [] + for pos in range(i, len(sources), targets_to_shard[t]): + new_sources.append(sources[pos]) + new_target_dicts[name]['sources'] = new_sources + else: + new_target_dicts[t] = target_dicts[t] + # Shard dependencies. + for t in new_target_dicts: + dependencies = copy.copy(new_target_dicts[t].get('dependencies', [])) + new_dependencies = [] + for d in dependencies: + if d in targets_to_shard: + for i in range(targets_to_shard[d]): + new_dependencies.append(_ShardName(d, i)) + else: + new_dependencies.append(d) + new_target_dicts[t]['dependencies'] = new_dependencies + + return (new_target_list, new_target_dicts) + + +def _GetPdbPath(target_dict, config_name, vars): + """Returns the path to the PDB file that will be generated by a given + configuration. + + The lookup proceeds as follows: + - Look for an explicit path in the VCLinkerTool configuration block. + - Look for an 'msvs_large_pdb_path' variable. + - Use '<(PRODUCT_DIR)/<(product_name).(exe|dll).pdb' if 'product_name' is + specified. + - Use '<(PRODUCT_DIR)/<(target_name).(exe|dll).pdb'. + + Arguments: + target_dict: The target dictionary to be searched. + config_name: The name of the configuration of interest. + vars: A dictionary of common GYP variables with generator-specific values. + Returns: + The path of the corresponding PDB file. + """ + config = target_dict['configurations'][config_name] + msvs = config.setdefault('msvs_settings', {}) + + linker = msvs.get('VCLinkerTool', {}) + + pdb_path = linker.get('ProgramDatabaseFile') + if pdb_path: + return pdb_path + + variables = target_dict.get('variables', {}) + pdb_path = variables.get('msvs_large_pdb_path', None) + if pdb_path: + return pdb_path + + + pdb_base = target_dict.get('product_name', target_dict['target_name']) + pdb_base = '%s%s.pdb' % (pdb_base, _TARGET_TYPE_EXT[target_dict['type']]) + pdb_path = vars['PRODUCT_DIR'] + '/' + pdb_base + + return pdb_path + + +def InsertLargePdbShims(target_list, target_dicts, vars): + """Insert a shim target that forces the linker to use 4KB pagesize PDBs. + + This is a workaround for targets with PDBs greater than 1GB in size, the + limit for the 1KB pagesize PDBs created by the linker by default. + + Arguments: + target_list: List of target pairs: 'base/base.gyp:base'. + target_dicts: Dict of target properties keyed on target pair. + vars: A dictionary of common GYP variables with generator-specific values. + Returns: + Tuple of the shimmed version of the inputs. + """ + # Determine which targets need shimming. + targets_to_shim = [] + for t in target_dicts: + target_dict = target_dicts[t] + + # We only want to shim targets that have msvs_large_pdb enabled. + if not int(target_dict.get('msvs_large_pdb', 0)): + continue + # This is intended for executable, shared_library and loadable_module + # targets where every configuration is set up to produce a PDB output. + # If any of these conditions is not true then the shim logic will fail + # below. + targets_to_shim.append(t) + + large_pdb_shim_cc = _GetLargePdbShimCcPath() + + for t in targets_to_shim: + target_dict = target_dicts[t] + target_name = target_dict.get('target_name') + + base_dict = _DeepCopySomeKeys(target_dict, + ['configurations', 'default_configuration', 'toolset']) + + # This is the dict for copying the source file (part of the GYP tree) + # to the intermediate directory of the project. This is necessary because + # we can't always build a relative path to the shim source file (on Windows + # GYP and the project may be on different drives), and Ninja hates absolute + # paths (it ends up generating the .obj and .obj.d alongside the source + # file, polluting GYPs tree). + copy_suffix = 'large_pdb_copy' + copy_target_name = target_name + '_' + copy_suffix + full_copy_target_name = _SuffixName(t, copy_suffix) + shim_cc_basename = os.path.basename(large_pdb_shim_cc) + shim_cc_dir = vars['SHARED_INTERMEDIATE_DIR'] + '/' + copy_target_name + shim_cc_path = shim_cc_dir + '/' + shim_cc_basename + copy_dict = copy.deepcopy(base_dict) + copy_dict['target_name'] = copy_target_name + copy_dict['type'] = 'none' + copy_dict['sources'] = [ large_pdb_shim_cc ] + copy_dict['copies'] = [{ + 'destination': shim_cc_dir, + 'files': [ large_pdb_shim_cc ] + }] + + # This is the dict for the PDB generating shim target. It depends on the + # copy target. + shim_suffix = 'large_pdb_shim' + shim_target_name = target_name + '_' + shim_suffix + full_shim_target_name = _SuffixName(t, shim_suffix) + shim_dict = copy.deepcopy(base_dict) + shim_dict['target_name'] = shim_target_name + shim_dict['type'] = 'static_library' + shim_dict['sources'] = [ shim_cc_path ] + shim_dict['dependencies'] = [ full_copy_target_name ] + + # Set up the shim to output its PDB to the same location as the final linker + # target. + for config_name, config in shim_dict.get('configurations').iteritems(): + pdb_path = _GetPdbPath(target_dict, config_name, vars) + + # A few keys that we don't want to propagate. + for key in ['msvs_precompiled_header', 'msvs_precompiled_source', 'test']: + config.pop(key, None) + + msvs = config.setdefault('msvs_settings', {}) + + # Update the compiler directives in the shim target. + compiler = msvs.setdefault('VCCLCompilerTool', {}) + compiler['DebugInformationFormat'] = '3' + compiler['ProgramDataBaseFileName'] = pdb_path + + # Set the explicit PDB path in the appropriate configuration of the + # original target. + config = target_dict['configurations'][config_name] + msvs = config.setdefault('msvs_settings', {}) + linker = msvs.setdefault('VCLinkerTool', {}) + linker['GenerateDebugInformation'] = 'true' + linker['ProgramDatabaseFile'] = pdb_path + + # Add the new targets. They must go to the beginning of the list so that + # the dependency generation works as expected in ninja. + target_list.insert(0, full_copy_target_name) + target_list.insert(0, full_shim_target_name) + target_dicts[full_copy_target_name] = copy_dict + target_dicts[full_shim_target_name] = shim_dict + + # Update the original target to depend on the shim target. + target_dict.setdefault('dependencies', []).append(full_shim_target_name) + + return (target_list, target_dicts)
\ No newline at end of file diff --git a/deps/gyp/pylib/gyp/MSVSVersion.py b/deps/gyp/pylib/gyp/MSVSVersion.py new file mode 100644 index 0000000000..03b6d8ad42 --- /dev/null +++ b/deps/gyp/pylib/gyp/MSVSVersion.py @@ -0,0 +1,409 @@ +# Copyright (c) 2013 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +"""Handle version information related to Visual Stuio.""" + +import errno +import os +import re +import subprocess +import sys +import gyp +import glob + + +class VisualStudioVersion(object): + """Information regarding a version of Visual Studio.""" + + def __init__(self, short_name, description, + solution_version, project_version, flat_sln, uses_vcxproj, + path, sdk_based, default_toolset=None): + self.short_name = short_name + self.description = description + self.solution_version = solution_version + self.project_version = project_version + self.flat_sln = flat_sln + self.uses_vcxproj = uses_vcxproj + self.path = path + self.sdk_based = sdk_based + self.default_toolset = default_toolset + + def ShortName(self): + return self.short_name + + def Description(self): + """Get the full description of the version.""" + return self.description + + def SolutionVersion(self): + """Get the version number of the sln files.""" + return self.solution_version + + def ProjectVersion(self): + """Get the version number of the vcproj or vcxproj files.""" + return self.project_version + + def FlatSolution(self): + return self.flat_sln + + def UsesVcxproj(self): + """Returns true if this version uses a vcxproj file.""" + return self.uses_vcxproj + + def ProjectExtension(self): + """Returns the file extension for the project.""" + return self.uses_vcxproj and '.vcxproj' or '.vcproj' + + def Path(self): + """Returns the path to Visual Studio installation.""" + return self.path + + def ToolPath(self, tool): + """Returns the path to a given compiler tool. """ + return os.path.normpath(os.path.join(self.path, "VC/bin", tool)) + + def DefaultToolset(self): + """Returns the msbuild toolset version that will be used in the absence + of a user override.""" + return self.default_toolset + + def SetupScript(self, target_arch): + """Returns a command (with arguments) to be used to set up the + environment.""" + # Check if we are running in the SDK command line environment and use + # the setup script from the SDK if so. |target_arch| should be either + # 'x86' or 'x64'. + assert target_arch in ('x86', 'x64') + sdk_dir = os.environ.get('WindowsSDKDir') + if self.sdk_based and sdk_dir: + return [os.path.normpath(os.path.join(sdk_dir, 'Bin/SetEnv.Cmd')), + '/' + target_arch] + else: + # We don't use VC/vcvarsall.bat for x86 because vcvarsall calls + # vcvars32, which it can only find if VS??COMNTOOLS is set, which it + # isn't always. + if target_arch == 'x86': + if self.short_name == '2013' and ( + os.environ.get('PROCESSOR_ARCHITECTURE') == 'AMD64' or + os.environ.get('PROCESSOR_ARCHITEW6432') == 'AMD64'): + # VS2013 non-Express has a x64-x86 cross that we want to prefer. + return [os.path.normpath( + os.path.join(self.path, 'VC/vcvarsall.bat')), 'amd64_x86'] + # Otherwise, the standard x86 compiler. + return [os.path.normpath( + os.path.join(self.path, 'Common7/Tools/vsvars32.bat'))] + else: + assert target_arch == 'x64' + arg = 'x86_amd64' + # Use the 64-on-64 compiler if we're not using an express + # edition and we're running on a 64bit OS. + if self.short_name[-1] != 'e' and ( + os.environ.get('PROCESSOR_ARCHITECTURE') == 'AMD64' or + os.environ.get('PROCESSOR_ARCHITEW6432') == 'AMD64'): + arg = 'amd64' + return [os.path.normpath( + os.path.join(self.path, 'VC/vcvarsall.bat')), arg] + + +def _RegistryQueryBase(sysdir, key, value): + """Use reg.exe to read a particular key. + + While ideally we might use the win32 module, we would like gyp to be + python neutral, so for instance cygwin python lacks this module. + + Arguments: + sysdir: The system subdirectory to attempt to launch reg.exe from. + key: The registry key to read from. + value: The particular value to read. + Return: + stdout from reg.exe, or None for failure. + """ + # Skip if not on Windows or Python Win32 setup issue + if sys.platform not in ('win32', 'cygwin'): + return None + # Setup params to pass to and attempt to launch reg.exe + cmd = [os.path.join(os.environ.get('WINDIR', ''), sysdir, 'reg.exe'), + 'query', key] + if value: + cmd.extend(['/v', value]) + p = subprocess.Popen(cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE) + # Obtain the stdout from reg.exe, reading to the end so p.returncode is valid + # Note that the error text may be in [1] in some cases + text = p.communicate()[0] + # Check return code from reg.exe; officially 0==success and 1==error + if p.returncode: + return None + return text + + +def _RegistryQuery(key, value=None): + """Use reg.exe to read a particular key through _RegistryQueryBase. + + First tries to launch from %WinDir%\Sysnative to avoid WoW64 redirection. If + that fails, it falls back to System32. Sysnative is available on Vista and + up and available on Windows Server 2003 and XP through KB patch 942589. Note + that Sysnative will always fail if using 64-bit python due to it being a + virtual directory and System32 will work correctly in the first place. + + KB 942589 - http://support.microsoft.com/kb/942589/en-us. + + Arguments: + key: The registry key. + value: The particular registry value to read (optional). + Return: + stdout from reg.exe, or None for failure. + """ + text = None + try: + text = _RegistryQueryBase('Sysnative', key, value) + except OSError, e: + if e.errno == errno.ENOENT: + text = _RegistryQueryBase('System32', key, value) + else: + raise + return text + + +def _RegistryGetValue(key, value): + """Use reg.exe to obtain the value of a registry key. + + Args: + key: The registry key. + value: The particular registry value to read. + Return: + contents of the registry key's value, or None on failure. + """ + text = _RegistryQuery(key, value) + if not text: + return None + # Extract value. + match = re.search(r'REG_\w+\s+([^\r]+)\r\n', text) + if not match: + return None + return match.group(1) + + +def _RegistryKeyExists(key): + """Use reg.exe to see if a key exists. + + Args: + key: The registry key to check. + Return: + True if the key exists + """ + if not _RegistryQuery(key): + return False + return True + + +def _CreateVersion(name, path, sdk_based=False): + """Sets up MSVS project generation. + + Setup is based off the GYP_MSVS_VERSION environment variable or whatever is + autodetected if GYP_MSVS_VERSION is not explicitly specified. If a version is + passed in that doesn't match a value in versions python will throw a error. + """ + if path: + path = os.path.normpath(path) + versions = { + '2013': VisualStudioVersion('2013', + 'Visual Studio 2013', + solution_version='13.00', + project_version='12.0', + flat_sln=False, + uses_vcxproj=True, + path=path, + sdk_based=sdk_based, + default_toolset='v120'), + '2013e': VisualStudioVersion('2013e', + 'Visual Studio 2013', + solution_version='13.00', + project_version='12.0', + flat_sln=True, + uses_vcxproj=True, + path=path, + sdk_based=sdk_based, + default_toolset='v120'), + '2012': VisualStudioVersion('2012', + 'Visual Studio 2012', + solution_version='12.00', + project_version='4.0', + flat_sln=False, + uses_vcxproj=True, + path=path, + sdk_based=sdk_based, + default_toolset='v110'), + '2012e': VisualStudioVersion('2012e', + 'Visual Studio 2012', + solution_version='12.00', + project_version='4.0', + flat_sln=True, + uses_vcxproj=True, + path=path, + sdk_based=sdk_based, + default_toolset='v110'), + '2010': VisualStudioVersion('2010', + 'Visual Studio 2010', + solution_version='11.00', + project_version='4.0', + flat_sln=False, + uses_vcxproj=True, + path=path, + sdk_based=sdk_based), + '2010e': VisualStudioVersion('2010e', + 'Visual C++ Express 2010', + solution_version='11.00', + project_version='4.0', + flat_sln=True, + uses_vcxproj=True, + path=path, + sdk_based=sdk_based), + '2008': VisualStudioVersion('2008', + 'Visual Studio 2008', + solution_version='10.00', + project_version='9.00', + flat_sln=False, + uses_vcxproj=False, + path=path, + sdk_based=sdk_based), + '2008e': VisualStudioVersion('2008e', + 'Visual Studio 2008', + solution_version='10.00', + project_version='9.00', + flat_sln=True, + uses_vcxproj=False, + path=path, + sdk_based=sdk_based), + '2005': VisualStudioVersion('2005', + 'Visual Studio 2005', + solution_version='9.00', + project_version='8.00', + flat_sln=False, + uses_vcxproj=False, + path=path, + sdk_based=sdk_based), + '2005e': VisualStudioVersion('2005e', + 'Visual Studio 2005', + solution_version='9.00', + project_version='8.00', + flat_sln=True, + uses_vcxproj=False, + path=path, + sdk_based=sdk_based), + } + return versions[str(name)] + + +def _ConvertToCygpath(path): + """Convert to cygwin path if we are using cygwin.""" + if sys.platform == 'cygwin': + p = subprocess.Popen(['cygpath', path], stdout=subprocess.PIPE) + path = p.communicate()[0].strip() + return path + + +def _DetectVisualStudioVersions(versions_to_check, force_express): + """Collect the list of installed visual studio versions. + + Returns: + A list of visual studio versions installed in descending order of + usage preference. + Base this on the registry and a quick check if devenv.exe exists. + Only versions 8-10 are considered. + Possibilities are: + 2005(e) - Visual Studio 2005 (8) + 2008(e) - Visual Studio 2008 (9) + 2010(e) - Visual Studio 2010 (10) + 2012(e) - Visual Studio 2012 (11) + 2013(e) - Visual Studio 2013 (11) + Where (e) is e for express editions of MSVS and blank otherwise. + """ + version_to_year = { + '8.0': '2005', + '9.0': '2008', + '10.0': '2010', + '11.0': '2012', + '12.0': '2013', + } + versions = [] + for version in versions_to_check: + # Old method of searching for which VS version is installed + # We don't use the 2010-encouraged-way because we also want to get the + # path to the binaries, which it doesn't offer. + keys = [r'HKLM\Software\Microsoft\VisualStudio\%s' % version, + r'HKLM\Software\Wow6432Node\Microsoft\VisualStudio\%s' % version, + r'HKLM\Software\Microsoft\VCExpress\%s' % version, + r'HKLM\Software\Wow6432Node\Microsoft\VCExpress\%s' % version] + for index in range(len(keys)): + path = _RegistryGetValue(keys[index], 'InstallDir') + if not path: + continue + path = _ConvertToCygpath(path) + # Check for full. + full_path = os.path.join(path, 'devenv.exe') + express_path = os.path.join(path, '*express.exe') + if not force_express and os.path.exists(full_path): + # Add this one. + versions.append(_CreateVersion(version_to_year[version], + os.path.join(path, '..', '..'))) + # Check for express. + elif glob.glob(express_path): + # Add this one. + versions.append(_CreateVersion(version_to_year[version] + 'e', + os.path.join(path, '..', '..'))) + + # The old method above does not work when only SDK is installed. + keys = [r'HKLM\Software\Microsoft\VisualStudio\SxS\VC7', + r'HKLM\Software\Wow6432Node\Microsoft\VisualStudio\SxS\VC7'] + for index in range(len(keys)): + path = _RegistryGetValue(keys[index], version) + if not path: + continue + path = _ConvertToCygpath(path) + versions.append(_CreateVersion(version_to_year[version] + 'e', + os.path.join(path, '..'), sdk_based=True)) + + return versions + + +def SelectVisualStudioVersion(version='auto'): + """Select which version of Visual Studio projects to generate. + + Arguments: + version: Hook to allow caller to force a particular version (vs auto). + Returns: + An object representing a visual studio project format version. + """ + # In auto mode, check environment variable for override. + if version == 'auto': + version = os.environ.get('GYP_MSVS_VERSION', 'auto') + version_map = { + 'auto': ('10.0', '12.0', '9.0', '8.0', '11.0'), + '2005': ('8.0',), + '2005e': ('8.0',), + '2008': ('9.0',), + '2008e': ('9.0',), + '2010': ('10.0',), + '2010e': ('10.0',), + '2012': ('11.0',), + '2012e': ('11.0',), + '2013': ('12.0',), + '2013e': ('12.0',), + } + override_path = os.environ.get('GYP_MSVS_OVERRIDE_PATH') + if override_path: + msvs_version = os.environ.get('GYP_MSVS_VERSION') + if not msvs_version: + raise ValueError('GYP_MSVS_OVERRIDE_PATH requires GYP_MSVS_VERSION to be ' + 'set to a particular version (e.g. 2010e).') + return _CreateVersion(msvs_version, override_path, sdk_based=True) + version = str(version) + versions = _DetectVisualStudioVersions(version_map[version], 'e' in version) + if not versions: + if version == 'auto': + # Default to 2005 if we couldn't find anything + return _CreateVersion('2005', None) + else: + return _CreateVersion(version, None) + return versions[0] diff --git a/deps/gyp/pylib/gyp/__init__.py b/deps/gyp/pylib/gyp/__init__.py new file mode 100755 index 0000000000..30edea5675 --- /dev/null +++ b/deps/gyp/pylib/gyp/__init__.py @@ -0,0 +1,537 @@ +#!/usr/bin/env python + +# Copyright (c) 2012 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +import copy +import gyp.input +import optparse +import os.path +import re +import shlex +import sys +import traceback +from gyp.common import GypError + +# Default debug modes for GYP +debug = {} + +# List of "official" debug modes, but you can use anything you like. +DEBUG_GENERAL = 'general' +DEBUG_VARIABLES = 'variables' +DEBUG_INCLUDES = 'includes' + + +def DebugOutput(mode, message, *args): + if 'all' in gyp.debug or mode in gyp.debug: + ctx = ('unknown', 0, 'unknown') + try: + f = traceback.extract_stack(limit=2) + if f: + ctx = f[0][:3] + except: + pass + if args: + message %= args + print '%s:%s:%d:%s %s' % (mode.upper(), os.path.basename(ctx[0]), + ctx[1], ctx[2], message) + +def FindBuildFiles(): + extension = '.gyp' + files = os.listdir(os.getcwd()) + build_files = [] + for file in files: + if file.endswith(extension): + build_files.append(file) + return build_files + + +def Load(build_files, format, default_variables={}, + includes=[], depth='.', params=None, check=False, + circular_check=True): + """ + Loads one or more specified build files. + default_variables and includes will be copied before use. + Returns the generator for the specified format and the + data returned by loading the specified build files. + """ + if params is None: + params = {} + + flavor = None + if '-' in format: + format, params['flavor'] = format.split('-', 1) + + default_variables = copy.copy(default_variables) + + # Default variables provided by this program and its modules should be + # named WITH_CAPITAL_LETTERS to provide a distinct "best practice" namespace, + # avoiding collisions with user and automatic variables. + default_variables['GENERATOR'] = format + + # Format can be a custom python file, or by default the name of a module + # within gyp.generator. + if format.endswith('.py'): + generator_name = os.path.splitext(format)[0] + path, generator_name = os.path.split(generator_name) + + # Make sure the path to the custom generator is in sys.path + # Don't worry about removing it once we are done. Keeping the path + # to each generator that is used in sys.path is likely harmless and + # arguably a good idea. + path = os.path.abspath(path) + if path not in sys.path: + sys.path.insert(0, path) + else: + generator_name = 'gyp.generator.' + format + + # These parameters are passed in order (as opposed to by key) + # because ActivePython cannot handle key parameters to __import__. + generator = __import__(generator_name, globals(), locals(), generator_name) + for (key, val) in generator.generator_default_variables.items(): + default_variables.setdefault(key, val) + + # Give the generator the opportunity to set additional variables based on + # the params it will receive in the output phase. + if getattr(generator, 'CalculateVariables', None): + generator.CalculateVariables(default_variables, params) + + # Give the generator the opportunity to set generator_input_info based on + # the params it will receive in the output phase. + if getattr(generator, 'CalculateGeneratorInputInfo', None): + generator.CalculateGeneratorInputInfo(params) + + # Fetch the generator specific info that gets fed to input, we use getattr + # so we can default things and the generators only have to provide what + # they need. + generator_input_info = { + 'non_configuration_keys': + getattr(generator, 'generator_additional_non_configuration_keys', []), + 'path_sections': + getattr(generator, 'generator_additional_path_sections', []), + 'extra_sources_for_rules': + getattr(generator, 'generator_extra_sources_for_rules', []), + 'generator_supports_multiple_toolsets': + getattr(generator, 'generator_supports_multiple_toolsets', False), + 'generator_wants_static_library_dependencies_adjusted': + getattr(generator, + 'generator_wants_static_library_dependencies_adjusted', True), + 'generator_wants_sorted_dependencies': + getattr(generator, 'generator_wants_sorted_dependencies', False), + 'generator_filelist_paths': + getattr(generator, 'generator_filelist_paths', None), + } + + # Process the input specific to this generator. + result = gyp.input.Load(build_files, default_variables, includes[:], + depth, generator_input_info, check, circular_check, + params['parallel'], params['root_targets']) + return [generator] + result + +def NameValueListToDict(name_value_list): + """ + Takes an array of strings of the form 'NAME=VALUE' and creates a dictionary + of the pairs. If a string is simply NAME, then the value in the dictionary + is set to True. If VALUE can be converted to an integer, it is. + """ + result = { } + for item in name_value_list: + tokens = item.split('=', 1) + if len(tokens) == 2: + # If we can make it an int, use that, otherwise, use the string. + try: + token_value = int(tokens[1]) + except ValueError: + token_value = tokens[1] + # Set the variable to the supplied value. + result[tokens[0]] = token_value + else: + # No value supplied, treat it as a boolean and set it. + result[tokens[0]] = True + return result + +def ShlexEnv(env_name): + flags = os.environ.get(env_name, []) + if flags: + flags = shlex.split(flags) + return flags + +def FormatOpt(opt, value): + if opt.startswith('--'): + return '%s=%s' % (opt, value) + return opt + value + +def RegenerateAppendFlag(flag, values, predicate, env_name, options): + """Regenerate a list of command line flags, for an option of action='append'. + + The |env_name|, if given, is checked in the environment and used to generate + an initial list of options, then the options that were specified on the + command line (given in |values|) are appended. This matches the handling of + environment variables and command line flags where command line flags override + the environment, while not requiring the environment to be set when the flags + are used again. + """ + flags = [] + if options.use_environment and env_name: + for flag_value in ShlexEnv(env_name): + value = FormatOpt(flag, predicate(flag_value)) + if value in flags: + flags.remove(value) + flags.append(value) + if values: + for flag_value in values: + flags.append(FormatOpt(flag, predicate(flag_value))) + return flags + +def RegenerateFlags(options): + """Given a parsed options object, and taking the environment variables into + account, returns a list of flags that should regenerate an equivalent options + object (even in the absence of the environment variables.) + + Any path options will be normalized relative to depth. + + The format flag is not included, as it is assumed the calling generator will + set that as appropriate. + """ + def FixPath(path): + path = gyp.common.FixIfRelativePath(path, options.depth) + if not path: + return os.path.curdir + return path + + def Noop(value): + return value + + # We always want to ignore the environment when regenerating, to avoid + # duplicate or changed flags in the environment at the time of regeneration. + flags = ['--ignore-environment'] + for name, metadata in options._regeneration_metadata.iteritems(): + opt = metadata['opt'] + value = getattr(options, name) + value_predicate = metadata['type'] == 'path' and FixPath or Noop + action = metadata['action'] + env_name = metadata['env_name'] + if action == 'append': + flags.extend(RegenerateAppendFlag(opt, value, value_predicate, + env_name, options)) + elif action in ('store', None): # None is a synonym for 'store'. + if value: + flags.append(FormatOpt(opt, value_predicate(value))) + elif options.use_environment and env_name and os.environ.get(env_name): + flags.append(FormatOpt(opt, value_predicate(os.environ.get(env_name)))) + elif action in ('store_true', 'store_false'): + if ((action == 'store_true' and value) or + (action == 'store_false' and not value)): + flags.append(opt) + elif options.use_environment and env_name: + print >>sys.stderr, ('Warning: environment regeneration unimplemented ' + 'for %s flag %r env_name %r' % (action, opt, + env_name)) + else: + print >>sys.stderr, ('Warning: regeneration unimplemented for action %r ' + 'flag %r' % (action, opt)) + + return flags + +class RegeneratableOptionParser(optparse.OptionParser): + def __init__(self): + self.__regeneratable_options = {} + optparse.OptionParser.__init__(self) + + def add_option(self, *args, **kw): + """Add an option to the parser. + + This accepts the same arguments as OptionParser.add_option, plus the + following: + regenerate: can be set to False to prevent this option from being included + in regeneration. + env_name: name of environment variable that additional values for this + option come from. + type: adds type='path', to tell the regenerator that the values of + this option need to be made relative to options.depth + """ + env_name = kw.pop('env_name', None) + if 'dest' in kw and kw.pop('regenerate', True): + dest = kw['dest'] + + # The path type is needed for regenerating, for optparse we can just treat + # it as a string. + type = kw.get('type') + if type == 'path': + kw['type'] = 'string' + + self.__regeneratable_options[dest] = { + 'action': kw.get('action'), + 'type': type, + 'env_name': env_name, + 'opt': args[0], + } + + optparse.OptionParser.add_option(self, *args, **kw) + + def parse_args(self, *args): + values, args = optparse.OptionParser.parse_args(self, *args) + values._regeneration_metadata = self.__regeneratable_options + return values, args + +def gyp_main(args): + my_name = os.path.basename(sys.argv[0]) + + parser = RegeneratableOptionParser() + usage = 'usage: %s [options ...] [build_file ...]' + parser.set_usage(usage.replace('%s', '%prog')) + parser.add_option('--build', dest='configs', action='append', + help='configuration for build after project generation') + parser.add_option('--check', dest='check', action='store_true', + help='check format of gyp files') + parser.add_option('--config-dir', dest='config_dir', action='store', + env_name='GYP_CONFIG_DIR', default=None, + help='The location for configuration files like ' + 'include.gypi.') + parser.add_option('-d', '--debug', dest='debug', metavar='DEBUGMODE', + action='append', default=[], help='turn on a debugging ' + 'mode for debugging GYP. Supported modes are "variables", ' + '"includes" and "general" or "all" for all of them.') + parser.add_option('-D', dest='defines', action='append', metavar='VAR=VAL', + env_name='GYP_DEFINES', + help='sets variable VAR to value VAL') + parser.add_option('--depth', dest='depth', metavar='PATH', type='path', + help='set DEPTH gyp variable to a relative path to PATH') + parser.add_option('-f', '--format', dest='formats', action='append', + env_name='GYP_GENERATORS', regenerate=False, + help='output formats to generate') + parser.add_option('-G', dest='generator_flags', action='append', default=[], + metavar='FLAG=VAL', env_name='GYP_GENERATOR_FLAGS', + help='sets generator flag FLAG to VAL') + parser.add_option('--generator-output', dest='generator_output', + action='store', default=None, metavar='DIR', type='path', + env_name='GYP_GENERATOR_OUTPUT', + help='puts generated build files under DIR') + parser.add_option('--ignore-environment', dest='use_environment', + action='store_false', default=True, regenerate=False, + help='do not read options from environment variables') + parser.add_option('-I', '--include', dest='includes', action='append', + metavar='INCLUDE', type='path', + help='files to include in all loaded .gyp files') + # --no-circular-check disables the check for circular relationships between + # .gyp files. These relationships should not exist, but they've only been + # observed to be harmful with the Xcode generator. Chromium's .gyp files + # currently have some circular relationships on non-Mac platforms, so this + # option allows the strict behavior to be used on Macs and the lenient + # behavior to be used elsewhere. + # TODO(mark): Remove this option when http://crbug.com/35878 is fixed. + parser.add_option('--no-circular-check', dest='circular_check', + action='store_false', default=True, regenerate=False, + help="don't check for circular relationships between files") + parser.add_option('--no-parallel', action='store_true', default=False, + help='Disable multiprocessing') + parser.add_option('-S', '--suffix', dest='suffix', default='', + help='suffix to add to generated files') + parser.add_option('--toplevel-dir', dest='toplevel_dir', action='store', + default=None, metavar='DIR', type='path', + help='directory to use as the root of the source tree') + parser.add_option('-R', '--root-target', dest='root_targets', + action='append', metavar='TARGET', + help='include only TARGET and its deep dependencies') + + options, build_files_arg = parser.parse_args(args) + build_files = build_files_arg + + # Set up the configuration directory (defaults to ~/.gyp) + if not options.config_dir: + home = None + home_dot_gyp = None + if options.use_environment: + home_dot_gyp = os.environ.get('GYP_CONFIG_DIR', None) + if home_dot_gyp: + home_dot_gyp = os.path.expanduser(home_dot_gyp) + + if not home_dot_gyp: + home_vars = ['HOME'] + if sys.platform in ('cygwin', 'win32'): + home_vars.append('USERPROFILE') + for home_var in home_vars: + home = os.getenv(home_var) + if home != None: + home_dot_gyp = os.path.join(home, '.gyp') + if not os.path.exists(home_dot_gyp): + home_dot_gyp = None + else: + break + else: + home_dot_gyp = os.path.expanduser(options.config_dir) + + if home_dot_gyp and not os.path.exists(home_dot_gyp): + home_dot_gyp = None + + if not options.formats: + # If no format was given on the command line, then check the env variable. + generate_formats = [] + if options.use_environment: + generate_formats = os.environ.get('GYP_GENERATORS', []) + if generate_formats: + generate_formats = re.split('[\s,]', generate_formats) + if generate_formats: + options.formats = generate_formats + else: + # Nothing in the variable, default based on platform. + if sys.platform == 'darwin': + options.formats = ['xcode'] + elif sys.platform in ('win32', 'cygwin'): + options.formats = ['msvs'] + else: + options.formats = ['make'] + + if not options.generator_output and options.use_environment: + g_o = os.environ.get('GYP_GENERATOR_OUTPUT') + if g_o: + options.generator_output = g_o + + options.parallel = not options.no_parallel + + for mode in options.debug: + gyp.debug[mode] = 1 + + # Do an extra check to avoid work when we're not debugging. + if DEBUG_GENERAL in gyp.debug: + DebugOutput(DEBUG_GENERAL, 'running with these options:') + for option, value in sorted(options.__dict__.items()): + if option[0] == '_': + continue + if isinstance(value, basestring): + DebugOutput(DEBUG_GENERAL, " %s: '%s'", option, value) + else: + DebugOutput(DEBUG_GENERAL, " %s: %s", option, value) + + if not build_files: + build_files = FindBuildFiles() + if not build_files: + raise GypError((usage + '\n\n%s: error: no build_file') % + (my_name, my_name)) + + # TODO(mark): Chromium-specific hack! + # For Chromium, the gyp "depth" variable should always be a relative path + # to Chromium's top-level "src" directory. If no depth variable was set + # on the command line, try to find a "src" directory by looking at the + # absolute path to each build file's directory. The first "src" component + # found will be treated as though it were the path used for --depth. + if not options.depth: + for build_file in build_files: + build_file_dir = os.path.abspath(os.path.dirname(build_file)) + build_file_dir_components = build_file_dir.split(os.path.sep) + components_len = len(build_file_dir_components) + for index in xrange(components_len - 1, -1, -1): + if build_file_dir_components[index] == 'src': + options.depth = os.path.sep.join(build_file_dir_components) + break + del build_file_dir_components[index] + + # If the inner loop found something, break without advancing to another + # build file. + if options.depth: + break + + if not options.depth: + raise GypError('Could not automatically locate src directory. This is' + 'a temporary Chromium feature that will be removed. Use' + '--depth as a workaround.') + + # If toplevel-dir is not set, we assume that depth is the root of our source + # tree. + if not options.toplevel_dir: + options.toplevel_dir = options.depth + + # -D on the command line sets variable defaults - D isn't just for define, + # it's for default. Perhaps there should be a way to force (-F?) a + # variable's value so that it can't be overridden by anything else. + cmdline_default_variables = {} + defines = [] + if options.use_environment: + defines += ShlexEnv('GYP_DEFINES') + if options.defines: + defines += options.defines + cmdline_default_variables = NameValueListToDict(defines) + if DEBUG_GENERAL in gyp.debug: + DebugOutput(DEBUG_GENERAL, + "cmdline_default_variables: %s", cmdline_default_variables) + + # Set up includes. + includes = [] + + # If ~/.gyp/include.gypi exists, it'll be forcibly included into every + # .gyp file that's loaded, before anything else is included. + if home_dot_gyp != None: + default_include = os.path.join(home_dot_gyp, 'include.gypi') + if os.path.exists(default_include): + print 'Using overrides found in ' + default_include + includes.append(default_include) + + # Command-line --include files come after the default include. + if options.includes: + includes.extend(options.includes) + + # Generator flags should be prefixed with the target generator since they + # are global across all generator runs. + gen_flags = [] + if options.use_environment: + gen_flags += ShlexEnv('GYP_GENERATOR_FLAGS') + if options.generator_flags: + gen_flags += options.generator_flags + generator_flags = NameValueListToDict(gen_flags) + if DEBUG_GENERAL in gyp.debug.keys(): + DebugOutput(DEBUG_GENERAL, "generator_flags: %s", generator_flags) + + # Generate all requested formats (use a set in case we got one format request + # twice) + for format in set(options.formats): + params = {'options': options, + 'build_files': build_files, + 'generator_flags': generator_flags, + 'cwd': os.getcwd(), + 'build_files_arg': build_files_arg, + 'gyp_binary': sys.argv[0], + 'home_dot_gyp': home_dot_gyp, + 'parallel': options.parallel, + 'root_targets': options.root_targets} + + # Start with the default variables from the command line. + [generator, flat_list, targets, data] = Load(build_files, format, + cmdline_default_variables, + includes, options.depth, + params, options.check, + options.circular_check) + + # TODO(mark): Pass |data| for now because the generator needs a list of + # build files that came in. In the future, maybe it should just accept + # a list, and not the whole data dict. + # NOTE: flat_list is the flattened dependency graph specifying the order + # that targets may be built. Build systems that operate serially or that + # need to have dependencies defined before dependents reference them should + # generate targets in the order specified in flat_list. + generator.GenerateOutput(flat_list, targets, data, params) + + if options.configs: + valid_configs = targets[flat_list[0]]['configurations'].keys() + for conf in options.configs: + if conf not in valid_configs: + raise GypError('Invalid config specified via --build: %s' % conf) + generator.PerformBuild(data, options.configs, params) + + # Done + return 0 + + +def main(args): + try: + return gyp_main(args) + except GypError, e: + sys.stderr.write("gyp: %s\n" % e) + return 1 + +# NOTE: setuptools generated console_scripts calls function with no arguments +def script_main(): + return main(sys.argv[1:]) + +if __name__ == '__main__': + sys.exit(script_main()) diff --git a/deps/gyp/pylib/gyp/common.py b/deps/gyp/pylib/gyp/common.py new file mode 100644 index 0000000000..f9c6c6f3a8 --- /dev/null +++ b/deps/gyp/pylib/gyp/common.py @@ -0,0 +1,521 @@ +# Copyright (c) 2012 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +from __future__ import with_statement + +import errno +import filecmp +import os.path +import re +import tempfile +import sys + + +# A minimal memoizing decorator. It'll blow up if the args aren't immutable, +# among other "problems". +class memoize(object): + def __init__(self, func): + self.func = func + self.cache = {} + def __call__(self, *args): + try: + return self.cache[args] + except KeyError: + result = self.func(*args) + self.cache[args] = result + return result + + +class GypError(Exception): + """Error class representing an error, which is to be presented + to the user. The main entry point will catch and display this. + """ + pass + + +def ExceptionAppend(e, msg): + """Append a message to the given exception's message.""" + if not e.args: + e.args = (msg,) + elif len(e.args) == 1: + e.args = (str(e.args[0]) + ' ' + msg,) + else: + e.args = (str(e.args[0]) + ' ' + msg,) + e.args[1:] + + +def FindQualifiedTargets(target, qualified_list): + """ + Given a list of qualified targets, return the qualified targets for the + specified |target|. + """ + return [t for t in qualified_list if ParseQualifiedTarget(t)[1] == target] + + +def ParseQualifiedTarget(target): + # Splits a qualified target into a build file, target name and toolset. + + # NOTE: rsplit is used to disambiguate the Windows drive letter separator. + target_split = target.rsplit(':', 1) + if len(target_split) == 2: + [build_file, target] = target_split + else: + build_file = None + + target_split = target.rsplit('#', 1) + if len(target_split) == 2: + [target, toolset] = target_split + else: + toolset = None + + return [build_file, target, toolset] + + +def ResolveTarget(build_file, target, toolset): + # This function resolves a target into a canonical form: + # - a fully defined build file, either absolute or relative to the current + # directory + # - a target name + # - a toolset + # + # build_file is the file relative to which 'target' is defined. + # target is the qualified target. + # toolset is the default toolset for that target. + [parsed_build_file, target, parsed_toolset] = ParseQualifiedTarget(target) + + if parsed_build_file: + if build_file: + # If a relative path, parsed_build_file is relative to the directory + # containing build_file. If build_file is not in the current directory, + # parsed_build_file is not a usable path as-is. Resolve it by + # interpreting it as relative to build_file. If parsed_build_file is + # absolute, it is usable as a path regardless of the current directory, + # and os.path.join will return it as-is. + build_file = os.path.normpath(os.path.join(os.path.dirname(build_file), + parsed_build_file)) + # Further (to handle cases like ../cwd), make it relative to cwd) + if not os.path.isabs(build_file): + build_file = RelativePath(build_file, '.') + else: + build_file = parsed_build_file + + if parsed_toolset: + toolset = parsed_toolset + + return [build_file, target, toolset] + + +def BuildFile(fully_qualified_target): + # Extracts the build file from the fully qualified target. + return ParseQualifiedTarget(fully_qualified_target)[0] + + +def GetEnvironFallback(var_list, default): + """Look up a key in the environment, with fallback to secondary keys + and finally falling back to a default value.""" + for var in var_list: + if var in os.environ: + return os.environ[var] + return default + + +def QualifiedTarget(build_file, target, toolset): + # "Qualified" means the file that a target was defined in and the target + # name, separated by a colon, suffixed by a # and the toolset name: + # /path/to/file.gyp:target_name#toolset + fully_qualified = build_file + ':' + target + if toolset: + fully_qualified = fully_qualified + '#' + toolset + return fully_qualified + + +@memoize +def RelativePath(path, relative_to): + # Assuming both |path| and |relative_to| are relative to the current + # directory, returns a relative path that identifies path relative to + # relative_to. + + # Convert to normalized (and therefore absolute paths). + path = os.path.realpath(path) + relative_to = os.path.realpath(relative_to) + + # On Windows, we can't create a relative path to a different drive, so just + # use the absolute path. + if sys.platform == 'win32': + if (os.path.splitdrive(path)[0].lower() != + os.path.splitdrive(relative_to)[0].lower()): + return path + + # Split the paths into components. + path_split = path.split(os.path.sep) + relative_to_split = relative_to.split(os.path.sep) + + # Determine how much of the prefix the two paths share. + prefix_len = len(os.path.commonprefix([path_split, relative_to_split])) + + # Put enough ".." components to back up out of relative_to to the common + # prefix, and then append the part of path_split after the common prefix. + relative_split = [os.path.pardir] * (len(relative_to_split) - prefix_len) + \ + path_split[prefix_len:] + + if len(relative_split) == 0: + # The paths were the same. + return '' + + # Turn it back into a string and we're done. + return os.path.join(*relative_split) + + +@memoize +def InvertRelativePath(path, toplevel_dir=None): + """Given a path like foo/bar that is relative to toplevel_dir, return + the inverse relative path back to the toplevel_dir. + + E.g. os.path.normpath(os.path.join(path, InvertRelativePath(path))) + should always produce the empty string, unless the path contains symlinks. + """ + if not path: + return path + toplevel_dir = '.' if toplevel_dir is None else toplevel_dir + return RelativePath(toplevel_dir, os.path.join(toplevel_dir, path)) + + +def FixIfRelativePath(path, relative_to): + # Like RelativePath but returns |path| unchanged if it is absolute. + if os.path.isabs(path): + return path + return RelativePath(path, relative_to) + + +def UnrelativePath(path, relative_to): + # Assuming that |relative_to| is relative to the current directory, and |path| + # is a path relative to the dirname of |relative_to|, returns a path that + # identifies |path| relative to the current directory. + rel_dir = os.path.dirname(relative_to) + return os.path.normpath(os.path.join(rel_dir, path)) + + +# re objects used by EncodePOSIXShellArgument. See IEEE 1003.1 XCU.2.2 at +# http://www.opengroup.org/onlinepubs/009695399/utilities/xcu_chap02.html#tag_02_02 +# and the documentation for various shells. + +# _quote is a pattern that should match any argument that needs to be quoted +# with double-quotes by EncodePOSIXShellArgument. It matches the following +# characters appearing anywhere in an argument: +# \t, \n, space parameter separators +# # comments +# $ expansions (quoted to always expand within one argument) +# % called out by IEEE 1003.1 XCU.2.2 +# & job control +# ' quoting +# (, ) subshell execution +# *, ?, [ pathname expansion +# ; command delimiter +# <, >, | redirection +# = assignment +# {, } brace expansion (bash) +# ~ tilde expansion +# It also matches the empty string, because "" (or '') is the only way to +# represent an empty string literal argument to a POSIX shell. +# +# This does not match the characters in _escape, because those need to be +# backslash-escaped regardless of whether they appear in a double-quoted +# string. +_quote = re.compile('[\t\n #$%&\'()*;<=>?[{|}~]|^$') + +# _escape is a pattern that should match any character that needs to be +# escaped with a backslash, whether or not the argument matched the _quote +# pattern. _escape is used with re.sub to backslash anything in _escape's +# first match group, hence the (parentheses) in the regular expression. +# +# _escape matches the following characters appearing anywhere in an argument: +# " to prevent POSIX shells from interpreting this character for quoting +# \ to prevent POSIX shells from interpreting this character for escaping +# ` to prevent POSIX shells from interpreting this character for command +# substitution +# Missing from this list is $, because the desired behavior of +# EncodePOSIXShellArgument is to permit parameter (variable) expansion. +# +# Also missing from this list is !, which bash will interpret as the history +# expansion character when history is enabled. bash does not enable history +# by default in non-interactive shells, so this is not thought to be a problem. +# ! was omitted from this list because bash interprets "\!" as a literal string +# including the backslash character (avoiding history expansion but retaining +# the backslash), which would not be correct for argument encoding. Handling +# this case properly would also be problematic because bash allows the history +# character to be changed with the histchars shell variable. Fortunately, +# as history is not enabled in non-interactive shells and +# EncodePOSIXShellArgument is only expected to encode for non-interactive +# shells, there is no room for error here by ignoring !. +_escape = re.compile(r'(["\\`])') + +def EncodePOSIXShellArgument(argument): + """Encodes |argument| suitably for consumption by POSIX shells. + + argument may be quoted and escaped as necessary to ensure that POSIX shells + treat the returned value as a literal representing the argument passed to + this function. Parameter (variable) expansions beginning with $ are allowed + to remain intact without escaping the $, to allow the argument to contain + references to variables to be expanded by the shell. + """ + + if not isinstance(argument, str): + argument = str(argument) + + if _quote.search(argument): + quote = '"' + else: + quote = '' + + encoded = quote + re.sub(_escape, r'\\\1', argument) + quote + + return encoded + + +def EncodePOSIXShellList(list): + """Encodes |list| suitably for consumption by POSIX shells. + + Returns EncodePOSIXShellArgument for each item in list, and joins them + together using the space character as an argument separator. + """ + + encoded_arguments = [] + for argument in list: + encoded_arguments.append(EncodePOSIXShellArgument(argument)) + return ' '.join(encoded_arguments) + + +def DeepDependencyTargets(target_dicts, roots): + """Returns the recursive list of target dependencies.""" + dependencies = set() + pending = set(roots) + while pending: + # Pluck out one. + r = pending.pop() + # Skip if visited already. + if r in dependencies: + continue + # Add it. + dependencies.add(r) + # Add its children. + spec = target_dicts[r] + pending.update(set(spec.get('dependencies', []))) + pending.update(set(spec.get('dependencies_original', []))) + return list(dependencies - set(roots)) + + +def BuildFileTargets(target_list, build_file): + """From a target_list, returns the subset from the specified build_file. + """ + return [p for p in target_list if BuildFile(p) == build_file] + + +def AllTargets(target_list, target_dicts, build_file): + """Returns all targets (direct and dependencies) for the specified build_file. + """ + bftargets = BuildFileTargets(target_list, build_file) + deptargets = DeepDependencyTargets(target_dicts, bftargets) + return bftargets + deptargets + + +def WriteOnDiff(filename): + """Write to a file only if the new contents differ. + + Arguments: + filename: name of the file to potentially write to. + Returns: + A file like object which will write to temporary file and only overwrite + the target if it differs (on close). + """ + + class Writer: + """Wrapper around file which only covers the target if it differs.""" + def __init__(self): + # Pick temporary file. + tmp_fd, self.tmp_path = tempfile.mkstemp( + suffix='.tmp', + prefix=os.path.split(filename)[1] + '.gyp.', + dir=os.path.split(filename)[0]) + try: + self.tmp_file = os.fdopen(tmp_fd, 'wb') + except Exception: + # Don't leave turds behind. + os.unlink(self.tmp_path) + raise + + def __getattr__(self, attrname): + # Delegate everything else to self.tmp_file + return getattr(self.tmp_file, attrname) + + def close(self): + try: + # Close tmp file. + self.tmp_file.close() + # Determine if different. + same = False + try: + same = filecmp.cmp(self.tmp_path, filename, False) + except OSError, e: + if e.errno != errno.ENOENT: + raise + + if same: + # The new file is identical to the old one, just get rid of the new + # one. + os.unlink(self.tmp_path) + else: + # The new file is different from the old one, or there is no old one. + # Rename the new file to the permanent name. + # + # tempfile.mkstemp uses an overly restrictive mode, resulting in a + # file that can only be read by the owner, regardless of the umask. + # There's no reason to not respect the umask here, which means that + # an extra hoop is required to fetch it and reset the new file's mode. + # + # No way to get the umask without setting a new one? Set a safe one + # and then set it back to the old value. + umask = os.umask(077) + os.umask(umask) + os.chmod(self.tmp_path, 0666 & ~umask) + if sys.platform == 'win32' and os.path.exists(filename): + # NOTE: on windows (but not cygwin) rename will not replace an + # existing file, so it must be preceded with a remove. Sadly there + # is no way to make the switch atomic. + os.remove(filename) + os.rename(self.tmp_path, filename) + except Exception: + # Don't leave turds behind. + os.unlink(self.tmp_path) + raise + + return Writer() + + +def EnsureDirExists(path): + """Make sure the directory for |path| exists.""" + try: + os.makedirs(os.path.dirname(path)) + except OSError: + pass + + +def GetFlavor(params): + """Returns |params.flavor| if it's set, the system's default flavor else.""" + flavors = { + 'cygwin': 'win', + 'win32': 'win', + 'darwin': 'mac', + } + + if 'flavor' in params: + return params['flavor'] + if sys.platform in flavors: + return flavors[sys.platform] + if sys.platform.startswith('sunos'): + return 'solaris' + if sys.platform.startswith('freebsd'): + return 'freebsd' + if sys.platform.startswith('openbsd'): + return 'openbsd' + if sys.platform.startswith('aix'): + return 'aix' + + return 'linux' + + +def CopyTool(flavor, out_path): + """Finds (flock|mac|win)_tool.gyp in the gyp directory and copies it + to |out_path|.""" + # aix and solaris just need flock emulation. mac and win use more complicated + # support scripts. + prefix = { + 'aix': 'flock', + 'solaris': 'flock', + 'mac': 'mac', + 'win': 'win' + }.get(flavor, None) + if not prefix: + return + + # Slurp input file. + source_path = os.path.join( + os.path.dirname(os.path.abspath(__file__)), '%s_tool.py' % prefix) + with open(source_path) as source_file: + source = source_file.readlines() + + # Add header and write it out. + tool_path = os.path.join(out_path, 'gyp-%s-tool' % prefix) + with open(tool_path, 'w') as tool_file: + tool_file.write( + ''.join([source[0], '# Generated by gyp. Do not edit.\n'] + source[1:])) + + # Make file executable. + os.chmod(tool_path, 0755) + + +# From Alex Martelli, +# http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/52560 +# ASPN: Python Cookbook: Remove duplicates from a sequence +# First comment, dated 2001/10/13. +# (Also in the printed Python Cookbook.) + +def uniquer(seq, idfun=None): + if idfun is None: + idfun = lambda x: x + seen = {} + result = [] + for item in seq: + marker = idfun(item) + if marker in seen: continue + seen[marker] = 1 + result.append(item) + return result + + +class CycleError(Exception): + """An exception raised when an unexpected cycle is detected.""" + def __init__(self, nodes): + self.nodes = nodes + def __str__(self): + return 'CycleError: cycle involving: ' + str(self.nodes) + + +def TopologicallySorted(graph, get_edges): + """Topologically sort based on a user provided edge definition. + + Args: + graph: A list of node names. + get_edges: A function mapping from node name to a hashable collection + of node names which this node has outgoing edges to. + Returns: + A list containing all of the node in graph in topological order. + It is assumed that calling get_edges once for each node and caching is + cheaper than repeatedly calling get_edges. + Raises: + CycleError in the event of a cycle. + Example: + graph = {'a': '$(b) $(c)', 'b': 'hi', 'c': '$(b)'} + def GetEdges(node): + return re.findall(r'\$\(([^))]\)', graph[node]) + print TopologicallySorted(graph.keys(), GetEdges) + ==> + ['a', 'c', b'] + """ + get_edges = memoize(get_edges) + visited = set() + visiting = set() + ordered_nodes = [] + def Visit(node): + if node in visiting: + raise CycleError(visiting) + if node in visited: + return + visited.add(node) + visiting.add(node) + for neighbor in get_edges(node): + Visit(neighbor) + visiting.remove(node) + ordered_nodes.insert(0, node) + for node in sorted(graph): + Visit(node) + return ordered_nodes diff --git a/deps/gyp/pylib/gyp/common_test.py b/deps/gyp/pylib/gyp/common_test.py new file mode 100755 index 0000000000..ad6f9a1438 --- /dev/null +++ b/deps/gyp/pylib/gyp/common_test.py @@ -0,0 +1,72 @@ +#!/usr/bin/env python + +# Copyright (c) 2012 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +"""Unit tests for the common.py file.""" + +import gyp.common +import unittest +import sys + + +class TestTopologicallySorted(unittest.TestCase): + def test_Valid(self): + """Test that sorting works on a valid graph with one possible order.""" + graph = { + 'a': ['b', 'c'], + 'b': [], + 'c': ['d'], + 'd': ['b'], + } + def GetEdge(node): + return tuple(graph[node]) + self.assertEqual( + gyp.common.TopologicallySorted(graph.keys(), GetEdge), + ['a', 'c', 'd', 'b']) + + def test_Cycle(self): + """Test that an exception is thrown on a cyclic graph.""" + graph = { + 'a': ['b'], + 'b': ['c'], + 'c': ['d'], + 'd': ['a'], + } + def GetEdge(node): + return tuple(graph[node]) + self.assertRaises( + gyp.common.CycleError, gyp.common.TopologicallySorted, + graph.keys(), GetEdge) + + +class TestGetFlavor(unittest.TestCase): + """Test that gyp.common.GetFlavor works as intended""" + original_platform = '' + + def setUp(self): + self.original_platform = sys.platform + + def tearDown(self): + sys.platform = self.original_platform + + def assertFlavor(self, expected, argument, param): + sys.platform = argument + self.assertEqual(expected, gyp.common.GetFlavor(param)) + + def test_platform_default(self): + self.assertFlavor('freebsd', 'freebsd9' , {}) + self.assertFlavor('freebsd', 'freebsd10', {}) + self.assertFlavor('openbsd', 'openbsd5' , {}) + self.assertFlavor('solaris', 'sunos5' , {}); + self.assertFlavor('solaris', 'sunos' , {}); + self.assertFlavor('linux' , 'linux2' , {}); + self.assertFlavor('linux' , 'linux3' , {}); + + def test_param(self): + self.assertFlavor('foobar', 'linux2' , {'flavor': 'foobar'}) + + +if __name__ == '__main__': + unittest.main() diff --git a/deps/gyp/pylib/gyp/easy_xml.py b/deps/gyp/pylib/gyp/easy_xml.py new file mode 100644 index 0000000000..bf949b6ac9 --- /dev/null +++ b/deps/gyp/pylib/gyp/easy_xml.py @@ -0,0 +1,157 @@ +# Copyright (c) 2011 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +import re +import os + + +def XmlToString(content, encoding='utf-8', pretty=False): + """ Writes the XML content to disk, touching the file only if it has changed. + + Visual Studio files have a lot of pre-defined structures. This function makes + it easy to represent these structures as Python data structures, instead of + having to create a lot of function calls. + + Each XML element of the content is represented as a list composed of: + 1. The name of the element, a string, + 2. The attributes of the element, a dictionary (optional), and + 3+. The content of the element, if any. Strings are simple text nodes and + lists are child elements. + + Example 1: + <test/> + becomes + ['test'] + + Example 2: + <myelement a='value1' b='value2'> + <childtype>This is</childtype> + <childtype>it!</childtype> + </myelement> + + becomes + ['myelement', {'a':'value1', 'b':'value2'}, + ['childtype', 'This is'], + ['childtype', 'it!'], + ] + + Args: + content: The structured content to be converted. + encoding: The encoding to report on the first XML line. + pretty: True if we want pretty printing with indents and new lines. + + Returns: + The XML content as a string. + """ + # We create a huge list of all the elements of the file. + xml_parts = ['<?xml version="1.0" encoding="%s"?>' % encoding] + if pretty: + xml_parts.append('\n') + _ConstructContentList(xml_parts, content, pretty) + + # Convert it to a string + return ''.join(xml_parts) + + +def _ConstructContentList(xml_parts, specification, pretty, level=0): + """ Appends the XML parts corresponding to the specification. + + Args: + xml_parts: A list of XML parts to be appended to. + specification: The specification of the element. See EasyXml docs. + pretty: True if we want pretty printing with indents and new lines. + level: Indentation level. + """ + # The first item in a specification is the name of the element. + if pretty: + indentation = ' ' * level + new_line = '\n' + else: + indentation = '' + new_line = '' + name = specification[0] + if not isinstance(name, str): + raise Exception('The first item of an EasyXml specification should be ' + 'a string. Specification was ' + str(specification)) + xml_parts.append(indentation + '<' + name) + + # Optionally in second position is a dictionary of the attributes. + rest = specification[1:] + if rest and isinstance(rest[0], dict): + for at, val in sorted(rest[0].iteritems()): + xml_parts.append(' %s="%s"' % (at, _XmlEscape(val, attr=True))) + rest = rest[1:] + if rest: + xml_parts.append('>') + all_strings = reduce(lambda x, y: x and isinstance(y, str), rest, True) + multi_line = not all_strings + if multi_line and new_line: + xml_parts.append(new_line) + for child_spec in rest: + # If it's a string, append a text node. + # Otherwise recurse over that child definition + if isinstance(child_spec, str): + xml_parts.append(_XmlEscape(child_spec)) + else: + _ConstructContentList(xml_parts, child_spec, pretty, level + 1) + if multi_line and indentation: + xml_parts.append(indentation) + xml_parts.append('</%s>%s' % (name, new_line)) + else: + xml_parts.append('/>%s' % new_line) + + +def WriteXmlIfChanged(content, path, encoding='utf-8', pretty=False, + win32=False): + """ Writes the XML content to disk, touching the file only if it has changed. + + Args: + content: The structured content to be written. + path: Location of the file. + encoding: The encoding to report on the first line of the XML file. + pretty: True if we want pretty printing with indents and new lines. + """ + xml_string = XmlToString(content, encoding, pretty) + if win32 and os.linesep != '\r\n': + xml_string = xml_string.replace('\n', '\r\n') + + # Get the old content + try: + f = open(path, 'r') + existing = f.read() + f.close() + except: + existing = None + + # It has changed, write it + if existing != xml_string: + f = open(path, 'w') + f.write(xml_string) + f.close() + + +_xml_escape_map = { + '"': '"', + "'": ''', + '<': '<', + '>': '>', + '&': '&', + '\n': '
', + '\r': '
', +} + + +_xml_escape_re = re.compile( + "(%s)" % "|".join(map(re.escape, _xml_escape_map.keys()))) + + +def _XmlEscape(value, attr=False): + """ Escape a string for inclusion in XML.""" + def replace(match): + m = match.string[match.start() : match.end()] + # don't replace single quotes in attrs + if attr and m == "'": + return m + return _xml_escape_map[m] + return _xml_escape_re.sub(replace, value) diff --git a/deps/gyp/pylib/gyp/easy_xml_test.py b/deps/gyp/pylib/gyp/easy_xml_test.py new file mode 100755 index 0000000000..df64354982 --- /dev/null +++ b/deps/gyp/pylib/gyp/easy_xml_test.py @@ -0,0 +1,103 @@ +#!/usr/bin/env python + +# Copyright (c) 2011 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +""" Unit tests for the easy_xml.py file. """ + +import gyp.easy_xml as easy_xml +import unittest +import StringIO + + +class TestSequenceFunctions(unittest.TestCase): + + def setUp(self): + self.stderr = StringIO.StringIO() + + def test_EasyXml_simple(self): + self.assertEqual( + easy_xml.XmlToString(['test']), + '<?xml version="1.0" encoding="utf-8"?><test/>') + + self.assertEqual( + easy_xml.XmlToString(['test'], encoding='Windows-1252'), + '<?xml version="1.0" encoding="Windows-1252"?><test/>') + + def test_EasyXml_simple_with_attributes(self): + self.assertEqual( + easy_xml.XmlToString(['test2', {'a': 'value1', 'b': 'value2'}]), + '<?xml version="1.0" encoding="utf-8"?><test2 a="value1" b="value2"/>') + + def test_EasyXml_escaping(self): + original = '<test>\'"\r&\nfoo' + converted = '<test>\'"
&
foo' + converted_apos = converted.replace("'", ''') + self.assertEqual( + easy_xml.XmlToString(['test3', {'a': original}, original]), + '<?xml version="1.0" encoding="utf-8"?><test3 a="%s">%s</test3>' % + (converted, converted_apos)) + + def test_EasyXml_pretty(self): + self.assertEqual( + easy_xml.XmlToString( + ['test3', + ['GrandParent', + ['Parent1', + ['Child'] + ], + ['Parent2'] + ] + ], + pretty=True), + '<?xml version="1.0" encoding="utf-8"?>\n' + '<test3>\n' + ' <GrandParent>\n' + ' <Parent1>\n' + ' <Child/>\n' + ' </Parent1>\n' + ' <Parent2/>\n' + ' </GrandParent>\n' + '</test3>\n') + + + def test_EasyXml_complex(self): + # We want to create: + target = ( + '<?xml version="1.0" encoding="utf-8"?>' + '<Project>' + '<PropertyGroup Label="Globals">' + '<ProjectGuid>{D2250C20-3A94-4FB9-AF73-11BC5B73884B}</ProjectGuid>' + '<Keyword>Win32Proj</Keyword>' + '<RootNamespace>automated_ui_tests</RootNamespace>' + '</PropertyGroup>' + '<Import Project="$(VCTargetsPath)\\Microsoft.Cpp.props"/>' + '<PropertyGroup ' + 'Condition="\'$(Configuration)|$(Platform)\'==' + '\'Debug|Win32\'" Label="Configuration">' + '<ConfigurationType>Application</ConfigurationType>' + '<CharacterSet>Unicode</CharacterSet>' + '</PropertyGroup>' + '</Project>') + + xml = easy_xml.XmlToString( + ['Project', + ['PropertyGroup', {'Label': 'Globals'}, + ['ProjectGuid', '{D2250C20-3A94-4FB9-AF73-11BC5B73884B}'], + ['Keyword', 'Win32Proj'], + ['RootNamespace', 'automated_ui_tests'] + ], + ['Import', {'Project': '$(VCTargetsPath)\\Microsoft.Cpp.props'}], + ['PropertyGroup', + {'Condition': "'$(Configuration)|$(Platform)'=='Debug|Win32'", + 'Label': 'Configuration'}, + ['ConfigurationType', 'Application'], + ['CharacterSet', 'Unicode'] + ] + ]) + self.assertEqual(xml, target) + + +if __name__ == '__main__': + unittest.main() diff --git a/deps/gyp/pylib/gyp/flock_tool.py b/deps/gyp/pylib/gyp/flock_tool.py new file mode 100755 index 0000000000..3e7efff26e --- /dev/null +++ b/deps/gyp/pylib/gyp/flock_tool.py @@ -0,0 +1,49 @@ +#!/usr/bin/env python +# Copyright (c) 2011 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +"""These functions are executed via gyp-flock-tool when using the Makefile +generator. Used on systems that don't have a built-in flock.""" + +import fcntl +import os +import struct +import subprocess +import sys + + +def main(args): + executor = FlockTool() + executor.Dispatch(args) + + +class FlockTool(object): + """This class emulates the 'flock' command.""" + def Dispatch(self, args): + """Dispatches a string command to a method.""" + if len(args) < 1: + raise Exception("Not enough arguments") + + method = "Exec%s" % self._CommandifyName(args[0]) + getattr(self, method)(*args[1:]) + + def _CommandifyName(self, name_string): + """Transforms a tool name like copy-info-plist to CopyInfoPlist""" + return name_string.title().replace('-', '') + + def ExecFlock(self, lockfile, *cmd_list): + """Emulates the most basic behavior of Linux's flock(1).""" + # Rely on exception handling to report errors. + # Note that the stock python on SunOS has a bug + # where fcntl.flock(fd, LOCK_EX) always fails + # with EBADF, that's why we use this F_SETLK + # hack instead. + fd = os.open(lockfile, os.O_WRONLY|os.O_NOCTTY|os.O_CREAT, 0666) + op = struct.pack('hhllhhl', fcntl.F_WRLCK, 0, 0, 0, 0, 0, 0) + fcntl.fcntl(fd, fcntl.F_SETLK, op) + return subprocess.call(cmd_list) + + +if __name__ == '__main__': + sys.exit(main(sys.argv[1:])) diff --git a/deps/gyp/pylib/gyp/generator/__init__.py b/deps/gyp/pylib/gyp/generator/__init__.py new file mode 100644 index 0000000000..e69de29bb2 --- /dev/null +++ b/deps/gyp/pylib/gyp/generator/__init__.py diff --git a/deps/gyp/pylib/gyp/generator/android.py b/deps/gyp/pylib/gyp/generator/android.py new file mode 100644 index 0000000000..41346e2b1c --- /dev/null +++ b/deps/gyp/pylib/gyp/generator/android.py @@ -0,0 +1,1069 @@ +# Copyright (c) 2012 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +# Notes: +# +# This generates makefiles suitable for inclusion into the Android build system +# via an Android.mk file. It is based on make.py, the standard makefile +# generator. +# +# The code below generates a separate .mk file for each target, but +# all are sourced by the top-level GypAndroid.mk. This means that all +# variables in .mk-files clobber one another, and furthermore that any +# variables set potentially clash with other Android build system variables. +# Try to avoid setting global variables where possible. + +import gyp +import gyp.common +import gyp.generator.make as make # Reuse global functions from make backend. +import os +import re +import subprocess + +generator_default_variables = { + 'OS': 'android', + 'EXECUTABLE_PREFIX': '', + 'EXECUTABLE_SUFFIX': '', + 'STATIC_LIB_PREFIX': 'lib', + 'SHARED_LIB_PREFIX': 'lib', + 'STATIC_LIB_SUFFIX': '.a', + 'SHARED_LIB_SUFFIX': '.so', + 'INTERMEDIATE_DIR': '$(gyp_intermediate_dir)', + 'SHARED_INTERMEDIATE_DIR': '$(gyp_shared_intermediate_dir)', + 'PRODUCT_DIR': '$(gyp_shared_intermediate_dir)', + 'SHARED_LIB_DIR': '$(builddir)/lib.$(TOOLSET)', + 'LIB_DIR': '$(obj).$(TOOLSET)', + 'RULE_INPUT_ROOT': '%(INPUT_ROOT)s', # This gets expanded by Python. + 'RULE_INPUT_DIRNAME': '%(INPUT_DIRNAME)s', # This gets expanded by Python. + 'RULE_INPUT_PATH': '$(RULE_SOURCES)', + 'RULE_INPUT_EXT': '$(suffix $<)', + 'RULE_INPUT_NAME': '$(notdir $<)', + 'CONFIGURATION_NAME': '$(GYP_CONFIGURATION)', +} + +# Make supports multiple toolsets +generator_supports_multiple_toolsets = True + + +# Generator-specific gyp specs. +generator_additional_non_configuration_keys = [ + # Boolean to declare that this target does not want its name mangled. + 'android_unmangled_name', +] +generator_additional_path_sections = [] +generator_extra_sources_for_rules = [] + + +SHARED_FOOTER = """\ +# "gyp_all_modules" is a concatenation of the "gyp_all_modules" targets from +# all the included sub-makefiles. This is just here to clarify. +gyp_all_modules: +""" + +header = """\ +# This file is generated by gyp; do not edit. + +""" + +android_standard_include_paths = set([ + # JNI_H_INCLUDE in build/core/binary.mk + 'dalvik/libnativehelper/include/nativehelper', + # from SRC_HEADERS in build/core/config.mk + 'system/core/include', + 'hardware/libhardware/include', + 'hardware/libhardware_legacy/include', + 'hardware/ril/include', + 'dalvik/libnativehelper/include', + 'frameworks/native/include', + 'frameworks/native/opengl/include', + 'frameworks/base/include', + 'frameworks/base/opengl/include', + 'frameworks/base/native/include', + 'external/skia/include', + # TARGET_C_INCLUDES in build/core/combo/TARGET_linux-arm.mk + 'bionic/libc/arch-arm/include', + 'bionic/libc/include', + 'bionic/libstdc++/include', + 'bionic/libc/kernel/common', + 'bionic/libc/kernel/arch-arm', + 'bionic/libm/include', + 'bionic/libm/include/arm', + 'bionic/libthread_db/include', + ]) + + +# Map gyp target types to Android module classes. +MODULE_CLASSES = { + 'static_library': 'STATIC_LIBRARIES', + 'shared_library': 'SHARED_LIBRARIES', + 'executable': 'EXECUTABLES', +} + + +def IsCPPExtension(ext): + return make.COMPILABLE_EXTENSIONS.get(ext) == 'cxx' + + +def Sourceify(path): + """Convert a path to its source directory form. The Android backend does not + support options.generator_output, so this function is a noop.""" + return path + + +# Map from qualified target to path to output. +# For Android, the target of these maps is a tuple ('static', 'modulename'), +# ('dynamic', 'modulename'), or ('path', 'some/path') instead of a string, +# since we link by module. +target_outputs = {} +# Map from qualified target to any linkable output. A subset +# of target_outputs. E.g. when mybinary depends on liba, we want to +# include liba in the linker line; when otherbinary depends on +# mybinary, we just want to build mybinary first. +target_link_deps = {} + + +class AndroidMkWriter(object): + """AndroidMkWriter packages up the writing of one target-specific Android.mk. + + Its only real entry point is Write(), and is mostly used for namespacing. + """ + + def __init__(self, android_top_dir): + self.android_top_dir = android_top_dir + + def Write(self, qualified_target, relative_target, base_path, output_filename, + spec, configs, part_of_all): + """The main entry point: writes a .mk file for a single target. + + Arguments: + qualified_target: target we're generating + relative_target: qualified target name relative to the root + base_path: path relative to source root we're building in, used to resolve + target-relative paths + output_filename: output .mk file name to write + spec, configs: gyp info + part_of_all: flag indicating this target is part of 'all' + """ + gyp.common.EnsureDirExists(output_filename) + + self.fp = open(output_filename, 'w') + + self.fp.write(header) + + self.qualified_target = qualified_target + self.relative_target = relative_target + self.path = base_path + self.target = spec['target_name'] + self.type = spec['type'] + self.toolset = spec['toolset'] + + deps, link_deps = self.ComputeDeps(spec) + + # Some of the generation below can add extra output, sources, or + # link dependencies. All of the out params of the functions that + # follow use names like extra_foo. + extra_outputs = [] + extra_sources = [] + + self.android_class = MODULE_CLASSES.get(self.type, 'GYP') + self.android_module = self.ComputeAndroidModule(spec) + (self.android_stem, self.android_suffix) = self.ComputeOutputParts(spec) + self.output = self.output_binary = self.ComputeOutput(spec) + + # Standard header. + self.WriteLn('include $(CLEAR_VARS)\n') + + # Module class and name. + self.WriteLn('LOCAL_MODULE_CLASS := ' + self.android_class) + self.WriteLn('LOCAL_MODULE := ' + self.android_module) + # Only emit LOCAL_MODULE_STEM if it's different to LOCAL_MODULE. + # The library module classes fail if the stem is set. ComputeOutputParts + # makes sure that stem == modulename in these cases. + if self.android_stem != self.android_module: + self.WriteLn('LOCAL_MODULE_STEM := ' + self.android_stem) + self.WriteLn('LOCAL_MODULE_SUFFIX := ' + self.android_suffix) + self.WriteLn('LOCAL_MODULE_TAGS := optional') + if self.toolset == 'host': + self.WriteLn('LOCAL_IS_HOST_MODULE := true') + + # Grab output directories; needed for Actions and Rules. + self.WriteLn('gyp_intermediate_dir := $(call local-intermediates-dir)') + self.WriteLn('gyp_shared_intermediate_dir := ' + '$(call intermediates-dir-for,GYP,shared)') + self.WriteLn() + + # List files this target depends on so that actions/rules/copies/sources + # can depend on the list. + # TODO: doesn't pull in things through transitive link deps; needed? + target_dependencies = [x[1] for x in deps if x[0] == 'path'] + self.WriteLn('# Make sure our deps are built first.') + self.WriteList(target_dependencies, 'GYP_TARGET_DEPENDENCIES', + local_pathify=True) + + # Actions must come first, since they can generate more OBJs for use below. + if 'actions' in spec: + self.WriteActions(spec['actions'], extra_sources, extra_outputs) + + # Rules must be early like actions. + if 'rules' in spec: + self.WriteRules(spec['rules'], extra_sources, extra_outputs) + + if 'copies' in spec: + self.WriteCopies(spec['copies'], extra_outputs) + + # GYP generated outputs. + self.WriteList(extra_outputs, 'GYP_GENERATED_OUTPUTS', local_pathify=True) + + # Set LOCAL_ADDITIONAL_DEPENDENCIES so that Android's build rules depend + # on both our dependency targets and our generated files. + self.WriteLn('# Make sure our deps and generated files are built first.') + self.WriteLn('LOCAL_ADDITIONAL_DEPENDENCIES := $(GYP_TARGET_DEPENDENCIES) ' + '$(GYP_GENERATED_OUTPUTS)') + self.WriteLn() + + # Sources. + if spec.get('sources', []) or extra_sources: + self.WriteSources(spec, configs, extra_sources) + + self.WriteTarget(spec, configs, deps, link_deps, part_of_all) + + # Update global list of target outputs, used in dependency tracking. + target_outputs[qualified_target] = ('path', self.output_binary) + + # Update global list of link dependencies. + if self.type == 'static_library': + target_link_deps[qualified_target] = ('static', self.android_module) + elif self.type == 'shared_library': + target_link_deps[qualified_target] = ('shared', self.android_module) + + self.fp.close() + return self.android_module + + + def WriteActions(self, actions, extra_sources, extra_outputs): + """Write Makefile code for any 'actions' from the gyp input. + + extra_sources: a list that will be filled in with newly generated source + files, if any + extra_outputs: a list that will be filled in with any outputs of these + actions (used to make other pieces dependent on these + actions) + """ + for action in actions: + name = make.StringToMakefileVariable('%s_%s' % (self.relative_target, + action['action_name'])) + self.WriteLn('### Rules for action "%s":' % action['action_name']) + inputs = action['inputs'] + outputs = action['outputs'] + + # Build up a list of outputs. + # Collect the output dirs we'll need. + dirs = set() + for out in outputs: + if not out.startswith('$'): + print ('WARNING: Action for target "%s" writes output to local path ' + '"%s".' % (self.target, out)) + dir = os.path.split(out)[0] + if dir: + dirs.add(dir) + if int(action.get('process_outputs_as_sources', False)): + extra_sources += outputs + + # Prepare the actual command. + command = gyp.common.EncodePOSIXShellList(action['action']) + if 'message' in action: + quiet_cmd = 'Gyp action: %s ($@)' % action['message'] + else: + quiet_cmd = 'Gyp action: %s ($@)' % name + if len(dirs) > 0: + command = 'mkdir -p %s' % ' '.join(dirs) + '; ' + command + + cd_action = 'cd $(gyp_local_path)/%s; ' % self.path + command = cd_action + command + + # The makefile rules are all relative to the top dir, but the gyp actions + # are defined relative to their containing dir. This replaces the gyp_* + # variables for the action rule with an absolute version so that the + # output goes in the right place. + # Only write the gyp_* rules for the "primary" output (:1); + # it's superfluous for the "extra outputs", and this avoids accidentally + # writing duplicate dummy rules for those outputs. + main_output = make.QuoteSpaces(self.LocalPathify(outputs[0])) + self.WriteLn('%s: gyp_local_path := $(LOCAL_PATH)' % main_output) + self.WriteLn('%s: gyp_intermediate_dir := ' + '$(abspath $(gyp_intermediate_dir))' % main_output) + self.WriteLn('%s: gyp_shared_intermediate_dir := ' + '$(abspath $(gyp_shared_intermediate_dir))' % main_output) + + # Android's envsetup.sh adds a number of directories to the path including + # the built host binary directory. This causes actions/rules invoked by + # gyp to sometimes use these instead of system versions, e.g. bison. + # The built host binaries may not be suitable, and can cause errors. + # So, we remove them from the PATH using the ANDROID_BUILD_PATHS variable + # set by envsetup. + self.WriteLn('%s: export PATH := $(subst $(ANDROID_BUILD_PATHS),,$(PATH))' + % main_output) + + for input in inputs: + assert ' ' not in input, ( + "Spaces in action input filenames not supported (%s)" % input) + for output in outputs: + assert ' ' not in output, ( + "Spaces in action output filenames not supported (%s)" % output) + + self.WriteLn('%s: %s $(GYP_TARGET_DEPENDENCIES)' % + (main_output, ' '.join(map(self.LocalPathify, inputs)))) + self.WriteLn('\t@echo "%s"' % quiet_cmd) + self.WriteLn('\t$(hide)%s\n' % command) + for output in outputs[1:]: + # Make each output depend on the main output, with an empty command + # to force make to notice that the mtime has changed. + self.WriteLn('%s: %s ;' % (self.LocalPathify(output), main_output)) + + extra_outputs += outputs + self.WriteLn() + + self.WriteLn() + + + def WriteRules(self, rules, extra_sources, extra_outputs): + """Write Makefile code for any 'rules' from the gyp input. + + extra_sources: a list that will be filled in with newly generated source + files, if any + extra_outputs: a list that will be filled in with any outputs of these + rules (used to make other pieces dependent on these rules) + """ + if len(rules) == 0: + return + rule_trigger = '%s_rule_trigger' % self.android_module + + did_write_rule = False + for rule in rules: + if len(rule.get('rule_sources', [])) == 0: + continue + did_write_rule = True + name = make.StringToMakefileVariable('%s_%s' % (self.relative_target, + rule['rule_name'])) + self.WriteLn('\n### Generated for rule "%s":' % name) + self.WriteLn('# "%s":' % rule) + + inputs = rule.get('inputs') + for rule_source in rule.get('rule_sources', []): + (rule_source_dirname, rule_source_basename) = os.path.split(rule_source) + (rule_source_root, rule_source_ext) = \ + os.path.splitext(rule_source_basename) + + outputs = [self.ExpandInputRoot(out, rule_source_root, + rule_source_dirname) + for out in rule['outputs']] + + dirs = set() + for out in outputs: + if not out.startswith('$'): + print ('WARNING: Rule for target %s writes output to local path %s' + % (self.target, out)) + dir = os.path.dirname(out) + if dir: + dirs.add(dir) + extra_outputs += outputs + if int(rule.get('process_outputs_as_sources', False)): + extra_sources.extend(outputs) + + components = [] + for component in rule['action']: + component = self.ExpandInputRoot(component, rule_source_root, + rule_source_dirname) + if '$(RULE_SOURCES)' in component: + component = component.replace('$(RULE_SOURCES)', + rule_source) + components.append(component) + + command = gyp.common.EncodePOSIXShellList(components) + cd_action = 'cd $(gyp_local_path)/%s; ' % self.path + command = cd_action + command + if dirs: + command = 'mkdir -p %s' % ' '.join(dirs) + '; ' + command + + # We set up a rule to build the first output, and then set up + # a rule for each additional output to depend on the first. + outputs = map(self.LocalPathify, outputs) + main_output = outputs[0] + self.WriteLn('%s: gyp_local_path := $(LOCAL_PATH)' % main_output) + self.WriteLn('%s: gyp_intermediate_dir := ' + '$(abspath $(gyp_intermediate_dir))' % main_output) + self.WriteLn('%s: gyp_shared_intermediate_dir := ' + '$(abspath $(gyp_shared_intermediate_dir))' % main_output) + + # See explanation in WriteActions. + self.WriteLn('%s: export PATH := ' + '$(subst $(ANDROID_BUILD_PATHS),,$(PATH))' % main_output) + + main_output_deps = self.LocalPathify(rule_source) + if inputs: + main_output_deps += ' ' + main_output_deps += ' '.join([self.LocalPathify(f) for f in inputs]) + + self.WriteLn('%s: %s $(GYP_TARGET_DEPENDENCIES)' % + (main_output, main_output_deps)) + self.WriteLn('\t%s\n' % command) + for output in outputs[1:]: + # Make each output depend on the main output, with an empty command + # to force make to notice that the mtime has changed. + self.WriteLn('%s: %s ;' % (output, main_output)) + self.WriteLn('.PHONY: %s' % (rule_trigger)) + self.WriteLn('%s: %s' % (rule_trigger, main_output)) + self.WriteLn('') + if did_write_rule: + extra_sources.append(rule_trigger) # Force all rules to run. + self.WriteLn('### Finished generating for all rules') + self.WriteLn('') + + + def WriteCopies(self, copies, extra_outputs): + """Write Makefile code for any 'copies' from the gyp input. + + extra_outputs: a list that will be filled in with any outputs of this action + (used to make other pieces dependent on this action) + """ + self.WriteLn('### Generated for copy rule.') + + variable = make.StringToMakefileVariable(self.relative_target + '_copies') + outputs = [] + for copy in copies: + for path in copy['files']: + # The Android build system does not allow generation of files into the + # source tree. The destination should start with a variable, which will + # typically be $(gyp_intermediate_dir) or + # $(gyp_shared_intermediate_dir). Note that we can't use an assertion + # because some of the gyp tests depend on this. + if not copy['destination'].startswith('$'): + print ('WARNING: Copy rule for target %s writes output to ' + 'local path %s' % (self.target, copy['destination'])) + + # LocalPathify() calls normpath, stripping trailing slashes. + path = Sourceify(self.LocalPathify(path)) + filename = os.path.split(path)[1] + output = Sourceify(self.LocalPathify(os.path.join(copy['destination'], + filename))) + + self.WriteLn('%s: %s $(GYP_TARGET_DEPENDENCIES) | $(ACP)' % + (output, path)) + self.WriteLn('\t@echo Copying: $@') + self.WriteLn('\t$(hide) mkdir -p $(dir $@)') + self.WriteLn('\t$(hide) $(ACP) -rpf $< $@') + self.WriteLn() + outputs.append(output) + self.WriteLn('%s = %s' % (variable, + ' '.join(map(make.QuoteSpaces, outputs)))) + extra_outputs.append('$(%s)' % variable) + self.WriteLn() + + + def WriteSourceFlags(self, spec, configs): + """Write out the flags and include paths used to compile source files for + the current target. + + Args: + spec, configs: input from gyp. + """ + for configname, config in sorted(configs.iteritems()): + extracted_includes = [] + + self.WriteLn('\n# Flags passed to both C and C++ files.') + cflags, includes_from_cflags = self.ExtractIncludesFromCFlags( + config.get('cflags', []) + config.get('cflags_c', [])) + extracted_includes.extend(includes_from_cflags) + self.WriteList(cflags, 'MY_CFLAGS_%s' % configname) + + self.WriteList(config.get('defines'), 'MY_DEFS_%s' % configname, + prefix='-D', quoter=make.EscapeCppDefine) + + self.WriteLn('\n# Include paths placed before CFLAGS/CPPFLAGS') + includes = list(config.get('include_dirs', [])) + includes.extend(extracted_includes) + includes = map(Sourceify, map(self.LocalPathify, includes)) + includes = self.NormalizeIncludePaths(includes) + self.WriteList(includes, 'LOCAL_C_INCLUDES_%s' % configname) + + self.WriteLn('\n# Flags passed to only C++ (and not C) files.') + self.WriteList(config.get('cflags_cc'), 'LOCAL_CPPFLAGS_%s' % configname) + + self.WriteLn('\nLOCAL_CFLAGS := $(MY_CFLAGS_$(GYP_CONFIGURATION)) ' + '$(MY_DEFS_$(GYP_CONFIGURATION))') + # Undefine ANDROID for host modules + # TODO: the source code should not use macro ANDROID to tell if it's host + # or target module. + if self.toolset == 'host': + self.WriteLn('# Undefine ANDROID for host modules') + self.WriteLn('LOCAL_CFLAGS += -UANDROID') + self.WriteLn('LOCAL_C_INCLUDES := $(GYP_COPIED_SOURCE_ORIGIN_DIRS) ' + '$(LOCAL_C_INCLUDES_$(GYP_CONFIGURATION))') + self.WriteLn('LOCAL_CPPFLAGS := $(LOCAL_CPPFLAGS_$(GYP_CONFIGURATION))') + + + def WriteSources(self, spec, configs, extra_sources): + """Write Makefile code for any 'sources' from the gyp input. + These are source files necessary to build the current target. + We need to handle shared_intermediate directory source files as + a special case by copying them to the intermediate directory and + treating them as a genereated sources. Otherwise the Android build + rules won't pick them up. + + Args: + spec, configs: input from gyp. + extra_sources: Sources generated from Actions or Rules. + """ + sources = filter(make.Compilable, spec.get('sources', [])) + generated_not_sources = [x for x in extra_sources if not make.Compilable(x)] + extra_sources = filter(make.Compilable, extra_sources) + + # Determine and output the C++ extension used by these sources. + # We simply find the first C++ file and use that extension. + all_sources = sources + extra_sources + local_cpp_extension = '.cpp' + for source in all_sources: + (root, ext) = os.path.splitext(source) + if IsCPPExtension(ext): + local_cpp_extension = ext + break + if local_cpp_extension != '.cpp': + self.WriteLn('LOCAL_CPP_EXTENSION := %s' % local_cpp_extension) + + # We need to move any non-generated sources that are coming from the + # shared intermediate directory out of LOCAL_SRC_FILES and put them + # into LOCAL_GENERATED_SOURCES. We also need to move over any C++ files + # that don't match our local_cpp_extension, since Android will only + # generate Makefile rules for a single LOCAL_CPP_EXTENSION. + local_files = [] + for source in sources: + (root, ext) = os.path.splitext(source) + if '$(gyp_shared_intermediate_dir)' in source: + extra_sources.append(source) + elif '$(gyp_intermediate_dir)' in source: + extra_sources.append(source) + elif IsCPPExtension(ext) and ext != local_cpp_extension: + extra_sources.append(source) + else: + local_files.append(os.path.normpath(os.path.join(self.path, source))) + + # For any generated source, if it is coming from the shared intermediate + # directory then we add a Make rule to copy them to the local intermediate + # directory first. This is because the Android LOCAL_GENERATED_SOURCES + # must be in the local module intermediate directory for the compile rules + # to work properly. If the file has the wrong C++ extension, then we add + # a rule to copy that to intermediates and use the new version. + final_generated_sources = [] + # If a source file gets copied, we still need to add the orginal source + # directory as header search path, for GCC searches headers in the + # directory that contains the source file by default. + origin_src_dirs = [] + for source in extra_sources: + local_file = source + if not '$(gyp_intermediate_dir)/' in local_file: + basename = os.path.basename(local_file) + local_file = '$(gyp_intermediate_dir)/' + basename + (root, ext) = os.path.splitext(local_file) + if IsCPPExtension(ext) and ext != local_cpp_extension: + local_file = root + local_cpp_extension + if local_file != source: + self.WriteLn('%s: %s' % (local_file, self.LocalPathify(source))) + self.WriteLn('\tmkdir -p $(@D); cp $< $@') + origin_src_dirs.append(os.path.dirname(source)) + final_generated_sources.append(local_file) + + # We add back in all of the non-compilable stuff to make sure that the + # make rules have dependencies on them. + final_generated_sources.extend(generated_not_sources) + self.WriteList(final_generated_sources, 'LOCAL_GENERATED_SOURCES') + + origin_src_dirs = gyp.common.uniquer(origin_src_dirs) + origin_src_dirs = map(Sourceify, map(self.LocalPathify, origin_src_dirs)) + self.WriteList(origin_src_dirs, 'GYP_COPIED_SOURCE_ORIGIN_DIRS') + + self.WriteList(local_files, 'LOCAL_SRC_FILES') + + # Write out the flags used to compile the source; this must be done last + # so that GYP_COPIED_SOURCE_ORIGIN_DIRS can be used as an include path. + self.WriteSourceFlags(spec, configs) + + + def ComputeAndroidModule(self, spec): + """Return the Android module name used for a gyp spec. + + We use the complete qualified target name to avoid collisions between + duplicate targets in different directories. We also add a suffix to + distinguish gyp-generated module names. + """ + + if int(spec.get('android_unmangled_name', 0)): + assert self.type != 'shared_library' or self.target.startswith('lib') + return self.target + + if self.type == 'shared_library': + # For reasons of convention, the Android build system requires that all + # shared library modules are named 'libfoo' when generating -l flags. + prefix = 'lib_' + else: + prefix = '' + + if spec['toolset'] == 'host': + suffix = '_host_gyp' + else: + suffix = '_gyp' + + if self.path: + name = '%s%s_%s%s' % (prefix, self.path, self.target, suffix) + else: + name = '%s%s%s' % (prefix, self.target, suffix) + + return make.StringToMakefileVariable(name) + + + def ComputeOutputParts(self, spec): + """Return the 'output basename' of a gyp spec, split into filename + ext. + + Android libraries must be named the same thing as their module name, + otherwise the linker can't find them, so product_name and so on must be + ignored if we are building a library, and the "lib" prepending is + not done for Android. + """ + assert self.type != 'loadable_module' # TODO: not supported? + + target = spec['target_name'] + target_prefix = '' + target_ext = '' + if self.type == 'static_library': + target = self.ComputeAndroidModule(spec) + target_ext = '.a' + elif self.type == 'shared_library': + target = self.ComputeAndroidModule(spec) + target_ext = '.so' + elif self.type == 'none': + target_ext = '.stamp' + elif self.type != 'executable': + print ("ERROR: What output file should be generated?", + "type", self.type, "target", target) + + if self.type != 'static_library' and self.type != 'shared_library': + target_prefix = spec.get('product_prefix', target_prefix) + target = spec.get('product_name', target) + product_ext = spec.get('product_extension') + if product_ext: + target_ext = '.' + product_ext + + target_stem = target_prefix + target + return (target_stem, target_ext) + + + def ComputeOutputBasename(self, spec): + """Return the 'output basename' of a gyp spec. + + E.g., the loadable module 'foobar' in directory 'baz' will produce + 'libfoobar.so' + """ + return ''.join(self.ComputeOutputParts(spec)) + + + def ComputeOutput(self, spec): + """Return the 'output' (full output path) of a gyp spec. + + E.g., the loadable module 'foobar' in directory 'baz' will produce + '$(obj)/baz/libfoobar.so' + """ + if self.type == 'executable' and self.toolset == 'host': + # We install host executables into shared_intermediate_dir so they can be + # run by gyp rules that refer to PRODUCT_DIR. + path = '$(gyp_shared_intermediate_dir)' + elif self.type == 'shared_library': + if self.toolset == 'host': + path = '$(HOST_OUT_INTERMEDIATE_LIBRARIES)' + else: + path = '$(TARGET_OUT_INTERMEDIATE_LIBRARIES)' + else: + # Other targets just get built into their intermediate dir. + if self.toolset == 'host': + path = '$(call intermediates-dir-for,%s,%s,true)' % (self.android_class, + self.android_module) + else: + path = '$(call intermediates-dir-for,%s,%s)' % (self.android_class, + self.android_module) + + assert spec.get('product_dir') is None # TODO: not supported? + return os.path.join(path, self.ComputeOutputBasename(spec)) + + def NormalizeIncludePaths(self, include_paths): + """ Normalize include_paths. + Convert absolute paths to relative to the Android top directory; + filter out include paths that are already brought in by the Android build + system. + + Args: + include_paths: A list of unprocessed include paths. + Returns: + A list of normalized include paths. + """ + normalized = [] + for path in include_paths: + if path[0] == '/': + path = gyp.common.RelativePath(path, self.android_top_dir) + + # Filter out the Android standard search path. + if path not in android_standard_include_paths: + normalized.append(path) + return normalized + + def ExtractIncludesFromCFlags(self, cflags): + """Extract includes "-I..." out from cflags + + Args: + cflags: A list of compiler flags, which may be mixed with "-I.." + Returns: + A tuple of lists: (clean_clfags, include_paths). "-I.." is trimmed. + """ + clean_cflags = [] + include_paths = [] + for flag in cflags: + if flag.startswith('-I'): + include_paths.append(flag[2:]) + else: + clean_cflags.append(flag) + + return (clean_cflags, include_paths) + + def ComputeAndroidLibraryModuleNames(self, libraries): + """Compute the Android module names from libraries, ie spec.get('libraries') + + Args: + libraries: the value of spec.get('libraries') + Returns: + A tuple (static_lib_modules, dynamic_lib_modules) + """ + static_lib_modules = [] + dynamic_lib_modules = [] + for libs in libraries: + # Libs can have multiple words. + for lib in libs.split(): + # Filter the system libraries, which are added by default by the Android + # build system. + if (lib == '-lc' or lib == '-lstdc++' or lib == '-lm' or + lib.endswith('libgcc.a')): + continue + match = re.search(r'([^/]+)\.a$', lib) + if match: + static_lib_modules.append(match.group(1)) + continue + match = re.search(r'([^/]+)\.so$', lib) + if match: + dynamic_lib_modules.append(match.group(1)) + continue + # "-lstlport" -> libstlport + if lib.startswith('-l'): + if lib.endswith('_static'): + static_lib_modules.append('lib' + lib[2:]) + else: + dynamic_lib_modules.append('lib' + lib[2:]) + return (static_lib_modules, dynamic_lib_modules) + + + def ComputeDeps(self, spec): + """Compute the dependencies of a gyp spec. + + Returns a tuple (deps, link_deps), where each is a list of + filenames that will need to be put in front of make for either + building (deps) or linking (link_deps). + """ + deps = [] + link_deps = [] + if 'dependencies' in spec: + deps.extend([target_outputs[dep] for dep in spec['dependencies'] + if target_outputs[dep]]) + for dep in spec['dependencies']: + if dep in target_link_deps: + link_deps.append(target_link_deps[dep]) + deps.extend(link_deps) + return (gyp.common.uniquer(deps), gyp.common.uniquer(link_deps)) + + + def WriteTargetFlags(self, spec, configs, link_deps): + """Write Makefile code to specify the link flags and library dependencies. + + spec, configs: input from gyp. + link_deps: link dependency list; see ComputeDeps() + """ + for configname, config in sorted(configs.iteritems()): + ldflags = list(config.get('ldflags', [])) + self.WriteLn('') + self.WriteList(ldflags, 'LOCAL_LDFLAGS_%s' % configname) + self.WriteLn('\nLOCAL_LDFLAGS := $(LOCAL_LDFLAGS_$(GYP_CONFIGURATION))') + + # Libraries (i.e. -lfoo) + libraries = gyp.common.uniquer(spec.get('libraries', [])) + static_libs, dynamic_libs = self.ComputeAndroidLibraryModuleNames( + libraries) + + # Link dependencies (i.e. libfoo.a, libfoo.so) + static_link_deps = [x[1] for x in link_deps if x[0] == 'static'] + shared_link_deps = [x[1] for x in link_deps if x[0] == 'shared'] + self.WriteLn('') + self.WriteList(static_libs + static_link_deps, + 'LOCAL_STATIC_LIBRARIES') + self.WriteLn('# Enable grouping to fix circular references') + self.WriteLn('LOCAL_GROUP_STATIC_LIBRARIES := true') + self.WriteLn('') + self.WriteList(dynamic_libs + shared_link_deps, + 'LOCAL_SHARED_LIBRARIES') + + + def WriteTarget(self, spec, configs, deps, link_deps, part_of_all): + """Write Makefile code to produce the final target of the gyp spec. + + spec, configs: input from gyp. + deps, link_deps: dependency lists; see ComputeDeps() + part_of_all: flag indicating this target is part of 'all' + """ + self.WriteLn('### Rules for final target.') + + if self.type != 'none': + self.WriteTargetFlags(spec, configs, link_deps) + + # Add to the set of targets which represent the gyp 'all' target. We use the + # name 'gyp_all_modules' as the Android build system doesn't allow the use + # of the Make target 'all' and because 'all_modules' is the equivalent of + # the Make target 'all' on Android. + if part_of_all: + self.WriteLn('# Add target alias to "gyp_all_modules" target.') + self.WriteLn('.PHONY: gyp_all_modules') + self.WriteLn('gyp_all_modules: %s' % self.android_module) + self.WriteLn('') + + # Add an alias from the gyp target name to the Android module name. This + # simplifies manual builds of the target, and is required by the test + # framework. + if self.target != self.android_module: + self.WriteLn('# Alias gyp target name.') + self.WriteLn('.PHONY: %s' % self.target) + self.WriteLn('%s: %s' % (self.target, self.android_module)) + self.WriteLn('') + + # Add the command to trigger build of the target type depending + # on the toolset. Ex: BUILD_STATIC_LIBRARY vs. BUILD_HOST_STATIC_LIBRARY + # NOTE: This has to come last! + modifier = '' + if self.toolset == 'host': + modifier = 'HOST_' + if self.type == 'static_library': + self.WriteLn('include $(BUILD_%sSTATIC_LIBRARY)' % modifier) + elif self.type == 'shared_library': + self.WriteLn('LOCAL_PRELINK_MODULE := false') + self.WriteLn('include $(BUILD_%sSHARED_LIBRARY)' % modifier) + elif self.type == 'executable': + if self.toolset == 'host': + self.WriteLn('LOCAL_MODULE_PATH := $(gyp_shared_intermediate_dir)') + else: + # Don't install target executables for now, as it results in them being + # included in ROM. This can be revisited if there's a reason to install + # them later. + self.WriteLn('LOCAL_UNINSTALLABLE_MODULE := true') + self.WriteLn('include $(BUILD_%sEXECUTABLE)' % modifier) + else: + self.WriteLn('LOCAL_MODULE_PATH := $(PRODUCT_OUT)/gyp_stamp') + self.WriteLn('LOCAL_UNINSTALLABLE_MODULE := true') + self.WriteLn() + self.WriteLn('include $(BUILD_SYSTEM)/base_rules.mk') + self.WriteLn() + self.WriteLn('$(LOCAL_BUILT_MODULE): $(LOCAL_ADDITIONAL_DEPENDENCIES)') + self.WriteLn('\t$(hide) echo "Gyp timestamp: $@"') + self.WriteLn('\t$(hide) mkdir -p $(dir $@)') + self.WriteLn('\t$(hide) touch $@') + + + def WriteList(self, value_list, variable=None, prefix='', + quoter=make.QuoteIfNecessary, local_pathify=False): + """Write a variable definition that is a list of values. + + E.g. WriteList(['a','b'], 'foo', prefix='blah') writes out + foo = blaha blahb + but in a pretty-printed style. + """ + values = '' + if value_list: + value_list = [quoter(prefix + l) for l in value_list] + if local_pathify: + value_list = [self.LocalPathify(l) for l in value_list] + values = ' \\\n\t' + ' \\\n\t'.join(value_list) + self.fp.write('%s :=%s\n\n' % (variable, values)) + + + def WriteLn(self, text=''): + self.fp.write(text + '\n') + + + def LocalPathify(self, path): + """Convert a subdirectory-relative path into a normalized path which starts + with the make variable $(LOCAL_PATH) (i.e. the top of the project tree). + Absolute paths, or paths that contain variables, are just normalized.""" + if '$(' in path or os.path.isabs(path): + # path is not a file in the project tree in this case, but calling + # normpath is still important for trimming trailing slashes. + return os.path.normpath(path) + local_path = os.path.join('$(LOCAL_PATH)', self.path, path) + local_path = os.path.normpath(local_path) + # Check that normalizing the path didn't ../ itself out of $(LOCAL_PATH) + # - i.e. that the resulting path is still inside the project tree. The + # path may legitimately have ended up containing just $(LOCAL_PATH), though, + # so we don't look for a slash. + assert local_path.startswith('$(LOCAL_PATH)'), ( + 'Path %s attempts to escape from gyp path %s !)' % (path, self.path)) + return local_path + + + def ExpandInputRoot(self, template, expansion, dirname): + if '%(INPUT_ROOT)s' not in template and '%(INPUT_DIRNAME)s' not in template: + return template + path = template % { + 'INPUT_ROOT': expansion, + 'INPUT_DIRNAME': dirname, + } + return path + + +def PerformBuild(data, configurations, params): + # The android backend only supports the default configuration. + options = params['options'] + makefile = os.path.abspath(os.path.join(options.toplevel_dir, + 'GypAndroid.mk')) + env = dict(os.environ) + env['ONE_SHOT_MAKEFILE'] = makefile + arguments = ['make', '-C', os.environ['ANDROID_BUILD_TOP'], 'gyp_all_modules'] + print 'Building: %s' % arguments + subprocess.check_call(arguments, env=env) + + +def GenerateOutput(target_list, target_dicts, data, params): + options = params['options'] + generator_flags = params.get('generator_flags', {}) + builddir_name = generator_flags.get('output_dir', 'out') + limit_to_target_all = generator_flags.get('limit_to_target_all', False) + android_top_dir = os.environ.get('ANDROID_BUILD_TOP') + assert android_top_dir, '$ANDROID_BUILD_TOP not set; you need to run lunch.' + + def CalculateMakefilePath(build_file, base_name): + """Determine where to write a Makefile for a given gyp file.""" + # Paths in gyp files are relative to the .gyp file, but we want + # paths relative to the source root for the master makefile. Grab + # the path of the .gyp file as the base to relativize against. + # E.g. "foo/bar" when we're constructing targets for "foo/bar/baz.gyp". + base_path = gyp.common.RelativePath(os.path.dirname(build_file), + options.depth) + # We write the file in the base_path directory. + output_file = os.path.join(options.depth, base_path, base_name) + assert not options.generator_output, ( + 'The Android backend does not support options.generator_output.') + base_path = gyp.common.RelativePath(os.path.dirname(build_file), + options.toplevel_dir) + return base_path, output_file + + # TODO: search for the first non-'Default' target. This can go + # away when we add verification that all targets have the + # necessary configurations. + default_configuration = None + toolsets = set([target_dicts[target]['toolset'] for target in target_list]) + for target in target_list: + spec = target_dicts[target] + if spec['default_configuration'] != 'Default': + default_configuration = spec['default_configuration'] + break + if not default_configuration: + default_configuration = 'Default' + + srcdir = '.' + makefile_name = 'GypAndroid' + options.suffix + '.mk' + makefile_path = os.path.join(options.toplevel_dir, makefile_name) + assert not options.generator_output, ( + 'The Android backend does not support options.generator_output.') + gyp.common.EnsureDirExists(makefile_path) + root_makefile = open(makefile_path, 'w') + + root_makefile.write(header) + + # We set LOCAL_PATH just once, here, to the top of the project tree. This + # allows all the other paths we use to be relative to the Android.mk file, + # as the Android build system expects. + root_makefile.write('\nLOCAL_PATH := $(call my-dir)\n') + + # Find the list of targets that derive from the gyp file(s) being built. + needed_targets = set() + for build_file in params['build_files']: + for target in gyp.common.AllTargets(target_list, target_dicts, build_file): + needed_targets.add(target) + + build_files = set() + include_list = set() + android_modules = {} + for qualified_target in target_list: + build_file, target, toolset = gyp.common.ParseQualifiedTarget( + qualified_target) + relative_build_file = gyp.common.RelativePath(build_file, + options.toplevel_dir) + build_files.add(relative_build_file) + included_files = data[build_file]['included_files'] + for included_file in included_files: + # The included_files entries are relative to the dir of the build file + # that included them, so we have to undo that and then make them relative + # to the root dir. + relative_include_file = gyp.common.RelativePath( + gyp.common.UnrelativePath(included_file, build_file), + options.toplevel_dir) + abs_include_file = os.path.abspath(relative_include_file) + # If the include file is from the ~/.gyp dir, we should use absolute path + # so that relocating the src dir doesn't break the path. + if (params['home_dot_gyp'] and + abs_include_file.startswith(params['home_dot_gyp'])): + build_files.add(abs_include_file) + else: + build_files.add(relative_include_file) + + base_path, output_file = CalculateMakefilePath(build_file, + target + '.' + toolset + options.suffix + '.mk') + + spec = target_dicts[qualified_target] + configs = spec['configurations'] + + part_of_all = (qualified_target in needed_targets and + not int(spec.get('suppress_wildcard', False))) + if limit_to_target_all and not part_of_all: + continue + + relative_target = gyp.common.QualifiedTarget(relative_build_file, target, + toolset) + writer = AndroidMkWriter(android_top_dir) + android_module = writer.Write(qualified_target, relative_target, base_path, + output_file, spec, configs, + part_of_all=part_of_all) + if android_module in android_modules: + print ('ERROR: Android module names must be unique. The following ' + 'targets both generate Android module name %s.\n %s\n %s' % + (android_module, android_modules[android_module], + qualified_target)) + return + android_modules[android_module] = qualified_target + + # Our root_makefile lives at the source root. Compute the relative path + # from there to the output_file for including. + mkfile_rel_path = gyp.common.RelativePath(output_file, + os.path.dirname(makefile_path)) + include_list.add(mkfile_rel_path) + + root_makefile.write('GYP_CONFIGURATION ?= %s\n' % default_configuration) + + # Write out the sorted list of includes. + root_makefile.write('\n') + for include_file in sorted(include_list): + root_makefile.write('include $(LOCAL_PATH)/' + include_file + '\n') + root_makefile.write('\n') + + root_makefile.write(SHARED_FOOTER) + + root_makefile.close() diff --git a/deps/gyp/pylib/gyp/generator/cmake.py b/deps/gyp/pylib/gyp/generator/cmake.py new file mode 100644 index 0000000000..10d015ee83 --- /dev/null +++ b/deps/gyp/pylib/gyp/generator/cmake.py @@ -0,0 +1,1143 @@ +# Copyright (c) 2013 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +"""cmake output module + +This module is under development and should be considered experimental. + +This module produces cmake (2.8.8+) input as its output. One CMakeLists.txt is +created for each configuration. + +This module's original purpose was to support editing in IDEs like KDevelop +which use CMake for project management. It is also possible to use CMake to +generate projects for other IDEs such as eclipse cdt and code::blocks. QtCreator +will convert the CMakeLists.txt to a code::blocks cbp for the editor to read, +but build using CMake. As a result QtCreator editor is unaware of compiler +defines. The generated CMakeLists.txt can also be used to build on Linux. There +is currently no support for building on platforms other than Linux. + +The generated CMakeLists.txt should properly compile all projects. However, +there is a mismatch between gyp and cmake with regard to linking. All attempts +are made to work around this, but CMake sometimes sees -Wl,--start-group as a +library and incorrectly repeats it. As a result the output of this generator +should not be relied on for building. + +When using with kdevelop, use version 4.4+. Previous versions of kdevelop will +not be able to find the header file directories described in the generated +CMakeLists.txt file. +""" + +import multiprocessing +import os +import signal +import string +import subprocess +import gyp.common + +generator_default_variables = { + 'EXECUTABLE_PREFIX': '', + 'EXECUTABLE_SUFFIX': '', + 'STATIC_LIB_PREFIX': 'lib', + 'STATIC_LIB_SUFFIX': '.a', + 'SHARED_LIB_PREFIX': 'lib', + 'SHARED_LIB_SUFFIX': '.so', + 'SHARED_LIB_DIR': '${builddir}/lib.${TOOLSET}', + 'LIB_DIR': '${obj}.${TOOLSET}', + 'INTERMEDIATE_DIR': '${obj}.${TOOLSET}/${TARGET}/geni', + 'SHARED_INTERMEDIATE_DIR': '${obj}/gen', + 'PRODUCT_DIR': '${builddir}', + 'RULE_INPUT_PATH': '${RULE_INPUT_PATH}', + 'RULE_INPUT_DIRNAME': '${RULE_INPUT_DIRNAME}', + 'RULE_INPUT_NAME': '${RULE_INPUT_NAME}', + 'RULE_INPUT_ROOT': '${RULE_INPUT_ROOT}', + 'RULE_INPUT_EXT': '${RULE_INPUT_EXT}', + 'CONFIGURATION_NAME': '${configuration}', +} + +FULL_PATH_VARS = ('${CMAKE_SOURCE_DIR}', '${builddir}', '${obj}') + +generator_supports_multiple_toolsets = True +generator_wants_static_library_dependencies_adjusted = True + +COMPILABLE_EXTENSIONS = { + '.c': 'cc', + '.cc': 'cxx', + '.cpp': 'cxx', + '.cxx': 'cxx', + '.s': 's', # cc + '.S': 's', # cc +} + + +def RemovePrefix(a, prefix): + """Returns 'a' without 'prefix' if it starts with 'prefix'.""" + return a[len(prefix):] if a.startswith(prefix) else a + + +def CalculateVariables(default_variables, params): + """Calculate additional variables for use in the build (called by gyp).""" + default_variables.setdefault('OS', gyp.common.GetFlavor(params)) + + +def Compilable(filename): + """Return true if the file is compilable (should be in OBJS).""" + return any(filename.endswith(e) for e in COMPILABLE_EXTENSIONS) + + +def Linkable(filename): + """Return true if the file is linkable (should be on the link line).""" + return filename.endswith('.o') + + +def NormjoinPathForceCMakeSource(base_path, rel_path): + """Resolves rel_path against base_path and returns the result. + + If rel_path is an absolute path it is returned unchanged. + Otherwise it is resolved against base_path and normalized. + If the result is a relative path, it is forced to be relative to the + CMakeLists.txt. + """ + if os.path.isabs(rel_path): + return rel_path + if any([rel_path.startswith(var) for var in FULL_PATH_VARS]): + return rel_path + # TODO: do we need to check base_path for absolute variables as well? + return os.path.join('${CMAKE_SOURCE_DIR}', + os.path.normpath(os.path.join(base_path, rel_path))) + + +def NormjoinPath(base_path, rel_path): + """Resolves rel_path against base_path and returns the result. + TODO: what is this really used for? + If rel_path begins with '$' it is returned unchanged. + Otherwise it is resolved against base_path if relative, then normalized. + """ + if rel_path.startswith('$') and not rel_path.startswith('${configuration}'): + return rel_path + return os.path.normpath(os.path.join(base_path, rel_path)) + + +def CMakeStringEscape(a): + """Escapes the string 'a' for use inside a CMake string. + + This means escaping + '\' otherwise it may be seen as modifying the next character + '"' otherwise it will end the string + ';' otherwise the string becomes a list + + The following do not need to be escaped + '#' when the lexer is in string state, this does not start a comment + + The following are yet unknown + '$' generator variables (like ${obj}) must not be escaped, + but text $ should be escaped + what is wanted is to know which $ come from generator variables + """ + return a.replace('\\', '\\\\').replace(';', '\\;').replace('"', '\\"') + + +def SetFileProperty(output, source_name, property_name, values, sep): + """Given a set of source file, sets the given property on them.""" + output.write('set_source_files_properties(') + output.write(source_name) + output.write(' PROPERTIES ') + output.write(property_name) + output.write(' "') + for value in values: + output.write(CMakeStringEscape(value)) + output.write(sep) + output.write('")\n') + + +def SetFilesProperty(output, source_names, property_name, values, sep): + """Given a set of source files, sets the given property on them.""" + output.write('set_source_files_properties(\n') + for source_name in source_names: + output.write(' ') + output.write(source_name) + output.write('\n') + output.write(' PROPERTIES\n ') + output.write(property_name) + output.write(' "') + for value in values: + output.write(CMakeStringEscape(value)) + output.write(sep) + output.write('"\n)\n') + + +def SetTargetProperty(output, target_name, property_name, values, sep=''): + """Given a target, sets the given property.""" + output.write('set_target_properties(') + output.write(target_name) + output.write(' PROPERTIES ') + output.write(property_name) + output.write(' "') + for value in values: + output.write(CMakeStringEscape(value)) + output.write(sep) + output.write('")\n') + + +def SetVariable(output, variable_name, value): + """Sets a CMake variable.""" + output.write('set(') + output.write(variable_name) + output.write(' "') + output.write(CMakeStringEscape(value)) + output.write('")\n') + + +def SetVariableList(output, variable_name, values): + """Sets a CMake variable to a list.""" + if not values: + return SetVariable(output, variable_name, "") + if len(values) == 1: + return SetVariable(output, variable_name, values[0]) + output.write('list(APPEND ') + output.write(variable_name) + output.write('\n "') + output.write('"\n "'.join([CMakeStringEscape(value) for value in values])) + output.write('")\n') + + +def UnsetVariable(output, variable_name): + """Unsets a CMake variable.""" + output.write('unset(') + output.write(variable_name) + output.write(')\n') + + +def WriteVariable(output, variable_name, prepend=None): + if prepend: + output.write(prepend) + output.write('${') + output.write(variable_name) + output.write('}') + + +class CMakeTargetType: + def __init__(self, command, modifier, property_modifier): + self.command = command + self.modifier = modifier + self.property_modifier = property_modifier + + +cmake_target_type_from_gyp_target_type = { + 'executable': CMakeTargetType('add_executable', None, 'RUNTIME'), + 'static_library': CMakeTargetType('add_library', 'STATIC', 'ARCHIVE'), + 'shared_library': CMakeTargetType('add_library', 'SHARED', 'LIBRARY'), + 'loadable_module': CMakeTargetType('add_library', 'MODULE', 'LIBRARY'), + 'none': CMakeTargetType('add_custom_target', 'SOURCES', None), +} + + +def StringToCMakeTargetName(a): + """Converts the given string 'a' to a valid CMake target name. + + All invalid characters are replaced by '_'. + Invalid for cmake: ' ', '/', '(', ')' + Invalid for make: ':' + Invalid for unknown reasons but cause failures: '.' + """ + return a.translate(string.maketrans(' /():.', '______')) + + +def WriteActions(target_name, actions, extra_sources, extra_deps, + path_to_gyp, output): + """Write CMake for the 'actions' in the target. + + Args: + target_name: the name of the CMake target being generated. + actions: the Gyp 'actions' dict for this target. + extra_sources: [(<cmake_src>, <src>)] to append with generated source files. + extra_deps: [<cmake_taget>] to append with generated targets. + path_to_gyp: relative path from CMakeLists.txt being generated to + the Gyp file in which the target being generated is defined. + """ + for action in actions: + action_name = StringToCMakeTargetName(action['action_name']) + action_target_name = '%s__%s' % (target_name, action_name) + + inputs = action['inputs'] + inputs_name = action_target_name + '__input' + SetVariableList(output, inputs_name, + [NormjoinPathForceCMakeSource(path_to_gyp, dep) for dep in inputs]) + + outputs = action['outputs'] + cmake_outputs = [NormjoinPathForceCMakeSource(path_to_gyp, out) + for out in outputs] + outputs_name = action_target_name + '__output' + SetVariableList(output, outputs_name, cmake_outputs) + + # Build up a list of outputs. + # Collect the output dirs we'll need. + dirs = set(dir for dir in (os.path.dirname(o) for o in outputs) if dir) + + if int(action.get('process_outputs_as_sources', False)): + extra_sources.extend(zip(cmake_outputs, outputs)) + + # add_custom_command + output.write('add_custom_command(OUTPUT ') + WriteVariable(output, outputs_name) + output.write('\n') + + if len(dirs) > 0: + for directory in dirs: + output.write(' COMMAND ${CMAKE_COMMAND} -E make_directory ') + output.write(directory) + output.write('\n') + + output.write(' COMMAND ') + output.write(gyp.common.EncodePOSIXShellList(action['action'])) + output.write('\n') + + output.write(' DEPENDS ') + WriteVariable(output, inputs_name) + output.write('\n') + + output.write(' WORKING_DIRECTORY ${CMAKE_SOURCE_DIR}/') + output.write(path_to_gyp) + output.write('\n') + + output.write(' COMMENT ') + if 'message' in action: + output.write(action['message']) + else: + output.write(action_target_name) + output.write('\n') + + output.write(' VERBATIM\n') + output.write(')\n') + + # add_custom_target + output.write('add_custom_target(') + output.write(action_target_name) + output.write('\n DEPENDS ') + WriteVariable(output, outputs_name) + output.write('\n SOURCES ') + WriteVariable(output, inputs_name) + output.write('\n)\n') + + extra_deps.append(action_target_name) + + +def NormjoinRulePathForceCMakeSource(base_path, rel_path, rule_source): + if rel_path.startswith(("${RULE_INPUT_PATH}","${RULE_INPUT_DIRNAME}")): + if any([rule_source.startswith(var) for var in FULL_PATH_VARS]): + return rel_path + return NormjoinPathForceCMakeSource(base_path, rel_path) + + +def WriteRules(target_name, rules, extra_sources, extra_deps, + path_to_gyp, output): + """Write CMake for the 'rules' in the target. + + Args: + target_name: the name of the CMake target being generated. + actions: the Gyp 'actions' dict for this target. + extra_sources: [(<cmake_src>, <src>)] to append with generated source files. + extra_deps: [<cmake_taget>] to append with generated targets. + path_to_gyp: relative path from CMakeLists.txt being generated to + the Gyp file in which the target being generated is defined. + """ + for rule in rules: + rule_name = StringToCMakeTargetName(target_name + '__' + rule['rule_name']) + + inputs = rule.get('inputs', []) + inputs_name = rule_name + '__input' + SetVariableList(output, inputs_name, + [NormjoinPathForceCMakeSource(path_to_gyp, dep) for dep in inputs]) + outputs = rule['outputs'] + var_outputs = [] + + for count, rule_source in enumerate(rule.get('rule_sources', [])): + action_name = rule_name + '_' + str(count) + + rule_source_dirname, rule_source_basename = os.path.split(rule_source) + rule_source_root, rule_source_ext = os.path.splitext(rule_source_basename) + + SetVariable(output, 'RULE_INPUT_PATH', rule_source) + SetVariable(output, 'RULE_INPUT_DIRNAME', rule_source_dirname) + SetVariable(output, 'RULE_INPUT_NAME', rule_source_basename) + SetVariable(output, 'RULE_INPUT_ROOT', rule_source_root) + SetVariable(output, 'RULE_INPUT_EXT', rule_source_ext) + + # Build up a list of outputs. + # Collect the output dirs we'll need. + dirs = set(dir for dir in (os.path.dirname(o) for o in outputs) if dir) + + # Create variables for the output, as 'local' variable will be unset. + these_outputs = [] + for output_index, out in enumerate(outputs): + output_name = action_name + '_' + str(output_index) + SetVariable(output, output_name, + NormjoinRulePathForceCMakeSource(path_to_gyp, out, + rule_source)) + if int(rule.get('process_outputs_as_sources', False)): + extra_sources.append(('${' + output_name + '}', out)) + these_outputs.append('${' + output_name + '}') + var_outputs.append('${' + output_name + '}') + + # add_custom_command + output.write('add_custom_command(OUTPUT\n') + for out in these_outputs: + output.write(' ') + output.write(out) + output.write('\n') + + for directory in dirs: + output.write(' COMMAND ${CMAKE_COMMAND} -E make_directory ') + output.write(directory) + output.write('\n') + + output.write(' COMMAND ') + output.write(gyp.common.EncodePOSIXShellList(rule['action'])) + output.write('\n') + + output.write(' DEPENDS ') + WriteVariable(output, inputs_name) + output.write(' ') + output.write(NormjoinPath(path_to_gyp, rule_source)) + output.write('\n') + + # CMAKE_SOURCE_DIR is where the CMakeLists.txt lives. + # The cwd is the current build directory. + output.write(' WORKING_DIRECTORY ${CMAKE_SOURCE_DIR}/') + output.write(path_to_gyp) + output.write('\n') + + output.write(' COMMENT ') + if 'message' in rule: + output.write(rule['message']) + else: + output.write(action_name) + output.write('\n') + + output.write(' VERBATIM\n') + output.write(')\n') + + UnsetVariable(output, 'RULE_INPUT_PATH') + UnsetVariable(output, 'RULE_INPUT_DIRNAME') + UnsetVariable(output, 'RULE_INPUT_NAME') + UnsetVariable(output, 'RULE_INPUT_ROOT') + UnsetVariable(output, 'RULE_INPUT_EXT') + + # add_custom_target + output.write('add_custom_target(') + output.write(rule_name) + output.write(' DEPENDS\n') + for out in var_outputs: + output.write(' ') + output.write(out) + output.write('\n') + output.write('SOURCES ') + WriteVariable(output, inputs_name) + output.write('\n') + for rule_source in rule.get('rule_sources', []): + output.write(' ') + output.write(NormjoinPath(path_to_gyp, rule_source)) + output.write('\n') + output.write(')\n') + + extra_deps.append(rule_name) + + +def WriteCopies(target_name, copies, extra_deps, path_to_gyp, output): + """Write CMake for the 'copies' in the target. + + Args: + target_name: the name of the CMake target being generated. + actions: the Gyp 'actions' dict for this target. + extra_deps: [<cmake_taget>] to append with generated targets. + path_to_gyp: relative path from CMakeLists.txt being generated to + the Gyp file in which the target being generated is defined. + """ + copy_name = target_name + '__copies' + + # CMake gets upset with custom targets with OUTPUT which specify no output. + have_copies = any(copy['files'] for copy in copies) + if not have_copies: + output.write('add_custom_target(') + output.write(copy_name) + output.write(')\n') + extra_deps.append(copy_name) + return + + class Copy: + def __init__(self, ext, command): + self.cmake_inputs = [] + self.cmake_outputs = [] + self.gyp_inputs = [] + self.gyp_outputs = [] + self.ext = ext + self.inputs_name = None + self.outputs_name = None + self.command = command + + file_copy = Copy('', 'copy') + dir_copy = Copy('_dirs', 'copy_directory') + + for copy in copies: + files = copy['files'] + destination = copy['destination'] + for src in files: + path = os.path.normpath(src) + basename = os.path.split(path)[1] + dst = os.path.join(destination, basename) + + copy = file_copy if os.path.basename(src) else dir_copy + + copy.cmake_inputs.append(NormjoinPath(path_to_gyp, src)) + copy.cmake_outputs.append(NormjoinPathForceCMakeSource(path_to_gyp, dst)) + copy.gyp_inputs.append(src) + copy.gyp_outputs.append(dst) + + for copy in (file_copy, dir_copy): + if copy.cmake_inputs: + copy.inputs_name = copy_name + '__input' + copy.ext + SetVariableList(output, copy.inputs_name, copy.cmake_inputs) + + copy.outputs_name = copy_name + '__output' + copy.ext + SetVariableList(output, copy.outputs_name, copy.cmake_outputs) + + # add_custom_command + output.write('add_custom_command(\n') + + output.write('OUTPUT') + for copy in (file_copy, dir_copy): + if copy.outputs_name: + WriteVariable(output, copy.outputs_name, ' ') + output.write('\n') + + for copy in (file_copy, dir_copy): + for src, dst in zip(copy.gyp_inputs, copy.gyp_outputs): + # 'cmake -E copy src dst' will create the 'dst' directory if needed. + output.write('COMMAND ${CMAKE_COMMAND} -E %s ' % copy.command) + output.write(src) + output.write(' ') + output.write(dst) + output.write("\n") + + output.write('DEPENDS') + for copy in (file_copy, dir_copy): + if copy.inputs_name: + WriteVariable(output, copy.inputs_name, ' ') + output.write('\n') + + output.write('WORKING_DIRECTORY ${CMAKE_SOURCE_DIR}/') + output.write(path_to_gyp) + output.write('\n') + + output.write('COMMENT Copying for ') + output.write(target_name) + output.write('\n') + + output.write('VERBATIM\n') + output.write(')\n') + + # add_custom_target + output.write('add_custom_target(') + output.write(copy_name) + output.write('\n DEPENDS') + for copy in (file_copy, dir_copy): + if copy.outputs_name: + WriteVariable(output, copy.outputs_name, ' ') + output.write('\n SOURCES') + if file_copy.inputs_name: + WriteVariable(output, file_copy.inputs_name, ' ') + output.write('\n)\n') + + extra_deps.append(copy_name) + + +def CreateCMakeTargetBaseName(qualified_target): + """This is the name we would like the target to have.""" + _, gyp_target_name, gyp_target_toolset = ( + gyp.common.ParseQualifiedTarget(qualified_target)) + cmake_target_base_name = gyp_target_name + if gyp_target_toolset and gyp_target_toolset != 'target': + cmake_target_base_name += '_' + gyp_target_toolset + return StringToCMakeTargetName(cmake_target_base_name) + + +def CreateCMakeTargetFullName(qualified_target): + """An unambiguous name for the target.""" + gyp_file, gyp_target_name, gyp_target_toolset = ( + gyp.common.ParseQualifiedTarget(qualified_target)) + cmake_target_full_name = gyp_file + ':' + gyp_target_name + if gyp_target_toolset and gyp_target_toolset != 'target': + cmake_target_full_name += '_' + gyp_target_toolset + return StringToCMakeTargetName(cmake_target_full_name) + + +class CMakeNamer(object): + """Converts Gyp target names into CMake target names. + + CMake requires that target names be globally unique. One way to ensure + this is to fully qualify the names of the targets. Unfortunatly, this + ends up with all targets looking like "chrome_chrome_gyp_chrome" instead + of just "chrome". If this generator were only interested in building, it + would be possible to fully qualify all target names, then create + unqualified target names which depend on all qualified targets which + should have had that name. This is more or less what the 'make' generator + does with aliases. However, one goal of this generator is to create CMake + files for use with IDEs, and fully qualified names are not as user + friendly. + + Since target name collision is rare, we do the above only when required. + + Toolset variants are always qualified from the base, as this is required for + building. However, it also makes sense for an IDE, as it is possible for + defines to be different. + """ + def __init__(self, target_list): + self.cmake_target_base_names_conficting = set() + + cmake_target_base_names_seen = set() + for qualified_target in target_list: + cmake_target_base_name = CreateCMakeTargetBaseName(qualified_target) + + if cmake_target_base_name not in cmake_target_base_names_seen: + cmake_target_base_names_seen.add(cmake_target_base_name) + else: + self.cmake_target_base_names_conficting.add(cmake_target_base_name) + + def CreateCMakeTargetName(self, qualified_target): + base_name = CreateCMakeTargetBaseName(qualified_target) + if base_name in self.cmake_target_base_names_conficting: + return CreateCMakeTargetFullName(qualified_target) + return base_name + + +def WriteTarget(namer, qualified_target, target_dicts, build_dir, config_to_use, + options, generator_flags, all_qualified_targets, output): + + # The make generator does this always. + # TODO: It would be nice to be able to tell CMake all dependencies. + circular_libs = generator_flags.get('circular', True) + + if not generator_flags.get('standalone', False): + output.write('\n#') + output.write(qualified_target) + output.write('\n') + + gyp_file, _, _ = gyp.common.ParseQualifiedTarget(qualified_target) + rel_gyp_file = gyp.common.RelativePath(gyp_file, options.toplevel_dir) + rel_gyp_dir = os.path.dirname(rel_gyp_file) + + # Relative path from build dir to top dir. + build_to_top = gyp.common.InvertRelativePath(build_dir, options.toplevel_dir) + # Relative path from build dir to gyp dir. + build_to_gyp = os.path.join(build_to_top, rel_gyp_dir) + + path_from_cmakelists_to_gyp = build_to_gyp + + spec = target_dicts.get(qualified_target, {}) + config = spec.get('configurations', {}).get(config_to_use, {}) + + target_name = spec.get('target_name', '<missing target name>') + target_type = spec.get('type', '<missing target type>') + target_toolset = spec.get('toolset') + + SetVariable(output, 'TARGET', target_name) + SetVariable(output, 'TOOLSET', target_toolset) + + cmake_target_name = namer.CreateCMakeTargetName(qualified_target) + + extra_sources = [] + extra_deps = [] + + # Actions must come first, since they can generate more OBJs for use below. + if 'actions' in spec: + WriteActions(cmake_target_name, spec['actions'], extra_sources, extra_deps, + path_from_cmakelists_to_gyp, output) + + # Rules must be early like actions. + if 'rules' in spec: + WriteRules(cmake_target_name, spec['rules'], extra_sources, extra_deps, + path_from_cmakelists_to_gyp, output) + + # Copies + if 'copies' in spec: + WriteCopies(cmake_target_name, spec['copies'], extra_deps, + path_from_cmakelists_to_gyp, output) + + # Target and sources + srcs = spec.get('sources', []) + + # Gyp separates the sheep from the goats based on file extensions. + def partition(l, p): + return reduce(lambda x, e: x[not p(e)].append(e) or x, l, ([], [])) + compilable_srcs, other_srcs = partition(srcs, Compilable) + + # CMake gets upset when executable targets provide no sources. + if target_type == 'executable' and not compilable_srcs and not extra_sources: + print ('Executable %s has no complilable sources, treating as "none".' % + target_name ) + target_type = 'none' + + cmake_target_type = cmake_target_type_from_gyp_target_type.get(target_type) + if cmake_target_type is None: + print ('Target %s has unknown target type %s, skipping.' % + ( target_name, target_type ) ) + return + + other_srcs_name = None + if other_srcs: + other_srcs_name = cmake_target_name + '__other_srcs' + SetVariableList(output, other_srcs_name, + [NormjoinPath(path_from_cmakelists_to_gyp, src) for src in other_srcs]) + + # CMake is opposed to setting linker directories and considers the practice + # of setting linker directories dangerous. Instead, it favors the use of + # find_library and passing absolute paths to target_link_libraries. + # However, CMake does provide the command link_directories, which adds + # link directories to targets defined after it is called. + # As a result, link_directories must come before the target definition. + # CMake unfortunately has no means of removing entries from LINK_DIRECTORIES. + library_dirs = config.get('library_dirs') + if library_dirs is not None: + output.write('link_directories(') + for library_dir in library_dirs: + output.write(' ') + output.write(NormjoinPath(path_from_cmakelists_to_gyp, library_dir)) + output.write('\n') + output.write(')\n') + + output.write(cmake_target_type.command) + output.write('(') + output.write(cmake_target_name) + + if cmake_target_type.modifier is not None: + output.write(' ') + output.write(cmake_target_type.modifier) + + if other_srcs_name: + WriteVariable(output, other_srcs_name, ' ') + + output.write('\n') + + for src in compilable_srcs: + output.write(' ') + output.write(NormjoinPath(path_from_cmakelists_to_gyp, src)) + output.write('\n') + for extra_source in extra_sources: + output.write(' ') + src, _ = extra_source + output.write(NormjoinPath(path_from_cmakelists_to_gyp, src)) + output.write('\n') + + output.write(')\n') + + # Output name and location. + if target_type != 'none': + # Mark uncompiled sources as uncompiled. + if other_srcs_name: + output.write('set_source_files_properties(') + WriteVariable(output, other_srcs_name, '') + output.write(' PROPERTIES HEADER_FILE_ONLY "TRUE")\n') + + # Output directory + target_output_directory = spec.get('product_dir') + if target_output_directory is None: + if target_type in ('executable', 'loadable_module'): + target_output_directory = generator_default_variables['PRODUCT_DIR'] + elif target_type in ('shared_library'): + target_output_directory = '${builddir}/lib.${TOOLSET}' + elif spec.get('standalone_static_library', False): + target_output_directory = generator_default_variables['PRODUCT_DIR'] + else: + base_path = gyp.common.RelativePath(os.path.dirname(gyp_file), + options.toplevel_dir) + target_output_directory = '${obj}.${TOOLSET}' + target_output_directory = ( + os.path.join(target_output_directory, base_path)) + + cmake_target_output_directory = NormjoinPathForceCMakeSource( + path_from_cmakelists_to_gyp, + target_output_directory) + SetTargetProperty(output, + cmake_target_name, + cmake_target_type.property_modifier + '_OUTPUT_DIRECTORY', + cmake_target_output_directory) + + # Output name + default_product_prefix = '' + default_product_name = target_name + default_product_ext = '' + if target_type == 'static_library': + static_library_prefix = generator_default_variables['STATIC_LIB_PREFIX'] + default_product_name = RemovePrefix(default_product_name, + static_library_prefix) + default_product_prefix = static_library_prefix + default_product_ext = generator_default_variables['STATIC_LIB_SUFFIX'] + + elif target_type in ('loadable_module', 'shared_library'): + shared_library_prefix = generator_default_variables['SHARED_LIB_PREFIX'] + default_product_name = RemovePrefix(default_product_name, + shared_library_prefix) + default_product_prefix = shared_library_prefix + default_product_ext = generator_default_variables['SHARED_LIB_SUFFIX'] + + elif target_type != 'executable': + print ('ERROR: What output file should be generated?', + 'type', target_type, 'target', target_name) + + product_prefix = spec.get('product_prefix', default_product_prefix) + product_name = spec.get('product_name', default_product_name) + product_ext = spec.get('product_extension') + if product_ext: + product_ext = '.' + product_ext + else: + product_ext = default_product_ext + + SetTargetProperty(output, cmake_target_name, 'PREFIX', product_prefix) + SetTargetProperty(output, cmake_target_name, + cmake_target_type.property_modifier + '_OUTPUT_NAME', + product_name) + SetTargetProperty(output, cmake_target_name, 'SUFFIX', product_ext) + + # Make the output of this target referenceable as a source. + cmake_target_output_basename = product_prefix + product_name + product_ext + cmake_target_output = os.path.join(cmake_target_output_directory, + cmake_target_output_basename) + SetFileProperty(output, cmake_target_output, 'GENERATED', ['TRUE'], '') + + # Let CMake know if the 'all' target should depend on this target. + exclude_from_all = ('TRUE' if qualified_target not in all_qualified_targets + else 'FALSE') + SetTargetProperty(output, cmake_target_name, + 'EXCLUDE_FROM_ALL', exclude_from_all) + for extra_target_name in extra_deps: + SetTargetProperty(output, extra_target_name, + 'EXCLUDE_FROM_ALL', exclude_from_all) + + # Includes + includes = config.get('include_dirs') + if includes: + # This (target include directories) is what requires CMake 2.8.8 + includes_name = cmake_target_name + '__include_dirs' + SetVariableList(output, includes_name, + [NormjoinPathForceCMakeSource(path_from_cmakelists_to_gyp, include) + for include in includes]) + output.write('set_property(TARGET ') + output.write(cmake_target_name) + output.write(' APPEND PROPERTY INCLUDE_DIRECTORIES ') + WriteVariable(output, includes_name, '') + output.write(')\n') + + # Defines + defines = config.get('defines') + if defines is not None: + SetTargetProperty(output, + cmake_target_name, + 'COMPILE_DEFINITIONS', + defines, + ';') + + # Compile Flags - http://www.cmake.org/Bug/view.php?id=6493 + # CMake currently does not have target C and CXX flags. + # So, instead of doing... + + # cflags_c = config.get('cflags_c') + # if cflags_c is not None: + # SetTargetProperty(output, cmake_target_name, + # 'C_COMPILE_FLAGS', cflags_c, ' ') + + # cflags_cc = config.get('cflags_cc') + # if cflags_cc is not None: + # SetTargetProperty(output, cmake_target_name, + # 'CXX_COMPILE_FLAGS', cflags_cc, ' ') + + # Instead we must... + s_sources = [] + c_sources = [] + cxx_sources = [] + for src in srcs: + _, ext = os.path.splitext(src) + src_type = COMPILABLE_EXTENSIONS.get(ext, None) + + if src_type == 's': + s_sources.append(NormjoinPath(path_from_cmakelists_to_gyp, src)) + + if src_type == 'cc': + c_sources.append(NormjoinPath(path_from_cmakelists_to_gyp, src)) + + if src_type == 'cxx': + cxx_sources.append(NormjoinPath(path_from_cmakelists_to_gyp, src)) + + for extra_source in extra_sources: + src, real_source = extra_source + _, ext = os.path.splitext(real_source) + src_type = COMPILABLE_EXTENSIONS.get(ext, None) + + if src_type == 's': + s_sources.append(NormjoinPath(path_from_cmakelists_to_gyp, src)) + + if src_type == 'cc': + c_sources.append(NormjoinPath(path_from_cmakelists_to_gyp, src)) + + if src_type == 'cxx': + cxx_sources.append(NormjoinPath(path_from_cmakelists_to_gyp, src)) + + cflags = config.get('cflags', []) + cflags_c = config.get('cflags_c', []) + cflags_cxx = config.get('cflags_cc', []) + if c_sources and not (s_sources or cxx_sources): + flags = [] + flags.extend(cflags) + flags.extend(cflags_c) + SetTargetProperty(output, cmake_target_name, 'COMPILE_FLAGS', flags, ' ') + + elif cxx_sources and not (s_sources or c_sources): + flags = [] + flags.extend(cflags) + flags.extend(cflags_cxx) + SetTargetProperty(output, cmake_target_name, 'COMPILE_FLAGS', flags, ' ') + + else: + if s_sources and cflags: + SetFilesProperty(output, s_sources, 'COMPILE_FLAGS', cflags, ' ') + + if c_sources and (cflags or cflags_c): + flags = [] + flags.extend(cflags) + flags.extend(cflags_c) + SetFilesProperty(output, c_sources, 'COMPILE_FLAGS', flags, ' ') + + if cxx_sources and (cflags or cflags_cxx): + flags = [] + flags.extend(cflags) + flags.extend(cflags_cxx) + SetFilesProperty(output, cxx_sources, 'COMPILE_FLAGS', flags, ' ') + + # Have assembly link as c if there are no other files + if not c_sources and not cxx_sources and s_sources: + SetTargetProperty(output, cmake_target_name, 'LINKER_LANGUAGE', ['C']) + + # Linker flags + ldflags = config.get('ldflags') + if ldflags is not None: + SetTargetProperty(output, cmake_target_name, 'LINK_FLAGS', ldflags, ' ') + + # Note on Dependencies and Libraries: + # CMake wants to handle link order, resolving the link line up front. + # Gyp does not retain or enforce specifying enough information to do so. + # So do as other gyp generators and use --start-group and --end-group. + # Give CMake as little information as possible so that it doesn't mess it up. + + # Dependencies + rawDeps = spec.get('dependencies', []) + + static_deps = [] + shared_deps = [] + other_deps = [] + for rawDep in rawDeps: + dep_cmake_name = namer.CreateCMakeTargetName(rawDep) + dep_spec = target_dicts.get(rawDep, {}) + dep_target_type = dep_spec.get('type', None) + + if dep_target_type == 'static_library': + static_deps.append(dep_cmake_name) + elif dep_target_type == 'shared_library': + shared_deps.append(dep_cmake_name) + else: + other_deps.append(dep_cmake_name) + + # ensure all external dependencies are complete before internal dependencies + # extra_deps currently only depend on their own deps, so otherwise run early + if static_deps or shared_deps or other_deps: + for extra_dep in extra_deps: + output.write('add_dependencies(') + output.write(extra_dep) + output.write('\n') + for deps in (static_deps, shared_deps, other_deps): + for dep in gyp.common.uniquer(deps): + output.write(' ') + output.write(dep) + output.write('\n') + output.write(')\n') + + linkable = target_type in ('executable', 'loadable_module', 'shared_library') + other_deps.extend(extra_deps) + if other_deps or (not linkable and (static_deps or shared_deps)): + output.write('add_dependencies(') + output.write(cmake_target_name) + output.write('\n') + for dep in gyp.common.uniquer(other_deps): + output.write(' ') + output.write(dep) + output.write('\n') + if not linkable: + for deps in (static_deps, shared_deps): + for lib_dep in gyp.common.uniquer(deps): + output.write(' ') + output.write(lib_dep) + output.write('\n') + output.write(')\n') + + # Libraries + if linkable: + external_libs = [lib for lib in spec.get('libraries', []) if len(lib) > 0] + if external_libs or static_deps or shared_deps: + output.write('target_link_libraries(') + output.write(cmake_target_name) + output.write('\n') + if static_deps: + write_group = circular_libs and len(static_deps) > 1 + if write_group: + output.write('-Wl,--start-group\n') + for dep in gyp.common.uniquer(static_deps): + output.write(' ') + output.write(dep) + output.write('\n') + if write_group: + output.write('-Wl,--end-group\n') + if shared_deps: + for dep in gyp.common.uniquer(shared_deps): + output.write(' ') + output.write(dep) + output.write('\n') + if external_libs: + for lib in gyp.common.uniquer(external_libs): + output.write(' ') + output.write(lib) + output.write('\n') + + output.write(')\n') + + UnsetVariable(output, 'TOOLSET') + UnsetVariable(output, 'TARGET') + + +def GenerateOutputForConfig(target_list, target_dicts, data, + params, config_to_use): + options = params['options'] + generator_flags = params['generator_flags'] + + # generator_dir: relative path from pwd to where make puts build files. + # Makes migrating from make to cmake easier, cmake doesn't put anything here. + # Each Gyp configuration creates a different CMakeLists.txt file + # to avoid incompatibilities between Gyp and CMake configurations. + generator_dir = os.path.relpath(options.generator_output or '.') + + # output_dir: relative path from generator_dir to the build directory. + output_dir = generator_flags.get('output_dir', 'out') + + # build_dir: relative path from source root to our output files. + # e.g. "out/Debug" + build_dir = os.path.normpath(os.path.join(generator_dir, + output_dir, + config_to_use)) + + toplevel_build = os.path.join(options.toplevel_dir, build_dir) + + output_file = os.path.join(toplevel_build, 'CMakeLists.txt') + gyp.common.EnsureDirExists(output_file) + + output = open(output_file, 'w') + output.write('cmake_minimum_required(VERSION 2.8.8 FATAL_ERROR)\n') + output.write('cmake_policy(VERSION 2.8.8)\n') + + _, project_target, _ = gyp.common.ParseQualifiedTarget(target_list[-1]) + output.write('project(') + output.write(project_target) + output.write(')\n') + + SetVariable(output, 'configuration', config_to_use) + + # The following appears to be as-yet undocumented. + # http://public.kitware.com/Bug/view.php?id=8392 + output.write('enable_language(ASM)\n') + # ASM-ATT does not support .S files. + # output.write('enable_language(ASM-ATT)\n') + + SetVariable(output, 'builddir', '${CMAKE_BINARY_DIR}') + SetVariable(output, 'obj', '${builddir}/obj') + output.write('\n') + + # TODO: Undocumented/unsupported (the CMake Java generator depends on it). + # CMake by default names the object resulting from foo.c to be foo.c.o. + # Gyp traditionally names the object resulting from foo.c foo.o. + # This should be irrelevant, but some targets extract .o files from .a + # and depend on the name of the extracted .o files. + output.write('set(CMAKE_C_OUTPUT_EXTENSION_REPLACE 1)\n') + output.write('set(CMAKE_CXX_OUTPUT_EXTENSION_REPLACE 1)\n') + output.write('\n') + + namer = CMakeNamer(target_list) + + # The list of targets upon which the 'all' target should depend. + # CMake has it's own implicit 'all' target, one is not created explicitly. + all_qualified_targets = set() + for build_file in params['build_files']: + for qualified_target in gyp.common.AllTargets(target_list, + target_dicts, + os.path.normpath(build_file)): + all_qualified_targets.add(qualified_target) + + for qualified_target in target_list: + WriteTarget(namer, qualified_target, target_dicts, build_dir, config_to_use, + options, generator_flags, all_qualified_targets, output) + + output.close() + + +def PerformBuild(data, configurations, params): + options = params['options'] + generator_flags = params['generator_flags'] + + # generator_dir: relative path from pwd to where make puts build files. + # Makes migrating from make to cmake easier, cmake doesn't put anything here. + generator_dir = os.path.relpath(options.generator_output or '.') + + # output_dir: relative path from generator_dir to the build directory. + output_dir = generator_flags.get('output_dir', 'out') + + for config_name in configurations: + # build_dir: relative path from source root to our output files. + # e.g. "out/Debug" + build_dir = os.path.normpath(os.path.join(generator_dir, + output_dir, + config_name)) + arguments = ['cmake', '-G', 'Ninja'] + print 'Generating [%s]: %s' % (config_name, arguments) + subprocess.check_call(arguments, cwd=build_dir) + + arguments = ['ninja', '-C', build_dir] + print 'Building [%s]: %s' % (config_name, arguments) + subprocess.check_call(arguments) + + +def CallGenerateOutputForConfig(arglist): + # Ignore the interrupt signal so that the parent process catches it and + # kills all multiprocessing children. + signal.signal(signal.SIGINT, signal.SIG_IGN) + + target_list, target_dicts, data, params, config_name = arglist + GenerateOutputForConfig(target_list, target_dicts, data, params, config_name) + + +def GenerateOutput(target_list, target_dicts, data, params): + user_config = params.get('generator_flags', {}).get('config', None) + if user_config: + GenerateOutputForConfig(target_list, target_dicts, data, + params, user_config) + else: + config_names = target_dicts[target_list[0]]['configurations'].keys() + if params['parallel']: + try: + pool = multiprocessing.Pool(len(config_names)) + arglists = [] + for config_name in config_names: + arglists.append((target_list, target_dicts, data, + params, config_name)) + pool.map(CallGenerateOutputForConfig, arglists) + except KeyboardInterrupt, e: + pool.terminate() + raise e + else: + for config_name in config_names: + GenerateOutputForConfig(target_list, target_dicts, data, + params, config_name) diff --git a/deps/gyp/pylib/gyp/generator/dump_dependency_json.py b/deps/gyp/pylib/gyp/generator/dump_dependency_json.py new file mode 100644 index 0000000000..927ba6ebad --- /dev/null +++ b/deps/gyp/pylib/gyp/generator/dump_dependency_json.py @@ -0,0 +1,81 @@ +# Copyright (c) 2012 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +import collections +import os +import gyp +import gyp.common +import gyp.msvs_emulation +import json +import sys + +generator_supports_multiple_toolsets = True + +generator_wants_static_library_dependencies_adjusted = False + +generator_default_variables = { +} +for dirname in ['INTERMEDIATE_DIR', 'SHARED_INTERMEDIATE_DIR', 'PRODUCT_DIR', + 'LIB_DIR', 'SHARED_LIB_DIR']: + # Some gyp steps fail if these are empty(!). + generator_default_variables[dirname] = 'dir' +for unused in ['RULE_INPUT_PATH', 'RULE_INPUT_ROOT', 'RULE_INPUT_NAME', + 'RULE_INPUT_DIRNAME', 'RULE_INPUT_EXT', + 'EXECUTABLE_PREFIX', 'EXECUTABLE_SUFFIX', + 'STATIC_LIB_PREFIX', 'STATIC_LIB_SUFFIX', + 'SHARED_LIB_PREFIX', 'SHARED_LIB_SUFFIX', + 'CONFIGURATION_NAME']: + generator_default_variables[unused] = '' + + +def CalculateVariables(default_variables, params): + generator_flags = params.get('generator_flags', {}) + for key, val in generator_flags.items(): + default_variables.setdefault(key, val) + default_variables.setdefault('OS', gyp.common.GetFlavor(params)) + + flavor = gyp.common.GetFlavor(params) + if flavor =='win': + # Copy additional generator configuration data from VS, which is shared + # by the Windows Ninja generator. + import gyp.generator.msvs as msvs_generator + generator_additional_non_configuration_keys = getattr(msvs_generator, + 'generator_additional_non_configuration_keys', []) + generator_additional_path_sections = getattr(msvs_generator, + 'generator_additional_path_sections', []) + + gyp.msvs_emulation.CalculateCommonVariables(default_variables, params) + + +def CalculateGeneratorInputInfo(params): + """Calculate the generator specific info that gets fed to input (called by + gyp).""" + generator_flags = params.get('generator_flags', {}) + if generator_flags.get('adjust_static_libraries', False): + global generator_wants_static_library_dependencies_adjusted + generator_wants_static_library_dependencies_adjusted = True + + +def GenerateOutput(target_list, target_dicts, data, params): + # Map of target -> list of targets it depends on. + edges = {} + + # Queue of targets to visit. + targets_to_visit = target_list[:] + + while len(targets_to_visit) > 0: + target = targets_to_visit.pop() + if target in edges: + continue + edges[target] = [] + + for dep in target_dicts[target].get('dependencies', []): + edges[target].append(dep) + targets_to_visit.append(dep) + + filename = 'dump.json' + f = open(filename, 'w') + json.dump(edges, f) + f.close() + print 'Wrote json to %s.' % filename diff --git a/deps/gyp/pylib/gyp/generator/eclipse.py b/deps/gyp/pylib/gyp/generator/eclipse.py new file mode 100644 index 0000000000..8d08f57eaa --- /dev/null +++ b/deps/gyp/pylib/gyp/generator/eclipse.py @@ -0,0 +1,335 @@ +# Copyright (c) 2012 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +"""GYP backend that generates Eclipse CDT settings files. + +This backend DOES NOT generate Eclipse CDT projects. Instead, it generates XML +files that can be imported into an Eclipse CDT project. The XML file contains a +list of include paths and symbols (i.e. defines). + +Because a full .cproject definition is not created by this generator, it's not +possible to properly define the include dirs and symbols for each file +individually. Instead, one set of includes/symbols is generated for the entire +project. This works fairly well (and is a vast improvement in general), but may +still result in a few indexer issues here and there. + +This generator has no automated tests, so expect it to be broken. +""" + +from xml.sax.saxutils import escape +import os.path +import subprocess +import gyp +import gyp.common +import gyp.msvs_emulation +import shlex + +generator_wants_static_library_dependencies_adjusted = False + +generator_default_variables = { +} + +for dirname in ['INTERMEDIATE_DIR', 'PRODUCT_DIR', 'LIB_DIR', 'SHARED_LIB_DIR']: + # Some gyp steps fail if these are empty(!). + generator_default_variables[dirname] = 'dir' + +for unused in ['RULE_INPUT_PATH', 'RULE_INPUT_ROOT', 'RULE_INPUT_NAME', + 'RULE_INPUT_DIRNAME', 'RULE_INPUT_EXT', + 'EXECUTABLE_PREFIX', 'EXECUTABLE_SUFFIX', + 'STATIC_LIB_PREFIX', 'STATIC_LIB_SUFFIX', + 'SHARED_LIB_PREFIX', 'SHARED_LIB_SUFFIX', + 'CONFIGURATION_NAME']: + generator_default_variables[unused] = '' + +# Include dirs will occasionally use the SHARED_INTERMEDIATE_DIR variable as +# part of the path when dealing with generated headers. This value will be +# replaced dynamically for each configuration. +generator_default_variables['SHARED_INTERMEDIATE_DIR'] = \ + '$SHARED_INTERMEDIATE_DIR' + + +def CalculateVariables(default_variables, params): + generator_flags = params.get('generator_flags', {}) + for key, val in generator_flags.items(): + default_variables.setdefault(key, val) + flavor = gyp.common.GetFlavor(params) + default_variables.setdefault('OS', flavor) + if flavor == 'win': + # Copy additional generator configuration data from VS, which is shared + # by the Eclipse generator. + import gyp.generator.msvs as msvs_generator + generator_additional_non_configuration_keys = getattr(msvs_generator, + 'generator_additional_non_configuration_keys', []) + generator_additional_path_sections = getattr(msvs_generator, + 'generator_additional_path_sections', []) + + gyp.msvs_emulation.CalculateCommonVariables(default_variables, params) + + +def CalculateGeneratorInputInfo(params): + """Calculate the generator specific info that gets fed to input (called by + gyp).""" + generator_flags = params.get('generator_flags', {}) + if generator_flags.get('adjust_static_libraries', False): + global generator_wants_static_library_dependencies_adjusted + generator_wants_static_library_dependencies_adjusted = True + + +def GetAllIncludeDirectories(target_list, target_dicts, + shared_intermediate_dirs, config_name, params, + compiler_path): + """Calculate the set of include directories to be used. + + Returns: + A list including all the include_dir's specified for every target followed + by any include directories that were added as cflag compiler options. + """ + + gyp_includes_set = set() + compiler_includes_list = [] + + # Find compiler's default include dirs. + if compiler_path: + command = shlex.split(compiler_path) + command.extend(['-E', '-xc++', '-v', '-']) + proc = subprocess.Popen(args=command, stdin=subprocess.PIPE, + stdout=subprocess.PIPE, stderr=subprocess.PIPE) + output = proc.communicate()[1] + # Extract the list of include dirs from the output, which has this format: + # ... + # #include "..." search starts here: + # #include <...> search starts here: + # /usr/include/c++/4.6 + # /usr/local/include + # End of search list. + # ... + in_include_list = False + for line in output.splitlines(): + if line.startswith('#include'): + in_include_list = True + continue + if line.startswith('End of search list.'): + break + if in_include_list: + include_dir = line.strip() + if include_dir not in compiler_includes_list: + compiler_includes_list.append(include_dir) + + flavor = gyp.common.GetFlavor(params) + if flavor == 'win': + generator_flags = params.get('generator_flags', {}) + for target_name in target_list: + target = target_dicts[target_name] + if config_name in target['configurations']: + config = target['configurations'][config_name] + + # Look for any include dirs that were explicitly added via cflags. This + # may be done in gyp files to force certain includes to come at the end. + # TODO(jgreenwald): Change the gyp files to not abuse cflags for this, and + # remove this. + if flavor == 'win': + msvs_settings = gyp.msvs_emulation.MsvsSettings(target, generator_flags) + cflags = msvs_settings.GetCflags(config_name) + else: + cflags = config['cflags'] + for cflag in cflags: + if cflag.startswith('-I'): + include_dir = cflag[2:] + if include_dir not in compiler_includes_list: + compiler_includes_list.append(include_dir) + + # Find standard gyp include dirs. + if config.has_key('include_dirs'): + include_dirs = config['include_dirs'] + for shared_intermediate_dir in shared_intermediate_dirs: + for include_dir in include_dirs: + include_dir = include_dir.replace('$SHARED_INTERMEDIATE_DIR', + shared_intermediate_dir) + if not os.path.isabs(include_dir): + base_dir = os.path.dirname(target_name) + + include_dir = base_dir + '/' + include_dir + include_dir = os.path.abspath(include_dir) + + gyp_includes_set.add(include_dir) + + # Generate a list that has all the include dirs. + all_includes_list = list(gyp_includes_set) + all_includes_list.sort() + for compiler_include in compiler_includes_list: + if not compiler_include in gyp_includes_set: + all_includes_list.append(compiler_include) + + # All done. + return all_includes_list + + +def GetCompilerPath(target_list, data): + """Determine a command that can be used to invoke the compiler. + + Returns: + If this is a gyp project that has explicit make settings, try to determine + the compiler from that. Otherwise, see if a compiler was specified via the + CC_target environment variable. + """ + + # First, see if the compiler is configured in make's settings. + build_file, _, _ = gyp.common.ParseQualifiedTarget(target_list[0]) + make_global_settings_dict = data[build_file].get('make_global_settings', {}) + for key, value in make_global_settings_dict: + if key in ['CC', 'CXX']: + return value + + # Check to see if the compiler was specified as an environment variable. + for key in ['CC_target', 'CC', 'CXX']: + compiler = os.environ.get(key) + if compiler: + return compiler + + return 'gcc' + + +def GetAllDefines(target_list, target_dicts, data, config_name, params, + compiler_path): + """Calculate the defines for a project. + + Returns: + A dict that includes explict defines declared in gyp files along with all of + the default defines that the compiler uses. + """ + + # Get defines declared in the gyp files. + all_defines = {} + flavor = gyp.common.GetFlavor(params) + if flavor == 'win': + generator_flags = params.get('generator_flags', {}) + for target_name in target_list: + target = target_dicts[target_name] + + if flavor == 'win': + msvs_settings = gyp.msvs_emulation.MsvsSettings(target, generator_flags) + extra_defines = msvs_settings.GetComputedDefines(config_name) + else: + extra_defines = [] + if config_name in target['configurations']: + config = target['configurations'][config_name] + target_defines = config['defines'] + else: + target_defines = [] + for define in target_defines + extra_defines: + split_define = define.split('=', 1) + if len(split_define) == 1: + split_define.append('1') + if split_define[0].strip() in all_defines: + # Already defined + continue + all_defines[split_define[0].strip()] = split_define[1].strip() + # Get default compiler defines (if possible). + if flavor == 'win': + return all_defines # Default defines already processed in the loop above. + if compiler_path: + command = shlex.split(compiler_path) + command.extend(['-E', '-dM', '-']) + cpp_proc = subprocess.Popen(args=command, cwd='.', + stdin=subprocess.PIPE, stdout=subprocess.PIPE) + cpp_output = cpp_proc.communicate()[0] + cpp_lines = cpp_output.split('\n') + for cpp_line in cpp_lines: + if not cpp_line.strip(): + continue + cpp_line_parts = cpp_line.split(' ', 2) + key = cpp_line_parts[1] + if len(cpp_line_parts) >= 3: + val = cpp_line_parts[2] + else: + val = '1' + all_defines[key] = val + + return all_defines + + +def WriteIncludePaths(out, eclipse_langs, include_dirs): + """Write the includes section of a CDT settings export file.""" + + out.write(' <section name="org.eclipse.cdt.internal.ui.wizards.' \ + 'settingswizards.IncludePaths">\n') + out.write(' <language name="holder for library settings"></language>\n') + for lang in eclipse_langs: + out.write(' <language name="%s">\n' % lang) + for include_dir in include_dirs: + out.write(' <includepath workspace_path="false">%s</includepath>\n' % + include_dir) + out.write(' </language>\n') + out.write(' </section>\n') + + +def WriteMacros(out, eclipse_langs, defines): + """Write the macros section of a CDT settings export file.""" + + out.write(' <section name="org.eclipse.cdt.internal.ui.wizards.' \ + 'settingswizards.Macros">\n') + out.write(' <language name="holder for library settings"></language>\n') + for lang in eclipse_langs: + out.write(' <language name="%s">\n' % lang) + for key in sorted(defines.iterkeys()): + out.write(' <macro><name>%s</name><value>%s</value></macro>\n' % + (escape(key), escape(defines[key]))) + out.write(' </language>\n') + out.write(' </section>\n') + + +def GenerateOutputForConfig(target_list, target_dicts, data, params, + config_name): + options = params['options'] + generator_flags = params.get('generator_flags', {}) + + # build_dir: relative path from source root to our output files. + # e.g. "out/Debug" + build_dir = os.path.join(generator_flags.get('output_dir', 'out'), + config_name) + + toplevel_build = os.path.join(options.toplevel_dir, build_dir) + # Ninja uses out/Debug/gen while make uses out/Debug/obj/gen as the + # SHARED_INTERMEDIATE_DIR. Include both possible locations. + shared_intermediate_dirs = [os.path.join(toplevel_build, 'obj', 'gen'), + os.path.join(toplevel_build, 'gen')] + + out_name = os.path.join(toplevel_build, 'eclipse-cdt-settings.xml') + gyp.common.EnsureDirExists(out_name) + out = open(out_name, 'w') + + out.write('<?xml version="1.0" encoding="UTF-8"?>\n') + out.write('<cdtprojectproperties>\n') + + eclipse_langs = ['C++ Source File', 'C Source File', 'Assembly Source File', + 'GNU C++', 'GNU C', 'Assembly'] + compiler_path = GetCompilerPath(target_list, data) + include_dirs = GetAllIncludeDirectories(target_list, target_dicts, + shared_intermediate_dirs, config_name, + params, compiler_path) + WriteIncludePaths(out, eclipse_langs, include_dirs) + defines = GetAllDefines(target_list, target_dicts, data, config_name, params, + compiler_path) + WriteMacros(out, eclipse_langs, defines) + + out.write('</cdtprojectproperties>\n') + out.close() + + +def GenerateOutput(target_list, target_dicts, data, params): + """Generate an XML settings file that can be imported into a CDT project.""" + + if params['options'].generator_output: + raise NotImplementedError, "--generator_output not implemented for eclipse" + + user_config = params.get('generator_flags', {}).get('config', None) + if user_config: + GenerateOutputForConfig(target_list, target_dicts, data, params, + user_config) + else: + config_names = target_dicts[target_list[0]]['configurations'].keys() + for config_name in config_names: + GenerateOutputForConfig(target_list, target_dicts, data, params, + config_name) + diff --git a/deps/gyp/pylib/gyp/generator/gypd.py b/deps/gyp/pylib/gyp/generator/gypd.py new file mode 100644 index 0000000000..22ef57f847 --- /dev/null +++ b/deps/gyp/pylib/gyp/generator/gypd.py @@ -0,0 +1,87 @@ +# Copyright (c) 2011 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +"""gypd output module + +This module produces gyp input as its output. Output files are given the +.gypd extension to avoid overwriting the .gyp files that they are generated +from. Internal references to .gyp files (such as those found in +"dependencies" sections) are not adjusted to point to .gypd files instead; +unlike other paths, which are relative to the .gyp or .gypd file, such paths +are relative to the directory from which gyp was run to create the .gypd file. + +This generator module is intended to be a sample and a debugging aid, hence +the "d" for "debug" in .gypd. It is useful to inspect the results of the +various merges, expansions, and conditional evaluations performed by gyp +and to see a representation of what would be fed to a generator module. + +It's not advisable to rename .gypd files produced by this module to .gyp, +because they will have all merges, expansions, and evaluations already +performed and the relevant constructs not present in the output; paths to +dependencies may be wrong; and various sections that do not belong in .gyp +files such as such as "included_files" and "*_excluded" will be present. +Output will also be stripped of comments. This is not intended to be a +general-purpose gyp pretty-printer; for that, you probably just want to +run "pprint.pprint(eval(open('source.gyp').read()))", which will still strip +comments but won't do all of the other things done to this module's output. + +The specific formatting of the output generated by this module is subject +to change. +""" + + +import gyp.common +import errno +import os +import pprint + + +# These variables should just be spit back out as variable references. +_generator_identity_variables = [ + 'EXECUTABLE_PREFIX', + 'EXECUTABLE_SUFFIX', + 'INTERMEDIATE_DIR', + 'PRODUCT_DIR', + 'RULE_INPUT_ROOT', + 'RULE_INPUT_DIRNAME', + 'RULE_INPUT_EXT', + 'RULE_INPUT_NAME', + 'RULE_INPUT_PATH', + 'SHARED_INTERMEDIATE_DIR', +] + +# gypd doesn't define a default value for OS like many other generator +# modules. Specify "-D OS=whatever" on the command line to provide a value. +generator_default_variables = { +} + +# gypd supports multiple toolsets +generator_supports_multiple_toolsets = True + +# TODO(mark): This always uses <, which isn't right. The input module should +# notify the generator to tell it which phase it is operating in, and this +# module should use < for the early phase and then switch to > for the late +# phase. Bonus points for carrying @ back into the output too. +for v in _generator_identity_variables: + generator_default_variables[v] = '<(%s)' % v + + +def GenerateOutput(target_list, target_dicts, data, params): + output_files = {} + for qualified_target in target_list: + [input_file, target] = \ + gyp.common.ParseQualifiedTarget(qualified_target)[0:2] + + if input_file[-4:] != '.gyp': + continue + input_file_stem = input_file[:-4] + output_file = input_file_stem + params['options'].suffix + '.gypd' + + if not output_file in output_files: + output_files[output_file] = input_file + + for output_file, input_file in output_files.iteritems(): + output = open(output_file, 'w') + pprint.pprint(data[input_file], output) + output.close() diff --git a/deps/gyp/pylib/gyp/generator/gypsh.py b/deps/gyp/pylib/gyp/generator/gypsh.py new file mode 100644 index 0000000000..bd405f43a9 --- /dev/null +++ b/deps/gyp/pylib/gyp/generator/gypsh.py @@ -0,0 +1,56 @@ +# Copyright (c) 2011 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +"""gypsh output module + +gypsh is a GYP shell. It's not really a generator per se. All it does is +fire up an interactive Python session with a few local variables set to the +variables passed to the generator. Like gypd, it's intended as a debugging +aid, to facilitate the exploration of .gyp structures after being processed +by the input module. + +The expected usage is "gyp -f gypsh -D OS=desired_os". +""" + + +import code +import sys + + +# All of this stuff about generator variables was lovingly ripped from gypd.py. +# That module has a much better description of what's going on and why. +_generator_identity_variables = [ + 'EXECUTABLE_PREFIX', + 'EXECUTABLE_SUFFIX', + 'INTERMEDIATE_DIR', + 'PRODUCT_DIR', + 'RULE_INPUT_ROOT', + 'RULE_INPUT_DIRNAME', + 'RULE_INPUT_EXT', + 'RULE_INPUT_NAME', + 'RULE_INPUT_PATH', + 'SHARED_INTERMEDIATE_DIR', +] + +generator_default_variables = { +} + +for v in _generator_identity_variables: + generator_default_variables[v] = '<(%s)' % v + + +def GenerateOutput(target_list, target_dicts, data, params): + locals = { + 'target_list': target_list, + 'target_dicts': target_dicts, + 'data': data, + } + + # Use a banner that looks like the stock Python one and like what + # code.interact uses by default, but tack on something to indicate what + # locals are available, and identify gypsh. + banner='Python %s on %s\nlocals.keys() = %s\ngypsh' % \ + (sys.version, sys.platform, repr(sorted(locals.keys()))) + + code.interact(banner, local=locals) diff --git a/deps/gyp/pylib/gyp/generator/make.py b/deps/gyp/pylib/gyp/generator/make.py new file mode 100644 index 0000000000..b88a433d3d --- /dev/null +++ b/deps/gyp/pylib/gyp/generator/make.py @@ -0,0 +1,2181 @@ +# Copyright (c) 2013 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +# Notes: +# +# This is all roughly based on the Makefile system used by the Linux +# kernel, but is a non-recursive make -- we put the entire dependency +# graph in front of make and let it figure it out. +# +# The code below generates a separate .mk file for each target, but +# all are sourced by the top-level Makefile. This means that all +# variables in .mk-files clobber one another. Be careful to use := +# where appropriate for immediate evaluation, and similarly to watch +# that you're not relying on a variable value to last beween different +# .mk files. +# +# TODOs: +# +# Global settings and utility functions are currently stuffed in the +# toplevel Makefile. It may make sense to generate some .mk files on +# the side to keep the the files readable. + +import os +import re +import sys +import subprocess +import gyp +import gyp.common +import gyp.xcode_emulation +from gyp.common import GetEnvironFallback + +generator_default_variables = { + 'EXECUTABLE_PREFIX': '', + 'EXECUTABLE_SUFFIX': '', + 'STATIC_LIB_PREFIX': 'lib', + 'SHARED_LIB_PREFIX': 'lib', + 'STATIC_LIB_SUFFIX': '.a', + 'INTERMEDIATE_DIR': '$(obj).$(TOOLSET)/$(TARGET)/geni', + 'SHARED_INTERMEDIATE_DIR': '$(obj)/gen', + 'PRODUCT_DIR': '$(builddir)', + 'RULE_INPUT_ROOT': '%(INPUT_ROOT)s', # This gets expanded by Python. + 'RULE_INPUT_DIRNAME': '%(INPUT_DIRNAME)s', # This gets expanded by Python. + 'RULE_INPUT_PATH': '$(abspath $<)', + 'RULE_INPUT_EXT': '$(suffix $<)', + 'RULE_INPUT_NAME': '$(notdir $<)', + 'CONFIGURATION_NAME': '$(BUILDTYPE)', +} + +# Make supports multiple toolsets +generator_supports_multiple_toolsets = True + +# Request sorted dependencies in the order from dependents to dependencies. +generator_wants_sorted_dependencies = False + +# Placates pylint. +generator_additional_non_configuration_keys = [] +generator_additional_path_sections = [] +generator_extra_sources_for_rules = [] +generator_filelist_paths = None + + +def CalculateVariables(default_variables, params): + """Calculate additional variables for use in the build (called by gyp).""" + flavor = gyp.common.GetFlavor(params) + if flavor == 'mac': + default_variables.setdefault('OS', 'mac') + default_variables.setdefault('SHARED_LIB_SUFFIX', '.dylib') + default_variables.setdefault('SHARED_LIB_DIR', + generator_default_variables['PRODUCT_DIR']) + default_variables.setdefault('LIB_DIR', + generator_default_variables['PRODUCT_DIR']) + + # Copy additional generator configuration data from Xcode, which is shared + # by the Mac Make generator. + import gyp.generator.xcode as xcode_generator + global generator_additional_non_configuration_keys + generator_additional_non_configuration_keys = getattr(xcode_generator, + 'generator_additional_non_configuration_keys', []) + global generator_additional_path_sections + generator_additional_path_sections = getattr(xcode_generator, + 'generator_additional_path_sections', []) + global generator_extra_sources_for_rules + generator_extra_sources_for_rules = getattr(xcode_generator, + 'generator_extra_sources_for_rules', []) + COMPILABLE_EXTENSIONS.update({'.m': 'objc', '.mm' : 'objcxx'}) + else: + operating_system = flavor + if flavor == 'android': + operating_system = 'linux' # Keep this legacy behavior for now. + default_variables.setdefault('OS', operating_system) + default_variables.setdefault('SHARED_LIB_SUFFIX', '.so') + default_variables.setdefault('SHARED_LIB_DIR','$(builddir)/lib.$(TOOLSET)') + default_variables.setdefault('LIB_DIR', '$(obj).$(TOOLSET)') + + +def CalculateGeneratorInputInfo(params): + """Calculate the generator specific info that gets fed to input (called by + gyp).""" + generator_flags = params.get('generator_flags', {}) + android_ndk_version = generator_flags.get('android_ndk_version', None) + # Android NDK requires a strict link order. + if android_ndk_version: + global generator_wants_sorted_dependencies + generator_wants_sorted_dependencies = True + + output_dir = params['options'].generator_output or \ + params['options'].toplevel_dir + builddir_name = generator_flags.get('output_dir', 'out') + qualified_out_dir = os.path.normpath(os.path.join( + output_dir, builddir_name, 'gypfiles')) + + global generator_filelist_paths + generator_filelist_paths = { + 'toplevel': params['options'].toplevel_dir, + 'qualified_out_dir': qualified_out_dir, + } + + +# The .d checking code below uses these functions: +# wildcard, sort, foreach, shell, wordlist +# wildcard can handle spaces, the rest can't. +# Since I could find no way to make foreach work with spaces in filenames +# correctly, the .d files have spaces replaced with another character. The .d +# file for +# Chromium\ Framework.framework/foo +# is for example +# out/Release/.deps/out/Release/Chromium?Framework.framework/foo +# This is the replacement character. +SPACE_REPLACEMENT = '?' + + +LINK_COMMANDS_LINUX = """\ +quiet_cmd_alink = AR($(TOOLSET)) $@ +cmd_alink = rm -f $@ && $(AR.$(TOOLSET)) crs $@ $(filter %.o,$^) + +quiet_cmd_alink_thin = AR($(TOOLSET)) $@ +cmd_alink_thin = rm -f $@ && $(AR.$(TOOLSET)) crsT $@ $(filter %.o,$^) + +# Due to circular dependencies between libraries :(, we wrap the +# special "figure out circular dependencies" flags around the entire +# input list during linking. +quiet_cmd_link = LINK($(TOOLSET)) $@ +cmd_link = $(LINK.$(TOOLSET)) $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -o $@ -Wl,--start-group $(LD_INPUTS) -Wl,--end-group $(LIBS) + +# We support two kinds of shared objects (.so): +# 1) shared_library, which is just bundling together many dependent libraries +# into a link line. +# 2) loadable_module, which is generating a module intended for dlopen(). +# +# They differ only slightly: +# In the former case, we want to package all dependent code into the .so. +# In the latter case, we want to package just the API exposed by the +# outermost module. +# This means shared_library uses --whole-archive, while loadable_module doesn't. +# (Note that --whole-archive is incompatible with the --start-group used in +# normal linking.) + +# Other shared-object link notes: +# - Set SONAME to the library filename so our binaries don't reference +# the local, absolute paths used on the link command-line. +quiet_cmd_solink = SOLINK($(TOOLSET)) $@ +cmd_solink = $(LINK.$(TOOLSET)) -shared $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -Wl,-soname=$(@F) -o $@ -Wl,--whole-archive $(LD_INPUTS) -Wl,--no-whole-archive $(LIBS) + +quiet_cmd_solink_module = SOLINK_MODULE($(TOOLSET)) $@ +cmd_solink_module = $(LINK.$(TOOLSET)) -shared $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -Wl,-soname=$(@F) -o $@ -Wl,--start-group $(filter-out FORCE_DO_CMD, $^) -Wl,--end-group $(LIBS) +""" + +LINK_COMMANDS_MAC = """\ +quiet_cmd_alink = LIBTOOL-STATIC $@ +cmd_alink = rm -f $@ && ./gyp-mac-tool filter-libtool libtool $(GYP_LIBTOOLFLAGS) -static -o $@ $(filter %.o,$^) + +quiet_cmd_link = LINK($(TOOLSET)) $@ +cmd_link = $(LINK.$(TOOLSET)) $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -o "$@" $(LD_INPUTS) $(LIBS) + +quiet_cmd_solink = SOLINK($(TOOLSET)) $@ +cmd_solink = $(LINK.$(TOOLSET)) -shared $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -o "$@" $(LD_INPUTS) $(LIBS) + +quiet_cmd_solink_module = SOLINK_MODULE($(TOOLSET)) $@ +cmd_solink_module = $(LINK.$(TOOLSET)) -bundle $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -o $@ $(filter-out FORCE_DO_CMD, $^) $(LIBS) +""" + +LINK_COMMANDS_ANDROID = """\ +quiet_cmd_alink = AR($(TOOLSET)) $@ +cmd_alink = rm -f $@ && $(AR.$(TOOLSET)) crs $@ $(filter %.o,$^) + +quiet_cmd_alink_thin = AR($(TOOLSET)) $@ +cmd_alink_thin = rm -f $@ && $(AR.$(TOOLSET)) crsT $@ $(filter %.o,$^) + +# Due to circular dependencies between libraries :(, we wrap the +# special "figure out circular dependencies" flags around the entire +# input list during linking. +quiet_cmd_link = LINK($(TOOLSET)) $@ +quiet_cmd_link_host = LINK($(TOOLSET)) $@ +cmd_link = $(LINK.$(TOOLSET)) $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -o $@ -Wl,--start-group $(LD_INPUTS) -Wl,--end-group $(LIBS) +cmd_link_host = $(LINK.$(TOOLSET)) $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -o $@ $(LD_INPUTS) $(LIBS) + +# Other shared-object link notes: +# - Set SONAME to the library filename so our binaries don't reference +# the local, absolute paths used on the link command-line. +quiet_cmd_solink = SOLINK($(TOOLSET)) $@ +cmd_solink = $(LINK.$(TOOLSET)) -shared $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -Wl,-soname=$(@F) -o $@ -Wl,--whole-archive $(LD_INPUTS) -Wl,--no-whole-archive $(LIBS) + +quiet_cmd_solink_module = SOLINK_MODULE($(TOOLSET)) $@ +cmd_solink_module = $(LINK.$(TOOLSET)) -shared $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -Wl,-soname=$(@F) -o $@ -Wl,--start-group $(filter-out FORCE_DO_CMD, $^) -Wl,--end-group $(LIBS) +quiet_cmd_solink_module_host = SOLINK_MODULE($(TOOLSET)) $@ +cmd_solink_module_host = $(LINK.$(TOOLSET)) -shared $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -Wl,-soname=$(@F) -o $@ $(filter-out FORCE_DO_CMD, $^) $(LIBS) +""" + + +LINK_COMMANDS_AIX = """\ +quiet_cmd_alink = AR($(TOOLSET)) $@ +cmd_alink = rm -f $@ && $(AR.$(TOOLSET)) crs $@ $(filter %.o,$^) + +quiet_cmd_alink_thin = AR($(TOOLSET)) $@ +cmd_alink_thin = rm -f $@ && $(AR.$(TOOLSET)) crs $@ $(filter %.o,$^) + +quiet_cmd_link = LINK($(TOOLSET)) $@ +cmd_link = $(LINK.$(TOOLSET)) $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -o $@ $(LD_INPUTS) $(LIBS) + +quiet_cmd_solink = SOLINK($(TOOLSET)) $@ +cmd_solink = $(LINK.$(TOOLSET)) -shared $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -o $@ $(LD_INPUTS) $(LIBS) + +quiet_cmd_solink_module = SOLINK_MODULE($(TOOLSET)) $@ +cmd_solink_module = $(LINK.$(TOOLSET)) -shared $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -o $@ $(filter-out FORCE_DO_CMD, $^) $(LIBS) +""" + + +# Header of toplevel Makefile. +# This should go into the build tree, but it's easier to keep it here for now. +SHARED_HEADER = ("""\ +# We borrow heavily from the kernel build setup, though we are simpler since +# we don't have Kconfig tweaking settings on us. + +# The implicit make rules have it looking for RCS files, among other things. +# We instead explicitly write all the rules we care about. +# It's even quicker (saves ~200ms) to pass -r on the command line. +MAKEFLAGS=-r + +# The source directory tree. +srcdir := %(srcdir)s +abs_srcdir := $(abspath $(srcdir)) + +# The name of the builddir. +builddir_name ?= %(builddir)s + +# The V=1 flag on command line makes us verbosely print command lines. +ifdef V + quiet= +else + quiet=quiet_ +endif + +# Specify BUILDTYPE=Release on the command line for a release build. +BUILDTYPE ?= %(default_configuration)s + +# Directory all our build output goes into. +# Note that this must be two directories beneath src/ for unit tests to pass, +# as they reach into the src/ directory for data with relative paths. +builddir ?= $(builddir_name)/$(BUILDTYPE) +abs_builddir := $(abspath $(builddir)) +depsdir := $(builddir)/.deps + +# Object output directory. +obj := $(builddir)/obj +abs_obj := $(abspath $(obj)) + +# We build up a list of every single one of the targets so we can slurp in the +# generated dependency rule Makefiles in one pass. +all_deps := + +%(make_global_settings)s + +CC.target ?= %(CC.target)s +CFLAGS.target ?= $(CFLAGS) +CXX.target ?= %(CXX.target)s +CXXFLAGS.target ?= $(CXXFLAGS) +LINK.target ?= %(LINK.target)s +LDFLAGS.target ?= $(LDFLAGS) +AR.target ?= $(AR) + +# C++ apps need to be linked with g++. +# +# Note: flock is used to seralize linking. Linking is a memory-intensive +# process so running parallel links can often lead to thrashing. To disable +# the serialization, override LINK via an envrionment variable as follows: +# +# export LINK=g++ +# +# This will allow make to invoke N linker processes as specified in -jN. +LINK ?= %(flock)s $(builddir)/linker.lock $(CXX.target) + +# TODO(evan): move all cross-compilation logic to gyp-time so we don't need +# to replicate this environment fallback in make as well. +CC.host ?= %(CC.host)s +CFLAGS.host ?= +CXX.host ?= %(CXX.host)s +CXXFLAGS.host ?= +LINK.host ?= %(LINK.host)s +LDFLAGS.host ?= +AR.host ?= %(AR.host)s + +# Define a dir function that can handle spaces. +# http://www.gnu.org/software/make/manual/make.html#Syntax-of-Functions +# "leading spaces cannot appear in the text of the first argument as written. +# These characters can be put into the argument value by variable substitution." +empty := +space := $(empty) $(empty) + +# http://stackoverflow.com/questions/1189781/using-make-dir-or-notdir-on-a-path-with-spaces +replace_spaces = $(subst $(space),""" + SPACE_REPLACEMENT + """,$1) +unreplace_spaces = $(subst """ + SPACE_REPLACEMENT + """,$(space),$1) +dirx = $(call unreplace_spaces,$(dir $(call replace_spaces,$1))) + +# Flags to make gcc output dependency info. Note that you need to be +# careful here to use the flags that ccache and distcc can understand. +# We write to a dep file on the side first and then rename at the end +# so we can't end up with a broken dep file. +depfile = $(depsdir)/$(call replace_spaces,$@).d +DEPFLAGS = -MMD -MF $(depfile).raw + +# We have to fixup the deps output in a few ways. +# (1) the file output should mention the proper .o file. +# ccache or distcc lose the path to the target, so we convert a rule of +# the form: +# foobar.o: DEP1 DEP2 +# into +# path/to/foobar.o: DEP1 DEP2 +# (2) we want missing files not to cause us to fail to build. +# We want to rewrite +# foobar.o: DEP1 DEP2 \\ +# DEP3 +# to +# DEP1: +# DEP2: +# DEP3: +# so if the files are missing, they're just considered phony rules. +# We have to do some pretty insane escaping to get those backslashes +# and dollar signs past make, the shell, and sed at the same time. +# Doesn't work with spaces, but that's fine: .d files have spaces in +# their names replaced with other characters.""" +r""" +define fixup_dep +# The depfile may not exist if the input file didn't have any #includes. +touch $(depfile).raw +# Fixup path as in (1). +sed -e "s|^$(notdir $@)|$@|" $(depfile).raw >> $(depfile) +# Add extra rules as in (2). +# We remove slashes and replace spaces with new lines; +# remove blank lines; +# delete the first line and append a colon to the remaining lines. +sed -e 's|\\||' -e 'y| |\n|' $(depfile).raw |\ + grep -v '^$$' |\ + sed -e 1d -e 's|$$|:|' \ + >> $(depfile) +rm $(depfile).raw +endef +""" +""" +# Command definitions: +# - cmd_foo is the actual command to run; +# - quiet_cmd_foo is the brief-output summary of the command. + +quiet_cmd_cc = CC($(TOOLSET)) $@ +cmd_cc = $(CC.$(TOOLSET)) $(GYP_CFLAGS) $(DEPFLAGS) $(CFLAGS.$(TOOLSET)) -c -o $@ $< + +quiet_cmd_cxx = CXX($(TOOLSET)) $@ +cmd_cxx = $(CXX.$(TOOLSET)) $(GYP_CXXFLAGS) $(DEPFLAGS) $(CXXFLAGS.$(TOOLSET)) -c -o $@ $< +%(extra_commands)s +quiet_cmd_touch = TOUCH $@ +cmd_touch = touch $@ + +quiet_cmd_copy = COPY $@ +# send stderr to /dev/null to ignore messages when linking directories. +cmd_copy = ln -f "$<" "$@" 2>/dev/null || (rm -rf "$@" && cp -af "$<" "$@") + +%(link_commands)s +""" + +r""" +# Define an escape_quotes function to escape single quotes. +# This allows us to handle quotes properly as long as we always use +# use single quotes and escape_quotes. +escape_quotes = $(subst ','\'',$(1)) +# This comment is here just to include a ' to unconfuse syntax highlighting. +# Define an escape_vars function to escape '$' variable syntax. +# This allows us to read/write command lines with shell variables (e.g. +# $LD_LIBRARY_PATH), without triggering make substitution. +escape_vars = $(subst $$,$$$$,$(1)) +# Helper that expands to a shell command to echo a string exactly as it is in +# make. This uses printf instead of echo because printf's behaviour with respect +# to escape sequences is more portable than echo's across different shells +# (e.g., dash, bash). +exact_echo = printf '%%s\n' '$(call escape_quotes,$(1))' +""" +""" +# Helper to compare the command we're about to run against the command +# we logged the last time we ran the command. Produces an empty +# string (false) when the commands match. +# Tricky point: Make has no string-equality test function. +# The kernel uses the following, but it seems like it would have false +# positives, where one string reordered its arguments. +# arg_check = $(strip $(filter-out $(cmd_$(1)), $(cmd_$@)) \\ +# $(filter-out $(cmd_$@), $(cmd_$(1)))) +# We instead substitute each for the empty string into the other, and +# say they're equal if both substitutions produce the empty string. +# .d files contain """ + SPACE_REPLACEMENT + \ + """ instead of spaces, take that into account. +command_changed = $(or $(subst $(cmd_$(1)),,$(cmd_$(call replace_spaces,$@))),\\ + $(subst $(cmd_$(call replace_spaces,$@)),,$(cmd_$(1)))) + +# Helper that is non-empty when a prerequisite changes. +# Normally make does this implicitly, but we force rules to always run +# so we can check their command lines. +# $? -- new prerequisites +# $| -- order-only dependencies +prereq_changed = $(filter-out FORCE_DO_CMD,$(filter-out $|,$?)) + +# Helper that executes all postbuilds until one fails. +define do_postbuilds + @E=0;\\ + for p in $(POSTBUILDS); do\\ + eval $$p;\\ + E=$$?;\\ + if [ $$E -ne 0 ]; then\\ + break;\\ + fi;\\ + done;\\ + if [ $$E -ne 0 ]; then\\ + rm -rf "$@";\\ + exit $$E;\\ + fi +endef + +# do_cmd: run a command via the above cmd_foo names, if necessary. +# Should always run for a given target to handle command-line changes. +# Second argument, if non-zero, makes it do asm/C/C++ dependency munging. +# Third argument, if non-zero, makes it do POSTBUILDS processing. +# Note: We intentionally do NOT call dirx for depfile, since it contains """ + \ + SPACE_REPLACEMENT + """ for +# spaces already and dirx strips the """ + SPACE_REPLACEMENT + \ + """ characters. +define do_cmd +$(if $(or $(command_changed),$(prereq_changed)), + @$(call exact_echo, $($(quiet)cmd_$(1))) + @mkdir -p "$(call dirx,$@)" "$(dir $(depfile))" + $(if $(findstring flock,$(word %(flock_index)d,$(cmd_$1))), + @$(cmd_$(1)) + @echo " $(quiet_cmd_$(1)): Finished", + @$(cmd_$(1)) + ) + @$(call exact_echo,$(call escape_vars,cmd_$(call replace_spaces,$@) := $(cmd_$(1)))) > $(depfile) + @$(if $(2),$(fixup_dep)) + $(if $(and $(3), $(POSTBUILDS)), + $(call do_postbuilds) + ) +) +endef + +# Declare the "%(default_target)s" target first so it is the default, +# even though we don't have the deps yet. +.PHONY: %(default_target)s +%(default_target)s: + +# make looks for ways to re-generate included makefiles, but in our case, we +# don't have a direct way. Explicitly telling make that it has nothing to do +# for them makes it go faster. +%%.d: ; + +# Use FORCE_DO_CMD to force a target to run. Should be coupled with +# do_cmd. +.PHONY: FORCE_DO_CMD +FORCE_DO_CMD: + +""") + +SHARED_HEADER_MAC_COMMANDS = """ +quiet_cmd_objc = CXX($(TOOLSET)) $@ +cmd_objc = $(CC.$(TOOLSET)) $(GYP_OBJCFLAGS) $(DEPFLAGS) -c -o $@ $< + +quiet_cmd_objcxx = CXX($(TOOLSET)) $@ +cmd_objcxx = $(CXX.$(TOOLSET)) $(GYP_OBJCXXFLAGS) $(DEPFLAGS) -c -o $@ $< + +# Commands for precompiled header files. +quiet_cmd_pch_c = CXX($(TOOLSET)) $@ +cmd_pch_c = $(CC.$(TOOLSET)) $(GYP_PCH_CFLAGS) $(DEPFLAGS) $(CXXFLAGS.$(TOOLSET)) -c -o $@ $< +quiet_cmd_pch_cc = CXX($(TOOLSET)) $@ +cmd_pch_cc = $(CC.$(TOOLSET)) $(GYP_PCH_CXXFLAGS) $(DEPFLAGS) $(CXXFLAGS.$(TOOLSET)) -c -o $@ $< +quiet_cmd_pch_m = CXX($(TOOLSET)) $@ +cmd_pch_m = $(CC.$(TOOLSET)) $(GYP_PCH_OBJCFLAGS) $(DEPFLAGS) -c -o $@ $< +quiet_cmd_pch_mm = CXX($(TOOLSET)) $@ +cmd_pch_mm = $(CC.$(TOOLSET)) $(GYP_PCH_OBJCXXFLAGS) $(DEPFLAGS) -c -o $@ $< + +# gyp-mac-tool is written next to the root Makefile by gyp. +# Use $(4) for the command, since $(2) and $(3) are used as flag by do_cmd +# already. +quiet_cmd_mac_tool = MACTOOL $(4) $< +cmd_mac_tool = ./gyp-mac-tool $(4) $< "$@" + +quiet_cmd_mac_package_framework = PACKAGE FRAMEWORK $@ +cmd_mac_package_framework = ./gyp-mac-tool package-framework "$@" $(4) + +quiet_cmd_infoplist = INFOPLIST $@ +cmd_infoplist = $(CC.$(TOOLSET)) -E -P -Wno-trigraphs -x c $(INFOPLIST_DEFINES) "$<" -o "$@" +""" + + +def WriteRootHeaderSuffixRules(writer): + extensions = sorted(COMPILABLE_EXTENSIONS.keys(), key=str.lower) + + writer.write('# Suffix rules, putting all outputs into $(obj).\n') + for ext in extensions: + writer.write('$(obj).$(TOOLSET)/%%.o: $(srcdir)/%%%s FORCE_DO_CMD\n' % ext) + writer.write('\t@$(call do_cmd,%s,1)\n' % COMPILABLE_EXTENSIONS[ext]) + + writer.write('\n# Try building from generated source, too.\n') + for ext in extensions: + writer.write( + '$(obj).$(TOOLSET)/%%.o: $(obj).$(TOOLSET)/%%%s FORCE_DO_CMD\n' % ext) + writer.write('\t@$(call do_cmd,%s,1)\n' % COMPILABLE_EXTENSIONS[ext]) + writer.write('\n') + for ext in extensions: + writer.write('$(obj).$(TOOLSET)/%%.o: $(obj)/%%%s FORCE_DO_CMD\n' % ext) + writer.write('\t@$(call do_cmd,%s,1)\n' % COMPILABLE_EXTENSIONS[ext]) + writer.write('\n') + + +SHARED_HEADER_SUFFIX_RULES_COMMENT1 = ("""\ +# Suffix rules, putting all outputs into $(obj). +""") + + +SHARED_HEADER_SUFFIX_RULES_COMMENT2 = ("""\ +# Try building from generated source, too. +""") + + +SHARED_FOOTER = """\ +# "all" is a concatenation of the "all" targets from all the included +# sub-makefiles. This is just here to clarify. +all: + +# Add in dependency-tracking rules. $(all_deps) is the list of every single +# target in our tree. Only consider the ones with .d (dependency) info: +d_files := $(wildcard $(foreach f,$(all_deps),$(depsdir)/$(f).d)) +ifneq ($(d_files),) + include $(d_files) +endif +""" + +header = """\ +# This file is generated by gyp; do not edit. + +""" + +# Maps every compilable file extension to the do_cmd that compiles it. +COMPILABLE_EXTENSIONS = { + '.c': 'cc', + '.cc': 'cxx', + '.cpp': 'cxx', + '.cxx': 'cxx', + '.s': 'cc', + '.S': 'cc', +} + +def Compilable(filename): + """Return true if the file is compilable (should be in OBJS).""" + for res in (filename.endswith(e) for e in COMPILABLE_EXTENSIONS): + if res: + return True + return False + + +def Linkable(filename): + """Return true if the file is linkable (should be on the link line).""" + return filename.endswith('.o') + + +def Target(filename): + """Translate a compilable filename to its .o target.""" + return os.path.splitext(filename)[0] + '.o' + + +def EscapeShellArgument(s): + """Quotes an argument so that it will be interpreted literally by a POSIX + shell. Taken from + http://stackoverflow.com/questions/35817/whats-the-best-way-to-escape-ossystem-calls-in-python + """ + return "'" + s.replace("'", "'\\''") + "'" + + +def EscapeMakeVariableExpansion(s): + """Make has its own variable expansion syntax using $. We must escape it for + string to be interpreted literally.""" + return s.replace('$', '$$') + + +def EscapeCppDefine(s): + """Escapes a CPP define so that it will reach the compiler unaltered.""" + s = EscapeShellArgument(s) + s = EscapeMakeVariableExpansion(s) + # '#' characters must be escaped even embedded in a string, else Make will + # treat it as the start of a comment. + return s.replace('#', r'\#') + + +def QuoteIfNecessary(string): + """TODO: Should this ideally be replaced with one or more of the above + functions?""" + if '"' in string: + string = '"' + string.replace('"', '\\"') + '"' + return string + + +def StringToMakefileVariable(string): + """Convert a string to a value that is acceptable as a make variable name.""" + return re.sub('[^a-zA-Z0-9_]', '_', string) + + +srcdir_prefix = '' +def Sourceify(path): + """Convert a path to its source directory form.""" + if '$(' in path: + return path + if os.path.isabs(path): + return path + return srcdir_prefix + path + + +def QuoteSpaces(s, quote=r'\ '): + return s.replace(' ', quote) + + +# Map from qualified target to path to output. +target_outputs = {} +# Map from qualified target to any linkable output. A subset +# of target_outputs. E.g. when mybinary depends on liba, we want to +# include liba in the linker line; when otherbinary depends on +# mybinary, we just want to build mybinary first. +target_link_deps = {} + + +class MakefileWriter: + """MakefileWriter packages up the writing of one target-specific foobar.mk. + + Its only real entry point is Write(), and is mostly used for namespacing. + """ + + def __init__(self, generator_flags, flavor): + self.generator_flags = generator_flags + self.flavor = flavor + + self.suffix_rules_srcdir = {} + self.suffix_rules_objdir1 = {} + self.suffix_rules_objdir2 = {} + + # Generate suffix rules for all compilable extensions. + for ext in COMPILABLE_EXTENSIONS.keys(): + # Suffix rules for source folder. + self.suffix_rules_srcdir.update({ext: ("""\ +$(obj).$(TOOLSET)/$(TARGET)/%%.o: $(srcdir)/%%%s FORCE_DO_CMD + @$(call do_cmd,%s,1) +""" % (ext, COMPILABLE_EXTENSIONS[ext]))}) + + # Suffix rules for generated source files. + self.suffix_rules_objdir1.update({ext: ("""\ +$(obj).$(TOOLSET)/$(TARGET)/%%.o: $(obj).$(TOOLSET)/%%%s FORCE_DO_CMD + @$(call do_cmd,%s,1) +""" % (ext, COMPILABLE_EXTENSIONS[ext]))}) + self.suffix_rules_objdir2.update({ext: ("""\ +$(obj).$(TOOLSET)/$(TARGET)/%%.o: $(obj)/%%%s FORCE_DO_CMD + @$(call do_cmd,%s,1) +""" % (ext, COMPILABLE_EXTENSIONS[ext]))}) + + + def Write(self, qualified_target, base_path, output_filename, spec, configs, + part_of_all): + """The main entry point: writes a .mk file for a single target. + + Arguments: + qualified_target: target we're generating + base_path: path relative to source root we're building in, used to resolve + target-relative paths + output_filename: output .mk file name to write + spec, configs: gyp info + part_of_all: flag indicating this target is part of 'all' + """ + gyp.common.EnsureDirExists(output_filename) + + self.fp = open(output_filename, 'w') + + self.fp.write(header) + + self.qualified_target = qualified_target + self.path = base_path + self.target = spec['target_name'] + self.type = spec['type'] + self.toolset = spec['toolset'] + + self.is_mac_bundle = gyp.xcode_emulation.IsMacBundle(self.flavor, spec) + if self.flavor == 'mac': + self.xcode_settings = gyp.xcode_emulation.XcodeSettings(spec) + else: + self.xcode_settings = None + + deps, link_deps = self.ComputeDeps(spec) + + # Some of the generation below can add extra output, sources, or + # link dependencies. All of the out params of the functions that + # follow use names like extra_foo. + extra_outputs = [] + extra_sources = [] + extra_link_deps = [] + extra_mac_bundle_resources = [] + mac_bundle_deps = [] + + if self.is_mac_bundle: + self.output = self.ComputeMacBundleOutput(spec) + self.output_binary = self.ComputeMacBundleBinaryOutput(spec) + else: + self.output = self.output_binary = self.ComputeOutput(spec) + + self.is_standalone_static_library = bool( + spec.get('standalone_static_library', 0)) + self._INSTALLABLE_TARGETS = ('executable', 'loadable_module', + 'shared_library') + if (self.is_standalone_static_library or + self.type in self._INSTALLABLE_TARGETS): + self.alias = os.path.basename(self.output) + install_path = self._InstallableTargetInstallPath() + else: + self.alias = self.output + install_path = self.output + + self.WriteLn("TOOLSET := " + self.toolset) + self.WriteLn("TARGET := " + self.target) + + # Actions must come first, since they can generate more OBJs for use below. + if 'actions' in spec: + self.WriteActions(spec['actions'], extra_sources, extra_outputs, + extra_mac_bundle_resources, part_of_all) + + # Rules must be early like actions. + if 'rules' in spec: + self.WriteRules(spec['rules'], extra_sources, extra_outputs, + extra_mac_bundle_resources, part_of_all) + + if 'copies' in spec: + self.WriteCopies(spec['copies'], extra_outputs, part_of_all) + + # Bundle resources. + if self.is_mac_bundle: + all_mac_bundle_resources = ( + spec.get('mac_bundle_resources', []) + extra_mac_bundle_resources) + self.WriteMacBundleResources(all_mac_bundle_resources, mac_bundle_deps) + self.WriteMacInfoPlist(mac_bundle_deps) + + # Sources. + all_sources = spec.get('sources', []) + extra_sources + if all_sources: + self.WriteSources( + configs, deps, all_sources, extra_outputs, + extra_link_deps, part_of_all, + gyp.xcode_emulation.MacPrefixHeader( + self.xcode_settings, lambda p: Sourceify(self.Absolutify(p)), + self.Pchify)) + sources = filter(Compilable, all_sources) + if sources: + self.WriteLn(SHARED_HEADER_SUFFIX_RULES_COMMENT1) + extensions = set([os.path.splitext(s)[1] for s in sources]) + for ext in extensions: + if ext in self.suffix_rules_srcdir: + self.WriteLn(self.suffix_rules_srcdir[ext]) + self.WriteLn(SHARED_HEADER_SUFFIX_RULES_COMMENT2) + for ext in extensions: + if ext in self.suffix_rules_objdir1: + self.WriteLn(self.suffix_rules_objdir1[ext]) + for ext in extensions: + if ext in self.suffix_rules_objdir2: + self.WriteLn(self.suffix_rules_objdir2[ext]) + self.WriteLn('# End of this set of suffix rules') + + # Add dependency from bundle to bundle binary. + if self.is_mac_bundle: + mac_bundle_deps.append(self.output_binary) + + self.WriteTarget(spec, configs, deps, extra_link_deps + link_deps, + mac_bundle_deps, extra_outputs, part_of_all) + + # Update global list of target outputs, used in dependency tracking. + target_outputs[qualified_target] = install_path + + # Update global list of link dependencies. + if self.type in ('static_library', 'shared_library'): + target_link_deps[qualified_target] = self.output_binary + + # Currently any versions have the same effect, but in future the behavior + # could be different. + if self.generator_flags.get('android_ndk_version', None): + self.WriteAndroidNdkModuleRule(self.target, all_sources, link_deps) + + self.fp.close() + + + def WriteSubMake(self, output_filename, makefile_path, targets, build_dir): + """Write a "sub-project" Makefile. + + This is a small, wrapper Makefile that calls the top-level Makefile to build + the targets from a single gyp file (i.e. a sub-project). + + Arguments: + output_filename: sub-project Makefile name to write + makefile_path: path to the top-level Makefile + targets: list of "all" targets for this sub-project + build_dir: build output directory, relative to the sub-project + """ + gyp.common.EnsureDirExists(output_filename) + self.fp = open(output_filename, 'w') + self.fp.write(header) + # For consistency with other builders, put sub-project build output in the + # sub-project dir (see test/subdirectory/gyptest-subdir-all.py). + self.WriteLn('export builddir_name ?= %s' % + os.path.join(os.path.dirname(output_filename), build_dir)) + self.WriteLn('.PHONY: all') + self.WriteLn('all:') + if makefile_path: + makefile_path = ' -C ' + makefile_path + self.WriteLn('\t$(MAKE)%s %s' % (makefile_path, ' '.join(targets))) + self.fp.close() + + + def WriteActions(self, actions, extra_sources, extra_outputs, + extra_mac_bundle_resources, part_of_all): + """Write Makefile code for any 'actions' from the gyp input. + + extra_sources: a list that will be filled in with newly generated source + files, if any + extra_outputs: a list that will be filled in with any outputs of these + actions (used to make other pieces dependent on these + actions) + part_of_all: flag indicating this target is part of 'all' + """ + env = self.GetSortedXcodeEnv() + for action in actions: + name = StringToMakefileVariable('%s_%s' % (self.qualified_target, + action['action_name'])) + self.WriteLn('### Rules for action "%s":' % action['action_name']) + inputs = action['inputs'] + outputs = action['outputs'] + + # Build up a list of outputs. + # Collect the output dirs we'll need. + dirs = set() + for out in outputs: + dir = os.path.split(out)[0] + if dir: + dirs.add(dir) + if int(action.get('process_outputs_as_sources', False)): + extra_sources += outputs + if int(action.get('process_outputs_as_mac_bundle_resources', False)): + extra_mac_bundle_resources += outputs + + # Write the actual command. + action_commands = action['action'] + if self.flavor == 'mac': + action_commands = [gyp.xcode_emulation.ExpandEnvVars(command, env) + for command in action_commands] + command = gyp.common.EncodePOSIXShellList(action_commands) + if 'message' in action: + self.WriteLn('quiet_cmd_%s = ACTION %s $@' % (name, action['message'])) + else: + self.WriteLn('quiet_cmd_%s = ACTION %s $@' % (name, name)) + if len(dirs) > 0: + command = 'mkdir -p %s' % ' '.join(dirs) + '; ' + command + + cd_action = 'cd %s; ' % Sourceify(self.path or '.') + + # command and cd_action get written to a toplevel variable called + # cmd_foo. Toplevel variables can't handle things that change per + # makefile like $(TARGET), so hardcode the target. + command = command.replace('$(TARGET)', self.target) + cd_action = cd_action.replace('$(TARGET)', self.target) + + # Set LD_LIBRARY_PATH in case the action runs an executable from this + # build which links to shared libs from this build. + # actions run on the host, so they should in theory only use host + # libraries, but until everything is made cross-compile safe, also use + # target libraries. + # TODO(piman): when everything is cross-compile safe, remove lib.target + self.WriteLn('cmd_%s = LD_LIBRARY_PATH=$(builddir)/lib.host:' + '$(builddir)/lib.target:$$LD_LIBRARY_PATH; ' + 'export LD_LIBRARY_PATH; ' + '%s%s' + % (name, cd_action, command)) + self.WriteLn() + outputs = map(self.Absolutify, outputs) + # The makefile rules are all relative to the top dir, but the gyp actions + # are defined relative to their containing dir. This replaces the obj + # variable for the action rule with an absolute version so that the output + # goes in the right place. + # Only write the 'obj' and 'builddir' rules for the "primary" output (:1); + # it's superfluous for the "extra outputs", and this avoids accidentally + # writing duplicate dummy rules for those outputs. + # Same for environment. + self.WriteLn("%s: obj := $(abs_obj)" % QuoteSpaces(outputs[0])) + self.WriteLn("%s: builddir := $(abs_builddir)" % QuoteSpaces(outputs[0])) + self.WriteSortedXcodeEnv(outputs[0], self.GetSortedXcodeEnv()) + + for input in inputs: + assert ' ' not in input, ( + "Spaces in action input filenames not supported (%s)" % input) + for output in outputs: + assert ' ' not in output, ( + "Spaces in action output filenames not supported (%s)" % output) + + # See the comment in WriteCopies about expanding env vars. + outputs = [gyp.xcode_emulation.ExpandEnvVars(o, env) for o in outputs] + inputs = [gyp.xcode_emulation.ExpandEnvVars(i, env) for i in inputs] + + self.WriteDoCmd(outputs, map(Sourceify, map(self.Absolutify, inputs)), + part_of_all=part_of_all, command=name) + + # Stuff the outputs in a variable so we can refer to them later. + outputs_variable = 'action_%s_outputs' % name + self.WriteLn('%s := %s' % (outputs_variable, ' '.join(outputs))) + extra_outputs.append('$(%s)' % outputs_variable) + self.WriteLn() + + self.WriteLn() + + + def WriteRules(self, rules, extra_sources, extra_outputs, + extra_mac_bundle_resources, part_of_all): + """Write Makefile code for any 'rules' from the gyp input. + + extra_sources: a list that will be filled in with newly generated source + files, if any + extra_outputs: a list that will be filled in with any outputs of these + rules (used to make other pieces dependent on these rules) + part_of_all: flag indicating this target is part of 'all' + """ + env = self.GetSortedXcodeEnv() + for rule in rules: + name = StringToMakefileVariable('%s_%s' % (self.qualified_target, + rule['rule_name'])) + count = 0 + self.WriteLn('### Generated for rule %s:' % name) + + all_outputs = [] + + for rule_source in rule.get('rule_sources', []): + dirs = set() + (rule_source_dirname, rule_source_basename) = os.path.split(rule_source) + (rule_source_root, rule_source_ext) = \ + os.path.splitext(rule_source_basename) + + outputs = [self.ExpandInputRoot(out, rule_source_root, + rule_source_dirname) + for out in rule['outputs']] + + for out in outputs: + dir = os.path.dirname(out) + if dir: + dirs.add(dir) + if int(rule.get('process_outputs_as_sources', False)): + extra_sources += outputs + if int(rule.get('process_outputs_as_mac_bundle_resources', False)): + extra_mac_bundle_resources += outputs + inputs = map(Sourceify, map(self.Absolutify, [rule_source] + + rule.get('inputs', []))) + actions = ['$(call do_cmd,%s_%d)' % (name, count)] + + if name == 'resources_grit': + # HACK: This is ugly. Grit intentionally doesn't touch the + # timestamp of its output file when the file doesn't change, + # which is fine in hash-based dependency systems like scons + # and forge, but not kosher in the make world. After some + # discussion, hacking around it here seems like the least + # amount of pain. + actions += ['@touch --no-create $@'] + + # See the comment in WriteCopies about expanding env vars. + outputs = [gyp.xcode_emulation.ExpandEnvVars(o, env) for o in outputs] + inputs = [gyp.xcode_emulation.ExpandEnvVars(i, env) for i in inputs] + + outputs = map(self.Absolutify, outputs) + all_outputs += outputs + # Only write the 'obj' and 'builddir' rules for the "primary" output + # (:1); it's superfluous for the "extra outputs", and this avoids + # accidentally writing duplicate dummy rules for those outputs. + self.WriteLn('%s: obj := $(abs_obj)' % outputs[0]) + self.WriteLn('%s: builddir := $(abs_builddir)' % outputs[0]) + self.WriteMakeRule(outputs, inputs + ['FORCE_DO_CMD'], actions) + # Spaces in rule filenames are not supported, but rule variables have + # spaces in them (e.g. RULE_INPUT_PATH expands to '$(abspath $<)'). + # The spaces within the variables are valid, so remove the variables + # before checking. + variables_with_spaces = re.compile(r'\$\([^ ]* \$<\)') + for output in outputs: + output = re.sub(variables_with_spaces, '', output) + assert ' ' not in output, ( + "Spaces in rule filenames not yet supported (%s)" % output) + self.WriteLn('all_deps += %s' % ' '.join(outputs)) + + action = [self.ExpandInputRoot(ac, rule_source_root, + rule_source_dirname) + for ac in rule['action']] + mkdirs = '' + if len(dirs) > 0: + mkdirs = 'mkdir -p %s; ' % ' '.join(dirs) + cd_action = 'cd %s; ' % Sourceify(self.path or '.') + + # action, cd_action, and mkdirs get written to a toplevel variable + # called cmd_foo. Toplevel variables can't handle things that change + # per makefile like $(TARGET), so hardcode the target. + if self.flavor == 'mac': + action = [gyp.xcode_emulation.ExpandEnvVars(command, env) + for command in action] + action = gyp.common.EncodePOSIXShellList(action) + action = action.replace('$(TARGET)', self.target) + cd_action = cd_action.replace('$(TARGET)', self.target) + mkdirs = mkdirs.replace('$(TARGET)', self.target) + + # Set LD_LIBRARY_PATH in case the rule runs an executable from this + # build which links to shared libs from this build. + # rules run on the host, so they should in theory only use host + # libraries, but until everything is made cross-compile safe, also use + # target libraries. + # TODO(piman): when everything is cross-compile safe, remove lib.target + self.WriteLn( + "cmd_%(name)s_%(count)d = LD_LIBRARY_PATH=" + "$(builddir)/lib.host:$(builddir)/lib.target:$$LD_LIBRARY_PATH; " + "export LD_LIBRARY_PATH; " + "%(cd_action)s%(mkdirs)s%(action)s" % { + 'action': action, + 'cd_action': cd_action, + 'count': count, + 'mkdirs': mkdirs, + 'name': name, + }) + self.WriteLn( + 'quiet_cmd_%(name)s_%(count)d = RULE %(name)s_%(count)d $@' % { + 'count': count, + 'name': name, + }) + self.WriteLn() + count += 1 + + outputs_variable = 'rule_%s_outputs' % name + self.WriteList(all_outputs, outputs_variable) + extra_outputs.append('$(%s)' % outputs_variable) + + self.WriteLn('### Finished generating for rule: %s' % name) + self.WriteLn() + self.WriteLn('### Finished generating for all rules') + self.WriteLn('') + + + def WriteCopies(self, copies, extra_outputs, part_of_all): + """Write Makefile code for any 'copies' from the gyp input. + + extra_outputs: a list that will be filled in with any outputs of this action + (used to make other pieces dependent on this action) + part_of_all: flag indicating this target is part of 'all' + """ + self.WriteLn('### Generated for copy rule.') + + variable = StringToMakefileVariable(self.qualified_target + '_copies') + outputs = [] + for copy in copies: + for path in copy['files']: + # Absolutify() may call normpath, and will strip trailing slashes. + path = Sourceify(self.Absolutify(path)) + filename = os.path.split(path)[1] + output = Sourceify(self.Absolutify(os.path.join(copy['destination'], + filename))) + + # If the output path has variables in it, which happens in practice for + # 'copies', writing the environment as target-local doesn't work, + # because the variables are already needed for the target name. + # Copying the environment variables into global make variables doesn't + # work either, because then the .d files will potentially contain spaces + # after variable expansion, and .d file handling cannot handle spaces. + # As a workaround, manually expand variables at gyp time. Since 'copies' + # can't run scripts, there's no need to write the env then. + # WriteDoCmd() will escape spaces for .d files. + env = self.GetSortedXcodeEnv() + output = gyp.xcode_emulation.ExpandEnvVars(output, env) + path = gyp.xcode_emulation.ExpandEnvVars(path, env) + self.WriteDoCmd([output], [path], 'copy', part_of_all) + outputs.append(output) + self.WriteLn('%s = %s' % (variable, ' '.join(map(QuoteSpaces, outputs)))) + extra_outputs.append('$(%s)' % variable) + self.WriteLn() + + + def WriteMacBundleResources(self, resources, bundle_deps): + """Writes Makefile code for 'mac_bundle_resources'.""" + self.WriteLn('### Generated for mac_bundle_resources') + + for output, res in gyp.xcode_emulation.GetMacBundleResources( + generator_default_variables['PRODUCT_DIR'], self.xcode_settings, + map(Sourceify, map(self.Absolutify, resources))): + self.WriteDoCmd([output], [res], 'mac_tool,,,copy-bundle-resource', + part_of_all=True) + bundle_deps.append(output) + + + def WriteMacInfoPlist(self, bundle_deps): + """Write Makefile code for bundle Info.plist files.""" + info_plist, out, defines, extra_env = gyp.xcode_emulation.GetMacInfoPlist( + generator_default_variables['PRODUCT_DIR'], self.xcode_settings, + lambda p: Sourceify(self.Absolutify(p))) + if not info_plist: + return + if defines: + # Create an intermediate file to store preprocessed results. + intermediate_plist = ('$(obj).$(TOOLSET)/$(TARGET)/' + + os.path.basename(info_plist)) + self.WriteList(defines, intermediate_plist + ': INFOPLIST_DEFINES', '-D', + quoter=EscapeCppDefine) + self.WriteMakeRule([intermediate_plist], [info_plist], + ['$(call do_cmd,infoplist)', + # "Convert" the plist so that any weird whitespace changes from the + # preprocessor do not affect the XML parser in mac_tool. + '@plutil -convert xml1 $@ $@']) + info_plist = intermediate_plist + # plists can contain envvars and substitute them into the file. + self.WriteSortedXcodeEnv( + out, self.GetSortedXcodeEnv(additional_settings=extra_env)) + self.WriteDoCmd([out], [info_plist], 'mac_tool,,,copy-info-plist', + part_of_all=True) + bundle_deps.append(out) + + + def WriteSources(self, configs, deps, sources, + extra_outputs, extra_link_deps, + part_of_all, precompiled_header): + """Write Makefile code for any 'sources' from the gyp input. + These are source files necessary to build the current target. + + configs, deps, sources: input from gyp. + extra_outputs: a list of extra outputs this action should be dependent on; + used to serialize action/rules before compilation + extra_link_deps: a list that will be filled in with any outputs of + compilation (to be used in link lines) + part_of_all: flag indicating this target is part of 'all' + """ + + # Write configuration-specific variables for CFLAGS, etc. + for configname in sorted(configs.keys()): + config = configs[configname] + self.WriteList(config.get('defines'), 'DEFS_%s' % configname, prefix='-D', + quoter=EscapeCppDefine) + + if self.flavor == 'mac': + cflags = self.xcode_settings.GetCflags(configname) + cflags_c = self.xcode_settings.GetCflagsC(configname) + cflags_cc = self.xcode_settings.GetCflagsCC(configname) + cflags_objc = self.xcode_settings.GetCflagsObjC(configname) + cflags_objcc = self.xcode_settings.GetCflagsObjCC(configname) + else: + cflags = config.get('cflags') + cflags_c = config.get('cflags_c') + cflags_cc = config.get('cflags_cc') + + self.WriteLn("# Flags passed to all source files."); + self.WriteList(cflags, 'CFLAGS_%s' % configname) + self.WriteLn("# Flags passed to only C files."); + self.WriteList(cflags_c, 'CFLAGS_C_%s' % configname) + self.WriteLn("# Flags passed to only C++ files."); + self.WriteList(cflags_cc, 'CFLAGS_CC_%s' % configname) + if self.flavor == 'mac': + self.WriteLn("# Flags passed to only ObjC files."); + self.WriteList(cflags_objc, 'CFLAGS_OBJC_%s' % configname) + self.WriteLn("# Flags passed to only ObjC++ files."); + self.WriteList(cflags_objcc, 'CFLAGS_OBJCC_%s' % configname) + includes = config.get('include_dirs') + if includes: + includes = map(Sourceify, map(self.Absolutify, includes)) + self.WriteList(includes, 'INCS_%s' % configname, prefix='-I') + + compilable = filter(Compilable, sources) + objs = map(self.Objectify, map(self.Absolutify, map(Target, compilable))) + self.WriteList(objs, 'OBJS') + + for obj in objs: + assert ' ' not in obj, ( + "Spaces in object filenames not supported (%s)" % obj) + self.WriteLn('# Add to the list of files we specially track ' + 'dependencies for.') + self.WriteLn('all_deps += $(OBJS)') + self.WriteLn() + + # Make sure our dependencies are built first. + if deps: + self.WriteMakeRule(['$(OBJS)'], deps, + comment = 'Make sure our dependencies are built ' + 'before any of us.', + order_only = True) + + # Make sure the actions and rules run first. + # If they generate any extra headers etc., the per-.o file dep tracking + # will catch the proper rebuilds, so order only is still ok here. + if extra_outputs: + self.WriteMakeRule(['$(OBJS)'], extra_outputs, + comment = 'Make sure our actions/rules run ' + 'before any of us.', + order_only = True) + + pchdeps = precompiled_header.GetObjDependencies(compilable, objs ) + if pchdeps: + self.WriteLn('# Dependencies from obj files to their precompiled headers') + for source, obj, gch in pchdeps: + self.WriteLn('%s: %s' % (obj, gch)) + self.WriteLn('# End precompiled header dependencies') + + if objs: + extra_link_deps.append('$(OBJS)') + self.WriteLn("""\ +# CFLAGS et al overrides must be target-local. +# See "Target-specific Variable Values" in the GNU Make manual.""") + self.WriteLn("$(OBJS): TOOLSET := $(TOOLSET)") + self.WriteLn("$(OBJS): GYP_CFLAGS := " + "$(DEFS_$(BUILDTYPE)) " + "$(INCS_$(BUILDTYPE)) " + "%s " % precompiled_header.GetInclude('c') + + "$(CFLAGS_$(BUILDTYPE)) " + "$(CFLAGS_C_$(BUILDTYPE))") + self.WriteLn("$(OBJS): GYP_CXXFLAGS := " + "$(DEFS_$(BUILDTYPE)) " + "$(INCS_$(BUILDTYPE)) " + "%s " % precompiled_header.GetInclude('cc') + + "$(CFLAGS_$(BUILDTYPE)) " + "$(CFLAGS_CC_$(BUILDTYPE))") + if self.flavor == 'mac': + self.WriteLn("$(OBJS): GYP_OBJCFLAGS := " + "$(DEFS_$(BUILDTYPE)) " + "$(INCS_$(BUILDTYPE)) " + "%s " % precompiled_header.GetInclude('m') + + "$(CFLAGS_$(BUILDTYPE)) " + "$(CFLAGS_C_$(BUILDTYPE)) " + "$(CFLAGS_OBJC_$(BUILDTYPE))") + self.WriteLn("$(OBJS): GYP_OBJCXXFLAGS := " + "$(DEFS_$(BUILDTYPE)) " + "$(INCS_$(BUILDTYPE)) " + "%s " % precompiled_header.GetInclude('mm') + + "$(CFLAGS_$(BUILDTYPE)) " + "$(CFLAGS_CC_$(BUILDTYPE)) " + "$(CFLAGS_OBJCC_$(BUILDTYPE))") + + self.WritePchTargets(precompiled_header.GetPchBuildCommands()) + + # If there are any object files in our input file list, link them into our + # output. + extra_link_deps += filter(Linkable, sources) + + self.WriteLn() + + def WritePchTargets(self, pch_commands): + """Writes make rules to compile prefix headers.""" + if not pch_commands: + return + + for gch, lang_flag, lang, input in pch_commands: + extra_flags = { + 'c': '$(CFLAGS_C_$(BUILDTYPE))', + 'cc': '$(CFLAGS_CC_$(BUILDTYPE))', + 'm': '$(CFLAGS_C_$(BUILDTYPE)) $(CFLAGS_OBJC_$(BUILDTYPE))', + 'mm': '$(CFLAGS_CC_$(BUILDTYPE)) $(CFLAGS_OBJCC_$(BUILDTYPE))', + }[lang] + var_name = { + 'c': 'GYP_PCH_CFLAGS', + 'cc': 'GYP_PCH_CXXFLAGS', + 'm': 'GYP_PCH_OBJCFLAGS', + 'mm': 'GYP_PCH_OBJCXXFLAGS', + }[lang] + self.WriteLn("%s: %s := %s " % (gch, var_name, lang_flag) + + "$(DEFS_$(BUILDTYPE)) " + "$(INCS_$(BUILDTYPE)) " + "$(CFLAGS_$(BUILDTYPE)) " + + extra_flags) + + self.WriteLn('%s: %s FORCE_DO_CMD' % (gch, input)) + self.WriteLn('\t@$(call do_cmd,pch_%s,1)' % lang) + self.WriteLn('') + assert ' ' not in gch, ( + "Spaces in gch filenames not supported (%s)" % gch) + self.WriteLn('all_deps += %s' % gch) + self.WriteLn('') + + + def ComputeOutputBasename(self, spec): + """Return the 'output basename' of a gyp spec. + + E.g., the loadable module 'foobar' in directory 'baz' will produce + 'libfoobar.so' + """ + assert not self.is_mac_bundle + + if self.flavor == 'mac' and self.type in ( + 'static_library', 'executable', 'shared_library', 'loadable_module'): + return self.xcode_settings.GetExecutablePath() + + target = spec['target_name'] + target_prefix = '' + target_ext = '' + if self.type == 'static_library': + if target[:3] == 'lib': + target = target[3:] + target_prefix = 'lib' + target_ext = '.a' + elif self.type in ('loadable_module', 'shared_library'): + if target[:3] == 'lib': + target = target[3:] + target_prefix = 'lib' + target_ext = '.so' + elif self.type == 'none': + target = '%s.stamp' % target + elif self.type != 'executable': + print ("ERROR: What output file should be generated?", + "type", self.type, "target", target) + + target_prefix = spec.get('product_prefix', target_prefix) + target = spec.get('product_name', target) + product_ext = spec.get('product_extension') + if product_ext: + target_ext = '.' + product_ext + + return target_prefix + target + target_ext + + + def _InstallImmediately(self): + return self.toolset == 'target' and self.flavor == 'mac' and self.type in ( + 'static_library', 'executable', 'shared_library', 'loadable_module') + + + def ComputeOutput(self, spec): + """Return the 'output' (full output path) of a gyp spec. + + E.g., the loadable module 'foobar' in directory 'baz' will produce + '$(obj)/baz/libfoobar.so' + """ + assert not self.is_mac_bundle + + path = os.path.join('$(obj).' + self.toolset, self.path) + if self.type == 'executable' or self._InstallImmediately(): + path = '$(builddir)' + path = spec.get('product_dir', path) + return os.path.join(path, self.ComputeOutputBasename(spec)) + + + def ComputeMacBundleOutput(self, spec): + """Return the 'output' (full output path) to a bundle output directory.""" + assert self.is_mac_bundle + path = generator_default_variables['PRODUCT_DIR'] + return os.path.join(path, self.xcode_settings.GetWrapperName()) + + + def ComputeMacBundleBinaryOutput(self, spec): + """Return the 'output' (full output path) to the binary in a bundle.""" + path = generator_default_variables['PRODUCT_DIR'] + return os.path.join(path, self.xcode_settings.GetExecutablePath()) + + + def ComputeDeps(self, spec): + """Compute the dependencies of a gyp spec. + + Returns a tuple (deps, link_deps), where each is a list of + filenames that will need to be put in front of make for either + building (deps) or linking (link_deps). + """ + deps = [] + link_deps = [] + if 'dependencies' in spec: + deps.extend([target_outputs[dep] for dep in spec['dependencies'] + if target_outputs[dep]]) + for dep in spec['dependencies']: + if dep in target_link_deps: + link_deps.append(target_link_deps[dep]) + deps.extend(link_deps) + # TODO: It seems we need to transitively link in libraries (e.g. -lfoo)? + # This hack makes it work: + # link_deps.extend(spec.get('libraries', [])) + return (gyp.common.uniquer(deps), gyp.common.uniquer(link_deps)) + + + def WriteDependencyOnExtraOutputs(self, target, extra_outputs): + self.WriteMakeRule([self.output_binary], extra_outputs, + comment = 'Build our special outputs first.', + order_only = True) + + + def WriteTarget(self, spec, configs, deps, link_deps, bundle_deps, + extra_outputs, part_of_all): + """Write Makefile code to produce the final target of the gyp spec. + + spec, configs: input from gyp. + deps, link_deps: dependency lists; see ComputeDeps() + extra_outputs: any extra outputs that our target should depend on + part_of_all: flag indicating this target is part of 'all' + """ + + self.WriteLn('### Rules for final target.') + + if extra_outputs: + self.WriteDependencyOnExtraOutputs(self.output_binary, extra_outputs) + self.WriteMakeRule(extra_outputs, deps, + comment=('Preserve order dependency of ' + 'special output on deps.'), + order_only = True) + + target_postbuilds = {} + if self.type != 'none': + for configname in sorted(configs.keys()): + config = configs[configname] + if self.flavor == 'mac': + ldflags = self.xcode_settings.GetLdflags(configname, + generator_default_variables['PRODUCT_DIR'], + lambda p: Sourceify(self.Absolutify(p))) + + # TARGET_POSTBUILDS_$(BUILDTYPE) is added to postbuilds later on. + gyp_to_build = gyp.common.InvertRelativePath(self.path) + target_postbuild = self.xcode_settings.AddImplicitPostbuilds( + configname, + QuoteSpaces(os.path.normpath(os.path.join(gyp_to_build, + self.output))), + QuoteSpaces(os.path.normpath(os.path.join(gyp_to_build, + self.output_binary)))) + if target_postbuild: + target_postbuilds[configname] = target_postbuild + else: + ldflags = config.get('ldflags', []) + # Compute an rpath for this output if needed. + if any(dep.endswith('.so') or '.so.' in dep for dep in deps): + # We want to get the literal string "$ORIGIN" into the link command, + # so we need lots of escaping. + ldflags.append(r'-Wl,-rpath=\$$ORIGIN/lib.%s/' % self.toolset) + ldflags.append(r'-Wl,-rpath-link=\$(builddir)/lib.%s/' % + self.toolset) + library_dirs = config.get('library_dirs', []) + ldflags += [('-L%s' % library_dir) for library_dir in library_dirs] + self.WriteList(ldflags, 'LDFLAGS_%s' % configname) + if self.flavor == 'mac': + self.WriteList(self.xcode_settings.GetLibtoolflags(configname), + 'LIBTOOLFLAGS_%s' % configname) + libraries = spec.get('libraries') + if libraries: + # Remove duplicate entries + libraries = gyp.common.uniquer(libraries) + if self.flavor == 'mac': + libraries = self.xcode_settings.AdjustLibraries(libraries) + self.WriteList(libraries, 'LIBS') + self.WriteLn('%s: GYP_LDFLAGS := $(LDFLAGS_$(BUILDTYPE))' % + QuoteSpaces(self.output_binary)) + self.WriteLn('%s: LIBS := $(LIBS)' % QuoteSpaces(self.output_binary)) + + if self.flavor == 'mac': + self.WriteLn('%s: GYP_LIBTOOLFLAGS := $(LIBTOOLFLAGS_$(BUILDTYPE))' % + QuoteSpaces(self.output_binary)) + + # Postbuild actions. Like actions, but implicitly depend on the target's + # output. + postbuilds = [] + if self.flavor == 'mac': + if target_postbuilds: + postbuilds.append('$(TARGET_POSTBUILDS_$(BUILDTYPE))') + postbuilds.extend( + gyp.xcode_emulation.GetSpecPostbuildCommands(spec)) + + if postbuilds: + # Envvars may be referenced by TARGET_POSTBUILDS_$(BUILDTYPE), + # so we must output its definition first, since we declare variables + # using ":=". + self.WriteSortedXcodeEnv(self.output, self.GetSortedXcodePostbuildEnv()) + + for configname in target_postbuilds: + self.WriteLn('%s: TARGET_POSTBUILDS_%s := %s' % + (QuoteSpaces(self.output), + configname, + gyp.common.EncodePOSIXShellList(target_postbuilds[configname]))) + + # Postbuilds expect to be run in the gyp file's directory, so insert an + # implicit postbuild to cd to there. + postbuilds.insert(0, gyp.common.EncodePOSIXShellList(['cd', self.path])) + for i in xrange(len(postbuilds)): + if not postbuilds[i].startswith('$'): + postbuilds[i] = EscapeShellArgument(postbuilds[i]) + self.WriteLn('%s: builddir := $(abs_builddir)' % QuoteSpaces(self.output)) + self.WriteLn('%s: POSTBUILDS := %s' % ( + QuoteSpaces(self.output), ' '.join(postbuilds))) + + # A bundle directory depends on its dependencies such as bundle resources + # and bundle binary. When all dependencies have been built, the bundle + # needs to be packaged. + if self.is_mac_bundle: + # If the framework doesn't contain a binary, then nothing depends + # on the actions -- make the framework depend on them directly too. + self.WriteDependencyOnExtraOutputs(self.output, extra_outputs) + + # Bundle dependencies. Note that the code below adds actions to this + # target, so if you move these two lines, move the lines below as well. + self.WriteList(map(QuoteSpaces, bundle_deps), 'BUNDLE_DEPS') + self.WriteLn('%s: $(BUNDLE_DEPS)' % QuoteSpaces(self.output)) + + # After the framework is built, package it. Needs to happen before + # postbuilds, since postbuilds depend on this. + if self.type in ('shared_library', 'loadable_module'): + self.WriteLn('\t@$(call do_cmd,mac_package_framework,,,%s)' % + self.xcode_settings.GetFrameworkVersion()) + + # Bundle postbuilds can depend on the whole bundle, so run them after + # the bundle is packaged, not already after the bundle binary is done. + if postbuilds: + self.WriteLn('\t@$(call do_postbuilds)') + postbuilds = [] # Don't write postbuilds for target's output. + + # Needed by test/mac/gyptest-rebuild.py. + self.WriteLn('\t@true # No-op, used by tests') + + # Since this target depends on binary and resources which are in + # nested subfolders, the framework directory will be older than + # its dependencies usually. To prevent this rule from executing + # on every build (expensive, especially with postbuilds), expliclity + # update the time on the framework directory. + self.WriteLn('\t@touch -c %s' % QuoteSpaces(self.output)) + + if postbuilds: + assert not self.is_mac_bundle, ('Postbuilds for bundles should be done ' + 'on the bundle, not the binary (target \'%s\')' % self.target) + assert 'product_dir' not in spec, ('Postbuilds do not work with ' + 'custom product_dir') + + if self.type == 'executable': + self.WriteLn('%s: LD_INPUTS := %s' % ( + QuoteSpaces(self.output_binary), + ' '.join(map(QuoteSpaces, link_deps)))) + if self.toolset == 'host' and self.flavor == 'android': + self.WriteDoCmd([self.output_binary], link_deps, 'link_host', + part_of_all, postbuilds=postbuilds) + else: + self.WriteDoCmd([self.output_binary], link_deps, 'link', part_of_all, + postbuilds=postbuilds) + + elif self.type == 'static_library': + for link_dep in link_deps: + assert ' ' not in link_dep, ( + "Spaces in alink input filenames not supported (%s)" % link_dep) + if (self.flavor not in ('mac', 'openbsd', 'win') and not + self.is_standalone_static_library): + self.WriteDoCmd([self.output_binary], link_deps, 'alink_thin', + part_of_all, postbuilds=postbuilds) + else: + self.WriteDoCmd([self.output_binary], link_deps, 'alink', part_of_all, + postbuilds=postbuilds) + elif self.type == 'shared_library': + self.WriteLn('%s: LD_INPUTS := %s' % ( + QuoteSpaces(self.output_binary), + ' '.join(map(QuoteSpaces, link_deps)))) + self.WriteDoCmd([self.output_binary], link_deps, 'solink', part_of_all, + postbuilds=postbuilds) + elif self.type == 'loadable_module': + for link_dep in link_deps: + assert ' ' not in link_dep, ( + "Spaces in module input filenames not supported (%s)" % link_dep) + if self.toolset == 'host' and self.flavor == 'android': + self.WriteDoCmd([self.output_binary], link_deps, 'solink_module_host', + part_of_all, postbuilds=postbuilds) + else: + self.WriteDoCmd( + [self.output_binary], link_deps, 'solink_module', part_of_all, + postbuilds=postbuilds) + elif self.type == 'none': + # Write a stamp line. + self.WriteDoCmd([self.output_binary], deps, 'touch', part_of_all, + postbuilds=postbuilds) + else: + print "WARNING: no output for", self.type, target + + # Add an alias for each target (if there are any outputs). + # Installable target aliases are created below. + if ((self.output and self.output != self.target) and + (self.type not in self._INSTALLABLE_TARGETS)): + self.WriteMakeRule([self.target], [self.output], + comment='Add target alias', phony = True) + if part_of_all: + self.WriteMakeRule(['all'], [self.target], + comment = 'Add target alias to "all" target.', + phony = True) + + # Add special-case rules for our installable targets. + # 1) They need to install to the build dir or "product" dir. + # 2) They get shortcuts for building (e.g. "make chrome"). + # 3) They are part of "make all". + if (self.type in self._INSTALLABLE_TARGETS or + self.is_standalone_static_library): + if self.type == 'shared_library': + file_desc = 'shared library' + elif self.type == 'static_library': + file_desc = 'static library' + else: + file_desc = 'executable' + install_path = self._InstallableTargetInstallPath() + installable_deps = [self.output] + if (self.flavor == 'mac' and not 'product_dir' in spec and + self.toolset == 'target'): + # On mac, products are created in install_path immediately. + assert install_path == self.output, '%s != %s' % ( + install_path, self.output) + + # Point the target alias to the final binary output. + self.WriteMakeRule([self.target], [install_path], + comment='Add target alias', phony = True) + if install_path != self.output: + assert not self.is_mac_bundle # See comment a few lines above. + self.WriteDoCmd([install_path], [self.output], 'copy', + comment = 'Copy this to the %s output path.' % + file_desc, part_of_all=part_of_all) + installable_deps.append(install_path) + if self.output != self.alias and self.alias != self.target: + self.WriteMakeRule([self.alias], installable_deps, + comment = 'Short alias for building this %s.' % + file_desc, phony = True) + if part_of_all: + self.WriteMakeRule(['all'], [install_path], + comment = 'Add %s to "all" target.' % file_desc, + phony = True) + + + def WriteList(self, value_list, variable=None, prefix='', + quoter=QuoteIfNecessary): + """Write a variable definition that is a list of values. + + E.g. WriteList(['a','b'], 'foo', prefix='blah') writes out + foo = blaha blahb + but in a pretty-printed style. + """ + values = '' + if value_list: + value_list = [quoter(prefix + l) for l in value_list] + values = ' \\\n\t' + ' \\\n\t'.join(value_list) + self.fp.write('%s :=%s\n\n' % (variable, values)) + + + def WriteDoCmd(self, outputs, inputs, command, part_of_all, comment=None, + postbuilds=False): + """Write a Makefile rule that uses do_cmd. + + This makes the outputs dependent on the command line that was run, + as well as support the V= make command line flag. + """ + suffix = '' + if postbuilds: + assert ',' not in command + suffix = ',,1' # Tell do_cmd to honor $POSTBUILDS + self.WriteMakeRule(outputs, inputs, + actions = ['$(call do_cmd,%s%s)' % (command, suffix)], + comment = comment, + force = True) + # Add our outputs to the list of targets we read depfiles from. + # all_deps is only used for deps file reading, and for deps files we replace + # spaces with ? because escaping doesn't work with make's $(sort) and + # other functions. + outputs = [QuoteSpaces(o, SPACE_REPLACEMENT) for o in outputs] + self.WriteLn('all_deps += %s' % ' '.join(outputs)) + + + def WriteMakeRule(self, outputs, inputs, actions=None, comment=None, + order_only=False, force=False, phony=False): + """Write a Makefile rule, with some extra tricks. + + outputs: a list of outputs for the rule (note: this is not directly + supported by make; see comments below) + inputs: a list of inputs for the rule + actions: a list of shell commands to run for the rule + comment: a comment to put in the Makefile above the rule (also useful + for making this Python script's code self-documenting) + order_only: if true, makes the dependency order-only + force: if true, include FORCE_DO_CMD as an order-only dep + phony: if true, the rule does not actually generate the named output, the + output is just a name to run the rule + """ + outputs = map(QuoteSpaces, outputs) + inputs = map(QuoteSpaces, inputs) + + if comment: + self.WriteLn('# ' + comment) + if phony: + self.WriteLn('.PHONY: ' + ' '.join(outputs)) + # TODO(evanm): just make order_only a list of deps instead of these hacks. + if order_only: + order_insert = '| ' + pick_output = ' '.join(outputs) + else: + order_insert = '' + pick_output = outputs[0] + if force: + force_append = ' FORCE_DO_CMD' + else: + force_append = '' + if actions: + self.WriteLn("%s: TOOLSET := $(TOOLSET)" % outputs[0]) + self.WriteLn('%s: %s%s%s' % (pick_output, order_insert, ' '.join(inputs), + force_append)) + if actions: + for action in actions: + self.WriteLn('\t%s' % action) + if not order_only and len(outputs) > 1: + # If we have more than one output, a rule like + # foo bar: baz + # that for *each* output we must run the action, potentially + # in parallel. That is not what we're trying to write -- what + # we want is that we run the action once and it generates all + # the files. + # http://www.gnu.org/software/hello/manual/automake/Multiple-Outputs.html + # discusses this problem and has this solution: + # 1) Write the naive rule that would produce parallel runs of + # the action. + # 2) Make the outputs seralized on each other, so we won't start + # a parallel run until the first run finishes, at which point + # we'll have generated all the outputs and we're done. + self.WriteLn('%s: %s' % (' '.join(outputs[1:]), outputs[0])) + # Add a dummy command to the "extra outputs" rule, otherwise make seems to + # think these outputs haven't (couldn't have?) changed, and thus doesn't + # flag them as changed (i.e. include in '$?') when evaluating dependent + # rules, which in turn causes do_cmd() to skip running dependent commands. + self.WriteLn('%s: ;' % (' '.join(outputs[1:]))) + self.WriteLn() + + + def WriteAndroidNdkModuleRule(self, module_name, all_sources, link_deps): + """Write a set of LOCAL_XXX definitions for Android NDK. + + These variable definitions will be used by Android NDK but do nothing for + non-Android applications. + + Arguments: + module_name: Android NDK module name, which must be unique among all + module names. + all_sources: A list of source files (will be filtered by Compilable). + link_deps: A list of link dependencies, which must be sorted in + the order from dependencies to dependents. + """ + if self.type not in ('executable', 'shared_library', 'static_library'): + return + + self.WriteLn('# Variable definitions for Android applications') + self.WriteLn('include $(CLEAR_VARS)') + self.WriteLn('LOCAL_MODULE := ' + module_name) + self.WriteLn('LOCAL_CFLAGS := $(CFLAGS_$(BUILDTYPE)) ' + '$(DEFS_$(BUILDTYPE)) ' + # LOCAL_CFLAGS is applied to both of C and C++. There is + # no way to specify $(CFLAGS_C_$(BUILDTYPE)) only for C + # sources. + '$(CFLAGS_C_$(BUILDTYPE)) ' + # $(INCS_$(BUILDTYPE)) includes the prefix '-I' while + # LOCAL_C_INCLUDES does not expect it. So put it in + # LOCAL_CFLAGS. + '$(INCS_$(BUILDTYPE))') + # LOCAL_CXXFLAGS is obsolete and LOCAL_CPPFLAGS is preferred. + self.WriteLn('LOCAL_CPPFLAGS := $(CFLAGS_CC_$(BUILDTYPE))') + self.WriteLn('LOCAL_C_INCLUDES :=') + self.WriteLn('LOCAL_LDLIBS := $(LDFLAGS_$(BUILDTYPE)) $(LIBS)') + + # Detect the C++ extension. + cpp_ext = {'.cc': 0, '.cpp': 0, '.cxx': 0} + default_cpp_ext = '.cpp' + for filename in all_sources: + ext = os.path.splitext(filename)[1] + if ext in cpp_ext: + cpp_ext[ext] += 1 + if cpp_ext[ext] > cpp_ext[default_cpp_ext]: + default_cpp_ext = ext + self.WriteLn('LOCAL_CPP_EXTENSION := ' + default_cpp_ext) + + self.WriteList(map(self.Absolutify, filter(Compilable, all_sources)), + 'LOCAL_SRC_FILES') + + # Filter out those which do not match prefix and suffix and produce + # the resulting list without prefix and suffix. + def DepsToModules(deps, prefix, suffix): + modules = [] + for filepath in deps: + filename = os.path.basename(filepath) + if filename.startswith(prefix) and filename.endswith(suffix): + modules.append(filename[len(prefix):-len(suffix)]) + return modules + + # Retrieve the default value of 'SHARED_LIB_SUFFIX' + params = {'flavor': 'linux'} + default_variables = {} + CalculateVariables(default_variables, params) + + self.WriteList( + DepsToModules(link_deps, + generator_default_variables['SHARED_LIB_PREFIX'], + default_variables['SHARED_LIB_SUFFIX']), + 'LOCAL_SHARED_LIBRARIES') + self.WriteList( + DepsToModules(link_deps, + generator_default_variables['STATIC_LIB_PREFIX'], + generator_default_variables['STATIC_LIB_SUFFIX']), + 'LOCAL_STATIC_LIBRARIES') + + if self.type == 'executable': + self.WriteLn('include $(BUILD_EXECUTABLE)') + elif self.type == 'shared_library': + self.WriteLn('include $(BUILD_SHARED_LIBRARY)') + elif self.type == 'static_library': + self.WriteLn('include $(BUILD_STATIC_LIBRARY)') + self.WriteLn() + + + def WriteLn(self, text=''): + self.fp.write(text + '\n') + + + def GetSortedXcodeEnv(self, additional_settings=None): + return gyp.xcode_emulation.GetSortedXcodeEnv( + self.xcode_settings, "$(abs_builddir)", + os.path.join("$(abs_srcdir)", self.path), "$(BUILDTYPE)", + additional_settings) + + + def GetSortedXcodePostbuildEnv(self): + # CHROMIUM_STRIP_SAVE_FILE is a chromium-specific hack. + # TODO(thakis): It would be nice to have some general mechanism instead. + strip_save_file = self.xcode_settings.GetPerTargetSetting( + 'CHROMIUM_STRIP_SAVE_FILE', '') + # Even if strip_save_file is empty, explicitly write it. Else a postbuild + # might pick up an export from an earlier target. + return self.GetSortedXcodeEnv( + additional_settings={'CHROMIUM_STRIP_SAVE_FILE': strip_save_file}) + + + def WriteSortedXcodeEnv(self, target, env): + for k, v in env: + # For + # foo := a\ b + # the escaped space does the right thing. For + # export foo := a\ b + # it does not -- the backslash is written to the env as literal character. + # So don't escape spaces in |env[k]|. + self.WriteLn('%s: export %s := %s' % (QuoteSpaces(target), k, v)) + + + def Objectify(self, path): + """Convert a path to its output directory form.""" + if '$(' in path: + path = path.replace('$(obj)/', '$(obj).%s/$(TARGET)/' % self.toolset) + if not '$(obj)' in path: + path = '$(obj).%s/$(TARGET)/%s' % (self.toolset, path) + return path + + + def Pchify(self, path, lang): + """Convert a prefix header path to its output directory form.""" + path = self.Absolutify(path) + if '$(' in path: + path = path.replace('$(obj)/', '$(obj).%s/$(TARGET)/pch-%s' % + (self.toolset, lang)) + return path + return '$(obj).%s/$(TARGET)/pch-%s/%s' % (self.toolset, lang, path) + + + def Absolutify(self, path): + """Convert a subdirectory-relative path into a base-relative path. + Skips over paths that contain variables.""" + if '$(' in path: + # Don't call normpath in this case, as it might collapse the + # path too aggressively if it features '..'. However it's still + # important to strip trailing slashes. + return path.rstrip('/') + return os.path.normpath(os.path.join(self.path, path)) + + + def ExpandInputRoot(self, template, expansion, dirname): + if '%(INPUT_ROOT)s' not in template and '%(INPUT_DIRNAME)s' not in template: + return template + path = template % { + 'INPUT_ROOT': expansion, + 'INPUT_DIRNAME': dirname, + } + return path + + + def _InstallableTargetInstallPath(self): + """Returns the location of the final output for an installable target.""" + # Xcode puts shared_library results into PRODUCT_DIR, and some gyp files + # rely on this. Emulate this behavior for mac. + if (self.type == 'shared_library' and + (self.flavor != 'mac' or self.toolset != 'target')): + # Install all shared libs into a common directory (per toolset) for + # convenient access with LD_LIBRARY_PATH. + return '$(builddir)/lib.%s/%s' % (self.toolset, self.alias) + return '$(builddir)/' + self.alias + + +def WriteAutoRegenerationRule(params, root_makefile, makefile_name, + build_files): + """Write the target to regenerate the Makefile.""" + options = params['options'] + build_files_args = [gyp.common.RelativePath(filename, options.toplevel_dir) + for filename in params['build_files_arg']] + + gyp_binary = gyp.common.FixIfRelativePath(params['gyp_binary'], + options.toplevel_dir) + if not gyp_binary.startswith(os.sep): + gyp_binary = os.path.join('.', gyp_binary) + + root_makefile.write( + "quiet_cmd_regen_makefile = ACTION Regenerating $@\n" + "cmd_regen_makefile = cd $(srcdir); %(cmd)s\n" + "%(makefile_name)s: %(deps)s\n" + "\t$(call do_cmd,regen_makefile)\n\n" % { + 'makefile_name': makefile_name, + 'deps': ' '.join(map(Sourceify, build_files)), + 'cmd': gyp.common.EncodePOSIXShellList( + [gyp_binary, '-fmake'] + + gyp.RegenerateFlags(options) + + build_files_args)}) + + +def PerformBuild(data, configurations, params): + options = params['options'] + for config in configurations: + arguments = ['make'] + if options.toplevel_dir and options.toplevel_dir != '.': + arguments += '-C', options.toplevel_dir + arguments.append('BUILDTYPE=' + config) + print 'Building [%s]: %s' % (config, arguments) + subprocess.check_call(arguments) + + +def GenerateOutput(target_list, target_dicts, data, params): + options = params['options'] + flavor = gyp.common.GetFlavor(params) + generator_flags = params.get('generator_flags', {}) + builddir_name = generator_flags.get('output_dir', 'out') + android_ndk_version = generator_flags.get('android_ndk_version', None) + default_target = generator_flags.get('default_target', 'all') + + def CalculateMakefilePath(build_file, base_name): + """Determine where to write a Makefile for a given gyp file.""" + # Paths in gyp files are relative to the .gyp file, but we want + # paths relative to the source root for the master makefile. Grab + # the path of the .gyp file as the base to relativize against. + # E.g. "foo/bar" when we're constructing targets for "foo/bar/baz.gyp". + base_path = gyp.common.RelativePath(os.path.dirname(build_file), + options.depth) + # We write the file in the base_path directory. + output_file = os.path.join(options.depth, base_path, base_name) + if options.generator_output: + output_file = os.path.join( + options.depth, options.generator_output, base_path, base_name) + base_path = gyp.common.RelativePath(os.path.dirname(build_file), + options.toplevel_dir) + return base_path, output_file + + # TODO: search for the first non-'Default' target. This can go + # away when we add verification that all targets have the + # necessary configurations. + default_configuration = None + toolsets = set([target_dicts[target]['toolset'] for target in target_list]) + for target in target_list: + spec = target_dicts[target] + if spec['default_configuration'] != 'Default': + default_configuration = spec['default_configuration'] + break + if not default_configuration: + default_configuration = 'Default' + + srcdir = '.' + makefile_name = 'Makefile' + options.suffix + makefile_path = os.path.join(options.toplevel_dir, makefile_name) + if options.generator_output: + global srcdir_prefix + makefile_path = os.path.join( + options.toplevel_dir, options.generator_output, makefile_name) + srcdir = gyp.common.RelativePath(srcdir, options.generator_output) + srcdir_prefix = '$(srcdir)/' + + flock_command= 'flock' + header_params = { + 'default_target': default_target, + 'builddir': builddir_name, + 'default_configuration': default_configuration, + 'flock': flock_command, + 'flock_index': 1, + 'link_commands': LINK_COMMANDS_LINUX, + 'extra_commands': '', + 'srcdir': srcdir, + } + if flavor == 'mac': + flock_command = './gyp-mac-tool flock' + header_params.update({ + 'flock': flock_command, + 'flock_index': 2, + 'link_commands': LINK_COMMANDS_MAC, + 'extra_commands': SHARED_HEADER_MAC_COMMANDS, + }) + elif flavor == 'android': + header_params.update({ + 'link_commands': LINK_COMMANDS_ANDROID, + }) + elif flavor == 'solaris': + header_params.update({ + 'flock': './gyp-flock-tool flock', + 'flock_index': 2, + }) + elif flavor == 'freebsd': + # Note: OpenBSD has sysutils/flock. lockf seems to be FreeBSD specific. + header_params.update({ + 'flock': 'lockf', + }) + elif flavor == 'aix': + header_params.update({ + 'link_commands': LINK_COMMANDS_AIX, + 'flock': './gyp-flock-tool flock', + 'flock_index': 2, + }) + + header_params.update({ + 'CC.target': GetEnvironFallback(('CC_target', 'CC'), '$(CC)'), + 'AR.target': GetEnvironFallback(('AR_target', 'AR'), '$(AR)'), + 'CXX.target': GetEnvironFallback(('CXX_target', 'CXX'), '$(CXX)'), + 'LINK.target': GetEnvironFallback(('LINK_target', 'LINK'), '$(LINK)'), + 'CC.host': GetEnvironFallback(('CC_host',), 'gcc'), + 'AR.host': GetEnvironFallback(('AR_host',), 'ar'), + 'CXX.host': GetEnvironFallback(('CXX_host',), 'g++'), + 'LINK.host': GetEnvironFallback(('LINK_host',), '$(CXX.host)'), + }) + + build_file, _, _ = gyp.common.ParseQualifiedTarget(target_list[0]) + make_global_settings_array = data[build_file].get('make_global_settings', []) + wrappers = {} + wrappers['LINK'] = '%s $(builddir)/linker.lock' % flock_command + for key, value in make_global_settings_array: + if key.endswith('_wrapper'): + wrappers[key[:-len('_wrapper')]] = '$(abspath %s)' % value + make_global_settings = '' + for key, value in make_global_settings_array: + if re.match('.*_wrapper', key): + continue + if value[0] != '$': + value = '$(abspath %s)' % value + wrapper = wrappers.get(key) + if wrapper: + value = '%s %s' % (wrapper, value) + del wrappers[key] + if key in ('CC', 'CC.host', 'CXX', 'CXX.host'): + make_global_settings += ( + 'ifneq (,$(filter $(origin %s), undefined default))\n' % key) + # Let gyp-time envvars win over global settings. + env_key = key.replace('.', '_') # CC.host -> CC_host + if env_key in os.environ: + value = os.environ[env_key] + make_global_settings += ' %s = %s\n' % (key, value) + make_global_settings += 'endif\n' + else: + make_global_settings += '%s ?= %s\n' % (key, value) + # TODO(ukai): define cmd when only wrapper is specified in + # make_global_settings. + + header_params['make_global_settings'] = make_global_settings + + gyp.common.EnsureDirExists(makefile_path) + root_makefile = open(makefile_path, 'w') + root_makefile.write(SHARED_HEADER % header_params) + # Currently any versions have the same effect, but in future the behavior + # could be different. + if android_ndk_version: + root_makefile.write( + '# Define LOCAL_PATH for build of Android applications.\n' + 'LOCAL_PATH := $(call my-dir)\n' + '\n') + for toolset in toolsets: + root_makefile.write('TOOLSET := %s\n' % toolset) + WriteRootHeaderSuffixRules(root_makefile) + + # Put build-time support tools next to the root Makefile. + dest_path = os.path.dirname(makefile_path) + gyp.common.CopyTool(flavor, dest_path) + + # Find the list of targets that derive from the gyp file(s) being built. + needed_targets = set() + for build_file in params['build_files']: + for target in gyp.common.AllTargets(target_list, target_dicts, build_file): + needed_targets.add(target) + + build_files = set() + include_list = set() + for qualified_target in target_list: + build_file, target, toolset = gyp.common.ParseQualifiedTarget( + qualified_target) + + this_make_global_settings = data[build_file].get('make_global_settings', []) + assert make_global_settings_array == this_make_global_settings, ( + "make_global_settings needs to be the same for all targets. %s vs. %s" % + (this_make_global_settings, make_global_settings)) + + build_files.add(gyp.common.RelativePath(build_file, options.toplevel_dir)) + included_files = data[build_file]['included_files'] + for included_file in included_files: + # The included_files entries are relative to the dir of the build file + # that included them, so we have to undo that and then make them relative + # to the root dir. + relative_include_file = gyp.common.RelativePath( + gyp.common.UnrelativePath(included_file, build_file), + options.toplevel_dir) + abs_include_file = os.path.abspath(relative_include_file) + # If the include file is from the ~/.gyp dir, we should use absolute path + # so that relocating the src dir doesn't break the path. + if (params['home_dot_gyp'] and + abs_include_file.startswith(params['home_dot_gyp'])): + build_files.add(abs_include_file) + else: + build_files.add(relative_include_file) + + base_path, output_file = CalculateMakefilePath(build_file, + target + '.' + toolset + options.suffix + '.mk') + + spec = target_dicts[qualified_target] + configs = spec['configurations'] + + if flavor == 'mac': + gyp.xcode_emulation.MergeGlobalXcodeSettingsToSpec(data[build_file], spec) + + writer = MakefileWriter(generator_flags, flavor) + writer.Write(qualified_target, base_path, output_file, spec, configs, + part_of_all=qualified_target in needed_targets) + + # Our root_makefile lives at the source root. Compute the relative path + # from there to the output_file for including. + mkfile_rel_path = gyp.common.RelativePath(output_file, + os.path.dirname(makefile_path)) + include_list.add(mkfile_rel_path) + + # Write out per-gyp (sub-project) Makefiles. + depth_rel_path = gyp.common.RelativePath(options.depth, os.getcwd()) + for build_file in build_files: + # The paths in build_files were relativized above, so undo that before + # testing against the non-relativized items in target_list and before + # calculating the Makefile path. + build_file = os.path.join(depth_rel_path, build_file) + gyp_targets = [target_dicts[target]['target_name'] for target in target_list + if target.startswith(build_file) and + target in needed_targets] + # Only generate Makefiles for gyp files with targets. + if not gyp_targets: + continue + base_path, output_file = CalculateMakefilePath(build_file, + os.path.splitext(os.path.basename(build_file))[0] + '.Makefile') + makefile_rel_path = gyp.common.RelativePath(os.path.dirname(makefile_path), + os.path.dirname(output_file)) + writer.WriteSubMake(output_file, makefile_rel_path, gyp_targets, + builddir_name) + + + # Write out the sorted list of includes. + root_makefile.write('\n') + for include_file in sorted(include_list): + # We wrap each .mk include in an if statement so users can tell make to + # not load a file by setting NO_LOAD. The below make code says, only + # load the .mk file if the .mk filename doesn't start with a token in + # NO_LOAD. + root_makefile.write( + "ifeq ($(strip $(foreach prefix,$(NO_LOAD),\\\n" + " $(findstring $(join ^,$(prefix)),\\\n" + " $(join ^," + include_file + ")))),)\n") + root_makefile.write(" include " + include_file + "\n") + root_makefile.write("endif\n") + root_makefile.write('\n') + + if (not generator_flags.get('standalone') + and generator_flags.get('auto_regeneration', True)): + WriteAutoRegenerationRule(params, root_makefile, makefile_name, build_files) + + root_makefile.write(SHARED_FOOTER) + + root_makefile.close() diff --git a/deps/gyp/pylib/gyp/generator/msvs.py b/deps/gyp/pylib/gyp/generator/msvs.py new file mode 100644 index 0000000000..9dcdab6cfa --- /dev/null +++ b/deps/gyp/pylib/gyp/generator/msvs.py @@ -0,0 +1,3335 @@ +# Copyright (c) 2012 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +import collections +import copy +import ntpath +import os +import posixpath +import re +import subprocess +import sys + +import gyp.common +import gyp.easy_xml as easy_xml +import gyp.MSVSNew as MSVSNew +import gyp.MSVSProject as MSVSProject +import gyp.MSVSSettings as MSVSSettings +import gyp.MSVSToolFile as MSVSToolFile +import gyp.MSVSUserFile as MSVSUserFile +import gyp.MSVSUtil as MSVSUtil +import gyp.MSVSVersion as MSVSVersion +from gyp.common import GypError + +# TODO: Remove once bots are on 2.7, http://crbug.com/241769 +def _import_OrderedDict(): + import collections + try: + return collections.OrderedDict + except AttributeError: + import gyp.ordered_dict + return gyp.ordered_dict.OrderedDict +OrderedDict = _import_OrderedDict() + + +# Regular expression for validating Visual Studio GUIDs. If the GUID +# contains lowercase hex letters, MSVS will be fine. However, +# IncrediBuild BuildConsole will parse the solution file, but then +# silently skip building the target causing hard to track down errors. +# Note that this only happens with the BuildConsole, and does not occur +# if IncrediBuild is executed from inside Visual Studio. This regex +# validates that the string looks like a GUID with all uppercase hex +# letters. +VALID_MSVS_GUID_CHARS = re.compile('^[A-F0-9\-]+$') + + +generator_default_variables = { + 'EXECUTABLE_PREFIX': '', + 'EXECUTABLE_SUFFIX': '.exe', + 'STATIC_LIB_PREFIX': '', + 'SHARED_LIB_PREFIX': '', + 'STATIC_LIB_SUFFIX': '.lib', + 'SHARED_LIB_SUFFIX': '.dll', + 'INTERMEDIATE_DIR': '$(IntDir)', + 'SHARED_INTERMEDIATE_DIR': '$(OutDir)obj/global_intermediate', + 'OS': 'win', + 'PRODUCT_DIR': '$(OutDir)', + 'LIB_DIR': '$(OutDir)lib', + 'RULE_INPUT_ROOT': '$(InputName)', + 'RULE_INPUT_DIRNAME': '$(InputDir)', + 'RULE_INPUT_EXT': '$(InputExt)', + 'RULE_INPUT_NAME': '$(InputFileName)', + 'RULE_INPUT_PATH': '$(InputPath)', + 'CONFIGURATION_NAME': '$(ConfigurationName)', +} + + +# The msvs specific sections that hold paths +generator_additional_path_sections = [ + 'msvs_cygwin_dirs', + 'msvs_props', +] + + +generator_additional_non_configuration_keys = [ + 'msvs_cygwin_dirs', + 'msvs_cygwin_shell', + 'msvs_large_pdb', + 'msvs_shard', + 'msvs_external_builder', + 'msvs_external_builder_out_dir', + 'msvs_external_builder_build_cmd', + 'msvs_external_builder_clean_cmd', +] + + +# List of precompiled header related keys. +precomp_keys = [ + 'msvs_precompiled_header', + 'msvs_precompiled_source', +] + + +cached_username = None + + +cached_domain = None + + +# Based on http://code.activestate.com/recipes/576694/. +class OrderedSet(collections.MutableSet): + def __init__(self, iterable=None): + self.end = end = [] + end += [None, end, end] # sentinel node for doubly linked list + self.map = {} # key --> [key, prev, next] + if iterable is not None: + self |= iterable + + def __len__(self): + return len(self.map) + + def discard(self, key): + if key in self.map: + key, prev, next = self.map.pop(key) + prev[2] = next + next[1] = prev + + def __contains__(self, key): + return key in self.map + + def add(self, key): + if key not in self.map: + end = self.end + curr = end[1] + curr[2] = end[1] = self.map[key] = [key, curr, end] + + def update(self, iterable): + for i in iterable: + if i not in self: + self.add(i) + + def __iter__(self): + end = self.end + curr = end[2] + while curr is not end: + yield curr[0] + curr = curr[2] + + +# TODO(gspencer): Switch the os.environ calls to be +# win32api.GetDomainName() and win32api.GetUserName() once the +# python version in depot_tools has been updated to work on Vista +# 64-bit. +def _GetDomainAndUserName(): + if sys.platform not in ('win32', 'cygwin'): + return ('DOMAIN', 'USERNAME') + global cached_username + global cached_domain + if not cached_domain or not cached_username: + domain = os.environ.get('USERDOMAIN') + username = os.environ.get('USERNAME') + if not domain or not username: + call = subprocess.Popen(['net', 'config', 'Workstation'], + stdout=subprocess.PIPE) + config = call.communicate()[0] + username_re = re.compile('^User name\s+(\S+)', re.MULTILINE) + username_match = username_re.search(config) + if username_match: + username = username_match.group(1) + domain_re = re.compile('^Logon domain\s+(\S+)', re.MULTILINE) + domain_match = domain_re.search(config) + if domain_match: + domain = domain_match.group(1) + cached_domain = domain + cached_username = username + return (cached_domain, cached_username) + +fixpath_prefix = None + + +def _NormalizedSource(source): + """Normalize the path. + + But not if that gets rid of a variable, as this may expand to something + larger than one directory. + + Arguments: + source: The path to be normalize.d + + Returns: + The normalized path. + """ + normalized = os.path.normpath(source) + if source.count('$') == normalized.count('$'): + source = normalized + return source + + +def _FixPath(path): + """Convert paths to a form that will make sense in a vcproj file. + + Arguments: + path: The path to convert, may contain / etc. + Returns: + The path with all slashes made into backslashes. + """ + if fixpath_prefix and path and not os.path.isabs(path) and not path[0] == '$': + path = os.path.join(fixpath_prefix, path) + path = path.replace('/', '\\') + path = _NormalizedSource(path) + if path and path[-1] == '\\': + path = path[:-1] + return path + + +def _FixPaths(paths): + """Fix each of the paths of the list.""" + return [_FixPath(i) for i in paths] + + +def _ConvertSourcesToFilterHierarchy(sources, prefix=None, excluded=None, + list_excluded=True, msvs_version=None): + """Converts a list split source file paths into a vcproj folder hierarchy. + + Arguments: + sources: A list of source file paths split. + prefix: A list of source file path layers meant to apply to each of sources. + excluded: A set of excluded files. + msvs_version: A MSVSVersion object. + + Returns: + A hierarchy of filenames and MSVSProject.Filter objects that matches the + layout of the source tree. + For example: + _ConvertSourcesToFilterHierarchy([['a', 'bob1.c'], ['b', 'bob2.c']], + prefix=['joe']) + --> + [MSVSProject.Filter('a', contents=['joe\\a\\bob1.c']), + MSVSProject.Filter('b', contents=['joe\\b\\bob2.c'])] + """ + if not prefix: prefix = [] + result = [] + excluded_result = [] + folders = OrderedDict() + # Gather files into the final result, excluded, or folders. + for s in sources: + if len(s) == 1: + filename = _NormalizedSource('\\'.join(prefix + s)) + if filename in excluded: + excluded_result.append(filename) + else: + result.append(filename) + elif msvs_version and not msvs_version.UsesVcxproj(): + # For MSVS 2008 and earlier, we need to process all files before walking + # the sub folders. + if not folders.get(s[0]): + folders[s[0]] = [] + folders[s[0]].append(s[1:]) + else: + contents = _ConvertSourcesToFilterHierarchy([s[1:]], prefix + [s[0]], + excluded=excluded, + list_excluded=list_excluded, + msvs_version=msvs_version) + contents = MSVSProject.Filter(s[0], contents=contents) + result.append(contents) + # Add a folder for excluded files. + if excluded_result and list_excluded: + excluded_folder = MSVSProject.Filter('_excluded_files', + contents=excluded_result) + result.append(excluded_folder) + + if msvs_version and msvs_version.UsesVcxproj(): + return result + + # Populate all the folders. + for f in folders: + contents = _ConvertSourcesToFilterHierarchy(folders[f], prefix=prefix + [f], + excluded=excluded, + list_excluded=list_excluded, + msvs_version=msvs_version) + contents = MSVSProject.Filter(f, contents=contents) + result.append(contents) + return result + + +def _ToolAppend(tools, tool_name, setting, value, only_if_unset=False): + if not value: return + _ToolSetOrAppend(tools, tool_name, setting, value, only_if_unset) + + +def _ToolSetOrAppend(tools, tool_name, setting, value, only_if_unset=False): + # TODO(bradnelson): ugly hack, fix this more generally!!! + if 'Directories' in setting or 'Dependencies' in setting: + if type(value) == str: + value = value.replace('/', '\\') + else: + value = [i.replace('/', '\\') for i in value] + if not tools.get(tool_name): + tools[tool_name] = dict() + tool = tools[tool_name] + if tool.get(setting): + if only_if_unset: return + if type(tool[setting]) == list and type(value) == list: + tool[setting] += value + else: + raise TypeError( + 'Appending "%s" to a non-list setting "%s" for tool "%s" is ' + 'not allowed, previous value: %s' % ( + value, setting, tool_name, str(tool[setting]))) + else: + tool[setting] = value + + +def _ConfigPlatform(config_data): + return config_data.get('msvs_configuration_platform', 'Win32') + + +def _ConfigBaseName(config_name, platform_name): + if config_name.endswith('_' + platform_name): + return config_name[0:-len(platform_name) - 1] + else: + return config_name + + +def _ConfigFullName(config_name, config_data): + platform_name = _ConfigPlatform(config_data) + return '%s|%s' % (_ConfigBaseName(config_name, platform_name), platform_name) + + +def _BuildCommandLineForRuleRaw(spec, cmd, cygwin_shell, has_input_path, + quote_cmd, do_setup_env): + + if [x for x in cmd if '$(InputDir)' in x]: + input_dir_preamble = ( + 'set INPUTDIR=$(InputDir)\n' + 'set INPUTDIR=%INPUTDIR:$(ProjectDir)=%\n' + 'set INPUTDIR=%INPUTDIR:~0,-1%\n' + ) + else: + input_dir_preamble = '' + + if cygwin_shell: + # Find path to cygwin. + cygwin_dir = _FixPath(spec.get('msvs_cygwin_dirs', ['.'])[0]) + # Prepare command. + direct_cmd = cmd + direct_cmd = [i.replace('$(IntDir)', + '`cygpath -m "${INTDIR}"`') for i in direct_cmd] + direct_cmd = [i.replace('$(OutDir)', + '`cygpath -m "${OUTDIR}"`') for i in direct_cmd] + direct_cmd = [i.replace('$(InputDir)', + '`cygpath -m "${INPUTDIR}"`') for i in direct_cmd] + if has_input_path: + direct_cmd = [i.replace('$(InputPath)', + '`cygpath -m "${INPUTPATH}"`') + for i in direct_cmd] + direct_cmd = ['\\"%s\\"' % i.replace('"', '\\\\\\"') for i in direct_cmd] + # direct_cmd = gyp.common.EncodePOSIXShellList(direct_cmd) + direct_cmd = ' '.join(direct_cmd) + # TODO(quote): regularize quoting path names throughout the module + cmd = '' + if do_setup_env: + cmd += 'call "$(ProjectDir)%(cygwin_dir)s\\setup_env.bat" && ' + cmd += 'set CYGWIN=nontsec&& ' + if direct_cmd.find('NUMBER_OF_PROCESSORS') >= 0: + cmd += 'set /a NUMBER_OF_PROCESSORS_PLUS_1=%%NUMBER_OF_PROCESSORS%%+1&& ' + if direct_cmd.find('INTDIR') >= 0: + cmd += 'set INTDIR=$(IntDir)&& ' + if direct_cmd.find('OUTDIR') >= 0: + cmd += 'set OUTDIR=$(OutDir)&& ' + if has_input_path and direct_cmd.find('INPUTPATH') >= 0: + cmd += 'set INPUTPATH=$(InputPath) && ' + cmd += 'bash -c "%(cmd)s"' + cmd = cmd % {'cygwin_dir': cygwin_dir, + 'cmd': direct_cmd} + return input_dir_preamble + cmd + else: + # Convert cat --> type to mimic unix. + if cmd[0] == 'cat': + command = ['type'] + else: + command = [cmd[0].replace('/', '\\')] + # Add call before command to ensure that commands can be tied together one + # after the other without aborting in Incredibuild, since IB makes a bat + # file out of the raw command string, and some commands (like python) are + # actually batch files themselves. + command.insert(0, 'call') + # Fix the paths + # TODO(quote): This is a really ugly heuristic, and will miss path fixing + # for arguments like "--arg=path" or "/opt:path". + # If the argument starts with a slash or dash, it's probably a command line + # switch + arguments = [i if (i[:1] in "/-") else _FixPath(i) for i in cmd[1:]] + arguments = [i.replace('$(InputDir)', '%INPUTDIR%') for i in arguments] + arguments = [MSVSSettings.FixVCMacroSlashes(i) for i in arguments] + if quote_cmd: + # Support a mode for using cmd directly. + # Convert any paths to native form (first element is used directly). + # TODO(quote): regularize quoting path names throughout the module + arguments = ['"%s"' % i for i in arguments] + # Collapse into a single command. + return input_dir_preamble + ' '.join(command + arguments) + + +def _BuildCommandLineForRule(spec, rule, has_input_path, do_setup_env): + # Currently this weird argument munging is used to duplicate the way a + # python script would need to be run as part of the chrome tree. + # Eventually we should add some sort of rule_default option to set this + # per project. For now the behavior chrome needs is the default. + mcs = rule.get('msvs_cygwin_shell') + if mcs is None: + mcs = int(spec.get('msvs_cygwin_shell', 1)) + elif isinstance(mcs, str): + mcs = int(mcs) + quote_cmd = int(rule.get('msvs_quote_cmd', 1)) + return _BuildCommandLineForRuleRaw(spec, rule['action'], mcs, has_input_path, + quote_cmd, do_setup_env=do_setup_env) + + +def _AddActionStep(actions_dict, inputs, outputs, description, command): + """Merge action into an existing list of actions. + + Care must be taken so that actions which have overlapping inputs either don't + get assigned to the same input, or get collapsed into one. + + Arguments: + actions_dict: dictionary keyed on input name, which maps to a list of + dicts describing the actions attached to that input file. + inputs: list of inputs + outputs: list of outputs + description: description of the action + command: command line to execute + """ + # Require there to be at least one input (call sites will ensure this). + assert inputs + + action = { + 'inputs': inputs, + 'outputs': outputs, + 'description': description, + 'command': command, + } + + # Pick where to stick this action. + # While less than optimal in terms of build time, attach them to the first + # input for now. + chosen_input = inputs[0] + + # Add it there. + if chosen_input not in actions_dict: + actions_dict[chosen_input] = [] + actions_dict[chosen_input].append(action) + + +def _AddCustomBuildToolForMSVS(p, spec, primary_input, + inputs, outputs, description, cmd): + """Add a custom build tool to execute something. + + Arguments: + p: the target project + spec: the target project dict + primary_input: input file to attach the build tool to + inputs: list of inputs + outputs: list of outputs + description: description of the action + cmd: command line to execute + """ + inputs = _FixPaths(inputs) + outputs = _FixPaths(outputs) + tool = MSVSProject.Tool( + 'VCCustomBuildTool', + {'Description': description, + 'AdditionalDependencies': ';'.join(inputs), + 'Outputs': ';'.join(outputs), + 'CommandLine': cmd, + }) + # Add to the properties of primary input for each config. + for config_name, c_data in spec['configurations'].iteritems(): + p.AddFileConfig(_FixPath(primary_input), + _ConfigFullName(config_name, c_data), tools=[tool]) + + +def _AddAccumulatedActionsToMSVS(p, spec, actions_dict): + """Add actions accumulated into an actions_dict, merging as needed. + + Arguments: + p: the target project + spec: the target project dict + actions_dict: dictionary keyed on input name, which maps to a list of + dicts describing the actions attached to that input file. + """ + for primary_input in actions_dict: + inputs = OrderedSet() + outputs = OrderedSet() + descriptions = [] + commands = [] + for action in actions_dict[primary_input]: + inputs.update(OrderedSet(action['inputs'])) + outputs.update(OrderedSet(action['outputs'])) + descriptions.append(action['description']) + commands.append(action['command']) + # Add the custom build step for one input file. + description = ', and also '.join(descriptions) + command = '\r\n'.join(commands) + _AddCustomBuildToolForMSVS(p, spec, + primary_input=primary_input, + inputs=inputs, + outputs=outputs, + description=description, + cmd=command) + + +def _RuleExpandPath(path, input_file): + """Given the input file to which a rule applied, string substitute a path. + + Arguments: + path: a path to string expand + input_file: the file to which the rule applied. + Returns: + The string substituted path. + """ + path = path.replace('$(InputName)', + os.path.splitext(os.path.split(input_file)[1])[0]) + path = path.replace('$(InputDir)', os.path.dirname(input_file)) + path = path.replace('$(InputExt)', + os.path.splitext(os.path.split(input_file)[1])[1]) + path = path.replace('$(InputFileName)', os.path.split(input_file)[1]) + path = path.replace('$(InputPath)', input_file) + return path + + +def _FindRuleTriggerFiles(rule, sources): + """Find the list of files which a particular rule applies to. + + Arguments: + rule: the rule in question + sources: the set of all known source files for this project + Returns: + The list of sources that trigger a particular rule. + """ + return rule.get('rule_sources', []) + + +def _RuleInputsAndOutputs(rule, trigger_file): + """Find the inputs and outputs generated by a rule. + + Arguments: + rule: the rule in question. + trigger_file: the main trigger for this rule. + Returns: + The pair of (inputs, outputs) involved in this rule. + """ + raw_inputs = _FixPaths(rule.get('inputs', [])) + raw_outputs = _FixPaths(rule.get('outputs', [])) + inputs = OrderedSet() + outputs = OrderedSet() + inputs.add(trigger_file) + for i in raw_inputs: + inputs.add(_RuleExpandPath(i, trigger_file)) + for o in raw_outputs: + outputs.add(_RuleExpandPath(o, trigger_file)) + return (inputs, outputs) + + +def _GenerateNativeRulesForMSVS(p, rules, output_dir, spec, options): + """Generate a native rules file. + + Arguments: + p: the target project + rules: the set of rules to include + output_dir: the directory in which the project/gyp resides + spec: the project dict + options: global generator options + """ + rules_filename = '%s%s.rules' % (spec['target_name'], + options.suffix) + rules_file = MSVSToolFile.Writer(os.path.join(output_dir, rules_filename), + spec['target_name']) + # Add each rule. + for r in rules: + rule_name = r['rule_name'] + rule_ext = r['extension'] + inputs = _FixPaths(r.get('inputs', [])) + outputs = _FixPaths(r.get('outputs', [])) + # Skip a rule with no action and no inputs. + if 'action' not in r and not r.get('rule_sources', []): + continue + cmd = _BuildCommandLineForRule(spec, r, has_input_path=True, + do_setup_env=True) + rules_file.AddCustomBuildRule(name=rule_name, + description=r.get('message', rule_name), + extensions=[rule_ext], + additional_dependencies=inputs, + outputs=outputs, + cmd=cmd) + # Write out rules file. + rules_file.WriteIfChanged() + + # Add rules file to project. + p.AddToolFile(rules_filename) + + +def _Cygwinify(path): + path = path.replace('$(OutDir)', '$(OutDirCygwin)') + path = path.replace('$(IntDir)', '$(IntDirCygwin)') + return path + + +def _GenerateExternalRules(rules, output_dir, spec, + sources, options, actions_to_add): + """Generate an external makefile to do a set of rules. + + Arguments: + rules: the list of rules to include + output_dir: path containing project and gyp files + spec: project specification data + sources: set of sources known + options: global generator options + actions_to_add: The list of actions we will add to. + """ + filename = '%s_rules%s.mk' % (spec['target_name'], options.suffix) + mk_file = gyp.common.WriteOnDiff(os.path.join(output_dir, filename)) + # Find cygwin style versions of some paths. + mk_file.write('OutDirCygwin:=$(shell cygpath -u "$(OutDir)")\n') + mk_file.write('IntDirCygwin:=$(shell cygpath -u "$(IntDir)")\n') + # Gather stuff needed to emit all: target. + all_inputs = OrderedSet() + all_outputs = OrderedSet() + all_output_dirs = OrderedSet() + first_outputs = [] + for rule in rules: + trigger_files = _FindRuleTriggerFiles(rule, sources) + for tf in trigger_files: + inputs, outputs = _RuleInputsAndOutputs(rule, tf) + all_inputs.update(OrderedSet(inputs)) + all_outputs.update(OrderedSet(outputs)) + # Only use one target from each rule as the dependency for + # 'all' so we don't try to build each rule multiple times. + first_outputs.append(list(outputs)[0]) + # Get the unique output directories for this rule. + output_dirs = [os.path.split(i)[0] for i in outputs] + for od in output_dirs: + all_output_dirs.add(od) + first_outputs_cyg = [_Cygwinify(i) for i in first_outputs] + # Write out all: target, including mkdir for each output directory. + mk_file.write('all: %s\n' % ' '.join(first_outputs_cyg)) + for od in all_output_dirs: + if od: + mk_file.write('\tmkdir -p `cygpath -u "%s"`\n' % od) + mk_file.write('\n') + # Define how each output is generated. + for rule in rules: + trigger_files = _FindRuleTriggerFiles(rule, sources) + for tf in trigger_files: + # Get all the inputs and outputs for this rule for this trigger file. + inputs, outputs = _RuleInputsAndOutputs(rule, tf) + inputs = [_Cygwinify(i) for i in inputs] + outputs = [_Cygwinify(i) for i in outputs] + # Prepare the command line for this rule. + cmd = [_RuleExpandPath(c, tf) for c in rule['action']] + cmd = ['"%s"' % i for i in cmd] + cmd = ' '.join(cmd) + # Add it to the makefile. + mk_file.write('%s: %s\n' % (' '.join(outputs), ' '.join(inputs))) + mk_file.write('\t%s\n\n' % cmd) + # Close up the file. + mk_file.close() + + # Add makefile to list of sources. + sources.add(filename) + # Add a build action to call makefile. + cmd = ['make', + 'OutDir=$(OutDir)', + 'IntDir=$(IntDir)', + '-j', '${NUMBER_OF_PROCESSORS_PLUS_1}', + '-f', filename] + cmd = _BuildCommandLineForRuleRaw(spec, cmd, True, False, True, True) + # Insert makefile as 0'th input, so it gets the action attached there, + # as this is easier to understand from in the IDE. + all_inputs = list(all_inputs) + all_inputs.insert(0, filename) + _AddActionStep(actions_to_add, + inputs=_FixPaths(all_inputs), + outputs=_FixPaths(all_outputs), + description='Running external rules for %s' % + spec['target_name'], + command=cmd) + + +def _EscapeEnvironmentVariableExpansion(s): + """Escapes % characters. + + Escapes any % characters so that Windows-style environment variable + expansions will leave them alone. + See http://connect.microsoft.com/VisualStudio/feedback/details/106127/cl-d-name-text-containing-percentage-characters-doesnt-compile + to understand why we have to do this. + + Args: + s: The string to be escaped. + + Returns: + The escaped string. + """ + s = s.replace('%', '%%') + return s + + +quote_replacer_regex = re.compile(r'(\\*)"') + + +def _EscapeCommandLineArgumentForMSVS(s): + """Escapes a Windows command-line argument. + + So that the Win32 CommandLineToArgv function will turn the escaped result back + into the original string. + See http://msdn.microsoft.com/en-us/library/17w5ykft.aspx + ("Parsing C++ Command-Line Arguments") to understand why we have to do + this. + + Args: + s: the string to be escaped. + Returns: + the escaped string. + """ + + def _Replace(match): + # For a literal quote, CommandLineToArgv requires an odd number of + # backslashes preceding it, and it produces half as many literal backslashes + # (rounded down). So we need to produce 2n+1 backslashes. + return 2 * match.group(1) + '\\"' + + # Escape all quotes so that they are interpreted literally. + s = quote_replacer_regex.sub(_Replace, s) + # Now add unescaped quotes so that any whitespace is interpreted literally. + s = '"' + s + '"' + return s + + +delimiters_replacer_regex = re.compile(r'(\\*)([,;]+)') + + +def _EscapeVCProjCommandLineArgListItem(s): + """Escapes command line arguments for MSVS. + + The VCProj format stores string lists in a single string using commas and + semi-colons as separators, which must be quoted if they are to be + interpreted literally. However, command-line arguments may already have + quotes, and the VCProj parser is ignorant of the backslash escaping + convention used by CommandLineToArgv, so the command-line quotes and the + VCProj quotes may not be the same quotes. So to store a general + command-line argument in a VCProj list, we need to parse the existing + quoting according to VCProj's convention and quote any delimiters that are + not already quoted by that convention. The quotes that we add will also be + seen by CommandLineToArgv, so if backslashes precede them then we also have + to escape those backslashes according to the CommandLineToArgv + convention. + + Args: + s: the string to be escaped. + Returns: + the escaped string. + """ + + def _Replace(match): + # For a non-literal quote, CommandLineToArgv requires an even number of + # backslashes preceding it, and it produces half as many literal + # backslashes. So we need to produce 2n backslashes. + return 2 * match.group(1) + '"' + match.group(2) + '"' + + segments = s.split('"') + # The unquoted segments are at the even-numbered indices. + for i in range(0, len(segments), 2): + segments[i] = delimiters_replacer_regex.sub(_Replace, segments[i]) + # Concatenate back into a single string + s = '"'.join(segments) + if len(segments) % 2 == 0: + # String ends while still quoted according to VCProj's convention. This + # means the delimiter and the next list item that follow this one in the + # .vcproj file will be misinterpreted as part of this item. There is nothing + # we can do about this. Adding an extra quote would correct the problem in + # the VCProj but cause the same problem on the final command-line. Moving + # the item to the end of the list does works, but that's only possible if + # there's only one such item. Let's just warn the user. + print >> sys.stderr, ('Warning: MSVS may misinterpret the odd number of ' + + 'quotes in ' + s) + return s + + +def _EscapeCppDefineForMSVS(s): + """Escapes a CPP define so that it will reach the compiler unaltered.""" + s = _EscapeEnvironmentVariableExpansion(s) + s = _EscapeCommandLineArgumentForMSVS(s) + s = _EscapeVCProjCommandLineArgListItem(s) + # cl.exe replaces literal # characters with = in preprocesor definitions for + # some reason. Octal-encode to work around that. + s = s.replace('#', '\\%03o' % ord('#')) + return s + + +quote_replacer_regex2 = re.compile(r'(\\+)"') + + +def _EscapeCommandLineArgumentForMSBuild(s): + """Escapes a Windows command-line argument for use by MSBuild.""" + + def _Replace(match): + return (len(match.group(1)) / 2 * 4) * '\\' + '\\"' + + # Escape all quotes so that they are interpreted literally. + s = quote_replacer_regex2.sub(_Replace, s) + return s + + +def _EscapeMSBuildSpecialCharacters(s): + escape_dictionary = { + '%': '%25', + '$': '%24', + '@': '%40', + "'": '%27', + ';': '%3B', + '?': '%3F', + '*': '%2A' + } + result = ''.join([escape_dictionary.get(c, c) for c in s]) + return result + + +def _EscapeCppDefineForMSBuild(s): + """Escapes a CPP define so that it will reach the compiler unaltered.""" + s = _EscapeEnvironmentVariableExpansion(s) + s = _EscapeCommandLineArgumentForMSBuild(s) + s = _EscapeMSBuildSpecialCharacters(s) + # cl.exe replaces literal # characters with = in preprocesor definitions for + # some reason. Octal-encode to work around that. + s = s.replace('#', '\\%03o' % ord('#')) + return s + + +def _GenerateRulesForMSVS(p, output_dir, options, spec, + sources, excluded_sources, + actions_to_add): + """Generate all the rules for a particular project. + + Arguments: + p: the project + output_dir: directory to emit rules to + options: global options passed to the generator + spec: the specification for this project + sources: the set of all known source files in this project + excluded_sources: the set of sources excluded from normal processing + actions_to_add: deferred list of actions to add in + """ + rules = spec.get('rules', []) + rules_native = [r for r in rules if not int(r.get('msvs_external_rule', 0))] + rules_external = [r for r in rules if int(r.get('msvs_external_rule', 0))] + + # Handle rules that use a native rules file. + if rules_native: + _GenerateNativeRulesForMSVS(p, rules_native, output_dir, spec, options) + + # Handle external rules (non-native rules). + if rules_external: + _GenerateExternalRules(rules_external, output_dir, spec, + sources, options, actions_to_add) + _AdjustSourcesForRules(spec, rules, sources, excluded_sources) + + +def _AdjustSourcesForRules(spec, rules, sources, excluded_sources): + # Add outputs generated by each rule (if applicable). + for rule in rules: + # Done if not processing outputs as sources. + if int(rule.get('process_outputs_as_sources', False)): + # Add in the outputs from this rule. + trigger_files = _FindRuleTriggerFiles(rule, sources) + for trigger_file in trigger_files: + inputs, outputs = _RuleInputsAndOutputs(rule, trigger_file) + inputs = OrderedSet(_FixPaths(inputs)) + outputs = OrderedSet(_FixPaths(outputs)) + inputs.remove(_FixPath(trigger_file)) + sources.update(inputs) + if not spec.get('msvs_external_builder'): + excluded_sources.update(inputs) + sources.update(outputs) + + +def _FilterActionsFromExcluded(excluded_sources, actions_to_add): + """Take inputs with actions attached out of the list of exclusions. + + Arguments: + excluded_sources: list of source files not to be built. + actions_to_add: dict of actions keyed on source file they're attached to. + Returns: + excluded_sources with files that have actions attached removed. + """ + must_keep = OrderedSet(_FixPaths(actions_to_add.keys())) + return [s for s in excluded_sources if s not in must_keep] + + +def _GetDefaultConfiguration(spec): + return spec['configurations'][spec['default_configuration']] + + +def _GetGuidOfProject(proj_path, spec): + """Get the guid for the project. + + Arguments: + proj_path: Path of the vcproj or vcxproj file to generate. + spec: The target dictionary containing the properties of the target. + Returns: + the guid. + Raises: + ValueError: if the specified GUID is invalid. + """ + # Pluck out the default configuration. + default_config = _GetDefaultConfiguration(spec) + # Decide the guid of the project. + guid = default_config.get('msvs_guid') + if guid: + if VALID_MSVS_GUID_CHARS.match(guid) is None: + raise ValueError('Invalid MSVS guid: "%s". Must match regex: "%s".' % + (guid, VALID_MSVS_GUID_CHARS.pattern)) + guid = '{%s}' % guid + guid = guid or MSVSNew.MakeGuid(proj_path) + return guid + + +def _GetMsbuildToolsetOfProject(proj_path, spec, version): + """Get the platform toolset for the project. + + Arguments: + proj_path: Path of the vcproj or vcxproj file to generate. + spec: The target dictionary containing the properties of the target. + version: The MSVSVersion object. + Returns: + the platform toolset string or None. + """ + # Pluck out the default configuration. + default_config = _GetDefaultConfiguration(spec) + toolset = default_config.get('msbuild_toolset') + if not toolset and version.DefaultToolset(): + toolset = version.DefaultToolset() + return toolset + + +def _GenerateProject(project, options, version, generator_flags): + """Generates a vcproj file. + + Arguments: + project: the MSVSProject object. + options: global generator options. + version: the MSVSVersion object. + generator_flags: dict of generator-specific flags. + Returns: + A list of source files that cannot be found on disk. + """ + default_config = _GetDefaultConfiguration(project.spec) + + # Skip emitting anything if told to with msvs_existing_vcproj option. + if default_config.get('msvs_existing_vcproj'): + return [] + + if version.UsesVcxproj(): + return _GenerateMSBuildProject(project, options, version, generator_flags) + else: + return _GenerateMSVSProject(project, options, version, generator_flags) + + +def _GenerateMSVSProject(project, options, version, generator_flags): + """Generates a .vcproj file. It may create .rules and .user files too. + + Arguments: + project: The project object we will generate the file for. + options: Global options passed to the generator. + version: The VisualStudioVersion object. + generator_flags: dict of generator-specific flags. + """ + spec = project.spec + gyp.common.EnsureDirExists(project.path) + + platforms = _GetUniquePlatforms(spec) + p = MSVSProject.Writer(project.path, version, spec['target_name'], + project.guid, platforms) + + # Get directory project file is in. + project_dir = os.path.split(project.path)[0] + gyp_path = _NormalizedSource(project.build_file) + relative_path_of_gyp_file = gyp.common.RelativePath(gyp_path, project_dir) + + config_type = _GetMSVSConfigurationType(spec, project.build_file) + for config_name, config in spec['configurations'].iteritems(): + _AddConfigurationToMSVSProject(p, spec, config_type, config_name, config) + + # Prepare list of sources and excluded sources. + gyp_file = os.path.split(project.build_file)[1] + sources, excluded_sources = _PrepareListOfSources(spec, generator_flags, + gyp_file) + + # Add rules. + actions_to_add = {} + _GenerateRulesForMSVS(p, project_dir, options, spec, + sources, excluded_sources, + actions_to_add) + list_excluded = generator_flags.get('msvs_list_excluded_files', True) + sources, excluded_sources, excluded_idl = ( + _AdjustSourcesAndConvertToFilterHierarchy(spec, options, project_dir, + sources, excluded_sources, + list_excluded, version)) + + # Add in files. + missing_sources = _VerifySourcesExist(sources, project_dir) + p.AddFiles(sources) + + _AddToolFilesToMSVS(p, spec) + _HandlePreCompiledHeaders(p, sources, spec) + _AddActions(actions_to_add, spec, relative_path_of_gyp_file) + _AddCopies(actions_to_add, spec) + _WriteMSVSUserFile(project.path, version, spec) + + # NOTE: this stanza must appear after all actions have been decided. + # Don't excluded sources with actions attached, or they won't run. + excluded_sources = _FilterActionsFromExcluded( + excluded_sources, actions_to_add) + _ExcludeFilesFromBeingBuilt(p, spec, excluded_sources, excluded_idl, + list_excluded) + _AddAccumulatedActionsToMSVS(p, spec, actions_to_add) + + # Write it out. + p.WriteIfChanged() + + return missing_sources + + +def _GetUniquePlatforms(spec): + """Returns the list of unique platforms for this spec, e.g ['win32', ...]. + + Arguments: + spec: The target dictionary containing the properties of the target. + Returns: + The MSVSUserFile object created. + """ + # Gather list of unique platforms. + platforms = OrderedSet() + for configuration in spec['configurations']: + platforms.add(_ConfigPlatform(spec['configurations'][configuration])) + platforms = list(platforms) + return platforms + + +def _CreateMSVSUserFile(proj_path, version, spec): + """Generates a .user file for the user running this Gyp program. + + Arguments: + proj_path: The path of the project file being created. The .user file + shares the same path (with an appropriate suffix). + version: The VisualStudioVersion object. + spec: The target dictionary containing the properties of the target. + Returns: + The MSVSUserFile object created. + """ + (domain, username) = _GetDomainAndUserName() + vcuser_filename = '.'.join([proj_path, domain, username, 'user']) + user_file = MSVSUserFile.Writer(vcuser_filename, version, + spec['target_name']) + return user_file + + +def _GetMSVSConfigurationType(spec, build_file): + """Returns the configuration type for this project. + + It's a number defined by Microsoft. May raise an exception. + + Args: + spec: The target dictionary containing the properties of the target. + build_file: The path of the gyp file. + Returns: + An integer, the configuration type. + """ + try: + config_type = { + 'executable': '1', # .exe + 'shared_library': '2', # .dll + 'loadable_module': '2', # .dll + 'static_library': '4', # .lib + 'none': '10', # Utility type + }[spec['type']] + except KeyError: + if spec.get('type'): + raise GypError('Target type %s is not a valid target type for ' + 'target %s in %s.' % + (spec['type'], spec['target_name'], build_file)) + else: + raise GypError('Missing type field for target %s in %s.' % + (spec['target_name'], build_file)) + return config_type + + +def _AddConfigurationToMSVSProject(p, spec, config_type, config_name, config): + """Adds a configuration to the MSVS project. + + Many settings in a vcproj file are specific to a configuration. This + function the main part of the vcproj file that's configuration specific. + + Arguments: + p: The target project being generated. + spec: The target dictionary containing the properties of the target. + config_type: The configuration type, a number as defined by Microsoft. + config_name: The name of the configuration. + config: The dictionary that defines the special processing to be done + for this configuration. + """ + # Get the information for this configuration + include_dirs, resource_include_dirs = _GetIncludeDirs(config) + libraries = _GetLibraries(spec) + library_dirs = _GetLibraryDirs(config) + out_file, vc_tool, _ = _GetOutputFilePathAndTool(spec, msbuild=False) + defines = _GetDefines(config) + defines = [_EscapeCppDefineForMSVS(d) for d in defines] + disabled_warnings = _GetDisabledWarnings(config) + prebuild = config.get('msvs_prebuild') + postbuild = config.get('msvs_postbuild') + def_file = _GetModuleDefinition(spec) + precompiled_header = config.get('msvs_precompiled_header') + + # Prepare the list of tools as a dictionary. + tools = dict() + # Add in user specified msvs_settings. + msvs_settings = config.get('msvs_settings', {}) + MSVSSettings.ValidateMSVSSettings(msvs_settings) + + # Prevent default library inheritance from the environment. + _ToolAppend(tools, 'VCLinkerTool', 'AdditionalDependencies', ['$(NOINHERIT)']) + + for tool in msvs_settings: + settings = config['msvs_settings'][tool] + for setting in settings: + _ToolAppend(tools, tool, setting, settings[setting]) + # Add the information to the appropriate tool + _ToolAppend(tools, 'VCCLCompilerTool', + 'AdditionalIncludeDirectories', include_dirs) + _ToolAppend(tools, 'VCResourceCompilerTool', + 'AdditionalIncludeDirectories', resource_include_dirs) + # Add in libraries. + _ToolAppend(tools, 'VCLinkerTool', 'AdditionalDependencies', libraries) + _ToolAppend(tools, 'VCLinkerTool', 'AdditionalLibraryDirectories', + library_dirs) + if out_file: + _ToolAppend(tools, vc_tool, 'OutputFile', out_file, only_if_unset=True) + # Add defines. + _ToolAppend(tools, 'VCCLCompilerTool', 'PreprocessorDefinitions', defines) + _ToolAppend(tools, 'VCResourceCompilerTool', 'PreprocessorDefinitions', + defines) + # Change program database directory to prevent collisions. + _ToolAppend(tools, 'VCCLCompilerTool', 'ProgramDataBaseFileName', + '$(IntDir)$(ProjectName)\\vc80.pdb', only_if_unset=True) + # Add disabled warnings. + _ToolAppend(tools, 'VCCLCompilerTool', + 'DisableSpecificWarnings', disabled_warnings) + # Add Pre-build. + _ToolAppend(tools, 'VCPreBuildEventTool', 'CommandLine', prebuild) + # Add Post-build. + _ToolAppend(tools, 'VCPostBuildEventTool', 'CommandLine', postbuild) + # Turn on precompiled headers if appropriate. + if precompiled_header: + precompiled_header = os.path.split(precompiled_header)[1] + _ToolAppend(tools, 'VCCLCompilerTool', 'UsePrecompiledHeader', '2') + _ToolAppend(tools, 'VCCLCompilerTool', + 'PrecompiledHeaderThrough', precompiled_header) + _ToolAppend(tools, 'VCCLCompilerTool', + 'ForcedIncludeFiles', precompiled_header) + # Loadable modules don't generate import libraries; + # tell dependent projects to not expect one. + if spec['type'] == 'loadable_module': + _ToolAppend(tools, 'VCLinkerTool', 'IgnoreImportLibrary', 'true') + # Set the module definition file if any. + if def_file: + _ToolAppend(tools, 'VCLinkerTool', 'ModuleDefinitionFile', def_file) + + _AddConfigurationToMSVS(p, spec, tools, config, config_type, config_name) + + +def _GetIncludeDirs(config): + """Returns the list of directories to be used for #include directives. + + Arguments: + config: The dictionary that defines the special processing to be done + for this configuration. + Returns: + The list of directory paths. + """ + # TODO(bradnelson): include_dirs should really be flexible enough not to + # require this sort of thing. + include_dirs = ( + config.get('include_dirs', []) + + config.get('msvs_system_include_dirs', [])) + resource_include_dirs = config.get('resource_include_dirs', include_dirs) + include_dirs = _FixPaths(include_dirs) + resource_include_dirs = _FixPaths(resource_include_dirs) + return include_dirs, resource_include_dirs + + +def _GetLibraryDirs(config): + """Returns the list of directories to be used for library search paths. + + Arguments: + config: The dictionary that defines the special processing to be done + for this configuration. + Returns: + The list of directory paths. + """ + + library_dirs = config.get('library_dirs', []) + library_dirs = _FixPaths(library_dirs) + return library_dirs + + +def _GetLibraries(spec): + """Returns the list of libraries for this configuration. + + Arguments: + spec: The target dictionary containing the properties of the target. + Returns: + The list of directory paths. + """ + libraries = spec.get('libraries', []) + # Strip out -l, as it is not used on windows (but is needed so we can pass + # in libraries that are assumed to be in the default library path). + # Also remove duplicate entries, leaving only the last duplicate, while + # preserving order. + found = OrderedSet() + unique_libraries_list = [] + for entry in reversed(libraries): + library = re.sub('^\-l', '', entry) + if not os.path.splitext(library)[1]: + library += '.lib' + if library not in found: + found.add(library) + unique_libraries_list.append(library) + unique_libraries_list.reverse() + return unique_libraries_list + + +def _GetOutputFilePathAndTool(spec, msbuild): + """Returns the path and tool to use for this target. + + Figures out the path of the file this spec will create and the name of + the VC tool that will create it. + + Arguments: + spec: The target dictionary containing the properties of the target. + Returns: + A triple of (file path, name of the vc tool, name of the msbuild tool) + """ + # Select a name for the output file. + out_file = '' + vc_tool = '' + msbuild_tool = '' + output_file_map = { + 'executable': ('VCLinkerTool', 'Link', '$(OutDir)', '.exe'), + 'shared_library': ('VCLinkerTool', 'Link', '$(OutDir)', '.dll'), + 'loadable_module': ('VCLinkerTool', 'Link', '$(OutDir)', '.dll'), + 'static_library': ('VCLibrarianTool', 'Lib', '$(OutDir)lib\\', '.lib'), + } + output_file_props = output_file_map.get(spec['type']) + if output_file_props and int(spec.get('msvs_auto_output_file', 1)): + vc_tool, msbuild_tool, out_dir, suffix = output_file_props + if spec.get('standalone_static_library', 0): + out_dir = '$(OutDir)' + out_dir = spec.get('product_dir', out_dir) + product_extension = spec.get('product_extension') + if product_extension: + suffix = '.' + product_extension + elif msbuild: + suffix = '$(TargetExt)' + prefix = spec.get('product_prefix', '') + product_name = spec.get('product_name', '$(ProjectName)') + out_file = ntpath.join(out_dir, prefix + product_name + suffix) + return out_file, vc_tool, msbuild_tool + + +def _GetOutputTargetExt(spec): + """Returns the extension for this target, including the dot + + If product_extension is specified, set target_extension to this to avoid + MSB8012, returns None otherwise. Ignores any target_extension settings in + the input files. + + Arguments: + spec: The target dictionary containing the properties of the target. + Returns: + A string with the extension, or None + """ + target_extension = spec.get('product_extension') + if target_extension: + return '.' + target_extension + return None + + +def _GetDefines(config): + """Returns the list of preprocessor definitions for this configuation. + + Arguments: + config: The dictionary that defines the special processing to be done + for this configuration. + Returns: + The list of preprocessor definitions. + """ + defines = [] + for d in config.get('defines', []): + if type(d) == list: + fd = '='.join([str(dpart) for dpart in d]) + else: + fd = str(d) + defines.append(fd) + return defines + + +def _GetDisabledWarnings(config): + return [str(i) for i in config.get('msvs_disabled_warnings', [])] + + +def _GetModuleDefinition(spec): + def_file = '' + if spec['type'] in ['shared_library', 'loadable_module', 'executable']: + def_files = [s for s in spec.get('sources', []) if s.endswith('.def')] + if len(def_files) == 1: + def_file = _FixPath(def_files[0]) + elif def_files: + raise ValueError( + 'Multiple module definition files in one target, target %s lists ' + 'multiple .def files: %s' % ( + spec['target_name'], ' '.join(def_files))) + return def_file + + +def _ConvertToolsToExpectedForm(tools): + """Convert tools to a form expected by Visual Studio. + + Arguments: + tools: A dictionary of settings; the tool name is the key. + Returns: + A list of Tool objects. + """ + tool_list = [] + for tool, settings in tools.iteritems(): + # Collapse settings with lists. + settings_fixed = {} + for setting, value in settings.iteritems(): + if type(value) == list: + if ((tool == 'VCLinkerTool' and + setting == 'AdditionalDependencies') or + setting == 'AdditionalOptions'): + settings_fixed[setting] = ' '.join(value) + else: + settings_fixed[setting] = ';'.join(value) + else: + settings_fixed[setting] = value + # Add in this tool. + tool_list.append(MSVSProject.Tool(tool, settings_fixed)) + return tool_list + + +def _AddConfigurationToMSVS(p, spec, tools, config, config_type, config_name): + """Add to the project file the configuration specified by config. + + Arguments: + p: The target project being generated. + spec: the target project dict. + tools: A dictionary of settings; the tool name is the key. + config: The dictionary that defines the special processing to be done + for this configuration. + config_type: The configuration type, a number as defined by Microsoft. + config_name: The name of the configuration. + """ + attributes = _GetMSVSAttributes(spec, config, config_type) + # Add in this configuration. + tool_list = _ConvertToolsToExpectedForm(tools) + p.AddConfig(_ConfigFullName(config_name, config), + attrs=attributes, tools=tool_list) + + +def _GetMSVSAttributes(spec, config, config_type): + # Prepare configuration attributes. + prepared_attrs = {} + source_attrs = config.get('msvs_configuration_attributes', {}) + for a in source_attrs: + prepared_attrs[a] = source_attrs[a] + # Add props files. + vsprops_dirs = config.get('msvs_props', []) + vsprops_dirs = _FixPaths(vsprops_dirs) + if vsprops_dirs: + prepared_attrs['InheritedPropertySheets'] = ';'.join(vsprops_dirs) + # Set configuration type. + prepared_attrs['ConfigurationType'] = config_type + output_dir = prepared_attrs.get('OutputDirectory', + '$(SolutionDir)$(ConfigurationName)') + prepared_attrs['OutputDirectory'] = _FixPath(output_dir) + '\\' + if 'IntermediateDirectory' not in prepared_attrs: + intermediate = '$(ConfigurationName)\\obj\\$(ProjectName)' + prepared_attrs['IntermediateDirectory'] = _FixPath(intermediate) + '\\' + else: + intermediate = _FixPath(prepared_attrs['IntermediateDirectory']) + '\\' + intermediate = MSVSSettings.FixVCMacroSlashes(intermediate) + prepared_attrs['IntermediateDirectory'] = intermediate + return prepared_attrs + + +def _AddNormalizedSources(sources_set, sources_array): + sources_set.update(_NormalizedSource(s) for s in sources_array) + + +def _PrepareListOfSources(spec, generator_flags, gyp_file): + """Prepare list of sources and excluded sources. + + Besides the sources specified directly in the spec, adds the gyp file so + that a change to it will cause a re-compile. Also adds appropriate sources + for actions and copies. Assumes later stage will un-exclude files which + have custom build steps attached. + + Arguments: + spec: The target dictionary containing the properties of the target. + gyp_file: The name of the gyp file. + Returns: + A pair of (list of sources, list of excluded sources). + The sources will be relative to the gyp file. + """ + sources = OrderedSet() + _AddNormalizedSources(sources, spec.get('sources', [])) + excluded_sources = OrderedSet() + # Add in the gyp file. + if not generator_flags.get('standalone'): + sources.add(gyp_file) + + # Add in 'action' inputs and outputs. + for a in spec.get('actions', []): + inputs = a['inputs'] + inputs = [_NormalizedSource(i) for i in inputs] + # Add all inputs to sources and excluded sources. + inputs = OrderedSet(inputs) + sources.update(inputs) + if not spec.get('msvs_external_builder'): + excluded_sources.update(inputs) + if int(a.get('process_outputs_as_sources', False)): + _AddNormalizedSources(sources, a.get('outputs', [])) + # Add in 'copies' inputs and outputs. + for cpy in spec.get('copies', []): + _AddNormalizedSources(sources, cpy.get('files', [])) + return (sources, excluded_sources) + + +def _AdjustSourcesAndConvertToFilterHierarchy( + spec, options, gyp_dir, sources, excluded_sources, list_excluded, version): + """Adjusts the list of sources and excluded sources. + + Also converts the sets to lists. + + Arguments: + spec: The target dictionary containing the properties of the target. + options: Global generator options. + gyp_dir: The path to the gyp file being processed. + sources: A set of sources to be included for this project. + excluded_sources: A set of sources to be excluded for this project. + version: A MSVSVersion object. + Returns: + A trio of (list of sources, list of excluded sources, + path of excluded IDL file) + """ + # Exclude excluded sources coming into the generator. + excluded_sources.update(OrderedSet(spec.get('sources_excluded', []))) + # Add excluded sources into sources for good measure. + sources.update(excluded_sources) + # Convert to proper windows form. + # NOTE: sources goes from being a set to a list here. + # NOTE: excluded_sources goes from being a set to a list here. + sources = _FixPaths(sources) + # Convert to proper windows form. + excluded_sources = _FixPaths(excluded_sources) + + excluded_idl = _IdlFilesHandledNonNatively(spec, sources) + + precompiled_related = _GetPrecompileRelatedFiles(spec) + # Find the excluded ones, minus the precompiled header related ones. + fully_excluded = [i for i in excluded_sources if i not in precompiled_related] + + # Convert to folders and the right slashes. + sources = [i.split('\\') for i in sources] + sources = _ConvertSourcesToFilterHierarchy(sources, excluded=fully_excluded, + list_excluded=list_excluded, + msvs_version=version) + + # Prune filters with a single child to flatten ugly directory structures + # such as ../../src/modules/module1 etc. + while len(sources) == 1 and isinstance(sources[0], MSVSProject.Filter): + sources = sources[0].contents + + return sources, excluded_sources, excluded_idl + + +def _IdlFilesHandledNonNatively(spec, sources): + # If any non-native rules use 'idl' as an extension exclude idl files. + # Gather a list here to use later. + using_idl = False + for rule in spec.get('rules', []): + if rule['extension'] == 'idl' and int(rule.get('msvs_external_rule', 0)): + using_idl = True + break + if using_idl: + excluded_idl = [i for i in sources if i.endswith('.idl')] + else: + excluded_idl = [] + return excluded_idl + + +def _GetPrecompileRelatedFiles(spec): + # Gather a list of precompiled header related sources. + precompiled_related = [] + for _, config in spec['configurations'].iteritems(): + for k in precomp_keys: + f = config.get(k) + if f: + precompiled_related.append(_FixPath(f)) + return precompiled_related + + +def _ExcludeFilesFromBeingBuilt(p, spec, excluded_sources, excluded_idl, + list_excluded): + exclusions = _GetExcludedFilesFromBuild(spec, excluded_sources, excluded_idl) + for file_name, excluded_configs in exclusions.iteritems(): + if (not list_excluded and + len(excluded_configs) == len(spec['configurations'])): + # If we're not listing excluded files, then they won't appear in the + # project, so don't try to configure them to be excluded. + pass + else: + for config_name, config in excluded_configs: + p.AddFileConfig(file_name, _ConfigFullName(config_name, config), + {'ExcludedFromBuild': 'true'}) + + +def _GetExcludedFilesFromBuild(spec, excluded_sources, excluded_idl): + exclusions = {} + # Exclude excluded sources from being built. + for f in excluded_sources: + excluded_configs = [] + for config_name, config in spec['configurations'].iteritems(): + precomped = [_FixPath(config.get(i, '')) for i in precomp_keys] + # Don't do this for ones that are precompiled header related. + if f not in precomped: + excluded_configs.append((config_name, config)) + exclusions[f] = excluded_configs + # If any non-native rules use 'idl' as an extension exclude idl files. + # Exclude them now. + for f in excluded_idl: + excluded_configs = [] + for config_name, config in spec['configurations'].iteritems(): + excluded_configs.append((config_name, config)) + exclusions[f] = excluded_configs + return exclusions + + +def _AddToolFilesToMSVS(p, spec): + # Add in tool files (rules). + tool_files = OrderedSet() + for _, config in spec['configurations'].iteritems(): + for f in config.get('msvs_tool_files', []): + tool_files.add(f) + for f in tool_files: + p.AddToolFile(f) + + +def _HandlePreCompiledHeaders(p, sources, spec): + # Pre-compiled header source stubs need a different compiler flag + # (generate precompiled header) and any source file not of the same + # kind (i.e. C vs. C++) as the precompiled header source stub needs + # to have use of precompiled headers disabled. + extensions_excluded_from_precompile = [] + for config_name, config in spec['configurations'].iteritems(): + source = config.get('msvs_precompiled_source') + if source: + source = _FixPath(source) + # UsePrecompiledHeader=1 for if using precompiled headers. + tool = MSVSProject.Tool('VCCLCompilerTool', + {'UsePrecompiledHeader': '1'}) + p.AddFileConfig(source, _ConfigFullName(config_name, config), + {}, tools=[tool]) + basename, extension = os.path.splitext(source) + if extension == '.c': + extensions_excluded_from_precompile = ['.cc', '.cpp', '.cxx'] + else: + extensions_excluded_from_precompile = ['.c'] + def DisableForSourceTree(source_tree): + for source in source_tree: + if isinstance(source, MSVSProject.Filter): + DisableForSourceTree(source.contents) + else: + basename, extension = os.path.splitext(source) + if extension in extensions_excluded_from_precompile: + for config_name, config in spec['configurations'].iteritems(): + tool = MSVSProject.Tool('VCCLCompilerTool', + {'UsePrecompiledHeader': '0', + 'ForcedIncludeFiles': '$(NOINHERIT)'}) + p.AddFileConfig(_FixPath(source), + _ConfigFullName(config_name, config), + {}, tools=[tool]) + # Do nothing if there was no precompiled source. + if extensions_excluded_from_precompile: + DisableForSourceTree(sources) + + +def _AddActions(actions_to_add, spec, relative_path_of_gyp_file): + # Add actions. + actions = spec.get('actions', []) + # Don't setup_env every time. When all the actions are run together in one + # batch file in VS, the PATH will grow too long. + # Membership in this set means that the cygwin environment has been set up, + # and does not need to be set up again. + have_setup_env = set() + for a in actions: + # Attach actions to the gyp file if nothing else is there. + inputs = a.get('inputs') or [relative_path_of_gyp_file] + attached_to = inputs[0] + need_setup_env = attached_to not in have_setup_env + cmd = _BuildCommandLineForRule(spec, a, has_input_path=False, + do_setup_env=need_setup_env) + have_setup_env.add(attached_to) + # Add the action. + _AddActionStep(actions_to_add, + inputs=inputs, + outputs=a.get('outputs', []), + description=a.get('message', a['action_name']), + command=cmd) + + +def _WriteMSVSUserFile(project_path, version, spec): + # Add run_as and test targets. + if 'run_as' in spec: + run_as = spec['run_as'] + action = run_as.get('action', []) + environment = run_as.get('environment', []) + working_directory = run_as.get('working_directory', '.') + elif int(spec.get('test', 0)): + action = ['$(TargetPath)', '--gtest_print_time'] + environment = [] + working_directory = '.' + else: + return # Nothing to add + # Write out the user file. + user_file = _CreateMSVSUserFile(project_path, version, spec) + for config_name, c_data in spec['configurations'].iteritems(): + user_file.AddDebugSettings(_ConfigFullName(config_name, c_data), + action, environment, working_directory) + user_file.WriteIfChanged() + + +def _AddCopies(actions_to_add, spec): + copies = _GetCopies(spec) + for inputs, outputs, cmd, description in copies: + _AddActionStep(actions_to_add, inputs=inputs, outputs=outputs, + description=description, command=cmd) + + +def _GetCopies(spec): + copies = [] + # Add copies. + for cpy in spec.get('copies', []): + for src in cpy.get('files', []): + dst = os.path.join(cpy['destination'], os.path.basename(src)) + # _AddCustomBuildToolForMSVS() will call _FixPath() on the inputs and + # outputs, so do the same for our generated command line. + if src.endswith('/'): + src_bare = src[:-1] + base_dir = posixpath.split(src_bare)[0] + outer_dir = posixpath.split(src_bare)[1] + cmd = 'cd "%s" && xcopy /e /f /y "%s" "%s\\%s\\"' % ( + _FixPath(base_dir), outer_dir, _FixPath(dst), outer_dir) + copies.append(([src], ['dummy_copies', dst], cmd, + 'Copying %s to %s' % (src, dst))) + else: + cmd = 'mkdir "%s" 2>nul & set ERRORLEVEL=0 & copy /Y "%s" "%s"' % ( + _FixPath(cpy['destination']), _FixPath(src), _FixPath(dst)) + copies.append(([src], [dst], cmd, 'Copying %s to %s' % (src, dst))) + return copies + + +def _GetPathDict(root, path): + # |path| will eventually be empty (in the recursive calls) if it was initially + # relative; otherwise it will eventually end up as '\', 'D:\', etc. + if not path or path.endswith(os.sep): + return root + parent, folder = os.path.split(path) + parent_dict = _GetPathDict(root, parent) + if folder not in parent_dict: + parent_dict[folder] = dict() + return parent_dict[folder] + + +def _DictsToFolders(base_path, bucket, flat): + # Convert to folders recursively. + children = [] + for folder, contents in bucket.iteritems(): + if type(contents) == dict: + folder_children = _DictsToFolders(os.path.join(base_path, folder), + contents, flat) + if flat: + children += folder_children + else: + folder_children = MSVSNew.MSVSFolder(os.path.join(base_path, folder), + name='(' + folder + ')', + entries=folder_children) + children.append(folder_children) + else: + children.append(contents) + return children + + +def _CollapseSingles(parent, node): + # Recursively explorer the tree of dicts looking for projects which are + # the sole item in a folder which has the same name as the project. Bring + # such projects up one level. + if (type(node) == dict and + len(node) == 1 and + node.keys()[0] == parent + '.vcproj'): + return node[node.keys()[0]] + if type(node) != dict: + return node + for child in node: + node[child] = _CollapseSingles(child, node[child]) + return node + + +def _GatherSolutionFolders(sln_projects, project_objects, flat): + root = {} + # Convert into a tree of dicts on path. + for p in sln_projects: + gyp_file, target = gyp.common.ParseQualifiedTarget(p)[0:2] + gyp_dir = os.path.dirname(gyp_file) + path_dict = _GetPathDict(root, gyp_dir) + path_dict[target + '.vcproj'] = project_objects[p] + # Walk down from the top until we hit a folder that has more than one entry. + # In practice, this strips the top-level "src/" dir from the hierarchy in + # the solution. + while len(root) == 1 and type(root[root.keys()[0]]) == dict: + root = root[root.keys()[0]] + # Collapse singles. + root = _CollapseSingles('', root) + # Merge buckets until everything is a root entry. + return _DictsToFolders('', root, flat) + + +def _GetPathOfProject(qualified_target, spec, options, msvs_version): + default_config = _GetDefaultConfiguration(spec) + proj_filename = default_config.get('msvs_existing_vcproj') + if not proj_filename: + proj_filename = (spec['target_name'] + options.suffix + + msvs_version.ProjectExtension()) + + build_file = gyp.common.BuildFile(qualified_target) + proj_path = os.path.join(os.path.dirname(build_file), proj_filename) + fix_prefix = None + if options.generator_output: + project_dir_path = os.path.dirname(os.path.abspath(proj_path)) + proj_path = os.path.join(options.generator_output, proj_path) + fix_prefix = gyp.common.RelativePath(project_dir_path, + os.path.dirname(proj_path)) + return proj_path, fix_prefix + + +def _GetPlatformOverridesOfProject(spec): + # Prepare a dict indicating which project configurations are used for which + # solution configurations for this target. + config_platform_overrides = {} + for config_name, c in spec['configurations'].iteritems(): + config_fullname = _ConfigFullName(config_name, c) + platform = c.get('msvs_target_platform', _ConfigPlatform(c)) + fixed_config_fullname = '%s|%s' % ( + _ConfigBaseName(config_name, _ConfigPlatform(c)), platform) + config_platform_overrides[config_fullname] = fixed_config_fullname + return config_platform_overrides + + +def _CreateProjectObjects(target_list, target_dicts, options, msvs_version): + """Create a MSVSProject object for the targets found in target list. + + Arguments: + target_list: the list of targets to generate project objects for. + target_dicts: the dictionary of specifications. + options: global generator options. + msvs_version: the MSVSVersion object. + Returns: + A set of created projects, keyed by target. + """ + global fixpath_prefix + # Generate each project. + projects = {} + for qualified_target in target_list: + spec = target_dicts[qualified_target] + if spec['toolset'] != 'target': + raise GypError( + 'Multiple toolsets not supported in msvs build (target %s)' % + qualified_target) + proj_path, fixpath_prefix = _GetPathOfProject(qualified_target, spec, + options, msvs_version) + guid = _GetGuidOfProject(proj_path, spec) + overrides = _GetPlatformOverridesOfProject(spec) + build_file = gyp.common.BuildFile(qualified_target) + # Create object for this project. + obj = MSVSNew.MSVSProject( + proj_path, + name=spec['target_name'], + guid=guid, + spec=spec, + build_file=build_file, + config_platform_overrides=overrides, + fixpath_prefix=fixpath_prefix) + # Set project toolset if any (MS build only) + if msvs_version.UsesVcxproj(): + obj.set_msbuild_toolset( + _GetMsbuildToolsetOfProject(proj_path, spec, msvs_version)) + projects[qualified_target] = obj + # Set all the dependencies, but not if we are using an external builder like + # ninja + for project in projects.values(): + if not project.spec.get('msvs_external_builder'): + deps = project.spec.get('dependencies', []) + deps = [projects[d] for d in deps] + project.set_dependencies(deps) + return projects + + +def _InitNinjaFlavor(options, target_list, target_dicts): + """Initialize targets for the ninja flavor. + + This sets up the necessary variables in the targets to generate msvs projects + that use ninja as an external builder. The variables in the spec are only set + if they have not been set. This allows individual specs to override the + default values initialized here. + Arguments: + options: Options provided to the generator. + target_list: List of target pairs: 'base/base.gyp:base'. + target_dicts: Dict of target properties keyed on target pair. + """ + for qualified_target in target_list: + spec = target_dicts[qualified_target] + if spec.get('msvs_external_builder'): + # The spec explicitly defined an external builder, so don't change it. + continue + + path_to_ninja = spec.get('msvs_path_to_ninja', 'ninja.exe') + + spec['msvs_external_builder'] = 'ninja' + if not spec.get('msvs_external_builder_out_dir'): + spec['msvs_external_builder_out_dir'] = \ + options.depth + '/out/$(Configuration)' + if not spec.get('msvs_external_builder_build_cmd'): + spec['msvs_external_builder_build_cmd'] = [ + path_to_ninja, + '-C', + '$(OutDir)', + '$(ProjectName)', + ] + if not spec.get('msvs_external_builder_clean_cmd'): + spec['msvs_external_builder_clean_cmd'] = [ + path_to_ninja, + '-C', + '$(OutDir)', + '-t', + 'clean', + '$(ProjectName)', + ] + + +def CalculateVariables(default_variables, params): + """Generated variables that require params to be known.""" + + generator_flags = params.get('generator_flags', {}) + + # Select project file format version (if unset, default to auto detecting). + msvs_version = MSVSVersion.SelectVisualStudioVersion( + generator_flags.get('msvs_version', 'auto')) + # Stash msvs_version for later (so we don't have to probe the system twice). + params['msvs_version'] = msvs_version + + # Set a variable so conditions can be based on msvs_version. + default_variables['MSVS_VERSION'] = msvs_version.ShortName() + + # To determine processor word size on Windows, in addition to checking + # PROCESSOR_ARCHITECTURE (which reflects the word size of the current + # process), it is also necessary to check PROCESSOR_ARCITEW6432 (which + # contains the actual word size of the system when running thru WOW64). + if (os.environ.get('PROCESSOR_ARCHITECTURE', '').find('64') >= 0 or + os.environ.get('PROCESSOR_ARCHITEW6432', '').find('64') >= 0): + default_variables['MSVS_OS_BITS'] = 64 + else: + default_variables['MSVS_OS_BITS'] = 32 + + if gyp.common.GetFlavor(params) == 'ninja': + default_variables['SHARED_INTERMEDIATE_DIR'] = '$(OutDir)gen' + + +def PerformBuild(data, configurations, params): + options = params['options'] + msvs_version = params['msvs_version'] + devenv = os.path.join(msvs_version.path, 'Common7', 'IDE', 'devenv.com') + + for build_file, build_file_dict in data.iteritems(): + (build_file_root, build_file_ext) = os.path.splitext(build_file) + if build_file_ext != '.gyp': + continue + sln_path = build_file_root + options.suffix + '.sln' + if options.generator_output: + sln_path = os.path.join(options.generator_output, sln_path) + + for config in configurations: + arguments = [devenv, sln_path, '/Build', config] + print 'Building [%s]: %s' % (config, arguments) + rtn = subprocess.check_call(arguments) + + +def GenerateOutput(target_list, target_dicts, data, params): + """Generate .sln and .vcproj files. + + This is the entry point for this generator. + Arguments: + target_list: List of target pairs: 'base/base.gyp:base'. + target_dicts: Dict of target properties keyed on target pair. + data: Dictionary containing per .gyp data. + """ + global fixpath_prefix + + options = params['options'] + + # Get the project file format version back out of where we stashed it in + # GeneratorCalculatedVariables. + msvs_version = params['msvs_version'] + + generator_flags = params.get('generator_flags', {}) + + # Optionally shard targets marked with 'msvs_shard': SHARD_COUNT. + (target_list, target_dicts) = MSVSUtil.ShardTargets(target_list, target_dicts) + + # Optionally use the large PDB workaround for targets marked with + # 'msvs_large_pdb': 1. + (target_list, target_dicts) = MSVSUtil.InsertLargePdbShims( + target_list, target_dicts, generator_default_variables) + + # Optionally configure each spec to use ninja as the external builder. + if params.get('flavor') == 'ninja': + _InitNinjaFlavor(options, target_list, target_dicts) + + # Prepare the set of configurations. + configs = set() + for qualified_target in target_list: + spec = target_dicts[qualified_target] + for config_name, config in spec['configurations'].iteritems(): + configs.add(_ConfigFullName(config_name, config)) + configs = list(configs) + + # Figure out all the projects that will be generated and their guids + project_objects = _CreateProjectObjects(target_list, target_dicts, options, + msvs_version) + + # Generate each project. + missing_sources = [] + for project in project_objects.values(): + fixpath_prefix = project.fixpath_prefix + missing_sources.extend(_GenerateProject(project, options, msvs_version, + generator_flags)) + fixpath_prefix = None + + for build_file in data: + # Validate build_file extension + if not build_file.endswith('.gyp'): + continue + sln_path = os.path.splitext(build_file)[0] + options.suffix + '.sln' + if options.generator_output: + sln_path = os.path.join(options.generator_output, sln_path) + # Get projects in the solution, and their dependents. + sln_projects = gyp.common.BuildFileTargets(target_list, build_file) + sln_projects += gyp.common.DeepDependencyTargets(target_dicts, sln_projects) + # Create folder hierarchy. + root_entries = _GatherSolutionFolders( + sln_projects, project_objects, flat=msvs_version.FlatSolution()) + # Create solution. + sln = MSVSNew.MSVSSolution(sln_path, + entries=root_entries, + variants=configs, + websiteProperties=False, + version=msvs_version) + sln.Write() + + if missing_sources: + error_message = "Missing input files:\n" + \ + '\n'.join(set(missing_sources)) + if generator_flags.get('msvs_error_on_missing_sources', False): + raise GypError(error_message) + else: + print >> sys.stdout, "Warning: " + error_message + + +def _GenerateMSBuildFiltersFile(filters_path, source_files, + extension_to_rule_name): + """Generate the filters file. + + This file is used by Visual Studio to organize the presentation of source + files into folders. + + Arguments: + filters_path: The path of the file to be created. + source_files: The hierarchical structure of all the sources. + extension_to_rule_name: A dictionary mapping file extensions to rules. + """ + filter_group = [] + source_group = [] + _AppendFiltersForMSBuild('', source_files, extension_to_rule_name, + filter_group, source_group) + if filter_group: + content = ['Project', + {'ToolsVersion': '4.0', + 'xmlns': 'http://schemas.microsoft.com/developer/msbuild/2003' + }, + ['ItemGroup'] + filter_group, + ['ItemGroup'] + source_group + ] + easy_xml.WriteXmlIfChanged(content, filters_path, pretty=True, win32=True) + elif os.path.exists(filters_path): + # We don't need this filter anymore. Delete the old filter file. + os.unlink(filters_path) + + +def _AppendFiltersForMSBuild(parent_filter_name, sources, + extension_to_rule_name, + filter_group, source_group): + """Creates the list of filters and sources to be added in the filter file. + + Args: + parent_filter_name: The name of the filter under which the sources are + found. + sources: The hierarchy of filters and sources to process. + extension_to_rule_name: A dictionary mapping file extensions to rules. + filter_group: The list to which filter entries will be appended. + source_group: The list to which source entries will be appeneded. + """ + for source in sources: + if isinstance(source, MSVSProject.Filter): + # We have a sub-filter. Create the name of that sub-filter. + if not parent_filter_name: + filter_name = source.name + else: + filter_name = '%s\\%s' % (parent_filter_name, source.name) + # Add the filter to the group. + filter_group.append( + ['Filter', {'Include': filter_name}, + ['UniqueIdentifier', MSVSNew.MakeGuid(source.name)]]) + # Recurse and add its dependents. + _AppendFiltersForMSBuild(filter_name, source.contents, + extension_to_rule_name, + filter_group, source_group) + else: + # It's a source. Create a source entry. + _, element = _MapFileToMsBuildSourceType(source, extension_to_rule_name) + source_entry = [element, {'Include': source}] + # Specify the filter it is part of, if any. + if parent_filter_name: + source_entry.append(['Filter', parent_filter_name]) + source_group.append(source_entry) + + +def _MapFileToMsBuildSourceType(source, extension_to_rule_name): + """Returns the group and element type of the source file. + + Arguments: + source: The source file name. + extension_to_rule_name: A dictionary mapping file extensions to rules. + + Returns: + A pair of (group this file should be part of, the label of element) + """ + _, ext = os.path.splitext(source) + if ext in extension_to_rule_name: + group = 'rule' + element = extension_to_rule_name[ext] + elif ext in ['.cc', '.cpp', '.c', '.cxx']: + group = 'compile' + element = 'ClCompile' + elif ext in ['.h', '.hxx']: + group = 'include' + element = 'ClInclude' + elif ext == '.rc': + group = 'resource' + element = 'ResourceCompile' + elif ext == '.idl': + group = 'midl' + element = 'Midl' + else: + group = 'none' + element = 'None' + return (group, element) + + +def _GenerateRulesForMSBuild(output_dir, options, spec, + sources, excluded_sources, + props_files_of_rules, targets_files_of_rules, + actions_to_add, extension_to_rule_name): + # MSBuild rules are implemented using three files: an XML file, a .targets + # file and a .props file. + # See http://blogs.msdn.com/b/vcblog/archive/2010/04/21/quick-help-on-vs2010-custom-build-rule.aspx + # for more details. + rules = spec.get('rules', []) + rules_native = [r for r in rules if not int(r.get('msvs_external_rule', 0))] + rules_external = [r for r in rules if int(r.get('msvs_external_rule', 0))] + + msbuild_rules = [] + for rule in rules_native: + # Skip a rule with no action and no inputs. + if 'action' not in rule and not rule.get('rule_sources', []): + continue + msbuild_rule = MSBuildRule(rule, spec) + msbuild_rules.append(msbuild_rule) + extension_to_rule_name[msbuild_rule.extension] = msbuild_rule.rule_name + if msbuild_rules: + base = spec['target_name'] + options.suffix + props_name = base + '.props' + targets_name = base + '.targets' + xml_name = base + '.xml' + + props_files_of_rules.add(props_name) + targets_files_of_rules.add(targets_name) + + props_path = os.path.join(output_dir, props_name) + targets_path = os.path.join(output_dir, targets_name) + xml_path = os.path.join(output_dir, xml_name) + + _GenerateMSBuildRulePropsFile(props_path, msbuild_rules) + _GenerateMSBuildRuleTargetsFile(targets_path, msbuild_rules) + _GenerateMSBuildRuleXmlFile(xml_path, msbuild_rules) + + if rules_external: + _GenerateExternalRules(rules_external, output_dir, spec, + sources, options, actions_to_add) + _AdjustSourcesForRules(spec, rules, sources, excluded_sources) + + +class MSBuildRule(object): + """Used to store information used to generate an MSBuild rule. + + Attributes: + rule_name: The rule name, sanitized to use in XML. + target_name: The name of the target. + after_targets: The name of the AfterTargets element. + before_targets: The name of the BeforeTargets element. + depends_on: The name of the DependsOn element. + compute_output: The name of the ComputeOutput element. + dirs_to_make: The name of the DirsToMake element. + inputs: The name of the _inputs element. + tlog: The name of the _tlog element. + extension: The extension this rule applies to. + description: The message displayed when this rule is invoked. + additional_dependencies: A string listing additional dependencies. + outputs: The outputs of this rule. + command: The command used to run the rule. + """ + + def __init__(self, rule, spec): + self.display_name = rule['rule_name'] + # Assure that the rule name is only characters and numbers + self.rule_name = re.sub(r'\W', '_', self.display_name) + # Create the various element names, following the example set by the + # Visual Studio 2008 to 2010 conversion. I don't know if VS2010 + # is sensitive to the exact names. + self.target_name = '_' + self.rule_name + self.after_targets = self.rule_name + 'AfterTargets' + self.before_targets = self.rule_name + 'BeforeTargets' + self.depends_on = self.rule_name + 'DependsOn' + self.compute_output = 'Compute%sOutput' % self.rule_name + self.dirs_to_make = self.rule_name + 'DirsToMake' + self.inputs = self.rule_name + '_inputs' + self.tlog = self.rule_name + '_tlog' + self.extension = rule['extension'] + if not self.extension.startswith('.'): + self.extension = '.' + self.extension + + self.description = MSVSSettings.ConvertVCMacrosToMSBuild( + rule.get('message', self.rule_name)) + old_additional_dependencies = _FixPaths(rule.get('inputs', [])) + self.additional_dependencies = ( + ';'.join([MSVSSettings.ConvertVCMacrosToMSBuild(i) + for i in old_additional_dependencies])) + old_outputs = _FixPaths(rule.get('outputs', [])) + self.outputs = ';'.join([MSVSSettings.ConvertVCMacrosToMSBuild(i) + for i in old_outputs]) + old_command = _BuildCommandLineForRule(spec, rule, has_input_path=True, + do_setup_env=True) + self.command = MSVSSettings.ConvertVCMacrosToMSBuild(old_command) + + +def _GenerateMSBuildRulePropsFile(props_path, msbuild_rules): + """Generate the .props file.""" + content = ['Project', + {'xmlns': 'http://schemas.microsoft.com/developer/msbuild/2003'}] + for rule in msbuild_rules: + content.extend([ + ['PropertyGroup', + {'Condition': "'$(%s)' == '' and '$(%s)' == '' and " + "'$(ConfigurationType)' != 'Makefile'" % (rule.before_targets, + rule.after_targets) + }, + [rule.before_targets, 'Midl'], + [rule.after_targets, 'CustomBuild'], + ], + ['PropertyGroup', + [rule.depends_on, + {'Condition': "'$(ConfigurationType)' != 'Makefile'"}, + '_SelectedFiles;$(%s)' % rule.depends_on + ], + ], + ['ItemDefinitionGroup', + [rule.rule_name, + ['CommandLineTemplate', rule.command], + ['Outputs', rule.outputs], + ['ExecutionDescription', rule.description], + ['AdditionalDependencies', rule.additional_dependencies], + ], + ] + ]) + easy_xml.WriteXmlIfChanged(content, props_path, pretty=True, win32=True) + + +def _GenerateMSBuildRuleTargetsFile(targets_path, msbuild_rules): + """Generate the .targets file.""" + content = ['Project', + {'xmlns': 'http://schemas.microsoft.com/developer/msbuild/2003' + } + ] + item_group = [ + 'ItemGroup', + ['PropertyPageSchema', + {'Include': '$(MSBuildThisFileDirectory)$(MSBuildThisFileName).xml'} + ] + ] + for rule in msbuild_rules: + item_group.append( + ['AvailableItemName', + {'Include': rule.rule_name}, + ['Targets', rule.target_name], + ]) + content.append(item_group) + + for rule in msbuild_rules: + content.append( + ['UsingTask', + {'TaskName': rule.rule_name, + 'TaskFactory': 'XamlTaskFactory', + 'AssemblyName': 'Microsoft.Build.Tasks.v4.0' + }, + ['Task', '$(MSBuildThisFileDirectory)$(MSBuildThisFileName).xml'], + ]) + for rule in msbuild_rules: + rule_name = rule.rule_name + target_outputs = '%%(%s.Outputs)' % rule_name + target_inputs = ('%%(%s.Identity);%%(%s.AdditionalDependencies);' + '$(MSBuildProjectFile)') % (rule_name, rule_name) + rule_inputs = '%%(%s.Identity)' % rule_name + extension_condition = ("'%(Extension)'=='.obj' or " + "'%(Extension)'=='.res' or " + "'%(Extension)'=='.rsc' or " + "'%(Extension)'=='.lib'") + remove_section = [ + 'ItemGroup', + {'Condition': "'@(SelectedFiles)' != ''"}, + [rule_name, + {'Remove': '@(%s)' % rule_name, + 'Condition': "'%(Identity)' != '@(SelectedFiles)'" + } + ] + ] + inputs_section = [ + 'ItemGroup', + [rule.inputs, {'Include': '%%(%s.AdditionalDependencies)' % rule_name}] + ] + logging_section = [ + 'ItemGroup', + [rule.tlog, + {'Include': '%%(%s.Outputs)' % rule_name, + 'Condition': ("'%%(%s.Outputs)' != '' and " + "'%%(%s.ExcludedFromBuild)' != 'true'" % + (rule_name, rule_name)) + }, + ['Source', "@(%s, '|')" % rule_name], + ['Inputs', "@(%s -> '%%(Fullpath)', ';')" % rule.inputs], + ], + ] + message_section = [ + 'Message', + {'Importance': 'High', + 'Text': '%%(%s.ExecutionDescription)' % rule_name + } + ] + write_tlog_section = [ + 'WriteLinesToFile', + {'Condition': "'@(%s)' != '' and '%%(%s.ExcludedFromBuild)' != " + "'true'" % (rule.tlog, rule.tlog), + 'File': '$(IntDir)$(ProjectName).write.1.tlog', + 'Lines': "^%%(%s.Source);@(%s->'%%(Fullpath)')" % (rule.tlog, + rule.tlog) + } + ] + read_tlog_section = [ + 'WriteLinesToFile', + {'Condition': "'@(%s)' != '' and '%%(%s.ExcludedFromBuild)' != " + "'true'" % (rule.tlog, rule.tlog), + 'File': '$(IntDir)$(ProjectName).read.1.tlog', + 'Lines': "^%%(%s.Source);%%(%s.Inputs)" % (rule.tlog, rule.tlog) + } + ] + command_and_input_section = [ + rule_name, + {'Condition': "'@(%s)' != '' and '%%(%s.ExcludedFromBuild)' != " + "'true'" % (rule_name, rule_name), + 'CommandLineTemplate': '%%(%s.CommandLineTemplate)' % rule_name, + 'AdditionalOptions': '%%(%s.AdditionalOptions)' % rule_name, + 'Inputs': rule_inputs + } + ] + content.extend([ + ['Target', + {'Name': rule.target_name, + 'BeforeTargets': '$(%s)' % rule.before_targets, + 'AfterTargets': '$(%s)' % rule.after_targets, + 'Condition': "'@(%s)' != ''" % rule_name, + 'DependsOnTargets': '$(%s);%s' % (rule.depends_on, + rule.compute_output), + 'Outputs': target_outputs, + 'Inputs': target_inputs + }, + remove_section, + inputs_section, + logging_section, + message_section, + write_tlog_section, + read_tlog_section, + command_and_input_section, + ], + ['PropertyGroup', + ['ComputeLinkInputsTargets', + '$(ComputeLinkInputsTargets);', + '%s;' % rule.compute_output + ], + ['ComputeLibInputsTargets', + '$(ComputeLibInputsTargets);', + '%s;' % rule.compute_output + ], + ], + ['Target', + {'Name': rule.compute_output, + 'Condition': "'@(%s)' != ''" % rule_name + }, + ['ItemGroup', + [rule.dirs_to_make, + {'Condition': "'@(%s)' != '' and " + "'%%(%s.ExcludedFromBuild)' != 'true'" % (rule_name, rule_name), + 'Include': '%%(%s.Outputs)' % rule_name + } + ], + ['Link', + {'Include': '%%(%s.Identity)' % rule.dirs_to_make, + 'Condition': extension_condition + } + ], + ['Lib', + {'Include': '%%(%s.Identity)' % rule.dirs_to_make, + 'Condition': extension_condition + } + ], + ['ImpLib', + {'Include': '%%(%s.Identity)' % rule.dirs_to_make, + 'Condition': extension_condition + } + ], + ], + ['MakeDir', + {'Directories': ("@(%s->'%%(RootDir)%%(Directory)')" % + rule.dirs_to_make) + } + ] + ], + ]) + easy_xml.WriteXmlIfChanged(content, targets_path, pretty=True, win32=True) + + +def _GenerateMSBuildRuleXmlFile(xml_path, msbuild_rules): + # Generate the .xml file + content = [ + 'ProjectSchemaDefinitions', + {'xmlns': ('clr-namespace:Microsoft.Build.Framework.XamlTypes;' + 'assembly=Microsoft.Build.Framework'), + 'xmlns:x': 'http://schemas.microsoft.com/winfx/2006/xaml', + 'xmlns:sys': 'clr-namespace:System;assembly=mscorlib', + 'xmlns:transformCallback': + 'Microsoft.Cpp.Dev10.ConvertPropertyCallback' + } + ] + for rule in msbuild_rules: + content.extend([ + ['Rule', + {'Name': rule.rule_name, + 'PageTemplate': 'tool', + 'DisplayName': rule.display_name, + 'Order': '200' + }, + ['Rule.DataSource', + ['DataSource', + {'Persistence': 'ProjectFile', + 'ItemType': rule.rule_name + } + ] + ], + ['Rule.Categories', + ['Category', + {'Name': 'General'}, + ['Category.DisplayName', + ['sys:String', 'General'], + ], + ], + ['Category', + {'Name': 'Command Line', + 'Subtype': 'CommandLine' + }, + ['Category.DisplayName', + ['sys:String', 'Command Line'], + ], + ], + ], + ['StringListProperty', + {'Name': 'Inputs', + 'Category': 'Command Line', + 'IsRequired': 'true', + 'Switch': ' ' + }, + ['StringListProperty.DataSource', + ['DataSource', + {'Persistence': 'ProjectFile', + 'ItemType': rule.rule_name, + 'SourceType': 'Item' + } + ] + ], + ], + ['StringProperty', + {'Name': 'CommandLineTemplate', + 'DisplayName': 'Command Line', + 'Visible': 'False', + 'IncludeInCommandLine': 'False' + } + ], + ['DynamicEnumProperty', + {'Name': rule.before_targets, + 'Category': 'General', + 'EnumProvider': 'Targets', + 'IncludeInCommandLine': 'False' + }, + ['DynamicEnumProperty.DisplayName', + ['sys:String', 'Execute Before'], + ], + ['DynamicEnumProperty.Description', + ['sys:String', 'Specifies the targets for the build customization' + ' to run before.' + ], + ], + ['DynamicEnumProperty.ProviderSettings', + ['NameValuePair', + {'Name': 'Exclude', + 'Value': '^%s|^Compute' % rule.before_targets + } + ] + ], + ['DynamicEnumProperty.DataSource', + ['DataSource', + {'Persistence': 'ProjectFile', + 'HasConfigurationCondition': 'true' + } + ] + ], + ], + ['DynamicEnumProperty', + {'Name': rule.after_targets, + 'Category': 'General', + 'EnumProvider': 'Targets', + 'IncludeInCommandLine': 'False' + }, + ['DynamicEnumProperty.DisplayName', + ['sys:String', 'Execute After'], + ], + ['DynamicEnumProperty.Description', + ['sys:String', ('Specifies the targets for the build customization' + ' to run after.') + ], + ], + ['DynamicEnumProperty.ProviderSettings', + ['NameValuePair', + {'Name': 'Exclude', + 'Value': '^%s|^Compute' % rule.after_targets + } + ] + ], + ['DynamicEnumProperty.DataSource', + ['DataSource', + {'Persistence': 'ProjectFile', + 'ItemType': '', + 'HasConfigurationCondition': 'true' + } + ] + ], + ], + ['StringListProperty', + {'Name': 'Outputs', + 'DisplayName': 'Outputs', + 'Visible': 'False', + 'IncludeInCommandLine': 'False' + } + ], + ['StringProperty', + {'Name': 'ExecutionDescription', + 'DisplayName': 'Execution Description', + 'Visible': 'False', + 'IncludeInCommandLine': 'False' + } + ], + ['StringListProperty', + {'Name': 'AdditionalDependencies', + 'DisplayName': 'Additional Dependencies', + 'IncludeInCommandLine': 'False', + 'Visible': 'false' + } + ], + ['StringProperty', + {'Subtype': 'AdditionalOptions', + 'Name': 'AdditionalOptions', + 'Category': 'Command Line' + }, + ['StringProperty.DisplayName', + ['sys:String', 'Additional Options'], + ], + ['StringProperty.Description', + ['sys:String', 'Additional Options'], + ], + ], + ], + ['ItemType', + {'Name': rule.rule_name, + 'DisplayName': rule.display_name + } + ], + ['FileExtension', + {'Name': '*' + rule.extension, + 'ContentType': rule.rule_name + } + ], + ['ContentType', + {'Name': rule.rule_name, + 'DisplayName': '', + 'ItemType': rule.rule_name + } + ] + ]) + easy_xml.WriteXmlIfChanged(content, xml_path, pretty=True, win32=True) + + +def _GetConfigurationAndPlatform(name, settings): + configuration = name.rsplit('_', 1)[0] + platform = settings.get('msvs_configuration_platform', 'Win32') + return (configuration, platform) + + +def _GetConfigurationCondition(name, settings): + return (r"'$(Configuration)|$(Platform)'=='%s|%s'" % + _GetConfigurationAndPlatform(name, settings)) + + +def _GetMSBuildProjectConfigurations(configurations): + group = ['ItemGroup', {'Label': 'ProjectConfigurations'}] + for (name, settings) in sorted(configurations.iteritems()): + configuration, platform = _GetConfigurationAndPlatform(name, settings) + designation = '%s|%s' % (configuration, platform) + group.append( + ['ProjectConfiguration', {'Include': designation}, + ['Configuration', configuration], + ['Platform', platform]]) + return [group] + + +def _GetMSBuildGlobalProperties(spec, guid, gyp_file_name): + namespace = os.path.splitext(gyp_file_name)[0] + return [ + ['PropertyGroup', {'Label': 'Globals'}, + ['ProjectGuid', guid], + ['Keyword', 'Win32Proj'], + ['RootNamespace', namespace], + ] + ] + + +def _GetMSBuildConfigurationDetails(spec, build_file): + properties = {} + for name, settings in spec['configurations'].iteritems(): + msbuild_attributes = _GetMSBuildAttributes(spec, settings, build_file) + condition = _GetConfigurationCondition(name, settings) + character_set = msbuild_attributes.get('CharacterSet') + _AddConditionalProperty(properties, condition, 'ConfigurationType', + msbuild_attributes['ConfigurationType']) + if character_set: + _AddConditionalProperty(properties, condition, 'CharacterSet', + character_set) + return _GetMSBuildPropertyGroup(spec, 'Configuration', properties) + + +def _GetMSBuildLocalProperties(msbuild_toolset): + # Currently the only local property we support is PlatformToolset + properties = {} + if msbuild_toolset: + properties = [ + ['PropertyGroup', {'Label': 'Locals'}, + ['PlatformToolset', msbuild_toolset], + ] + ] + return properties + + +def _GetMSBuildPropertySheets(configurations): + user_props = r'$(UserRootDir)\Microsoft.Cpp.$(Platform).user.props' + additional_props = {} + props_specified = False + for name, settings in sorted(configurations.iteritems()): + configuration = _GetConfigurationCondition(name, settings) + if settings.has_key('msbuild_props'): + additional_props[configuration] = _FixPaths(settings['msbuild_props']) + props_specified = True + else: + additional_props[configuration] = '' + + if not props_specified: + return [ + ['ImportGroup', + {'Label': 'PropertySheets'}, + ['Import', + {'Project': user_props, + 'Condition': "exists('%s')" % user_props, + 'Label': 'LocalAppDataPlatform' + } + ] + ] + ] + else: + sheets = [] + for condition, props in additional_props.iteritems(): + import_group = [ + 'ImportGroup', + {'Label': 'PropertySheets', + 'Condition': condition + }, + ['Import', + {'Project': user_props, + 'Condition': "exists('%s')" % user_props, + 'Label': 'LocalAppDataPlatform' + } + ] + ] + for props_file in props: + import_group.append(['Import', {'Project':props_file}]) + sheets.append(import_group) + return sheets + +def _ConvertMSVSBuildAttributes(spec, config, build_file): + config_type = _GetMSVSConfigurationType(spec, build_file) + msvs_attributes = _GetMSVSAttributes(spec, config, config_type) + msbuild_attributes = {} + for a in msvs_attributes: + if a in ['IntermediateDirectory', 'OutputDirectory']: + directory = MSVSSettings.ConvertVCMacrosToMSBuild(msvs_attributes[a]) + if not directory.endswith('\\'): + directory += '\\' + msbuild_attributes[a] = directory + elif a == 'CharacterSet': + msbuild_attributes[a] = _ConvertMSVSCharacterSet(msvs_attributes[a]) + elif a == 'ConfigurationType': + msbuild_attributes[a] = _ConvertMSVSConfigurationType(msvs_attributes[a]) + else: + print 'Warning: Do not know how to convert MSVS attribute ' + a + return msbuild_attributes + + +def _ConvertMSVSCharacterSet(char_set): + if char_set.isdigit(): + char_set = { + '0': 'MultiByte', + '1': 'Unicode', + '2': 'MultiByte', + }[char_set] + return char_set + + +def _ConvertMSVSConfigurationType(config_type): + if config_type.isdigit(): + config_type = { + '1': 'Application', + '2': 'DynamicLibrary', + '4': 'StaticLibrary', + '10': 'Utility' + }[config_type] + return config_type + + +def _GetMSBuildAttributes(spec, config, build_file): + if 'msbuild_configuration_attributes' not in config: + msbuild_attributes = _ConvertMSVSBuildAttributes(spec, config, build_file) + + else: + config_type = _GetMSVSConfigurationType(spec, build_file) + config_type = _ConvertMSVSConfigurationType(config_type) + msbuild_attributes = config.get('msbuild_configuration_attributes', {}) + msbuild_attributes.setdefault('ConfigurationType', config_type) + output_dir = msbuild_attributes.get('OutputDirectory', + '$(SolutionDir)$(Configuration)') + msbuild_attributes['OutputDirectory'] = _FixPath(output_dir) + '\\' + if 'IntermediateDirectory' not in msbuild_attributes: + intermediate = _FixPath('$(Configuration)') + '\\' + msbuild_attributes['IntermediateDirectory'] = intermediate + if 'CharacterSet' in msbuild_attributes: + msbuild_attributes['CharacterSet'] = _ConvertMSVSCharacterSet( + msbuild_attributes['CharacterSet']) + if 'TargetName' not in msbuild_attributes: + prefix = spec.get('product_prefix', '') + product_name = spec.get('product_name', '$(ProjectName)') + target_name = prefix + product_name + msbuild_attributes['TargetName'] = target_name + + if spec.get('msvs_external_builder'): + external_out_dir = spec.get('msvs_external_builder_out_dir', '.') + msbuild_attributes['OutputDirectory'] = _FixPath(external_out_dir) + '\\' + + # Make sure that 'TargetPath' matches 'Lib.OutputFile' or 'Link.OutputFile' + # (depending on the tool used) to avoid MSB8012 warning. + msbuild_tool_map = { + 'executable': 'Link', + 'shared_library': 'Link', + 'loadable_module': 'Link', + 'static_library': 'Lib', + } + msbuild_tool = msbuild_tool_map.get(spec['type']) + if msbuild_tool: + msbuild_settings = config['finalized_msbuild_settings'] + out_file = msbuild_settings[msbuild_tool].get('OutputFile') + if out_file: + msbuild_attributes['TargetPath'] = _FixPath(out_file) + target_ext = msbuild_settings[msbuild_tool].get('TargetExt') + if target_ext: + msbuild_attributes['TargetExt'] = target_ext + + return msbuild_attributes + + +def _GetMSBuildConfigurationGlobalProperties(spec, configurations, build_file): + # TODO(jeanluc) We could optimize out the following and do it only if + # there are actions. + # TODO(jeanluc) Handle the equivalent of setting 'CYGWIN=nontsec'. + new_paths = [] + cygwin_dirs = spec.get('msvs_cygwin_dirs', ['.'])[0] + if cygwin_dirs: + cyg_path = '$(MSBuildProjectDirectory)\\%s\\bin\\' % _FixPath(cygwin_dirs) + new_paths.append(cyg_path) + # TODO(jeanluc) Change the convention to have both a cygwin_dir and a + # python_dir. + python_path = cyg_path.replace('cygwin\\bin', 'python_26') + new_paths.append(python_path) + if new_paths: + new_paths = '$(ExecutablePath);' + ';'.join(new_paths) + + properties = {} + for (name, configuration) in sorted(configurations.iteritems()): + condition = _GetConfigurationCondition(name, configuration) + attributes = _GetMSBuildAttributes(spec, configuration, build_file) + msbuild_settings = configuration['finalized_msbuild_settings'] + _AddConditionalProperty(properties, condition, 'IntDir', + attributes['IntermediateDirectory']) + _AddConditionalProperty(properties, condition, 'OutDir', + attributes['OutputDirectory']) + _AddConditionalProperty(properties, condition, 'TargetName', + attributes['TargetName']) + + if attributes.get('TargetPath'): + _AddConditionalProperty(properties, condition, 'TargetPath', + attributes['TargetPath']) + if attributes.get('TargetExt'): + _AddConditionalProperty(properties, condition, 'TargetExt', + attributes['TargetExt']) + + if new_paths: + _AddConditionalProperty(properties, condition, 'ExecutablePath', + new_paths) + tool_settings = msbuild_settings.get('', {}) + for name, value in sorted(tool_settings.iteritems()): + formatted_value = _GetValueFormattedForMSBuild('', name, value) + _AddConditionalProperty(properties, condition, name, formatted_value) + return _GetMSBuildPropertyGroup(spec, None, properties) + + +def _AddConditionalProperty(properties, condition, name, value): + """Adds a property / conditional value pair to a dictionary. + + Arguments: + properties: The dictionary to be modified. The key is the name of the + property. The value is itself a dictionary; its key is the value and + the value a list of condition for which this value is true. + condition: The condition under which the named property has the value. + name: The name of the property. + value: The value of the property. + """ + if name not in properties: + properties[name] = {} + values = properties[name] + if value not in values: + values[value] = [] + conditions = values[value] + conditions.append(condition) + + +# Regex for msvs variable references ( i.e. $(FOO) ). +MSVS_VARIABLE_REFERENCE = re.compile('\$\(([a-zA-Z_][a-zA-Z0-9_]*)\)') + + +def _GetMSBuildPropertyGroup(spec, label, properties): + """Returns a PropertyGroup definition for the specified properties. + + Arguments: + spec: The target project dict. + label: An optional label for the PropertyGroup. + properties: The dictionary to be converted. The key is the name of the + property. The value is itself a dictionary; its key is the value and + the value a list of condition for which this value is true. + """ + group = ['PropertyGroup'] + if label: + group.append({'Label': label}) + num_configurations = len(spec['configurations']) + def GetEdges(node): + # Use a definition of edges such that user_of_variable -> used_varible. + # This happens to be easier in this case, since a variable's + # definition contains all variables it references in a single string. + edges = set() + for value in sorted(properties[node].keys()): + # Add to edges all $(...) references to variables. + # + # Variable references that refer to names not in properties are excluded + # These can exist for instance to refer built in definitions like + # $(SolutionDir). + # + # Self references are ignored. Self reference is used in a few places to + # append to the default value. I.e. PATH=$(PATH);other_path + edges.update(set([v for v in MSVS_VARIABLE_REFERENCE.findall(value) + if v in properties and v != node])) + return edges + properties_ordered = gyp.common.TopologicallySorted( + properties.keys(), GetEdges) + # Walk properties in the reverse of a topological sort on + # user_of_variable -> used_variable as this ensures variables are + # defined before they are used. + # NOTE: reverse(topsort(DAG)) = topsort(reverse_edges(DAG)) + for name in reversed(properties_ordered): + values = properties[name] + for value, conditions in sorted(values.iteritems()): + if len(conditions) == num_configurations: + # If the value is the same all configurations, + # just add one unconditional entry. + group.append([name, value]) + else: + for condition in conditions: + group.append([name, {'Condition': condition}, value]) + return [group] + + +def _GetMSBuildToolSettingsSections(spec, configurations): + groups = [] + for (name, configuration) in sorted(configurations.iteritems()): + msbuild_settings = configuration['finalized_msbuild_settings'] + group = ['ItemDefinitionGroup', + {'Condition': _GetConfigurationCondition(name, configuration)} + ] + for tool_name, tool_settings in sorted(msbuild_settings.iteritems()): + # Skip the tool named '' which is a holder of global settings handled + # by _GetMSBuildConfigurationGlobalProperties. + if tool_name: + if tool_settings: + tool = [tool_name] + for name, value in sorted(tool_settings.iteritems()): + formatted_value = _GetValueFormattedForMSBuild(tool_name, name, + value) + tool.append([name, formatted_value]) + group.append(tool) + groups.append(group) + return groups + + +def _FinalizeMSBuildSettings(spec, configuration): + if 'msbuild_settings' in configuration: + converted = False + msbuild_settings = configuration['msbuild_settings'] + MSVSSettings.ValidateMSBuildSettings(msbuild_settings) + else: + converted = True + msvs_settings = configuration.get('msvs_settings', {}) + msbuild_settings = MSVSSettings.ConvertToMSBuildSettings(msvs_settings) + include_dirs, resource_include_dirs = _GetIncludeDirs(configuration) + libraries = _GetLibraries(spec) + library_dirs = _GetLibraryDirs(configuration) + out_file, _, msbuild_tool = _GetOutputFilePathAndTool(spec, msbuild=True) + target_ext = _GetOutputTargetExt(spec) + defines = _GetDefines(configuration) + if converted: + # Visual Studio 2010 has TR1 + defines = [d for d in defines if d != '_HAS_TR1=0'] + # Warn of ignored settings + ignored_settings = ['msvs_tool_files'] + for ignored_setting in ignored_settings: + value = configuration.get(ignored_setting) + if value: + print ('Warning: The automatic conversion to MSBuild does not handle ' + '%s. Ignoring setting of %s' % (ignored_setting, str(value))) + + defines = [_EscapeCppDefineForMSBuild(d) for d in defines] + disabled_warnings = _GetDisabledWarnings(configuration) + prebuild = configuration.get('msvs_prebuild') + postbuild = configuration.get('msvs_postbuild') + def_file = _GetModuleDefinition(spec) + precompiled_header = configuration.get('msvs_precompiled_header') + + # Add the information to the appropriate tool + # TODO(jeanluc) We could optimize and generate these settings only if + # the corresponding files are found, e.g. don't generate ResourceCompile + # if you don't have any resources. + _ToolAppend(msbuild_settings, 'ClCompile', + 'AdditionalIncludeDirectories', include_dirs) + _ToolAppend(msbuild_settings, 'ResourceCompile', + 'AdditionalIncludeDirectories', resource_include_dirs) + # Add in libraries, note that even for empty libraries, we want this + # set, to prevent inheriting default libraries from the enviroment. + _ToolSetOrAppend(msbuild_settings, 'Link', 'AdditionalDependencies', + libraries) + _ToolAppend(msbuild_settings, 'Link', 'AdditionalLibraryDirectories', + library_dirs) + if out_file: + _ToolAppend(msbuild_settings, msbuild_tool, 'OutputFile', out_file, + only_if_unset=True) + if target_ext: + _ToolAppend(msbuild_settings, msbuild_tool, 'TargetExt', target_ext, + only_if_unset=True) + # Add defines. + _ToolAppend(msbuild_settings, 'ClCompile', + 'PreprocessorDefinitions', defines) + _ToolAppend(msbuild_settings, 'ResourceCompile', + 'PreprocessorDefinitions', defines) + # Add disabled warnings. + _ToolAppend(msbuild_settings, 'ClCompile', + 'DisableSpecificWarnings', disabled_warnings) + # Turn on precompiled headers if appropriate. + if precompiled_header: + precompiled_header = os.path.split(precompiled_header)[1] + _ToolAppend(msbuild_settings, 'ClCompile', 'PrecompiledHeader', 'Use') + _ToolAppend(msbuild_settings, 'ClCompile', + 'PrecompiledHeaderFile', precompiled_header) + _ToolAppend(msbuild_settings, 'ClCompile', + 'ForcedIncludeFiles', [precompiled_header]) + # Loadable modules don't generate import libraries; + # tell dependent projects to not expect one. + if spec['type'] == 'loadable_module': + _ToolAppend(msbuild_settings, '', 'IgnoreImportLibrary', 'true') + # Set the module definition file if any. + if def_file: + _ToolAppend(msbuild_settings, 'Link', 'ModuleDefinitionFile', def_file) + configuration['finalized_msbuild_settings'] = msbuild_settings + if prebuild: + _ToolAppend(msbuild_settings, 'PreBuildEvent', 'Command', prebuild) + if postbuild: + _ToolAppend(msbuild_settings, 'PostBuildEvent', 'Command', postbuild) + + +def _GetValueFormattedForMSBuild(tool_name, name, value): + if type(value) == list: + # For some settings, VS2010 does not automatically extends the settings + # TODO(jeanluc) Is this what we want? + if name in ['AdditionalIncludeDirectories', + 'AdditionalLibraryDirectories', + 'AdditionalOptions', + 'DelayLoadDLLs', + 'DisableSpecificWarnings', + 'PreprocessorDefinitions']: + value.append('%%(%s)' % name) + # For most tools, entries in a list should be separated with ';' but some + # settings use a space. Check for those first. + exceptions = { + 'ClCompile': ['AdditionalOptions'], + 'Link': ['AdditionalOptions'], + 'Lib': ['AdditionalOptions']} + if tool_name in exceptions and name in exceptions[tool_name]: + char = ' ' + else: + char = ';' + formatted_value = char.join( + [MSVSSettings.ConvertVCMacrosToMSBuild(i) for i in value]) + else: + formatted_value = MSVSSettings.ConvertVCMacrosToMSBuild(value) + return formatted_value + + +def _VerifySourcesExist(sources, root_dir): + """Verifies that all source files exist on disk. + + Checks that all regular source files, i.e. not created at run time, + exist on disk. Missing files cause needless recompilation but no otherwise + visible errors. + + Arguments: + sources: A recursive list of Filter/file names. + root_dir: The root directory for the relative path names. + Returns: + A list of source files that cannot be found on disk. + """ + missing_sources = [] + for source in sources: + if isinstance(source, MSVSProject.Filter): + missing_sources.extend(_VerifySourcesExist(source.contents, root_dir)) + else: + if '$' not in source: + full_path = os.path.join(root_dir, source) + if not os.path.exists(full_path): + missing_sources.append(full_path) + return missing_sources + + +def _GetMSBuildSources(spec, sources, exclusions, extension_to_rule_name, + actions_spec, sources_handled_by_action, list_excluded): + groups = ['none', 'midl', 'include', 'compile', 'resource', 'rule'] + grouped_sources = {} + for g in groups: + grouped_sources[g] = [] + + _AddSources2(spec, sources, exclusions, grouped_sources, + extension_to_rule_name, sources_handled_by_action, list_excluded) + sources = [] + for g in groups: + if grouped_sources[g]: + sources.append(['ItemGroup'] + grouped_sources[g]) + if actions_spec: + sources.append(['ItemGroup'] + actions_spec) + return sources + + +def _AddSources2(spec, sources, exclusions, grouped_sources, + extension_to_rule_name, sources_handled_by_action, + list_excluded): + extensions_excluded_from_precompile = [] + for source in sources: + if isinstance(source, MSVSProject.Filter): + _AddSources2(spec, source.contents, exclusions, grouped_sources, + extension_to_rule_name, sources_handled_by_action, + list_excluded) + else: + if not source in sources_handled_by_action: + detail = [] + excluded_configurations = exclusions.get(source, []) + if len(excluded_configurations) == len(spec['configurations']): + detail.append(['ExcludedFromBuild', 'true']) + else: + for config_name, configuration in sorted(excluded_configurations): + condition = _GetConfigurationCondition(config_name, configuration) + detail.append(['ExcludedFromBuild', + {'Condition': condition}, + 'true']) + # Add precompile if needed + for config_name, configuration in spec['configurations'].iteritems(): + precompiled_source = configuration.get('msvs_precompiled_source', '') + if precompiled_source != '': + precompiled_source = _FixPath(precompiled_source) + if not extensions_excluded_from_precompile: + # If the precompiled header is generated by a C source, we must + # not try to use it for C++ sources, and vice versa. + basename, extension = os.path.splitext(precompiled_source) + if extension == '.c': + extensions_excluded_from_precompile = ['.cc', '.cpp', '.cxx'] + else: + extensions_excluded_from_precompile = ['.c'] + + if precompiled_source == source: + condition = _GetConfigurationCondition(config_name, configuration) + detail.append(['PrecompiledHeader', + {'Condition': condition}, + 'Create' + ]) + else: + # Turn off precompiled header usage for source files of a + # different type than the file that generated the + # precompiled header. + for extension in extensions_excluded_from_precompile: + if source.endswith(extension): + detail.append(['PrecompiledHeader', '']) + detail.append(['ForcedIncludeFiles', '']) + + group, element = _MapFileToMsBuildSourceType(source, + extension_to_rule_name) + grouped_sources[group].append([element, {'Include': source}] + detail) + + +def _GetMSBuildProjectReferences(project): + references = [] + if project.dependencies: + group = ['ItemGroup'] + for dependency in project.dependencies: + guid = dependency.guid + project_dir = os.path.split(project.path)[0] + relative_path = gyp.common.RelativePath(dependency.path, project_dir) + project_ref = ['ProjectReference', + {'Include': relative_path}, + ['Project', guid], + ['ReferenceOutputAssembly', 'false'] + ] + for config in dependency.spec.get('configurations', {}).itervalues(): + # If it's disabled in any config, turn it off in the reference. + if config.get('msvs_2010_disable_uldi_when_referenced', 0): + project_ref.append(['UseLibraryDependencyInputs', 'false']) + break + group.append(project_ref) + references.append(group) + return references + + +def _GenerateMSBuildProject(project, options, version, generator_flags): + spec = project.spec + configurations = spec['configurations'] + project_dir, project_file_name = os.path.split(project.path) + gyp.common.EnsureDirExists(project.path) + # Prepare list of sources and excluded sources. + gyp_path = _NormalizedSource(project.build_file) + relative_path_of_gyp_file = gyp.common.RelativePath(gyp_path, project_dir) + + gyp_file = os.path.split(project.build_file)[1] + sources, excluded_sources = _PrepareListOfSources(spec, generator_flags, + gyp_file) + # Add rules. + actions_to_add = {} + props_files_of_rules = set() + targets_files_of_rules = set() + extension_to_rule_name = {} + list_excluded = generator_flags.get('msvs_list_excluded_files', True) + + # Don't generate rules if we are using an external builder like ninja. + if not spec.get('msvs_external_builder'): + _GenerateRulesForMSBuild(project_dir, options, spec, + sources, excluded_sources, + props_files_of_rules, targets_files_of_rules, + actions_to_add, extension_to_rule_name) + else: + rules = spec.get('rules', []) + _AdjustSourcesForRules(spec, rules, sources, excluded_sources) + + sources, excluded_sources, excluded_idl = ( + _AdjustSourcesAndConvertToFilterHierarchy(spec, options, + project_dir, sources, + excluded_sources, + list_excluded, version)) + + # Don't add actions if we are using an external builder like ninja. + if not spec.get('msvs_external_builder'): + _AddActions(actions_to_add, spec, project.build_file) + _AddCopies(actions_to_add, spec) + + # NOTE: this stanza must appear after all actions have been decided. + # Don't excluded sources with actions attached, or they won't run. + excluded_sources = _FilterActionsFromExcluded( + excluded_sources, actions_to_add) + + exclusions = _GetExcludedFilesFromBuild(spec, excluded_sources, excluded_idl) + actions_spec, sources_handled_by_action = _GenerateActionsForMSBuild( + spec, actions_to_add) + + _GenerateMSBuildFiltersFile(project.path + '.filters', sources, + extension_to_rule_name) + missing_sources = _VerifySourcesExist(sources, project_dir) + + for configuration in configurations.itervalues(): + _FinalizeMSBuildSettings(spec, configuration) + + # Add attributes to root element + + import_default_section = [ + ['Import', {'Project': r'$(VCTargetsPath)\Microsoft.Cpp.Default.props'}]] + import_cpp_props_section = [ + ['Import', {'Project': r'$(VCTargetsPath)\Microsoft.Cpp.props'}]] + import_cpp_targets_section = [ + ['Import', {'Project': r'$(VCTargetsPath)\Microsoft.Cpp.targets'}]] + macro_section = [['PropertyGroup', {'Label': 'UserMacros'}]] + + content = [ + 'Project', + {'xmlns': 'http://schemas.microsoft.com/developer/msbuild/2003', + 'ToolsVersion': version.ProjectVersion(), + 'DefaultTargets': 'Build' + }] + + content += _GetMSBuildProjectConfigurations(configurations) + content += _GetMSBuildGlobalProperties(spec, project.guid, project_file_name) + content += import_default_section + content += _GetMSBuildConfigurationDetails(spec, project.build_file) + content += _GetMSBuildLocalProperties(project.msbuild_toolset) + content += import_cpp_props_section + content += _GetMSBuildExtensions(props_files_of_rules) + content += _GetMSBuildPropertySheets(configurations) + content += macro_section + content += _GetMSBuildConfigurationGlobalProperties(spec, configurations, + project.build_file) + content += _GetMSBuildToolSettingsSections(spec, configurations) + content += _GetMSBuildSources( + spec, sources, exclusions, extension_to_rule_name, actions_spec, + sources_handled_by_action, list_excluded) + content += _GetMSBuildProjectReferences(project) + content += import_cpp_targets_section + content += _GetMSBuildExtensionTargets(targets_files_of_rules) + + if spec.get('msvs_external_builder'): + content += _GetMSBuildExternalBuilderTargets(spec) + + # TODO(jeanluc) File a bug to get rid of runas. We had in MSVS: + # has_run_as = _WriteMSVSUserFile(project.path, version, spec) + + easy_xml.WriteXmlIfChanged(content, project.path, pretty=True, win32=True) + + return missing_sources + + +def _GetMSBuildExternalBuilderTargets(spec): + """Return a list of MSBuild targets for external builders. + + Right now, only "Build" and "Clean" targets are generated. + + Arguments: + spec: The gyp target spec. + Returns: + List of MSBuild 'Target' specs. + """ + build_cmd = _BuildCommandLineForRuleRaw( + spec, spec['msvs_external_builder_build_cmd'], + False, False, False, False) + build_target = ['Target', {'Name': 'Build'}] + build_target.append(['Exec', {'Command': build_cmd}]) + + clean_cmd = _BuildCommandLineForRuleRaw( + spec, spec['msvs_external_builder_clean_cmd'], + False, False, False, False) + clean_target = ['Target', {'Name': 'Clean'}] + clean_target.append(['Exec', {'Command': clean_cmd}]) + + return [build_target, clean_target] + + +def _GetMSBuildExtensions(props_files_of_rules): + extensions = ['ImportGroup', {'Label': 'ExtensionSettings'}] + for props_file in props_files_of_rules: + extensions.append(['Import', {'Project': props_file}]) + return [extensions] + + +def _GetMSBuildExtensionTargets(targets_files_of_rules): + targets_node = ['ImportGroup', {'Label': 'ExtensionTargets'}] + for targets_file in sorted(targets_files_of_rules): + targets_node.append(['Import', {'Project': targets_file}]) + return [targets_node] + + +def _GenerateActionsForMSBuild(spec, actions_to_add): + """Add actions accumulated into an actions_to_add, merging as needed. + + Arguments: + spec: the target project dict + actions_to_add: dictionary keyed on input name, which maps to a list of + dicts describing the actions attached to that input file. + + Returns: + A pair of (action specification, the sources handled by this action). + """ + sources_handled_by_action = OrderedSet() + actions_spec = [] + for primary_input, actions in actions_to_add.iteritems(): + inputs = OrderedSet() + outputs = OrderedSet() + descriptions = [] + commands = [] + for action in actions: + inputs.update(OrderedSet(action['inputs'])) + outputs.update(OrderedSet(action['outputs'])) + descriptions.append(action['description']) + cmd = action['command'] + # For most actions, add 'call' so that actions that invoke batch files + # return and continue executing. msbuild_use_call provides a way to + # disable this but I have not seen any adverse effect from doing that + # for everything. + if action.get('msbuild_use_call', True): + cmd = 'call ' + cmd + commands.append(cmd) + # Add the custom build action for one input file. + description = ', and also '.join(descriptions) + + # We can't join the commands simply with && because the command line will + # get too long. See also _AddActions: cygwin's setup_env mustn't be called + # for every invocation or the command that sets the PATH will grow too + # long. + command = ( + '\r\nif %errorlevel% neq 0 exit /b %errorlevel%\r\n'.join(commands)) + _AddMSBuildAction(spec, + primary_input, + inputs, + outputs, + command, + description, + sources_handled_by_action, + actions_spec) + return actions_spec, sources_handled_by_action + + +def _AddMSBuildAction(spec, primary_input, inputs, outputs, cmd, description, + sources_handled_by_action, actions_spec): + command = MSVSSettings.ConvertVCMacrosToMSBuild(cmd) + primary_input = _FixPath(primary_input) + inputs_array = _FixPaths(inputs) + outputs_array = _FixPaths(outputs) + additional_inputs = ';'.join([i for i in inputs_array + if i != primary_input]) + outputs = ';'.join(outputs_array) + sources_handled_by_action.add(primary_input) + action_spec = ['CustomBuild', {'Include': primary_input}] + action_spec.extend( + # TODO(jeanluc) 'Document' for all or just if as_sources? + [['FileType', 'Document'], + ['Command', command], + ['Message', description], + ['Outputs', outputs] + ]) + if additional_inputs: + action_spec.append(['AdditionalInputs', additional_inputs]) + actions_spec.append(action_spec) diff --git a/deps/gyp/pylib/gyp/generator/msvs_test.py b/deps/gyp/pylib/gyp/generator/msvs_test.py new file mode 100755 index 0000000000..c0b021df50 --- /dev/null +++ b/deps/gyp/pylib/gyp/generator/msvs_test.py @@ -0,0 +1,37 @@ +#!/usr/bin/env python +# Copyright (c) 2012 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +""" Unit tests for the msvs.py file. """ + +import gyp.generator.msvs as msvs +import unittest +import StringIO + + +class TestSequenceFunctions(unittest.TestCase): + + def setUp(self): + self.stderr = StringIO.StringIO() + + def test_GetLibraries(self): + self.assertEqual( + msvs._GetLibraries({}), + []) + self.assertEqual( + msvs._GetLibraries({'libraries': []}), + []) + self.assertEqual( + msvs._GetLibraries({'other':'foo', 'libraries': ['a.lib']}), + ['a.lib']) + self.assertEqual( + msvs._GetLibraries({'libraries': ['-la']}), + ['a.lib']) + self.assertEqual( + msvs._GetLibraries({'libraries': ['a.lib', 'b.lib', 'c.lib', '-lb.lib', + '-lb.lib', 'd.lib', 'a.lib']}), + ['c.lib', 'b.lib', 'd.lib', 'a.lib']) + +if __name__ == '__main__': + unittest.main() diff --git a/deps/gyp/pylib/gyp/generator/ninja.py b/deps/gyp/pylib/gyp/generator/ninja.py new file mode 100644 index 0000000000..1ed23f64cc --- /dev/null +++ b/deps/gyp/pylib/gyp/generator/ninja.py @@ -0,0 +1,2156 @@ +# Copyright (c) 2013 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +import copy +import hashlib +import json +import multiprocessing +import os.path +import re +import signal +import subprocess +import sys +import gyp +import gyp.common +import gyp.msvs_emulation +import gyp.MSVSUtil as MSVSUtil +import gyp.xcode_emulation +from cStringIO import StringIO + +from gyp.common import GetEnvironFallback +import gyp.ninja_syntax as ninja_syntax + +generator_default_variables = { + 'EXECUTABLE_PREFIX': '', + 'EXECUTABLE_SUFFIX': '', + 'STATIC_LIB_PREFIX': 'lib', + 'STATIC_LIB_SUFFIX': '.a', + 'SHARED_LIB_PREFIX': 'lib', + + # Gyp expects the following variables to be expandable by the build + # system to the appropriate locations. Ninja prefers paths to be + # known at gyp time. To resolve this, introduce special + # variables starting with $! and $| (which begin with a $ so gyp knows it + # should be treated specially, but is otherwise an invalid + # ninja/shell variable) that are passed to gyp here but expanded + # before writing out into the target .ninja files; see + # ExpandSpecial. + # $! is used for variables that represent a path and that can only appear at + # the start of a string, while $| is used for variables that can appear + # anywhere in a string. + 'INTERMEDIATE_DIR': '$!INTERMEDIATE_DIR', + 'SHARED_INTERMEDIATE_DIR': '$!PRODUCT_DIR/gen', + 'PRODUCT_DIR': '$!PRODUCT_DIR', + 'CONFIGURATION_NAME': '$|CONFIGURATION_NAME', + + # Special variables that may be used by gyp 'rule' targets. + # We generate definitions for these variables on the fly when processing a + # rule. + 'RULE_INPUT_ROOT': '${root}', + 'RULE_INPUT_DIRNAME': '${dirname}', + 'RULE_INPUT_PATH': '${source}', + 'RULE_INPUT_EXT': '${ext}', + 'RULE_INPUT_NAME': '${name}', +} + +# Placates pylint. +generator_additional_non_configuration_keys = [] +generator_additional_path_sections = [] +generator_extra_sources_for_rules = [] +generator_filelist_paths = None + +# TODO: figure out how to not build extra host objects in the non-cross-compile +# case when this is enabled, and enable unconditionally. +generator_supports_multiple_toolsets = ( + os.environ.get('GYP_CROSSCOMPILE') or + os.environ.get('AR_host') or + os.environ.get('CC_host') or + os.environ.get('CXX_host') or + os.environ.get('AR_target') or + os.environ.get('CC_target') or + os.environ.get('CXX_target')) + + +def StripPrefix(arg, prefix): + if arg.startswith(prefix): + return arg[len(prefix):] + return arg + + +def QuoteShellArgument(arg, flavor): + """Quote a string such that it will be interpreted as a single argument + by the shell.""" + # Rather than attempting to enumerate the bad shell characters, just + # whitelist common OK ones and quote anything else. + if re.match(r'^[a-zA-Z0-9_=.\\/-]+$', arg): + return arg # No quoting necessary. + if flavor == 'win': + return gyp.msvs_emulation.QuoteForRspFile(arg) + return "'" + arg.replace("'", "'" + '"\'"' + "'") + "'" + + +def Define(d, flavor): + """Takes a preprocessor define and returns a -D parameter that's ninja- and + shell-escaped.""" + if flavor == 'win': + # cl.exe replaces literal # characters with = in preprocesor definitions for + # some reason. Octal-encode to work around that. + d = d.replace('#', '\\%03o' % ord('#')) + return QuoteShellArgument(ninja_syntax.escape('-D' + d), flavor) + + +def AddArch(output, arch): + """Adds an arch string to an output path.""" + output, extension = os.path.splitext(output) + return '%s.%s%s' % (output, arch, extension) + + +class Target: + """Target represents the paths used within a single gyp target. + + Conceptually, building a single target A is a series of steps: + + 1) actions/rules/copies generates source/resources/etc. + 2) compiles generates .o files + 3) link generates a binary (library/executable) + 4) bundle merges the above in a mac bundle + + (Any of these steps can be optional.) + + From a build ordering perspective, a dependent target B could just + depend on the last output of this series of steps. + + But some dependent commands sometimes need to reach inside the box. + For example, when linking B it needs to get the path to the static + library generated by A. + + This object stores those paths. To keep things simple, member + variables only store concrete paths to single files, while methods + compute derived values like "the last output of the target". + """ + def __init__(self, type): + # Gyp type ("static_library", etc.) of this target. + self.type = type + # File representing whether any input dependencies necessary for + # dependent actions have completed. + self.preaction_stamp = None + # File representing whether any input dependencies necessary for + # dependent compiles have completed. + self.precompile_stamp = None + # File representing the completion of actions/rules/copies, if any. + self.actions_stamp = None + # Path to the output of the link step, if any. + self.binary = None + # Path to the file representing the completion of building the bundle, + # if any. + self.bundle = None + # On Windows, incremental linking requires linking against all the .objs + # that compose a .lib (rather than the .lib itself). That list is stored + # here. + self.component_objs = None + # Windows only. The import .lib is the output of a build step, but + # because dependents only link against the lib (not both the lib and the + # dll) we keep track of the import library here. + self.import_lib = None + + def Linkable(self): + """Return true if this is a target that can be linked against.""" + return self.type in ('static_library', 'shared_library') + + def UsesToc(self, flavor): + """Return true if the target should produce a restat rule based on a TOC + file.""" + # For bundles, the .TOC should be produced for the binary, not for + # FinalOutput(). But the naive approach would put the TOC file into the + # bundle, so don't do this for bundles for now. + if flavor == 'win' or self.bundle: + return False + return self.type in ('shared_library', 'loadable_module') + + def PreActionInput(self, flavor): + """Return the path, if any, that should be used as a dependency of + any dependent action step.""" + if self.UsesToc(flavor): + return self.FinalOutput() + '.TOC' + return self.FinalOutput() or self.preaction_stamp + + def PreCompileInput(self): + """Return the path, if any, that should be used as a dependency of + any dependent compile step.""" + return self.actions_stamp or self.precompile_stamp + + def FinalOutput(self): + """Return the last output of the target, which depends on all prior + steps.""" + return self.bundle or self.binary or self.actions_stamp + + +# A small discourse on paths as used within the Ninja build: +# All files we produce (both at gyp and at build time) appear in the +# build directory (e.g. out/Debug). +# +# Paths within a given .gyp file are always relative to the directory +# containing the .gyp file. Call these "gyp paths". This includes +# sources as well as the starting directory a given gyp rule/action +# expects to be run from. We call the path from the source root to +# the gyp file the "base directory" within the per-.gyp-file +# NinjaWriter code. +# +# All paths as written into the .ninja files are relative to the build +# directory. Call these paths "ninja paths". +# +# We translate between these two notions of paths with two helper +# functions: +# +# - GypPathToNinja translates a gyp path (i.e. relative to the .gyp file) +# into the equivalent ninja path. +# +# - GypPathToUniqueOutput translates a gyp path into a ninja path to write +# an output file; the result can be namespaced such that it is unique +# to the input file name as well as the output target name. + +class NinjaWriter: + def __init__(self, qualified_target, target_outputs, base_dir, build_dir, + output_file, toplevel_build, output_file_name, flavor, + toplevel_dir=None): + """ + base_dir: path from source root to directory containing this gyp file, + by gyp semantics, all input paths are relative to this + build_dir: path from source root to build output + toplevel_dir: path to the toplevel directory + """ + + self.qualified_target = qualified_target + self.target_outputs = target_outputs + self.base_dir = base_dir + self.build_dir = build_dir + self.ninja = ninja_syntax.Writer(output_file) + self.toplevel_build = toplevel_build + self.output_file_name = output_file_name + + self.flavor = flavor + self.abs_build_dir = None + if toplevel_dir is not None: + self.abs_build_dir = os.path.abspath(os.path.join(toplevel_dir, + build_dir)) + self.obj_ext = '.obj' if flavor == 'win' else '.o' + if flavor == 'win': + # See docstring of msvs_emulation.GenerateEnvironmentFiles(). + self.win_env = {} + for arch in ('x86', 'x64'): + self.win_env[arch] = 'environment.' + arch + + # Relative path from build output dir to base dir. + build_to_top = gyp.common.InvertRelativePath(build_dir, toplevel_dir) + self.build_to_base = os.path.join(build_to_top, base_dir) + # Relative path from base dir to build dir. + base_to_top = gyp.common.InvertRelativePath(base_dir, toplevel_dir) + self.base_to_build = os.path.join(base_to_top, build_dir) + + def ExpandSpecial(self, path, product_dir=None): + """Expand specials like $!PRODUCT_DIR in |path|. + + If |product_dir| is None, assumes the cwd is already the product + dir. Otherwise, |product_dir| is the relative path to the product + dir. + """ + + PRODUCT_DIR = '$!PRODUCT_DIR' + if PRODUCT_DIR in path: + if product_dir: + path = path.replace(PRODUCT_DIR, product_dir) + else: + path = path.replace(PRODUCT_DIR + '/', '') + path = path.replace(PRODUCT_DIR + '\\', '') + path = path.replace(PRODUCT_DIR, '.') + + INTERMEDIATE_DIR = '$!INTERMEDIATE_DIR' + if INTERMEDIATE_DIR in path: + int_dir = self.GypPathToUniqueOutput('gen') + # GypPathToUniqueOutput generates a path relative to the product dir, + # so insert product_dir in front if it is provided. + path = path.replace(INTERMEDIATE_DIR, + os.path.join(product_dir or '', int_dir)) + + CONFIGURATION_NAME = '$|CONFIGURATION_NAME' + path = path.replace(CONFIGURATION_NAME, self.config_name) + + return path + + def ExpandRuleVariables(self, path, root, dirname, source, ext, name): + if self.flavor == 'win': + path = self.msvs_settings.ConvertVSMacros( + path, config=self.config_name) + path = path.replace(generator_default_variables['RULE_INPUT_ROOT'], root) + path = path.replace(generator_default_variables['RULE_INPUT_DIRNAME'], + dirname) + path = path.replace(generator_default_variables['RULE_INPUT_PATH'], source) + path = path.replace(generator_default_variables['RULE_INPUT_EXT'], ext) + path = path.replace(generator_default_variables['RULE_INPUT_NAME'], name) + return path + + def GypPathToNinja(self, path, env=None): + """Translate a gyp path to a ninja path, optionally expanding environment + variable references in |path| with |env|. + + See the above discourse on path conversions.""" + if env: + if self.flavor == 'mac': + path = gyp.xcode_emulation.ExpandEnvVars(path, env) + elif self.flavor == 'win': + path = gyp.msvs_emulation.ExpandMacros(path, env) + if path.startswith('$!'): + expanded = self.ExpandSpecial(path) + if self.flavor == 'win': + expanded = os.path.normpath(expanded) + return expanded + if '$|' in path: + path = self.ExpandSpecial(path) + assert '$' not in path, path + return os.path.normpath(os.path.join(self.build_to_base, path)) + + def GypPathToUniqueOutput(self, path, qualified=True): + """Translate a gyp path to a ninja path for writing output. + + If qualified is True, qualify the resulting filename with the name + of the target. This is necessary when e.g. compiling the same + path twice for two separate output targets. + + See the above discourse on path conversions.""" + + path = self.ExpandSpecial(path) + assert not path.startswith('$'), path + + # Translate the path following this scheme: + # Input: foo/bar.gyp, target targ, references baz/out.o + # Output: obj/foo/baz/targ.out.o (if qualified) + # obj/foo/baz/out.o (otherwise) + # (and obj.host instead of obj for cross-compiles) + # + # Why this scheme and not some other one? + # 1) for a given input, you can compute all derived outputs by matching + # its path, even if the input is brought via a gyp file with '..'. + # 2) simple files like libraries and stamps have a simple filename. + + obj = 'obj' + if self.toolset != 'target': + obj += '.' + self.toolset + + path_dir, path_basename = os.path.split(path) + if qualified: + path_basename = self.name + '.' + path_basename + return os.path.normpath(os.path.join(obj, self.base_dir, path_dir, + path_basename)) + + def WriteCollapsedDependencies(self, name, targets): + """Given a list of targets, return a path for a single file + representing the result of building all the targets or None. + + Uses a stamp file if necessary.""" + + assert targets == filter(None, targets), targets + if len(targets) == 0: + return None + if len(targets) > 1: + stamp = self.GypPathToUniqueOutput(name + '.stamp') + targets = self.ninja.build(stamp, 'stamp', targets) + self.ninja.newline() + return targets[0] + + def _SubninjaNameForArch(self, arch): + output_file_base = os.path.splitext(self.output_file_name)[0] + return '%s.%s.ninja' % (output_file_base, arch) + + def WriteSpec(self, spec, config_name, generator_flags): + """The main entry point for NinjaWriter: write the build rules for a spec. + + Returns a Target object, which represents the output paths for this spec. + Returns None if there are no outputs (e.g. a settings-only 'none' type + target).""" + + self.config_name = config_name + self.name = spec['target_name'] + self.toolset = spec['toolset'] + config = spec['configurations'][config_name] + self.target = Target(spec['type']) + self.is_standalone_static_library = bool( + spec.get('standalone_static_library', 0)) + # Track if this target contains any C++ files, to decide if gcc or g++ + # should be used for linking. + self.uses_cpp = False + + self.is_mac_bundle = gyp.xcode_emulation.IsMacBundle(self.flavor, spec) + self.xcode_settings = self.msvs_settings = None + if self.flavor == 'mac': + self.xcode_settings = gyp.xcode_emulation.XcodeSettings(spec) + if self.flavor == 'win': + self.msvs_settings = gyp.msvs_emulation.MsvsSettings(spec, + generator_flags) + arch = self.msvs_settings.GetArch(config_name) + self.ninja.variable('arch', self.win_env[arch]) + self.ninja.variable('cc', '$cl_' + arch) + self.ninja.variable('cxx', '$cl_' + arch) + + if self.flavor == 'mac': + self.archs = self.xcode_settings.GetActiveArchs(config_name) + if len(self.archs) > 1: + self.arch_subninjas = dict( + (arch, ninja_syntax.Writer( + OpenOutput(os.path.join(self.toplevel_build, + self._SubninjaNameForArch(arch)), + 'w'))) + for arch in self.archs) + + # Compute predepends for all rules. + # actions_depends is the dependencies this target depends on before running + # any of its action/rule/copy steps. + # compile_depends is the dependencies this target depends on before running + # any of its compile steps. + actions_depends = [] + compile_depends = [] + # TODO(evan): it is rather confusing which things are lists and which + # are strings. Fix these. + if 'dependencies' in spec: + for dep in spec['dependencies']: + if dep in self.target_outputs: + target = self.target_outputs[dep] + actions_depends.append(target.PreActionInput(self.flavor)) + compile_depends.append(target.PreCompileInput()) + actions_depends = filter(None, actions_depends) + compile_depends = filter(None, compile_depends) + actions_depends = self.WriteCollapsedDependencies('actions_depends', + actions_depends) + compile_depends = self.WriteCollapsedDependencies('compile_depends', + compile_depends) + self.target.preaction_stamp = actions_depends + self.target.precompile_stamp = compile_depends + + # Write out actions, rules, and copies. These must happen before we + # compile any sources, so compute a list of predependencies for sources + # while we do it. + extra_sources = [] + mac_bundle_depends = [] + self.target.actions_stamp = self.WriteActionsRulesCopies( + spec, extra_sources, actions_depends, mac_bundle_depends) + + # If we have actions/rules/copies, we depend directly on those, but + # otherwise we depend on dependent target's actions/rules/copies etc. + # We never need to explicitly depend on previous target's link steps, + # because no compile ever depends on them. + compile_depends_stamp = (self.target.actions_stamp or compile_depends) + + # Write out the compilation steps, if any. + link_deps = [] + sources = extra_sources + spec.get('sources', []) + if sources: + if self.flavor == 'mac' and len(self.archs) > 1: + # Write subninja file containing compile and link commands scoped to + # a single arch if a fat binary is being built. + for arch in self.archs: + self.ninja.subninja(self._SubninjaNameForArch(arch)) + + pch = None + if self.flavor == 'win': + gyp.msvs_emulation.VerifyMissingSources( + sources, self.abs_build_dir, generator_flags, self.GypPathToNinja) + pch = gyp.msvs_emulation.PrecompiledHeader( + self.msvs_settings, config_name, self.GypPathToNinja, + self.GypPathToUniqueOutput, self.obj_ext) + else: + pch = gyp.xcode_emulation.MacPrefixHeader( + self.xcode_settings, self.GypPathToNinja, + lambda path, lang: self.GypPathToUniqueOutput(path + '-' + lang)) + link_deps = self.WriteSources( + self.ninja, config_name, config, sources, compile_depends_stamp, pch, + spec) + # Some actions/rules output 'sources' that are already object files. + obj_outputs = [f for f in sources if f.endswith(self.obj_ext)] + if obj_outputs: + if self.flavor != 'mac' or len(self.archs) == 1: + link_deps += [self.GypPathToNinja(o) for o in obj_outputs] + else: + print "Warning: Actions/rules writing object files don't work with " \ + "multiarch targets, dropping. (target %s)" % spec['target_name'] + + + if self.flavor == 'win' and self.target.type == 'static_library': + self.target.component_objs = link_deps + + # Write out a link step, if needed. + output = None + is_empty_bundle = not link_deps and not mac_bundle_depends + if link_deps or self.target.actions_stamp or actions_depends: + output = self.WriteTarget(spec, config_name, config, link_deps, + self.target.actions_stamp or actions_depends) + if self.is_mac_bundle: + mac_bundle_depends.append(output) + + # Bundle all of the above together, if needed. + if self.is_mac_bundle: + output = self.WriteMacBundle(spec, mac_bundle_depends, is_empty_bundle) + + if not output: + return None + + assert self.target.FinalOutput(), output + return self.target + + def _WinIdlRule(self, source, prebuild, outputs): + """Handle the implicit VS .idl rule for one source file. Fills |outputs| + with files that are generated.""" + outdir, output, vars, flags = self.msvs_settings.GetIdlBuildData( + source, self.config_name) + outdir = self.GypPathToNinja(outdir) + def fix_path(path, rel=None): + path = os.path.join(outdir, path) + dirname, basename = os.path.split(source) + root, ext = os.path.splitext(basename) + path = self.ExpandRuleVariables( + path, root, dirname, source, ext, basename) + if rel: + path = os.path.relpath(path, rel) + return path + vars = [(name, fix_path(value, outdir)) for name, value in vars] + output = [fix_path(p) for p in output] + vars.append(('outdir', outdir)) + vars.append(('idlflags', flags)) + input = self.GypPathToNinja(source) + self.ninja.build(output, 'idl', input, + variables=vars, order_only=prebuild) + outputs.extend(output) + + def WriteWinIdlFiles(self, spec, prebuild): + """Writes rules to match MSVS's implicit idl handling.""" + assert self.flavor == 'win' + if self.msvs_settings.HasExplicitIdlRules(spec): + return [] + outputs = [] + for source in filter(lambda x: x.endswith('.idl'), spec['sources']): + self._WinIdlRule(source, prebuild, outputs) + return outputs + + def WriteActionsRulesCopies(self, spec, extra_sources, prebuild, + mac_bundle_depends): + """Write out the Actions, Rules, and Copies steps. Return a path + representing the outputs of these steps.""" + outputs = [] + if self.is_mac_bundle: + mac_bundle_resources = spec.get('mac_bundle_resources', [])[:] + else: + mac_bundle_resources = [] + extra_mac_bundle_resources = [] + + if 'actions' in spec: + outputs += self.WriteActions(spec['actions'], extra_sources, prebuild, + extra_mac_bundle_resources) + if 'rules' in spec: + outputs += self.WriteRules(spec['rules'], extra_sources, prebuild, + mac_bundle_resources, + extra_mac_bundle_resources) + if 'copies' in spec: + outputs += self.WriteCopies(spec['copies'], prebuild, mac_bundle_depends) + + if 'sources' in spec and self.flavor == 'win': + outputs += self.WriteWinIdlFiles(spec, prebuild) + + stamp = self.WriteCollapsedDependencies('actions_rules_copies', outputs) + + if self.is_mac_bundle: + self.WriteMacBundleResources( + extra_mac_bundle_resources + mac_bundle_resources, mac_bundle_depends) + self.WriteMacInfoPlist(mac_bundle_depends) + + return stamp + + def GenerateDescription(self, verb, message, fallback): + """Generate and return a description of a build step. + + |verb| is the short summary, e.g. ACTION or RULE. + |message| is a hand-written description, or None if not available. + |fallback| is the gyp-level name of the step, usable as a fallback. + """ + if self.toolset != 'target': + verb += '(%s)' % self.toolset + if message: + return '%s %s' % (verb, self.ExpandSpecial(message)) + else: + return '%s %s: %s' % (verb, self.name, fallback) + + def WriteActions(self, actions, extra_sources, prebuild, + extra_mac_bundle_resources): + # Actions cd into the base directory. + env = self.GetSortedXcodeEnv() + if self.flavor == 'win': + env = self.msvs_settings.GetVSMacroEnv( + '$!PRODUCT_DIR', config=self.config_name) + all_outputs = [] + for action in actions: + # First write out a rule for the action. + name = '%s_%s' % (action['action_name'], + hashlib.md5(self.qualified_target).hexdigest()) + description = self.GenerateDescription('ACTION', + action.get('message', None), + name) + is_cygwin = (self.msvs_settings.IsRuleRunUnderCygwin(action) + if self.flavor == 'win' else False) + args = action['action'] + rule_name, _ = self.WriteNewNinjaRule(name, args, description, + is_cygwin, env=env) + + inputs = [self.GypPathToNinja(i, env) for i in action['inputs']] + if int(action.get('process_outputs_as_sources', False)): + extra_sources += action['outputs'] + if int(action.get('process_outputs_as_mac_bundle_resources', False)): + extra_mac_bundle_resources += action['outputs'] + outputs = [self.GypPathToNinja(o, env) for o in action['outputs']] + + # Then write out an edge using the rule. + self.ninja.build(outputs, rule_name, inputs, + order_only=prebuild) + all_outputs += outputs + + self.ninja.newline() + + return all_outputs + + def WriteRules(self, rules, extra_sources, prebuild, + mac_bundle_resources, extra_mac_bundle_resources): + env = self.GetSortedXcodeEnv() + all_outputs = [] + for rule in rules: + # First write out a rule for the rule action. + name = '%s_%s' % (rule['rule_name'], + hashlib.md5(self.qualified_target).hexdigest()) + # Skip a rule with no action and no inputs. + if 'action' not in rule and not rule.get('rule_sources', []): + continue + args = rule['action'] + description = self.GenerateDescription( + 'RULE', + rule.get('message', None), + ('%s ' + generator_default_variables['RULE_INPUT_PATH']) % name) + is_cygwin = (self.msvs_settings.IsRuleRunUnderCygwin(rule) + if self.flavor == 'win' else False) + rule_name, args = self.WriteNewNinjaRule( + name, args, description, is_cygwin, env=env) + + # TODO: if the command references the outputs directly, we should + # simplify it to just use $out. + + # Rules can potentially make use of some special variables which + # must vary per source file. + # Compute the list of variables we'll need to provide. + special_locals = ('source', 'root', 'dirname', 'ext', 'name') + needed_variables = set(['source']) + for argument in args: + for var in special_locals: + if ('${%s}' % var) in argument: + needed_variables.add(var) + + def cygwin_munge(path): + if is_cygwin: + return path.replace('\\', '/') + return path + + # For each source file, write an edge that generates all the outputs. + for source in rule.get('rule_sources', []): + source = os.path.normpath(source) + dirname, basename = os.path.split(source) + root, ext = os.path.splitext(basename) + + # Gather the list of inputs and outputs, expanding $vars if possible. + outputs = [self.ExpandRuleVariables(o, root, dirname, + source, ext, basename) + for o in rule['outputs']] + inputs = [self.ExpandRuleVariables(i, root, dirname, + source, ext, basename) + for i in rule.get('inputs', [])] + + if int(rule.get('process_outputs_as_sources', False)): + extra_sources += outputs + + was_mac_bundle_resource = source in mac_bundle_resources + if was_mac_bundle_resource or \ + int(rule.get('process_outputs_as_mac_bundle_resources', False)): + extra_mac_bundle_resources += outputs + # Note: This is n_resources * n_outputs_in_rule. Put to-be-removed + # items in a set and remove them all in a single pass if this becomes + # a performance issue. + if was_mac_bundle_resource: + mac_bundle_resources.remove(source) + + extra_bindings = [] + for var in needed_variables: + if var == 'root': + extra_bindings.append(('root', cygwin_munge(root))) + elif var == 'dirname': + # '$dirname' is a parameter to the rule action, which means + # it shouldn't be converted to a Ninja path. But we don't + # want $!PRODUCT_DIR in there either. + dirname_expanded = self.ExpandSpecial(dirname, self.base_to_build) + extra_bindings.append(('dirname', cygwin_munge(dirname_expanded))) + elif var == 'source': + # '$source' is a parameter to the rule action, which means + # it shouldn't be converted to a Ninja path. But we don't + # want $!PRODUCT_DIR in there either. + source_expanded = self.ExpandSpecial(source, self.base_to_build) + extra_bindings.append(('source', cygwin_munge(source_expanded))) + elif var == 'ext': + extra_bindings.append(('ext', ext)) + elif var == 'name': + extra_bindings.append(('name', cygwin_munge(basename))) + else: + assert var == None, repr(var) + + inputs = [self.GypPathToNinja(i, env) for i in inputs] + outputs = [self.GypPathToNinja(o, env) for o in outputs] + extra_bindings.append(('unique_name', + hashlib.md5(outputs[0]).hexdigest())) + self.ninja.build(outputs, rule_name, self.GypPathToNinja(source), + implicit=inputs, + order_only=prebuild, + variables=extra_bindings) + + all_outputs.extend(outputs) + + return all_outputs + + def WriteCopies(self, copies, prebuild, mac_bundle_depends): + outputs = [] + env = self.GetSortedXcodeEnv() + for copy in copies: + for path in copy['files']: + # Normalize the path so trailing slashes don't confuse us. + path = os.path.normpath(path) + basename = os.path.split(path)[1] + src = self.GypPathToNinja(path, env) + dst = self.GypPathToNinja(os.path.join(copy['destination'], basename), + env) + outputs += self.ninja.build(dst, 'copy', src, order_only=prebuild) + if self.is_mac_bundle: + # gyp has mac_bundle_resources to copy things into a bundle's + # Resources folder, but there's no built-in way to copy files to other + # places in the bundle. Hence, some targets use copies for this. Check + # if this file is copied into the current bundle, and if so add it to + # the bundle depends so that dependent targets get rebuilt if the copy + # input changes. + if dst.startswith(self.xcode_settings.GetBundleContentsFolderPath()): + mac_bundle_depends.append(dst) + + return outputs + + def WriteMacBundleResources(self, resources, bundle_depends): + """Writes ninja edges for 'mac_bundle_resources'.""" + for output, res in gyp.xcode_emulation.GetMacBundleResources( + generator_default_variables['PRODUCT_DIR'], + self.xcode_settings, map(self.GypPathToNinja, resources)): + output = self.ExpandSpecial(output) + self.ninja.build(output, 'mac_tool', res, + variables=[('mactool_cmd', 'copy-bundle-resource')]) + bundle_depends.append(output) + + def WriteMacInfoPlist(self, bundle_depends): + """Write build rules for bundle Info.plist files.""" + info_plist, out, defines, extra_env = gyp.xcode_emulation.GetMacInfoPlist( + generator_default_variables['PRODUCT_DIR'], + self.xcode_settings, self.GypPathToNinja) + if not info_plist: + return + out = self.ExpandSpecial(out) + if defines: + # Create an intermediate file to store preprocessed results. + intermediate_plist = self.GypPathToUniqueOutput( + os.path.basename(info_plist)) + defines = ' '.join([Define(d, self.flavor) for d in defines]) + info_plist = self.ninja.build( + intermediate_plist, 'preprocess_infoplist', info_plist, + variables=[('defines',defines)]) + + env = self.GetSortedXcodeEnv(additional_settings=extra_env) + env = self.ComputeExportEnvString(env) + + keys = self.xcode_settings.GetExtraPlistItems(self.config_name) + keys = QuoteShellArgument(json.dumps(keys), self.flavor) + self.ninja.build(out, 'copy_infoplist', info_plist, + variables=[('env', env), ('keys', keys)]) + bundle_depends.append(out) + + def WriteSources(self, ninja_file, config_name, config, sources, predepends, + precompiled_header, spec): + """Write build rules to compile all of |sources|.""" + if self.toolset == 'host': + self.ninja.variable('ar', '$ar_host') + self.ninja.variable('cc', '$cc_host') + self.ninja.variable('cxx', '$cxx_host') + self.ninja.variable('ld', '$ld_host') + self.ninja.variable('ldxx', '$ldxx_host') + + if self.flavor != 'mac' or len(self.archs) == 1: + return self.WriteSourcesForArch( + self.ninja, config_name, config, sources, predepends, + precompiled_header, spec) + else: + return dict((arch, self.WriteSourcesForArch( + self.arch_subninjas[arch], config_name, config, sources, predepends, + precompiled_header, spec, arch=arch)) + for arch in self.archs) + + def WriteSourcesForArch(self, ninja_file, config_name, config, sources, + predepends, precompiled_header, spec, arch=None): + """Write build rules to compile all of |sources|.""" + + extra_defines = [] + if self.flavor == 'mac': + cflags = self.xcode_settings.GetCflags(config_name, arch=arch) + cflags_c = self.xcode_settings.GetCflagsC(config_name) + cflags_cc = self.xcode_settings.GetCflagsCC(config_name) + cflags_objc = ['$cflags_c'] + \ + self.xcode_settings.GetCflagsObjC(config_name) + cflags_objcc = ['$cflags_cc'] + \ + self.xcode_settings.GetCflagsObjCC(config_name) + elif self.flavor == 'win': + cflags = self.msvs_settings.GetCflags(config_name) + cflags_c = self.msvs_settings.GetCflagsC(config_name) + cflags_cc = self.msvs_settings.GetCflagsCC(config_name) + extra_defines = self.msvs_settings.GetComputedDefines(config_name) + # See comment at cc_command for why there's two .pdb files. + pdbpath_c = pdbpath_cc = self.msvs_settings.GetCompilerPdbName( + config_name, self.ExpandSpecial) + if not pdbpath_c: + obj = 'obj' + if self.toolset != 'target': + obj += '.' + self.toolset + pdbpath = os.path.normpath(os.path.join(obj, self.base_dir, self.name)) + pdbpath_c = pdbpath + '.c.pdb' + pdbpath_cc = pdbpath + '.cc.pdb' + self.WriteVariableList(ninja_file, 'pdbname_c', [pdbpath_c]) + self.WriteVariableList(ninja_file, 'pdbname_cc', [pdbpath_cc]) + self.WriteVariableList(ninja_file, 'pchprefix', [self.name]) + else: + cflags = config.get('cflags', []) + cflags_c = config.get('cflags_c', []) + cflags_cc = config.get('cflags_cc', []) + + # Respect environment variables related to build, but target-specific + # flags can still override them. + if self.toolset == 'target': + cflags_c = (os.environ.get('CPPFLAGS', '').split() + + os.environ.get('CFLAGS', '').split() + cflags_c) + cflags_cc = (os.environ.get('CPPFLAGS', '').split() + + os.environ.get('CXXFLAGS', '').split() + cflags_cc) + + defines = config.get('defines', []) + extra_defines + self.WriteVariableList(ninja_file, 'defines', + [Define(d, self.flavor) for d in defines]) + if self.flavor == 'win': + self.WriteVariableList(ninja_file, 'rcflags', + [QuoteShellArgument(self.ExpandSpecial(f), self.flavor) + for f in self.msvs_settings.GetRcflags(config_name, + self.GypPathToNinja)]) + + include_dirs = config.get('include_dirs', []) + env = self.GetSortedXcodeEnv() + if self.flavor == 'win': + env = self.msvs_settings.GetVSMacroEnv('$!PRODUCT_DIR', + config=config_name) + include_dirs = self.msvs_settings.AdjustIncludeDirs(include_dirs, + config_name) + self.WriteVariableList(ninja_file, 'includes', + [QuoteShellArgument('-I' + self.GypPathToNinja(i, env), self.flavor) + for i in include_dirs]) + + pch_commands = precompiled_header.GetPchBuildCommands(arch) + if self.flavor == 'mac': + # Most targets use no precompiled headers, so only write these if needed. + for ext, var in [('c', 'cflags_pch_c'), ('cc', 'cflags_pch_cc'), + ('m', 'cflags_pch_objc'), ('mm', 'cflags_pch_objcc')]: + include = precompiled_header.GetInclude(ext, arch) + if include: ninja_file.variable(var, include) + + self.WriteVariableList(ninja_file, 'cflags', + map(self.ExpandSpecial, cflags)) + self.WriteVariableList(ninja_file, 'cflags_c', + map(self.ExpandSpecial, cflags_c)) + self.WriteVariableList(ninja_file, 'cflags_cc', + map(self.ExpandSpecial, cflags_cc)) + if self.flavor == 'mac': + self.WriteVariableList(ninja_file, 'cflags_objc', + map(self.ExpandSpecial, cflags_objc)) + self.WriteVariableList(ninja_file, 'cflags_objcc', + map(self.ExpandSpecial, cflags_objcc)) + ninja_file.newline() + outputs = [] + has_rc_source = False + for source in sources: + filename, ext = os.path.splitext(source) + ext = ext[1:] + obj_ext = self.obj_ext + if ext in ('cc', 'cpp', 'cxx'): + command = 'cxx' + self.uses_cpp = True + elif ext == 'c' or (ext == 'S' and self.flavor != 'win'): + command = 'cc' + elif ext == 's' and self.flavor != 'win': # Doesn't generate .o.d files. + command = 'cc_s' + elif (self.flavor == 'win' and ext == 'asm' and + self.msvs_settings.GetArch(config_name) == 'x86' and + not self.msvs_settings.HasExplicitAsmRules(spec)): + # Asm files only get auto assembled for x86 (not x64). + command = 'asm' + # Add the _asm suffix as msvs is capable of handling .cc and + # .asm files of the same name without collision. + obj_ext = '_asm.obj' + elif self.flavor == 'mac' and ext == 'm': + command = 'objc' + elif self.flavor == 'mac' and ext == 'mm': + command = 'objcxx' + self.uses_cpp = True + elif self.flavor == 'win' and ext == 'rc': + command = 'rc' + obj_ext = '.res' + has_rc_source = True + else: + # Ignore unhandled extensions. + continue + input = self.GypPathToNinja(source) + output = self.GypPathToUniqueOutput(filename + obj_ext) + if arch is not None: + output = AddArch(output, arch) + implicit = precompiled_header.GetObjDependencies([input], [output], arch) + variables = [] + if self.flavor == 'win': + variables, output, implicit = precompiled_header.GetFlagsModifications( + input, output, implicit, command, cflags_c, cflags_cc, + self.ExpandSpecial) + ninja_file.build(output, command, input, + implicit=[gch for _, _, gch in implicit], + order_only=predepends, variables=variables) + outputs.append(output) + + if has_rc_source: + resource_include_dirs = config.get('resource_include_dirs', include_dirs) + self.WriteVariableList(ninja_file, 'resource_includes', + [QuoteShellArgument('-I' + self.GypPathToNinja(i, env), self.flavor) + for i in resource_include_dirs]) + + self.WritePchTargets(ninja_file, pch_commands) + + ninja_file.newline() + return outputs + + def WritePchTargets(self, ninja_file, pch_commands): + """Writes ninja rules to compile prefix headers.""" + if not pch_commands: + return + + for gch, lang_flag, lang, input in pch_commands: + var_name = { + 'c': 'cflags_pch_c', + 'cc': 'cflags_pch_cc', + 'm': 'cflags_pch_objc', + 'mm': 'cflags_pch_objcc', + }[lang] + + map = { 'c': 'cc', 'cc': 'cxx', 'm': 'objc', 'mm': 'objcxx', } + cmd = map.get(lang) + ninja_file.build(gch, cmd, input, variables=[(var_name, lang_flag)]) + + def WriteLink(self, spec, config_name, config, link_deps): + """Write out a link step. Fills out target.binary. """ + if self.flavor != 'mac' or len(self.archs) == 1: + return self.WriteLinkForArch( + self.ninja, spec, config_name, config, link_deps) + else: + output = self.ComputeOutput(spec) + inputs = [self.WriteLinkForArch(self.arch_subninjas[arch], spec, + config_name, config, link_deps[arch], + arch=arch) + for arch in self.archs] + extra_bindings = [] + if not self.is_mac_bundle: + self.AppendPostbuildVariable(extra_bindings, spec, output, output) + self.ninja.build(output, 'lipo', inputs, variables=extra_bindings) + return output + + def WriteLinkForArch(self, ninja_file, spec, config_name, config, + link_deps, arch=None): + """Write out a link step. Fills out target.binary. """ + command = { + 'executable': 'link', + 'loadable_module': 'solink_module', + 'shared_library': 'solink', + }[spec['type']] + command_suffix = '' + + implicit_deps = set() + solibs = set() + + if 'dependencies' in spec: + # Two kinds of dependencies: + # - Linkable dependencies (like a .a or a .so): add them to the link line. + # - Non-linkable dependencies (like a rule that generates a file + # and writes a stamp file): add them to implicit_deps + extra_link_deps = set() + for dep in spec['dependencies']: + target = self.target_outputs.get(dep) + if not target: + continue + linkable = target.Linkable() + if linkable: + new_deps = [] + if (self.flavor == 'win' and + target.component_objs and + self.msvs_settings.IsUseLibraryDependencyInputs(config_name)): + new_deps = target.component_objs + elif self.flavor == 'win' and target.import_lib: + new_deps = [target.import_lib] + elif target.UsesToc(self.flavor): + solibs.add(target.binary) + implicit_deps.add(target.binary + '.TOC') + else: + new_deps = [target.binary] + for new_dep in new_deps: + if new_dep not in extra_link_deps: + extra_link_deps.add(new_dep) + link_deps.append(new_dep) + + final_output = target.FinalOutput() + if not linkable or final_output != target.binary: + implicit_deps.add(final_output) + + extra_bindings = [] + if self.uses_cpp and self.flavor != 'win': + extra_bindings.append(('ld', '$ldxx')) + + output = self.ComputeOutput(spec, arch) + if arch is None and not self.is_mac_bundle: + self.AppendPostbuildVariable(extra_bindings, spec, output, output) + + is_executable = spec['type'] == 'executable' + # The ldflags config key is not used on mac or win. On those platforms + # linker flags are set via xcode_settings and msvs_settings, respectively. + env_ldflags = os.environ.get('LDFLAGS', '').split() + if self.flavor == 'mac': + ldflags = self.xcode_settings.GetLdflags(config_name, + self.ExpandSpecial(generator_default_variables['PRODUCT_DIR']), + self.GypPathToNinja, arch) + ldflags = env_ldflags + ldflags + elif self.flavor == 'win': + manifest_base_name = self.GypPathToUniqueOutput( + self.ComputeOutputFileName(spec)) + ldflags, intermediate_manifest, manifest_files = \ + self.msvs_settings.GetLdflags(config_name, self.GypPathToNinja, + self.ExpandSpecial, manifest_base_name, + output, is_executable, + self.toplevel_build) + ldflags = env_ldflags + ldflags + self.WriteVariableList(ninja_file, 'manifests', manifest_files) + implicit_deps = implicit_deps.union(manifest_files) + if intermediate_manifest: + self.WriteVariableList( + ninja_file, 'intermediatemanifest', [intermediate_manifest]) + command_suffix = _GetWinLinkRuleNameSuffix( + self.msvs_settings.IsEmbedManifest(config_name)) + def_file = self.msvs_settings.GetDefFile(self.GypPathToNinja) + if def_file: + implicit_deps.add(def_file) + else: + # Respect environment variables related to build, but target-specific + # flags can still override them. + ldflags = env_ldflags + config.get('ldflags', []) + if is_executable and len(solibs): + rpath = 'lib/' + if self.toolset != 'target': + rpath += self.toolset + ldflags.append('-Wl,-rpath=\$$ORIGIN/%s' % rpath) + ldflags.append('-Wl,-rpath-link=%s' % rpath) + self.WriteVariableList(ninja_file, 'ldflags', + gyp.common.uniquer(map(self.ExpandSpecial, ldflags))) + + library_dirs = config.get('library_dirs', []) + if self.flavor == 'win': + library_dirs = [self.msvs_settings.ConvertVSMacros(l, config_name) + for l in library_dirs] + library_dirs = ['/LIBPATH:' + QuoteShellArgument(self.GypPathToNinja(l), + self.flavor) + for l in library_dirs] + else: + library_dirs = [QuoteShellArgument('-L' + self.GypPathToNinja(l), + self.flavor) + for l in library_dirs] + + libraries = gyp.common.uniquer(map(self.ExpandSpecial, + spec.get('libraries', []))) + if self.flavor == 'mac': + libraries = self.xcode_settings.AdjustLibraries(libraries, config_name) + elif self.flavor == 'win': + libraries = self.msvs_settings.AdjustLibraries(libraries) + + self.WriteVariableList(ninja_file, 'libs', library_dirs + libraries) + + linked_binary = output + + if command in ('solink', 'solink_module'): + extra_bindings.append(('soname', os.path.split(output)[1])) + extra_bindings.append(('lib', + gyp.common.EncodePOSIXShellArgument(output))) + if self.flavor == 'win': + extra_bindings.append(('binary', output)) + if '/NOENTRY' not in ldflags: + self.target.import_lib = output + '.lib' + extra_bindings.append(('implibflag', + '/IMPLIB:%s' % self.target.import_lib)) + pdbname = self.msvs_settings.GetPDBName( + config_name, self.ExpandSpecial, output + '.pdb') + output = [output, self.target.import_lib] + if pdbname: + output.append(pdbname) + elif not self.is_mac_bundle: + output = [output, output + '.TOC'] + else: + command = command + '_notoc' + elif self.flavor == 'win': + extra_bindings.append(('binary', output)) + pdbname = self.msvs_settings.GetPDBName( + config_name, self.ExpandSpecial, output + '.pdb') + if pdbname: + output = [output, pdbname] + + + if len(solibs): + extra_bindings.append(('solibs', gyp.common.EncodePOSIXShellList(solibs))) + + ninja_file.build(output, command + command_suffix, link_deps, + implicit=list(implicit_deps), + variables=extra_bindings) + return linked_binary + + def WriteTarget(self, spec, config_name, config, link_deps, compile_deps): + extra_link_deps = any(self.target_outputs.get(dep).Linkable() + for dep in spec.get('dependencies', []) + if dep in self.target_outputs) + if spec['type'] == 'none' or (not link_deps and not extra_link_deps): + # TODO(evan): don't call this function for 'none' target types, as + # it doesn't do anything, and we fake out a 'binary' with a stamp file. + self.target.binary = compile_deps + self.target.type = 'none' + elif spec['type'] == 'static_library': + self.target.binary = self.ComputeOutput(spec) + if (self.flavor not in ('mac', 'openbsd', 'win') and not + self.is_standalone_static_library): + self.ninja.build(self.target.binary, 'alink_thin', link_deps, + order_only=compile_deps) + else: + variables = [] + if self.xcode_settings: + libtool_flags = self.xcode_settings.GetLibtoolflags(config_name) + if libtool_flags: + variables.append(('libtool_flags', libtool_flags)) + if self.msvs_settings: + libflags = self.msvs_settings.GetLibFlags(config_name, + self.GypPathToNinja) + variables.append(('libflags', libflags)) + + if self.flavor != 'mac' or len(self.archs) == 1: + self.AppendPostbuildVariable(variables, spec, + self.target.binary, self.target.binary) + self.ninja.build(self.target.binary, 'alink', link_deps, + order_only=compile_deps, variables=variables) + else: + inputs = [] + for arch in self.archs: + output = self.ComputeOutput(spec, arch) + self.arch_subninjas[arch].build(output, 'alink', link_deps[arch], + order_only=compile_deps, + variables=variables) + inputs.append(output) + # TODO: It's not clear if libtool_flags should be passed to the alink + # call that combines single-arch .a files into a fat .a file. + self.AppendPostbuildVariable(variables, spec, + self.target.binary, self.target.binary) + self.ninja.build(self.target.binary, 'alink', inputs, + # FIXME: test proving order_only=compile_deps isn't + # needed. + variables=variables) + else: + self.target.binary = self.WriteLink(spec, config_name, config, link_deps) + return self.target.binary + + def WriteMacBundle(self, spec, mac_bundle_depends, is_empty): + assert self.is_mac_bundle + package_framework = spec['type'] in ('shared_library', 'loadable_module') + output = self.ComputeMacBundleOutput() + if is_empty: + output += '.stamp' + variables = [] + self.AppendPostbuildVariable(variables, spec, output, self.target.binary, + is_command_start=not package_framework) + if package_framework and not is_empty: + variables.append(('version', self.xcode_settings.GetFrameworkVersion())) + self.ninja.build(output, 'package_framework', mac_bundle_depends, + variables=variables) + else: + self.ninja.build(output, 'stamp', mac_bundle_depends, + variables=variables) + self.target.bundle = output + return output + + def GetSortedXcodeEnv(self, additional_settings=None): + """Returns the variables Xcode would set for build steps.""" + assert self.abs_build_dir + abs_build_dir = self.abs_build_dir + return gyp.xcode_emulation.GetSortedXcodeEnv( + self.xcode_settings, abs_build_dir, + os.path.join(abs_build_dir, self.build_to_base), self.config_name, + additional_settings) + + def GetSortedXcodePostbuildEnv(self): + """Returns the variables Xcode would set for postbuild steps.""" + postbuild_settings = {} + # CHROMIUM_STRIP_SAVE_FILE is a chromium-specific hack. + # TODO(thakis): It would be nice to have some general mechanism instead. + strip_save_file = self.xcode_settings.GetPerTargetSetting( + 'CHROMIUM_STRIP_SAVE_FILE') + if strip_save_file: + postbuild_settings['CHROMIUM_STRIP_SAVE_FILE'] = strip_save_file + return self.GetSortedXcodeEnv(additional_settings=postbuild_settings) + + def AppendPostbuildVariable(self, variables, spec, output, binary, + is_command_start=False): + """Adds a 'postbuild' variable if there is a postbuild for |output|.""" + postbuild = self.GetPostbuildCommand(spec, output, binary, is_command_start) + if postbuild: + variables.append(('postbuilds', postbuild)) + + def GetPostbuildCommand(self, spec, output, output_binary, is_command_start): + """Returns a shell command that runs all the postbuilds, and removes + |output| if any of them fails. If |is_command_start| is False, then the + returned string will start with ' && '.""" + if not self.xcode_settings or spec['type'] == 'none' or not output: + return '' + output = QuoteShellArgument(output, self.flavor) + postbuilds = gyp.xcode_emulation.GetSpecPostbuildCommands(spec, quiet=True) + if output_binary is not None: + postbuilds = self.xcode_settings.AddImplicitPostbuilds( + self.config_name, + os.path.normpath(os.path.join(self.base_to_build, output)), + QuoteShellArgument( + os.path.normpath(os.path.join(self.base_to_build, output_binary)), + self.flavor), + postbuilds, quiet=True) + + if not postbuilds: + return '' + # Postbuilds expect to be run in the gyp file's directory, so insert an + # implicit postbuild to cd to there. + postbuilds.insert(0, gyp.common.EncodePOSIXShellList( + ['cd', self.build_to_base])) + env = self.ComputeExportEnvString(self.GetSortedXcodePostbuildEnv()) + # G will be non-null if any postbuild fails. Run all postbuilds in a + # subshell. + commands = env + ' (' + \ + ' && '.join([ninja_syntax.escape(command) for command in postbuilds]) + command_string = (commands + '); G=$$?; ' + # Remove the final output if any postbuild failed. + '((exit $$G) || rm -rf %s) ' % output + '&& exit $$G)') + if is_command_start: + return '(' + command_string + ' && ' + else: + return '$ && (' + command_string + + def ComputeExportEnvString(self, env): + """Given an environment, returns a string looking like + 'export FOO=foo; export BAR="${FOO} bar;' + that exports |env| to the shell.""" + export_str = [] + for k, v in env: + export_str.append('export %s=%s;' % + (k, ninja_syntax.escape(gyp.common.EncodePOSIXShellArgument(v)))) + return ' '.join(export_str) + + def ComputeMacBundleOutput(self): + """Return the 'output' (full output path) to a bundle output directory.""" + assert self.is_mac_bundle + path = generator_default_variables['PRODUCT_DIR'] + return self.ExpandSpecial( + os.path.join(path, self.xcode_settings.GetWrapperName())) + + def ComputeOutputFileName(self, spec, type=None): + """Compute the filename of the final output for the current target.""" + if not type: + type = spec['type'] + + default_variables = copy.copy(generator_default_variables) + CalculateVariables(default_variables, {'flavor': self.flavor}) + + # Compute filename prefix: the product prefix, or a default for + # the product type. + DEFAULT_PREFIX = { + 'loadable_module': default_variables['SHARED_LIB_PREFIX'], + 'shared_library': default_variables['SHARED_LIB_PREFIX'], + 'static_library': default_variables['STATIC_LIB_PREFIX'], + 'executable': default_variables['EXECUTABLE_PREFIX'], + } + prefix = spec.get('product_prefix', DEFAULT_PREFIX.get(type, '')) + + # Compute filename extension: the product extension, or a default + # for the product type. + DEFAULT_EXTENSION = { + 'loadable_module': default_variables['SHARED_LIB_SUFFIX'], + 'shared_library': default_variables['SHARED_LIB_SUFFIX'], + 'static_library': default_variables['STATIC_LIB_SUFFIX'], + 'executable': default_variables['EXECUTABLE_SUFFIX'], + } + extension = spec.get('product_extension') + if extension: + extension = '.' + extension + else: + extension = DEFAULT_EXTENSION.get(type, '') + + if 'product_name' in spec: + # If we were given an explicit name, use that. + target = spec['product_name'] + else: + # Otherwise, derive a name from the target name. + target = spec['target_name'] + if prefix == 'lib': + # Snip out an extra 'lib' from libs if appropriate. + target = StripPrefix(target, 'lib') + + if type in ('static_library', 'loadable_module', 'shared_library', + 'executable'): + return '%s%s%s' % (prefix, target, extension) + elif type == 'none': + return '%s.stamp' % target + else: + raise Exception('Unhandled output type %s' % type) + + def ComputeOutput(self, spec, arch=None): + """Compute the path for the final output of the spec.""" + type = spec['type'] + + if self.flavor == 'win': + override = self.msvs_settings.GetOutputName(self.config_name, + self.ExpandSpecial) + if override: + return override + + if arch is None and self.flavor == 'mac' and type in ( + 'static_library', 'executable', 'shared_library', 'loadable_module'): + filename = self.xcode_settings.GetExecutablePath() + else: + filename = self.ComputeOutputFileName(spec, type) + + if arch is None and 'product_dir' in spec: + path = os.path.join(spec['product_dir'], filename) + return self.ExpandSpecial(path) + + # Some products go into the output root, libraries go into shared library + # dir, and everything else goes into the normal place. + type_in_output_root = ['executable', 'loadable_module'] + if self.flavor == 'mac' and self.toolset == 'target': + type_in_output_root += ['shared_library', 'static_library'] + elif self.flavor == 'win' and self.toolset == 'target': + type_in_output_root += ['shared_library'] + + if arch is not None: + # Make sure partial executables don't end up in a bundle or the regular + # output directory. + archdir = 'arch' + if self.toolset != 'target': + archdir = os.path.join('arch', '%s' % self.toolset) + return os.path.join(archdir, AddArch(filename, arch)) + elif type in type_in_output_root or self.is_standalone_static_library: + return filename + elif type == 'shared_library': + libdir = 'lib' + if self.toolset != 'target': + libdir = os.path.join('lib', '%s' % self.toolset) + return os.path.join(libdir, filename) + else: + return self.GypPathToUniqueOutput(filename, qualified=False) + + def WriteVariableList(self, ninja_file, var, values): + assert not isinstance(values, str) + if values is None: + values = [] + ninja_file.variable(var, ' '.join(values)) + + def WriteNewNinjaRule(self, name, args, description, is_cygwin, env): + """Write out a new ninja "rule" statement for a given command. + + Returns the name of the new rule, and a copy of |args| with variables + expanded.""" + + if self.flavor == 'win': + args = [self.msvs_settings.ConvertVSMacros( + arg, self.base_to_build, config=self.config_name) + for arg in args] + description = self.msvs_settings.ConvertVSMacros( + description, config=self.config_name) + elif self.flavor == 'mac': + # |env| is an empty list on non-mac. + args = [gyp.xcode_emulation.ExpandEnvVars(arg, env) for arg in args] + description = gyp.xcode_emulation.ExpandEnvVars(description, env) + + # TODO: we shouldn't need to qualify names; we do it because + # currently the ninja rule namespace is global, but it really + # should be scoped to the subninja. + rule_name = self.name + if self.toolset == 'target': + rule_name += '.' + self.toolset + rule_name += '.' + name + rule_name = re.sub('[^a-zA-Z0-9_]', '_', rule_name) + + # Remove variable references, but not if they refer to the magic rule + # variables. This is not quite right, as it also protects these for + # actions, not just for rules where they are valid. Good enough. + protect = [ '${root}', '${dirname}', '${source}', '${ext}', '${name}' ] + protect = '(?!' + '|'.join(map(re.escape, protect)) + ')' + description = re.sub(protect + r'\$', '_', description) + + # gyp dictates that commands are run from the base directory. + # cd into the directory before running, and adjust paths in + # the arguments to point to the proper locations. + rspfile = None + rspfile_content = None + args = [self.ExpandSpecial(arg, self.base_to_build) for arg in args] + if self.flavor == 'win': + rspfile = rule_name + '.$unique_name.rsp' + # The cygwin case handles this inside the bash sub-shell. + run_in = '' if is_cygwin else ' ' + self.build_to_base + if is_cygwin: + rspfile_content = self.msvs_settings.BuildCygwinBashCommandLine( + args, self.build_to_base) + else: + rspfile_content = gyp.msvs_emulation.EncodeRspFileList(args) + command = ('%s gyp-win-tool action-wrapper $arch ' % sys.executable + + rspfile + run_in) + else: + env = self.ComputeExportEnvString(env) + command = gyp.common.EncodePOSIXShellList(args) + command = 'cd %s; ' % self.build_to_base + env + command + + # GYP rules/actions express being no-ops by not touching their outputs. + # Avoid executing downstream dependencies in this case by specifying + # restat=1 to ninja. + self.ninja.rule(rule_name, command, description, restat=True, + rspfile=rspfile, rspfile_content=rspfile_content) + self.ninja.newline() + + return rule_name, args + + +def CalculateVariables(default_variables, params): + """Calculate additional variables for use in the build (called by gyp).""" + global generator_additional_non_configuration_keys + global generator_additional_path_sections + flavor = gyp.common.GetFlavor(params) + if flavor == 'mac': + default_variables.setdefault('OS', 'mac') + default_variables.setdefault('SHARED_LIB_SUFFIX', '.dylib') + default_variables.setdefault('SHARED_LIB_DIR', + generator_default_variables['PRODUCT_DIR']) + default_variables.setdefault('LIB_DIR', + generator_default_variables['PRODUCT_DIR']) + + # Copy additional generator configuration data from Xcode, which is shared + # by the Mac Ninja generator. + import gyp.generator.xcode as xcode_generator + generator_additional_non_configuration_keys = getattr(xcode_generator, + 'generator_additional_non_configuration_keys', []) + generator_additional_path_sections = getattr(xcode_generator, + 'generator_additional_path_sections', []) + global generator_extra_sources_for_rules + generator_extra_sources_for_rules = getattr(xcode_generator, + 'generator_extra_sources_for_rules', []) + elif flavor == 'win': + default_variables.setdefault('OS', 'win') + default_variables['EXECUTABLE_SUFFIX'] = '.exe' + default_variables['STATIC_LIB_PREFIX'] = '' + default_variables['STATIC_LIB_SUFFIX'] = '.lib' + default_variables['SHARED_LIB_PREFIX'] = '' + default_variables['SHARED_LIB_SUFFIX'] = '.dll' + + # Copy additional generator configuration data from VS, which is shared + # by the Windows Ninja generator. + import gyp.generator.msvs as msvs_generator + generator_additional_non_configuration_keys = getattr(msvs_generator, + 'generator_additional_non_configuration_keys', []) + generator_additional_path_sections = getattr(msvs_generator, + 'generator_additional_path_sections', []) + + gyp.msvs_emulation.CalculateCommonVariables(default_variables, params) + else: + operating_system = flavor + if flavor == 'android': + operating_system = 'linux' # Keep this legacy behavior for now. + default_variables.setdefault('OS', operating_system) + default_variables.setdefault('SHARED_LIB_SUFFIX', '.so') + default_variables.setdefault('SHARED_LIB_DIR', + os.path.join('$!PRODUCT_DIR', 'lib')) + default_variables.setdefault('LIB_DIR', + os.path.join('$!PRODUCT_DIR', 'obj')) + +def ComputeOutputDir(params): + """Returns the path from the toplevel_dir to the build output directory.""" + # generator_dir: relative path from pwd to where make puts build files. + # Makes migrating from make to ninja easier, ninja doesn't put anything here. + generator_dir = os.path.relpath(params['options'].generator_output or '.') + + # output_dir: relative path from generator_dir to the build directory. + output_dir = params.get('generator_flags', {}).get('output_dir', 'out') + + # Relative path from source root to our output files. e.g. "out" + return os.path.normpath(os.path.join(generator_dir, output_dir)) + + +def CalculateGeneratorInputInfo(params): + """Called by __init__ to initialize generator values based on params.""" + # E.g. "out/gypfiles" + toplevel = params['options'].toplevel_dir + qualified_out_dir = os.path.normpath(os.path.join( + toplevel, ComputeOutputDir(params), 'gypfiles')) + + global generator_filelist_paths + generator_filelist_paths = { + 'toplevel': toplevel, + 'qualified_out_dir': qualified_out_dir, + } + + +def OpenOutput(path, mode='w'): + """Open |path| for writing, creating directories if necessary.""" + gyp.common.EnsureDirExists(path) + return open(path, mode) + + +def CommandWithWrapper(cmd, wrappers, prog): + wrapper = wrappers.get(cmd, '') + if wrapper: + return wrapper + ' ' + prog + return prog + + +def GetDefaultConcurrentLinks(): + """Returns a best-guess for a number of concurrent links.""" + if sys.platform in ('win32', 'cygwin'): + import ctypes + + class MEMORYSTATUSEX(ctypes.Structure): + _fields_ = [ + ("dwLength", ctypes.c_ulong), + ("dwMemoryLoad", ctypes.c_ulong), + ("ullTotalPhys", ctypes.c_ulonglong), + ("ullAvailPhys", ctypes.c_ulonglong), + ("ullTotalPageFile", ctypes.c_ulonglong), + ("ullAvailPageFile", ctypes.c_ulonglong), + ("ullTotalVirtual", ctypes.c_ulonglong), + ("ullAvailVirtual", ctypes.c_ulonglong), + ("sullAvailExtendedVirtual", ctypes.c_ulonglong), + ] + + stat = MEMORYSTATUSEX() + stat.dwLength = ctypes.sizeof(stat) + ctypes.windll.kernel32.GlobalMemoryStatusEx(ctypes.byref(stat)) + + mem_limit = max(1, stat.ullTotalPhys / (4 * (2 ** 30))) # total / 4GB + hard_cap = max(1, int(os.getenv('GYP_LINK_CONCURRENCY_MAX', 2**32))) + return min(mem_limit, hard_cap) + elif sys.platform.startswith('linux'): + with open("/proc/meminfo") as meminfo: + memtotal_re = re.compile(r'^MemTotal:\s*(\d*)\s*kB') + for line in meminfo: + match = memtotal_re.match(line) + if not match: + continue + # Allow 8Gb per link on Linux because Gold is quite memory hungry + return max(1, int(match.group(1)) / (8 * (2 ** 20))) + return 1 + elif sys.platform == 'darwin': + try: + avail_bytes = int(subprocess.check_output(['sysctl', '-n', 'hw.memsize'])) + # A static library debug build of Chromium's unit_tests takes ~2.7GB, so + # 4GB per ld process allows for some more bloat. + return max(1, avail_bytes / (4 * (2 ** 30))) # total / 4GB + except: + return 1 + else: + # TODO(scottmg): Implement this for other platforms. + return 1 + + +def _GetWinLinkRuleNameSuffix(embed_manifest): + """Returns the suffix used to select an appropriate linking rule depending on + whether the manifest embedding is enabled.""" + return '_embed' if embed_manifest else '' + + +def _AddWinLinkRules(master_ninja, embed_manifest): + """Adds link rules for Windows platform to |master_ninja|.""" + def FullLinkCommand(ldcmd, out, binary_type): + resource_name = { + 'exe': '1', + 'dll': '2', + }[binary_type] + return '%(python)s gyp-win-tool link-with-manifests $arch %(embed)s ' \ + '%(out)s "%(ldcmd)s" %(resname)s $mt $rc "$intermediatemanifest" ' \ + '$manifests' % { + 'python': sys.executable, + 'out': out, + 'ldcmd': ldcmd, + 'resname': resource_name, + 'embed': embed_manifest } + rule_name_suffix = _GetWinLinkRuleNameSuffix(embed_manifest) + use_separate_mspdbsrv = ( + int(os.environ.get('GYP_USE_SEPARATE_MSPDBSRV', '0')) != 0) + dlldesc = 'LINK%s(DLL) $binary' % rule_name_suffix.upper() + dllcmd = ('%s gyp-win-tool link-wrapper $arch %s ' + '$ld /nologo $implibflag /DLL /OUT:$binary ' + '@$binary.rsp' % (sys.executable, use_separate_mspdbsrv)) + dllcmd = FullLinkCommand(dllcmd, '$binary', 'dll') + master_ninja.rule('solink' + rule_name_suffix, + description=dlldesc, command=dllcmd, + rspfile='$binary.rsp', + rspfile_content='$libs $in_newline $ldflags', + restat=True, + pool='link_pool') + master_ninja.rule('solink_module' + rule_name_suffix, + description=dlldesc, command=dllcmd, + rspfile='$binary.rsp', + rspfile_content='$libs $in_newline $ldflags', + restat=True, + pool='link_pool') + # Note that ldflags goes at the end so that it has the option of + # overriding default settings earlier in the command line. + exe_cmd = ('%s gyp-win-tool link-wrapper $arch %s ' + '$ld /nologo /OUT:$binary @$binary.rsp' % + (sys.executable, use_separate_mspdbsrv)) + exe_cmd = FullLinkCommand(exe_cmd, '$binary', 'exe') + master_ninja.rule('link' + rule_name_suffix, + description='LINK%s $binary' % rule_name_suffix.upper(), + command=exe_cmd, + rspfile='$binary.rsp', + rspfile_content='$in_newline $libs $ldflags', + pool='link_pool') + + +def GenerateOutputForConfig(target_list, target_dicts, data, params, + config_name): + options = params['options'] + flavor = gyp.common.GetFlavor(params) + generator_flags = params.get('generator_flags', {}) + + # build_dir: relative path from source root to our output files. + # e.g. "out/Debug" + build_dir = os.path.normpath( + os.path.join(ComputeOutputDir(params), config_name)) + + toplevel_build = os.path.join(options.toplevel_dir, build_dir) + + master_ninja_file = OpenOutput(os.path.join(toplevel_build, 'build.ninja')) + master_ninja = ninja_syntax.Writer(master_ninja_file, width=120) + + # Put build-time support tools in out/{config_name}. + gyp.common.CopyTool(flavor, toplevel_build) + + # Grab make settings for CC/CXX. + # The rules are + # - The priority from low to high is gcc/g++, the 'make_global_settings' in + # gyp, the environment variable. + # - If there is no 'make_global_settings' for CC.host/CXX.host or + # 'CC_host'/'CXX_host' enviroment variable, cc_host/cxx_host should be set + # to cc/cxx. + if flavor == 'win': + # Overridden by local arch choice in the use_deps case. + # Chromium's ffmpeg c99conv.py currently looks for a 'cc =' line in + # build.ninja so needs something valid here. http://crbug.com/233985 + cc = 'cl.exe' + cxx = 'cl.exe' + ld = 'link.exe' + ld_host = '$ld' + else: + cc = 'cc' + cxx = 'c++' + ld = '$cc' + ldxx = '$cxx' + ld_host = '$cc_host' + ldxx_host = '$cxx_host' + + cc_host = None + cxx_host = None + cc_host_global_setting = None + cxx_host_global_setting = None + clang_cl = None + + build_file, _, _ = gyp.common.ParseQualifiedTarget(target_list[0]) + make_global_settings = data[build_file].get('make_global_settings', []) + build_to_root = gyp.common.InvertRelativePath(build_dir, + options.toplevel_dir) + wrappers = {} + for key, value in make_global_settings: + if key == 'CC': + cc = os.path.join(build_to_root, value) + if cc.endswith('clang-cl'): + clang_cl = cc + if key == 'CXX': + cxx = os.path.join(build_to_root, value) + if key == 'CC.host': + cc_host = os.path.join(build_to_root, value) + cc_host_global_setting = value + if key == 'CXX.host': + cxx_host = os.path.join(build_to_root, value) + cxx_host_global_setting = value + if key.endswith('_wrapper'): + wrappers[key[:-len('_wrapper')]] = os.path.join(build_to_root, value) + + # Support wrappers from environment variables too. + for key, value in os.environ.iteritems(): + if key.lower().endswith('_wrapper'): + key_prefix = key[:-len('_wrapper')] + key_prefix = re.sub(r'\.HOST$', '.host', key_prefix) + wrappers[key_prefix] = os.path.join(build_to_root, value) + + if flavor == 'win': + cl_paths = gyp.msvs_emulation.GenerateEnvironmentFiles( + toplevel_build, generator_flags, OpenOutput) + for arch, path in cl_paths.iteritems(): + if clang_cl: + # If we have selected clang-cl, use that instead. + path = clang_cl + command = CommandWithWrapper('CC', wrappers, + QuoteShellArgument(path, 'win')) + if clang_cl: + # Use clang-cl to cross-compile for x86 or x86_64. + command += (' -m32' if arch == 'x86' else ' -m64') + master_ninja.variable('cl_' + arch, command) + + cc = GetEnvironFallback(['CC_target', 'CC'], cc) + master_ninja.variable('cc', CommandWithWrapper('CC', wrappers, cc)) + cxx = GetEnvironFallback(['CXX_target', 'CXX'], cxx) + master_ninja.variable('cxx', CommandWithWrapper('CXX', wrappers, cxx)) + + if flavor == 'win': + master_ninja.variable('ld', ld) + master_ninja.variable('idl', 'midl.exe') + master_ninja.variable('ar', 'lib.exe') + master_ninja.variable('rc', 'rc.exe') + master_ninja.variable('asm', 'ml.exe') + master_ninja.variable('mt', 'mt.exe') + else: + master_ninja.variable('ld', CommandWithWrapper('LINK', wrappers, ld)) + master_ninja.variable('ldxx', CommandWithWrapper('LINK', wrappers, ldxx)) + master_ninja.variable('ar', GetEnvironFallback(['AR_target', 'AR'], 'ar')) + + if generator_supports_multiple_toolsets: + if not cc_host: + cc_host = cc + if not cxx_host: + cxx_host = cxx + + master_ninja.variable('ar_host', GetEnvironFallback(['AR_host'], 'ar')) + cc_host = GetEnvironFallback(['CC_host'], cc_host) + cxx_host = GetEnvironFallback(['CXX_host'], cxx_host) + + # The environment variable could be used in 'make_global_settings', like + # ['CC.host', '$(CC)'] or ['CXX.host', '$(CXX)'], transform them here. + if '$(CC)' in cc_host and cc_host_global_setting: + cc_host = cc_host_global_setting.replace('$(CC)', cc) + if '$(CXX)' in cxx_host and cxx_host_global_setting: + cxx_host = cxx_host_global_setting.replace('$(CXX)', cxx) + master_ninja.variable('cc_host', + CommandWithWrapper('CC.host', wrappers, cc_host)) + master_ninja.variable('cxx_host', + CommandWithWrapper('CXX.host', wrappers, cxx_host)) + if flavor == 'win': + master_ninja.variable('ld_host', ld_host) + else: + master_ninja.variable('ld_host', CommandWithWrapper( + 'LINK', wrappers, ld_host)) + master_ninja.variable('ldxx_host', CommandWithWrapper( + 'LINK', wrappers, ldxx_host)) + + master_ninja.newline() + + master_ninja.pool('link_pool', depth=GetDefaultConcurrentLinks()) + master_ninja.newline() + + deps = 'msvc' if flavor == 'win' else 'gcc' + + if flavor != 'win': + master_ninja.rule( + 'cc', + description='CC $out', + command=('$cc -MMD -MF $out.d $defines $includes $cflags $cflags_c ' + '$cflags_pch_c -c $in -o $out'), + depfile='$out.d', + deps=deps) + master_ninja.rule( + 'cc_s', + description='CC $out', + command=('$cc $defines $includes $cflags $cflags_c ' + '$cflags_pch_c -c $in -o $out')) + master_ninja.rule( + 'cxx', + description='CXX $out', + command=('$cxx -MMD -MF $out.d $defines $includes $cflags $cflags_cc ' + '$cflags_pch_cc -c $in -o $out'), + depfile='$out.d', + deps=deps) + else: + # TODO(scottmg) Separate pdb names is a test to see if it works around + # http://crbug.com/142362. It seems there's a race between the creation of + # the .pdb by the precompiled header step for .cc and the compilation of + # .c files. This should be handled by mspdbsrv, but rarely errors out with + # c1xx : fatal error C1033: cannot open program database + # By making the rules target separate pdb files this might be avoided. + cc_command = ('ninja -t msvc -e $arch ' + + '-- ' + '$cc /nologo /showIncludes /FC ' + '@$out.rsp /c $in /Fo$out /Fd$pdbname_c ') + cxx_command = ('ninja -t msvc -e $arch ' + + '-- ' + '$cxx /nologo /showIncludes /FC ' + '@$out.rsp /c $in /Fo$out /Fd$pdbname_cc ') + master_ninja.rule( + 'cc', + description='CC $out', + command=cc_command, + rspfile='$out.rsp', + rspfile_content='$defines $includes $cflags $cflags_c', + deps=deps) + master_ninja.rule( + 'cxx', + description='CXX $out', + command=cxx_command, + rspfile='$out.rsp', + rspfile_content='$defines $includes $cflags $cflags_cc', + deps=deps) + master_ninja.rule( + 'idl', + description='IDL $in', + command=('%s gyp-win-tool midl-wrapper $arch $outdir ' + '$tlb $h $dlldata $iid $proxy $in ' + '$idlflags' % sys.executable)) + master_ninja.rule( + 'rc', + description='RC $in', + # Note: $in must be last otherwise rc.exe complains. + command=('%s gyp-win-tool rc-wrapper ' + '$arch $rc $defines $resource_includes $rcflags /fo$out $in' % + sys.executable)) + master_ninja.rule( + 'asm', + description='ASM $in', + command=('%s gyp-win-tool asm-wrapper ' + '$arch $asm $defines $includes /c /Fo $out $in' % + sys.executable)) + + if flavor != 'mac' and flavor != 'win': + master_ninja.rule( + 'alink', + description='AR $out', + command='rm -f $out && $ar rcs $out $in') + master_ninja.rule( + 'alink_thin', + description='AR $out', + command='rm -f $out && $ar rcsT $out $in') + + # This allows targets that only need to depend on $lib's API to declare an + # order-only dependency on $lib.TOC and avoid relinking such downstream + # dependencies when $lib changes only in non-public ways. + # The resulting string leaves an uninterpolated %{suffix} which + # is used in the final substitution below. + mtime_preserving_solink_base = ( + 'if [ ! -e $lib -o ! -e ${lib}.TOC ]; then ' + '%(solink)s && %(extract_toc)s > ${lib}.TOC; else ' + '%(solink)s && %(extract_toc)s > ${lib}.tmp && ' + 'if ! cmp -s ${lib}.tmp ${lib}.TOC; then mv ${lib}.tmp ${lib}.TOC ; ' + 'fi; fi' + % { 'solink': + '$ld -shared $ldflags -o $lib -Wl,-soname=$soname %(suffix)s', + 'extract_toc': + ('{ readelf -d ${lib} | grep SONAME ; ' + 'nm -gD -f p ${lib} | cut -f1-2 -d\' \'; }')}) + + master_ninja.rule( + 'solink', + description='SOLINK $lib', + restat=True, + command=(mtime_preserving_solink_base % { + 'suffix': '-Wl,--whole-archive $in $solibs -Wl,--no-whole-archive ' + '$libs'}), + pool='link_pool') + master_ninja.rule( + 'solink_module', + description='SOLINK(module) $lib', + restat=True, + command=(mtime_preserving_solink_base % { + 'suffix': '-Wl,--start-group $in $solibs -Wl,--end-group ' + '$libs'}), + pool='link_pool') + master_ninja.rule( + 'link', + description='LINK $out', + command=('$ld $ldflags -o $out ' + '-Wl,--start-group $in $solibs -Wl,--end-group $libs'), + pool='link_pool') + elif flavor == 'win': + master_ninja.rule( + 'alink', + description='LIB $out', + command=('%s gyp-win-tool link-wrapper $arch False ' + '$ar /nologo /ignore:4221 /OUT:$out @$out.rsp' % + sys.executable), + rspfile='$out.rsp', + rspfile_content='$in_newline $libflags') + _AddWinLinkRules(master_ninja, embed_manifest=True) + _AddWinLinkRules(master_ninja, embed_manifest=False) + else: + master_ninja.rule( + 'objc', + description='OBJC $out', + command=('$cc -MMD -MF $out.d $defines $includes $cflags $cflags_objc ' + '$cflags_pch_objc -c $in -o $out'), + depfile='$out.d', + deps=deps) + master_ninja.rule( + 'objcxx', + description='OBJCXX $out', + command=('$cxx -MMD -MF $out.d $defines $includes $cflags $cflags_objcc ' + '$cflags_pch_objcc -c $in -o $out'), + depfile='$out.d', + deps=deps) + master_ninja.rule( + 'alink', + description='LIBTOOL-STATIC $out, POSTBUILDS', + command='rm -f $out && ' + './gyp-mac-tool filter-libtool libtool $libtool_flags ' + '-static -o $out $in' + '$postbuilds') + master_ninja.rule( + 'lipo', + description='LIPO $out, POSTBUILDS', + command='rm -f $out && lipo -create $in -output $out$postbuilds') + + # Record the public interface of $lib in $lib.TOC. See the corresponding + # comment in the posix section above for details. + solink_base = '$ld %(type)s $ldflags -o $lib %(suffix)s' + mtime_preserving_solink_base = ( + 'if [ ! -e $lib -o ! -e ${lib}.TOC ] || ' + # Always force dependent targets to relink if this library + # reexports something. Handling this correctly would require + # recursive TOC dumping but this is rare in practice, so punt. + 'otool -l $lib | grep -q LC_REEXPORT_DYLIB ; then ' + '%(solink)s && %(extract_toc)s > ${lib}.TOC; ' + 'else ' + '%(solink)s && %(extract_toc)s > ${lib}.tmp && ' + 'if ! cmp -s ${lib}.tmp ${lib}.TOC; then ' + 'mv ${lib}.tmp ${lib}.TOC ; ' + 'fi; ' + 'fi' + % { 'solink': solink_base, + 'extract_toc': + '{ otool -l $lib | grep LC_ID_DYLIB -A 5; ' + 'nm -gP $lib | cut -f1-2 -d\' \' | grep -v U$$; true; }'}) + + solink_suffix = '$in $solibs $libs$postbuilds' + master_ninja.rule( + 'solink', + description='SOLINK $lib, POSTBUILDS', + restat=True, + command=mtime_preserving_solink_base % {'suffix': solink_suffix, + 'type': '-shared'}, + pool='link_pool') + master_ninja.rule( + 'solink_notoc', + description='SOLINK $lib, POSTBUILDS', + restat=True, + command=solink_base % {'suffix':solink_suffix, 'type': '-shared'}, + pool='link_pool') + + solink_module_suffix = '$in $solibs $libs$postbuilds' + master_ninja.rule( + 'solink_module', + description='SOLINK(module) $lib, POSTBUILDS', + restat=True, + command=mtime_preserving_solink_base % {'suffix': solink_module_suffix, + 'type': '-bundle'}, + pool='link_pool') + master_ninja.rule( + 'solink_module_notoc', + description='SOLINK(module) $lib, POSTBUILDS', + restat=True, + command=solink_base % {'suffix': solink_module_suffix, 'type': '-bundle'}, + pool='link_pool') + + master_ninja.rule( + 'link', + description='LINK $out, POSTBUILDS', + command=('$ld $ldflags -o $out ' + '$in $solibs $libs$postbuilds'), + pool='link_pool') + master_ninja.rule( + 'preprocess_infoplist', + description='PREPROCESS INFOPLIST $out', + command=('$cc -E -P -Wno-trigraphs -x c $defines $in -o $out && ' + 'plutil -convert xml1 $out $out')) + master_ninja.rule( + 'copy_infoplist', + description='COPY INFOPLIST $in', + command='$env ./gyp-mac-tool copy-info-plist $in $out $keys') + master_ninja.rule( + 'mac_tool', + description='MACTOOL $mactool_cmd $in', + command='$env ./gyp-mac-tool $mactool_cmd $in $out') + master_ninja.rule( + 'package_framework', + description='PACKAGE FRAMEWORK $out, POSTBUILDS', + command='./gyp-mac-tool package-framework $out $version$postbuilds ' + '&& touch $out') + if flavor == 'win': + master_ninja.rule( + 'stamp', + description='STAMP $out', + command='%s gyp-win-tool stamp $out' % sys.executable) + master_ninja.rule( + 'copy', + description='COPY $in $out', + command='%s gyp-win-tool recursive-mirror $in $out' % sys.executable) + else: + master_ninja.rule( + 'stamp', + description='STAMP $out', + command='${postbuilds}touch $out') + master_ninja.rule( + 'copy', + description='COPY $in $out', + command='ln -f $in $out 2>/dev/null || (rm -rf $out && cp -af $in $out)') + master_ninja.newline() + + all_targets = set() + for build_file in params['build_files']: + for target in gyp.common.AllTargets(target_list, + target_dicts, + os.path.normpath(build_file)): + all_targets.add(target) + all_outputs = set() + + # target_outputs is a map from qualified target name to a Target object. + target_outputs = {} + # target_short_names is a map from target short name to a list of Target + # objects. + target_short_names = {} + + for qualified_target in target_list: + # qualified_target is like: third_party/icu/icu.gyp:icui18n#target + build_file, name, toolset = \ + gyp.common.ParseQualifiedTarget(qualified_target) + + this_make_global_settings = data[build_file].get('make_global_settings', []) + assert make_global_settings == this_make_global_settings, ( + "make_global_settings needs to be the same for all targets. %s vs. %s" % + (this_make_global_settings, make_global_settings)) + + spec = target_dicts[qualified_target] + if flavor == 'mac': + gyp.xcode_emulation.MergeGlobalXcodeSettingsToSpec(data[build_file], spec) + + build_file = gyp.common.RelativePath(build_file, options.toplevel_dir) + + base_path = os.path.dirname(build_file) + obj = 'obj' + if toolset != 'target': + obj += '.' + toolset + output_file = os.path.join(obj, base_path, name + '.ninja') + + ninja_output = StringIO() + writer = NinjaWriter(qualified_target, target_outputs, base_path, build_dir, + ninja_output, + toplevel_build, output_file, + flavor, toplevel_dir=options.toplevel_dir) + + target = writer.WriteSpec(spec, config_name, generator_flags) + + if ninja_output.tell() > 0: + # Only create files for ninja files that actually have contents. + with OpenOutput(os.path.join(toplevel_build, output_file)) as ninja_file: + ninja_file.write(ninja_output.getvalue()) + ninja_output.close() + master_ninja.subninja(output_file) + + if target: + if name != target.FinalOutput() and spec['toolset'] == 'target': + target_short_names.setdefault(name, []).append(target) + target_outputs[qualified_target] = target + if qualified_target in all_targets: + all_outputs.add(target.FinalOutput()) + + if target_short_names: + # Write a short name to build this target. This benefits both the + # "build chrome" case as well as the gyp tests, which expect to be + # able to run actions and build libraries by their short name. + master_ninja.newline() + master_ninja.comment('Short names for targets.') + for short_name in target_short_names: + master_ninja.build(short_name, 'phony', [x.FinalOutput() for x in + target_short_names[short_name]]) + + if all_outputs: + master_ninja.newline() + master_ninja.build('all', 'phony', list(all_outputs)) + master_ninja.default(generator_flags.get('default_target', 'all')) + + master_ninja_file.close() + + +def PerformBuild(data, configurations, params): + options = params['options'] + for config in configurations: + builddir = os.path.join(options.toplevel_dir, 'out', config) + arguments = ['ninja', '-C', builddir] + print 'Building [%s]: %s' % (config, arguments) + subprocess.check_call(arguments) + + +def CallGenerateOutputForConfig(arglist): + # Ignore the interrupt signal so that the parent process catches it and + # kills all multiprocessing children. + signal.signal(signal.SIGINT, signal.SIG_IGN) + + (target_list, target_dicts, data, params, config_name) = arglist + GenerateOutputForConfig(target_list, target_dicts, data, params, config_name) + + +def GenerateOutput(target_list, target_dicts, data, params): + # Update target_dicts for iOS device builds. + target_dicts = gyp.xcode_emulation.CloneConfigurationForDeviceAndEmulator( + target_dicts) + + user_config = params.get('generator_flags', {}).get('config', None) + if gyp.common.GetFlavor(params) == 'win': + target_list, target_dicts = MSVSUtil.ShardTargets(target_list, target_dicts) + target_list, target_dicts = MSVSUtil.InsertLargePdbShims( + target_list, target_dicts, generator_default_variables) + + if user_config: + GenerateOutputForConfig(target_list, target_dicts, data, params, + user_config) + else: + config_names = target_dicts[target_list[0]]['configurations'].keys() + if params['parallel']: + try: + pool = multiprocessing.Pool(len(config_names)) + arglists = [] + for config_name in config_names: + arglists.append( + (target_list, target_dicts, data, params, config_name)) + pool.map(CallGenerateOutputForConfig, arglists) + except KeyboardInterrupt, e: + pool.terminate() + raise e + else: + for config_name in config_names: + GenerateOutputForConfig(target_list, target_dicts, data, params, + config_name) diff --git a/deps/gyp/pylib/gyp/generator/ninja_test.py b/deps/gyp/pylib/gyp/generator/ninja_test.py new file mode 100644 index 0000000000..52661bcdf0 --- /dev/null +++ b/deps/gyp/pylib/gyp/generator/ninja_test.py @@ -0,0 +1,44 @@ +#!/usr/bin/env python + +# Copyright (c) 2012 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +""" Unit tests for the ninja.py file. """ + +import gyp.generator.ninja as ninja +import unittest +import StringIO +import sys +import TestCommon + + +class TestPrefixesAndSuffixes(unittest.TestCase): + def test_BinaryNamesWindows(self): + writer = ninja.NinjaWriter('foo', 'wee', '.', '.', 'build.ninja', '.', + 'build.ninja', 'win') + spec = { 'target_name': 'wee' } + self.assertTrue(writer.ComputeOutputFileName(spec, 'executable'). + endswith('.exe')) + self.assertTrue(writer.ComputeOutputFileName(spec, 'shared_library'). + endswith('.dll')) + self.assertTrue(writer.ComputeOutputFileName(spec, 'static_library'). + endswith('.lib')) + + def test_BinaryNamesLinux(self): + writer = ninja.NinjaWriter('foo', 'wee', '.', '.', 'build.ninja', '.', + 'build.ninja', 'linux') + spec = { 'target_name': 'wee' } + self.assertTrue('.' not in writer.ComputeOutputFileName(spec, + 'executable')) + self.assertTrue(writer.ComputeOutputFileName(spec, 'shared_library'). + startswith('lib')) + self.assertTrue(writer.ComputeOutputFileName(spec, 'static_library'). + startswith('lib')) + self.assertTrue(writer.ComputeOutputFileName(spec, 'shared_library'). + endswith('.so')) + self.assertTrue(writer.ComputeOutputFileName(spec, 'static_library'). + endswith('.a')) + +if __name__ == '__main__': + unittest.main() diff --git a/deps/gyp/pylib/gyp/generator/xcode.py b/deps/gyp/pylib/gyp/generator/xcode.py new file mode 100644 index 0000000000..331e78baaa --- /dev/null +++ b/deps/gyp/pylib/gyp/generator/xcode.py @@ -0,0 +1,1224 @@ +# Copyright (c) 2012 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +import filecmp +import gyp.common +import gyp.xcodeproj_file +import errno +import os +import sys +import posixpath +import re +import shutil +import subprocess +import tempfile + + +# Project files generated by this module will use _intermediate_var as a +# custom Xcode setting whose value is a DerivedSources-like directory that's +# project-specific and configuration-specific. The normal choice, +# DERIVED_FILE_DIR, is target-specific, which is thought to be too restrictive +# as it is likely that multiple targets within a single project file will want +# to access the same set of generated files. The other option, +# PROJECT_DERIVED_FILE_DIR, is unsuitable because while it is project-specific, +# it is not configuration-specific. INTERMEDIATE_DIR is defined as +# $(PROJECT_DERIVED_FILE_DIR)/$(CONFIGURATION). +_intermediate_var = 'INTERMEDIATE_DIR' + +# SHARED_INTERMEDIATE_DIR is the same, except that it is shared among all +# targets that share the same BUILT_PRODUCTS_DIR. +_shared_intermediate_var = 'SHARED_INTERMEDIATE_DIR' + +_library_search_paths_var = 'LIBRARY_SEARCH_PATHS' + +generator_default_variables = { + 'EXECUTABLE_PREFIX': '', + 'EXECUTABLE_SUFFIX': '', + 'STATIC_LIB_PREFIX': 'lib', + 'SHARED_LIB_PREFIX': 'lib', + 'STATIC_LIB_SUFFIX': '.a', + 'SHARED_LIB_SUFFIX': '.dylib', + # INTERMEDIATE_DIR is a place for targets to build up intermediate products. + # It is specific to each build environment. It is only guaranteed to exist + # and be constant within the context of a project, corresponding to a single + # input file. Some build environments may allow their intermediate directory + # to be shared on a wider scale, but this is not guaranteed. + 'INTERMEDIATE_DIR': '$(%s)' % _intermediate_var, + 'OS': 'mac', + 'PRODUCT_DIR': '$(BUILT_PRODUCTS_DIR)', + 'LIB_DIR': '$(BUILT_PRODUCTS_DIR)', + 'RULE_INPUT_ROOT': '$(INPUT_FILE_BASE)', + 'RULE_INPUT_EXT': '$(INPUT_FILE_SUFFIX)', + 'RULE_INPUT_NAME': '$(INPUT_FILE_NAME)', + 'RULE_INPUT_PATH': '$(INPUT_FILE_PATH)', + 'RULE_INPUT_DIRNAME': '$(INPUT_FILE_DIRNAME)', + 'SHARED_INTERMEDIATE_DIR': '$(%s)' % _shared_intermediate_var, + 'CONFIGURATION_NAME': '$(CONFIGURATION)', +} + +# The Xcode-specific sections that hold paths. +generator_additional_path_sections = [ + 'mac_bundle_resources', + 'mac_framework_headers', + 'mac_framework_private_headers', + # 'mac_framework_dirs', input already handles _dirs endings. +] + +# The Xcode-specific keys that exist on targets and aren't moved down to +# configurations. +generator_additional_non_configuration_keys = [ + 'mac_bundle', + 'mac_bundle_resources', + 'mac_framework_headers', + 'mac_framework_private_headers', + 'mac_xctest_bundle', + 'xcode_create_dependents_test_runner', +] + +# We want to let any rules apply to files that are resources also. +generator_extra_sources_for_rules = [ + 'mac_bundle_resources', + 'mac_framework_headers', + 'mac_framework_private_headers', +] + +# Xcode's standard set of library directories, which don't need to be duplicated +# in LIBRARY_SEARCH_PATHS. This list is not exhaustive, but that's okay. +xcode_standard_library_dirs = frozenset([ + '$(SDKROOT)/usr/lib', + '$(SDKROOT)/usr/local/lib', +]) + +def CreateXCConfigurationList(configuration_names): + xccl = gyp.xcodeproj_file.XCConfigurationList({'buildConfigurations': []}) + if len(configuration_names) == 0: + configuration_names = ['Default'] + for configuration_name in configuration_names: + xcbc = gyp.xcodeproj_file.XCBuildConfiguration({ + 'name': configuration_name}) + xccl.AppendProperty('buildConfigurations', xcbc) + xccl.SetProperty('defaultConfigurationName', configuration_names[0]) + return xccl + + +class XcodeProject(object): + def __init__(self, gyp_path, path, build_file_dict): + self.gyp_path = gyp_path + self.path = path + self.project = gyp.xcodeproj_file.PBXProject(path=path) + projectDirPath = gyp.common.RelativePath( + os.path.dirname(os.path.abspath(self.gyp_path)), + os.path.dirname(path) or '.') + self.project.SetProperty('projectDirPath', projectDirPath) + self.project_file = \ + gyp.xcodeproj_file.XCProjectFile({'rootObject': self.project}) + self.build_file_dict = build_file_dict + + # TODO(mark): add destructor that cleans up self.path if created_dir is + # True and things didn't complete successfully. Or do something even + # better with "try"? + self.created_dir = False + try: + os.makedirs(self.path) + self.created_dir = True + except OSError, e: + if e.errno != errno.EEXIST: + raise + + def Finalize1(self, xcode_targets, serialize_all_tests): + # Collect a list of all of the build configuration names used by the + # various targets in the file. It is very heavily advised to keep each + # target in an entire project (even across multiple project files) using + # the same set of configuration names. + configurations = [] + for xct in self.project.GetProperty('targets'): + xccl = xct.GetProperty('buildConfigurationList') + xcbcs = xccl.GetProperty('buildConfigurations') + for xcbc in xcbcs: + name = xcbc.GetProperty('name') + if name not in configurations: + configurations.append(name) + + # Replace the XCConfigurationList attached to the PBXProject object with + # a new one specifying all of the configuration names used by the various + # targets. + try: + xccl = CreateXCConfigurationList(configurations) + self.project.SetProperty('buildConfigurationList', xccl) + except: + sys.stderr.write("Problem with gyp file %s\n" % self.gyp_path) + raise + + # The need for this setting is explained above where _intermediate_var is + # defined. The comments below about wanting to avoid project-wide build + # settings apply here too, but this needs to be set on a project-wide basis + # so that files relative to the _intermediate_var setting can be displayed + # properly in the Xcode UI. + # + # Note that for configuration-relative files such as anything relative to + # _intermediate_var, for the purposes of UI tree view display, Xcode will + # only resolve the configuration name once, when the project file is + # opened. If the active build configuration is changed, the project file + # must be closed and reopened if it is desired for the tree view to update. + # This is filed as Apple radar 6588391. + xccl.SetBuildSetting(_intermediate_var, + '$(PROJECT_DERIVED_FILE_DIR)/$(CONFIGURATION)') + xccl.SetBuildSetting(_shared_intermediate_var, + '$(SYMROOT)/DerivedSources/$(CONFIGURATION)') + + # Set user-specified project-wide build settings and config files. This + # is intended to be used very sparingly. Really, almost everything should + # go into target-specific build settings sections. The project-wide + # settings are only intended to be used in cases where Xcode attempts to + # resolve variable references in a project context as opposed to a target + # context, such as when resolving sourceTree references while building up + # the tree tree view for UI display. + # Any values set globally are applied to all configurations, then any + # per-configuration values are applied. + for xck, xcv in self.build_file_dict.get('xcode_settings', {}).iteritems(): + xccl.SetBuildSetting(xck, xcv) + if 'xcode_config_file' in self.build_file_dict: + config_ref = self.project.AddOrGetFileInRootGroup( + self.build_file_dict['xcode_config_file']) + xccl.SetBaseConfiguration(config_ref) + build_file_configurations = self.build_file_dict.get('configurations', {}) + if build_file_configurations: + for config_name in configurations: + build_file_configuration_named = \ + build_file_configurations.get(config_name, {}) + if build_file_configuration_named: + xcc = xccl.ConfigurationNamed(config_name) + for xck, xcv in build_file_configuration_named.get('xcode_settings', + {}).iteritems(): + xcc.SetBuildSetting(xck, xcv) + if 'xcode_config_file' in build_file_configuration_named: + config_ref = self.project.AddOrGetFileInRootGroup( + build_file_configurations[config_name]['xcode_config_file']) + xcc.SetBaseConfiguration(config_ref) + + # Sort the targets based on how they appeared in the input. + # TODO(mark): Like a lot of other things here, this assumes internal + # knowledge of PBXProject - in this case, of its "targets" property. + + # ordinary_targets are ordinary targets that are already in the project + # file. run_test_targets are the targets that run unittests and should be + # used for the Run All Tests target. support_targets are the action/rule + # targets used by GYP file targets, just kept for the assert check. + ordinary_targets = [] + run_test_targets = [] + support_targets = [] + + # targets is full list of targets in the project. + targets = [] + + # does the it define it's own "all"? + has_custom_all = False + + # targets_for_all is the list of ordinary_targets that should be listed + # in this project's "All" target. It includes each non_runtest_target + # that does not have suppress_wildcard set. + targets_for_all = [] + + for target in self.build_file_dict['targets']: + target_name = target['target_name'] + toolset = target['toolset'] + qualified_target = gyp.common.QualifiedTarget(self.gyp_path, target_name, + toolset) + xcode_target = xcode_targets[qualified_target] + # Make sure that the target being added to the sorted list is already in + # the unsorted list. + assert xcode_target in self.project._properties['targets'] + targets.append(xcode_target) + ordinary_targets.append(xcode_target) + if xcode_target.support_target: + support_targets.append(xcode_target.support_target) + targets.append(xcode_target.support_target) + + if not int(target.get('suppress_wildcard', False)): + targets_for_all.append(xcode_target) + + if target_name.lower() == 'all': + has_custom_all = True; + + # If this target has a 'run_as' attribute, add its target to the + # targets, and add it to the test targets. + if target.get('run_as'): + # Make a target to run something. It should have one + # dependency, the parent xcode target. + xccl = CreateXCConfigurationList(configurations) + run_target = gyp.xcodeproj_file.PBXAggregateTarget({ + 'name': 'Run ' + target_name, + 'productName': xcode_target.GetProperty('productName'), + 'buildConfigurationList': xccl, + }, + parent=self.project) + run_target.AddDependency(xcode_target) + + command = target['run_as'] + script = '' + if command.get('working_directory'): + script = script + 'cd "%s"\n' % \ + gyp.xcodeproj_file.ConvertVariablesToShellSyntax( + command.get('working_directory')) + + if command.get('environment'): + script = script + "\n".join( + ['export %s="%s"' % + (key, gyp.xcodeproj_file.ConvertVariablesToShellSyntax(val)) + for (key, val) in command.get('environment').iteritems()]) + "\n" + + # Some test end up using sockets, files on disk, etc. and can get + # confused if more then one test runs at a time. The generator + # flag 'xcode_serialize_all_test_runs' controls the forcing of all + # tests serially. It defaults to True. To get serial runs this + # little bit of python does the same as the linux flock utility to + # make sure only one runs at a time. + command_prefix = '' + if serialize_all_tests: + command_prefix = \ +"""python -c "import fcntl, subprocess, sys +file = open('$TMPDIR/GYP_serialize_test_runs', 'a') +fcntl.flock(file.fileno(), fcntl.LOCK_EX) +sys.exit(subprocess.call(sys.argv[1:]))" """ + + # If we were unable to exec for some reason, we want to exit + # with an error, and fixup variable references to be shell + # syntax instead of xcode syntax. + script = script + 'exec ' + command_prefix + '%s\nexit 1\n' % \ + gyp.xcodeproj_file.ConvertVariablesToShellSyntax( + gyp.common.EncodePOSIXShellList(command.get('action'))) + + ssbp = gyp.xcodeproj_file.PBXShellScriptBuildPhase({ + 'shellScript': script, + 'showEnvVarsInLog': 0, + }) + run_target.AppendProperty('buildPhases', ssbp) + + # Add the run target to the project file. + targets.append(run_target) + run_test_targets.append(run_target) + xcode_target.test_runner = run_target + + + # Make sure that the list of targets being replaced is the same length as + # the one replacing it, but allow for the added test runner targets. + assert len(self.project._properties['targets']) == \ + len(ordinary_targets) + len(support_targets) + + self.project._properties['targets'] = targets + + # Get rid of unnecessary levels of depth in groups like the Source group. + self.project.RootGroupsTakeOverOnlyChildren(True) + + # Sort the groups nicely. Do this after sorting the targets, because the + # Products group is sorted based on the order of the targets. + self.project.SortGroups() + + # Create an "All" target if there's more than one target in this project + # file and the project didn't define its own "All" target. Put a generated + # "All" target first so that people opening up the project for the first + # time will build everything by default. + if len(targets_for_all) > 1 and not has_custom_all: + xccl = CreateXCConfigurationList(configurations) + all_target = gyp.xcodeproj_file.PBXAggregateTarget( + { + 'buildConfigurationList': xccl, + 'name': 'All', + }, + parent=self.project) + + for target in targets_for_all: + all_target.AddDependency(target) + + # TODO(mark): This is evil because it relies on internal knowledge of + # PBXProject._properties. It's important to get the "All" target first, + # though. + self.project._properties['targets'].insert(0, all_target) + + # The same, but for run_test_targets. + if len(run_test_targets) > 1: + xccl = CreateXCConfigurationList(configurations) + run_all_tests_target = gyp.xcodeproj_file.PBXAggregateTarget( + { + 'buildConfigurationList': xccl, + 'name': 'Run All Tests', + }, + parent=self.project) + for run_test_target in run_test_targets: + run_all_tests_target.AddDependency(run_test_target) + + # Insert after the "All" target, which must exist if there is more than + # one run_test_target. + self.project._properties['targets'].insert(1, run_all_tests_target) + + def Finalize2(self, xcode_targets, xcode_target_to_target_dict): + # Finalize2 needs to happen in a separate step because the process of + # updating references to other projects depends on the ordering of targets + # within remote project files. Finalize1 is responsible for sorting duty, + # and once all project files are sorted, Finalize2 can come in and update + # these references. + + # To support making a "test runner" target that will run all the tests + # that are direct dependents of any given target, we look for + # xcode_create_dependents_test_runner being set on an Aggregate target, + # and generate a second target that will run the tests runners found under + # the marked target. + for bf_tgt in self.build_file_dict['targets']: + if int(bf_tgt.get('xcode_create_dependents_test_runner', 0)): + tgt_name = bf_tgt['target_name'] + toolset = bf_tgt['toolset'] + qualified_target = gyp.common.QualifiedTarget(self.gyp_path, + tgt_name, toolset) + xcode_target = xcode_targets[qualified_target] + if isinstance(xcode_target, gyp.xcodeproj_file.PBXAggregateTarget): + # Collect all the run test targets. + all_run_tests = [] + pbxtds = xcode_target.GetProperty('dependencies') + for pbxtd in pbxtds: + pbxcip = pbxtd.GetProperty('targetProxy') + dependency_xct = pbxcip.GetProperty('remoteGlobalIDString') + if hasattr(dependency_xct, 'test_runner'): + all_run_tests.append(dependency_xct.test_runner) + + # Directly depend on all the runners as they depend on the target + # that builds them. + if len(all_run_tests) > 0: + run_all_target = gyp.xcodeproj_file.PBXAggregateTarget({ + 'name': 'Run %s Tests' % tgt_name, + 'productName': tgt_name, + }, + parent=self.project) + for run_test_target in all_run_tests: + run_all_target.AddDependency(run_test_target) + + # Insert the test runner after the related target. + idx = self.project._properties['targets'].index(xcode_target) + self.project._properties['targets'].insert(idx + 1, run_all_target) + + # Update all references to other projects, to make sure that the lists of + # remote products are complete. Otherwise, Xcode will fill them in when + # it opens the project file, which will result in unnecessary diffs. + # TODO(mark): This is evil because it relies on internal knowledge of + # PBXProject._other_pbxprojects. + for other_pbxproject in self.project._other_pbxprojects.keys(): + self.project.AddOrGetProjectReference(other_pbxproject) + + self.project.SortRemoteProductReferences() + + # Give everything an ID. + self.project_file.ComputeIDs() + + # Make sure that no two objects in the project file have the same ID. If + # multiple objects wind up with the same ID, upon loading the file, Xcode + # will only recognize one object (the last one in the file?) and the + # results are unpredictable. + self.project_file.EnsureNoIDCollisions() + + def Write(self): + # Write the project file to a temporary location first. Xcode watches for + # changes to the project file and presents a UI sheet offering to reload + # the project when it does change. However, in some cases, especially when + # multiple projects are open or when Xcode is busy, things don't work so + # seamlessly. Sometimes, Xcode is able to detect that a project file has + # changed but can't unload it because something else is referencing it. + # To mitigate this problem, and to avoid even having Xcode present the UI + # sheet when an open project is rewritten for inconsequential changes, the + # project file is written to a temporary file in the xcodeproj directory + # first. The new temporary file is then compared to the existing project + # file, if any. If they differ, the new file replaces the old; otherwise, + # the new project file is simply deleted. Xcode properly detects a file + # being renamed over an open project file as a change and so it remains + # able to present the "project file changed" sheet under this system. + # Writing to a temporary file first also avoids the possible problem of + # Xcode rereading an incomplete project file. + (output_fd, new_pbxproj_path) = \ + tempfile.mkstemp(suffix='.tmp', prefix='project.pbxproj.gyp.', + dir=self.path) + + try: + output_file = os.fdopen(output_fd, 'wb') + + self.project_file.Print(output_file) + output_file.close() + + pbxproj_path = os.path.join(self.path, 'project.pbxproj') + + same = False + try: + same = filecmp.cmp(pbxproj_path, new_pbxproj_path, False) + except OSError, e: + if e.errno != errno.ENOENT: + raise + + if same: + # The new file is identical to the old one, just get rid of the new + # one. + os.unlink(new_pbxproj_path) + else: + # The new file is different from the old one, or there is no old one. + # Rename the new file to the permanent name. + # + # tempfile.mkstemp uses an overly restrictive mode, resulting in a + # file that can only be read by the owner, regardless of the umask. + # There's no reason to not respect the umask here, which means that + # an extra hoop is required to fetch it and reset the new file's mode. + # + # No way to get the umask without setting a new one? Set a safe one + # and then set it back to the old value. + umask = os.umask(077) + os.umask(umask) + + os.chmod(new_pbxproj_path, 0666 & ~umask) + os.rename(new_pbxproj_path, pbxproj_path) + + except Exception: + # Don't leave turds behind. In fact, if this code was responsible for + # creating the xcodeproj directory, get rid of that too. + os.unlink(new_pbxproj_path) + if self.created_dir: + shutil.rmtree(self.path, True) + raise + + +def AddSourceToTarget(source, type, pbxp, xct): + # TODO(mark): Perhaps source_extensions and library_extensions can be made a + # little bit fancier. + source_extensions = ['c', 'cc', 'cpp', 'cxx', 'm', 'mm', 's'] + + # .o is conceptually more of a "source" than a "library," but Xcode thinks + # of "sources" as things to compile and "libraries" (or "frameworks") as + # things to link with. Adding an object file to an Xcode target's frameworks + # phase works properly. + library_extensions = ['a', 'dylib', 'framework', 'o'] + + basename = posixpath.basename(source) + (root, ext) = posixpath.splitext(basename) + if ext: + ext = ext[1:].lower() + + if ext in source_extensions and type != 'none': + xct.SourcesPhase().AddFile(source) + elif ext in library_extensions and type != 'none': + xct.FrameworksPhase().AddFile(source) + else: + # Files that aren't added to a sources or frameworks build phase can still + # go into the project file, just not as part of a build phase. + pbxp.AddOrGetFileInRootGroup(source) + + +def AddResourceToTarget(resource, pbxp, xct): + # TODO(mark): Combine with AddSourceToTarget above? Or just inline this call + # where it's used. + xct.ResourcesPhase().AddFile(resource) + + +def AddHeaderToTarget(header, pbxp, xct, is_public): + # TODO(mark): Combine with AddSourceToTarget above? Or just inline this call + # where it's used. + settings = '{ATTRIBUTES = (%s, ); }' % ('Private', 'Public')[is_public] + xct.HeadersPhase().AddFile(header, settings) + + +_xcode_variable_re = re.compile('(\$\((.*?)\))') +def ExpandXcodeVariables(string, expansions): + """Expands Xcode-style $(VARIABLES) in string per the expansions dict. + + In some rare cases, it is appropriate to expand Xcode variables when a + project file is generated. For any substring $(VAR) in string, if VAR is a + key in the expansions dict, $(VAR) will be replaced with expansions[VAR]. + Any $(VAR) substring in string for which VAR is not a key in the expansions + dict will remain in the returned string. + """ + + matches = _xcode_variable_re.findall(string) + if matches == None: + return string + + matches.reverse() + for match in matches: + (to_replace, variable) = match + if not variable in expansions: + continue + + replacement = expansions[variable] + string = re.sub(re.escape(to_replace), replacement, string) + + return string + + +_xcode_define_re = re.compile(r'([\\\"\' ])') +def EscapeXcodeDefine(s): + """We must escape the defines that we give to XCode so that it knows not to + split on spaces and to respect backslash and quote literals. However, we + must not quote the define, or Xcode will incorrectly intepret variables + especially $(inherited).""" + return re.sub(_xcode_define_re, r'\\\1', s) + + +def PerformBuild(data, configurations, params): + options = params['options'] + + for build_file, build_file_dict in data.iteritems(): + (build_file_root, build_file_ext) = os.path.splitext(build_file) + if build_file_ext != '.gyp': + continue + xcodeproj_path = build_file_root + options.suffix + '.xcodeproj' + if options.generator_output: + xcodeproj_path = os.path.join(options.generator_output, xcodeproj_path) + + for config in configurations: + arguments = ['xcodebuild', '-project', xcodeproj_path] + arguments += ['-configuration', config] + print "Building [%s]: %s" % (config, arguments) + subprocess.check_call(arguments) + + +def GenerateOutput(target_list, target_dicts, data, params): + options = params['options'] + generator_flags = params.get('generator_flags', {}) + parallel_builds = generator_flags.get('xcode_parallel_builds', True) + serialize_all_tests = \ + generator_flags.get('xcode_serialize_all_test_runs', True) + project_version = generator_flags.get('xcode_project_version', None) + skip_excluded_files = \ + not generator_flags.get('xcode_list_excluded_files', True) + xcode_projects = {} + for build_file, build_file_dict in data.iteritems(): + (build_file_root, build_file_ext) = os.path.splitext(build_file) + if build_file_ext != '.gyp': + continue + xcodeproj_path = build_file_root + options.suffix + '.xcodeproj' + if options.generator_output: + xcodeproj_path = os.path.join(options.generator_output, xcodeproj_path) + xcp = XcodeProject(build_file, xcodeproj_path, build_file_dict) + xcode_projects[build_file] = xcp + pbxp = xcp.project + + if parallel_builds: + pbxp.SetProperty('attributes', + {'BuildIndependentTargetsInParallel': 'YES'}) + if project_version: + xcp.project_file.SetXcodeVersion(project_version) + + # Add gyp/gypi files to project + if not generator_flags.get('standalone'): + main_group = pbxp.GetProperty('mainGroup') + build_group = gyp.xcodeproj_file.PBXGroup({'name': 'Build'}) + main_group.AppendChild(build_group) + for included_file in build_file_dict['included_files']: + build_group.AddOrGetFileByPath(included_file, False) + + xcode_targets = {} + xcode_target_to_target_dict = {} + for qualified_target in target_list: + [build_file, target_name, toolset] = \ + gyp.common.ParseQualifiedTarget(qualified_target) + + spec = target_dicts[qualified_target] + if spec['toolset'] != 'target': + raise Exception( + 'Multiple toolsets not supported in xcode build (target %s)' % + qualified_target) + configuration_names = [spec['default_configuration']] + for configuration_name in sorted(spec['configurations'].keys()): + if configuration_name not in configuration_names: + configuration_names.append(configuration_name) + xcp = xcode_projects[build_file] + pbxp = xcp.project + + # Set up the configurations for the target according to the list of names + # supplied. + xccl = CreateXCConfigurationList(configuration_names) + + # Create an XCTarget subclass object for the target. The type with + # "+bundle" appended will be used if the target has "mac_bundle" set. + # loadable_modules not in a mac_bundle are mapped to + # com.googlecode.gyp.xcode.bundle, a pseudo-type that xcode.py interprets + # to create a single-file mh_bundle. + _types = { + 'executable': 'com.apple.product-type.tool', + 'loadable_module': 'com.googlecode.gyp.xcode.bundle', + 'shared_library': 'com.apple.product-type.library.dynamic', + 'static_library': 'com.apple.product-type.library.static', + 'executable+bundle': 'com.apple.product-type.application', + 'loadable_module+bundle': 'com.apple.product-type.bundle', + 'loadable_module+xctest': 'com.apple.product-type.bundle.unit-test', + 'shared_library+bundle': 'com.apple.product-type.framework', + } + + target_properties = { + 'buildConfigurationList': xccl, + 'name': target_name, + } + + type = spec['type'] + is_xctest = int(spec.get('mac_xctest_bundle', 0)) + is_bundle = int(spec.get('mac_bundle', 0)) or is_xctest + if type != 'none': + type_bundle_key = type + if is_xctest: + type_bundle_key += '+xctest' + assert type == 'loadable_module', ( + 'mac_xctest_bundle targets must have type loadable_module ' + '(target %s)' % target_name) + elif is_bundle: + type_bundle_key += '+bundle' + + xctarget_type = gyp.xcodeproj_file.PBXNativeTarget + try: + target_properties['productType'] = _types[type_bundle_key] + except KeyError, e: + gyp.common.ExceptionAppend(e, "-- unknown product type while " + "writing target %s" % target_name) + raise + else: + xctarget_type = gyp.xcodeproj_file.PBXAggregateTarget + assert not is_bundle, ( + 'mac_bundle targets cannot have type none (target "%s")' % + target_name) + assert not is_xctest, ( + 'mac_xctest_bundle targets cannot have type none (target "%s")' % + target_name) + + target_product_name = spec.get('product_name') + if target_product_name is not None: + target_properties['productName'] = target_product_name + + xct = xctarget_type(target_properties, parent=pbxp, + force_outdir=spec.get('product_dir'), + force_prefix=spec.get('product_prefix'), + force_extension=spec.get('product_extension')) + pbxp.AppendProperty('targets', xct) + xcode_targets[qualified_target] = xct + xcode_target_to_target_dict[xct] = spec + + spec_actions = spec.get('actions', []) + spec_rules = spec.get('rules', []) + + # Xcode has some "issues" with checking dependencies for the "Compile + # sources" step with any source files/headers generated by actions/rules. + # To work around this, if a target is building anything directly (not + # type "none"), then a second target is used to run the GYP actions/rules + # and is made a dependency of this target. This way the work is done + # before the dependency checks for what should be recompiled. + support_xct = None + if type != 'none' and (spec_actions or spec_rules): + support_xccl = CreateXCConfigurationList(configuration_names); + support_target_properties = { + 'buildConfigurationList': support_xccl, + 'name': target_name + ' Support', + } + if target_product_name: + support_target_properties['productName'] = \ + target_product_name + ' Support' + support_xct = \ + gyp.xcodeproj_file.PBXAggregateTarget(support_target_properties, + parent=pbxp) + pbxp.AppendProperty('targets', support_xct) + xct.AddDependency(support_xct) + # Hang the support target off the main target so it can be tested/found + # by the generator during Finalize. + xct.support_target = support_xct + + prebuild_index = 0 + + # Add custom shell script phases for "actions" sections. + for action in spec_actions: + # There's no need to write anything into the script to ensure that the + # output directories already exist, because Xcode will look at the + # declared outputs and automatically ensure that they exist for us. + + # Do we have a message to print when this action runs? + message = action.get('message') + if message: + message = 'echo note: ' + gyp.common.EncodePOSIXShellArgument(message) + else: + message = '' + + # Turn the list into a string that can be passed to a shell. + action_string = gyp.common.EncodePOSIXShellList(action['action']) + + # Convert Xcode-type variable references to sh-compatible environment + # variable references. + message_sh = gyp.xcodeproj_file.ConvertVariablesToShellSyntax(message) + action_string_sh = gyp.xcodeproj_file.ConvertVariablesToShellSyntax( + action_string) + + script = '' + # Include the optional message + if message_sh: + script += message_sh + '\n' + # Be sure the script runs in exec, and that if exec fails, the script + # exits signalling an error. + script += 'exec ' + action_string_sh + '\nexit 1\n' + ssbp = gyp.xcodeproj_file.PBXShellScriptBuildPhase({ + 'inputPaths': action['inputs'], + 'name': 'Action "' + action['action_name'] + '"', + 'outputPaths': action['outputs'], + 'shellScript': script, + 'showEnvVarsInLog': 0, + }) + + if support_xct: + support_xct.AppendProperty('buildPhases', ssbp) + else: + # TODO(mark): this assumes too much knowledge of the internals of + # xcodeproj_file; some of these smarts should move into xcodeproj_file + # itself. + xct._properties['buildPhases'].insert(prebuild_index, ssbp) + prebuild_index = prebuild_index + 1 + + # TODO(mark): Should verify that at most one of these is specified. + if int(action.get('process_outputs_as_sources', False)): + for output in action['outputs']: + AddSourceToTarget(output, type, pbxp, xct) + + if int(action.get('process_outputs_as_mac_bundle_resources', False)): + for output in action['outputs']: + AddResourceToTarget(output, pbxp, xct) + + # tgt_mac_bundle_resources holds the list of bundle resources so + # the rule processing can check against it. + if is_bundle: + tgt_mac_bundle_resources = spec.get('mac_bundle_resources', []) + else: + tgt_mac_bundle_resources = [] + + # Add custom shell script phases driving "make" for "rules" sections. + # + # Xcode's built-in rule support is almost powerful enough to use directly, + # but there are a few significant deficiencies that render them unusable. + # There are workarounds for some of its inadequacies, but in aggregate, + # the workarounds added complexity to the generator, and some workarounds + # actually require input files to be crafted more carefully than I'd like. + # Consequently, until Xcode rules are made more capable, "rules" input + # sections will be handled in Xcode output by shell script build phases + # performed prior to the compilation phase. + # + # The following problems with Xcode rules were found. The numbers are + # Apple radar IDs. I hope that these shortcomings are addressed, I really + # liked having the rules handled directly in Xcode during the period that + # I was prototyping this. + # + # 6588600 Xcode compiles custom script rule outputs too soon, compilation + # fails. This occurs when rule outputs from distinct inputs are + # interdependent. The only workaround is to put rules and their + # inputs in a separate target from the one that compiles the rule + # outputs. This requires input file cooperation and it means that + # process_outputs_as_sources is unusable. + # 6584932 Need to declare that custom rule outputs should be excluded from + # compilation. A possible workaround is to lie to Xcode about a + # rule's output, giving it a dummy file it doesn't know how to + # compile. The rule action script would need to touch the dummy. + # 6584839 I need a way to declare additional inputs to a custom rule. + # A possible workaround is a shell script phase prior to + # compilation that touches a rule's primary input files if any + # would-be additional inputs are newer than the output. Modifying + # the source tree - even just modification times - feels dirty. + # 6564240 Xcode "custom script" build rules always dump all environment + # variables. This is a low-prioroty problem and is not a + # show-stopper. + rules_by_ext = {} + for rule in spec_rules: + rules_by_ext[rule['extension']] = rule + + # First, some definitions: + # + # A "rule source" is a file that was listed in a target's "sources" + # list and will have a rule applied to it on the basis of matching the + # rule's "extensions" attribute. Rule sources are direct inputs to + # rules. + # + # Rule definitions may specify additional inputs in their "inputs" + # attribute. These additional inputs are used for dependency tracking + # purposes. + # + # A "concrete output" is a rule output with input-dependent variables + # resolved. For example, given a rule with: + # 'extension': 'ext', 'outputs': ['$(INPUT_FILE_BASE).cc'], + # if the target's "sources" list contained "one.ext" and "two.ext", + # the "concrete output" for rule input "two.ext" would be "two.cc". If + # a rule specifies multiple outputs, each input file that the rule is + # applied to will have the same number of concrete outputs. + # + # If any concrete outputs are outdated or missing relative to their + # corresponding rule_source or to any specified additional input, the + # rule action must be performed to generate the concrete outputs. + + # concrete_outputs_by_rule_source will have an item at the same index + # as the rule['rule_sources'] that it corresponds to. Each item is a + # list of all of the concrete outputs for the rule_source. + concrete_outputs_by_rule_source = [] + + # concrete_outputs_all is a flat list of all concrete outputs that this + # rule is able to produce, given the known set of input files + # (rule_sources) that apply to it. + concrete_outputs_all = [] + + # messages & actions are keyed by the same indices as rule['rule_sources'] + # and concrete_outputs_by_rule_source. They contain the message and + # action to perform after resolving input-dependent variables. The + # message is optional, in which case None is stored for each rule source. + messages = [] + actions = [] + + for rule_source in rule.get('rule_sources', []): + rule_source_dirname, rule_source_basename = \ + posixpath.split(rule_source) + (rule_source_root, rule_source_ext) = \ + posixpath.splitext(rule_source_basename) + + # These are the same variable names that Xcode uses for its own native + # rule support. Because Xcode's rule engine is not being used, they + # need to be expanded as they are written to the makefile. + rule_input_dict = { + 'INPUT_FILE_BASE': rule_source_root, + 'INPUT_FILE_SUFFIX': rule_source_ext, + 'INPUT_FILE_NAME': rule_source_basename, + 'INPUT_FILE_PATH': rule_source, + 'INPUT_FILE_DIRNAME': rule_source_dirname, + } + + concrete_outputs_for_this_rule_source = [] + for output in rule.get('outputs', []): + # Fortunately, Xcode and make both use $(VAR) format for their + # variables, so the expansion is the only transformation necessary. + # Any remaning $(VAR)-type variables in the string can be given + # directly to make, which will pick up the correct settings from + # what Xcode puts into the environment. + concrete_output = ExpandXcodeVariables(output, rule_input_dict) + concrete_outputs_for_this_rule_source.append(concrete_output) + + # Add all concrete outputs to the project. + pbxp.AddOrGetFileInRootGroup(concrete_output) + + concrete_outputs_by_rule_source.append( \ + concrete_outputs_for_this_rule_source) + concrete_outputs_all.extend(concrete_outputs_for_this_rule_source) + + # TODO(mark): Should verify that at most one of these is specified. + if int(rule.get('process_outputs_as_sources', False)): + for output in concrete_outputs_for_this_rule_source: + AddSourceToTarget(output, type, pbxp, xct) + + # If the file came from the mac_bundle_resources list or if the rule + # is marked to process outputs as bundle resource, do so. + was_mac_bundle_resource = rule_source in tgt_mac_bundle_resources + if was_mac_bundle_resource or \ + int(rule.get('process_outputs_as_mac_bundle_resources', False)): + for output in concrete_outputs_for_this_rule_source: + AddResourceToTarget(output, pbxp, xct) + + # Do we have a message to print when this rule runs? + message = rule.get('message') + if message: + message = gyp.common.EncodePOSIXShellArgument(message) + message = ExpandXcodeVariables(message, rule_input_dict) + messages.append(message) + + # Turn the list into a string that can be passed to a shell. + action_string = gyp.common.EncodePOSIXShellList(rule['action']) + + action = ExpandXcodeVariables(action_string, rule_input_dict) + actions.append(action) + + if len(concrete_outputs_all) > 0: + # TODO(mark): There's a possibilty for collision here. Consider + # target "t" rule "A_r" and target "t_A" rule "r". + makefile_name = '%s.make' % re.sub( + '[^a-zA-Z0-9_]', '_' , '%s_%s' % (target_name, rule['rule_name'])) + makefile_path = os.path.join(xcode_projects[build_file].path, + makefile_name) + # TODO(mark): try/close? Write to a temporary file and swap it only + # if it's got changes? + makefile = open(makefile_path, 'wb') + + # make will build the first target in the makefile by default. By + # convention, it's called "all". List all (or at least one) + # concrete output for each rule source as a prerequisite of the "all" + # target. + makefile.write('all: \\\n') + for concrete_output_index in \ + xrange(0, len(concrete_outputs_by_rule_source)): + # Only list the first (index [0]) concrete output of each input + # in the "all" target. Otherwise, a parallel make (-j > 1) would + # attempt to process each input multiple times simultaneously. + # Otherwise, "all" could just contain the entire list of + # concrete_outputs_all. + concrete_output = \ + concrete_outputs_by_rule_source[concrete_output_index][0] + if concrete_output_index == len(concrete_outputs_by_rule_source) - 1: + eol = '' + else: + eol = ' \\' + makefile.write(' %s%s\n' % (concrete_output, eol)) + + for (rule_source, concrete_outputs, message, action) in \ + zip(rule['rule_sources'], concrete_outputs_by_rule_source, + messages, actions): + makefile.write('\n') + + # Add a rule that declares it can build each concrete output of a + # rule source. Collect the names of the directories that are + # required. + concrete_output_dirs = [] + for concrete_output_index in xrange(0, len(concrete_outputs)): + concrete_output = concrete_outputs[concrete_output_index] + if concrete_output_index == 0: + bol = '' + else: + bol = ' ' + makefile.write('%s%s \\\n' % (bol, concrete_output)) + + concrete_output_dir = posixpath.dirname(concrete_output) + if (concrete_output_dir and + concrete_output_dir not in concrete_output_dirs): + concrete_output_dirs.append(concrete_output_dir) + + makefile.write(' : \\\n') + + # The prerequisites for this rule are the rule source itself and + # the set of additional rule inputs, if any. + prerequisites = [rule_source] + prerequisites.extend(rule.get('inputs', [])) + for prerequisite_index in xrange(0, len(prerequisites)): + prerequisite = prerequisites[prerequisite_index] + if prerequisite_index == len(prerequisites) - 1: + eol = '' + else: + eol = ' \\' + makefile.write(' %s%s\n' % (prerequisite, eol)) + + # Make sure that output directories exist before executing the rule + # action. + if len(concrete_output_dirs) > 0: + makefile.write('\t@mkdir -p "%s"\n' % + '" "'.join(concrete_output_dirs)) + + # The rule message and action have already had the necessary variable + # substitutions performed. + if message: + # Mark it with note: so Xcode picks it up in build output. + makefile.write('\t@echo note: %s\n' % message) + makefile.write('\t%s\n' % action) + + makefile.close() + + # It might be nice to ensure that needed output directories exist + # here rather than in each target in the Makefile, but that wouldn't + # work if there ever was a concrete output that had an input-dependent + # variable anywhere other than in the leaf position. + + # Don't declare any inputPaths or outputPaths. If they're present, + # Xcode will provide a slight optimization by only running the script + # phase if any output is missing or outdated relative to any input. + # Unfortunately, it will also assume that all outputs are touched by + # the script, and if the outputs serve as files in a compilation + # phase, they will be unconditionally rebuilt. Since make might not + # rebuild everything that could be declared here as an output, this + # extra compilation activity is unnecessary. With inputPaths and + # outputPaths not supplied, make will always be called, but it knows + # enough to not do anything when everything is up-to-date. + + # To help speed things up, pass -j COUNT to make so it does some work + # in parallel. Don't use ncpus because Xcode will build ncpus targets + # in parallel and if each target happens to have a rules step, there + # would be ncpus^2 things going. With a machine that has 2 quad-core + # Xeons, a build can quickly run out of processes based on + # scheduling/other tasks, and randomly failing builds are no good. + script = \ +"""JOB_COUNT="$(/usr/sbin/sysctl -n hw.ncpu)" +if [ "${JOB_COUNT}" -gt 4 ]; then + JOB_COUNT=4 +fi +exec xcrun make -f "${PROJECT_FILE_PATH}/%s" -j "${JOB_COUNT}" +exit 1 +""" % makefile_name + ssbp = gyp.xcodeproj_file.PBXShellScriptBuildPhase({ + 'name': 'Rule "' + rule['rule_name'] + '"', + 'shellScript': script, + 'showEnvVarsInLog': 0, + }) + + if support_xct: + support_xct.AppendProperty('buildPhases', ssbp) + else: + # TODO(mark): this assumes too much knowledge of the internals of + # xcodeproj_file; some of these smarts should move into xcodeproj_file + # itself. + xct._properties['buildPhases'].insert(prebuild_index, ssbp) + prebuild_index = prebuild_index + 1 + + # Extra rule inputs also go into the project file. Concrete outputs were + # already added when they were computed. + groups = ['inputs', 'inputs_excluded'] + if skip_excluded_files: + groups = [x for x in groups if not x.endswith('_excluded')] + for group in groups: + for item in rule.get(group, []): + pbxp.AddOrGetFileInRootGroup(item) + + # Add "sources". + for source in spec.get('sources', []): + (source_root, source_extension) = posixpath.splitext(source) + if source_extension[1:] not in rules_by_ext: + # AddSourceToTarget will add the file to a root group if it's not + # already there. + AddSourceToTarget(source, type, pbxp, xct) + else: + pbxp.AddOrGetFileInRootGroup(source) + + # Add "mac_bundle_resources" and "mac_framework_private_headers" if + # it's a bundle of any type. + if is_bundle: + for resource in tgt_mac_bundle_resources: + (resource_root, resource_extension) = posixpath.splitext(resource) + if resource_extension[1:] not in rules_by_ext: + AddResourceToTarget(resource, pbxp, xct) + else: + pbxp.AddOrGetFileInRootGroup(resource) + + for header in spec.get('mac_framework_private_headers', []): + AddHeaderToTarget(header, pbxp, xct, False) + + # Add "mac_framework_headers". These can be valid for both frameworks + # and static libraries. + if is_bundle or type == 'static_library': + for header in spec.get('mac_framework_headers', []): + AddHeaderToTarget(header, pbxp, xct, True) + + # Add "copies". + pbxcp_dict = {} + for copy_group in spec.get('copies', []): + dest = copy_group['destination'] + if dest[0] not in ('/', '$'): + # Relative paths are relative to $(SRCROOT). + dest = '$(SRCROOT)/' + dest + + # Coalesce multiple "copies" sections in the same target with the same + # "destination" property into the same PBXCopyFilesBuildPhase, otherwise + # they'll wind up with ID collisions. + pbxcp = pbxcp_dict.get(dest, None) + if pbxcp is None: + pbxcp = gyp.xcodeproj_file.PBXCopyFilesBuildPhase({ + 'name': 'Copy to ' + copy_group['destination'] + }, + parent=xct) + pbxcp.SetDestination(dest) + + # TODO(mark): The usual comment about this knowing too much about + # gyp.xcodeproj_file internals applies. + xct._properties['buildPhases'].insert(prebuild_index, pbxcp) + + pbxcp_dict[dest] = pbxcp + + for file in copy_group['files']: + pbxcp.AddFile(file) + + # Excluded files can also go into the project file. + if not skip_excluded_files: + for key in ['sources', 'mac_bundle_resources', 'mac_framework_headers', + 'mac_framework_private_headers']: + excluded_key = key + '_excluded' + for item in spec.get(excluded_key, []): + pbxp.AddOrGetFileInRootGroup(item) + + # So can "inputs" and "outputs" sections of "actions" groups. + groups = ['inputs', 'inputs_excluded', 'outputs', 'outputs_excluded'] + if skip_excluded_files: + groups = [x for x in groups if not x.endswith('_excluded')] + for action in spec.get('actions', []): + for group in groups: + for item in action.get(group, []): + # Exclude anything in BUILT_PRODUCTS_DIR. They're products, not + # sources. + if not item.startswith('$(BUILT_PRODUCTS_DIR)/'): + pbxp.AddOrGetFileInRootGroup(item) + + for postbuild in spec.get('postbuilds', []): + action_string_sh = gyp.common.EncodePOSIXShellList(postbuild['action']) + script = 'exec ' + action_string_sh + '\nexit 1\n' + + # Make the postbuild step depend on the output of ld or ar from this + # target. Apparently putting the script step after the link step isn't + # sufficient to ensure proper ordering in all cases. With an input + # declared but no outputs, the script step should run every time, as + # desired. + ssbp = gyp.xcodeproj_file.PBXShellScriptBuildPhase({ + 'inputPaths': ['$(BUILT_PRODUCTS_DIR)/$(EXECUTABLE_PATH)'], + 'name': 'Postbuild "' + postbuild['postbuild_name'] + '"', + 'shellScript': script, + 'showEnvVarsInLog': 0, + }) + xct.AppendProperty('buildPhases', ssbp) + + # Add dependencies before libraries, because adding a dependency may imply + # adding a library. It's preferable to keep dependencies listed first + # during a link phase so that they can override symbols that would + # otherwise be provided by libraries, which will usually include system + # libraries. On some systems, ld is finicky and even requires the + # libraries to be ordered in such a way that unresolved symbols in + # earlier-listed libraries may only be resolved by later-listed libraries. + # The Mac linker doesn't work that way, but other platforms do, and so + # their linker invocations need to be constructed in this way. There's + # no compelling reason for Xcode's linker invocations to differ. + + if 'dependencies' in spec: + for dependency in spec['dependencies']: + xct.AddDependency(xcode_targets[dependency]) + # The support project also gets the dependencies (in case they are + # needed for the actions/rules to work). + if support_xct: + support_xct.AddDependency(xcode_targets[dependency]) + + if 'libraries' in spec: + for library in spec['libraries']: + xct.FrameworksPhase().AddFile(library) + # Add the library's directory to LIBRARY_SEARCH_PATHS if necessary. + # I wish Xcode handled this automatically. + library_dir = posixpath.dirname(library) + if library_dir not in xcode_standard_library_dirs and ( + not xct.HasBuildSetting(_library_search_paths_var) or + library_dir not in xct.GetBuildSetting(_library_search_paths_var)): + xct.AppendBuildSetting(_library_search_paths_var, library_dir) + + for configuration_name in configuration_names: + configuration = spec['configurations'][configuration_name] + xcbc = xct.ConfigurationNamed(configuration_name) + for include_dir in configuration.get('mac_framework_dirs', []): + xcbc.AppendBuildSetting('FRAMEWORK_SEARCH_PATHS', include_dir) + for include_dir in configuration.get('include_dirs', []): + xcbc.AppendBuildSetting('HEADER_SEARCH_PATHS', include_dir) + for library_dir in configuration.get('library_dirs', []): + if library_dir not in xcode_standard_library_dirs and ( + not xcbc.HasBuildSetting(_library_search_paths_var) or + library_dir not in xcbc.GetBuildSetting(_library_search_paths_var)): + xcbc.AppendBuildSetting(_library_search_paths_var, library_dir) + + if 'defines' in configuration: + for define in configuration['defines']: + set_define = EscapeXcodeDefine(define) + xcbc.AppendBuildSetting('GCC_PREPROCESSOR_DEFINITIONS', set_define) + if 'xcode_settings' in configuration: + for xck, xcv in configuration['xcode_settings'].iteritems(): + xcbc.SetBuildSetting(xck, xcv) + if 'xcode_config_file' in configuration: + config_ref = pbxp.AddOrGetFileInRootGroup( + configuration['xcode_config_file']) + xcbc.SetBaseConfiguration(config_ref) + + build_files = [] + for build_file, build_file_dict in data.iteritems(): + if build_file.endswith('.gyp'): + build_files.append(build_file) + + for build_file in build_files: + xcode_projects[build_file].Finalize1(xcode_targets, serialize_all_tests) + + for build_file in build_files: + xcode_projects[build_file].Finalize2(xcode_targets, + xcode_target_to_target_dict) + + for build_file in build_files: + xcode_projects[build_file].Write() diff --git a/deps/gyp/pylib/gyp/generator/xcode_test.py b/deps/gyp/pylib/gyp/generator/xcode_test.py new file mode 100644 index 0000000000..260324a43f --- /dev/null +++ b/deps/gyp/pylib/gyp/generator/xcode_test.py @@ -0,0 +1,23 @@ +#!/usr/bin/env python + +# Copyright (c) 2013 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +""" Unit tests for the xcode.py file. """ + +import gyp.generator.xcode as xcode +import unittest +import sys + + +class TestEscapeXcodeDefine(unittest.TestCase): + if sys.platform == 'darwin': + def test_InheritedRemainsUnescaped(self): + self.assertEqual(xcode.EscapeXcodeDefine('$(inherited)'), '$(inherited)') + + def test_Escaping(self): + self.assertEqual(xcode.EscapeXcodeDefine('a b"c\\'), 'a\\ b\\"c\\\\') + +if __name__ == '__main__': + unittest.main() diff --git a/deps/gyp/pylib/gyp/input.py b/deps/gyp/pylib/gyp/input.py new file mode 100644 index 0000000000..6472912db8 --- /dev/null +++ b/deps/gyp/pylib/gyp/input.py @@ -0,0 +1,2809 @@ +# Copyright (c) 2012 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +from compiler.ast import Const +from compiler.ast import Dict +from compiler.ast import Discard +from compiler.ast import List +from compiler.ast import Module +from compiler.ast import Node +from compiler.ast import Stmt +import compiler +import copy +import gyp.common +import multiprocessing +import optparse +import os.path +import re +import shlex +import signal +import subprocess +import sys +import threading +import time +import traceback +from gyp.common import GypError + + +# A list of types that are treated as linkable. +linkable_types = ['executable', 'shared_library', 'loadable_module'] + +# A list of sections that contain links to other targets. +dependency_sections = ['dependencies', 'export_dependent_settings'] + +# base_path_sections is a list of sections defined by GYP that contain +# pathnames. The generators can provide more keys, the two lists are merged +# into path_sections, but you should call IsPathSection instead of using either +# list directly. +base_path_sections = [ + 'destination', + 'files', + 'include_dirs', + 'inputs', + 'libraries', + 'outputs', + 'sources', +] +path_sections = [] + +is_path_section_charset = set('=+?!') +is_path_section_match_re = re.compile('_(dir|file|path)s?$') + +def IsPathSection(section): + # If section ends in one of these characters, it's applied to a section + # without the trailing characters. '/' is notably absent from this list, + # because there's no way for a regular expression to be treated as a path. + while section[-1:] in is_path_section_charset: + section = section[:-1] + return section in path_sections or is_path_section_match_re.search(section) + +# base_non_configuration_keys is a list of key names that belong in the target +# itself and should not be propagated into its configurations. It is merged +# with a list that can come from the generator to +# create non_configuration_keys. +base_non_configuration_keys = [ + # Sections that must exist inside targets and not configurations. + 'actions', + 'configurations', + 'copies', + 'default_configuration', + 'dependencies', + 'dependencies_original', + 'libraries', + 'postbuilds', + 'product_dir', + 'product_extension', + 'product_name', + 'product_prefix', + 'rules', + 'run_as', + 'sources', + 'standalone_static_library', + 'suppress_wildcard', + 'target_name', + 'toolset', + 'toolsets', + 'type', + + # Sections that can be found inside targets or configurations, but that + # should not be propagated from targets into their configurations. + 'variables', +] +non_configuration_keys = [] + +# Keys that do not belong inside a configuration dictionary. +invalid_configuration_keys = [ + 'actions', + 'all_dependent_settings', + 'configurations', + 'dependencies', + 'direct_dependent_settings', + 'libraries', + 'link_settings', + 'sources', + 'standalone_static_library', + 'target_name', + 'type', +] + +# Controls whether or not the generator supports multiple toolsets. +multiple_toolsets = False + +# Paths for converting filelist paths to output paths: { +# toplevel, +# qualified_output_dir, +# } +generator_filelist_paths = None + +def GetIncludedBuildFiles(build_file_path, aux_data, included=None): + """Return a list of all build files included into build_file_path. + + The returned list will contain build_file_path as well as all other files + that it included, either directly or indirectly. Note that the list may + contain files that were included into a conditional section that evaluated + to false and was not merged into build_file_path's dict. + + aux_data is a dict containing a key for each build file or included build + file. Those keys provide access to dicts whose "included" keys contain + lists of all other files included by the build file. + + included should be left at its default None value by external callers. It + is used for recursion. + + The returned list will not contain any duplicate entries. Each build file + in the list will be relative to the current directory. + """ + + if included == None: + included = [] + + if build_file_path in included: + return included + + included.append(build_file_path) + + for included_build_file in aux_data[build_file_path].get('included', []): + GetIncludedBuildFiles(included_build_file, aux_data, included) + + return included + + +def CheckedEval(file_contents): + """Return the eval of a gyp file. + + The gyp file is restricted to dictionaries and lists only, and + repeated keys are not allowed. + + Note that this is slower than eval() is. + """ + + ast = compiler.parse(file_contents) + assert isinstance(ast, Module) + c1 = ast.getChildren() + assert c1[0] is None + assert isinstance(c1[1], Stmt) + c2 = c1[1].getChildren() + assert isinstance(c2[0], Discard) + c3 = c2[0].getChildren() + assert len(c3) == 1 + return CheckNode(c3[0], []) + + +def CheckNode(node, keypath): + if isinstance(node, Dict): + c = node.getChildren() + dict = {} + for n in range(0, len(c), 2): + assert isinstance(c[n], Const) + key = c[n].getChildren()[0] + if key in dict: + raise GypError("Key '" + key + "' repeated at level " + + repr(len(keypath) + 1) + " with key path '" + + '.'.join(keypath) + "'") + kp = list(keypath) # Make a copy of the list for descending this node. + kp.append(key) + dict[key] = CheckNode(c[n + 1], kp) + return dict + elif isinstance(node, List): + c = node.getChildren() + children = [] + for index, child in enumerate(c): + kp = list(keypath) # Copy list. + kp.append(repr(index)) + children.append(CheckNode(child, kp)) + return children + elif isinstance(node, Const): + return node.getChildren()[0] + else: + raise TypeError, "Unknown AST node at key path '" + '.'.join(keypath) + \ + "': " + repr(node) + + +def LoadOneBuildFile(build_file_path, data, aux_data, variables, includes, + is_target, check): + if build_file_path in data: + return data[build_file_path] + + if os.path.exists(build_file_path): + build_file_contents = open(build_file_path).read() + else: + raise GypError("%s not found (cwd: %s)" % (build_file_path, os.getcwd())) + + build_file_data = None + try: + if check: + build_file_data = CheckedEval(build_file_contents) + else: + build_file_data = eval(build_file_contents, {'__builtins__': None}, + None) + except SyntaxError, e: + e.filename = build_file_path + raise + except Exception, e: + gyp.common.ExceptionAppend(e, 'while reading ' + build_file_path) + raise + + if not isinstance(build_file_data, dict): + raise GypError("%s does not evaluate to a dictionary." % build_file_path) + + data[build_file_path] = build_file_data + aux_data[build_file_path] = {} + + # Scan for includes and merge them in. + if ('skip_includes' not in build_file_data or + not build_file_data['skip_includes']): + try: + if is_target: + LoadBuildFileIncludesIntoDict(build_file_data, build_file_path, data, + aux_data, variables, includes, check) + else: + LoadBuildFileIncludesIntoDict(build_file_data, build_file_path, data, + aux_data, variables, None, check) + except Exception, e: + gyp.common.ExceptionAppend(e, + 'while reading includes of ' + build_file_path) + raise + + return build_file_data + + +def LoadBuildFileIncludesIntoDict(subdict, subdict_path, data, aux_data, + variables, includes, check): + includes_list = [] + if includes != None: + includes_list.extend(includes) + if 'includes' in subdict: + for include in subdict['includes']: + # "include" is specified relative to subdict_path, so compute the real + # path to include by appending the provided "include" to the directory + # in which subdict_path resides. + relative_include = \ + os.path.normpath(os.path.join(os.path.dirname(subdict_path), include)) + includes_list.append(relative_include) + # Unhook the includes list, it's no longer needed. + del subdict['includes'] + + # Merge in the included files. + for include in includes_list: + if not 'included' in aux_data[subdict_path]: + aux_data[subdict_path]['included'] = [] + aux_data[subdict_path]['included'].append(include) + + gyp.DebugOutput(gyp.DEBUG_INCLUDES, "Loading Included File: '%s'", include) + + MergeDicts(subdict, + LoadOneBuildFile(include, data, aux_data, variables, None, + False, check), + subdict_path, include) + + # Recurse into subdictionaries. + for k, v in subdict.iteritems(): + if v.__class__ == dict: + LoadBuildFileIncludesIntoDict(v, subdict_path, data, aux_data, variables, + None, check) + elif v.__class__ == list: + LoadBuildFileIncludesIntoList(v, subdict_path, data, aux_data, variables, + check) + + +# This recurses into lists so that it can look for dicts. +def LoadBuildFileIncludesIntoList(sublist, sublist_path, data, aux_data, + variables, check): + for item in sublist: + if item.__class__ == dict: + LoadBuildFileIncludesIntoDict(item, sublist_path, data, aux_data, + variables, None, check) + elif item.__class__ == list: + LoadBuildFileIncludesIntoList(item, sublist_path, data, aux_data, + variables, check) + +# Processes toolsets in all the targets. This recurses into condition entries +# since they can contain toolsets as well. +def ProcessToolsetsInDict(data): + if 'targets' in data: + target_list = data['targets'] + new_target_list = [] + for target in target_list: + # If this target already has an explicit 'toolset', and no 'toolsets' + # list, don't modify it further. + if 'toolset' in target and 'toolsets' not in target: + new_target_list.append(target) + continue + if multiple_toolsets: + toolsets = target.get('toolsets', ['target']) + else: + toolsets = ['target'] + # Make sure this 'toolsets' definition is only processed once. + if 'toolsets' in target: + del target['toolsets'] + if len(toolsets) > 0: + # Optimization: only do copies if more than one toolset is specified. + for build in toolsets[1:]: + new_target = copy.deepcopy(target) + new_target['toolset'] = build + new_target_list.append(new_target) + target['toolset'] = toolsets[0] + new_target_list.append(target) + data['targets'] = new_target_list + if 'conditions' in data: + for condition in data['conditions']: + if isinstance(condition, list): + for condition_dict in condition[1:]: + ProcessToolsetsInDict(condition_dict) + + +# TODO(mark): I don't love this name. It just means that it's going to load +# a build file that contains targets and is expected to provide a targets dict +# that contains the targets... +def LoadTargetBuildFile(build_file_path, data, aux_data, variables, includes, + depth, check, load_dependencies): + # If depth is set, predefine the DEPTH variable to be a relative path from + # this build file's directory to the directory identified by depth. + if depth: + # TODO(dglazkov) The backslash/forward-slash replacement at the end is a + # temporary measure. This should really be addressed by keeping all paths + # in POSIX until actual project generation. + d = gyp.common.RelativePath(depth, os.path.dirname(build_file_path)) + if d == '': + variables['DEPTH'] = '.' + else: + variables['DEPTH'] = d.replace('\\', '/') + + if build_file_path in data['target_build_files']: + # Already loaded. + return False + data['target_build_files'].add(build_file_path) + + gyp.DebugOutput(gyp.DEBUG_INCLUDES, + "Loading Target Build File '%s'", build_file_path) + + build_file_data = LoadOneBuildFile(build_file_path, data, aux_data, variables, + includes, True, check) + + # Store DEPTH for later use in generators. + build_file_data['_DEPTH'] = depth + + # Set up the included_files key indicating which .gyp files contributed to + # this target dict. + if 'included_files' in build_file_data: + raise GypError(build_file_path + ' must not contain included_files key') + + included = GetIncludedBuildFiles(build_file_path, aux_data) + build_file_data['included_files'] = [] + for included_file in included: + # included_file is relative to the current directory, but it needs to + # be made relative to build_file_path's directory. + included_relative = \ + gyp.common.RelativePath(included_file, + os.path.dirname(build_file_path)) + build_file_data['included_files'].append(included_relative) + + # Do a first round of toolsets expansion so that conditions can be defined + # per toolset. + ProcessToolsetsInDict(build_file_data) + + # Apply "pre"/"early" variable expansions and condition evaluations. + ProcessVariablesAndConditionsInDict( + build_file_data, PHASE_EARLY, variables, build_file_path) + + # Since some toolsets might have been defined conditionally, perform + # a second round of toolsets expansion now. + ProcessToolsetsInDict(build_file_data) + + # Look at each project's target_defaults dict, and merge settings into + # targets. + if 'target_defaults' in build_file_data: + if 'targets' not in build_file_data: + raise GypError("Unable to find targets in build file %s" % + build_file_path) + + index = 0 + while index < len(build_file_data['targets']): + # This procedure needs to give the impression that target_defaults is + # used as defaults, and the individual targets inherit from that. + # The individual targets need to be merged into the defaults. Make + # a deep copy of the defaults for each target, merge the target dict + # as found in the input file into that copy, and then hook up the + # copy with the target-specific data merged into it as the replacement + # target dict. + old_target_dict = build_file_data['targets'][index] + new_target_dict = copy.deepcopy(build_file_data['target_defaults']) + MergeDicts(new_target_dict, old_target_dict, + build_file_path, build_file_path) + build_file_data['targets'][index] = new_target_dict + index += 1 + + # No longer needed. + del build_file_data['target_defaults'] + + # Look for dependencies. This means that dependency resolution occurs + # after "pre" conditionals and variable expansion, but before "post" - + # in other words, you can't put a "dependencies" section inside a "post" + # conditional within a target. + + dependencies = [] + if 'targets' in build_file_data: + for target_dict in build_file_data['targets']: + if 'dependencies' not in target_dict: + continue + for dependency in target_dict['dependencies']: + dependencies.append( + gyp.common.ResolveTarget(build_file_path, dependency, None)[0]) + + if load_dependencies: + for dependency in dependencies: + try: + LoadTargetBuildFile(dependency, data, aux_data, variables, + includes, depth, check, load_dependencies) + except Exception, e: + gyp.common.ExceptionAppend( + e, 'while loading dependencies of %s' % build_file_path) + raise + else: + return (build_file_path, dependencies) + + +def CallLoadTargetBuildFile(global_flags, + build_file_path, data, + aux_data, variables, + includes, depth, check, + generator_input_info): + """Wrapper around LoadTargetBuildFile for parallel processing. + + This wrapper is used when LoadTargetBuildFile is executed in + a worker process. + """ + + try: + signal.signal(signal.SIGINT, signal.SIG_IGN) + + # Apply globals so that the worker process behaves the same. + for key, value in global_flags.iteritems(): + globals()[key] = value + + # Save the keys so we can return data that changed. + data_keys = set(data) + aux_data_keys = set(aux_data) + + SetGeneratorGlobals(generator_input_info) + result = LoadTargetBuildFile(build_file_path, data, + aux_data, variables, + includes, depth, check, False) + if not result: + return result + + (build_file_path, dependencies) = result + + data_out = {} + for key in data: + if key == 'target_build_files': + continue + if key not in data_keys: + data_out[key] = data[key] + aux_data_out = {} + for key in aux_data: + if key not in aux_data_keys: + aux_data_out[key] = aux_data[key] + + # This gets serialized and sent back to the main process via a pipe. + # It's handled in LoadTargetBuildFileCallback. + return (build_file_path, + data_out, + aux_data_out, + dependencies) + except GypError, e: + sys.stderr.write("gyp: %s\n" % e) + return None + except Exception, e: + print >>sys.stderr, 'Exception:', e + print >>sys.stderr, traceback.format_exc() + return None + + +class ParallelProcessingError(Exception): + pass + + +class ParallelState(object): + """Class to keep track of state when processing input files in parallel. + + If build files are loaded in parallel, use this to keep track of + state during farming out and processing parallel jobs. It's stored + in a global so that the callback function can have access to it. + """ + + def __init__(self): + # The multiprocessing pool. + self.pool = None + # The condition variable used to protect this object and notify + # the main loop when there might be more data to process. + self.condition = None + # The "data" dict that was passed to LoadTargetBuildFileParallel + self.data = None + # The "aux_data" dict that was passed to LoadTargetBuildFileParallel + self.aux_data = None + # The number of parallel calls outstanding; decremented when a response + # was received. + self.pending = 0 + # The set of all build files that have been scheduled, so we don't + # schedule the same one twice. + self.scheduled = set() + # A list of dependency build file paths that haven't been scheduled yet. + self.dependencies = [] + # Flag to indicate if there was an error in a child process. + self.error = False + + def LoadTargetBuildFileCallback(self, result): + """Handle the results of running LoadTargetBuildFile in another process. + """ + self.condition.acquire() + if not result: + self.error = True + self.condition.notify() + self.condition.release() + return + (build_file_path0, data0, aux_data0, dependencies0) = result + self.data['target_build_files'].add(build_file_path0) + for key in data0: + self.data[key] = data0[key] + for key in aux_data0: + self.aux_data[key] = aux_data0[key] + for new_dependency in dependencies0: + if new_dependency not in self.scheduled: + self.scheduled.add(new_dependency) + self.dependencies.append(new_dependency) + self.pending -= 1 + self.condition.notify() + self.condition.release() + + +def LoadTargetBuildFilesParallel(build_files, data, aux_data, + variables, includes, depth, check, + generator_input_info): + parallel_state = ParallelState() + parallel_state.condition = threading.Condition() + # Make copies of the build_files argument that we can modify while working. + parallel_state.dependencies = list(build_files) + parallel_state.scheduled = set(build_files) + parallel_state.pending = 0 + parallel_state.data = data + parallel_state.aux_data = aux_data + + try: + parallel_state.condition.acquire() + while parallel_state.dependencies or parallel_state.pending: + if parallel_state.error: + break + if not parallel_state.dependencies: + parallel_state.condition.wait() + continue + + dependency = parallel_state.dependencies.pop() + + parallel_state.pending += 1 + data_in = {} + data_in['target_build_files'] = data['target_build_files'] + aux_data_in = {} + global_flags = { + 'path_sections': globals()['path_sections'], + 'non_configuration_keys': globals()['non_configuration_keys'], + 'multiple_toolsets': globals()['multiple_toolsets']} + + if not parallel_state.pool: + parallel_state.pool = multiprocessing.Pool(8) + parallel_state.pool.apply_async( + CallLoadTargetBuildFile, + args = (global_flags, dependency, + data_in, aux_data_in, + variables, includes, depth, check, generator_input_info), + callback = parallel_state.LoadTargetBuildFileCallback) + except KeyboardInterrupt, e: + parallel_state.pool.terminate() + raise e + + parallel_state.condition.release() + + parallel_state.pool.close() + parallel_state.pool.join() + parallel_state.pool = None + + if parallel_state.error: + sys.exit(1) + +# Look for the bracket that matches the first bracket seen in a +# string, and return the start and end as a tuple. For example, if +# the input is something like "<(foo <(bar)) blah", then it would +# return (1, 13), indicating the entire string except for the leading +# "<" and trailing " blah". +LBRACKETS= set('{[(') +BRACKETS = {'}': '{', ']': '[', ')': '('} +def FindEnclosingBracketGroup(input_str): + stack = [] + start = -1 + for index, char in enumerate(input_str): + if char in LBRACKETS: + stack.append(char) + if start == -1: + start = index + elif char in BRACKETS: + if not stack: + return (-1, -1) + if stack.pop() != BRACKETS[char]: + return (-1, -1) + if not stack: + return (start, index + 1) + return (-1, -1) + + +canonical_int_re = re.compile('(0|-?[1-9][0-9]*)$') + + +def IsStrCanonicalInt(string): + """Returns True if |string| is in its canonical integer form. + + The canonical form is such that str(int(string)) == string. + """ + return isinstance(string, str) and canonical_int_re.match(string) + + +# This matches things like "<(asdf)", "<!(cmd)", "<!@(cmd)", "<|(list)", +# "<!interpreter(arguments)", "<([list])", and even "<([)" and "<(<())". +# In the last case, the inner "<()" is captured in match['content']. +early_variable_re = re.compile( + '(?P<replace>(?P<type><(?:(?:!?@?)|\|)?)' + '(?P<command_string>[-a-zA-Z0-9_.]+)?' + '\((?P<is_array>\s*\[?)' + '(?P<content>.*?)(\]?)\))') + +# This matches the same as early_variable_re, but with '>' instead of '<'. +late_variable_re = re.compile( + '(?P<replace>(?P<type>>(?:(?:!?@?)|\|)?)' + '(?P<command_string>[-a-zA-Z0-9_.]+)?' + '\((?P<is_array>\s*\[?)' + '(?P<content>.*?)(\]?)\))') + +# This matches the same as early_variable_re, but with '^' instead of '<'. +latelate_variable_re = re.compile( + '(?P<replace>(?P<type>[\^](?:(?:!?@?)|\|)?)' + '(?P<command_string>[-a-zA-Z0-9_.]+)?' + '\((?P<is_array>\s*\[?)' + '(?P<content>.*?)(\]?)\))') + +# Global cache of results from running commands so they don't have to be run +# more then once. +cached_command_results = {} + + +def FixupPlatformCommand(cmd): + if sys.platform == 'win32': + if type(cmd) == list: + cmd = [re.sub('^cat ', 'type ', cmd[0])] + cmd[1:] + else: + cmd = re.sub('^cat ', 'type ', cmd) + return cmd + + +PHASE_EARLY = 0 +PHASE_LATE = 1 +PHASE_LATELATE = 2 + + +def ExpandVariables(input, phase, variables, build_file): + # Look for the pattern that gets expanded into variables + if phase == PHASE_EARLY: + variable_re = early_variable_re + expansion_symbol = '<' + elif phase == PHASE_LATE: + variable_re = late_variable_re + expansion_symbol = '>' + elif phase == PHASE_LATELATE: + variable_re = latelate_variable_re + expansion_symbol = '^' + else: + assert False + + input_str = str(input) + if IsStrCanonicalInt(input_str): + return int(input_str) + + # Do a quick scan to determine if an expensive regex search is warranted. + if expansion_symbol not in input_str: + return input_str + + # Get the entire list of matches as a list of MatchObject instances. + # (using findall here would return strings instead of MatchObjects). + matches = list(variable_re.finditer(input_str)) + if not matches: + return input_str + + output = input_str + # Reverse the list of matches so that replacements are done right-to-left. + # That ensures that earlier replacements won't mess up the string in a + # way that causes later calls to find the earlier substituted text instead + # of what's intended for replacement. + matches.reverse() + for match_group in matches: + match = match_group.groupdict() + gyp.DebugOutput(gyp.DEBUG_VARIABLES, "Matches: %r", match) + # match['replace'] is the substring to look for, match['type'] + # is the character code for the replacement type (< > <! >! <| >| <@ + # >@ <!@ >!@), match['is_array'] contains a '[' for command + # arrays, and match['content'] is the name of the variable (< >) + # or command to run (<! >!). match['command_string'] is an optional + # command string. Currently, only 'pymod_do_main' is supported. + + # run_command is true if a ! variant is used. + run_command = '!' in match['type'] + command_string = match['command_string'] + + # file_list is true if a | variant is used. + file_list = '|' in match['type'] + + # Capture these now so we can adjust them later. + replace_start = match_group.start('replace') + replace_end = match_group.end('replace') + + # Find the ending paren, and re-evaluate the contained string. + (c_start, c_end) = FindEnclosingBracketGroup(input_str[replace_start:]) + + # Adjust the replacement range to match the entire command + # found by FindEnclosingBracketGroup (since the variable_re + # probably doesn't match the entire command if it contained + # nested variables). + replace_end = replace_start + c_end + + # Find the "real" replacement, matching the appropriate closing + # paren, and adjust the replacement start and end. + replacement = input_str[replace_start:replace_end] + + # Figure out what the contents of the variable parens are. + contents_start = replace_start + c_start + 1 + contents_end = replace_end - 1 + contents = input_str[contents_start:contents_end] + + # Do filter substitution now for <|(). + # Admittedly, this is different than the evaluation order in other + # contexts. However, since filtration has no chance to run on <|(), + # this seems like the only obvious way to give them access to filters. + if file_list: + processed_variables = copy.deepcopy(variables) + ProcessListFiltersInDict(contents, processed_variables) + # Recurse to expand variables in the contents + contents = ExpandVariables(contents, phase, + processed_variables, build_file) + else: + # Recurse to expand variables in the contents + contents = ExpandVariables(contents, phase, variables, build_file) + + # Strip off leading/trailing whitespace so that variable matches are + # simpler below (and because they are rarely needed). + contents = contents.strip() + + # expand_to_list is true if an @ variant is used. In that case, + # the expansion should result in a list. Note that the caller + # is to be expecting a list in return, and not all callers do + # because not all are working in list context. Also, for list + # expansions, there can be no other text besides the variable + # expansion in the input string. + expand_to_list = '@' in match['type'] and input_str == replacement + + if run_command or file_list: + # Find the build file's directory, so commands can be run or file lists + # generated relative to it. + build_file_dir = os.path.dirname(build_file) + if build_file_dir == '' and not file_list: + # If build_file is just a leaf filename indicating a file in the + # current directory, build_file_dir might be an empty string. Set + # it to None to signal to subprocess.Popen that it should run the + # command in the current directory. + build_file_dir = None + + # Support <|(listfile.txt ...) which generates a file + # containing items from a gyp list, generated at gyp time. + # This works around actions/rules which have more inputs than will + # fit on the command line. + if file_list: + if type(contents) == list: + contents_list = contents + else: + contents_list = contents.split(' ') + replacement = contents_list[0] + if os.path.isabs(replacement): + raise GypError('| cannot handle absolute paths, got "%s"' % replacement) + + if not generator_filelist_paths: + path = os.path.join(build_file_dir, replacement) + else: + if os.path.isabs(build_file_dir): + toplevel = generator_filelist_paths['toplevel'] + rel_build_file_dir = gyp.common.RelativePath(build_file_dir, toplevel) + else: + rel_build_file_dir = build_file_dir + qualified_out_dir = generator_filelist_paths['qualified_out_dir'] + path = os.path.join(qualified_out_dir, rel_build_file_dir, replacement) + gyp.common.EnsureDirExists(path) + + replacement = gyp.common.RelativePath(path, build_file_dir) + f = gyp.common.WriteOnDiff(path) + for i in contents_list[1:]: + f.write('%s\n' % i) + f.close() + + elif run_command: + use_shell = True + if match['is_array']: + contents = eval(contents) + use_shell = False + + # Check for a cached value to avoid executing commands, or generating + # file lists more than once. + # TODO(http://code.google.com/p/gyp/issues/detail?id=112): It is + # possible that the command being invoked depends on the current + # directory. For that case the syntax needs to be extended so that the + # directory is also used in cache_key (it becomes a tuple). + # TODO(http://code.google.com/p/gyp/issues/detail?id=111): In theory, + # someone could author a set of GYP files where each time the command + # is invoked it produces different output by design. When the need + # arises, the syntax should be extended to support no caching off a + # command's output so it is run every time. + cache_key = str(contents) + cached_value = cached_command_results.get(cache_key, None) + if cached_value is None: + gyp.DebugOutput(gyp.DEBUG_VARIABLES, + "Executing command '%s' in directory '%s'", + contents, build_file_dir) + + replacement = '' + + if command_string == 'pymod_do_main': + # <!pymod_do_main(modulename param eters) loads |modulename| as a + # python module and then calls that module's DoMain() function, + # passing ["param", "eters"] as a single list argument. For modules + # that don't load quickly, this can be faster than + # <!(python modulename param eters). Do this in |build_file_dir|. + oldwd = os.getcwd() # Python doesn't like os.open('.'): no fchdir. + if build_file_dir: # build_file_dir may be None (see above). + os.chdir(build_file_dir) + try: + + parsed_contents = shlex.split(contents) + try: + py_module = __import__(parsed_contents[0]) + except ImportError as e: + raise GypError("Error importing pymod_do_main" + "module (%s): %s" % (parsed_contents[0], e)) + replacement = str(py_module.DoMain(parsed_contents[1:])).rstrip() + finally: + os.chdir(oldwd) + assert replacement != None + elif command_string: + raise GypError("Unknown command string '%s' in '%s'." % + (command_string, contents)) + else: + # Fix up command with platform specific workarounds. + contents = FixupPlatformCommand(contents) + p = subprocess.Popen(contents, shell=use_shell, + stdout=subprocess.PIPE, + stderr=subprocess.PIPE, + stdin=subprocess.PIPE, + cwd=build_file_dir) + + p_stdout, p_stderr = p.communicate('') + + if p.wait() != 0 or p_stderr: + sys.stderr.write(p_stderr) + # Simulate check_call behavior, since check_call only exists + # in python 2.5 and later. + raise GypError("Call to '%s' returned exit status %d." % + (contents, p.returncode)) + replacement = p_stdout.rstrip() + + cached_command_results[cache_key] = replacement + else: + gyp.DebugOutput(gyp.DEBUG_VARIABLES, + "Had cache value for command '%s' in directory '%s'", + contents,build_file_dir) + replacement = cached_value + + else: + if not contents in variables: + if contents[-1] in ['!', '/']: + # In order to allow cross-compiles (nacl) to happen more naturally, + # we will allow references to >(sources/) etc. to resolve to + # and empty list if undefined. This allows actions to: + # 'action!': [ + # '>@(_sources!)', + # ], + # 'action/': [ + # '>@(_sources/)', + # ], + replacement = [] + else: + raise GypError('Undefined variable ' + contents + + ' in ' + build_file) + else: + replacement = variables[contents] + + if isinstance(replacement, list): + for item in replacement: + if (not contents[-1] == '/' and + not isinstance(item, str) and not isinstance(item, int)): + raise GypError('Variable ' + contents + + ' must expand to a string or list of strings; ' + + 'list contains a ' + + item.__class__.__name__) + # Run through the list and handle variable expansions in it. Since + # the list is guaranteed not to contain dicts, this won't do anything + # with conditions sections. + ProcessVariablesAndConditionsInList(replacement, phase, variables, + build_file) + elif not isinstance(replacement, str) and \ + not isinstance(replacement, int): + raise GypError('Variable ' + contents + + ' must expand to a string or list of strings; ' + + 'found a ' + replacement.__class__.__name__) + + if expand_to_list: + # Expanding in list context. It's guaranteed that there's only one + # replacement to do in |input_str| and that it's this replacement. See + # above. + if isinstance(replacement, list): + # If it's already a list, make a copy. + output = replacement[:] + else: + # Split it the same way sh would split arguments. + output = shlex.split(str(replacement)) + else: + # Expanding in string context. + encoded_replacement = '' + if isinstance(replacement, list): + # When expanding a list into string context, turn the list items + # into a string in a way that will work with a subprocess call. + # + # TODO(mark): This isn't completely correct. This should + # call a generator-provided function that observes the + # proper list-to-argument quoting rules on a specific + # platform instead of just calling the POSIX encoding + # routine. + encoded_replacement = gyp.common.EncodePOSIXShellList(replacement) + else: + encoded_replacement = replacement + + output = output[:replace_start] + str(encoded_replacement) + \ + output[replace_end:] + # Prepare for the next match iteration. + input_str = output + + # Look for more matches now that we've replaced some, to deal with + # expanding local variables (variables defined in the same + # variables block as this one). + gyp.DebugOutput(gyp.DEBUG_VARIABLES, "Found output %r, recursing.", output) + if isinstance(output, list): + if output and isinstance(output[0], list): + # Leave output alone if it's a list of lists. + # We don't want such lists to be stringified. + pass + else: + new_output = [] + for item in output: + new_output.append( + ExpandVariables(item, phase, variables, build_file)) + output = new_output + else: + output = ExpandVariables(output, phase, variables, build_file) + + # Convert all strings that are canonically-represented integers into integers. + if isinstance(output, list): + for index in xrange(0, len(output)): + if IsStrCanonicalInt(output[index]): + output[index] = int(output[index]) + elif IsStrCanonicalInt(output): + output = int(output) + + return output + + +def ProcessConditionsInDict(the_dict, phase, variables, build_file): + # Process a 'conditions' or 'target_conditions' section in the_dict, + # depending on phase. + # early -> conditions + # late -> target_conditions + # latelate -> no conditions + # + # Each item in a conditions list consists of cond_expr, a string expression + # evaluated as the condition, and true_dict, a dict that will be merged into + # the_dict if cond_expr evaluates to true. Optionally, a third item, + # false_dict, may be present. false_dict is merged into the_dict if + # cond_expr evaluates to false. + # + # Any dict merged into the_dict will be recursively processed for nested + # conditionals and other expansions, also according to phase, immediately + # prior to being merged. + + if phase == PHASE_EARLY: + conditions_key = 'conditions' + elif phase == PHASE_LATE: + conditions_key = 'target_conditions' + elif phase == PHASE_LATELATE: + return + else: + assert False + + if not conditions_key in the_dict: + return + + conditions_list = the_dict[conditions_key] + # Unhook the conditions list, it's no longer needed. + del the_dict[conditions_key] + + for condition in conditions_list: + if not isinstance(condition, list): + raise GypError(conditions_key + ' must be a list') + if len(condition) != 2 and len(condition) != 3: + # It's possible that condition[0] won't work in which case this + # attempt will raise its own IndexError. That's probably fine. + raise GypError(conditions_key + ' ' + condition[0] + + ' must be length 2 or 3, not ' + str(len(condition))) + + [cond_expr, true_dict] = condition[0:2] + false_dict = None + if len(condition) == 3: + false_dict = condition[2] + + # Do expansions on the condition itself. Since the conditon can naturally + # contain variable references without needing to resort to GYP expansion + # syntax, this is of dubious value for variables, but someone might want to + # use a command expansion directly inside a condition. + cond_expr_expanded = ExpandVariables(cond_expr, phase, variables, + build_file) + if not isinstance(cond_expr_expanded, str) and \ + not isinstance(cond_expr_expanded, int): + raise ValueError, \ + 'Variable expansion in this context permits str and int ' + \ + 'only, found ' + expanded.__class__.__name__ + + try: + ast_code = compile(cond_expr_expanded, '<string>', 'eval') + + if eval(ast_code, {'__builtins__': None}, variables): + merge_dict = true_dict + else: + merge_dict = false_dict + except SyntaxError, e: + syntax_error = SyntaxError('%s while evaluating condition \'%s\' in %s ' + 'at character %d.' % + (str(e.args[0]), e.text, build_file, e.offset), + e.filename, e.lineno, e.offset, e.text) + raise syntax_error + except NameError, e: + gyp.common.ExceptionAppend(e, 'while evaluating condition \'%s\' in %s' % + (cond_expr_expanded, build_file)) + raise GypError(e) + + if merge_dict != None: + # Expand variables and nested conditinals in the merge_dict before + # merging it. + ProcessVariablesAndConditionsInDict(merge_dict, phase, + variables, build_file) + + MergeDicts(the_dict, merge_dict, build_file, build_file) + + +def LoadAutomaticVariablesFromDict(variables, the_dict): + # Any keys with plain string values in the_dict become automatic variables. + # The variable name is the key name with a "_" character prepended. + for key, value in the_dict.iteritems(): + if isinstance(value, str) or isinstance(value, int) or \ + isinstance(value, list): + variables['_' + key] = value + + +def LoadVariablesFromVariablesDict(variables, the_dict, the_dict_key): + # Any keys in the_dict's "variables" dict, if it has one, becomes a + # variable. The variable name is the key name in the "variables" dict. + # Variables that end with the % character are set only if they are unset in + # the variables dict. the_dict_key is the name of the key that accesses + # the_dict in the_dict's parent dict. If the_dict's parent is not a dict + # (it could be a list or it could be parentless because it is a root dict), + # the_dict_key will be None. + for key, value in the_dict.get('variables', {}).iteritems(): + if not isinstance(value, str) and not isinstance(value, int) and \ + not isinstance(value, list): + continue + + if key.endswith('%'): + variable_name = key[:-1] + if variable_name in variables: + # If the variable is already set, don't set it. + continue + if the_dict_key is 'variables' and variable_name in the_dict: + # If the variable is set without a % in the_dict, and the_dict is a + # variables dict (making |variables| a varaibles sub-dict of a + # variables dict), use the_dict's definition. + value = the_dict[variable_name] + else: + variable_name = key + + variables[variable_name] = value + + +def ProcessVariablesAndConditionsInDict(the_dict, phase, variables_in, + build_file, the_dict_key=None): + """Handle all variable and command expansion and conditional evaluation. + + This function is the public entry point for all variable expansions and + conditional evaluations. The variables_in dictionary will not be modified + by this function. + """ + + # Make a copy of the variables_in dict that can be modified during the + # loading of automatics and the loading of the variables dict. + variables = variables_in.copy() + LoadAutomaticVariablesFromDict(variables, the_dict) + + if 'variables' in the_dict: + # Make sure all the local variables are added to the variables + # list before we process them so that you can reference one + # variable from another. They will be fully expanded by recursion + # in ExpandVariables. + for key, value in the_dict['variables'].iteritems(): + variables[key] = value + + # Handle the associated variables dict first, so that any variable + # references within can be resolved prior to using them as variables. + # Pass a copy of the variables dict to avoid having it be tainted. + # Otherwise, it would have extra automatics added for everything that + # should just be an ordinary variable in this scope. + ProcessVariablesAndConditionsInDict(the_dict['variables'], phase, + variables, build_file, 'variables') + + LoadVariablesFromVariablesDict(variables, the_dict, the_dict_key) + + for key, value in the_dict.iteritems(): + # Skip "variables", which was already processed if present. + if key != 'variables' and isinstance(value, str): + expanded = ExpandVariables(value, phase, variables, build_file) + if not isinstance(expanded, str) and not isinstance(expanded, int): + raise ValueError, \ + 'Variable expansion in this context permits str and int ' + \ + 'only, found ' + expanded.__class__.__name__ + ' for ' + key + the_dict[key] = expanded + + # Variable expansion may have resulted in changes to automatics. Reload. + # TODO(mark): Optimization: only reload if no changes were made. + variables = variables_in.copy() + LoadAutomaticVariablesFromDict(variables, the_dict) + LoadVariablesFromVariablesDict(variables, the_dict, the_dict_key) + + # Process conditions in this dict. This is done after variable expansion + # so that conditions may take advantage of expanded variables. For example, + # if the_dict contains: + # {'type': '<(library_type)', + # 'conditions': [['_type=="static_library"', { ... }]]}, + # _type, as used in the condition, will only be set to the value of + # library_type if variable expansion is performed before condition + # processing. However, condition processing should occur prior to recursion + # so that variables (both automatic and "variables" dict type) may be + # adjusted by conditions sections, merged into the_dict, and have the + # intended impact on contained dicts. + # + # This arrangement means that a "conditions" section containing a "variables" + # section will only have those variables effective in subdicts, not in + # the_dict. The workaround is to put a "conditions" section within a + # "variables" section. For example: + # {'conditions': [['os=="mac"', {'variables': {'define': 'IS_MAC'}}]], + # 'defines': ['<(define)'], + # 'my_subdict': {'defines': ['<(define)']}}, + # will not result in "IS_MAC" being appended to the "defines" list in the + # current scope but would result in it being appended to the "defines" list + # within "my_subdict". By comparison: + # {'variables': {'conditions': [['os=="mac"', {'define': 'IS_MAC'}]]}, + # 'defines': ['<(define)'], + # 'my_subdict': {'defines': ['<(define)']}}, + # will append "IS_MAC" to both "defines" lists. + + # Evaluate conditions sections, allowing variable expansions within them + # as well as nested conditionals. This will process a 'conditions' or + # 'target_conditions' section, perform appropriate merging and recursive + # conditional and variable processing, and then remove the conditions section + # from the_dict if it is present. + ProcessConditionsInDict(the_dict, phase, variables, build_file) + + # Conditional processing may have resulted in changes to automatics or the + # variables dict. Reload. + variables = variables_in.copy() + LoadAutomaticVariablesFromDict(variables, the_dict) + LoadVariablesFromVariablesDict(variables, the_dict, the_dict_key) + + # Recurse into child dicts, or process child lists which may result in + # further recursion into descendant dicts. + for key, value in the_dict.iteritems(): + # Skip "variables" and string values, which were already processed if + # present. + if key == 'variables' or isinstance(value, str): + continue + if isinstance(value, dict): + # Pass a copy of the variables dict so that subdicts can't influence + # parents. + ProcessVariablesAndConditionsInDict(value, phase, variables, + build_file, key) + elif isinstance(value, list): + # The list itself can't influence the variables dict, and + # ProcessVariablesAndConditionsInList will make copies of the variables + # dict if it needs to pass it to something that can influence it. No + # copy is necessary here. + ProcessVariablesAndConditionsInList(value, phase, variables, + build_file) + elif not isinstance(value, int): + raise TypeError, 'Unknown type ' + value.__class__.__name__ + \ + ' for ' + key + + +def ProcessVariablesAndConditionsInList(the_list, phase, variables, + build_file): + # Iterate using an index so that new values can be assigned into the_list. + index = 0 + while index < len(the_list): + item = the_list[index] + if isinstance(item, dict): + # Make a copy of the variables dict so that it won't influence anything + # outside of its own scope. + ProcessVariablesAndConditionsInDict(item, phase, variables, build_file) + elif isinstance(item, list): + ProcessVariablesAndConditionsInList(item, phase, variables, build_file) + elif isinstance(item, str): + expanded = ExpandVariables(item, phase, variables, build_file) + if isinstance(expanded, str) or isinstance(expanded, int): + the_list[index] = expanded + elif isinstance(expanded, list): + the_list[index:index+1] = expanded + index += len(expanded) + + # index now identifies the next item to examine. Continue right now + # without falling into the index increment below. + continue + else: + raise ValueError, \ + 'Variable expansion in this context permits strings and ' + \ + 'lists only, found ' + expanded.__class__.__name__ + ' at ' + \ + index + elif not isinstance(item, int): + raise TypeError, 'Unknown type ' + item.__class__.__name__ + \ + ' at index ' + index + index = index + 1 + + +def BuildTargetsDict(data): + """Builds a dict mapping fully-qualified target names to their target dicts. + + |data| is a dict mapping loaded build files by pathname relative to the + current directory. Values in |data| are build file contents. For each + |data| value with a "targets" key, the value of the "targets" key is taken + as a list containing target dicts. Each target's fully-qualified name is + constructed from the pathname of the build file (|data| key) and its + "target_name" property. These fully-qualified names are used as the keys + in the returned dict. These keys provide access to the target dicts, + the dicts in the "targets" lists. + """ + + targets = {} + for build_file in data['target_build_files']: + for target in data[build_file].get('targets', []): + target_name = gyp.common.QualifiedTarget(build_file, + target['target_name'], + target['toolset']) + if target_name in targets: + raise GypError('Duplicate target definitions for ' + target_name) + targets[target_name] = target + + return targets + + +def QualifyDependencies(targets): + """Make dependency links fully-qualified relative to the current directory. + + |targets| is a dict mapping fully-qualified target names to their target + dicts. For each target in this dict, keys known to contain dependency + links are examined, and any dependencies referenced will be rewritten + so that they are fully-qualified and relative to the current directory. + All rewritten dependencies are suitable for use as keys to |targets| or a + similar dict. + """ + + all_dependency_sections = [dep + op + for dep in dependency_sections + for op in ('', '!', '/')] + + for target, target_dict in targets.iteritems(): + target_build_file = gyp.common.BuildFile(target) + toolset = target_dict['toolset'] + for dependency_key in all_dependency_sections: + dependencies = target_dict.get(dependency_key, []) + for index in xrange(0, len(dependencies)): + dep_file, dep_target, dep_toolset = gyp.common.ResolveTarget( + target_build_file, dependencies[index], toolset) + if not multiple_toolsets: + # Ignore toolset specification in the dependency if it is specified. + dep_toolset = toolset + dependency = gyp.common.QualifiedTarget(dep_file, + dep_target, + dep_toolset) + dependencies[index] = dependency + + # Make sure anything appearing in a list other than "dependencies" also + # appears in the "dependencies" list. + if dependency_key != 'dependencies' and \ + dependency not in target_dict['dependencies']: + raise GypError('Found ' + dependency + ' in ' + dependency_key + + ' of ' + target + ', but not in dependencies') + + +def ExpandWildcardDependencies(targets, data): + """Expands dependencies specified as build_file:*. + + For each target in |targets|, examines sections containing links to other + targets. If any such section contains a link of the form build_file:*, it + is taken as a wildcard link, and is expanded to list each target in + build_file. The |data| dict provides access to build file dicts. + + Any target that does not wish to be included by wildcard can provide an + optional "suppress_wildcard" key in its target dict. When present and + true, a wildcard dependency link will not include such targets. + + All dependency names, including the keys to |targets| and the values in each + dependency list, must be qualified when this function is called. + """ + + for target, target_dict in targets.iteritems(): + toolset = target_dict['toolset'] + target_build_file = gyp.common.BuildFile(target) + for dependency_key in dependency_sections: + dependencies = target_dict.get(dependency_key, []) + + # Loop this way instead of "for dependency in" or "for index in xrange" + # because the dependencies list will be modified within the loop body. + index = 0 + while index < len(dependencies): + (dependency_build_file, dependency_target, dependency_toolset) = \ + gyp.common.ParseQualifiedTarget(dependencies[index]) + if dependency_target != '*' and dependency_toolset != '*': + # Not a wildcard. Keep it moving. + index = index + 1 + continue + + if dependency_build_file == target_build_file: + # It's an error for a target to depend on all other targets in + # the same file, because a target cannot depend on itself. + raise GypError('Found wildcard in ' + dependency_key + ' of ' + + target + ' referring to same build file') + + # Take the wildcard out and adjust the index so that the next + # dependency in the list will be processed the next time through the + # loop. + del dependencies[index] + index = index - 1 + + # Loop through the targets in the other build file, adding them to + # this target's list of dependencies in place of the removed + # wildcard. + dependency_target_dicts = data[dependency_build_file]['targets'] + for dependency_target_dict in dependency_target_dicts: + if int(dependency_target_dict.get('suppress_wildcard', False)): + continue + dependency_target_name = dependency_target_dict['target_name'] + if (dependency_target != '*' and + dependency_target != dependency_target_name): + continue + dependency_target_toolset = dependency_target_dict['toolset'] + if (dependency_toolset != '*' and + dependency_toolset != dependency_target_toolset): + continue + dependency = gyp.common.QualifiedTarget(dependency_build_file, + dependency_target_name, + dependency_target_toolset) + index = index + 1 + dependencies.insert(index, dependency) + + index = index + 1 + + +def Unify(l): + """Removes duplicate elements from l, keeping the first element.""" + seen = {} + return [seen.setdefault(e, e) for e in l if e not in seen] + + +def RemoveDuplicateDependencies(targets): + """Makes sure every dependency appears only once in all targets's dependency + lists.""" + for target_name, target_dict in targets.iteritems(): + for dependency_key in dependency_sections: + dependencies = target_dict.get(dependency_key, []) + if dependencies: + target_dict[dependency_key] = Unify(dependencies) + + +def Filter(l, item): + """Removes item from l.""" + res = {} + return [res.setdefault(e, e) for e in l if e != item] + + +def RemoveSelfDependencies(targets): + """Remove self dependencies from targets that have the prune_self_dependency + variable set.""" + for target_name, target_dict in targets.iteritems(): + for dependency_key in dependency_sections: + dependencies = target_dict.get(dependency_key, []) + if dependencies: + for t in dependencies: + if t == target_name: + if targets[t].get('variables', {}).get('prune_self_dependency', 0): + target_dict[dependency_key] = Filter(dependencies, target_name) + + +class DependencyGraphNode(object): + """ + + Attributes: + ref: A reference to an object that this DependencyGraphNode represents. + dependencies: List of DependencyGraphNodes on which this one depends. + dependents: List of DependencyGraphNodes that depend on this one. + """ + + class CircularException(GypError): + pass + + def __init__(self, ref): + self.ref = ref + self.dependencies = [] + self.dependents = [] + + def __repr__(self): + return '<DependencyGraphNode: %r>' % self.ref + + def FlattenToList(self): + # flat_list is the sorted list of dependencies - actually, the list items + # are the "ref" attributes of DependencyGraphNodes. Every target will + # appear in flat_list after all of its dependencies, and before all of its + # dependents. + flat_list = [] + + # in_degree_zeros is the list of DependencyGraphNodes that have no + # dependencies not in flat_list. Initially, it is a copy of the children + # of this node, because when the graph was built, nodes with no + # dependencies were made implicit dependents of the root node. + in_degree_zeros = set(self.dependents[:]) + + while in_degree_zeros: + # Nodes in in_degree_zeros have no dependencies not in flat_list, so they + # can be appended to flat_list. Take these nodes out of in_degree_zeros + # as work progresses, so that the next node to process from the list can + # always be accessed at a consistent position. + node = in_degree_zeros.pop() + flat_list.append(node.ref) + + # Look at dependents of the node just added to flat_list. Some of them + # may now belong in in_degree_zeros. + for node_dependent in node.dependents: + is_in_degree_zero = True + for node_dependent_dependency in node_dependent.dependencies: + if not node_dependent_dependency.ref in flat_list: + # The dependent one or more dependencies not in flat_list. There + # will be more chances to add it to flat_list when examining + # it again as a dependent of those other dependencies, provided + # that there are no cycles. + is_in_degree_zero = False + break + + if is_in_degree_zero: + # All of the dependent's dependencies are already in flat_list. Add + # it to in_degree_zeros where it will be processed in a future + # iteration of the outer loop. + in_degree_zeros.add(node_dependent) + + return flat_list + + def FindCycles(self, path=None): + """ + Returns a list of cycles in the graph, where each cycle is its own list. + """ + if path is None: + path = [self] + + results = [] + for node in self.dependents: + if node in path: + cycle = [node] + for part in path: + cycle.append(part) + if part == node: + break + results.append(tuple(cycle)) + else: + results.extend(node.FindCycles([node] + path)) + + return list(set(results)) + + def DirectDependencies(self, dependencies=None): + """Returns a list of just direct dependencies.""" + if dependencies == None: + dependencies = [] + + for dependency in self.dependencies: + # Check for None, corresponding to the root node. + if dependency.ref != None and dependency.ref not in dependencies: + dependencies.append(dependency.ref) + + return dependencies + + def _AddImportedDependencies(self, targets, dependencies=None): + """Given a list of direct dependencies, adds indirect dependencies that + other dependencies have declared to export their settings. + + This method does not operate on self. Rather, it operates on the list + of dependencies in the |dependencies| argument. For each dependency in + that list, if any declares that it exports the settings of one of its + own dependencies, those dependencies whose settings are "passed through" + are added to the list. As new items are added to the list, they too will + be processed, so it is possible to import settings through multiple levels + of dependencies. + + This method is not terribly useful on its own, it depends on being + "primed" with a list of direct dependencies such as one provided by + DirectDependencies. DirectAndImportedDependencies is intended to be the + public entry point. + """ + + if dependencies == None: + dependencies = [] + + index = 0 + while index < len(dependencies): + dependency = dependencies[index] + dependency_dict = targets[dependency] + # Add any dependencies whose settings should be imported to the list + # if not already present. Newly-added items will be checked for + # their own imports when the list iteration reaches them. + # Rather than simply appending new items, insert them after the + # dependency that exported them. This is done to more closely match + # the depth-first method used by DeepDependencies. + add_index = 1 + for imported_dependency in \ + dependency_dict.get('export_dependent_settings', []): + if imported_dependency not in dependencies: + dependencies.insert(index + add_index, imported_dependency) + add_index = add_index + 1 + index = index + 1 + + return dependencies + + def DirectAndImportedDependencies(self, targets, dependencies=None): + """Returns a list of a target's direct dependencies and all indirect + dependencies that a dependency has advertised settings should be exported + through the dependency for. + """ + + dependencies = self.DirectDependencies(dependencies) + return self._AddImportedDependencies(targets, dependencies) + + def DeepDependencies(self, dependencies=None): + """Returns a list of all of a target's dependencies, recursively.""" + if dependencies == None: + dependencies = [] + + for dependency in self.dependencies: + # Check for None, corresponding to the root node. + if dependency.ref != None and dependency.ref not in dependencies: + dependencies.append(dependency.ref) + dependency.DeepDependencies(dependencies) + + return dependencies + + def _LinkDependenciesInternal(self, targets, include_shared_libraries, + dependencies=None, initial=True): + """Returns a list of dependency targets that are linked into this target. + + This function has a split personality, depending on the setting of + |initial|. Outside callers should always leave |initial| at its default + setting. + + When adding a target to the list of dependencies, this function will + recurse into itself with |initial| set to False, to collect dependencies + that are linked into the linkable target for which the list is being built. + + If |include_shared_libraries| is False, the resulting dependencies will not + include shared_library targets that are linked into this target. + """ + if dependencies == None: + dependencies = [] + + # Check for None, corresponding to the root node. + if self.ref == None: + return dependencies + + # It's kind of sucky that |targets| has to be passed into this function, + # but that's presently the easiest way to access the target dicts so that + # this function can find target types. + + if 'target_name' not in targets[self.ref]: + raise GypError("Missing 'target_name' field in target.") + + if 'type' not in targets[self.ref]: + raise GypError("Missing 'type' field in target %s" % + targets[self.ref]['target_name']) + + target_type = targets[self.ref]['type'] + + is_linkable = target_type in linkable_types + + if initial and not is_linkable: + # If this is the first target being examined and it's not linkable, + # return an empty list of link dependencies, because the link + # dependencies are intended to apply to the target itself (initial is + # True) and this target won't be linked. + return dependencies + + # Don't traverse 'none' targets if explicitly excluded. + if (target_type == 'none' and + not targets[self.ref].get('dependencies_traverse', True)): + if self.ref not in dependencies: + dependencies.append(self.ref) + return dependencies + + # Executables and loadable modules are already fully and finally linked. + # Nothing else can be a link dependency of them, there can only be + # dependencies in the sense that a dependent target might run an + # executable or load the loadable_module. + if not initial and target_type in ('executable', 'loadable_module'): + return dependencies + + # Shared libraries are already fully linked. They should only be included + # in |dependencies| when adjusting static library dependencies (in order to + # link against the shared_library's import lib), but should not be included + # in |dependencies| when propagating link_settings. + # The |include_shared_libraries| flag controls which of these two cases we + # are handling. + if (not initial and target_type == 'shared_library' and + not include_shared_libraries): + return dependencies + + # The target is linkable, add it to the list of link dependencies. + if self.ref not in dependencies: + dependencies.append(self.ref) + if initial or not is_linkable: + # If this is a subsequent target and it's linkable, don't look any + # further for linkable dependencies, as they'll already be linked into + # this target linkable. Always look at dependencies of the initial + # target, and always look at dependencies of non-linkables. + for dependency in self.dependencies: + dependency._LinkDependenciesInternal(targets, + include_shared_libraries, + dependencies, False) + + return dependencies + + def DependenciesForLinkSettings(self, targets): + """ + Returns a list of dependency targets whose link_settings should be merged + into this target. + """ + + # TODO(sbaig) Currently, chrome depends on the bug that shared libraries' + # link_settings are propagated. So for now, we will allow it, unless the + # 'allow_sharedlib_linksettings_propagation' flag is explicitly set to + # False. Once chrome is fixed, we can remove this flag. + include_shared_libraries = \ + targets[self.ref].get('allow_sharedlib_linksettings_propagation', True) + return self._LinkDependenciesInternal(targets, include_shared_libraries) + + def DependenciesToLinkAgainst(self, targets): + """ + Returns a list of dependency targets that are linked into this target. + """ + return self._LinkDependenciesInternal(targets, True) + + +def BuildDependencyList(targets): + # Create a DependencyGraphNode for each target. Put it into a dict for easy + # access. + dependency_nodes = {} + for target, spec in targets.iteritems(): + if target not in dependency_nodes: + dependency_nodes[target] = DependencyGraphNode(target) + + # Set up the dependency links. Targets that have no dependencies are treated + # as dependent on root_node. + root_node = DependencyGraphNode(None) + for target, spec in targets.iteritems(): + target_node = dependency_nodes[target] + target_build_file = gyp.common.BuildFile(target) + dependencies = spec.get('dependencies') + if not dependencies: + target_node.dependencies = [root_node] + root_node.dependents.append(target_node) + else: + for dependency in dependencies: + dependency_node = dependency_nodes.get(dependency) + if not dependency_node: + raise GypError("Dependency '%s' not found while " + "trying to load target %s" % (dependency, target)) + target_node.dependencies.append(dependency_node) + dependency_node.dependents.append(target_node) + + flat_list = root_node.FlattenToList() + + # If there's anything left unvisited, there must be a circular dependency + # (cycle). If you need to figure out what's wrong, look for elements of + # targets that are not in flat_list. + if len(flat_list) != len(targets): + raise DependencyGraphNode.CircularException( + 'Some targets not reachable, cycle in dependency graph detected: ' + + ' '.join(set(flat_list) ^ set(targets))) + + return [dependency_nodes, flat_list] + + +def VerifyNoGYPFileCircularDependencies(targets): + # Create a DependencyGraphNode for each gyp file containing a target. Put + # it into a dict for easy access. + dependency_nodes = {} + for target in targets.iterkeys(): + build_file = gyp.common.BuildFile(target) + if not build_file in dependency_nodes: + dependency_nodes[build_file] = DependencyGraphNode(build_file) + + # Set up the dependency links. + for target, spec in targets.iteritems(): + build_file = gyp.common.BuildFile(target) + build_file_node = dependency_nodes[build_file] + target_dependencies = spec.get('dependencies', []) + for dependency in target_dependencies: + try: + dependency_build_file = gyp.common.BuildFile(dependency) + except GypError, e: + gyp.common.ExceptionAppend( + e, 'while computing dependencies of .gyp file %s' % build_file) + raise + + if dependency_build_file == build_file: + # A .gyp file is allowed to refer back to itself. + continue + dependency_node = dependency_nodes.get(dependency_build_file) + if not dependency_node: + raise GypError("Dependancy '%s' not found" % dependency_build_file) + if dependency_node not in build_file_node.dependencies: + build_file_node.dependencies.append(dependency_node) + dependency_node.dependents.append(build_file_node) + + + # Files that have no dependencies are treated as dependent on root_node. + root_node = DependencyGraphNode(None) + for build_file_node in dependency_nodes.itervalues(): + if len(build_file_node.dependencies) == 0: + build_file_node.dependencies.append(root_node) + root_node.dependents.append(build_file_node) + + flat_list = root_node.FlattenToList() + + # If there's anything left unvisited, there must be a circular dependency + # (cycle). + if len(flat_list) != len(dependency_nodes): + bad_files = [] + for file in dependency_nodes.iterkeys(): + if not file in flat_list: + bad_files.append(file) + common_path_prefix = os.path.commonprefix(dependency_nodes) + cycles = [] + for cycle in root_node.FindCycles(): + simplified_paths = [] + for node in cycle: + assert(node.ref.startswith(common_path_prefix)) + simplified_paths.append(node.ref[len(common_path_prefix):]) + cycles.append('Cycle: %s' % ' -> '.join(simplified_paths)) + raise DependencyGraphNode.CircularException, \ + 'Cycles in .gyp file dependency graph detected:\n' + '\n'.join(cycles) + + +def DoDependentSettings(key, flat_list, targets, dependency_nodes): + # key should be one of all_dependent_settings, direct_dependent_settings, + # or link_settings. + + for target in flat_list: + target_dict = targets[target] + build_file = gyp.common.BuildFile(target) + + if key == 'all_dependent_settings': + dependencies = dependency_nodes[target].DeepDependencies() + elif key == 'direct_dependent_settings': + dependencies = \ + dependency_nodes[target].DirectAndImportedDependencies(targets) + elif key == 'link_settings': + dependencies = \ + dependency_nodes[target].DependenciesForLinkSettings(targets) + else: + raise GypError("DoDependentSettings doesn't know how to determine " + 'dependencies for ' + key) + + for dependency in dependencies: + dependency_dict = targets[dependency] + if not key in dependency_dict: + continue + dependency_build_file = gyp.common.BuildFile(dependency) + MergeDicts(target_dict, dependency_dict[key], + build_file, dependency_build_file) + + +def AdjustStaticLibraryDependencies(flat_list, targets, dependency_nodes, + sort_dependencies): + # Recompute target "dependencies" properties. For each static library + # target, remove "dependencies" entries referring to other static libraries, + # unless the dependency has the "hard_dependency" attribute set. For each + # linkable target, add a "dependencies" entry referring to all of the + # target's computed list of link dependencies (including static libraries + # if no such entry is already present. + for target in flat_list: + target_dict = targets[target] + target_type = target_dict['type'] + + if target_type == 'static_library': + if not 'dependencies' in target_dict: + continue + + target_dict['dependencies_original'] = target_dict.get( + 'dependencies', [])[:] + + # A static library should not depend on another static library unless + # the dependency relationship is "hard," which should only be done when + # a dependent relies on some side effect other than just the build + # product, like a rule or action output. Further, if a target has a + # non-hard dependency, but that dependency exports a hard dependency, + # the non-hard dependency can safely be removed, but the exported hard + # dependency must be added to the target to keep the same dependency + # ordering. + dependencies = \ + dependency_nodes[target].DirectAndImportedDependencies(targets) + index = 0 + while index < len(dependencies): + dependency = dependencies[index] + dependency_dict = targets[dependency] + + # Remove every non-hard static library dependency and remove every + # non-static library dependency that isn't a direct dependency. + if (dependency_dict['type'] == 'static_library' and \ + not dependency_dict.get('hard_dependency', False)) or \ + (dependency_dict['type'] != 'static_library' and \ + not dependency in target_dict['dependencies']): + # Take the dependency out of the list, and don't increment index + # because the next dependency to analyze will shift into the index + # formerly occupied by the one being removed. + del dependencies[index] + else: + index = index + 1 + + # Update the dependencies. If the dependencies list is empty, it's not + # needed, so unhook it. + if len(dependencies) > 0: + target_dict['dependencies'] = dependencies + else: + del target_dict['dependencies'] + + elif target_type in linkable_types: + # Get a list of dependency targets that should be linked into this + # target. Add them to the dependencies list if they're not already + # present. + + link_dependencies = \ + dependency_nodes[target].DependenciesToLinkAgainst(targets) + for dependency in link_dependencies: + if dependency == target: + continue + if not 'dependencies' in target_dict: + target_dict['dependencies'] = [] + if not dependency in target_dict['dependencies']: + target_dict['dependencies'].append(dependency) + # Sort the dependencies list in the order from dependents to dependencies. + # e.g. If A and B depend on C and C depends on D, sort them in A, B, C, D. + # Note: flat_list is already sorted in the order from dependencies to + # dependents. + if sort_dependencies and 'dependencies' in target_dict: + target_dict['dependencies'] = [dep for dep in reversed(flat_list) + if dep in target_dict['dependencies']] + + +# Initialize this here to speed up MakePathRelative. +exception_re = re.compile(r'''["']?[-/$<>^]''') + + +def MakePathRelative(to_file, fro_file, item): + # If item is a relative path, it's relative to the build file dict that it's + # coming from. Fix it up to make it relative to the build file dict that + # it's going into. + # Exception: any |item| that begins with these special characters is + # returned without modification. + # / Used when a path is already absolute (shortcut optimization; + # such paths would be returned as absolute anyway) + # $ Used for build environment variables + # - Used for some build environment flags (such as -lapr-1 in a + # "libraries" section) + # < Used for our own variable and command expansions (see ExpandVariables) + # > Used for our own variable and command expansions (see ExpandVariables) + # ^ Used for our own variable and command expansions (see ExpandVariables) + # + # "/' Used when a value is quoted. If these are present, then we + # check the second character instead. + # + if to_file == fro_file or exception_re.match(item): + return item + else: + # TODO(dglazkov) The backslash/forward-slash replacement at the end is a + # temporary measure. This should really be addressed by keeping all paths + # in POSIX until actual project generation. + ret = os.path.normpath(os.path.join( + gyp.common.RelativePath(os.path.dirname(fro_file), + os.path.dirname(to_file)), + item)).replace('\\', '/') + if item[-1] == '/': + ret += '/' + return ret + +def MergeLists(to, fro, to_file, fro_file, is_paths=False, append=True): + # Python documentation recommends objects which do not support hash + # set this value to None. Python library objects follow this rule. + is_hashable = lambda val: val.__hash__ + + # If x is hashable, returns whether x is in s. Else returns whether x is in l. + def is_in_set_or_list(x, s, l): + if is_hashable(x): + return x in s + return x in l + + prepend_index = 0 + + # Make membership testing of hashables in |to| (in particular, strings) + # faster. + hashable_to_set = set(x for x in to if is_hashable(x)) + for item in fro: + singleton = False + if isinstance(item, str) or isinstance(item, int): + # The cheap and easy case. + if is_paths: + to_item = MakePathRelative(to_file, fro_file, item) + else: + to_item = item + + if not isinstance(item, str) or not item.startswith('-'): + # Any string that doesn't begin with a "-" is a singleton - it can + # only appear once in a list, to be enforced by the list merge append + # or prepend. + singleton = True + elif isinstance(item, dict): + # Make a copy of the dictionary, continuing to look for paths to fix. + # The other intelligent aspects of merge processing won't apply because + # item is being merged into an empty dict. + to_item = {} + MergeDicts(to_item, item, to_file, fro_file) + elif isinstance(item, list): + # Recurse, making a copy of the list. If the list contains any + # descendant dicts, path fixing will occur. Note that here, custom + # values for is_paths and append are dropped; those are only to be + # applied to |to| and |fro|, not sublists of |fro|. append shouldn't + # matter anyway because the new |to_item| list is empty. + to_item = [] + MergeLists(to_item, item, to_file, fro_file) + else: + raise TypeError, \ + 'Attempt to merge list item of unsupported type ' + \ + item.__class__.__name__ + + if append: + # If appending a singleton that's already in the list, don't append. + # This ensures that the earliest occurrence of the item will stay put. + if not singleton or not is_in_set_or_list(to_item, hashable_to_set, to): + to.append(to_item) + if is_hashable(to_item): + hashable_to_set.add(to_item) + else: + # If prepending a singleton that's already in the list, remove the + # existing instance and proceed with the prepend. This ensures that the + # item appears at the earliest possible position in the list. + while singleton and to_item in to: + to.remove(to_item) + + # Don't just insert everything at index 0. That would prepend the new + # items to the list in reverse order, which would be an unwelcome + # surprise. + to.insert(prepend_index, to_item) + if is_hashable(to_item): + hashable_to_set.add(to_item) + prepend_index = prepend_index + 1 + + +def MergeDicts(to, fro, to_file, fro_file): + # I wanted to name the parameter "from" but it's a Python keyword... + for k, v in fro.iteritems(): + # It would be nice to do "if not k in to: to[k] = v" but that wouldn't give + # copy semantics. Something else may want to merge from the |fro| dict + # later, and having the same dict ref pointed to twice in the tree isn't + # what anyone wants considering that the dicts may subsequently be + # modified. + if k in to: + bad_merge = False + if isinstance(v, str) or isinstance(v, int): + if not (isinstance(to[k], str) or isinstance(to[k], int)): + bad_merge = True + elif v.__class__ != to[k].__class__: + bad_merge = True + + if bad_merge: + raise TypeError, \ + 'Attempt to merge dict value of type ' + v.__class__.__name__ + \ + ' into incompatible type ' + to[k].__class__.__name__ + \ + ' for key ' + k + if isinstance(v, str) or isinstance(v, int): + # Overwrite the existing value, if any. Cheap and easy. + is_path = IsPathSection(k) + if is_path: + to[k] = MakePathRelative(to_file, fro_file, v) + else: + to[k] = v + elif isinstance(v, dict): + # Recurse, guaranteeing copies will be made of objects that require it. + if not k in to: + to[k] = {} + MergeDicts(to[k], v, to_file, fro_file) + elif isinstance(v, list): + # Lists in dicts can be merged with different policies, depending on + # how the key in the "from" dict (k, the from-key) is written. + # + # If the from-key has ...the to-list will have this action + # this character appended:... applied when receiving the from-list: + # = replace + # + prepend + # ? set, only if to-list does not yet exist + # (none) append + # + # This logic is list-specific, but since it relies on the associated + # dict key, it's checked in this dict-oriented function. + ext = k[-1] + append = True + if ext == '=': + list_base = k[:-1] + lists_incompatible = [list_base, list_base + '?'] + to[list_base] = [] + elif ext == '+': + list_base = k[:-1] + lists_incompatible = [list_base + '=', list_base + '?'] + append = False + elif ext == '?': + list_base = k[:-1] + lists_incompatible = [list_base, list_base + '=', list_base + '+'] + else: + list_base = k + lists_incompatible = [list_base + '=', list_base + '?'] + + # Some combinations of merge policies appearing together are meaningless. + # It's stupid to replace and append simultaneously, for example. Append + # and prepend are the only policies that can coexist. + for list_incompatible in lists_incompatible: + if list_incompatible in fro: + raise GypError('Incompatible list policies ' + k + ' and ' + + list_incompatible) + + if list_base in to: + if ext == '?': + # If the key ends in "?", the list will only be merged if it doesn't + # already exist. + continue + if not isinstance(to[list_base], list): + # This may not have been checked above if merging in a list with an + # extension character. + raise TypeError, \ + 'Attempt to merge dict value of type ' + v.__class__.__name__ + \ + ' into incompatible type ' + to[list_base].__class__.__name__ + \ + ' for key ' + list_base + '(' + k + ')' + else: + to[list_base] = [] + + # Call MergeLists, which will make copies of objects that require it. + # MergeLists can recurse back into MergeDicts, although this will be + # to make copies of dicts (with paths fixed), there will be no + # subsequent dict "merging" once entering a list because lists are + # always replaced, appended to, or prepended to. + is_paths = IsPathSection(list_base) + MergeLists(to[list_base], v, to_file, fro_file, is_paths, append) + else: + raise TypeError, \ + 'Attempt to merge dict value of unsupported type ' + \ + v.__class__.__name__ + ' for key ' + k + + +def MergeConfigWithInheritance(new_configuration_dict, build_file, + target_dict, configuration, visited): + # Skip if previously visted. + if configuration in visited: + return + + # Look at this configuration. + configuration_dict = target_dict['configurations'][configuration] + + # Merge in parents. + for parent in configuration_dict.get('inherit_from', []): + MergeConfigWithInheritance(new_configuration_dict, build_file, + target_dict, parent, visited + [configuration]) + + # Merge it into the new config. + MergeDicts(new_configuration_dict, configuration_dict, + build_file, build_file) + + # Drop abstract. + if 'abstract' in new_configuration_dict: + del new_configuration_dict['abstract'] + + +def SetUpConfigurations(target, target_dict): + # key_suffixes is a list of key suffixes that might appear on key names. + # These suffixes are handled in conditional evaluations (for =, +, and ?) + # and rules/exclude processing (for ! and /). Keys with these suffixes + # should be treated the same as keys without. + key_suffixes = ['=', '+', '?', '!', '/'] + + build_file = gyp.common.BuildFile(target) + + # Provide a single configuration by default if none exists. + # TODO(mark): Signal an error if default_configurations exists but + # configurations does not. + if not 'configurations' in target_dict: + target_dict['configurations'] = {'Default': {}} + if not 'default_configuration' in target_dict: + concrete = [i for i in target_dict['configurations'].iterkeys() + if not target_dict['configurations'][i].get('abstract')] + target_dict['default_configuration'] = sorted(concrete)[0] + + for configuration in target_dict['configurations'].keys(): + old_configuration_dict = target_dict['configurations'][configuration] + # Skip abstract configurations (saves work only). + if old_configuration_dict.get('abstract'): + continue + # Configurations inherit (most) settings from the enclosing target scope. + # Get the inheritance relationship right by making a copy of the target + # dict. + new_configuration_dict = copy.deepcopy(target_dict) + + # Take out the bits that don't belong in a "configurations" section. + # Since configuration setup is done before conditional, exclude, and rules + # processing, be careful with handling of the suffix characters used in + # those phases. + delete_keys = [] + for key in new_configuration_dict: + key_ext = key[-1:] + if key_ext in key_suffixes: + key_base = key[:-1] + else: + key_base = key + if key_base in non_configuration_keys: + delete_keys.append(key) + + for key in delete_keys: + del new_configuration_dict[key] + + # Merge in configuration (with all its parents first). + MergeConfigWithInheritance(new_configuration_dict, build_file, + target_dict, configuration, []) + + # Put the new result back into the target dict as a configuration. + target_dict['configurations'][configuration] = new_configuration_dict + + # Now drop all the abstract ones. + for configuration in target_dict['configurations'].keys(): + old_configuration_dict = target_dict['configurations'][configuration] + if old_configuration_dict.get('abstract'): + del target_dict['configurations'][configuration] + + # Now that all of the target's configurations have been built, go through + # the target dict's keys and remove everything that's been moved into a + # "configurations" section. + delete_keys = [] + for key in target_dict: + key_ext = key[-1:] + if key_ext in key_suffixes: + key_base = key[:-1] + else: + key_base = key + if not key_base in non_configuration_keys: + delete_keys.append(key) + for key in delete_keys: + del target_dict[key] + + # Check the configurations to see if they contain invalid keys. + for configuration in target_dict['configurations'].keys(): + configuration_dict = target_dict['configurations'][configuration] + for key in configuration_dict.keys(): + if key in invalid_configuration_keys: + raise GypError('%s not allowed in the %s configuration, found in ' + 'target %s' % (key, configuration, target)) + + + +def ProcessListFiltersInDict(name, the_dict): + """Process regular expression and exclusion-based filters on lists. + + An exclusion list is in a dict key named with a trailing "!", like + "sources!". Every item in such a list is removed from the associated + main list, which in this example, would be "sources". Removed items are + placed into a "sources_excluded" list in the dict. + + Regular expression (regex) filters are contained in dict keys named with a + trailing "/", such as "sources/" to operate on the "sources" list. Regex + filters in a dict take the form: + 'sources/': [ ['exclude', '_(linux|mac|win)\\.cc$'], + ['include', '_mac\\.cc$'] ], + The first filter says to exclude all files ending in _linux.cc, _mac.cc, and + _win.cc. The second filter then includes all files ending in _mac.cc that + are now or were once in the "sources" list. Items matching an "exclude" + filter are subject to the same processing as would occur if they were listed + by name in an exclusion list (ending in "!"). Items matching an "include" + filter are brought back into the main list if previously excluded by an + exclusion list or exclusion regex filter. Subsequent matching "exclude" + patterns can still cause items to be excluded after matching an "include". + """ + + # Look through the dictionary for any lists whose keys end in "!" or "/". + # These are lists that will be treated as exclude lists and regular + # expression-based exclude/include lists. Collect the lists that are + # needed first, looking for the lists that they operate on, and assemble + # then into |lists|. This is done in a separate loop up front, because + # the _included and _excluded keys need to be added to the_dict, and that + # can't be done while iterating through it. + + lists = [] + del_lists = [] + for key, value in the_dict.iteritems(): + operation = key[-1] + if operation != '!' and operation != '/': + continue + + if not isinstance(value, list): + raise ValueError, name + ' key ' + key + ' must be list, not ' + \ + value.__class__.__name__ + + list_key = key[:-1] + if list_key not in the_dict: + # This happens when there's a list like "sources!" but no corresponding + # "sources" list. Since there's nothing for it to operate on, queue up + # the "sources!" list for deletion now. + del_lists.append(key) + continue + + if not isinstance(the_dict[list_key], list): + value = the_dict[list_key] + raise ValueError, name + ' key ' + list_key + \ + ' must be list, not ' + \ + value.__class__.__name__ + ' when applying ' + \ + {'!': 'exclusion', '/': 'regex'}[operation] + + if not list_key in lists: + lists.append(list_key) + + # Delete the lists that are known to be unneeded at this point. + for del_list in del_lists: + del the_dict[del_list] + + for list_key in lists: + the_list = the_dict[list_key] + + # Initialize the list_actions list, which is parallel to the_list. Each + # item in list_actions identifies whether the corresponding item in + # the_list should be excluded, unconditionally preserved (included), or + # whether no exclusion or inclusion has been applied. Items for which + # no exclusion or inclusion has been applied (yet) have value -1, items + # excluded have value 0, and items included have value 1. Includes and + # excludes override previous actions. All items in list_actions are + # initialized to -1 because no excludes or includes have been processed + # yet. + list_actions = list((-1,) * len(the_list)) + + exclude_key = list_key + '!' + if exclude_key in the_dict: + for exclude_item in the_dict[exclude_key]: + for index in xrange(0, len(the_list)): + if exclude_item == the_list[index]: + # This item matches the exclude_item, so set its action to 0 + # (exclude). + list_actions[index] = 0 + + # The "whatever!" list is no longer needed, dump it. + del the_dict[exclude_key] + + regex_key = list_key + '/' + if regex_key in the_dict: + for regex_item in the_dict[regex_key]: + [action, pattern] = regex_item + pattern_re = re.compile(pattern) + + if action == 'exclude': + # This item matches an exclude regex, so set its value to 0 (exclude). + action_value = 0 + elif action == 'include': + # This item matches an include regex, so set its value to 1 (include). + action_value = 1 + else: + # This is an action that doesn't make any sense. + raise ValueError, 'Unrecognized action ' + action + ' in ' + name + \ + ' key ' + regex_key + + for index in xrange(0, len(the_list)): + list_item = the_list[index] + if list_actions[index] == action_value: + # Even if the regex matches, nothing will change so continue (regex + # searches are expensive). + continue + if pattern_re.search(list_item): + # Regular expression match. + list_actions[index] = action_value + + # The "whatever/" list is no longer needed, dump it. + del the_dict[regex_key] + + # Add excluded items to the excluded list. + # + # Note that exclude_key ("sources!") is different from excluded_key + # ("sources_excluded"). The exclude_key list is input and it was already + # processed and deleted; the excluded_key list is output and it's about + # to be created. + excluded_key = list_key + '_excluded' + if excluded_key in the_dict: + raise GypError(name + ' key ' + excluded_key + + ' must not be present prior ' + ' to applying exclusion/regex filters for ' + list_key) + + excluded_list = [] + + # Go backwards through the list_actions list so that as items are deleted, + # the indices of items that haven't been seen yet don't shift. That means + # that things need to be prepended to excluded_list to maintain them in the + # same order that they existed in the_list. + for index in xrange(len(list_actions) - 1, -1, -1): + if list_actions[index] == 0: + # Dump anything with action 0 (exclude). Keep anything with action 1 + # (include) or -1 (no include or exclude seen for the item). + excluded_list.insert(0, the_list[index]) + del the_list[index] + + # If anything was excluded, put the excluded list into the_dict at + # excluded_key. + if len(excluded_list) > 0: + the_dict[excluded_key] = excluded_list + + # Now recurse into subdicts and lists that may contain dicts. + for key, value in the_dict.iteritems(): + if isinstance(value, dict): + ProcessListFiltersInDict(key, value) + elif isinstance(value, list): + ProcessListFiltersInList(key, value) + + +def ProcessListFiltersInList(name, the_list): + for item in the_list: + if isinstance(item, dict): + ProcessListFiltersInDict(name, item) + elif isinstance(item, list): + ProcessListFiltersInList(name, item) + + +def ValidateTargetType(target, target_dict): + """Ensures the 'type' field on the target is one of the known types. + + Arguments: + target: string, name of target. + target_dict: dict, target spec. + + Raises an exception on error. + """ + VALID_TARGET_TYPES = ('executable', 'loadable_module', + 'static_library', 'shared_library', + 'none') + target_type = target_dict.get('type', None) + if target_type not in VALID_TARGET_TYPES: + raise GypError("Target %s has an invalid target type '%s'. " + "Must be one of %s." % + (target, target_type, '/'.join(VALID_TARGET_TYPES))) + if (target_dict.get('standalone_static_library', 0) and + not target_type == 'static_library'): + raise GypError('Target %s has type %s but standalone_static_library flag is' + ' only valid for static_library type.' % (target, + target_type)) + + +def ValidateSourcesInTarget(target, target_dict, build_file): + # TODO: Check if MSVC allows this for loadable_module targets. + if target_dict.get('type', None) not in ('static_library', 'shared_library'): + return + sources = target_dict.get('sources', []) + basenames = {} + for source in sources: + name, ext = os.path.splitext(source) + is_compiled_file = ext in [ + '.c', '.cc', '.cpp', '.cxx', '.m', '.mm', '.s', '.S'] + if not is_compiled_file: + continue + basename = os.path.basename(name) # Don't include extension. + basenames.setdefault(basename, []).append(source) + + error = '' + for basename, files in basenames.iteritems(): + if len(files) > 1: + error += ' %s: %s\n' % (basename, ' '.join(files)) + + if error: + print('static library %s has several files with the same basename:\n' % + target + error + 'Some build systems, e.g. MSVC08, ' + 'cannot handle that.') + raise GypError('Duplicate basenames in sources section, see list above') + + +def ValidateRulesInTarget(target, target_dict, extra_sources_for_rules): + """Ensures that the rules sections in target_dict are valid and consistent, + and determines which sources they apply to. + + Arguments: + target: string, name of target. + target_dict: dict, target spec containing "rules" and "sources" lists. + extra_sources_for_rules: a list of keys to scan for rule matches in + addition to 'sources'. + """ + + # Dicts to map between values found in rules' 'rule_name' and 'extension' + # keys and the rule dicts themselves. + rule_names = {} + rule_extensions = {} + + rules = target_dict.get('rules', []) + for rule in rules: + # Make sure that there's no conflict among rule names and extensions. + rule_name = rule['rule_name'] + if rule_name in rule_names: + raise GypError('rule %s exists in duplicate, target %s' % + (rule_name, target)) + rule_names[rule_name] = rule + + rule_extension = rule['extension'] + if rule_extension.startswith('.'): + rule_extension = rule_extension[1:] + if rule_extension in rule_extensions: + raise GypError(('extension %s associated with multiple rules, ' + + 'target %s rules %s and %s') % + (rule_extension, target, + rule_extensions[rule_extension]['rule_name'], + rule_name)) + rule_extensions[rule_extension] = rule + + # Make sure rule_sources isn't already there. It's going to be + # created below if needed. + if 'rule_sources' in rule: + raise GypError( + 'rule_sources must not exist in input, target %s rule %s' % + (target, rule_name)) + + rule_sources = [] + source_keys = ['sources'] + source_keys.extend(extra_sources_for_rules) + for source_key in source_keys: + for source in target_dict.get(source_key, []): + (source_root, source_extension) = os.path.splitext(source) + if source_extension.startswith('.'): + source_extension = source_extension[1:] + if source_extension == rule_extension: + rule_sources.append(source) + + if len(rule_sources) > 0: + rule['rule_sources'] = rule_sources + + +def ValidateRunAsInTarget(target, target_dict, build_file): + target_name = target_dict.get('target_name') + run_as = target_dict.get('run_as') + if not run_as: + return + if not isinstance(run_as, dict): + raise GypError("The 'run_as' in target %s from file %s should be a " + "dictionary." % + (target_name, build_file)) + action = run_as.get('action') + if not action: + raise GypError("The 'run_as' in target %s from file %s must have an " + "'action' section." % + (target_name, build_file)) + if not isinstance(action, list): + raise GypError("The 'action' for 'run_as' in target %s from file %s " + "must be a list." % + (target_name, build_file)) + working_directory = run_as.get('working_directory') + if working_directory and not isinstance(working_directory, str): + raise GypError("The 'working_directory' for 'run_as' in target %s " + "in file %s should be a string." % + (target_name, build_file)) + environment = run_as.get('environment') + if environment and not isinstance(environment, dict): + raise GypError("The 'environment' for 'run_as' in target %s " + "in file %s should be a dictionary." % + (target_name, build_file)) + + +def ValidateActionsInTarget(target, target_dict, build_file): + '''Validates the inputs to the actions in a target.''' + target_name = target_dict.get('target_name') + actions = target_dict.get('actions', []) + for action in actions: + action_name = action.get('action_name') + if not action_name: + raise GypError("Anonymous action in target %s. " + "An action must have an 'action_name' field." % + target_name) + inputs = action.get('inputs', None) + if inputs is None: + raise GypError('Action in target %s has no inputs.' % target_name) + action_command = action.get('action') + if action_command and not action_command[0]: + raise GypError("Empty action as command in target %s." % target_name) + + +def TurnIntIntoStrInDict(the_dict): + """Given dict the_dict, recursively converts all integers into strings. + """ + # Use items instead of iteritems because there's no need to try to look at + # reinserted keys and their associated values. + for k, v in the_dict.items(): + if isinstance(v, int): + v = str(v) + the_dict[k] = v + elif isinstance(v, dict): + TurnIntIntoStrInDict(v) + elif isinstance(v, list): + TurnIntIntoStrInList(v) + + if isinstance(k, int): + the_dict[str(k)] = v + del the_dict[k] + + +def TurnIntIntoStrInList(the_list): + """Given list the_list, recursively converts all integers into strings. + """ + for index in xrange(0, len(the_list)): + item = the_list[index] + if isinstance(item, int): + the_list[index] = str(item) + elif isinstance(item, dict): + TurnIntIntoStrInDict(item) + elif isinstance(item, list): + TurnIntIntoStrInList(item) + + +def PruneUnwantedTargets(targets, flat_list, dependency_nodes, root_targets, + data): + """Return only the targets that are deep dependencies of |root_targets|.""" + qualified_root_targets = [] + for target in root_targets: + target = target.strip() + qualified_targets = gyp.common.FindQualifiedTargets(target, flat_list) + if not qualified_targets: + raise GypError("Could not find target %s" % target) + qualified_root_targets.extend(qualified_targets) + + wanted_targets = {} + for target in qualified_root_targets: + wanted_targets[target] = targets[target] + for dependency in dependency_nodes[target].DeepDependencies(): + wanted_targets[dependency] = targets[dependency] + + wanted_flat_list = [t for t in flat_list if t in wanted_targets] + + # Prune unwanted targets from each build_file's data dict. + for build_file in data['target_build_files']: + if not 'targets' in data[build_file]: + continue + new_targets = [] + for target in data[build_file]['targets']: + qualified_name = gyp.common.QualifiedTarget(build_file, + target['target_name'], + target['toolset']) + if qualified_name in wanted_targets: + new_targets.append(target) + data[build_file]['targets'] = new_targets + + return wanted_targets, wanted_flat_list + + +def VerifyNoCollidingTargets(targets): + """Verify that no two targets in the same directory share the same name. + + Arguments: + targets: A list of targets in the form 'path/to/file.gyp:target_name'. + """ + # Keep a dict going from 'subdirectory:target_name' to 'foo.gyp'. + used = {} + for target in targets: + # Separate out 'path/to/file.gyp, 'target_name' from + # 'path/to/file.gyp:target_name'. + path, name = target.rsplit(':', 1) + # Separate out 'path/to', 'file.gyp' from 'path/to/file.gyp'. + subdir, gyp = os.path.split(path) + # Use '.' for the current directory '', so that the error messages make + # more sense. + if not subdir: + subdir = '.' + # Prepare a key like 'path/to:target_name'. + key = subdir + ':' + name + if key in used: + # Complain if this target is already used. + raise GypError('Duplicate target name "%s" in directory "%s" used both ' + 'in "%s" and "%s".' % (name, subdir, gyp, used[key])) + used[key] = gyp + + +def SetGeneratorGlobals(generator_input_info): + # Set up path_sections and non_configuration_keys with the default data plus + # the generator-specific data. + global path_sections + path_sections = base_path_sections[:] + path_sections.extend(generator_input_info['path_sections']) + + global non_configuration_keys + non_configuration_keys = base_non_configuration_keys[:] + non_configuration_keys.extend(generator_input_info['non_configuration_keys']) + + global multiple_toolsets + multiple_toolsets = generator_input_info[ + 'generator_supports_multiple_toolsets'] + + global generator_filelist_paths + generator_filelist_paths = generator_input_info['generator_filelist_paths'] + + +def Load(build_files, variables, includes, depth, generator_input_info, check, + circular_check, parallel, root_targets): + SetGeneratorGlobals(generator_input_info) + # A generator can have other lists (in addition to sources) be processed + # for rules. + extra_sources_for_rules = generator_input_info['extra_sources_for_rules'] + + # Load build files. This loads every target-containing build file into + # the |data| dictionary such that the keys to |data| are build file names, + # and the values are the entire build file contents after "early" or "pre" + # processing has been done and includes have been resolved. + # NOTE: data contains both "target" files (.gyp) and "includes" (.gypi), as + # well as meta-data (e.g. 'included_files' key). 'target_build_files' keeps + # track of the keys corresponding to "target" files. + data = {'target_build_files': set()} + aux_data = {} + # Normalize paths everywhere. This is important because paths will be + # used as keys to the data dict and for references between input files. + build_files = set(map(os.path.normpath, build_files)) + if parallel: + LoadTargetBuildFilesParallel(build_files, data, aux_data, + variables, includes, depth, check, + generator_input_info) + else: + for build_file in build_files: + try: + LoadTargetBuildFile(build_file, data, aux_data, + variables, includes, depth, check, True) + except Exception, e: + gyp.common.ExceptionAppend(e, 'while trying to load %s' % build_file) + raise + + # Build a dict to access each target's subdict by qualified name. + targets = BuildTargetsDict(data) + + # Fully qualify all dependency links. + QualifyDependencies(targets) + + # Remove self-dependencies from targets that have 'prune_self_dependencies' + # set to 1. + RemoveSelfDependencies(targets) + + # Expand dependencies specified as build_file:*. + ExpandWildcardDependencies(targets, data) + + # Apply exclude (!) and regex (/) list filters only for dependency_sections. + for target_name, target_dict in targets.iteritems(): + tmp_dict = {} + for key_base in dependency_sections: + for op in ('', '!', '/'): + key = key_base + op + if key in target_dict: + tmp_dict[key] = target_dict[key] + del target_dict[key] + ProcessListFiltersInDict(target_name, tmp_dict) + # Write the results back to |target_dict|. + for key in tmp_dict: + target_dict[key] = tmp_dict[key] + + # Make sure every dependency appears at most once. + RemoveDuplicateDependencies(targets) + + if circular_check: + # Make sure that any targets in a.gyp don't contain dependencies in other + # .gyp files that further depend on a.gyp. + VerifyNoGYPFileCircularDependencies(targets) + + [dependency_nodes, flat_list] = BuildDependencyList(targets) + + if root_targets: + # Remove, from |targets| and |flat_list|, the targets that are not deep + # dependencies of the targets specified in |root_targets|. + targets, flat_list = PruneUnwantedTargets( + targets, flat_list, dependency_nodes, root_targets, data) + + # Check that no two targets in the same directory have the same name. + VerifyNoCollidingTargets(flat_list) + + # Handle dependent settings of various types. + for settings_type in ['all_dependent_settings', + 'direct_dependent_settings', + 'link_settings']: + DoDependentSettings(settings_type, flat_list, targets, dependency_nodes) + + # Take out the dependent settings now that they've been published to all + # of the targets that require them. + for target in flat_list: + if settings_type in targets[target]: + del targets[target][settings_type] + + # Make sure static libraries don't declare dependencies on other static + # libraries, but that linkables depend on all unlinked static libraries + # that they need so that their link steps will be correct. + gii = generator_input_info + if gii['generator_wants_static_library_dependencies_adjusted']: + AdjustStaticLibraryDependencies(flat_list, targets, dependency_nodes, + gii['generator_wants_sorted_dependencies']) + + # Apply "post"/"late"/"target" variable expansions and condition evaluations. + for target in flat_list: + target_dict = targets[target] + build_file = gyp.common.BuildFile(target) + ProcessVariablesAndConditionsInDict( + target_dict, PHASE_LATE, variables, build_file) + + # Move everything that can go into a "configurations" section into one. + for target in flat_list: + target_dict = targets[target] + SetUpConfigurations(target, target_dict) + + # Apply exclude (!) and regex (/) list filters. + for target in flat_list: + target_dict = targets[target] + ProcessListFiltersInDict(target, target_dict) + + # Apply "latelate" variable expansions and condition evaluations. + for target in flat_list: + target_dict = targets[target] + build_file = gyp.common.BuildFile(target) + ProcessVariablesAndConditionsInDict( + target_dict, PHASE_LATELATE, variables, build_file) + + # Make sure that the rules make sense, and build up rule_sources lists as + # needed. Not all generators will need to use the rule_sources lists, but + # some may, and it seems best to build the list in a common spot. + # Also validate actions and run_as elements in targets. + for target in flat_list: + target_dict = targets[target] + build_file = gyp.common.BuildFile(target) + ValidateTargetType(target, target_dict) + # TODO(thakis): Get vpx_scale/arm/scalesystemdependent.c to be renamed to + # scalesystemdependent_arm_additions.c or similar. + if 'arm' not in variables.get('target_arch', ''): + ValidateSourcesInTarget(target, target_dict, build_file) + ValidateRulesInTarget(target, target_dict, extra_sources_for_rules) + ValidateRunAsInTarget(target, target_dict, build_file) + ValidateActionsInTarget(target, target_dict, build_file) + + # Generators might not expect ints. Turn them into strs. + TurnIntIntoStrInDict(data) + + # TODO(mark): Return |data| for now because the generator needs a list of + # build files that came in. In the future, maybe it should just accept + # a list, and not the whole data dict. + return [flat_list, targets, data] diff --git a/deps/gyp/pylib/gyp/input_test.py b/deps/gyp/pylib/gyp/input_test.py new file mode 100755 index 0000000000..cdbf6b2fad --- /dev/null +++ b/deps/gyp/pylib/gyp/input_test.py @@ -0,0 +1,90 @@ +#!/usr/bin/env python + +# Copyright 2013 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +"""Unit tests for the input.py file.""" + +import gyp.input +import unittest +import sys + + +class TestFindCycles(unittest.TestCase): + def setUp(self): + self.nodes = {} + for x in ('a', 'b', 'c', 'd', 'e'): + self.nodes[x] = gyp.input.DependencyGraphNode(x) + + def _create_dependency(self, dependent, dependency): + dependent.dependencies.append(dependency) + dependency.dependents.append(dependent) + + def test_no_cycle_empty_graph(self): + for label, node in self.nodes.iteritems(): + self.assertEquals([], node.FindCycles()) + + def test_no_cycle_line(self): + self._create_dependency(self.nodes['a'], self.nodes['b']) + self._create_dependency(self.nodes['b'], self.nodes['c']) + self._create_dependency(self.nodes['c'], self.nodes['d']) + + for label, node in self.nodes.iteritems(): + self.assertEquals([], node.FindCycles()) + + def test_no_cycle_dag(self): + self._create_dependency(self.nodes['a'], self.nodes['b']) + self._create_dependency(self.nodes['a'], self.nodes['c']) + self._create_dependency(self.nodes['b'], self.nodes['c']) + + for label, node in self.nodes.iteritems(): + self.assertEquals([], node.FindCycles()) + + def test_cycle_self_reference(self): + self._create_dependency(self.nodes['a'], self.nodes['a']) + + self.assertEquals([(self.nodes['a'], self.nodes['a'])], + self.nodes['a'].FindCycles()) + + def test_cycle_two_nodes(self): + self._create_dependency(self.nodes['a'], self.nodes['b']) + self._create_dependency(self.nodes['b'], self.nodes['a']) + + self.assertEquals([(self.nodes['a'], self.nodes['b'], self.nodes['a'])], + self.nodes['a'].FindCycles()) + self.assertEquals([(self.nodes['b'], self.nodes['a'], self.nodes['b'])], + self.nodes['b'].FindCycles()) + + def test_two_cycles(self): + self._create_dependency(self.nodes['a'], self.nodes['b']) + self._create_dependency(self.nodes['b'], self.nodes['a']) + + self._create_dependency(self.nodes['b'], self.nodes['c']) + self._create_dependency(self.nodes['c'], self.nodes['b']) + + cycles = self.nodes['a'].FindCycles() + self.assertTrue( + (self.nodes['a'], self.nodes['b'], self.nodes['a']) in cycles) + self.assertTrue( + (self.nodes['b'], self.nodes['c'], self.nodes['b']) in cycles) + self.assertEquals(2, len(cycles)) + + def test_big_cycle(self): + self._create_dependency(self.nodes['a'], self.nodes['b']) + self._create_dependency(self.nodes['b'], self.nodes['c']) + self._create_dependency(self.nodes['c'], self.nodes['d']) + self._create_dependency(self.nodes['d'], self.nodes['e']) + self._create_dependency(self.nodes['e'], self.nodes['a']) + + self.assertEquals([(self.nodes['a'], + self.nodes['b'], + self.nodes['c'], + self.nodes['d'], + self.nodes['e'], + self.nodes['a'])], + self.nodes['a'].FindCycles()) + + +if __name__ == '__main__': + unittest.main() diff --git a/deps/gyp/pylib/gyp/mac_tool.py b/deps/gyp/pylib/gyp/mac_tool.py new file mode 100755 index 0000000000..c61a3ef60b --- /dev/null +++ b/deps/gyp/pylib/gyp/mac_tool.py @@ -0,0 +1,510 @@ +#!/usr/bin/env python +# Copyright (c) 2012 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +"""Utility functions to perform Xcode-style build steps. + +These functions are executed via gyp-mac-tool when using the Makefile generator. +""" + +import fcntl +import fnmatch +import glob +import json +import os +import plistlib +import re +import shutil +import string +import subprocess +import sys +import tempfile + + +def main(args): + executor = MacTool() + exit_code = executor.Dispatch(args) + if exit_code is not None: + sys.exit(exit_code) + + +class MacTool(object): + """This class performs all the Mac tooling steps. The methods can either be + executed directly, or dispatched from an argument list.""" + + def Dispatch(self, args): + """Dispatches a string command to a method.""" + if len(args) < 1: + raise Exception("Not enough arguments") + + method = "Exec%s" % self._CommandifyName(args[0]) + return getattr(self, method)(*args[1:]) + + def _CommandifyName(self, name_string): + """Transforms a tool name like copy-info-plist to CopyInfoPlist""" + return name_string.title().replace('-', '') + + def ExecCopyBundleResource(self, source, dest): + """Copies a resource file to the bundle/Resources directory, performing any + necessary compilation on each resource.""" + extension = os.path.splitext(source)[1].lower() + if os.path.isdir(source): + # Copy tree. + # TODO(thakis): This copies file attributes like mtime, while the + # single-file branch below doesn't. This should probably be changed to + # be consistent with the single-file branch. + if os.path.exists(dest): + shutil.rmtree(dest) + shutil.copytree(source, dest) + elif extension == '.xib': + return self._CopyXIBFile(source, dest) + elif extension == '.storyboard': + return self._CopyXIBFile(source, dest) + elif extension == '.strings': + self._CopyStringsFile(source, dest) + else: + shutil.copy(source, dest) + + def _CopyXIBFile(self, source, dest): + """Compiles a XIB file with ibtool into a binary plist in the bundle.""" + + # ibtool sometimes crashes with relative paths. See crbug.com/314728. + base = os.path.dirname(os.path.realpath(__file__)) + if os.path.relpath(source): + source = os.path.join(base, source) + if os.path.relpath(dest): + dest = os.path.join(base, dest) + + args = ['xcrun', 'ibtool', '--errors', '--warnings', '--notices', + '--output-format', 'human-readable-text', '--compile', dest, source] + ibtool_section_re = re.compile(r'/\*.*\*/') + ibtool_re = re.compile(r'.*note:.*is clipping its content') + ibtoolout = subprocess.Popen(args, stdout=subprocess.PIPE) + current_section_header = None + for line in ibtoolout.stdout: + if ibtool_section_re.match(line): + current_section_header = line + elif not ibtool_re.match(line): + if current_section_header: + sys.stdout.write(current_section_header) + current_section_header = None + sys.stdout.write(line) + return ibtoolout.returncode + + def _CopyStringsFile(self, source, dest): + """Copies a .strings file using iconv to reconvert the input into UTF-16.""" + input_code = self._DetectInputEncoding(source) or "UTF-8" + + # Xcode's CpyCopyStringsFile / builtin-copyStrings seems to call + # CFPropertyListCreateFromXMLData() behind the scenes; at least it prints + # CFPropertyListCreateFromXMLData(): Old-style plist parser: missing + # semicolon in dictionary. + # on invalid files. Do the same kind of validation. + import CoreFoundation + s = open(source, 'rb').read() + d = CoreFoundation.CFDataCreate(None, s, len(s)) + _, error = CoreFoundation.CFPropertyListCreateFromXMLData(None, d, 0, None) + if error: + return + + fp = open(dest, 'wb') + fp.write(s.decode(input_code).encode('UTF-16')) + fp.close() + + def _DetectInputEncoding(self, file_name): + """Reads the first few bytes from file_name and tries to guess the text + encoding. Returns None as a guess if it can't detect it.""" + fp = open(file_name, 'rb') + try: + header = fp.read(3) + except e: + fp.close() + return None + fp.close() + if header.startswith("\xFE\xFF"): + return "UTF-16" + elif header.startswith("\xFF\xFE"): + return "UTF-16" + elif header.startswith("\xEF\xBB\xBF"): + return "UTF-8" + else: + return None + + def ExecCopyInfoPlist(self, source, dest, *keys): + """Copies the |source| Info.plist to the destination directory |dest|.""" + # Read the source Info.plist into memory. + fd = open(source, 'r') + lines = fd.read() + fd.close() + + # Insert synthesized key/value pairs (e.g. BuildMachineOSBuild). + plist = plistlib.readPlistFromString(lines) + if keys: + plist = dict(plist.items() + json.loads(keys[0]).items()) + lines = plistlib.writePlistToString(plist) + + # Go through all the environment variables and replace them as variables in + # the file. + IDENT_RE = re.compile('[/\s]') + for key in os.environ: + if key.startswith('_'): + continue + evar = '${%s}' % key + evalue = os.environ[key] + lines = string.replace(lines, evar, evalue) + + # Xcode supports various suffices on environment variables, which are + # all undocumented. :rfc1034identifier is used in the standard project + # template these days, and :identifier was used earlier. They are used to + # convert non-url characters into things that look like valid urls -- + # except that the replacement character for :identifier, '_' isn't valid + # in a URL either -- oops, hence :rfc1034identifier was born. + evar = '${%s:identifier}' % key + evalue = IDENT_RE.sub('_', os.environ[key]) + lines = string.replace(lines, evar, evalue) + + evar = '${%s:rfc1034identifier}' % key + evalue = IDENT_RE.sub('-', os.environ[key]) + lines = string.replace(lines, evar, evalue) + + # Remove any keys with values that haven't been replaced. + lines = lines.split('\n') + for i in range(len(lines)): + if lines[i].strip().startswith("<string>${"): + lines[i] = None + lines[i - 1] = None + lines = '\n'.join(filter(lambda x: x is not None, lines)) + + # Write out the file with variables replaced. + fd = open(dest, 'w') + fd.write(lines) + fd.close() + + # Now write out PkgInfo file now that the Info.plist file has been + # "compiled". + self._WritePkgInfo(dest) + + def _WritePkgInfo(self, info_plist): + """This writes the PkgInfo file from the data stored in Info.plist.""" + plist = plistlib.readPlist(info_plist) + if not plist: + return + + # Only create PkgInfo for executable types. + package_type = plist['CFBundlePackageType'] + if package_type != 'APPL': + return + + # The format of PkgInfo is eight characters, representing the bundle type + # and bundle signature, each four characters. If that is missing, four + # '?' characters are used instead. + signature_code = plist.get('CFBundleSignature', '????') + if len(signature_code) != 4: # Wrong length resets everything, too. + signature_code = '?' * 4 + + dest = os.path.join(os.path.dirname(info_plist), 'PkgInfo') + fp = open(dest, 'w') + fp.write('%s%s' % (package_type, signature_code)) + fp.close() + + def ExecFlock(self, lockfile, *cmd_list): + """Emulates the most basic behavior of Linux's flock(1).""" + # Rely on exception handling to report errors. + fd = os.open(lockfile, os.O_RDONLY|os.O_NOCTTY|os.O_CREAT, 0o666) + fcntl.flock(fd, fcntl.LOCK_EX) + return subprocess.call(cmd_list) + + def ExecFilterLibtool(self, *cmd_list): + """Calls libtool and filters out '/path/to/libtool: file: foo.o has no + symbols'.""" + libtool_re = re.compile(r'^.*libtool: file: .* has no symbols$') + libtoolout = subprocess.Popen(cmd_list, stderr=subprocess.PIPE) + _, err = libtoolout.communicate() + for line in err.splitlines(): + if not libtool_re.match(line): + print >>sys.stderr, line + return libtoolout.returncode + + def ExecPackageFramework(self, framework, version): + """Takes a path to Something.framework and the Current version of that and + sets up all the symlinks.""" + # Find the name of the binary based on the part before the ".framework". + binary = os.path.basename(framework).split('.')[0] + + CURRENT = 'Current' + RESOURCES = 'Resources' + VERSIONS = 'Versions' + + if not os.path.exists(os.path.join(framework, VERSIONS, version, binary)): + # Binary-less frameworks don't seem to contain symlinks (see e.g. + # chromium's out/Debug/org.chromium.Chromium.manifest/ bundle). + return + + # Move into the framework directory to set the symlinks correctly. + pwd = os.getcwd() + os.chdir(framework) + + # Set up the Current version. + self._Relink(version, os.path.join(VERSIONS, CURRENT)) + + # Set up the root symlinks. + self._Relink(os.path.join(VERSIONS, CURRENT, binary), binary) + self._Relink(os.path.join(VERSIONS, CURRENT, RESOURCES), RESOURCES) + + # Back to where we were before! + os.chdir(pwd) + + def _Relink(self, dest, link): + """Creates a symlink to |dest| named |link|. If |link| already exists, + it is overwritten.""" + if os.path.lexists(link): + os.remove(link) + os.symlink(dest, link) + + def ExecCodeSignBundle(self, key, resource_rules, entitlements, provisioning): + """Code sign a bundle. + + This function tries to code sign an iOS bundle, following the same + algorithm as Xcode: + 1. copy ResourceRules.plist from the user or the SDK into the bundle, + 2. pick the provisioning profile that best match the bundle identifier, + and copy it into the bundle as embedded.mobileprovision, + 3. copy Entitlements.plist from user or SDK next to the bundle, + 4. code sign the bundle. + """ + resource_rules_path = self._InstallResourceRules(resource_rules) + substitutions, overrides = self._InstallProvisioningProfile( + provisioning, self._GetCFBundleIdentifier()) + entitlements_path = self._InstallEntitlements( + entitlements, substitutions, overrides) + subprocess.check_call([ + 'codesign', '--force', '--sign', key, '--resource-rules', + resource_rules_path, '--entitlements', entitlements_path, + os.path.join( + os.environ['TARGET_BUILD_DIR'], + os.environ['FULL_PRODUCT_NAME'])]) + + def _InstallResourceRules(self, resource_rules): + """Installs ResourceRules.plist from user or SDK into the bundle. + + Args: + resource_rules: string, optional, path to the ResourceRules.plist file + to use, default to "${SDKROOT}/ResourceRules.plist" + + Returns: + Path to the copy of ResourceRules.plist into the bundle. + """ + source_path = resource_rules + target_path = os.path.join( + os.environ['BUILT_PRODUCTS_DIR'], + os.environ['CONTENTS_FOLDER_PATH'], + 'ResourceRules.plist') + if not source_path: + source_path = os.path.join( + os.environ['SDKROOT'], 'ResourceRules.plist') + shutil.copy2(source_path, target_path) + return target_path + + def _InstallProvisioningProfile(self, profile, bundle_identifier): + """Installs embedded.mobileprovision into the bundle. + + Args: + profile: string, optional, short name of the .mobileprovision file + to use, if empty or the file is missing, the best file installed + will be used + bundle_identifier: string, value of CFBundleIdentifier from Info.plist + + Returns: + A tuple containing two dictionary: variables substitutions and values + to overrides when generating the entitlements file. + """ + source_path, provisioning_data, team_id = self._FindProvisioningProfile( + profile, bundle_identifier) + target_path = os.path.join( + os.environ['BUILT_PRODUCTS_DIR'], + os.environ['CONTENTS_FOLDER_PATH'], + 'embedded.mobileprovision') + shutil.copy2(source_path, target_path) + substitutions = self._GetSubstitutions(bundle_identifier, team_id + '.') + return substitutions, provisioning_data['Entitlements'] + + def _FindProvisioningProfile(self, profile, bundle_identifier): + """Finds the .mobileprovision file to use for signing the bundle. + + Checks all the installed provisioning profiles (or if the user specified + the PROVISIONING_PROFILE variable, only consult it) and select the most + specific that correspond to the bundle identifier. + + Args: + profile: string, optional, short name of the .mobileprovision file + to use, if empty or the file is missing, the best file installed + will be used + bundle_identifier: string, value of CFBundleIdentifier from Info.plist + + Returns: + A tuple of the path to the selected provisioning profile, the data of + the embedded plist in the provisioning profile and the team identifier + to use for code signing. + + Raises: + SystemExit: if no .mobileprovision can be used to sign the bundle. + """ + profiles_dir = os.path.join( + os.environ['HOME'], 'Library', 'MobileDevice', 'Provisioning Profiles') + if not os.path.isdir(profiles_dir): + print >>sys.stderr, ( + 'cannot find mobile provisioning for %s' % bundle_identifier) + sys.exit(1) + provisioning_profiles = None + if profile: + profile_path = os.path.join(profiles_dir, profile + '.mobileprovision') + if os.path.exists(profile_path): + provisioning_profiles = [profile_path] + if not provisioning_profiles: + provisioning_profiles = glob.glob( + os.path.join(profiles_dir, '*.mobileprovision')) + valid_provisioning_profiles = {} + for profile_path in provisioning_profiles: + profile_data = self._LoadProvisioningProfile(profile_path) + app_id_pattern = profile_data.get( + 'Entitlements', {}).get('application-identifier', '') + for team_identifier in profile_data.get('TeamIdentifier', []): + app_id = '%s.%s' % (team_identifier, bundle_identifier) + if fnmatch.fnmatch(app_id, app_id_pattern): + valid_provisioning_profiles[app_id_pattern] = ( + profile_path, profile_data, team_identifier) + if not valid_provisioning_profiles: + print >>sys.stderr, ( + 'cannot find mobile provisioning for %s' % bundle_identifier) + sys.exit(1) + # If the user has multiple provisioning profiles installed that can be + # used for ${bundle_identifier}, pick the most specific one (ie. the + # provisioning profile whose pattern is the longest). + selected_key = max(valid_provisioning_profiles, key=lambda v: len(v)) + return valid_provisioning_profiles[selected_key] + + def _LoadProvisioningProfile(self, profile_path): + """Extracts the plist embedded in a provisioning profile. + + Args: + profile_path: string, path to the .mobileprovision file + + Returns: + Content of the plist embedded in the provisioning profile as a dictionary. + """ + with tempfile.NamedTemporaryFile() as temp: + subprocess.check_call([ + 'security', 'cms', '-D', '-i', profile_path, '-o', temp.name]) + return self._LoadPlistMaybeBinary(temp.name) + + def _LoadPlistMaybeBinary(self, plist_path): + """Loads into a memory a plist possibly encoded in binary format. + + This is a wrapper around plistlib.readPlist that tries to convert the + plist to the XML format if it can't be parsed (assuming that it is in + the binary format). + + Args: + plist_path: string, path to a plist file, in XML or binary format + + Returns: + Content of the plist as a dictionary. + """ + try: + # First, try to read the file using plistlib that only supports XML, + # and if an exception is raised, convert a temporary copy to XML and + # load that copy. + return plistlib.readPlist(plist_path) + except: + pass + with tempfile.NamedTemporaryFile() as temp: + shutil.copy2(plist_path, temp.name) + subprocess.check_call(['plutil', '-convert', 'xml1', temp.name]) + return plistlib.readPlist(temp.name) + + def _GetSubstitutions(self, bundle_identifier, app_identifier_prefix): + """Constructs a dictionary of variable substitutions for Entitlements.plist. + + Args: + bundle_identifier: string, value of CFBundleIdentifier from Info.plist + app_identifier_prefix: string, value for AppIdentifierPrefix + + Returns: + Dictionary of substitutions to apply when generating Entitlements.plist. + """ + return { + 'CFBundleIdentifier': bundle_identifier, + 'AppIdentifierPrefix': app_identifier_prefix, + } + + def _GetCFBundleIdentifier(self): + """Extracts CFBundleIdentifier value from Info.plist in the bundle. + + Returns: + Value of CFBundleIdentifier in the Info.plist located in the bundle. + """ + info_plist_path = os.path.join( + os.environ['TARGET_BUILD_DIR'], + os.environ['INFOPLIST_PATH']) + info_plist_data = self._LoadPlistMaybeBinary(info_plist_path) + return info_plist_data['CFBundleIdentifier'] + + def _InstallEntitlements(self, entitlements, substitutions, overrides): + """Generates and install the ${BundleName}.xcent entitlements file. + + Expands variables "$(variable)" pattern in the source entitlements file, + add extra entitlements defined in the .mobileprovision file and the copy + the generated plist to "${BundlePath}.xcent". + + Args: + entitlements: string, optional, path to the Entitlements.plist template + to use, defaults to "${SDKROOT}/Entitlements.plist" + substitutions: dictionary, variable substitutions + overrides: dictionary, values to add to the entitlements + + Returns: + Path to the generated entitlements file. + """ + source_path = entitlements + target_path = os.path.join( + os.environ['BUILT_PRODUCTS_DIR'], + os.environ['PRODUCT_NAME'] + '.xcent') + if not source_path: + source_path = os.path.join( + os.environ['SDKROOT'], + 'Entitlements.plist') + shutil.copy2(source_path, target_path) + data = self._LoadPlistMaybeBinary(target_path) + data = self._ExpandVariables(data, substitutions) + if overrides: + for key in overrides: + if key not in data: + data[key] = overrides[key] + plistlib.writePlist(data, target_path) + return target_path + + def _ExpandVariables(self, data, substitutions): + """Expands variables "$(variable)" in data. + + Args: + data: object, can be either string, list or dictionary + substitutions: dictionary, variable substitutions to perform + + Returns: + Copy of data where each references to "$(variable)" has been replaced + by the corresponding value found in substitutions, or left intact if + the key was not found. + """ + if isinstance(data, str): + for key, value in substitutions.iteritems(): + data = data.replace('$(%s)' % key, value) + return data + if isinstance(data, list): + return [self._ExpandVariables(v, substitutions) for v in data] + if isinstance(data, dict): + return {k: self._ExpandVariables(data[k], substitutions) for k in data} + return data + +if __name__ == '__main__': + sys.exit(main(sys.argv[1:])) diff --git a/deps/gyp/pylib/gyp/msvs_emulation.py b/deps/gyp/pylib/gyp/msvs_emulation.py new file mode 100644 index 0000000000..709ba305d2 --- /dev/null +++ b/deps/gyp/pylib/gyp/msvs_emulation.py @@ -0,0 +1,972 @@ +# Copyright (c) 2012 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +""" +This module helps emulate Visual Studio 2008 behavior on top of other +build systems, primarily ninja. +""" + +import os +import re +import subprocess +import sys + +import gyp.MSVSVersion + +windows_quoter_regex = re.compile(r'(\\*)"') + +def QuoteForRspFile(arg): + """Quote a command line argument so that it appears as one argument when + processed via cmd.exe and parsed by CommandLineToArgvW (as is typical for + Windows programs).""" + # See http://goo.gl/cuFbX and http://goo.gl/dhPnp including the comment + # threads. This is actually the quoting rules for CommandLineToArgvW, not + # for the shell, because the shell doesn't do anything in Windows. This + # works more or less because most programs (including the compiler, etc.) + # use that function to handle command line arguments. + + # For a literal quote, CommandLineToArgvW requires 2n+1 backslashes + # preceding it, and results in n backslashes + the quote. So we substitute + # in 2* what we match, +1 more, plus the quote. + arg = windows_quoter_regex.sub(lambda mo: 2 * mo.group(1) + '\\"', arg) + + # %'s also need to be doubled otherwise they're interpreted as batch + # positional arguments. Also make sure to escape the % so that they're + # passed literally through escaping so they can be singled to just the + # original %. Otherwise, trying to pass the literal representation that + # looks like an environment variable to the shell (e.g. %PATH%) would fail. + arg = arg.replace('%', '%%') + + # These commands are used in rsp files, so no escaping for the shell (via ^) + # is necessary. + + # Finally, wrap the whole thing in quotes so that the above quote rule + # applies and whitespace isn't a word break. + return '"' + arg + '"' + + +def EncodeRspFileList(args): + """Process a list of arguments using QuoteCmdExeArgument.""" + # Note that the first argument is assumed to be the command. Don't add + # quotes around it because then built-ins like 'echo', etc. won't work. + # Take care to normpath only the path in the case of 'call ../x.bat' because + # otherwise the whole thing is incorrectly interpreted as a path and not + # normalized correctly. + if not args: return '' + if args[0].startswith('call '): + call, program = args[0].split(' ', 1) + program = call + ' ' + os.path.normpath(program) + else: + program = os.path.normpath(args[0]) + return program + ' ' + ' '.join(QuoteForRspFile(arg) for arg in args[1:]) + + +def _GenericRetrieve(root, default, path): + """Given a list of dictionary keys |path| and a tree of dicts |root|, find + value at path, or return |default| if any of the path doesn't exist.""" + if not root: + return default + if not path: + return root + return _GenericRetrieve(root.get(path[0]), default, path[1:]) + + +def _AddPrefix(element, prefix): + """Add |prefix| to |element| or each subelement if element is iterable.""" + if element is None: + return element + # Note, not Iterable because we don't want to handle strings like that. + if isinstance(element, list) or isinstance(element, tuple): + return [prefix + e for e in element] + else: + return prefix + element + + +def _DoRemapping(element, map): + """If |element| then remap it through |map|. If |element| is iterable then + each item will be remapped. Any elements not found will be removed.""" + if map is not None and element is not None: + if not callable(map): + map = map.get # Assume it's a dict, otherwise a callable to do the remap. + if isinstance(element, list) or isinstance(element, tuple): + element = filter(None, [map(elem) for elem in element]) + else: + element = map(element) + return element + + +def _AppendOrReturn(append, element): + """If |append| is None, simply return |element|. If |append| is not None, + then add |element| to it, adding each item in |element| if it's a list or + tuple.""" + if append is not None and element is not None: + if isinstance(element, list) or isinstance(element, tuple): + append.extend(element) + else: + append.append(element) + else: + return element + + +def _FindDirectXInstallation(): + """Try to find an installation location for the DirectX SDK. Check for the + standard environment variable, and if that doesn't exist, try to find + via the registry. May return None if not found in either location.""" + # Return previously calculated value, if there is one + if hasattr(_FindDirectXInstallation, 'dxsdk_dir'): + return _FindDirectXInstallation.dxsdk_dir + + dxsdk_dir = os.environ.get('DXSDK_DIR') + if not dxsdk_dir: + # Setup params to pass to and attempt to launch reg.exe. + cmd = ['reg.exe', 'query', r'HKLM\Software\Microsoft\DirectX', '/s'] + p = subprocess.Popen(cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE) + for line in p.communicate()[0].splitlines(): + if 'InstallPath' in line: + dxsdk_dir = line.split(' ')[3] + "\\" + + # Cache return value + _FindDirectXInstallation.dxsdk_dir = dxsdk_dir + return dxsdk_dir + + +class MsvsSettings(object): + """A class that understands the gyp 'msvs_...' values (especially the + msvs_settings field). They largely correpond to the VS2008 IDE DOM. This + class helps map those settings to command line options.""" + + def __init__(self, spec, generator_flags): + self.spec = spec + self.vs_version = GetVSVersion(generator_flags) + self.dxsdk_dir = _FindDirectXInstallation() + + # Try to find an installation location for the Windows DDK by checking + # the WDK_DIR environment variable, may be None. + self.wdk_dir = os.environ.get('WDK_DIR') + + supported_fields = [ + ('msvs_configuration_attributes', dict), + ('msvs_settings', dict), + ('msvs_system_include_dirs', list), + ('msvs_disabled_warnings', list), + ('msvs_precompiled_header', str), + ('msvs_precompiled_source', str), + ('msvs_configuration_platform', str), + ('msvs_target_platform', str), + ] + configs = spec['configurations'] + for field, default in supported_fields: + setattr(self, field, {}) + for configname, config in configs.iteritems(): + getattr(self, field)[configname] = config.get(field, default()) + + self.msvs_cygwin_dirs = spec.get('msvs_cygwin_dirs', ['.']) + + unsupported_fields = [ + 'msvs_prebuild', + 'msvs_postbuild', + ] + unsupported = [] + for field in unsupported_fields: + for config in configs.values(): + if field in config: + unsupported += ["%s not supported (target %s)." % + (field, spec['target_name'])] + if unsupported: + raise Exception('\n'.join(unsupported)) + + def GetVSMacroEnv(self, base_to_build=None, config=None): + """Get a dict of variables mapping internal VS macro names to their gyp + equivalents.""" + target_platform = 'Win32' if self.GetArch(config) == 'x86' else 'x64' + target_name = self.spec.get('product_prefix', '') + \ + self.spec.get('product_name', self.spec['target_name']) + target_dir = base_to_build + '\\' if base_to_build else '' + replacements = { + '$(OutDir)\\': target_dir, + '$(TargetDir)\\': target_dir, + '$(IntDir)': '$!INTERMEDIATE_DIR', + '$(InputPath)': '${source}', + '$(InputName)': '${root}', + '$(ProjectName)': self.spec['target_name'], + '$(TargetName)': target_name, + '$(PlatformName)': target_platform, + '$(ProjectDir)\\': '', + } + # '$(VSInstallDir)' and '$(VCInstallDir)' are available when and only when + # Visual Studio is actually installed. + if self.vs_version.Path(): + replacements['$(VSInstallDir)'] = self.vs_version.Path() + replacements['$(VCInstallDir)'] = os.path.join(self.vs_version.Path(), + 'VC') + '\\' + # Chromium uses DXSDK_DIR in include/lib paths, but it may or may not be + # set. This happens when the SDK is sync'd via src-internal, rather than + # by typical end-user installation of the SDK. If it's not set, we don't + # want to leave the unexpanded variable in the path, so simply strip it. + replacements['$(DXSDK_DIR)'] = self.dxsdk_dir if self.dxsdk_dir else '' + replacements['$(WDK_DIR)'] = self.wdk_dir if self.wdk_dir else '' + return replacements + + def ConvertVSMacros(self, s, base_to_build=None, config=None): + """Convert from VS macro names to something equivalent.""" + env = self.GetVSMacroEnv(base_to_build, config=config) + return ExpandMacros(s, env) + + def AdjustLibraries(self, libraries): + """Strip -l from library if it's specified with that.""" + libs = [lib[2:] if lib.startswith('-l') else lib for lib in libraries] + return [lib + '.lib' if not lib.endswith('.lib') else lib for lib in libs] + + def _GetAndMunge(self, field, path, default, prefix, append, map): + """Retrieve a value from |field| at |path| or return |default|. If + |append| is specified, and the item is found, it will be appended to that + object instead of returned. If |map| is specified, results will be + remapped through |map| before being returned or appended.""" + result = _GenericRetrieve(field, default, path) + result = _DoRemapping(result, map) + result = _AddPrefix(result, prefix) + return _AppendOrReturn(append, result) + + class _GetWrapper(object): + def __init__(self, parent, field, base_path, append=None): + self.parent = parent + self.field = field + self.base_path = [base_path] + self.append = append + def __call__(self, name, map=None, prefix='', default=None): + return self.parent._GetAndMunge(self.field, self.base_path + [name], + default=default, prefix=prefix, append=self.append, map=map) + + def GetArch(self, config): + """Get architecture based on msvs_configuration_platform and + msvs_target_platform. Returns either 'x86' or 'x64'.""" + configuration_platform = self.msvs_configuration_platform.get(config, '') + platform = self.msvs_target_platform.get(config, '') + if not platform: # If no specific override, use the configuration's. + platform = configuration_platform + # Map from platform to architecture. + return {'Win32': 'x86', 'x64': 'x64'}.get(platform, 'x86') + + def _TargetConfig(self, config): + """Returns the target-specific configuration.""" + # There's two levels of architecture/platform specification in VS. The + # first level is globally for the configuration (this is what we consider + # "the" config at the gyp level, which will be something like 'Debug' or + # 'Release_x64'), and a second target-specific configuration, which is an + # override for the global one. |config| is remapped here to take into + # account the local target-specific overrides to the global configuration. + arch = self.GetArch(config) + if arch == 'x64' and not config.endswith('_x64'): + config += '_x64' + if arch == 'x86' and config.endswith('_x64'): + config = config.rsplit('_', 1)[0] + return config + + def _Setting(self, path, config, + default=None, prefix='', append=None, map=None): + """_GetAndMunge for msvs_settings.""" + return self._GetAndMunge( + self.msvs_settings[config], path, default, prefix, append, map) + + def _ConfigAttrib(self, path, config, + default=None, prefix='', append=None, map=None): + """_GetAndMunge for msvs_configuration_attributes.""" + return self._GetAndMunge( + self.msvs_configuration_attributes[config], + path, default, prefix, append, map) + + def AdjustIncludeDirs(self, include_dirs, config): + """Updates include_dirs to expand VS specific paths, and adds the system + include dirs used for platform SDK and similar.""" + config = self._TargetConfig(config) + includes = include_dirs + self.msvs_system_include_dirs[config] + includes.extend(self._Setting( + ('VCCLCompilerTool', 'AdditionalIncludeDirectories'), config, default=[])) + return [self.ConvertVSMacros(p, config=config) for p in includes] + + def GetComputedDefines(self, config): + """Returns the set of defines that are injected to the defines list based + on other VS settings.""" + config = self._TargetConfig(config) + defines = [] + if self._ConfigAttrib(['CharacterSet'], config) == '1': + defines.extend(('_UNICODE', 'UNICODE')) + if self._ConfigAttrib(['CharacterSet'], config) == '2': + defines.append('_MBCS') + defines.extend(self._Setting( + ('VCCLCompilerTool', 'PreprocessorDefinitions'), config, default=[])) + return defines + + def GetCompilerPdbName(self, config, expand_special): + """Get the pdb file name that should be used for compiler invocations, or + None if there's no explicit name specified.""" + config = self._TargetConfig(config) + pdbname = self._Setting( + ('VCCLCompilerTool', 'ProgramDataBaseFileName'), config) + if pdbname: + pdbname = expand_special(self.ConvertVSMacros(pdbname)) + return pdbname + + def GetMapFileName(self, config, expand_special): + """Gets the explicitly overriden map file name for a target or returns None + if it's not set.""" + config = self._TargetConfig(config) + map_file = self._Setting(('VCLinkerTool', 'MapFileName'), config) + if map_file: + map_file = expand_special(self.ConvertVSMacros(map_file, config=config)) + return map_file + + def GetOutputName(self, config, expand_special): + """Gets the explicitly overridden output name for a target or returns None + if it's not overridden.""" + config = self._TargetConfig(config) + type = self.spec['type'] + root = 'VCLibrarianTool' if type == 'static_library' else 'VCLinkerTool' + # TODO(scottmg): Handle OutputDirectory without OutputFile. + output_file = self._Setting((root, 'OutputFile'), config) + if output_file: + output_file = expand_special(self.ConvertVSMacros( + output_file, config=config)) + return output_file + + def GetPDBName(self, config, expand_special, default): + """Gets the explicitly overridden pdb name for a target or returns + default if it's not overridden, or if no pdb will be generated.""" + config = self._TargetConfig(config) + output_file = self._Setting(('VCLinkerTool', 'ProgramDatabaseFile'), config) + generate_debug_info = self._Setting( + ('VCLinkerTool', 'GenerateDebugInformation'), config) + if generate_debug_info: + if output_file: + return expand_special(self.ConvertVSMacros(output_file, config=config)) + else: + return default + else: + return None + + def GetCflags(self, config): + """Returns the flags that need to be added to .c and .cc compilations.""" + config = self._TargetConfig(config) + cflags = [] + cflags.extend(['/wd' + w for w in self.msvs_disabled_warnings[config]]) + cl = self._GetWrapper(self, self.msvs_settings[config], + 'VCCLCompilerTool', append=cflags) + cl('Optimization', + map={'0': 'd', '1': '1', '2': '2', '3': 'x'}, prefix='/O', default='2') + cl('InlineFunctionExpansion', prefix='/Ob') + cl('DisableSpecificWarnings', prefix='/wd') + cl('StringPooling', map={'true': '/GF'}) + cl('EnableFiberSafeOptimizations', map={'true': '/GT'}) + cl('OmitFramePointers', map={'false': '-', 'true': ''}, prefix='/Oy') + cl('EnableIntrinsicFunctions', map={'false': '-', 'true': ''}, prefix='/Oi') + cl('FavorSizeOrSpeed', map={'1': 't', '2': 's'}, prefix='/O') + cl('WholeProgramOptimization', map={'true': '/GL'}) + cl('WarningLevel', prefix='/W') + cl('WarnAsError', map={'true': '/WX'}) + cl('DebugInformationFormat', + map={'1': '7', '3': 'i', '4': 'I'}, prefix='/Z') + cl('RuntimeTypeInfo', map={'true': '/GR', 'false': '/GR-'}) + cl('EnableFunctionLevelLinking', map={'true': '/Gy', 'false': '/Gy-'}) + cl('MinimalRebuild', map={'true': '/Gm'}) + cl('BufferSecurityCheck', map={'true': '/GS', 'false': '/GS-'}) + cl('BasicRuntimeChecks', map={'1': 's', '2': 'u', '3': '1'}, prefix='/RTC') + cl('RuntimeLibrary', + map={'0': 'T', '1': 'Td', '2': 'D', '3': 'Dd'}, prefix='/M') + cl('ExceptionHandling', map={'1': 'sc','2': 'a'}, prefix='/EH') + cl('DefaultCharIsUnsigned', map={'true': '/J'}) + cl('TreatWChar_tAsBuiltInType', + map={'false': '-', 'true': ''}, prefix='/Zc:wchar_t') + cl('EnablePREfast', map={'true': '/analyze'}) + cl('AdditionalOptions', prefix='') + cflags.extend(['/FI' + f for f in self._Setting( + ('VCCLCompilerTool', 'ForcedIncludeFiles'), config, default=[])]) + if self.vs_version.short_name in ('2013', '2013e'): + # New flag required in 2013 to maintain previous PDB behavior. + cflags.append('/FS') + # ninja handles parallelism by itself, don't have the compiler do it too. + cflags = filter(lambda x: not x.startswith('/MP'), cflags) + return cflags + + def GetPrecompiledHeader(self, config, gyp_to_build_path): + """Returns an object that handles the generation of precompiled header + build steps.""" + config = self._TargetConfig(config) + return _PchHelper(self, config, gyp_to_build_path) + + def _GetPchFlags(self, config, extension): + """Get the flags to be added to the cflags for precompiled header support. + """ + config = self._TargetConfig(config) + # The PCH is only built once by a particular source file. Usage of PCH must + # only be for the same language (i.e. C vs. C++), so only include the pch + # flags when the language matches. + if self.msvs_precompiled_header[config]: + source_ext = os.path.splitext(self.msvs_precompiled_source[config])[1] + if _LanguageMatchesForPch(source_ext, extension): + pch = os.path.split(self.msvs_precompiled_header[config])[1] + return ['/Yu' + pch, '/FI' + pch, '/Fp${pchprefix}.' + pch + '.pch'] + return [] + + def GetCflagsC(self, config): + """Returns the flags that need to be added to .c compilations.""" + config = self._TargetConfig(config) + return self._GetPchFlags(config, '.c') + + def GetCflagsCC(self, config): + """Returns the flags that need to be added to .cc compilations.""" + config = self._TargetConfig(config) + return ['/TP'] + self._GetPchFlags(config, '.cc') + + def _GetAdditionalLibraryDirectories(self, root, config, gyp_to_build_path): + """Get and normalize the list of paths in AdditionalLibraryDirectories + setting.""" + config = self._TargetConfig(config) + libpaths = self._Setting((root, 'AdditionalLibraryDirectories'), + config, default=[]) + libpaths = [os.path.normpath( + gyp_to_build_path(self.ConvertVSMacros(p, config=config))) + for p in libpaths] + return ['/LIBPATH:"' + p + '"' for p in libpaths] + + def GetLibFlags(self, config, gyp_to_build_path): + """Returns the flags that need to be added to lib commands.""" + config = self._TargetConfig(config) + libflags = [] + lib = self._GetWrapper(self, self.msvs_settings[config], + 'VCLibrarianTool', append=libflags) + libflags.extend(self._GetAdditionalLibraryDirectories( + 'VCLibrarianTool', config, gyp_to_build_path)) + lib('LinkTimeCodeGeneration', map={'true': '/LTCG'}) + lib('TargetMachine', map={'1': 'X86', '17': 'X64'}, prefix='/MACHINE:') + lib('AdditionalOptions') + return libflags + + def GetDefFile(self, gyp_to_build_path): + """Returns the .def file from sources, if any. Otherwise returns None.""" + spec = self.spec + if spec['type'] in ('shared_library', 'loadable_module', 'executable'): + def_files = [s for s in spec.get('sources', []) if s.endswith('.def')] + if len(def_files) == 1: + return gyp_to_build_path(def_files[0]) + elif len(def_files) > 1: + raise Exception("Multiple .def files") + return None + + def _GetDefFileAsLdflags(self, ldflags, gyp_to_build_path): + """.def files get implicitly converted to a ModuleDefinitionFile for the + linker in the VS generator. Emulate that behaviour here.""" + def_file = self.GetDefFile(gyp_to_build_path) + if def_file: + ldflags.append('/DEF:"%s"' % def_file) + + def GetPGDName(self, config, expand_special): + """Gets the explicitly overridden pgd name for a target or returns None + if it's not overridden.""" + config = self._TargetConfig(config) + output_file = self._Setting( + ('VCLinkerTool', 'ProfileGuidedDatabase'), config) + if output_file: + output_file = expand_special(self.ConvertVSMacros( + output_file, config=config)) + return output_file + + def GetLdflags(self, config, gyp_to_build_path, expand_special, + manifest_base_name, output_name, is_executable, build_dir): + """Returns the flags that need to be added to link commands, and the + manifest files.""" + config = self._TargetConfig(config) + ldflags = [] + ld = self._GetWrapper(self, self.msvs_settings[config], + 'VCLinkerTool', append=ldflags) + self._GetDefFileAsLdflags(ldflags, gyp_to_build_path) + ld('GenerateDebugInformation', map={'true': '/DEBUG'}) + ld('TargetMachine', map={'1': 'X86', '17': 'X64'}, prefix='/MACHINE:') + ldflags.extend(self._GetAdditionalLibraryDirectories( + 'VCLinkerTool', config, gyp_to_build_path)) + ld('DelayLoadDLLs', prefix='/DELAYLOAD:') + ld('TreatLinkerWarningAsErrors', prefix='/WX', + map={'true': '', 'false': ':NO'}) + out = self.GetOutputName(config, expand_special) + if out: + ldflags.append('/OUT:' + out) + pdb = self.GetPDBName(config, expand_special, output_name + '.pdb') + if pdb: + ldflags.append('/PDB:' + pdb) + pgd = self.GetPGDName(config, expand_special) + if pgd: + ldflags.append('/PGD:' + pgd) + map_file = self.GetMapFileName(config, expand_special) + ld('GenerateMapFile', map={'true': '/MAP:' + map_file if map_file + else '/MAP'}) + ld('MapExports', map={'true': '/MAPINFO:EXPORTS'}) + ld('AdditionalOptions', prefix='') + + minimum_required_version = self._Setting( + ('VCLinkerTool', 'MinimumRequiredVersion'), config, default='') + if minimum_required_version: + minimum_required_version = ',' + minimum_required_version + ld('SubSystem', + map={'1': 'CONSOLE%s' % minimum_required_version, + '2': 'WINDOWS%s' % minimum_required_version}, + prefix='/SUBSYSTEM:') + + ld('TerminalServerAware', map={'1': ':NO', '2': ''}, prefix='/TSAWARE') + ld('LinkIncremental', map={'1': ':NO', '2': ''}, prefix='/INCREMENTAL') + ld('BaseAddress', prefix='/BASE:') + ld('FixedBaseAddress', map={'1': ':NO', '2': ''}, prefix='/FIXED') + ld('RandomizedBaseAddress', + map={'1': ':NO', '2': ''}, prefix='/DYNAMICBASE') + ld('DataExecutionPrevention', + map={'1': ':NO', '2': ''}, prefix='/NXCOMPAT') + ld('OptimizeReferences', map={'1': 'NOREF', '2': 'REF'}, prefix='/OPT:') + ld('ForceSymbolReferences', prefix='/INCLUDE:') + ld('EnableCOMDATFolding', map={'1': 'NOICF', '2': 'ICF'}, prefix='/OPT:') + ld('LinkTimeCodeGeneration', + map={'1': '', '2': ':PGINSTRUMENT', '3': ':PGOPTIMIZE', + '4': ':PGUPDATE'}, + prefix='/LTCG') + ld('IgnoreDefaultLibraryNames', prefix='/NODEFAULTLIB:') + ld('ResourceOnlyDLL', map={'true': '/NOENTRY'}) + ld('EntryPointSymbol', prefix='/ENTRY:') + ld('Profile', map={'true': '/PROFILE'}) + ld('LargeAddressAware', + map={'1': ':NO', '2': ''}, prefix='/LARGEADDRESSAWARE') + # TODO(scottmg): This should sort of be somewhere else (not really a flag). + ld('AdditionalDependencies', prefix='') + + # If the base address is not specifically controlled, DYNAMICBASE should + # be on by default. + base_flags = filter(lambda x: 'DYNAMICBASE' in x or x == '/FIXED', + ldflags) + if not base_flags: + ldflags.append('/DYNAMICBASE') + + # If the NXCOMPAT flag has not been specified, default to on. Despite the + # documentation that says this only defaults to on when the subsystem is + # Vista or greater (which applies to the linker), the IDE defaults it on + # unless it's explicitly off. + if not filter(lambda x: 'NXCOMPAT' in x, ldflags): + ldflags.append('/NXCOMPAT') + + have_def_file = filter(lambda x: x.startswith('/DEF:'), ldflags) + manifest_flags, intermediate_manifest, manifest_files = \ + self._GetLdManifestFlags(config, manifest_base_name, gyp_to_build_path, + is_executable and not have_def_file, build_dir) + ldflags.extend(manifest_flags) + return ldflags, intermediate_manifest, manifest_files + + def _GetLdManifestFlags(self, config, name, gyp_to_build_path, + allow_isolation, build_dir): + """Returns a 3-tuple: + - the set of flags that need to be added to the link to generate + a default manifest + - the intermediate manifest that the linker will generate that should be + used to assert it doesn't add anything to the merged one. + - the list of all the manifest files to be merged by the manifest tool and + included into the link.""" + generate_manifest = self._Setting(('VCLinkerTool', 'GenerateManifest'), + config, + default='true') + if generate_manifest != 'true': + # This means not only that the linker should not generate the intermediate + # manifest but also that the manifest tool should do nothing even when + # additional manifests are specified. + return ['/MANIFEST:NO'], [], [] + + output_name = name + '.intermediate.manifest' + flags = [ + '/MANIFEST', + '/ManifestFile:' + output_name, + ] + + # Instead of using the MANIFESTUAC flags, we generate a .manifest to + # include into the list of manifests. This allows us to avoid the need to + # do two passes during linking. The /MANIFEST flag and /ManifestFile are + # still used, and the intermediate manifest is used to assert that the + # final manifest we get from merging all the additional manifest files + # (plus the one we generate here) isn't modified by merging the + # intermediate into it. + + # Always NO, because we generate a manifest file that has what we want. + flags.append('/MANIFESTUAC:NO') + + config = self._TargetConfig(config) + enable_uac = self._Setting(('VCLinkerTool', 'EnableUAC'), config, + default='true') + manifest_files = [] + generated_manifest_outer = \ +"<?xml version='1.0' encoding='UTF-8' standalone='yes'?>" \ +"<assembly xmlns='urn:schemas-microsoft-com:asm.v1' manifestVersion='1.0'>%s" \ +"</assembly>" + if enable_uac == 'true': + execution_level = self._Setting(('VCLinkerTool', 'UACExecutionLevel'), + config, default='0') + execution_level_map = { + '0': 'asInvoker', + '1': 'highestAvailable', + '2': 'requireAdministrator' + } + + ui_access = self._Setting(('VCLinkerTool', 'UACUIAccess'), config, + default='false') + + inner = ''' +<trustInfo xmlns="urn:schemas-microsoft-com:asm.v3"> + <security> + <requestedPrivileges> + <requestedExecutionLevel level='%s' uiAccess='%s' /> + </requestedPrivileges> + </security> +</trustInfo>''' % (execution_level_map[execution_level], ui_access) + else: + inner = '' + + generated_manifest_contents = generated_manifest_outer % inner + generated_name = name + '.generated.manifest' + # Need to join with the build_dir here as we're writing it during + # generation time, but we return the un-joined version because the build + # will occur in that directory. We only write the file if the contents + # have changed so that simply regenerating the project files doesn't + # cause a relink. + build_dir_generated_name = os.path.join(build_dir, generated_name) + gyp.common.EnsureDirExists(build_dir_generated_name) + f = gyp.common.WriteOnDiff(build_dir_generated_name) + f.write(generated_manifest_contents) + f.close() + manifest_files = [generated_name] + + if allow_isolation: + flags.append('/ALLOWISOLATION') + + manifest_files += self._GetAdditionalManifestFiles(config, + gyp_to_build_path) + return flags, output_name, manifest_files + + def _GetAdditionalManifestFiles(self, config, gyp_to_build_path): + """Gets additional manifest files that are added to the default one + generated by the linker.""" + files = self._Setting(('VCManifestTool', 'AdditionalManifestFiles'), config, + default=[]) + if isinstance(files, str): + files = files.split(';') + return [os.path.normpath( + gyp_to_build_path(self.ConvertVSMacros(f, config=config))) + for f in files] + + def IsUseLibraryDependencyInputs(self, config): + """Returns whether the target should be linked via Use Library Dependency + Inputs (using component .objs of a given .lib).""" + config = self._TargetConfig(config) + uldi = self._Setting(('VCLinkerTool', 'UseLibraryDependencyInputs'), config) + return uldi == 'true' + + def IsEmbedManifest(self, config): + """Returns whether manifest should be linked into binary.""" + config = self._TargetConfig(config) + embed = self._Setting(('VCManifestTool', 'EmbedManifest'), config, + default='true') + return embed == 'true' + + def IsLinkIncremental(self, config): + """Returns whether the target should be linked incrementally.""" + config = self._TargetConfig(config) + link_inc = self._Setting(('VCLinkerTool', 'LinkIncremental'), config) + return link_inc != '1' + + def GetRcflags(self, config, gyp_to_ninja_path): + """Returns the flags that need to be added to invocations of the resource + compiler.""" + config = self._TargetConfig(config) + rcflags = [] + rc = self._GetWrapper(self, self.msvs_settings[config], + 'VCResourceCompilerTool', append=rcflags) + rc('AdditionalIncludeDirectories', map=gyp_to_ninja_path, prefix='/I') + rcflags.append('/I' + gyp_to_ninja_path('.')) + rc('PreprocessorDefinitions', prefix='/d') + # /l arg must be in hex without leading '0x' + rc('Culture', prefix='/l', map=lambda x: hex(int(x))[2:]) + return rcflags + + def BuildCygwinBashCommandLine(self, args, path_to_base): + """Build a command line that runs args via cygwin bash. We assume that all + incoming paths are in Windows normpath'd form, so they need to be + converted to posix style for the part of the command line that's passed to + bash. We also have to do some Visual Studio macro emulation here because + various rules use magic VS names for things. Also note that rules that + contain ninja variables cannot be fixed here (for example ${source}), so + the outer generator needs to make sure that the paths that are written out + are in posix style, if the command line will be used here.""" + cygwin_dir = os.path.normpath( + os.path.join(path_to_base, self.msvs_cygwin_dirs[0])) + cd = ('cd %s' % path_to_base).replace('\\', '/') + args = [a.replace('\\', '/').replace('"', '\\"') for a in args] + args = ["'%s'" % a.replace("'", "'\\''") for a in args] + bash_cmd = ' '.join(args) + cmd = ( + 'call "%s\\setup_env.bat" && set CYGWIN=nontsec && ' % cygwin_dir + + 'bash -c "%s ; %s"' % (cd, bash_cmd)) + return cmd + + def IsRuleRunUnderCygwin(self, rule): + """Determine if an action should be run under cygwin. If the variable is + unset, or set to 1 we use cygwin.""" + return int(rule.get('msvs_cygwin_shell', + self.spec.get('msvs_cygwin_shell', 1))) != 0 + + def _HasExplicitRuleForExtension(self, spec, extension): + """Determine if there's an explicit rule for a particular extension.""" + for rule in spec.get('rules', []): + if rule['extension'] == extension: + return True + return False + + def HasExplicitIdlRules(self, spec): + """Determine if there's an explicit rule for idl files. When there isn't we + need to generate implicit rules to build MIDL .idl files.""" + return self._HasExplicitRuleForExtension(spec, 'idl') + + def HasExplicitAsmRules(self, spec): + """Determine if there's an explicit rule for asm files. When there isn't we + need to generate implicit rules to assemble .asm files.""" + return self._HasExplicitRuleForExtension(spec, 'asm') + + def GetIdlBuildData(self, source, config): + """Determine the implicit outputs for an idl file. Returns output + directory, outputs, and variables and flags that are required.""" + config = self._TargetConfig(config) + midl_get = self._GetWrapper(self, self.msvs_settings[config], 'VCMIDLTool') + def midl(name, default=None): + return self.ConvertVSMacros(midl_get(name, default=default), + config=config) + tlb = midl('TypeLibraryName', default='${root}.tlb') + header = midl('HeaderFileName', default='${root}.h') + dlldata = midl('DLLDataFileName', default='dlldata.c') + iid = midl('InterfaceIdentifierFileName', default='${root}_i.c') + proxy = midl('ProxyFileName', default='${root}_p.c') + # Note that .tlb is not included in the outputs as it is not always + # generated depending on the content of the input idl file. + outdir = midl('OutputDirectory', default='') + output = [header, dlldata, iid, proxy] + variables = [('tlb', tlb), + ('h', header), + ('dlldata', dlldata), + ('iid', iid), + ('proxy', proxy)] + # TODO(scottmg): Are there configuration settings to set these flags? + target_platform = 'win32' if self.GetArch(config) == 'x86' else 'x64' + flags = ['/char', 'signed', '/env', target_platform, '/Oicf'] + return outdir, output, variables, flags + + +def _LanguageMatchesForPch(source_ext, pch_source_ext): + c_exts = ('.c',) + cc_exts = ('.cc', '.cxx', '.cpp') + return ((source_ext in c_exts and pch_source_ext in c_exts) or + (source_ext in cc_exts and pch_source_ext in cc_exts)) + + +class PrecompiledHeader(object): + """Helper to generate dependencies and build rules to handle generation of + precompiled headers. Interface matches the GCH handler in xcode_emulation.py. + """ + def __init__( + self, settings, config, gyp_to_build_path, gyp_to_unique_output, obj_ext): + self.settings = settings + self.config = config + pch_source = self.settings.msvs_precompiled_source[self.config] + self.pch_source = gyp_to_build_path(pch_source) + filename, _ = os.path.splitext(pch_source) + self.output_obj = gyp_to_unique_output(filename + obj_ext).lower() + + def _PchHeader(self): + """Get the header that will appear in an #include line for all source + files.""" + return os.path.split(self.settings.msvs_precompiled_header[self.config])[1] + + def GetObjDependencies(self, sources, objs, arch): + """Given a list of sources files and the corresponding object files, + returns a list of the pch files that should be depended upon. The + additional wrapping in the return value is for interface compatability + with make.py on Mac, and xcode_emulation.py.""" + assert arch is None + if not self._PchHeader(): + return [] + pch_ext = os.path.splitext(self.pch_source)[1] + for source in sources: + if _LanguageMatchesForPch(os.path.splitext(source)[1], pch_ext): + return [(None, None, self.output_obj)] + return [] + + def GetPchBuildCommands(self, arch): + """Not used on Windows as there are no additional build steps required + (instead, existing steps are modified in GetFlagsModifications below).""" + return [] + + def GetFlagsModifications(self, input, output, implicit, command, + cflags_c, cflags_cc, expand_special): + """Get the modified cflags and implicit dependencies that should be used + for the pch compilation step.""" + if input == self.pch_source: + pch_output = ['/Yc' + self._PchHeader()] + if command == 'cxx': + return ([('cflags_cc', map(expand_special, cflags_cc + pch_output))], + self.output_obj, []) + elif command == 'cc': + return ([('cflags_c', map(expand_special, cflags_c + pch_output))], + self.output_obj, []) + return [], output, implicit + + +vs_version = None +def GetVSVersion(generator_flags): + global vs_version + if not vs_version: + vs_version = gyp.MSVSVersion.SelectVisualStudioVersion( + generator_flags.get('msvs_version', 'auto')) + return vs_version + +def _GetVsvarsSetupArgs(generator_flags, arch): + vs = GetVSVersion(generator_flags) + return vs.SetupScript() + +def ExpandMacros(string, expansions): + """Expand $(Variable) per expansions dict. See MsvsSettings.GetVSMacroEnv + for the canonical way to retrieve a suitable dict.""" + if '$' in string: + for old, new in expansions.iteritems(): + assert '$(' not in new, new + string = string.replace(old, new) + return string + +def _ExtractImportantEnvironment(output_of_set): + """Extracts environment variables required for the toolchain to run from + a textual dump output by the cmd.exe 'set' command.""" + envvars_to_save = ( + 'goma_.*', # TODO(scottmg): This is ugly, but needed for goma. + 'include', + 'lib', + 'libpath', + 'path', + 'pathext', + 'systemroot', + 'temp', + 'tmp', + ) + env = {} + for line in output_of_set.splitlines(): + for envvar in envvars_to_save: + if re.match(envvar + '=', line.lower()): + var, setting = line.split('=', 1) + if envvar == 'path': + # Our own rules (for running gyp-win-tool) and other actions in + # Chromium rely on python being in the path. Add the path to this + # python here so that if it's not in the path when ninja is run + # later, python will still be found. + setting = os.path.dirname(sys.executable) + os.pathsep + setting + env[var.upper()] = setting + break + for required in ('SYSTEMROOT', 'TEMP', 'TMP'): + if required not in env: + raise Exception('Environment variable "%s" ' + 'required to be set to valid path' % required) + return env + +def _FormatAsEnvironmentBlock(envvar_dict): + """Format as an 'environment block' directly suitable for CreateProcess. + Briefly this is a list of key=value\0, terminated by an additional \0. See + CreateProcess documentation for more details.""" + block = '' + nul = '\0' + for key, value in envvar_dict.iteritems(): + block += key + '=' + value + nul + block += nul + return block + +def _ExtractCLPath(output_of_where): + """Gets the path to cl.exe based on the output of calling the environment + setup batch file, followed by the equivalent of `where`.""" + # Take the first line, as that's the first found in the PATH. + for line in output_of_where.strip().splitlines(): + if line.startswith('LOC:'): + return line[len('LOC:'):].strip() + +def GenerateEnvironmentFiles(toplevel_build_dir, generator_flags, open_out): + """It's not sufficient to have the absolute path to the compiler, linker, + etc. on Windows, as those tools rely on .dlls being in the PATH. We also + need to support both x86 and x64 compilers within the same build (to support + msvs_target_platform hackery). Different architectures require a different + compiler binary, and different supporting environment variables (INCLUDE, + LIB, LIBPATH). So, we extract the environment here, wrap all invocations + of compiler tools (cl, link, lib, rc, midl, etc.) via win_tool.py which + sets up the environment, and then we do not prefix the compiler with + an absolute path, instead preferring something like "cl.exe" in the rule + which will then run whichever the environment setup has put in the path. + When the following procedure to generate environment files does not + meet your requirement (e.g. for custom toolchains), you can pass + "-G ninja_use_custom_environment_files" to the gyp to suppress file + generation and use custom environment files prepared by yourself.""" + archs = ('x86', 'x64') + if generator_flags.get('ninja_use_custom_environment_files', 0): + cl_paths = {} + for arch in archs: + cl_paths[arch] = 'cl.exe' + return cl_paths + vs = GetVSVersion(generator_flags) + cl_paths = {} + for arch in archs: + # Extract environment variables for subprocesses. + args = vs.SetupScript(arch) + args.extend(('&&', 'set')) + popen = subprocess.Popen( + args, shell=True, stdout=subprocess.PIPE, stderr=subprocess.STDOUT) + variables, _ = popen.communicate() + env = _ExtractImportantEnvironment(variables) + env_block = _FormatAsEnvironmentBlock(env) + f = open_out(os.path.join(toplevel_build_dir, 'environment.' + arch), 'wb') + f.write(env_block) + f.close() + + # Find cl.exe location for this architecture. + args = vs.SetupScript(arch) + args.extend(('&&', + 'for', '%i', 'in', '(cl.exe)', 'do', '@echo', 'LOC:%~$PATH:i')) + popen = subprocess.Popen(args, shell=True, stdout=subprocess.PIPE) + output, _ = popen.communicate() + cl_paths[arch] = _ExtractCLPath(output) + return cl_paths + +def VerifyMissingSources(sources, build_dir, generator_flags, gyp_to_ninja): + """Emulate behavior of msvs_error_on_missing_sources present in the msvs + generator: Check that all regular source files, i.e. not created at run time, + exist on disk. Missing files cause needless recompilation when building via + VS, and we want this check to match for people/bots that build using ninja, + so they're not surprised when the VS build fails.""" + if int(generator_flags.get('msvs_error_on_missing_sources', 0)): + no_specials = filter(lambda x: '$' not in x, sources) + relative = [os.path.join(build_dir, gyp_to_ninja(s)) for s in no_specials] + missing = filter(lambda x: not os.path.exists(x), relative) + if missing: + # They'll look like out\Release\..\..\stuff\things.cc, so normalize the + # path for a slightly less crazy looking output. + cleaned_up = [os.path.normpath(x) for x in missing] + raise Exception('Missing input files:\n%s' % '\n'.join(cleaned_up)) + +# Sets some values in default_variables, which are required for many +# generators, run on Windows. +def CalculateCommonVariables(default_variables, params): + generator_flags = params.get('generator_flags', {}) + + # Set a variable so conditions can be based on msvs_version. + msvs_version = gyp.msvs_emulation.GetVSVersion(generator_flags) + default_variables['MSVS_VERSION'] = msvs_version.ShortName() + + # To determine processor word size on Windows, in addition to checking + # PROCESSOR_ARCHITECTURE (which reflects the word size of the current + # process), it is also necessary to check PROCESSOR_ARCHITEW6432 (which + # contains the actual word size of the system when running thru WOW64). + if ('64' in os.environ.get('PROCESSOR_ARCHITECTURE', '') or + '64' in os.environ.get('PROCESSOR_ARCHITEW6432', '')): + default_variables['MSVS_OS_BITS'] = 64 + else: + default_variables['MSVS_OS_BITS'] = 32 diff --git a/deps/gyp/pylib/gyp/ninja_syntax.py b/deps/gyp/pylib/gyp/ninja_syntax.py new file mode 100644 index 0000000000..d2948f06c0 --- /dev/null +++ b/deps/gyp/pylib/gyp/ninja_syntax.py @@ -0,0 +1,160 @@ +# This file comes from +# https://github.com/martine/ninja/blob/master/misc/ninja_syntax.py +# Do not edit! Edit the upstream one instead. + +"""Python module for generating .ninja files. + +Note that this is emphatically not a required piece of Ninja; it's +just a helpful utility for build-file-generation systems that already +use Python. +""" + +import textwrap +import re + +def escape_path(word): + return word.replace('$ ','$$ ').replace(' ','$ ').replace(':', '$:') + +class Writer(object): + def __init__(self, output, width=78): + self.output = output + self.width = width + + def newline(self): + self.output.write('\n') + + def comment(self, text): + for line in textwrap.wrap(text, self.width - 2): + self.output.write('# ' + line + '\n') + + def variable(self, key, value, indent=0): + if value is None: + return + if isinstance(value, list): + value = ' '.join(filter(None, value)) # Filter out empty strings. + self._line('%s = %s' % (key, value), indent) + + def pool(self, name, depth): + self._line('pool %s' % name) + self.variable('depth', depth, indent=1) + + def rule(self, name, command, description=None, depfile=None, + generator=False, pool=None, restat=False, rspfile=None, + rspfile_content=None, deps=None): + self._line('rule %s' % name) + self.variable('command', command, indent=1) + if description: + self.variable('description', description, indent=1) + if depfile: + self.variable('depfile', depfile, indent=1) + if generator: + self.variable('generator', '1', indent=1) + if pool: + self.variable('pool', pool, indent=1) + if restat: + self.variable('restat', '1', indent=1) + if rspfile: + self.variable('rspfile', rspfile, indent=1) + if rspfile_content: + self.variable('rspfile_content', rspfile_content, indent=1) + if deps: + self.variable('deps', deps, indent=1) + + def build(self, outputs, rule, inputs=None, implicit=None, order_only=None, + variables=None): + outputs = self._as_list(outputs) + all_inputs = self._as_list(inputs)[:] + out_outputs = list(map(escape_path, outputs)) + all_inputs = list(map(escape_path, all_inputs)) + + if implicit: + implicit = map(escape_path, self._as_list(implicit)) + all_inputs.append('|') + all_inputs.extend(implicit) + if order_only: + order_only = map(escape_path, self._as_list(order_only)) + all_inputs.append('||') + all_inputs.extend(order_only) + + self._line('build %s: %s' % (' '.join(out_outputs), + ' '.join([rule] + all_inputs))) + + if variables: + if isinstance(variables, dict): + iterator = iter(variables.items()) + else: + iterator = iter(variables) + + for key, val in iterator: + self.variable(key, val, indent=1) + + return outputs + + def include(self, path): + self._line('include %s' % path) + + def subninja(self, path): + self._line('subninja %s' % path) + + def default(self, paths): + self._line('default %s' % ' '.join(self._as_list(paths))) + + def _count_dollars_before_index(self, s, i): + """Returns the number of '$' characters right in front of s[i].""" + dollar_count = 0 + dollar_index = i - 1 + while dollar_index > 0 and s[dollar_index] == '$': + dollar_count += 1 + dollar_index -= 1 + return dollar_count + + def _line(self, text, indent=0): + """Write 'text' word-wrapped at self.width characters.""" + leading_space = ' ' * indent + while len(leading_space) + len(text) > self.width: + # The text is too wide; wrap if possible. + + # Find the rightmost space that would obey our width constraint and + # that's not an escaped space. + available_space = self.width - len(leading_space) - len(' $') + space = available_space + while True: + space = text.rfind(' ', 0, space) + if space < 0 or \ + self._count_dollars_before_index(text, space) % 2 == 0: + break + + if space < 0: + # No such space; just use the first unescaped space we can find. + space = available_space - 1 + while True: + space = text.find(' ', space + 1) + if space < 0 or \ + self._count_dollars_before_index(text, space) % 2 == 0: + break + if space < 0: + # Give up on breaking. + break + + self.output.write(leading_space + text[0:space] + ' $\n') + text = text[space+1:] + + # Subsequent lines are continuations, so indent them. + leading_space = ' ' * (indent+2) + + self.output.write(leading_space + text + '\n') + + def _as_list(self, input): + if input is None: + return [] + if isinstance(input, list): + return input + return [input] + + +def escape(string): + """Escape a string such that it can be embedded into a Ninja file without + further interpretation.""" + assert '\n' not in string, 'Ninja syntax does not allow newlines' + # We only have one special metacharacter: '$'. + return string.replace('$', '$$') diff --git a/deps/gyp/pylib/gyp/ordered_dict.py b/deps/gyp/pylib/gyp/ordered_dict.py new file mode 100644 index 0000000000..a1e89f9199 --- /dev/null +++ b/deps/gyp/pylib/gyp/ordered_dict.py @@ -0,0 +1,289 @@ +# Unmodified from http://code.activestate.com/recipes/576693/ +# other than to add MIT license header (as specified on page, but not in code). +# Linked from Python documentation here: +# http://docs.python.org/2/library/collections.html#collections.OrderedDict +# +# This should be deleted once Py2.7 is available on all bots, see +# http://crbug.com/241769. +# +# Copyright (c) 2009 Raymond Hettinger. +# +# Permission is hereby granted, free of charge, to any person obtaining a copy +# of this software and associated documentation files (the "Software"), to deal +# in the Software without restriction, including without limitation the rights +# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +# copies of the Software, and to permit persons to whom the Software is +# furnished to do so, subject to the following conditions: +# +# The above copyright notice and this permission notice shall be included in +# all copies or substantial portions of the Software. +# +# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN +# THE SOFTWARE. + +# Backport of OrderedDict() class that runs on Python 2.4, 2.5, 2.6, 2.7 and pypy. +# Passes Python2.7's test suite and incorporates all the latest updates. + +try: + from thread import get_ident as _get_ident +except ImportError: + from dummy_thread import get_ident as _get_ident + +try: + from _abcoll import KeysView, ValuesView, ItemsView +except ImportError: + pass + + +class OrderedDict(dict): + 'Dictionary that remembers insertion order' + # An inherited dict maps keys to values. + # The inherited dict provides __getitem__, __len__, __contains__, and get. + # The remaining methods are order-aware. + # Big-O running times for all methods are the same as for regular dictionaries. + + # The internal self.__map dictionary maps keys to links in a doubly linked list. + # The circular doubly linked list starts and ends with a sentinel element. + # The sentinel element never gets deleted (this simplifies the algorithm). + # Each link is stored as a list of length three: [PREV, NEXT, KEY]. + + def __init__(self, *args, **kwds): + '''Initialize an ordered dictionary. Signature is the same as for + regular dictionaries, but keyword arguments are not recommended + because their insertion order is arbitrary. + + ''' + if len(args) > 1: + raise TypeError('expected at most 1 arguments, got %d' % len(args)) + try: + self.__root + except AttributeError: + self.__root = root = [] # sentinel node + root[:] = [root, root, None] + self.__map = {} + self.__update(*args, **kwds) + + def __setitem__(self, key, value, dict_setitem=dict.__setitem__): + 'od.__setitem__(i, y) <==> od[i]=y' + # Setting a new item creates a new link which goes at the end of the linked + # list, and the inherited dictionary is updated with the new key/value pair. + if key not in self: + root = self.__root + last = root[0] + last[1] = root[0] = self.__map[key] = [last, root, key] + dict_setitem(self, key, value) + + def __delitem__(self, key, dict_delitem=dict.__delitem__): + 'od.__delitem__(y) <==> del od[y]' + # Deleting an existing item uses self.__map to find the link which is + # then removed by updating the links in the predecessor and successor nodes. + dict_delitem(self, key) + link_prev, link_next, key = self.__map.pop(key) + link_prev[1] = link_next + link_next[0] = link_prev + + def __iter__(self): + 'od.__iter__() <==> iter(od)' + root = self.__root + curr = root[1] + while curr is not root: + yield curr[2] + curr = curr[1] + + def __reversed__(self): + 'od.__reversed__() <==> reversed(od)' + root = self.__root + curr = root[0] + while curr is not root: + yield curr[2] + curr = curr[0] + + def clear(self): + 'od.clear() -> None. Remove all items from od.' + try: + for node in self.__map.itervalues(): + del node[:] + root = self.__root + root[:] = [root, root, None] + self.__map.clear() + except AttributeError: + pass + dict.clear(self) + + def popitem(self, last=True): + '''od.popitem() -> (k, v), return and remove a (key, value) pair. + Pairs are returned in LIFO order if last is true or FIFO order if false. + + ''' + if not self: + raise KeyError('dictionary is empty') + root = self.__root + if last: + link = root[0] + link_prev = link[0] + link_prev[1] = root + root[0] = link_prev + else: + link = root[1] + link_next = link[1] + root[1] = link_next + link_next[0] = root + key = link[2] + del self.__map[key] + value = dict.pop(self, key) + return key, value + + # -- the following methods do not depend on the internal structure -- + + def keys(self): + 'od.keys() -> list of keys in od' + return list(self) + + def values(self): + 'od.values() -> list of values in od' + return [self[key] for key in self] + + def items(self): + 'od.items() -> list of (key, value) pairs in od' + return [(key, self[key]) for key in self] + + def iterkeys(self): + 'od.iterkeys() -> an iterator over the keys in od' + return iter(self) + + def itervalues(self): + 'od.itervalues -> an iterator over the values in od' + for k in self: + yield self[k] + + def iteritems(self): + 'od.iteritems -> an iterator over the (key, value) items in od' + for k in self: + yield (k, self[k]) + + # Suppress 'OrderedDict.update: Method has no argument': + # pylint: disable=E0211 + def update(*args, **kwds): + '''od.update(E, **F) -> None. Update od from dict/iterable E and F. + + If E is a dict instance, does: for k in E: od[k] = E[k] + If E has a .keys() method, does: for k in E.keys(): od[k] = E[k] + Or if E is an iterable of items, does: for k, v in E: od[k] = v + In either case, this is followed by: for k, v in F.items(): od[k] = v + + ''' + if len(args) > 2: + raise TypeError('update() takes at most 2 positional ' + 'arguments (%d given)' % (len(args),)) + elif not args: + raise TypeError('update() takes at least 1 argument (0 given)') + self = args[0] + # Make progressively weaker assumptions about "other" + other = () + if len(args) == 2: + other = args[1] + if isinstance(other, dict): + for key in other: + self[key] = other[key] + elif hasattr(other, 'keys'): + for key in other.keys(): + self[key] = other[key] + else: + for key, value in other: + self[key] = value + for key, value in kwds.items(): + self[key] = value + + __update = update # let subclasses override update without breaking __init__ + + __marker = object() + + def pop(self, key, default=__marker): + '''od.pop(k[,d]) -> v, remove specified key and return the corresponding value. + If key is not found, d is returned if given, otherwise KeyError is raised. + + ''' + if key in self: + result = self[key] + del self[key] + return result + if default is self.__marker: + raise KeyError(key) + return default + + def setdefault(self, key, default=None): + 'od.setdefault(k[,d]) -> od.get(k,d), also set od[k]=d if k not in od' + if key in self: + return self[key] + self[key] = default + return default + + def __repr__(self, _repr_running={}): + 'od.__repr__() <==> repr(od)' + call_key = id(self), _get_ident() + if call_key in _repr_running: + return '...' + _repr_running[call_key] = 1 + try: + if not self: + return '%s()' % (self.__class__.__name__,) + return '%s(%r)' % (self.__class__.__name__, self.items()) + finally: + del _repr_running[call_key] + + def __reduce__(self): + 'Return state information for pickling' + items = [[k, self[k]] for k in self] + inst_dict = vars(self).copy() + for k in vars(OrderedDict()): + inst_dict.pop(k, None) + if inst_dict: + return (self.__class__, (items,), inst_dict) + return self.__class__, (items,) + + def copy(self): + 'od.copy() -> a shallow copy of od' + return self.__class__(self) + + @classmethod + def fromkeys(cls, iterable, value=None): + '''OD.fromkeys(S[, v]) -> New ordered dictionary with keys from S + and values equal to v (which defaults to None). + + ''' + d = cls() + for key in iterable: + d[key] = value + return d + + def __eq__(self, other): + '''od.__eq__(y) <==> od==y. Comparison to another OD is order-sensitive + while comparison to a regular mapping is order-insensitive. + + ''' + if isinstance(other, OrderedDict): + return len(self)==len(other) and self.items() == other.items() + return dict.__eq__(self, other) + + def __ne__(self, other): + return not self == other + + # -- the following methods are only used in Python 2.7 -- + + def viewkeys(self): + "od.viewkeys() -> a set-like object providing a view on od's keys" + return KeysView(self) + + def viewvalues(self): + "od.viewvalues() -> an object providing a view on od's values" + return ValuesView(self) + + def viewitems(self): + "od.viewitems() -> a set-like object providing a view on od's items" + return ItemsView(self) + diff --git a/deps/gyp/pylib/gyp/win_tool.py b/deps/gyp/pylib/gyp/win_tool.py new file mode 100755 index 0000000000..5872f0750c --- /dev/null +++ b/deps/gyp/pylib/gyp/win_tool.py @@ -0,0 +1,292 @@ +#!/usr/bin/env python + +# Copyright (c) 2012 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +"""Utility functions for Windows builds. + +These functions are executed via gyp-win-tool when using the ninja generator. +""" + +import os +import re +import shutil +import subprocess +import string +import sys + +BASE_DIR = os.path.dirname(os.path.abspath(__file__)) + +# A regex matching an argument corresponding to the output filename passed to +# link.exe. +_LINK_EXE_OUT_ARG = re.compile('/OUT:(?P<out>.+)$', re.IGNORECASE) + +def main(args): + executor = WinTool() + exit_code = executor.Dispatch(args) + if exit_code is not None: + sys.exit(exit_code) + + +class WinTool(object): + """This class performs all the Windows tooling steps. The methods can either + be executed directly, or dispatched from an argument list.""" + + def _UseSeparateMspdbsrv(self, env, args): + """Allows to use a unique instance of mspdbsrv.exe per linker instead of a + shared one.""" + if len(args) < 1: + raise Exception("Not enough arguments") + + if args[0] != 'link.exe': + return + + # Use the output filename passed to the linker to generate an endpoint name + # for mspdbsrv.exe. + endpoint_name = None + for arg in args: + m = _LINK_EXE_OUT_ARG.match(arg) + if m: + endpoint_name = re.sub(r'\W+', '', + '%s_%d' % (m.group('out'), os.getpid())) + break + + if endpoint_name is None: + return + + # Adds the appropriate environment variable. This will be read by link.exe + # to know which instance of mspdbsrv.exe it should connect to (if it's + # not set then the default endpoint is used). + env['_MSPDBSRV_ENDPOINT_'] = endpoint_name + + def Dispatch(self, args): + """Dispatches a string command to a method.""" + if len(args) < 1: + raise Exception("Not enough arguments") + + method = "Exec%s" % self._CommandifyName(args[0]) + return getattr(self, method)(*args[1:]) + + def _CommandifyName(self, name_string): + """Transforms a tool name like recursive-mirror to RecursiveMirror.""" + return name_string.title().replace('-', '') + + def _GetEnv(self, arch): + """Gets the saved environment from a file for a given architecture.""" + # The environment is saved as an "environment block" (see CreateProcess + # and msvs_emulation for details). We convert to a dict here. + # Drop last 2 NULs, one for list terminator, one for trailing vs. separator. + pairs = open(arch).read()[:-2].split('\0') + kvs = [item.split('=', 1) for item in pairs] + return dict(kvs) + + def ExecStamp(self, path): + """Simple stamp command.""" + open(path, 'w').close() + + def ExecRecursiveMirror(self, source, dest): + """Emulation of rm -rf out && cp -af in out.""" + if os.path.exists(dest): + if os.path.isdir(dest): + shutil.rmtree(dest) + else: + os.unlink(dest) + if os.path.isdir(source): + shutil.copytree(source, dest) + else: + shutil.copy2(source, dest) + + def ExecLinkWrapper(self, arch, use_separate_mspdbsrv, *args): + """Filter diagnostic output from link that looks like: + ' Creating library ui.dll.lib and object ui.dll.exp' + This happens when there are exports from the dll or exe. + """ + env = self._GetEnv(arch) + if use_separate_mspdbsrv == 'True': + self._UseSeparateMspdbsrv(env, args) + link = subprocess.Popen(args, + shell=True, + env=env, + stdout=subprocess.PIPE, + stderr=subprocess.STDOUT) + out, _ = link.communicate() + for line in out.splitlines(): + if not line.startswith(' Creating library '): + print line + return link.returncode + + def ExecLinkWithManifests(self, arch, embed_manifest, out, ldcmd, resname, + mt, rc, intermediate_manifest, *manifests): + """A wrapper for handling creating a manifest resource and then executing + a link command.""" + # The 'normal' way to do manifests is to have link generate a manifest + # based on gathering dependencies from the object files, then merge that + # manifest with other manifests supplied as sources, convert the merged + # manifest to a resource, and then *relink*, including the compiled + # version of the manifest resource. This breaks incremental linking, and + # is generally overly complicated. Instead, we merge all the manifests + # provided (along with one that includes what would normally be in the + # linker-generated one, see msvs_emulation.py), and include that into the + # first and only link. We still tell link to generate a manifest, but we + # only use that to assert that our simpler process did not miss anything. + variables = { + 'python': sys.executable, + 'arch': arch, + 'out': out, + 'ldcmd': ldcmd, + 'resname': resname, + 'mt': mt, + 'rc': rc, + 'intermediate_manifest': intermediate_manifest, + 'manifests': ' '.join(manifests), + } + add_to_ld = '' + if manifests: + subprocess.check_call( + '%(python)s gyp-win-tool manifest-wrapper %(arch)s %(mt)s -nologo ' + '-manifest %(manifests)s -out:%(out)s.manifest' % variables) + if embed_manifest == 'True': + subprocess.check_call( + '%(python)s gyp-win-tool manifest-to-rc %(arch)s %(out)s.manifest' + ' %(out)s.manifest.rc %(resname)s' % variables) + subprocess.check_call( + '%(python)s gyp-win-tool rc-wrapper %(arch)s %(rc)s ' + '%(out)s.manifest.rc' % variables) + add_to_ld = ' %(out)s.manifest.res' % variables + subprocess.check_call(ldcmd + add_to_ld) + + # Run mt.exe on the theoretically complete manifest we generated, merging + # it with the one the linker generated to confirm that the linker + # generated one does not add anything. This is strictly unnecessary for + # correctness, it's only to verify that e.g. /MANIFESTDEPENDENCY was not + # used in a #pragma comment. + if manifests: + # Merge the intermediate one with ours to .assert.manifest, then check + # that .assert.manifest is identical to ours. + subprocess.check_call( + '%(python)s gyp-win-tool manifest-wrapper %(arch)s %(mt)s -nologo ' + '-manifest %(out)s.manifest %(intermediate_manifest)s ' + '-out:%(out)s.assert.manifest' % variables) + assert_manifest = '%(out)s.assert.manifest' % variables + our_manifest = '%(out)s.manifest' % variables + # Load and normalize the manifests. mt.exe sometimes removes whitespace, + # and sometimes doesn't unfortunately. + with open(our_manifest, 'rb') as our_f: + with open(assert_manifest, 'rb') as assert_f: + our_data = our_f.read().translate(None, string.whitespace) + assert_data = assert_f.read().translate(None, string.whitespace) + if our_data != assert_data: + os.unlink(out) + def dump(filename): + sys.stderr.write('%s\n-----\n' % filename) + with open(filename, 'rb') as f: + sys.stderr.write(f.read() + '\n-----\n') + dump(intermediate_manifest) + dump(our_manifest) + dump(assert_manifest) + sys.stderr.write( + 'Linker generated manifest "%s" added to final manifest "%s" ' + '(result in "%s"). ' + 'Were /MANIFEST switches used in #pragma statements? ' % ( + intermediate_manifest, our_manifest, assert_manifest)) + return 1 + + def ExecManifestWrapper(self, arch, *args): + """Run manifest tool with environment set. Strip out undesirable warning + (some XML blocks are recognized by the OS loader, but not the manifest + tool).""" + env = self._GetEnv(arch) + popen = subprocess.Popen(args, shell=True, env=env, + stdout=subprocess.PIPE, stderr=subprocess.STDOUT) + out, _ = popen.communicate() + for line in out.splitlines(): + if line and 'manifest authoring warning 81010002' not in line: + print line + return popen.returncode + + def ExecManifestToRc(self, arch, *args): + """Creates a resource file pointing a SxS assembly manifest. + |args| is tuple containing path to resource file, path to manifest file + and resource name which can be "1" (for executables) or "2" (for DLLs).""" + manifest_path, resource_path, resource_name = args + with open(resource_path, 'wb') as output: + output.write('#include <windows.h>\n%s RT_MANIFEST "%s"' % ( + resource_name, + os.path.abspath(manifest_path).replace('\\', '/'))) + + def ExecMidlWrapper(self, arch, outdir, tlb, h, dlldata, iid, proxy, idl, + *flags): + """Filter noisy filenames output from MIDL compile step that isn't + quietable via command line flags. + """ + args = ['midl', '/nologo'] + list(flags) + [ + '/out', outdir, + '/tlb', tlb, + '/h', h, + '/dlldata', dlldata, + '/iid', iid, + '/proxy', proxy, + idl] + env = self._GetEnv(arch) + popen = subprocess.Popen(args, shell=True, env=env, + stdout=subprocess.PIPE, stderr=subprocess.STDOUT) + out, _ = popen.communicate() + # Filter junk out of stdout, and write filtered versions. Output we want + # to filter is pairs of lines that look like this: + # Processing C:\Program Files (x86)\Microsoft SDKs\...\include\objidl.idl + # objidl.idl + lines = out.splitlines() + prefix = 'Processing ' + processing = set(os.path.basename(x) for x in lines if x.startswith(prefix)) + for line in lines: + if not line.startswith(prefix) and line not in processing: + print line + return popen.returncode + + def ExecAsmWrapper(self, arch, *args): + """Filter logo banner from invocations of asm.exe.""" + env = self._GetEnv(arch) + # MSVS doesn't assemble x64 asm files. + if arch == 'environment.x64': + return 0 + popen = subprocess.Popen(args, shell=True, env=env, + stdout=subprocess.PIPE, stderr=subprocess.STDOUT) + out, _ = popen.communicate() + for line in out.splitlines(): + if (not line.startswith('Copyright (C) Microsoft Corporation') and + not line.startswith('Microsoft (R) Macro Assembler') and + not line.startswith(' Assembling: ') and + line): + print line + return popen.returncode + + def ExecRcWrapper(self, arch, *args): + """Filter logo banner from invocations of rc.exe. Older versions of RC + don't support the /nologo flag.""" + env = self._GetEnv(arch) + popen = subprocess.Popen(args, shell=True, env=env, + stdout=subprocess.PIPE, stderr=subprocess.STDOUT) + out, _ = popen.communicate() + for line in out.splitlines(): + if (not line.startswith('Microsoft (R) Windows (R) Resource Compiler') and + not line.startswith('Copyright (C) Microsoft Corporation') and + line): + print line + return popen.returncode + + def ExecActionWrapper(self, arch, rspfile, *dir): + """Runs an action command line from a response file using the environment + for |arch|. If |dir| is supplied, use that as the working directory.""" + env = self._GetEnv(arch) + # TODO(scottmg): This is a temporary hack to get some specific variables + # through to actions that are set after gyp-time. http://crbug.com/333738. + for k, v in os.environ.iteritems(): + if k not in env: + env[k] = v + args = open(rspfile).read() + dir = dir[0] if dir else None + return subprocess.call(args, shell=True, env=env, cwd=dir) + +if __name__ == '__main__': + sys.exit(main(sys.argv[1:])) diff --git a/deps/gyp/pylib/gyp/xcode_emulation.py b/deps/gyp/pylib/gyp/xcode_emulation.py new file mode 100644 index 0000000000..30f27d5832 --- /dev/null +++ b/deps/gyp/pylib/gyp/xcode_emulation.py @@ -0,0 +1,1440 @@ +# Copyright (c) 2012 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +""" +This module contains classes that help to emulate xcodebuild behavior on top of +other build systems, such as make and ninja. +""" + +import copy +import gyp.common +import os +import os.path +import re +import shlex +import subprocess +import sys +import tempfile +from gyp.common import GypError + +class XcodeSettings(object): + """A class that understands the gyp 'xcode_settings' object.""" + + # Populated lazily by _SdkPath(). Shared by all XcodeSettings, so cached + # at class-level for efficiency. + _sdk_path_cache = {} + _sdk_root_cache = {} + + # Populated lazily by GetExtraPlistItems(). Shared by all XcodeSettings, so + # cached at class-level for efficiency. + _plist_cache = {} + + # Populated lazily by GetIOSPostbuilds. Shared by all XcodeSettings, so + # cached at class-level for efficiency. + _codesigning_key_cache = {} + + # Populated lazily by _XcodeVersion. Shared by all XcodeSettings, so cached + # at class-level for efficiency. + _xcode_version_cache = () + + def __init__(self, spec): + self.spec = spec + + self.isIOS = False + + # Per-target 'xcode_settings' are pushed down into configs earlier by gyp. + # This means self.xcode_settings[config] always contains all settings + # for that config -- the per-target settings as well. Settings that are + # the same for all configs are implicitly per-target settings. + self.xcode_settings = {} + configs = spec['configurations'] + for configname, config in configs.iteritems(): + self.xcode_settings[configname] = config.get('xcode_settings', {}) + self._ConvertConditionalKeys(configname) + if self.xcode_settings[configname].get('IPHONEOS_DEPLOYMENT_TARGET', + None): + self.isIOS = True + + # This is only non-None temporarily during the execution of some methods. + self.configname = None + + # Used by _AdjustLibrary to match .a and .dylib entries in libraries. + self.library_re = re.compile(r'^lib([^/]+)\.(a|dylib)$') + + def _ConvertConditionalKeys(self, configname): + """Converts or warns on conditional keys. Xcode supports conditional keys, + such as CODE_SIGN_IDENTITY[sdk=iphoneos*]. This is a partial implementation + with some keys converted while the rest force a warning.""" + settings = self.xcode_settings[configname] + conditional_keys = [key for key in settings if key.endswith(']')] + for key in conditional_keys: + # If you need more, speak up at http://crbug.com/122592 + if key.endswith("[sdk=iphoneos*]"): + if configname.endswith("iphoneos"): + new_key = key.split("[")[0] + settings[new_key] = settings[key] + else: + print 'Warning: Conditional keys not implemented, ignoring:', \ + ' '.join(conditional_keys) + del settings[key] + + def _Settings(self): + assert self.configname + return self.xcode_settings[self.configname] + + def _Test(self, test_key, cond_key, default): + return self._Settings().get(test_key, default) == cond_key + + def _Appendf(self, lst, test_key, format_str, default=None): + if test_key in self._Settings(): + lst.append(format_str % str(self._Settings()[test_key])) + elif default: + lst.append(format_str % str(default)) + + def _WarnUnimplemented(self, test_key): + if test_key in self._Settings(): + print 'Warning: Ignoring not yet implemented key "%s".' % test_key + + def _IsBundle(self): + return int(self.spec.get('mac_bundle', 0)) != 0 + + def GetFrameworkVersion(self): + """Returns the framework version of the current target. Only valid for + bundles.""" + assert self._IsBundle() + return self.GetPerTargetSetting('FRAMEWORK_VERSION', default='A') + + def GetWrapperExtension(self): + """Returns the bundle extension (.app, .framework, .plugin, etc). Only + valid for bundles.""" + assert self._IsBundle() + if self.spec['type'] in ('loadable_module', 'shared_library'): + default_wrapper_extension = { + 'loadable_module': 'bundle', + 'shared_library': 'framework', + }[self.spec['type']] + wrapper_extension = self.GetPerTargetSetting( + 'WRAPPER_EXTENSION', default=default_wrapper_extension) + return '.' + self.spec.get('product_extension', wrapper_extension) + elif self.spec['type'] == 'executable': + return '.' + self.spec.get('product_extension', 'app') + else: + assert False, "Don't know extension for '%s', target '%s'" % ( + self.spec['type'], self.spec['target_name']) + + def GetProductName(self): + """Returns PRODUCT_NAME.""" + return self.spec.get('product_name', self.spec['target_name']) + + def GetFullProductName(self): + """Returns FULL_PRODUCT_NAME.""" + if self._IsBundle(): + return self.GetWrapperName() + else: + return self._GetStandaloneBinaryPath() + + def GetWrapperName(self): + """Returns the directory name of the bundle represented by this target. + Only valid for bundles.""" + assert self._IsBundle() + return self.GetProductName() + self.GetWrapperExtension() + + def GetBundleContentsFolderPath(self): + """Returns the qualified path to the bundle's contents folder. E.g. + Chromium.app/Contents or Foo.bundle/Versions/A. Only valid for bundles.""" + if self.isIOS: + return self.GetWrapperName() + assert self._IsBundle() + if self.spec['type'] == 'shared_library': + return os.path.join( + self.GetWrapperName(), 'Versions', self.GetFrameworkVersion()) + else: + # loadable_modules have a 'Contents' folder like executables. + return os.path.join(self.GetWrapperName(), 'Contents') + + def GetBundleResourceFolder(self): + """Returns the qualified path to the bundle's resource folder. E.g. + Chromium.app/Contents/Resources. Only valid for bundles.""" + assert self._IsBundle() + if self.isIOS: + return self.GetBundleContentsFolderPath() + return os.path.join(self.GetBundleContentsFolderPath(), 'Resources') + + def GetBundlePlistPath(self): + """Returns the qualified path to the bundle's plist file. E.g. + Chromium.app/Contents/Info.plist. Only valid for bundles.""" + assert self._IsBundle() + if self.spec['type'] in ('executable', 'loadable_module'): + return os.path.join(self.GetBundleContentsFolderPath(), 'Info.plist') + else: + return os.path.join(self.GetBundleContentsFolderPath(), + 'Resources', 'Info.plist') + + def GetProductType(self): + """Returns the PRODUCT_TYPE of this target.""" + if self._IsBundle(): + return { + 'executable': 'com.apple.product-type.application', + 'loadable_module': 'com.apple.product-type.bundle', + 'shared_library': 'com.apple.product-type.framework', + }[self.spec['type']] + else: + return { + 'executable': 'com.apple.product-type.tool', + 'loadable_module': 'com.apple.product-type.library.dynamic', + 'shared_library': 'com.apple.product-type.library.dynamic', + 'static_library': 'com.apple.product-type.library.static', + }[self.spec['type']] + + def GetMachOType(self): + """Returns the MACH_O_TYPE of this target.""" + # Weird, but matches Xcode. + if not self._IsBundle() and self.spec['type'] == 'executable': + return '' + return { + 'executable': 'mh_execute', + 'static_library': 'staticlib', + 'shared_library': 'mh_dylib', + 'loadable_module': 'mh_bundle', + }[self.spec['type']] + + def _GetBundleBinaryPath(self): + """Returns the name of the bundle binary of by this target. + E.g. Chromium.app/Contents/MacOS/Chromium. Only valid for bundles.""" + assert self._IsBundle() + if self.spec['type'] in ('shared_library') or self.isIOS: + path = self.GetBundleContentsFolderPath() + elif self.spec['type'] in ('executable', 'loadable_module'): + path = os.path.join(self.GetBundleContentsFolderPath(), 'MacOS') + return os.path.join(path, self.GetExecutableName()) + + def _GetStandaloneExecutableSuffix(self): + if 'product_extension' in self.spec: + return '.' + self.spec['product_extension'] + return { + 'executable': '', + 'static_library': '.a', + 'shared_library': '.dylib', + 'loadable_module': '.so', + }[self.spec['type']] + + def _GetStandaloneExecutablePrefix(self): + return self.spec.get('product_prefix', { + 'executable': '', + 'static_library': 'lib', + 'shared_library': 'lib', + # Non-bundled loadable_modules are called foo.so for some reason + # (that is, .so and no prefix) with the xcode build -- match that. + 'loadable_module': '', + }[self.spec['type']]) + + def _GetStandaloneBinaryPath(self): + """Returns the name of the non-bundle binary represented by this target. + E.g. hello_world. Only valid for non-bundles.""" + assert not self._IsBundle() + assert self.spec['type'] in ( + 'executable', 'shared_library', 'static_library', 'loadable_module'), ( + 'Unexpected type %s' % self.spec['type']) + target = self.spec['target_name'] + if self.spec['type'] == 'static_library': + if target[:3] == 'lib': + target = target[3:] + elif self.spec['type'] in ('loadable_module', 'shared_library'): + if target[:3] == 'lib': + target = target[3:] + + target_prefix = self._GetStandaloneExecutablePrefix() + target = self.spec.get('product_name', target) + target_ext = self._GetStandaloneExecutableSuffix() + return target_prefix + target + target_ext + + def GetExecutableName(self): + """Returns the executable name of the bundle represented by this target. + E.g. Chromium.""" + if self._IsBundle(): + return self.spec.get('product_name', self.spec['target_name']) + else: + return self._GetStandaloneBinaryPath() + + def GetExecutablePath(self): + """Returns the directory name of the bundle represented by this target. E.g. + Chromium.app/Contents/MacOS/Chromium.""" + if self._IsBundle(): + return self._GetBundleBinaryPath() + else: + return self._GetStandaloneBinaryPath() + + def GetActiveArchs(self, configname): + """Returns the architectures this target should be built for.""" + # TODO: Look at VALID_ARCHS, ONLY_ACTIVE_ARCH; possibly set + # CURRENT_ARCH / NATIVE_ARCH env vars? + return self.xcode_settings[configname].get('ARCHS', [self._DefaultArch()]) + + def _GetStdout(self, cmdlist): + job = subprocess.Popen(cmdlist, stdout=subprocess.PIPE) + out = job.communicate()[0] + if job.returncode != 0: + sys.stderr.write(out + '\n') + raise GypError('Error %d running %s' % (job.returncode, cmdlist[0])) + return out.rstrip('\n') + + def _GetSdkVersionInfoItem(self, sdk, infoitem): + # xcodebuild requires Xcode and can't run on Command Line Tools-only + # systems from 10.7 onward. + # Since the CLT has no SDK paths anyway, returning None is the + # most sensible route and should still do the right thing. + try: + return self._GetStdout(['xcodebuild', '-version', '-sdk', sdk, infoitem]) + except: + pass + + def _SdkRoot(self, configname): + if configname is None: + configname = self.configname + return self.GetPerConfigSetting('SDKROOT', configname, default='') + + def _SdkPath(self, configname=None): + sdk_root = self._SdkRoot(configname) + if sdk_root.startswith('/'): + return sdk_root + return self._XcodeSdkPath(sdk_root) + + def _XcodeSdkPath(self, sdk_root): + if sdk_root not in XcodeSettings._sdk_path_cache: + sdk_path = self._GetSdkVersionInfoItem(sdk_root, 'Path') + XcodeSettings._sdk_path_cache[sdk_root] = sdk_path + if sdk_root: + XcodeSettings._sdk_root_cache[sdk_path] = sdk_root + return XcodeSettings._sdk_path_cache[sdk_root] + + def _AppendPlatformVersionMinFlags(self, lst): + self._Appendf(lst, 'MACOSX_DEPLOYMENT_TARGET', '-mmacosx-version-min=%s') + if 'IPHONEOS_DEPLOYMENT_TARGET' in self._Settings(): + # TODO: Implement this better? + sdk_path_basename = os.path.basename(self._SdkPath()) + if sdk_path_basename.lower().startswith('iphonesimulator'): + self._Appendf(lst, 'IPHONEOS_DEPLOYMENT_TARGET', + '-mios-simulator-version-min=%s') + else: + self._Appendf(lst, 'IPHONEOS_DEPLOYMENT_TARGET', + '-miphoneos-version-min=%s') + + def GetCflags(self, configname, arch=None): + """Returns flags that need to be added to .c, .cc, .m, and .mm + compilations.""" + # This functions (and the similar ones below) do not offer complete + # emulation of all xcode_settings keys. They're implemented on demand. + + self.configname = configname + cflags = [] + + sdk_root = self._SdkPath() + if 'SDKROOT' in self._Settings() and sdk_root: + cflags.append('-isysroot %s' % sdk_root) + + if self._Test('CLANG_WARN_CONSTANT_CONVERSION', 'YES', default='NO'): + cflags.append('-Wconstant-conversion') + + if self._Test('GCC_CHAR_IS_UNSIGNED_CHAR', 'YES', default='NO'): + cflags.append('-funsigned-char') + + if self._Test('GCC_CW_ASM_SYNTAX', 'YES', default='YES'): + cflags.append('-fasm-blocks') + + if 'GCC_DYNAMIC_NO_PIC' in self._Settings(): + if self._Settings()['GCC_DYNAMIC_NO_PIC'] == 'YES': + cflags.append('-mdynamic-no-pic') + else: + pass + # TODO: In this case, it depends on the target. xcode passes + # mdynamic-no-pic by default for executable and possibly static lib + # according to mento + + if self._Test('GCC_ENABLE_PASCAL_STRINGS', 'YES', default='YES'): + cflags.append('-mpascal-strings') + + self._Appendf(cflags, 'GCC_OPTIMIZATION_LEVEL', '-O%s', default='s') + + if self._Test('GCC_GENERATE_DEBUGGING_SYMBOLS', 'YES', default='YES'): + dbg_format = self._Settings().get('DEBUG_INFORMATION_FORMAT', 'dwarf') + if dbg_format == 'dwarf': + cflags.append('-gdwarf-2') + elif dbg_format == 'stabs': + raise NotImplementedError('stabs debug format is not supported yet.') + elif dbg_format == 'dwarf-with-dsym': + cflags.append('-gdwarf-2') + else: + raise NotImplementedError('Unknown debug format %s' % dbg_format) + + if self._Settings().get('GCC_STRICT_ALIASING') == 'YES': + cflags.append('-fstrict-aliasing') + elif self._Settings().get('GCC_STRICT_ALIASING') == 'NO': + cflags.append('-fno-strict-aliasing') + + if self._Test('GCC_SYMBOLS_PRIVATE_EXTERN', 'YES', default='NO'): + cflags.append('-fvisibility=hidden') + + if self._Test('GCC_TREAT_WARNINGS_AS_ERRORS', 'YES', default='NO'): + cflags.append('-Werror') + + if self._Test('GCC_WARN_ABOUT_MISSING_NEWLINE', 'YES', default='NO'): + cflags.append('-Wnewline-eof') + + self._AppendPlatformVersionMinFlags(cflags) + + # TODO: + if self._Test('COPY_PHASE_STRIP', 'YES', default='NO'): + self._WarnUnimplemented('COPY_PHASE_STRIP') + self._WarnUnimplemented('GCC_DEBUGGING_SYMBOLS') + self._WarnUnimplemented('GCC_ENABLE_OBJC_EXCEPTIONS') + + # TODO: This is exported correctly, but assigning to it is not supported. + self._WarnUnimplemented('MACH_O_TYPE') + self._WarnUnimplemented('PRODUCT_TYPE') + + if arch is not None: + archs = [arch] + else: + archs = self._Settings().get('ARCHS', [self._DefaultArch()]) + if len(archs) != 1: + # TODO: Supporting fat binaries will be annoying. + self._WarnUnimplemented('ARCHS') + archs = ['i386'] + cflags.append('-arch ' + archs[0]) + + if archs[0] in ('i386', 'x86_64'): + if self._Test('GCC_ENABLE_SSE3_EXTENSIONS', 'YES', default='NO'): + cflags.append('-msse3') + if self._Test('GCC_ENABLE_SUPPLEMENTAL_SSE3_INSTRUCTIONS', 'YES', + default='NO'): + cflags.append('-mssse3') # Note 3rd 's'. + if self._Test('GCC_ENABLE_SSE41_EXTENSIONS', 'YES', default='NO'): + cflags.append('-msse4.1') + if self._Test('GCC_ENABLE_SSE42_EXTENSIONS', 'YES', default='NO'): + cflags.append('-msse4.2') + + cflags += self._Settings().get('WARNING_CFLAGS', []) + + if sdk_root: + framework_root = sdk_root + else: + framework_root = '' + config = self.spec['configurations'][self.configname] + framework_dirs = config.get('mac_framework_dirs', []) + for directory in framework_dirs: + cflags.append('-F' + directory.replace('$(SDKROOT)', framework_root)) + + self.configname = None + return cflags + + def GetCflagsC(self, configname): + """Returns flags that need to be added to .c, and .m compilations.""" + self.configname = configname + cflags_c = [] + if self._Settings().get('GCC_C_LANGUAGE_STANDARD', '') == 'ansi': + cflags_c.append('-ansi') + else: + self._Appendf(cflags_c, 'GCC_C_LANGUAGE_STANDARD', '-std=%s') + cflags_c += self._Settings().get('OTHER_CFLAGS', []) + self.configname = None + return cflags_c + + def GetCflagsCC(self, configname): + """Returns flags that need to be added to .cc, and .mm compilations.""" + self.configname = configname + cflags_cc = [] + + clang_cxx_language_standard = self._Settings().get( + 'CLANG_CXX_LANGUAGE_STANDARD') + # Note: Don't make c++0x to c++11 so that c++0x can be used with older + # clangs that don't understand c++11 yet (like Xcode 4.2's). + if clang_cxx_language_standard: + cflags_cc.append('-std=%s' % clang_cxx_language_standard) + + self._Appendf(cflags_cc, 'CLANG_CXX_LIBRARY', '-stdlib=%s') + + if self._Test('GCC_ENABLE_CPP_RTTI', 'NO', default='YES'): + cflags_cc.append('-fno-rtti') + if self._Test('GCC_ENABLE_CPP_EXCEPTIONS', 'NO', default='YES'): + cflags_cc.append('-fno-exceptions') + if self._Test('GCC_INLINES_ARE_PRIVATE_EXTERN', 'YES', default='NO'): + cflags_cc.append('-fvisibility-inlines-hidden') + if self._Test('GCC_THREADSAFE_STATICS', 'NO', default='YES'): + cflags_cc.append('-fno-threadsafe-statics') + # Note: This flag is a no-op for clang, it only has an effect for gcc. + if self._Test('GCC_WARN_ABOUT_INVALID_OFFSETOF_MACRO', 'NO', default='YES'): + cflags_cc.append('-Wno-invalid-offsetof') + + other_ccflags = [] + + for flag in self._Settings().get('OTHER_CPLUSPLUSFLAGS', ['$(inherited)']): + # TODO: More general variable expansion. Missing in many other places too. + if flag in ('$inherited', '$(inherited)', '${inherited}'): + flag = '$OTHER_CFLAGS' + if flag in ('$OTHER_CFLAGS', '$(OTHER_CFLAGS)', '${OTHER_CFLAGS}'): + other_ccflags += self._Settings().get('OTHER_CFLAGS', []) + else: + other_ccflags.append(flag) + cflags_cc += other_ccflags + + self.configname = None + return cflags_cc + + def _AddObjectiveCGarbageCollectionFlags(self, flags): + gc_policy = self._Settings().get('GCC_ENABLE_OBJC_GC', 'unsupported') + if gc_policy == 'supported': + flags.append('-fobjc-gc') + elif gc_policy == 'required': + flags.append('-fobjc-gc-only') + + def _AddObjectiveCARCFlags(self, flags): + if self._Test('CLANG_ENABLE_OBJC_ARC', 'YES', default='NO'): + flags.append('-fobjc-arc') + + def _AddObjectiveCMissingPropertySynthesisFlags(self, flags): + if self._Test('CLANG_WARN_OBJC_MISSING_PROPERTY_SYNTHESIS', + 'YES', default='NO'): + flags.append('-Wobjc-missing-property-synthesis') + + def GetCflagsObjC(self, configname): + """Returns flags that need to be added to .m compilations.""" + self.configname = configname + cflags_objc = [] + self._AddObjectiveCGarbageCollectionFlags(cflags_objc) + self._AddObjectiveCARCFlags(cflags_objc) + self._AddObjectiveCMissingPropertySynthesisFlags(cflags_objc) + self.configname = None + return cflags_objc + + def GetCflagsObjCC(self, configname): + """Returns flags that need to be added to .mm compilations.""" + self.configname = configname + cflags_objcc = [] + self._AddObjectiveCGarbageCollectionFlags(cflags_objcc) + self._AddObjectiveCARCFlags(cflags_objcc) + self._AddObjectiveCMissingPropertySynthesisFlags(cflags_objcc) + if self._Test('GCC_OBJC_CALL_CXX_CDTORS', 'YES', default='NO'): + cflags_objcc.append('-fobjc-call-cxx-cdtors') + self.configname = None + return cflags_objcc + + def GetInstallNameBase(self): + """Return DYLIB_INSTALL_NAME_BASE for this target.""" + # Xcode sets this for shared_libraries, and for nonbundled loadable_modules. + if (self.spec['type'] != 'shared_library' and + (self.spec['type'] != 'loadable_module' or self._IsBundle())): + return None + install_base = self.GetPerTargetSetting( + 'DYLIB_INSTALL_NAME_BASE', + default='/Library/Frameworks' if self._IsBundle() else '/usr/local/lib') + return install_base + + def _StandardizePath(self, path): + """Do :standardizepath processing for path.""" + # I'm not quite sure what :standardizepath does. Just call normpath(), + # but don't let @executable_path/../foo collapse to foo. + if '/' in path: + prefix, rest = '', path + if path.startswith('@'): + prefix, rest = path.split('/', 1) + rest = os.path.normpath(rest) # :standardizepath + path = os.path.join(prefix, rest) + return path + + def GetInstallName(self): + """Return LD_DYLIB_INSTALL_NAME for this target.""" + # Xcode sets this for shared_libraries, and for nonbundled loadable_modules. + if (self.spec['type'] != 'shared_library' and + (self.spec['type'] != 'loadable_module' or self._IsBundle())): + return None + + default_install_name = \ + '$(DYLIB_INSTALL_NAME_BASE:standardizepath)/$(EXECUTABLE_PATH)' + install_name = self.GetPerTargetSetting( + 'LD_DYLIB_INSTALL_NAME', default=default_install_name) + + # Hardcode support for the variables used in chromium for now, to + # unblock people using the make build. + if '$' in install_name: + assert install_name in ('$(DYLIB_INSTALL_NAME_BASE:standardizepath)/' + '$(WRAPPER_NAME)/$(PRODUCT_NAME)', default_install_name), ( + 'Variables in LD_DYLIB_INSTALL_NAME are not generally supported ' + 'yet in target \'%s\' (got \'%s\')' % + (self.spec['target_name'], install_name)) + + install_name = install_name.replace( + '$(DYLIB_INSTALL_NAME_BASE:standardizepath)', + self._StandardizePath(self.GetInstallNameBase())) + if self._IsBundle(): + # These are only valid for bundles, hence the |if|. + install_name = install_name.replace( + '$(WRAPPER_NAME)', self.GetWrapperName()) + install_name = install_name.replace( + '$(PRODUCT_NAME)', self.GetProductName()) + else: + assert '$(WRAPPER_NAME)' not in install_name + assert '$(PRODUCT_NAME)' not in install_name + + install_name = install_name.replace( + '$(EXECUTABLE_PATH)', self.GetExecutablePath()) + return install_name + + def _MapLinkerFlagFilename(self, ldflag, gyp_to_build_path): + """Checks if ldflag contains a filename and if so remaps it from + gyp-directory-relative to build-directory-relative.""" + # This list is expanded on demand. + # They get matched as: + # -exported_symbols_list file + # -Wl,exported_symbols_list file + # -Wl,exported_symbols_list,file + LINKER_FILE = '(\S+)' + WORD = '\S+' + linker_flags = [ + ['-exported_symbols_list', LINKER_FILE], # Needed for NaCl. + ['-unexported_symbols_list', LINKER_FILE], + ['-reexported_symbols_list', LINKER_FILE], + ['-sectcreate', WORD, WORD, LINKER_FILE], # Needed for remoting. + ] + for flag_pattern in linker_flags: + regex = re.compile('(?:-Wl,)?' + '[ ,]'.join(flag_pattern)) + m = regex.match(ldflag) + if m: + ldflag = ldflag[:m.start(1)] + gyp_to_build_path(m.group(1)) + \ + ldflag[m.end(1):] + # Required for ffmpeg (no idea why they don't use LIBRARY_SEARCH_PATHS, + # TODO(thakis): Update ffmpeg.gyp): + if ldflag.startswith('-L'): + ldflag = '-L' + gyp_to_build_path(ldflag[len('-L'):]) + return ldflag + + def GetLdflags(self, configname, product_dir, gyp_to_build_path, arch=None): + """Returns flags that need to be passed to the linker. + + Args: + configname: The name of the configuration to get ld flags for. + product_dir: The directory where products such static and dynamic + libraries are placed. This is added to the library search path. + gyp_to_build_path: A function that converts paths relative to the + current gyp file to paths relative to the build direcotry. + """ + self.configname = configname + ldflags = [] + + # The xcode build is relative to a gyp file's directory, and OTHER_LDFLAGS + # can contain entries that depend on this. Explicitly absolutify these. + for ldflag in self._Settings().get('OTHER_LDFLAGS', []): + ldflags.append(self._MapLinkerFlagFilename(ldflag, gyp_to_build_path)) + + if self._Test('DEAD_CODE_STRIPPING', 'YES', default='NO'): + ldflags.append('-Wl,-dead_strip') + + if self._Test('PREBINDING', 'YES', default='NO'): + ldflags.append('-Wl,-prebind') + + self._Appendf( + ldflags, 'DYLIB_COMPATIBILITY_VERSION', '-compatibility_version %s') + self._Appendf( + ldflags, 'DYLIB_CURRENT_VERSION', '-current_version %s') + + self._AppendPlatformVersionMinFlags(ldflags) + + if 'SDKROOT' in self._Settings() and self._SdkPath(): + ldflags.append('-isysroot ' + self._SdkPath()) + + for library_path in self._Settings().get('LIBRARY_SEARCH_PATHS', []): + ldflags.append('-L' + gyp_to_build_path(library_path)) + + if 'ORDER_FILE' in self._Settings(): + ldflags.append('-Wl,-order_file ' + + '-Wl,' + gyp_to_build_path( + self._Settings()['ORDER_FILE'])) + + if arch is not None: + archs = [arch] + else: + archs = self._Settings().get('ARCHS', [self._DefaultArch()]) + if len(archs) != 1: + # TODO: Supporting fat binaries will be annoying. + self._WarnUnimplemented('ARCHS') + archs = ['i386'] + ldflags.append('-arch ' + archs[0]) + + # Xcode adds the product directory by default. + ldflags.append('-L' + product_dir) + + install_name = self.GetInstallName() + if install_name and self.spec['type'] != 'loadable_module': + ldflags.append('-install_name ' + install_name.replace(' ', r'\ ')) + + for rpath in self._Settings().get('LD_RUNPATH_SEARCH_PATHS', []): + ldflags.append('-Wl,-rpath,' + rpath) + + sdk_root = self._SdkPath() + if not sdk_root: + sdk_root = '' + config = self.spec['configurations'][self.configname] + framework_dirs = config.get('mac_framework_dirs', []) + for directory in framework_dirs: + ldflags.append('-F' + directory.replace('$(SDKROOT)', sdk_root)) + + self.configname = None + return ldflags + + def GetLibtoolflags(self, configname): + """Returns flags that need to be passed to the static linker. + + Args: + configname: The name of the configuration to get ld flags for. + """ + self.configname = configname + libtoolflags = [] + + for libtoolflag in self._Settings().get('OTHER_LDFLAGS', []): + libtoolflags.append(libtoolflag) + # TODO(thakis): ARCHS? + + self.configname = None + return libtoolflags + + def GetPerTargetSettings(self): + """Gets a list of all the per-target settings. This will only fetch keys + whose values are the same across all configurations.""" + first_pass = True + result = {} + for configname in sorted(self.xcode_settings.keys()): + if first_pass: + result = dict(self.xcode_settings[configname]) + first_pass = False + else: + for key, value in self.xcode_settings[configname].iteritems(): + if key not in result: + continue + elif result[key] != value: + del result[key] + return result + + def GetPerConfigSetting(self, setting, configname, default=None): + if configname in self.xcode_settings: + return self.xcode_settings[configname].get(setting, default) + else: + return self.GetPerTargetSetting(setting, default) + + def GetPerTargetSetting(self, setting, default=None): + """Tries to get xcode_settings.setting from spec. Assumes that the setting + has the same value in all configurations and throws otherwise.""" + is_first_pass = True + result = None + for configname in sorted(self.xcode_settings.keys()): + if is_first_pass: + result = self.xcode_settings[configname].get(setting, None) + is_first_pass = False + else: + assert result == self.xcode_settings[configname].get(setting, None), ( + "Expected per-target setting for '%s', got per-config setting " + "(target %s)" % (setting, self.spec['target_name'])) + if result is None: + return default + return result + + def _GetStripPostbuilds(self, configname, output_binary, quiet): + """Returns a list of shell commands that contain the shell commands + neccessary to strip this target's binary. These should be run as postbuilds + before the actual postbuilds run.""" + self.configname = configname + + result = [] + if (self._Test('DEPLOYMENT_POSTPROCESSING', 'YES', default='NO') and + self._Test('STRIP_INSTALLED_PRODUCT', 'YES', default='NO')): + + default_strip_style = 'debugging' + if self.spec['type'] == 'loadable_module' and self._IsBundle(): + default_strip_style = 'non-global' + elif self.spec['type'] == 'executable': + default_strip_style = 'all' + + strip_style = self._Settings().get('STRIP_STYLE', default_strip_style) + strip_flags = { + 'all': '', + 'non-global': '-x', + 'debugging': '-S', + }[strip_style] + + explicit_strip_flags = self._Settings().get('STRIPFLAGS', '') + if explicit_strip_flags: + strip_flags += ' ' + _NormalizeEnvVarReferences(explicit_strip_flags) + + if not quiet: + result.append('echo STRIP\\(%s\\)' % self.spec['target_name']) + result.append('strip %s %s' % (strip_flags, output_binary)) + + self.configname = None + return result + + def _GetDebugInfoPostbuilds(self, configname, output, output_binary, quiet): + """Returns a list of shell commands that contain the shell commands + neccessary to massage this target's debug information. These should be run + as postbuilds before the actual postbuilds run.""" + self.configname = configname + + # For static libraries, no dSYMs are created. + result = [] + if (self._Test('GCC_GENERATE_DEBUGGING_SYMBOLS', 'YES', default='YES') and + self._Test( + 'DEBUG_INFORMATION_FORMAT', 'dwarf-with-dsym', default='dwarf') and + self.spec['type'] != 'static_library'): + if not quiet: + result.append('echo DSYMUTIL\\(%s\\)' % self.spec['target_name']) + result.append('dsymutil %s -o %s' % (output_binary, output + '.dSYM')) + + self.configname = None + return result + + def _GetTargetPostbuilds(self, configname, output, output_binary, + quiet=False): + """Returns a list of shell commands that contain the shell commands + to run as postbuilds for this target, before the actual postbuilds.""" + # dSYMs need to build before stripping happens. + return ( + self._GetDebugInfoPostbuilds(configname, output, output_binary, quiet) + + self._GetStripPostbuilds(configname, output_binary, quiet)) + + def _GetIOSPostbuilds(self, configname, output_binary): + """Return a shell command to codesign the iOS output binary so it can + be deployed to a device. This should be run as the very last step of the + build.""" + if not (self.isIOS and self.spec['type'] == "executable"): + return [] + + settings = self.xcode_settings[configname] + key = self._GetIOSCodeSignIdentityKey(settings) + if not key: + return [] + + # Warn for any unimplemented signing xcode keys. + unimpl = ['OTHER_CODE_SIGN_FLAGS'] + unimpl = set(unimpl) & set(self.xcode_settings[configname].keys()) + if unimpl: + print 'Warning: Some codesign keys not implemented, ignoring: %s' % ( + ', '.join(sorted(unimpl))) + + return ['%s code-sign-bundle "%s" "%s" "%s" "%s"' % ( + os.path.join('${TARGET_BUILD_DIR}', 'gyp-mac-tool'), key, + settings.get('CODE_SIGN_RESOURCE_RULES_PATH', ''), + settings.get('CODE_SIGN_ENTITLEMENTS', ''), + settings.get('PROVISIONING_PROFILE', '')) + ] + + def _GetIOSCodeSignIdentityKey(self, settings): + identity = settings.get('CODE_SIGN_IDENTITY') + if not identity: + return None + if identity not in XcodeSettings._codesigning_key_cache: + output = subprocess.check_output( + ['security', 'find-identity', '-p', 'codesigning', '-v']) + for line in output.splitlines(): + if identity in line: + fingerprint = line.split()[1] + cache = XcodeSettings._codesigning_key_cache + assert identity not in cache or fingerprint == cache[identity], ( + "Multiple codesigning fingerprints for identity: %s" % identity) + XcodeSettings._codesigning_key_cache[identity] = fingerprint + return XcodeSettings._codesigning_key_cache.get(identity, '') + + def AddImplicitPostbuilds(self, configname, output, output_binary, + postbuilds=[], quiet=False): + """Returns a list of shell commands that should run before and after + |postbuilds|.""" + assert output_binary is not None + pre = self._GetTargetPostbuilds(configname, output, output_binary, quiet) + post = self._GetIOSPostbuilds(configname, output_binary) + return pre + postbuilds + post + + def _AdjustLibrary(self, library, config_name=None): + if library.endswith('.framework'): + l = '-framework ' + os.path.splitext(os.path.basename(library))[0] + else: + m = self.library_re.match(library) + if m: + l = '-l' + m.group(1) + else: + l = library + + sdk_root = self._SdkPath(config_name) + if not sdk_root: + sdk_root = '' + return l.replace('$(SDKROOT)', sdk_root) + + def AdjustLibraries(self, libraries, config_name=None): + """Transforms entries like 'Cocoa.framework' in libraries into entries like + '-framework Cocoa', 'libcrypto.dylib' into '-lcrypto', etc. + """ + libraries = [self._AdjustLibrary(library, config_name) + for library in libraries] + return libraries + + def _BuildMachineOSBuild(self): + return self._GetStdout(['sw_vers', '-buildVersion']) + + # This method ported from the logic in Homebrew's CLT version check + def _CLTVersion(self): + # pkgutil output looks like + # package-id: com.apple.pkg.CLTools_Executables + # version: 5.0.1.0.1.1382131676 + # volume: / + # location: / + # install-time: 1382544035 + # groups: com.apple.FindSystemFiles.pkg-group com.apple.DevToolsBoth.pkg-group com.apple.DevToolsNonRelocatableShared.pkg-group + STANDALONE_PKG_ID = "com.apple.pkg.DeveloperToolsCLILeo" + FROM_XCODE_PKG_ID = "com.apple.pkg.DeveloperToolsCLI" + MAVERICKS_PKG_ID = "com.apple.pkg.CLTools_Executables" + + regex = re.compile('version: (?P<version>.+)') + for key in [MAVERICKS_PKG_ID, STANDALONE_PKG_ID, FROM_XCODE_PKG_ID]: + try: + output = self._GetStdout(['/usr/sbin/pkgutil', '--pkg-info', key]) + return re.search(regex, output).groupdict()['version'] + except: + continue + + def _XcodeVersion(self): + # `xcodebuild -version` output looks like + # Xcode 4.6.3 + # Build version 4H1503 + # or like + # Xcode 3.2.6 + # Component versions: DevToolsCore-1809.0; DevToolsSupport-1806.0 + # BuildVersion: 10M2518 + # Convert that to '0463', '4H1503'. + if len(XcodeSettings._xcode_version_cache) == 0: + try: + version_list = self._GetStdout(['xcodebuild', '-version']).splitlines() + # In some circumstances xcodebuild exits 0 but doesn't return + # the right results; for example, a user on 10.7 or 10.8 with + # a bogus path set via xcode-select + # In that case this may be a CLT-only install so fall back to + # checking that version. + if len(version_list) < 2: + raise GypError, "xcodebuild returned unexpected results" + except: + version = self._CLTVersion() + if version: + version = re.match('(\d\.\d\.?\d*)', version).groups()[0] + else: + raise GypError, "No Xcode or CLT version detected!" + # The CLT has no build information, so we return an empty string. + version_list = [version, ''] + version = version_list[0] + build = version_list[-1] + # Be careful to convert "4.2" to "0420": + version = version.split()[-1].replace('.', '') + version = (version + '0' * (3 - len(version))).zfill(4) + if build: + build = build.split()[-1] + XcodeSettings._xcode_version_cache = (version, build) + return XcodeSettings._xcode_version_cache + + def _XcodeIOSDeviceFamily(self, configname): + family = self.xcode_settings[configname].get('TARGETED_DEVICE_FAMILY', '1') + return [int(x) for x in family.split(',')] + + def GetExtraPlistItems(self, configname=None): + """Returns a dictionary with extra items to insert into Info.plist.""" + if configname not in XcodeSettings._plist_cache: + cache = {} + cache['BuildMachineOSBuild'] = self._BuildMachineOSBuild() + + xcode, xcode_build = self._XcodeVersion() + cache['DTXcode'] = xcode + cache['DTXcodeBuild'] = xcode_build + + sdk_root = self._SdkRoot(configname) + if not sdk_root: + sdk_root = self._DefaultSdkRoot() + cache['DTSDKName'] = sdk_root + if xcode >= '0430': + cache['DTSDKBuild'] = self._GetSdkVersionInfoItem( + sdk_root, 'ProductBuildVersion') + else: + cache['DTSDKBuild'] = cache['BuildMachineOSBuild'] + + if self.isIOS: + cache['DTPlatformName'] = cache['DTSDKName'] + if configname.endswith("iphoneos"): + cache['DTPlatformVersion'] = self._GetSdkVersionInfoItem( + sdk_root, 'ProductVersion') + cache['CFBundleSupportedPlatforms'] = ['iPhoneOS'] + else: + cache['CFBundleSupportedPlatforms'] = ['iPhoneSimulator'] + XcodeSettings._plist_cache[configname] = cache + + # Include extra plist items that are per-target, not per global + # XcodeSettings. + items = dict(XcodeSettings._plist_cache[configname]) + if self.isIOS: + items['UIDeviceFamily'] = self._XcodeIOSDeviceFamily(configname) + return items + + def _DefaultSdkRoot(self): + """Returns the default SDKROOT to use. + + Prior to version 5.0.0, if SDKROOT was not explicitly set in the Xcode + project, then the environment variable was empty. Starting with this + version, Xcode uses the name of the newest SDK installed. + """ + if self._XcodeVersion() < '0500': + return '' + default_sdk_path = self._XcodeSdkPath('') + default_sdk_root = XcodeSettings._sdk_root_cache.get(default_sdk_path) + if default_sdk_root: + return default_sdk_root + try: + all_sdks = self._GetStdout(['xcodebuild', '-showsdks']) + except: + # If xcodebuild fails, there will be no valid SDKs + return '' + for line in all_sdks.splitlines(): + items = line.split() + if len(items) >= 3 and items[-2] == '-sdk': + sdk_root = items[-1] + sdk_path = self._XcodeSdkPath(sdk_root) + if sdk_path == default_sdk_path: + return sdk_root + return '' + + def _DefaultArch(self): + # For Mac projects, Xcode changed the default value used when ARCHS is not + # set from "i386" to "x86_64". + # + # For iOS projects, if ARCHS is unset, it defaults to "armv7 armv7s" when + # building for a device, and the simulator binaries are always build for + # "i386". + # + # For new projects, ARCHS is set to $(ARCHS_STANDARD_INCLUDING_64_BIT), + # which correspond to "armv7 armv7s arm64", and when building the simulator + # the architecture is either "i386" or "x86_64" depending on the simulated + # device (respectively 32-bit or 64-bit device). + # + # Since the value returned by this function is only used when ARCHS is not + # set, then on iOS we return "i386", as the default xcode project generator + # does not set ARCHS if it is not set in the .gyp file. + if self.isIOS: + return 'i386' + version, build = self._XcodeVersion() + if version >= '0500': + return 'x86_64' + return 'i386' + +class MacPrefixHeader(object): + """A class that helps with emulating Xcode's GCC_PREFIX_HEADER feature. + + This feature consists of several pieces: + * If GCC_PREFIX_HEADER is present, all compilations in that project get an + additional |-include path_to_prefix_header| cflag. + * If GCC_PRECOMPILE_PREFIX_HEADER is present too, then the prefix header is + instead compiled, and all other compilations in the project get an + additional |-include path_to_compiled_header| instead. + + Compiled prefix headers have the extension gch. There is one gch file for + every language used in the project (c, cc, m, mm), since gch files for + different languages aren't compatible. + + gch files themselves are built with the target's normal cflags, but they + obviously don't get the |-include| flag. Instead, they need a -x flag that + describes their language. + + All o files in the target need to depend on the gch file, to make sure + it's built before any o file is built. + + This class helps with some of these tasks, but it needs help from the build + system for writing dependencies to the gch files, for writing build commands + for the gch files, and for figuring out the location of the gch files. + """ + def __init__(self, xcode_settings, + gyp_path_to_build_path, gyp_path_to_build_output): + """If xcode_settings is None, all methods on this class are no-ops. + + Args: + gyp_path_to_build_path: A function that takes a gyp-relative path, + and returns a path relative to the build directory. + gyp_path_to_build_output: A function that takes a gyp-relative path and + a language code ('c', 'cc', 'm', or 'mm'), and that returns a path + to where the output of precompiling that path for that language + should be placed (without the trailing '.gch'). + """ + # This doesn't support per-configuration prefix headers. Good enough + # for now. + self.header = None + self.compile_headers = False + if xcode_settings: + self.header = xcode_settings.GetPerTargetSetting('GCC_PREFIX_HEADER') + self.compile_headers = xcode_settings.GetPerTargetSetting( + 'GCC_PRECOMPILE_PREFIX_HEADER', default='NO') != 'NO' + self.compiled_headers = {} + if self.header: + if self.compile_headers: + for lang in ['c', 'cc', 'm', 'mm']: + self.compiled_headers[lang] = gyp_path_to_build_output( + self.header, lang) + self.header = gyp_path_to_build_path(self.header) + + def _CompiledHeader(self, lang, arch): + assert self.compile_headers + h = self.compiled_headers[lang] + if arch: + h += '.' + arch + return h + + def GetInclude(self, lang, arch=None): + """Gets the cflags to include the prefix header for language |lang|.""" + if self.compile_headers and lang in self.compiled_headers: + return '-include %s' % self._CompiledHeader(lang, arch) + elif self.header: + return '-include %s' % self.header + else: + return '' + + def _Gch(self, lang, arch): + """Returns the actual file name of the prefix header for language |lang|.""" + assert self.compile_headers + return self._CompiledHeader(lang, arch) + '.gch' + + def GetObjDependencies(self, sources, objs, arch=None): + """Given a list of source files and the corresponding object files, returns + a list of (source, object, gch) tuples, where |gch| is the build-directory + relative path to the gch file each object file depends on. |compilable[i]| + has to be the source file belonging to |objs[i]|.""" + if not self.header or not self.compile_headers: + return [] + + result = [] + for source, obj in zip(sources, objs): + ext = os.path.splitext(source)[1] + lang = { + '.c': 'c', + '.cpp': 'cc', '.cc': 'cc', '.cxx': 'cc', + '.m': 'm', + '.mm': 'mm', + }.get(ext, None) + if lang: + result.append((source, obj, self._Gch(lang, arch))) + return result + + def GetPchBuildCommands(self, arch=None): + """Returns [(path_to_gch, language_flag, language, header)]. + |path_to_gch| and |header| are relative to the build directory. + """ + if not self.header or not self.compile_headers: + return [] + return [ + (self._Gch('c', arch), '-x c-header', 'c', self.header), + (self._Gch('cc', arch), '-x c++-header', 'cc', self.header), + (self._Gch('m', arch), '-x objective-c-header', 'm', self.header), + (self._Gch('mm', arch), '-x objective-c++-header', 'mm', self.header), + ] + + +def MergeGlobalXcodeSettingsToSpec(global_dict, spec): + """Merges the global xcode_settings dictionary into each configuration of the + target represented by spec. For keys that are both in the global and the local + xcode_settings dict, the local key gets precendence. + """ + # The xcode generator special-cases global xcode_settings and does something + # that amounts to merging in the global xcode_settings into each local + # xcode_settings dict. + global_xcode_settings = global_dict.get('xcode_settings', {}) + for config in spec['configurations'].values(): + if 'xcode_settings' in config: + new_settings = global_xcode_settings.copy() + new_settings.update(config['xcode_settings']) + config['xcode_settings'] = new_settings + + +def IsMacBundle(flavor, spec): + """Returns if |spec| should be treated as a bundle. + + Bundles are directories with a certain subdirectory structure, instead of + just a single file. Bundle rules do not produce a binary but also package + resources into that directory.""" + is_mac_bundle = (int(spec.get('mac_bundle', 0)) != 0 and flavor == 'mac') + if is_mac_bundle: + assert spec['type'] != 'none', ( + 'mac_bundle targets cannot have type none (target "%s")' % + spec['target_name']) + return is_mac_bundle + + +def GetMacBundleResources(product_dir, xcode_settings, resources): + """Yields (output, resource) pairs for every resource in |resources|. + Only call this for mac bundle targets. + + Args: + product_dir: Path to the directory containing the output bundle, + relative to the build directory. + xcode_settings: The XcodeSettings of the current target. + resources: A list of bundle resources, relative to the build directory. + """ + dest = os.path.join(product_dir, + xcode_settings.GetBundleResourceFolder()) + for res in resources: + output = dest + + # The make generator doesn't support it, so forbid it everywhere + # to keep the generators more interchangable. + assert ' ' not in res, ( + "Spaces in resource filenames not supported (%s)" % res) + + # Split into (path,file). + res_parts = os.path.split(res) + + # Now split the path into (prefix,maybe.lproj). + lproj_parts = os.path.split(res_parts[0]) + # If the resource lives in a .lproj bundle, add that to the destination. + if lproj_parts[1].endswith('.lproj'): + output = os.path.join(output, lproj_parts[1]) + + output = os.path.join(output, res_parts[1]) + # Compiled XIB files are referred to by .nib. + if output.endswith('.xib'): + output = os.path.splitext(output)[0] + '.nib' + # Compiled storyboard files are referred to by .storyboardc. + if output.endswith('.storyboard'): + output = os.path.splitext(output)[0] + '.storyboardc' + + yield output, res + + +def GetMacInfoPlist(product_dir, xcode_settings, gyp_path_to_build_path): + """Returns (info_plist, dest_plist, defines, extra_env), where: + * |info_plist| is the source plist path, relative to the + build directory, + * |dest_plist| is the destination plist path, relative to the + build directory, + * |defines| is a list of preprocessor defines (empty if the plist + shouldn't be preprocessed, + * |extra_env| is a dict of env variables that should be exported when + invoking |mac_tool copy-info-plist|. + + Only call this for mac bundle targets. + + Args: + product_dir: Path to the directory containing the output bundle, + relative to the build directory. + xcode_settings: The XcodeSettings of the current target. + gyp_to_build_path: A function that converts paths relative to the + current gyp file to paths relative to the build direcotry. + """ + info_plist = xcode_settings.GetPerTargetSetting('INFOPLIST_FILE') + if not info_plist: + return None, None, [], {} + + # The make generator doesn't support it, so forbid it everywhere + # to keep the generators more interchangable. + assert ' ' not in info_plist, ( + "Spaces in Info.plist filenames not supported (%s)" % info_plist) + + info_plist = gyp_path_to_build_path(info_plist) + + # If explicitly set to preprocess the plist, invoke the C preprocessor and + # specify any defines as -D flags. + if xcode_settings.GetPerTargetSetting( + 'INFOPLIST_PREPROCESS', default='NO') == 'YES': + # Create an intermediate file based on the path. + defines = shlex.split(xcode_settings.GetPerTargetSetting( + 'INFOPLIST_PREPROCESSOR_DEFINITIONS', default='')) + else: + defines = [] + + dest_plist = os.path.join(product_dir, xcode_settings.GetBundlePlistPath()) + extra_env = xcode_settings.GetPerTargetSettings() + + return info_plist, dest_plist, defines, extra_env + + +def _GetXcodeEnv(xcode_settings, built_products_dir, srcroot, configuration, + additional_settings=None): + """Return the environment variables that Xcode would set. See + http://developer.apple.com/library/mac/#documentation/DeveloperTools/Reference/XcodeBuildSettingRef/1-Build_Setting_Reference/build_setting_ref.html#//apple_ref/doc/uid/TP40003931-CH3-SW153 + for a full list. + + Args: + xcode_settings: An XcodeSettings object. If this is None, this function + returns an empty dict. + built_products_dir: Absolute path to the built products dir. + srcroot: Absolute path to the source root. + configuration: The build configuration name. + additional_settings: An optional dict with more values to add to the + result. + """ + if not xcode_settings: return {} + + # This function is considered a friend of XcodeSettings, so let it reach into + # its implementation details. + spec = xcode_settings.spec + + # These are filled in on a as-needed basis. + env = { + 'BUILT_PRODUCTS_DIR' : built_products_dir, + 'CONFIGURATION' : configuration, + 'PRODUCT_NAME' : xcode_settings.GetProductName(), + # See /Developer/Platforms/MacOSX.platform/Developer/Library/Xcode/Specifications/MacOSX\ Product\ Types.xcspec for FULL_PRODUCT_NAME + 'SRCROOT' : srcroot, + 'SOURCE_ROOT': '${SRCROOT}', + # This is not true for static libraries, but currently the env is only + # written for bundles: + 'TARGET_BUILD_DIR' : built_products_dir, + 'TEMP_DIR' : '${TMPDIR}', + } + if xcode_settings.GetPerConfigSetting('SDKROOT', configuration): + env['SDKROOT'] = xcode_settings._SdkPath(configuration) + else: + env['SDKROOT'] = '' + + if spec['type'] in ( + 'executable', 'static_library', 'shared_library', 'loadable_module'): + env['EXECUTABLE_NAME'] = xcode_settings.GetExecutableName() + env['EXECUTABLE_PATH'] = xcode_settings.GetExecutablePath() + env['FULL_PRODUCT_NAME'] = xcode_settings.GetFullProductName() + mach_o_type = xcode_settings.GetMachOType() + if mach_o_type: + env['MACH_O_TYPE'] = mach_o_type + env['PRODUCT_TYPE'] = xcode_settings.GetProductType() + if xcode_settings._IsBundle(): + env['CONTENTS_FOLDER_PATH'] = \ + xcode_settings.GetBundleContentsFolderPath() + env['UNLOCALIZED_RESOURCES_FOLDER_PATH'] = \ + xcode_settings.GetBundleResourceFolder() + env['INFOPLIST_PATH'] = xcode_settings.GetBundlePlistPath() + env['WRAPPER_NAME'] = xcode_settings.GetWrapperName() + + install_name = xcode_settings.GetInstallName() + if install_name: + env['LD_DYLIB_INSTALL_NAME'] = install_name + install_name_base = xcode_settings.GetInstallNameBase() + if install_name_base: + env['DYLIB_INSTALL_NAME_BASE'] = install_name_base + + if not additional_settings: + additional_settings = {} + else: + # Flatten lists to strings. + for k in additional_settings: + if not isinstance(additional_settings[k], str): + additional_settings[k] = ' '.join(additional_settings[k]) + additional_settings.update(env) + + for k in additional_settings: + additional_settings[k] = _NormalizeEnvVarReferences(additional_settings[k]) + + return additional_settings + + +def _NormalizeEnvVarReferences(str): + """Takes a string containing variable references in the form ${FOO}, $(FOO), + or $FOO, and returns a string with all variable references in the form ${FOO}. + """ + # $FOO -> ${FOO} + str = re.sub(r'\$([a-zA-Z_][a-zA-Z0-9_]*)', r'${\1}', str) + + # $(FOO) -> ${FOO} + matches = re.findall(r'(\$\(([a-zA-Z0-9\-_]+)\))', str) + for match in matches: + to_replace, variable = match + assert '$(' not in match, '$($(FOO)) variables not supported: ' + match + str = str.replace(to_replace, '${' + variable + '}') + + return str + + +def ExpandEnvVars(string, expansions): + """Expands ${VARIABLES}, $(VARIABLES), and $VARIABLES in string per the + expansions list. If the variable expands to something that references + another variable, this variable is expanded as well if it's in env -- + until no variables present in env are left.""" + for k, v in reversed(expansions): + string = string.replace('${' + k + '}', v) + string = string.replace('$(' + k + ')', v) + string = string.replace('$' + k, v) + return string + + +def _TopologicallySortedEnvVarKeys(env): + """Takes a dict |env| whose values are strings that can refer to other keys, + for example env['foo'] = '$(bar) and $(baz)'. Returns a list L of all keys of + env such that key2 is after key1 in L if env[key2] refers to env[key1]. + + Throws an Exception in case of dependency cycles. + """ + # Since environment variables can refer to other variables, the evaluation + # order is important. Below is the logic to compute the dependency graph + # and sort it. + regex = re.compile(r'\$\{([a-zA-Z0-9\-_]+)\}') + def GetEdges(node): + # Use a definition of edges such that user_of_variable -> used_varible. + # This happens to be easier in this case, since a variable's + # definition contains all variables it references in a single string. + # We can then reverse the result of the topological sort at the end. + # Since: reverse(topsort(DAG)) = topsort(reverse_edges(DAG)) + matches = set([v for v in regex.findall(env[node]) if v in env]) + for dependee in matches: + assert '${' not in dependee, 'Nested variables not supported: ' + dependee + return matches + + try: + # Topologically sort, and then reverse, because we used an edge definition + # that's inverted from the expected result of this function (see comment + # above). + order = gyp.common.TopologicallySorted(env.keys(), GetEdges) + order.reverse() + return order + except gyp.common.CycleError, e: + raise GypError( + 'Xcode environment variables are cyclically dependent: ' + str(e.nodes)) + + +def GetSortedXcodeEnv(xcode_settings, built_products_dir, srcroot, + configuration, additional_settings=None): + env = _GetXcodeEnv(xcode_settings, built_products_dir, srcroot, configuration, + additional_settings) + return [(key, env[key]) for key in _TopologicallySortedEnvVarKeys(env)] + + +def GetSpecPostbuildCommands(spec, quiet=False): + """Returns the list of postbuilds explicitly defined on |spec|, in a form + executable by a shell.""" + postbuilds = [] + for postbuild in spec.get('postbuilds', []): + if not quiet: + postbuilds.append('echo POSTBUILD\\(%s\\) %s' % ( + spec['target_name'], postbuild['postbuild_name'])) + postbuilds.append(gyp.common.EncodePOSIXShellList(postbuild['action'])) + return postbuilds + + +def _HasIOSTarget(targets): + """Returns true if any target contains the iOS specific key + IPHONEOS_DEPLOYMENT_TARGET.""" + for target_dict in targets.values(): + for config in target_dict['configurations'].values(): + if config.get('xcode_settings', {}).get('IPHONEOS_DEPLOYMENT_TARGET'): + return True + return False + + +def _AddIOSDeviceConfigurations(targets): + """Clone all targets and append -iphoneos to the name. Configure these targets + to build for iOS devices.""" + for target_dict in targets.values(): + for config_name in target_dict['configurations'].keys(): + config = target_dict['configurations'][config_name] + new_config_name = config_name + '-iphoneos' + new_config_dict = copy.deepcopy(config) + if target_dict['toolset'] == 'target': + new_config_dict['xcode_settings']['ARCHS'] = ['armv7'] + new_config_dict['xcode_settings']['SDKROOT'] = 'iphoneos' + target_dict['configurations'][new_config_name] = new_config_dict + return targets + +def CloneConfigurationForDeviceAndEmulator(target_dicts): + """If |target_dicts| contains any iOS targets, automatically create -iphoneos + targets for iOS device builds.""" + if _HasIOSTarget(target_dicts): + return _AddIOSDeviceConfigurations(target_dicts) + return target_dicts diff --git a/deps/gyp/pylib/gyp/xcodeproj_file.py b/deps/gyp/pylib/gyp/xcodeproj_file.py new file mode 100644 index 0000000000..79c3abcf02 --- /dev/null +++ b/deps/gyp/pylib/gyp/xcodeproj_file.py @@ -0,0 +1,2889 @@ +# Copyright (c) 2012 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +"""Xcode project file generator. + +This module is both an Xcode project file generator and a documentation of the +Xcode project file format. Knowledge of the project file format was gained +based on extensive experience with Xcode, and by making changes to projects in +Xcode.app and observing the resultant changes in the associated project files. + +XCODE PROJECT FILES + +The generator targets the file format as written by Xcode 3.2 (specifically, +3.2.6), but past experience has taught that the format has not changed +significantly in the past several years, and future versions of Xcode are able +to read older project files. + +Xcode project files are "bundled": the project "file" from an end-user's +perspective is actually a directory with an ".xcodeproj" extension. The +project file from this module's perspective is actually a file inside this +directory, always named "project.pbxproj". This file contains a complete +description of the project and is all that is needed to use the xcodeproj. +Other files contained in the xcodeproj directory are simply used to store +per-user settings, such as the state of various UI elements in the Xcode +application. + +The project.pbxproj file is a property list, stored in a format almost +identical to the NeXTstep property list format. The file is able to carry +Unicode data, and is encoded in UTF-8. The root element in the property list +is a dictionary that contains several properties of minimal interest, and two +properties of immense interest. The most important property is a dictionary +named "objects". The entire structure of the project is represented by the +children of this property. The objects dictionary is keyed by unique 96-bit +values represented by 24 uppercase hexadecimal characters. Each value in the +objects dictionary is itself a dictionary, describing an individual object. + +Each object in the dictionary is a member of a class, which is identified by +the "isa" property of each object. A variety of classes are represented in a +project file. Objects can refer to other objects by ID, using the 24-character +hexadecimal object key. A project's objects form a tree, with a root object +of class PBXProject at the root. As an example, the PBXProject object serves +as parent to an XCConfigurationList object defining the build configurations +used in the project, a PBXGroup object serving as a container for all files +referenced in the project, and a list of target objects, each of which defines +a target in the project. There are several different types of target object, +such as PBXNativeTarget and PBXAggregateTarget. In this module, this +relationship is expressed by having each target type derive from an abstract +base named XCTarget. + +The project.pbxproj file's root dictionary also contains a property, sibling to +the "objects" dictionary, named "rootObject". The value of rootObject is a +24-character object key referring to the root PBXProject object in the +objects dictionary. + +In Xcode, every file used as input to a target or produced as a final product +of a target must appear somewhere in the hierarchy rooted at the PBXGroup +object referenced by the PBXProject's mainGroup property. A PBXGroup is +generally represented as a folder in the Xcode application. PBXGroups can +contain other PBXGroups as well as PBXFileReferences, which are pointers to +actual files. + +Each XCTarget contains a list of build phases, represented in this module by +the abstract base XCBuildPhase. Examples of concrete XCBuildPhase derivations +are PBXSourcesBuildPhase and PBXFrameworksBuildPhase, which correspond to the +"Compile Sources" and "Link Binary With Libraries" phases displayed in the +Xcode application. Files used as input to these phases (for example, source +files in the former case and libraries and frameworks in the latter) are +represented by PBXBuildFile objects, referenced by elements of "files" lists +in XCTarget objects. Each PBXBuildFile object refers to a PBXBuildFile +object as a "weak" reference: it does not "own" the PBXBuildFile, which is +owned by the root object's mainGroup or a descendant group. In most cases, the +layer of indirection between an XCBuildPhase and a PBXFileReference via a +PBXBuildFile appears extraneous, but there's actually one reason for this: +file-specific compiler flags are added to the PBXBuildFile object so as to +allow a single file to be a member of multiple targets while having distinct +compiler flags for each. These flags can be modified in the Xcode applciation +in the "Build" tab of a File Info window. + +When a project is open in the Xcode application, Xcode will rewrite it. As +such, this module is careful to adhere to the formatting used by Xcode, to +avoid insignificant changes appearing in the file when it is used in the +Xcode application. This will keep version control repositories happy, and +makes it possible to compare a project file used in Xcode to one generated by +this module to determine if any significant changes were made in the +application. + +Xcode has its own way of assigning 24-character identifiers to each object, +which is not duplicated here. Because the identifier only is only generated +once, when an object is created, and is then left unchanged, there is no need +to attempt to duplicate Xcode's behavior in this area. The generator is free +to select any identifier, even at random, to refer to the objects it creates, +and Xcode will retain those identifiers and use them when subsequently +rewriting the project file. However, the generator would choose new random +identifiers each time the project files are generated, leading to difficulties +comparing "used" project files to "pristine" ones produced by this module, +and causing the appearance of changes as every object identifier is changed +when updated projects are checked in to a version control repository. To +mitigate this problem, this module chooses identifiers in a more deterministic +way, by hashing a description of each object as well as its parent and ancestor +objects. This strategy should result in minimal "shift" in IDs as successive +generations of project files are produced. + +THIS MODULE + +This module introduces several classes, all derived from the XCObject class. +Nearly all of the "brains" are built into the XCObject class, which understands +how to create and modify objects, maintain the proper tree structure, compute +identifiers, and print objects. For the most part, classes derived from +XCObject need only provide a _schema class object, a dictionary that +expresses what properties objects of the class may contain. + +Given this structure, it's possible to build a minimal project file by creating +objects of the appropriate types and making the proper connections: + + config_list = XCConfigurationList() + group = PBXGroup() + project = PBXProject({'buildConfigurationList': config_list, + 'mainGroup': group}) + +With the project object set up, it can be added to an XCProjectFile object. +XCProjectFile is a pseudo-class in the sense that it is a concrete XCObject +subclass that does not actually correspond to a class type found in a project +file. Rather, it is used to represent the project file's root dictionary. +Printing an XCProjectFile will print the entire project file, including the +full "objects" dictionary. + + project_file = XCProjectFile({'rootObject': project}) + project_file.ComputeIDs() + project_file.Print() + +Xcode project files are always encoded in UTF-8. This module will accept +strings of either the str class or the unicode class. Strings of class str +are assumed to already be encoded in UTF-8. Obviously, if you're just using +ASCII, you won't encounter difficulties because ASCII is a UTF-8 subset. +Strings of class unicode are handled properly and encoded in UTF-8 when +a project file is output. +""" + +import gyp.common +import posixpath +import re +import struct +import sys + +# hashlib is supplied as of Python 2.5 as the replacement interface for sha +# and other secure hashes. In 2.6, sha is deprecated. Import hashlib if +# available, avoiding a deprecation warning under 2.6. Import sha otherwise, +# preserving 2.4 compatibility. +try: + import hashlib + _new_sha1 = hashlib.sha1 +except ImportError: + import sha + _new_sha1 = sha.new + + +# See XCObject._EncodeString. This pattern is used to determine when a string +# can be printed unquoted. Strings that match this pattern may be printed +# unquoted. Strings that do not match must be quoted and may be further +# transformed to be properly encoded. Note that this expression matches the +# characters listed with "+", for 1 or more occurrences: if a string is empty, +# it must not match this pattern, because it needs to be encoded as "". +_unquoted = re.compile('^[A-Za-z0-9$./_]+$') + +# Strings that match this pattern are quoted regardless of what _unquoted says. +# Oddly, Xcode will quote any string with a run of three or more underscores. +_quoted = re.compile('___') + +# This pattern should match any character that needs to be escaped by +# XCObject._EncodeString. See that function. +_escaped = re.compile('[\\\\"]|[\x00-\x1f]') + + +# Used by SourceTreeAndPathFromPath +_path_leading_variable = re.compile('^\$\((.*?)\)(/(.*))?$') + +def SourceTreeAndPathFromPath(input_path): + """Given input_path, returns a tuple with sourceTree and path values. + + Examples: + input_path (source_tree, output_path) + '$(VAR)/path' ('VAR', 'path') + '$(VAR)' ('VAR', None) + 'path' (None, 'path') + """ + + source_group_match = _path_leading_variable.match(input_path) + if source_group_match: + source_tree = source_group_match.group(1) + output_path = source_group_match.group(3) # This may be None. + else: + source_tree = None + output_path = input_path + + return (source_tree, output_path) + +def ConvertVariablesToShellSyntax(input_string): + return re.sub('\$\((.*?)\)', '${\\1}', input_string) + +class XCObject(object): + """The abstract base of all class types used in Xcode project files. + + Class variables: + _schema: A dictionary defining the properties of this class. The keys to + _schema are string property keys as used in project files. Values + are a list of four or five elements: + [ is_list, property_type, is_strong, is_required, default ] + is_list: True if the property described is a list, as opposed + to a single element. + property_type: The type to use as the value of the property, + or if is_list is True, the type to use for each + element of the value's list. property_type must + be an XCObject subclass, or one of the built-in + types str, int, or dict. + is_strong: If property_type is an XCObject subclass, is_strong + is True to assert that this class "owns," or serves + as parent, to the property value (or, if is_list is + True, values). is_strong must be False if + property_type is not an XCObject subclass. + is_required: True if the property is required for the class. + Note that is_required being True does not preclude + an empty string ("", in the case of property_type + str) or list ([], in the case of is_list True) from + being set for the property. + default: Optional. If is_requried is True, default may be set + to provide a default value for objects that do not supply + their own value. If is_required is True and default + is not provided, users of the class must supply their own + value for the property. + Note that although the values of the array are expressed in + boolean terms, subclasses provide values as integers to conserve + horizontal space. + _should_print_single_line: False in XCObject. Subclasses whose objects + should be written to the project file in the + alternate single-line format, such as + PBXFileReference and PBXBuildFile, should + set this to True. + _encode_transforms: Used by _EncodeString to encode unprintable characters. + The index into this list is the ordinal of the + character to transform; each value is a string + used to represent the character in the output. XCObject + provides an _encode_transforms list suitable for most + XCObject subclasses. + _alternate_encode_transforms: Provided for subclasses that wish to use + the alternate encoding rules. Xcode seems + to use these rules when printing objects in + single-line format. Subclasses that desire + this behavior should set _encode_transforms + to _alternate_encode_transforms. + _hashables: A list of XCObject subclasses that can be hashed by ComputeIDs + to construct this object's ID. Most classes that need custom + hashing behavior should do it by overriding Hashables, + but in some cases an object's parent may wish to push a + hashable value into its child, and it can do so by appending + to _hashables. + Attributes: + id: The object's identifier, a 24-character uppercase hexadecimal string. + Usually, objects being created should not set id until the entire + project file structure is built. At that point, UpdateIDs() should + be called on the root object to assign deterministic values for id to + each object in the tree. + parent: The object's parent. This is set by a parent XCObject when a child + object is added to it. + _properties: The object's property dictionary. An object's properties are + described by its class' _schema variable. + """ + + _schema = {} + _should_print_single_line = False + + # See _EncodeString. + _encode_transforms = [] + i = 0 + while i < ord(' '): + _encode_transforms.append('\\U%04x' % i) + i = i + 1 + _encode_transforms[7] = '\\a' + _encode_transforms[8] = '\\b' + _encode_transforms[9] = '\\t' + _encode_transforms[10] = '\\n' + _encode_transforms[11] = '\\v' + _encode_transforms[12] = '\\f' + _encode_transforms[13] = '\\n' + + _alternate_encode_transforms = list(_encode_transforms) + _alternate_encode_transforms[9] = chr(9) + _alternate_encode_transforms[10] = chr(10) + _alternate_encode_transforms[11] = chr(11) + + def __init__(self, properties=None, id=None, parent=None): + self.id = id + self.parent = parent + self._properties = {} + self._hashables = [] + self._SetDefaultsFromSchema() + self.UpdateProperties(properties) + + def __repr__(self): + try: + name = self.Name() + except NotImplementedError: + return '<%s at 0x%x>' % (self.__class__.__name__, id(self)) + return '<%s %r at 0x%x>' % (self.__class__.__name__, name, id(self)) + + def Copy(self): + """Make a copy of this object. + + The new object will have its own copy of lists and dicts. Any XCObject + objects owned by this object (marked "strong") will be copied in the + new object, even those found in lists. If this object has any weak + references to other XCObjects, the same references are added to the new + object without making a copy. + """ + + that = self.__class__(id=self.id, parent=self.parent) + for key, value in self._properties.iteritems(): + is_strong = self._schema[key][2] + + if isinstance(value, XCObject): + if is_strong: + new_value = value.Copy() + new_value.parent = that + that._properties[key] = new_value + else: + that._properties[key] = value + elif isinstance(value, str) or isinstance(value, unicode) or \ + isinstance(value, int): + that._properties[key] = value + elif isinstance(value, list): + if is_strong: + # If is_strong is True, each element is an XCObject, so it's safe to + # call Copy. + that._properties[key] = [] + for item in value: + new_item = item.Copy() + new_item.parent = that + that._properties[key].append(new_item) + else: + that._properties[key] = value[:] + elif isinstance(value, dict): + # dicts are never strong. + if is_strong: + raise TypeError, 'Strong dict for key ' + key + ' in ' + \ + self.__class__.__name__ + else: + that._properties[key] = value.copy() + else: + raise TypeError, 'Unexpected type ' + value.__class__.__name__ + \ + ' for key ' + key + ' in ' + self.__class__.__name__ + + return that + + def Name(self): + """Return the name corresponding to an object. + + Not all objects necessarily need to be nameable, and not all that do have + a "name" property. Override as needed. + """ + + # If the schema indicates that "name" is required, try to access the + # property even if it doesn't exist. This will result in a KeyError + # being raised for the property that should be present, which seems more + # appropriate than NotImplementedError in this case. + if 'name' in self._properties or \ + ('name' in self._schema and self._schema['name'][3]): + return self._properties['name'] + + raise NotImplementedError, \ + self.__class__.__name__ + ' must implement Name' + + def Comment(self): + """Return a comment string for the object. + + Most objects just use their name as the comment, but PBXProject uses + different values. + + The returned comment is not escaped and does not have any comment marker + strings applied to it. + """ + + return self.Name() + + def Hashables(self): + hashables = [self.__class__.__name__] + + name = self.Name() + if name != None: + hashables.append(name) + + hashables.extend(self._hashables) + + return hashables + + def HashablesForChild(self): + return None + + def ComputeIDs(self, recursive=True, overwrite=True, seed_hash=None): + """Set "id" properties deterministically. + + An object's "id" property is set based on a hash of its class type and + name, as well as the class type and name of all ancestor objects. As + such, it is only advisable to call ComputeIDs once an entire project file + tree is built. + + If recursive is True, recurse into all descendant objects and update their + hashes. + + If overwrite is True, any existing value set in the "id" property will be + replaced. + """ + + def _HashUpdate(hash, data): + """Update hash with data's length and contents. + + If the hash were updated only with the value of data, it would be + possible for clowns to induce collisions by manipulating the names of + their objects. By adding the length, it's exceedingly less likely that + ID collisions will be encountered, intentionally or not. + """ + + hash.update(struct.pack('>i', len(data))) + hash.update(data) + + if seed_hash is None: + seed_hash = _new_sha1() + + hash = seed_hash.copy() + + hashables = self.Hashables() + assert len(hashables) > 0 + for hashable in hashables: + _HashUpdate(hash, hashable) + + if recursive: + hashables_for_child = self.HashablesForChild() + if hashables_for_child is None: + child_hash = hash + else: + assert len(hashables_for_child) > 0 + child_hash = seed_hash.copy() + for hashable in hashables_for_child: + _HashUpdate(child_hash, hashable) + + for child in self.Children(): + child.ComputeIDs(recursive, overwrite, child_hash) + + if overwrite or self.id is None: + # Xcode IDs are only 96 bits (24 hex characters), but a SHA-1 digest is + # is 160 bits. Instead of throwing out 64 bits of the digest, xor them + # into the portion that gets used. + assert hash.digest_size % 4 == 0 + digest_int_count = hash.digest_size / 4 + digest_ints = struct.unpack('>' + 'I' * digest_int_count, hash.digest()) + id_ints = [0, 0, 0] + for index in xrange(0, digest_int_count): + id_ints[index % 3] ^= digest_ints[index] + self.id = '%08X%08X%08X' % tuple(id_ints) + + def EnsureNoIDCollisions(self): + """Verifies that no two objects have the same ID. Checks all descendants. + """ + + ids = {} + descendants = self.Descendants() + for descendant in descendants: + if descendant.id in ids: + other = ids[descendant.id] + raise KeyError, \ + 'Duplicate ID %s, objects "%s" and "%s" in "%s"' % \ + (descendant.id, str(descendant._properties), + str(other._properties), self._properties['rootObject'].Name()) + ids[descendant.id] = descendant + + def Children(self): + """Returns a list of all of this object's owned (strong) children.""" + + children = [] + for property, attributes in self._schema.iteritems(): + (is_list, property_type, is_strong) = attributes[0:3] + if is_strong and property in self._properties: + if not is_list: + children.append(self._properties[property]) + else: + children.extend(self._properties[property]) + return children + + def Descendants(self): + """Returns a list of all of this object's descendants, including this + object. + """ + + children = self.Children() + descendants = [self] + for child in children: + descendants.extend(child.Descendants()) + return descendants + + def PBXProjectAncestor(self): + # The base case for recursion is defined at PBXProject.PBXProjectAncestor. + if self.parent: + return self.parent.PBXProjectAncestor() + return None + + def _EncodeComment(self, comment): + """Encodes a comment to be placed in the project file output, mimicing + Xcode behavior. + """ + + # This mimics Xcode behavior by wrapping the comment in "/*" and "*/". If + # the string already contains a "*/", it is turned into "(*)/". This keeps + # the file writer from outputting something that would be treated as the + # end of a comment in the middle of something intended to be entirely a + # comment. + + return '/* ' + comment.replace('*/', '(*)/') + ' */' + + def _EncodeTransform(self, match): + # This function works closely with _EncodeString. It will only be called + # by re.sub with match.group(0) containing a character matched by the + # the _escaped expression. + char = match.group(0) + + # Backslashes (\) and quotation marks (") are always replaced with a + # backslash-escaped version of the same. Everything else gets its + # replacement from the class' _encode_transforms array. + if char == '\\': + return '\\\\' + if char == '"': + return '\\"' + return self._encode_transforms[ord(char)] + + def _EncodeString(self, value): + """Encodes a string to be placed in the project file output, mimicing + Xcode behavior. + """ + + # Use quotation marks when any character outside of the range A-Z, a-z, 0-9, + # $ (dollar sign), . (period), and _ (underscore) is present. Also use + # quotation marks to represent empty strings. + # + # Escape " (double-quote) and \ (backslash) by preceding them with a + # backslash. + # + # Some characters below the printable ASCII range are encoded specially: + # 7 ^G BEL is encoded as "\a" + # 8 ^H BS is encoded as "\b" + # 11 ^K VT is encoded as "\v" + # 12 ^L NP is encoded as "\f" + # 127 ^? DEL is passed through as-is without escaping + # - In PBXFileReference and PBXBuildFile objects: + # 9 ^I HT is passed through as-is without escaping + # 10 ^J NL is passed through as-is without escaping + # 13 ^M CR is passed through as-is without escaping + # - In other objects: + # 9 ^I HT is encoded as "\t" + # 10 ^J NL is encoded as "\n" + # 13 ^M CR is encoded as "\n" rendering it indistinguishable from + # 10 ^J NL + # All other characters within the ASCII control character range (0 through + # 31 inclusive) are encoded as "\U001f" referring to the Unicode code point + # in hexadecimal. For example, character 14 (^N SO) is encoded as "\U000e". + # Characters above the ASCII range are passed through to the output encoded + # as UTF-8 without any escaping. These mappings are contained in the + # class' _encode_transforms list. + + if _unquoted.search(value) and not _quoted.search(value): + return value + + return '"' + _escaped.sub(self._EncodeTransform, value) + '"' + + def _XCPrint(self, file, tabs, line): + file.write('\t' * tabs + line) + + def _XCPrintableValue(self, tabs, value, flatten_list=False): + """Returns a representation of value that may be printed in a project file, + mimicing Xcode's behavior. + + _XCPrintableValue can handle str and int values, XCObjects (which are + made printable by returning their id property), and list and dict objects + composed of any of the above types. When printing a list or dict, and + _should_print_single_line is False, the tabs parameter is used to determine + how much to indent the lines corresponding to the items in the list or + dict. + + If flatten_list is True, single-element lists will be transformed into + strings. + """ + + printable = '' + comment = None + + if self._should_print_single_line: + sep = ' ' + element_tabs = '' + end_tabs = '' + else: + sep = '\n' + element_tabs = '\t' * (tabs + 1) + end_tabs = '\t' * tabs + + if isinstance(value, XCObject): + printable += value.id + comment = value.Comment() + elif isinstance(value, str): + printable += self._EncodeString(value) + elif isinstance(value, unicode): + printable += self._EncodeString(value.encode('utf-8')) + elif isinstance(value, int): + printable += str(value) + elif isinstance(value, list): + if flatten_list and len(value) <= 1: + if len(value) == 0: + printable += self._EncodeString('') + else: + printable += self._EncodeString(value[0]) + else: + printable = '(' + sep + for item in value: + printable += element_tabs + \ + self._XCPrintableValue(tabs + 1, item, flatten_list) + \ + ',' + sep + printable += end_tabs + ')' + elif isinstance(value, dict): + printable = '{' + sep + for item_key, item_value in sorted(value.iteritems()): + printable += element_tabs + \ + self._XCPrintableValue(tabs + 1, item_key, flatten_list) + ' = ' + \ + self._XCPrintableValue(tabs + 1, item_value, flatten_list) + ';' + \ + sep + printable += end_tabs + '}' + else: + raise TypeError, "Can't make " + value.__class__.__name__ + ' printable' + + if comment != None: + printable += ' ' + self._EncodeComment(comment) + + return printable + + def _XCKVPrint(self, file, tabs, key, value): + """Prints a key and value, members of an XCObject's _properties dictionary, + to file. + + tabs is an int identifying the indentation level. If the class' + _should_print_single_line variable is True, tabs is ignored and the + key-value pair will be followed by a space insead of a newline. + """ + + if self._should_print_single_line: + printable = '' + after_kv = ' ' + else: + printable = '\t' * tabs + after_kv = '\n' + + # Xcode usually prints remoteGlobalIDString values in PBXContainerItemProxy + # objects without comments. Sometimes it prints them with comments, but + # the majority of the time, it doesn't. To avoid unnecessary changes to + # the project file after Xcode opens it, don't write comments for + # remoteGlobalIDString. This is a sucky hack and it would certainly be + # cleaner to extend the schema to indicate whether or not a comment should + # be printed, but since this is the only case where the problem occurs and + # Xcode itself can't seem to make up its mind, the hack will suffice. + # + # Also see PBXContainerItemProxy._schema['remoteGlobalIDString']. + if key == 'remoteGlobalIDString' and isinstance(self, + PBXContainerItemProxy): + value_to_print = value.id + else: + value_to_print = value + + # PBXBuildFile's settings property is represented in the output as a dict, + # but a hack here has it represented as a string. Arrange to strip off the + # quotes so that it shows up in the output as expected. + if key == 'settings' and isinstance(self, PBXBuildFile): + strip_value_quotes = True + else: + strip_value_quotes = False + + # In another one-off, let's set flatten_list on buildSettings properties + # of XCBuildConfiguration objects, because that's how Xcode treats them. + if key == 'buildSettings' and isinstance(self, XCBuildConfiguration): + flatten_list = True + else: + flatten_list = False + + try: + printable_key = self._XCPrintableValue(tabs, key, flatten_list) + printable_value = self._XCPrintableValue(tabs, value_to_print, + flatten_list) + if strip_value_quotes and len(printable_value) > 1 and \ + printable_value[0] == '"' and printable_value[-1] == '"': + printable_value = printable_value[1:-1] + printable += printable_key + ' = ' + printable_value + ';' + after_kv + except TypeError, e: + gyp.common.ExceptionAppend(e, + 'while printing key "%s"' % key) + raise + + self._XCPrint(file, 0, printable) + + def Print(self, file=sys.stdout): + """Prints a reprentation of this object to file, adhering to Xcode output + formatting. + """ + + self.VerifyHasRequiredProperties() + + if self._should_print_single_line: + # When printing an object in a single line, Xcode doesn't put any space + # between the beginning of a dictionary (or presumably a list) and the + # first contained item, so you wind up with snippets like + # ...CDEF = {isa = PBXFileReference; fileRef = 0123... + # If it were me, I would have put a space in there after the opening + # curly, but I guess this is just another one of those inconsistencies + # between how Xcode prints PBXFileReference and PBXBuildFile objects as + # compared to other objects. Mimic Xcode's behavior here by using an + # empty string for sep. + sep = '' + end_tabs = 0 + else: + sep = '\n' + end_tabs = 2 + + # Start the object. For example, '\t\tPBXProject = {\n'. + self._XCPrint(file, 2, self._XCPrintableValue(2, self) + ' = {' + sep) + + # "isa" isn't in the _properties dictionary, it's an intrinsic property + # of the class which the object belongs to. Xcode always outputs "isa" + # as the first element of an object dictionary. + self._XCKVPrint(file, 3, 'isa', self.__class__.__name__) + + # The remaining elements of an object dictionary are sorted alphabetically. + for property, value in sorted(self._properties.iteritems()): + self._XCKVPrint(file, 3, property, value) + + # End the object. + self._XCPrint(file, end_tabs, '};\n') + + def UpdateProperties(self, properties, do_copy=False): + """Merge the supplied properties into the _properties dictionary. + + The input properties must adhere to the class schema or a KeyError or + TypeError exception will be raised. If adding an object of an XCObject + subclass and the schema indicates a strong relationship, the object's + parent will be set to this object. + + If do_copy is True, then lists, dicts, strong-owned XCObjects, and + strong-owned XCObjects in lists will be copied instead of having their + references added. + """ + + if properties is None: + return + + for property, value in properties.iteritems(): + # Make sure the property is in the schema. + if not property in self._schema: + raise KeyError, property + ' not in ' + self.__class__.__name__ + + # Make sure the property conforms to the schema. + (is_list, property_type, is_strong) = self._schema[property][0:3] + if is_list: + if value.__class__ != list: + raise TypeError, \ + property + ' of ' + self.__class__.__name__ + \ + ' must be list, not ' + value.__class__.__name__ + for item in value: + if not isinstance(item, property_type) and \ + not (item.__class__ == unicode and property_type == str): + # Accept unicode where str is specified. str is treated as + # UTF-8-encoded. + raise TypeError, \ + 'item of ' + property + ' of ' + self.__class__.__name__ + \ + ' must be ' + property_type.__name__ + ', not ' + \ + item.__class__.__name__ + elif not isinstance(value, property_type) and \ + not (value.__class__ == unicode and property_type == str): + # Accept unicode where str is specified. str is treated as + # UTF-8-encoded. + raise TypeError, \ + property + ' of ' + self.__class__.__name__ + ' must be ' + \ + property_type.__name__ + ', not ' + value.__class__.__name__ + + # Checks passed, perform the assignment. + if do_copy: + if isinstance(value, XCObject): + if is_strong: + self._properties[property] = value.Copy() + else: + self._properties[property] = value + elif isinstance(value, str) or isinstance(value, unicode) or \ + isinstance(value, int): + self._properties[property] = value + elif isinstance(value, list): + if is_strong: + # If is_strong is True, each element is an XCObject, so it's safe + # to call Copy. + self._properties[property] = [] + for item in value: + self._properties[property].append(item.Copy()) + else: + self._properties[property] = value[:] + elif isinstance(value, dict): + self._properties[property] = value.copy() + else: + raise TypeError, "Don't know how to copy a " + \ + value.__class__.__name__ + ' object for ' + \ + property + ' in ' + self.__class__.__name__ + else: + self._properties[property] = value + + # Set up the child's back-reference to this object. Don't use |value| + # any more because it may not be right if do_copy is true. + if is_strong: + if not is_list: + self._properties[property].parent = self + else: + for item in self._properties[property]: + item.parent = self + + def HasProperty(self, key): + return key in self._properties + + def GetProperty(self, key): + return self._properties[key] + + def SetProperty(self, key, value): + self.UpdateProperties({key: value}) + + def DelProperty(self, key): + if key in self._properties: + del self._properties[key] + + def AppendProperty(self, key, value): + # TODO(mark): Support ExtendProperty too (and make this call that)? + + # Schema validation. + if not key in self._schema: + raise KeyError, key + ' not in ' + self.__class__.__name__ + + (is_list, property_type, is_strong) = self._schema[key][0:3] + if not is_list: + raise TypeError, key + ' of ' + self.__class__.__name__ + ' must be list' + if not isinstance(value, property_type): + raise TypeError, 'item of ' + key + ' of ' + self.__class__.__name__ + \ + ' must be ' + property_type.__name__ + ', not ' + \ + value.__class__.__name__ + + # If the property doesn't exist yet, create a new empty list to receive the + # item. + if not key in self._properties: + self._properties[key] = [] + + # Set up the ownership link. + if is_strong: + value.parent = self + + # Store the item. + self._properties[key].append(value) + + def VerifyHasRequiredProperties(self): + """Ensure that all properties identified as required by the schema are + set. + """ + + # TODO(mark): A stronger verification mechanism is needed. Some + # subclasses need to perform validation beyond what the schema can enforce. + for property, attributes in self._schema.iteritems(): + (is_list, property_type, is_strong, is_required) = attributes[0:4] + if is_required and not property in self._properties: + raise KeyError, self.__class__.__name__ + ' requires ' + property + + def _SetDefaultsFromSchema(self): + """Assign object default values according to the schema. This will not + overwrite properties that have already been set.""" + + defaults = {} + for property, attributes in self._schema.iteritems(): + (is_list, property_type, is_strong, is_required) = attributes[0:4] + if is_required and len(attributes) >= 5 and \ + not property in self._properties: + default = attributes[4] + + defaults[property] = default + + if len(defaults) > 0: + # Use do_copy=True so that each new object gets its own copy of strong + # objects, lists, and dicts. + self.UpdateProperties(defaults, do_copy=True) + + +class XCHierarchicalElement(XCObject): + """Abstract base for PBXGroup and PBXFileReference. Not represented in a + project file.""" + + # TODO(mark): Do name and path belong here? Probably so. + # If path is set and name is not, name may have a default value. Name will + # be set to the basename of path, if the basename of path is different from + # the full value of path. If path is already just a leaf name, name will + # not be set. + _schema = XCObject._schema.copy() + _schema.update({ + 'comments': [0, str, 0, 0], + 'fileEncoding': [0, str, 0, 0], + 'includeInIndex': [0, int, 0, 0], + 'indentWidth': [0, int, 0, 0], + 'lineEnding': [0, int, 0, 0], + 'sourceTree': [0, str, 0, 1, '<group>'], + 'tabWidth': [0, int, 0, 0], + 'usesTabs': [0, int, 0, 0], + 'wrapsLines': [0, int, 0, 0], + }) + + def __init__(self, properties=None, id=None, parent=None): + # super + XCObject.__init__(self, properties, id, parent) + if 'path' in self._properties and not 'name' in self._properties: + path = self._properties['path'] + name = posixpath.basename(path) + if name != '' and path != name: + self.SetProperty('name', name) + + if 'path' in self._properties and \ + (not 'sourceTree' in self._properties or \ + self._properties['sourceTree'] == '<group>'): + # If the pathname begins with an Xcode variable like "$(SDKROOT)/", take + # the variable out and make the path be relative to that variable by + # assigning the variable name as the sourceTree. + (source_tree, path) = SourceTreeAndPathFromPath(self._properties['path']) + if source_tree != None: + self._properties['sourceTree'] = source_tree + if path != None: + self._properties['path'] = path + if source_tree != None and path is None and \ + not 'name' in self._properties: + # The path was of the form "$(SDKROOT)" with no path following it. + # This object is now relative to that variable, so it has no path + # attribute of its own. It does, however, keep a name. + del self._properties['path'] + self._properties['name'] = source_tree + + def Name(self): + if 'name' in self._properties: + return self._properties['name'] + elif 'path' in self._properties: + return self._properties['path'] + else: + # This happens in the case of the root PBXGroup. + return None + + def Hashables(self): + """Custom hashables for XCHierarchicalElements. + + XCHierarchicalElements are special. Generally, their hashes shouldn't + change if the paths don't change. The normal XCObject implementation of + Hashables adds a hashable for each object, which means that if + the hierarchical structure changes (possibly due to changes caused when + TakeOverOnlyChild runs and encounters slight changes in the hierarchy), + the hashes will change. For example, if a project file initially contains + a/b/f1 and a/b becomes collapsed into a/b, f1 will have a single parent + a/b. If someone later adds a/f2 to the project file, a/b can no longer be + collapsed, and f1 winds up with parent b and grandparent a. That would + be sufficient to change f1's hash. + + To counteract this problem, hashables for all XCHierarchicalElements except + for the main group (which has neither a name nor a path) are taken to be + just the set of path components. Because hashables are inherited from + parents, this provides assurance that a/b/f1 has the same set of hashables + whether its parent is b or a/b. + + The main group is a special case. As it is permitted to have no name or + path, it is permitted to use the standard XCObject hash mechanism. This + is not considered a problem because there can be only one main group. + """ + + if self == self.PBXProjectAncestor()._properties['mainGroup']: + # super + return XCObject.Hashables(self) + + hashables = [] + + # Put the name in first, ensuring that if TakeOverOnlyChild collapses + # children into a top-level group like "Source", the name always goes + # into the list of hashables without interfering with path components. + if 'name' in self._properties: + # Make it less likely for people to manipulate hashes by following the + # pattern of always pushing an object type value onto the list first. + hashables.append(self.__class__.__name__ + '.name') + hashables.append(self._properties['name']) + + # NOTE: This still has the problem that if an absolute path is encountered, + # including paths with a sourceTree, they'll still inherit their parents' + # hashables, even though the paths aren't relative to their parents. This + # is not expected to be much of a problem in practice. + path = self.PathFromSourceTreeAndPath() + if path != None: + components = path.split(posixpath.sep) + for component in components: + hashables.append(self.__class__.__name__ + '.path') + hashables.append(component) + + hashables.extend(self._hashables) + + return hashables + + def Compare(self, other): + # Allow comparison of these types. PBXGroup has the highest sort rank; + # PBXVariantGroup is treated as equal to PBXFileReference. + valid_class_types = { + PBXFileReference: 'file', + PBXGroup: 'group', + PBXVariantGroup: 'file', + } + self_type = valid_class_types[self.__class__] + other_type = valid_class_types[other.__class__] + + if self_type == other_type: + # If the two objects are of the same sort rank, compare their names. + return cmp(self.Name(), other.Name()) + + # Otherwise, sort groups before everything else. + if self_type == 'group': + return -1 + return 1 + + def CompareRootGroup(self, other): + # This function should be used only to compare direct children of the + # containing PBXProject's mainGroup. These groups should appear in the + # listed order. + # TODO(mark): "Build" is used by gyp.generator.xcode, perhaps the + # generator should have a way of influencing this list rather than having + # to hardcode for the generator here. + order = ['Source', 'Intermediates', 'Projects', 'Frameworks', 'Products', + 'Build'] + + # If the groups aren't in the listed order, do a name comparison. + # Otherwise, groups in the listed order should come before those that + # aren't. + self_name = self.Name() + other_name = other.Name() + self_in = isinstance(self, PBXGroup) and self_name in order + other_in = isinstance(self, PBXGroup) and other_name in order + if not self_in and not other_in: + return self.Compare(other) + if self_name in order and not other_name in order: + return -1 + if other_name in order and not self_name in order: + return 1 + + # If both groups are in the listed order, go by the defined order. + self_index = order.index(self_name) + other_index = order.index(other_name) + if self_index < other_index: + return -1 + if self_index > other_index: + return 1 + return 0 + + def PathFromSourceTreeAndPath(self): + # Turn the object's sourceTree and path properties into a single flat + # string of a form comparable to the path parameter. If there's a + # sourceTree property other than "<group>", wrap it in $(...) for the + # comparison. + components = [] + if self._properties['sourceTree'] != '<group>': + components.append('$(' + self._properties['sourceTree'] + ')') + if 'path' in self._properties: + components.append(self._properties['path']) + + if len(components) > 0: + return posixpath.join(*components) + + return None + + def FullPath(self): + # Returns a full path to self relative to the project file, or relative + # to some other source tree. Start with self, and walk up the chain of + # parents prepending their paths, if any, until no more parents are + # available (project-relative path) or until a path relative to some + # source tree is found. + xche = self + path = None + while isinstance(xche, XCHierarchicalElement) and \ + (path is None or \ + (not path.startswith('/') and not path.startswith('$'))): + this_path = xche.PathFromSourceTreeAndPath() + if this_path != None and path != None: + path = posixpath.join(this_path, path) + elif this_path != None: + path = this_path + xche = xche.parent + + return path + + +class PBXGroup(XCHierarchicalElement): + """ + Attributes: + _children_by_path: Maps pathnames of children of this PBXGroup to the + actual child XCHierarchicalElement objects. + _variant_children_by_name_and_path: Maps (name, path) tuples of + PBXVariantGroup children to the actual child PBXVariantGroup objects. + """ + + _schema = XCHierarchicalElement._schema.copy() + _schema.update({ + 'children': [1, XCHierarchicalElement, 1, 1, []], + 'name': [0, str, 0, 0], + 'path': [0, str, 0, 0], + }) + + def __init__(self, properties=None, id=None, parent=None): + # super + XCHierarchicalElement.__init__(self, properties, id, parent) + self._children_by_path = {} + self._variant_children_by_name_and_path = {} + for child in self._properties.get('children', []): + self._AddChildToDicts(child) + + def Hashables(self): + # super + hashables = XCHierarchicalElement.Hashables(self) + + # It is not sufficient to just rely on name and parent to build a unique + # hashable : a node could have two child PBXGroup sharing a common name. + # To add entropy the hashable is enhanced with the names of all its + # children. + for child in self._properties.get('children', []): + child_name = child.Name() + if child_name != None: + hashables.append(child_name) + + return hashables + + def HashablesForChild(self): + # To avoid a circular reference the hashables used to compute a child id do + # not include the child names. + return XCHierarchicalElement.Hashables(self) + + def _AddChildToDicts(self, child): + # Sets up this PBXGroup object's dicts to reference the child properly. + child_path = child.PathFromSourceTreeAndPath() + if child_path: + if child_path in self._children_by_path: + raise ValueError, 'Found multiple children with path ' + child_path + self._children_by_path[child_path] = child + + if isinstance(child, PBXVariantGroup): + child_name = child._properties.get('name', None) + key = (child_name, child_path) + if key in self._variant_children_by_name_and_path: + raise ValueError, 'Found multiple PBXVariantGroup children with ' + \ + 'name ' + str(child_name) + ' and path ' + \ + str(child_path) + self._variant_children_by_name_and_path[key] = child + + def AppendChild(self, child): + # Callers should use this instead of calling + # AppendProperty('children', child) directly because this function + # maintains the group's dicts. + self.AppendProperty('children', child) + self._AddChildToDicts(child) + + def GetChildByName(self, name): + # This is not currently optimized with a dict as GetChildByPath is because + # it has few callers. Most callers probably want GetChildByPath. This + # function is only useful to get children that have names but no paths, + # which is rare. The children of the main group ("Source", "Products", + # etc.) is pretty much the only case where this likely to come up. + # + # TODO(mark): Maybe this should raise an error if more than one child is + # present with the same name. + if not 'children' in self._properties: + return None + + for child in self._properties['children']: + if child.Name() == name: + return child + + return None + + def GetChildByPath(self, path): + if not path: + return None + + if path in self._children_by_path: + return self._children_by_path[path] + + return None + + def GetChildByRemoteObject(self, remote_object): + # This method is a little bit esoteric. Given a remote_object, which + # should be a PBXFileReference in another project file, this method will + # return this group's PBXReferenceProxy object serving as a local proxy + # for the remote PBXFileReference. + # + # This function might benefit from a dict optimization as GetChildByPath + # for some workloads, but profiling shows that it's not currently a + # problem. + if not 'children' in self._properties: + return None + + for child in self._properties['children']: + if not isinstance(child, PBXReferenceProxy): + continue + + container_proxy = child._properties['remoteRef'] + if container_proxy._properties['remoteGlobalIDString'] == remote_object: + return child + + return None + + def AddOrGetFileByPath(self, path, hierarchical): + """Returns an existing or new file reference corresponding to path. + + If hierarchical is True, this method will create or use the necessary + hierarchical group structure corresponding to path. Otherwise, it will + look in and create an item in the current group only. + + If an existing matching reference is found, it is returned, otherwise, a + new one will be created, added to the correct group, and returned. + + If path identifies a directory by virtue of carrying a trailing slash, + this method returns a PBXFileReference of "folder" type. If path + identifies a variant, by virtue of it identifying a file inside a directory + with an ".lproj" extension, this method returns a PBXVariantGroup + containing the variant named by path, and possibly other variants. For + all other paths, a "normal" PBXFileReference will be returned. + """ + + # Adding or getting a directory? Directories end with a trailing slash. + is_dir = False + if path.endswith('/'): + is_dir = True + path = posixpath.normpath(path) + if is_dir: + path = path + '/' + + # Adding or getting a variant? Variants are files inside directories + # with an ".lproj" extension. Xcode uses variants for localization. For + # a variant path/to/Language.lproj/MainMenu.nib, put a variant group named + # MainMenu.nib inside path/to, and give it a variant named Language. In + # this example, grandparent would be set to path/to and parent_root would + # be set to Language. + variant_name = None + parent = posixpath.dirname(path) + grandparent = posixpath.dirname(parent) + parent_basename = posixpath.basename(parent) + (parent_root, parent_ext) = posixpath.splitext(parent_basename) + if parent_ext == '.lproj': + variant_name = parent_root + if grandparent == '': + grandparent = None + + # Putting a directory inside a variant group is not currently supported. + assert not is_dir or variant_name is None + + path_split = path.split(posixpath.sep) + if len(path_split) == 1 or \ + ((is_dir or variant_name != None) and len(path_split) == 2) or \ + not hierarchical: + # The PBXFileReference or PBXVariantGroup will be added to or gotten from + # this PBXGroup, no recursion necessary. + if variant_name is None: + # Add or get a PBXFileReference. + file_ref = self.GetChildByPath(path) + if file_ref != None: + assert file_ref.__class__ == PBXFileReference + else: + file_ref = PBXFileReference({'path': path}) + self.AppendChild(file_ref) + else: + # Add or get a PBXVariantGroup. The variant group name is the same + # as the basename (MainMenu.nib in the example above). grandparent + # specifies the path to the variant group itself, and path_split[-2:] + # is the path of the specific variant relative to its group. + variant_group_name = posixpath.basename(path) + variant_group_ref = self.AddOrGetVariantGroupByNameAndPath( + variant_group_name, grandparent) + variant_path = posixpath.sep.join(path_split[-2:]) + variant_ref = variant_group_ref.GetChildByPath(variant_path) + if variant_ref != None: + assert variant_ref.__class__ == PBXFileReference + else: + variant_ref = PBXFileReference({'name': variant_name, + 'path': variant_path}) + variant_group_ref.AppendChild(variant_ref) + # The caller is interested in the variant group, not the specific + # variant file. + file_ref = variant_group_ref + return file_ref + else: + # Hierarchical recursion. Add or get a PBXGroup corresponding to the + # outermost path component, and then recurse into it, chopping off that + # path component. + next_dir = path_split[0] + group_ref = self.GetChildByPath(next_dir) + if group_ref != None: + assert group_ref.__class__ == PBXGroup + else: + group_ref = PBXGroup({'path': next_dir}) + self.AppendChild(group_ref) + return group_ref.AddOrGetFileByPath(posixpath.sep.join(path_split[1:]), + hierarchical) + + def AddOrGetVariantGroupByNameAndPath(self, name, path): + """Returns an existing or new PBXVariantGroup for name and path. + + If a PBXVariantGroup identified by the name and path arguments is already + present as a child of this object, it is returned. Otherwise, a new + PBXVariantGroup with the correct properties is created, added as a child, + and returned. + + This method will generally be called by AddOrGetFileByPath, which knows + when to create a variant group based on the structure of the pathnames + passed to it. + """ + + key = (name, path) + if key in self._variant_children_by_name_and_path: + variant_group_ref = self._variant_children_by_name_and_path[key] + assert variant_group_ref.__class__ == PBXVariantGroup + return variant_group_ref + + variant_group_properties = {'name': name} + if path != None: + variant_group_properties['path'] = path + variant_group_ref = PBXVariantGroup(variant_group_properties) + self.AppendChild(variant_group_ref) + + return variant_group_ref + + def TakeOverOnlyChild(self, recurse=False): + """If this PBXGroup has only one child and it's also a PBXGroup, take + it over by making all of its children this object's children. + + This function will continue to take over only children when those children + are groups. If there are three PBXGroups representing a, b, and c, with + c inside b and b inside a, and a and b have no other children, this will + result in a taking over both b and c, forming a PBXGroup for a/b/c. + + If recurse is True, this function will recurse into children and ask them + to collapse themselves by taking over only children as well. Assuming + an example hierarchy with files at a/b/c/d1, a/b/c/d2, and a/b/c/d3/e/f + (d1, d2, and f are files, the rest are groups), recursion will result in + a group for a/b/c containing a group for d3/e. + """ + + # At this stage, check that child class types are PBXGroup exactly, + # instead of using isinstance. The only subclass of PBXGroup, + # PBXVariantGroup, should not participate in reparenting in the same way: + # reparenting by merging different object types would be wrong. + while len(self._properties['children']) == 1 and \ + self._properties['children'][0].__class__ == PBXGroup: + # Loop to take over the innermost only-child group possible. + + child = self._properties['children'][0] + + # Assume the child's properties, including its children. Save a copy + # of this object's old properties, because they'll still be needed. + # This object retains its existing id and parent attributes. + old_properties = self._properties + self._properties = child._properties + self._children_by_path = child._children_by_path + + if not 'sourceTree' in self._properties or \ + self._properties['sourceTree'] == '<group>': + # The child was relative to its parent. Fix up the path. Note that + # children with a sourceTree other than "<group>" are not relative to + # their parents, so no path fix-up is needed in that case. + if 'path' in old_properties: + if 'path' in self._properties: + # Both the original parent and child have paths set. + self._properties['path'] = posixpath.join(old_properties['path'], + self._properties['path']) + else: + # Only the original parent has a path, use it. + self._properties['path'] = old_properties['path'] + if 'sourceTree' in old_properties: + # The original parent had a sourceTree set, use it. + self._properties['sourceTree'] = old_properties['sourceTree'] + + # If the original parent had a name set, keep using it. If the original + # parent didn't have a name but the child did, let the child's name + # live on. If the name attribute seems unnecessary now, get rid of it. + if 'name' in old_properties and old_properties['name'] != None and \ + old_properties['name'] != self.Name(): + self._properties['name'] = old_properties['name'] + if 'name' in self._properties and 'path' in self._properties and \ + self._properties['name'] == self._properties['path']: + del self._properties['name'] + + # Notify all children of their new parent. + for child in self._properties['children']: + child.parent = self + + # If asked to recurse, recurse. + if recurse: + for child in self._properties['children']: + if child.__class__ == PBXGroup: + child.TakeOverOnlyChild(recurse) + + def SortGroup(self): + self._properties['children'] = \ + sorted(self._properties['children'], cmp=lambda x,y: x.Compare(y)) + + # Recurse. + for child in self._properties['children']: + if isinstance(child, PBXGroup): + child.SortGroup() + + +class XCFileLikeElement(XCHierarchicalElement): + # Abstract base for objects that can be used as the fileRef property of + # PBXBuildFile. + + def PathHashables(self): + # A PBXBuildFile that refers to this object will call this method to + # obtain additional hashables specific to this XCFileLikeElement. Don't + # just use this object's hashables, they're not specific and unique enough + # on their own (without access to the parent hashables.) Instead, provide + # hashables that identify this object by path by getting its hashables as + # well as the hashables of ancestor XCHierarchicalElement objects. + + hashables = [] + xche = self + while xche != None and isinstance(xche, XCHierarchicalElement): + xche_hashables = xche.Hashables() + for index in xrange(0, len(xche_hashables)): + hashables.insert(index, xche_hashables[index]) + xche = xche.parent + return hashables + + +class XCContainerPortal(XCObject): + # Abstract base for objects that can be used as the containerPortal property + # of PBXContainerItemProxy. + pass + + +class XCRemoteObject(XCObject): + # Abstract base for objects that can be used as the remoteGlobalIDString + # property of PBXContainerItemProxy. + pass + + +class PBXFileReference(XCFileLikeElement, XCContainerPortal, XCRemoteObject): + _schema = XCFileLikeElement._schema.copy() + _schema.update({ + 'explicitFileType': [0, str, 0, 0], + 'lastKnownFileType': [0, str, 0, 0], + 'name': [0, str, 0, 0], + 'path': [0, str, 0, 1], + }) + + # Weird output rules for PBXFileReference. + _should_print_single_line = True + # super + _encode_transforms = XCFileLikeElement._alternate_encode_transforms + + def __init__(self, properties=None, id=None, parent=None): + # super + XCFileLikeElement.__init__(self, properties, id, parent) + if 'path' in self._properties and self._properties['path'].endswith('/'): + self._properties['path'] = self._properties['path'][:-1] + is_dir = True + else: + is_dir = False + + if 'path' in self._properties and \ + not 'lastKnownFileType' in self._properties and \ + not 'explicitFileType' in self._properties: + # TODO(mark): This is the replacement for a replacement for a quick hack. + # It is no longer incredibly sucky, but this list needs to be extended. + extension_map = { + 'a': 'archive.ar', + 'app': 'wrapper.application', + 'bdic': 'file', + 'bundle': 'wrapper.cfbundle', + 'c': 'sourcecode.c.c', + 'cc': 'sourcecode.cpp.cpp', + 'cpp': 'sourcecode.cpp.cpp', + 'css': 'text.css', + 'cxx': 'sourcecode.cpp.cpp', + 'dart': 'sourcecode', + 'dylib': 'compiled.mach-o.dylib', + 'framework': 'wrapper.framework', + 'gyp': 'sourcecode', + 'gypi': 'sourcecode', + 'h': 'sourcecode.c.h', + 'hxx': 'sourcecode.cpp.h', + 'icns': 'image.icns', + 'java': 'sourcecode.java', + 'js': 'sourcecode.javascript', + 'm': 'sourcecode.c.objc', + 'mm': 'sourcecode.cpp.objcpp', + 'nib': 'wrapper.nib', + 'o': 'compiled.mach-o.objfile', + 'pdf': 'image.pdf', + 'pl': 'text.script.perl', + 'plist': 'text.plist.xml', + 'pm': 'text.script.perl', + 'png': 'image.png', + 'py': 'text.script.python', + 'r': 'sourcecode.rez', + 'rez': 'sourcecode.rez', + 's': 'sourcecode.asm', + 'storyboard': 'file.storyboard', + 'strings': 'text.plist.strings', + 'ttf': 'file', + 'xcassets': 'folder.assetcatalog', + 'xcconfig': 'text.xcconfig', + 'xcdatamodel': 'wrapper.xcdatamodel', + 'xib': 'file.xib', + 'y': 'sourcecode.yacc', + } + + prop_map = { + 'dart': 'explicitFileType', + 'gyp': 'explicitFileType', + 'gypi': 'explicitFileType', + } + + if is_dir: + file_type = 'folder' + prop_name = 'lastKnownFileType' + else: + basename = posixpath.basename(self._properties['path']) + (root, ext) = posixpath.splitext(basename) + # Check the map using a lowercase extension. + # TODO(mark): Maybe it should try with the original case first and fall + # back to lowercase, in case there are any instances where case + # matters. There currently aren't. + if ext != '': + ext = ext[1:].lower() + + # TODO(mark): "text" is the default value, but "file" is appropriate + # for unrecognized files not containing text. Xcode seems to choose + # based on content. + file_type = extension_map.get(ext, 'text') + prop_name = prop_map.get(ext, 'lastKnownFileType') + + self._properties[prop_name] = file_type + + +class PBXVariantGroup(PBXGroup, XCFileLikeElement): + """PBXVariantGroup is used by Xcode to represent localizations.""" + # No additions to the schema relative to PBXGroup. + pass + + +# PBXReferenceProxy is also an XCFileLikeElement subclass. It is defined below +# because it uses PBXContainerItemProxy, defined below. + + +class XCBuildConfiguration(XCObject): + _schema = XCObject._schema.copy() + _schema.update({ + 'baseConfigurationReference': [0, PBXFileReference, 0, 0], + 'buildSettings': [0, dict, 0, 1, {}], + 'name': [0, str, 0, 1], + }) + + def HasBuildSetting(self, key): + return key in self._properties['buildSettings'] + + def GetBuildSetting(self, key): + return self._properties['buildSettings'][key] + + def SetBuildSetting(self, key, value): + # TODO(mark): If a list, copy? + self._properties['buildSettings'][key] = value + + def AppendBuildSetting(self, key, value): + if not key in self._properties['buildSettings']: + self._properties['buildSettings'][key] = [] + self._properties['buildSettings'][key].append(value) + + def DelBuildSetting(self, key): + if key in self._properties['buildSettings']: + del self._properties['buildSettings'][key] + + def SetBaseConfiguration(self, value): + self._properties['baseConfigurationReference'] = value + +class XCConfigurationList(XCObject): + # _configs is the default list of configurations. + _configs = [ XCBuildConfiguration({'name': 'Debug'}), + XCBuildConfiguration({'name': 'Release'}) ] + + _schema = XCObject._schema.copy() + _schema.update({ + 'buildConfigurations': [1, XCBuildConfiguration, 1, 1, _configs], + 'defaultConfigurationIsVisible': [0, int, 0, 1, 1], + 'defaultConfigurationName': [0, str, 0, 1, 'Release'], + }) + + def Name(self): + return 'Build configuration list for ' + \ + self.parent.__class__.__name__ + ' "' + self.parent.Name() + '"' + + def ConfigurationNamed(self, name): + """Convenience accessor to obtain an XCBuildConfiguration by name.""" + for configuration in self._properties['buildConfigurations']: + if configuration._properties['name'] == name: + return configuration + + raise KeyError, name + + def DefaultConfiguration(self): + """Convenience accessor to obtain the default XCBuildConfiguration.""" + return self.ConfigurationNamed(self._properties['defaultConfigurationName']) + + def HasBuildSetting(self, key): + """Determines the state of a build setting in all XCBuildConfiguration + child objects. + + If all child objects have key in their build settings, and the value is the + same in all child objects, returns 1. + + If no child objects have the key in their build settings, returns 0. + + If some, but not all, child objects have the key in their build settings, + or if any children have different values for the key, returns -1. + """ + + has = None + value = None + for configuration in self._properties['buildConfigurations']: + configuration_has = configuration.HasBuildSetting(key) + if has is None: + has = configuration_has + elif has != configuration_has: + return -1 + + if configuration_has: + configuration_value = configuration.GetBuildSetting(key) + if value is None: + value = configuration_value + elif value != configuration_value: + return -1 + + if not has: + return 0 + + return 1 + + def GetBuildSetting(self, key): + """Gets the build setting for key. + + All child XCConfiguration objects must have the same value set for the + setting, or a ValueError will be raised. + """ + + # TODO(mark): This is wrong for build settings that are lists. The list + # contents should be compared (and a list copy returned?) + + value = None + for configuration in self._properties['buildConfigurations']: + configuration_value = configuration.GetBuildSetting(key) + if value is None: + value = configuration_value + else: + if value != configuration_value: + raise ValueError, 'Variant values for ' + key + + return value + + def SetBuildSetting(self, key, value): + """Sets the build setting for key to value in all child + XCBuildConfiguration objects. + """ + + for configuration in self._properties['buildConfigurations']: + configuration.SetBuildSetting(key, value) + + def AppendBuildSetting(self, key, value): + """Appends value to the build setting for key, which is treated as a list, + in all child XCBuildConfiguration objects. + """ + + for configuration in self._properties['buildConfigurations']: + configuration.AppendBuildSetting(key, value) + + def DelBuildSetting(self, key): + """Deletes the build setting key from all child XCBuildConfiguration + objects. + """ + + for configuration in self._properties['buildConfigurations']: + configuration.DelBuildSetting(key) + + def SetBaseConfiguration(self, value): + """Sets the build configuration in all child XCBuildConfiguration objects. + """ + + for configuration in self._properties['buildConfigurations']: + configuration.SetBaseConfiguration(value) + + +class PBXBuildFile(XCObject): + _schema = XCObject._schema.copy() + _schema.update({ + 'fileRef': [0, XCFileLikeElement, 0, 1], + 'settings': [0, str, 0, 0], # hack, it's a dict + }) + + # Weird output rules for PBXBuildFile. + _should_print_single_line = True + _encode_transforms = XCObject._alternate_encode_transforms + + def Name(self): + # Example: "main.cc in Sources" + return self._properties['fileRef'].Name() + ' in ' + self.parent.Name() + + def Hashables(self): + # super + hashables = XCObject.Hashables(self) + + # It is not sufficient to just rely on Name() to get the + # XCFileLikeElement's name, because that is not a complete pathname. + # PathHashables returns hashables unique enough that no two + # PBXBuildFiles should wind up with the same set of hashables, unless + # someone adds the same file multiple times to the same target. That + # would be considered invalid anyway. + hashables.extend(self._properties['fileRef'].PathHashables()) + + return hashables + + +class XCBuildPhase(XCObject): + """Abstract base for build phase classes. Not represented in a project + file. + + Attributes: + _files_by_path: A dict mapping each path of a child in the files list by + path (keys) to the corresponding PBXBuildFile children (values). + _files_by_xcfilelikeelement: A dict mapping each XCFileLikeElement (keys) + to the corresponding PBXBuildFile children (values). + """ + + # TODO(mark): Some build phase types, like PBXShellScriptBuildPhase, don't + # actually have a "files" list. XCBuildPhase should not have "files" but + # another abstract subclass of it should provide this, and concrete build + # phase types that do have "files" lists should be derived from that new + # abstract subclass. XCBuildPhase should only provide buildActionMask and + # runOnlyForDeploymentPostprocessing, and not files or the various + # file-related methods and attributes. + + _schema = XCObject._schema.copy() + _schema.update({ + 'buildActionMask': [0, int, 0, 1, 0x7fffffff], + 'files': [1, PBXBuildFile, 1, 1, []], + 'runOnlyForDeploymentPostprocessing': [0, int, 0, 1, 0], + }) + + def __init__(self, properties=None, id=None, parent=None): + # super + XCObject.__init__(self, properties, id, parent) + + self._files_by_path = {} + self._files_by_xcfilelikeelement = {} + for pbxbuildfile in self._properties.get('files', []): + self._AddBuildFileToDicts(pbxbuildfile) + + def FileGroup(self, path): + # Subclasses must override this by returning a two-element tuple. The + # first item in the tuple should be the PBXGroup to which "path" should be + # added, either as a child or deeper descendant. The second item should + # be a boolean indicating whether files should be added into hierarchical + # groups or one single flat group. + raise NotImplementedError, \ + self.__class__.__name__ + ' must implement FileGroup' + + def _AddPathToDict(self, pbxbuildfile, path): + """Adds path to the dict tracking paths belonging to this build phase. + + If the path is already a member of this build phase, raises an exception. + """ + + if path in self._files_by_path: + raise ValueError, 'Found multiple build files with path ' + path + self._files_by_path[path] = pbxbuildfile + + def _AddBuildFileToDicts(self, pbxbuildfile, path=None): + """Maintains the _files_by_path and _files_by_xcfilelikeelement dicts. + + If path is specified, then it is the path that is being added to the + phase, and pbxbuildfile must contain either a PBXFileReference directly + referencing that path, or it must contain a PBXVariantGroup that itself + contains a PBXFileReference referencing the path. + + If path is not specified, either the PBXFileReference's path or the paths + of all children of the PBXVariantGroup are taken as being added to the + phase. + + If the path is already present in the phase, raises an exception. + + If the PBXFileReference or PBXVariantGroup referenced by pbxbuildfile + are already present in the phase, referenced by a different PBXBuildFile + object, raises an exception. This does not raise an exception when + a PBXFileReference or PBXVariantGroup reappear and are referenced by the + same PBXBuildFile that has already introduced them, because in the case + of PBXVariantGroup objects, they may correspond to multiple paths that are + not all added simultaneously. When this situation occurs, the path needs + to be added to _files_by_path, but nothing needs to change in + _files_by_xcfilelikeelement, and the caller should have avoided adding + the PBXBuildFile if it is already present in the list of children. + """ + + xcfilelikeelement = pbxbuildfile._properties['fileRef'] + + paths = [] + if path != None: + # It's best when the caller provides the path. + if isinstance(xcfilelikeelement, PBXVariantGroup): + paths.append(path) + else: + # If the caller didn't provide a path, there can be either multiple + # paths (PBXVariantGroup) or one. + if isinstance(xcfilelikeelement, PBXVariantGroup): + for variant in xcfilelikeelement._properties['children']: + paths.append(variant.FullPath()) + else: + paths.append(xcfilelikeelement.FullPath()) + + # Add the paths first, because if something's going to raise, the + # messages provided by _AddPathToDict are more useful owing to its + # having access to a real pathname and not just an object's Name(). + for a_path in paths: + self._AddPathToDict(pbxbuildfile, a_path) + + # If another PBXBuildFile references this XCFileLikeElement, there's a + # problem. + if xcfilelikeelement in self._files_by_xcfilelikeelement and \ + self._files_by_xcfilelikeelement[xcfilelikeelement] != pbxbuildfile: + raise ValueError, 'Found multiple build files for ' + \ + xcfilelikeelement.Name() + self._files_by_xcfilelikeelement[xcfilelikeelement] = pbxbuildfile + + def AppendBuildFile(self, pbxbuildfile, path=None): + # Callers should use this instead of calling + # AppendProperty('files', pbxbuildfile) directly because this function + # maintains the object's dicts. Better yet, callers can just call AddFile + # with a pathname and not worry about building their own PBXBuildFile + # objects. + self.AppendProperty('files', pbxbuildfile) + self._AddBuildFileToDicts(pbxbuildfile, path) + + def AddFile(self, path, settings=None): + (file_group, hierarchical) = self.FileGroup(path) + file_ref = file_group.AddOrGetFileByPath(path, hierarchical) + + if file_ref in self._files_by_xcfilelikeelement and \ + isinstance(file_ref, PBXVariantGroup): + # There's already a PBXBuildFile in this phase corresponding to the + # PBXVariantGroup. path just provides a new variant that belongs to + # the group. Add the path to the dict. + pbxbuildfile = self._files_by_xcfilelikeelement[file_ref] + self._AddBuildFileToDicts(pbxbuildfile, path) + else: + # Add a new PBXBuildFile to get file_ref into the phase. + if settings is None: + pbxbuildfile = PBXBuildFile({'fileRef': file_ref}) + else: + pbxbuildfile = PBXBuildFile({'fileRef': file_ref, 'settings': settings}) + self.AppendBuildFile(pbxbuildfile, path) + + +class PBXHeadersBuildPhase(XCBuildPhase): + # No additions to the schema relative to XCBuildPhase. + + def Name(self): + return 'Headers' + + def FileGroup(self, path): + return self.PBXProjectAncestor().RootGroupForPath(path) + + +class PBXResourcesBuildPhase(XCBuildPhase): + # No additions to the schema relative to XCBuildPhase. + + def Name(self): + return 'Resources' + + def FileGroup(self, path): + return self.PBXProjectAncestor().RootGroupForPath(path) + + +class PBXSourcesBuildPhase(XCBuildPhase): + # No additions to the schema relative to XCBuildPhase. + + def Name(self): + return 'Sources' + + def FileGroup(self, path): + return self.PBXProjectAncestor().RootGroupForPath(path) + + +class PBXFrameworksBuildPhase(XCBuildPhase): + # No additions to the schema relative to XCBuildPhase. + + def Name(self): + return 'Frameworks' + + def FileGroup(self, path): + (root, ext) = posixpath.splitext(path) + if ext != '': + ext = ext[1:].lower() + if ext == 'o': + # .o files are added to Xcode Frameworks phases, but conceptually aren't + # frameworks, they're more like sources or intermediates. Redirect them + # to show up in one of those other groups. + return self.PBXProjectAncestor().RootGroupForPath(path) + else: + return (self.PBXProjectAncestor().FrameworksGroup(), False) + + +class PBXShellScriptBuildPhase(XCBuildPhase): + _schema = XCBuildPhase._schema.copy() + _schema.update({ + 'inputPaths': [1, str, 0, 1, []], + 'name': [0, str, 0, 0], + 'outputPaths': [1, str, 0, 1, []], + 'shellPath': [0, str, 0, 1, '/bin/sh'], + 'shellScript': [0, str, 0, 1], + 'showEnvVarsInLog': [0, int, 0, 0], + }) + + def Name(self): + if 'name' in self._properties: + return self._properties['name'] + + return 'ShellScript' + + +class PBXCopyFilesBuildPhase(XCBuildPhase): + _schema = XCBuildPhase._schema.copy() + _schema.update({ + 'dstPath': [0, str, 0, 1], + 'dstSubfolderSpec': [0, int, 0, 1], + 'name': [0, str, 0, 0], + }) + + # path_tree_re matches "$(DIR)/path" or just "$(DIR)". Match group 1 is + # "DIR", match group 3 is "path" or None. + path_tree_re = re.compile('^\\$\\((.*)\\)(/(.*)|)$') + + # path_tree_to_subfolder maps names of Xcode variables to the associated + # dstSubfolderSpec property value used in a PBXCopyFilesBuildPhase object. + path_tree_to_subfolder = { + 'BUILT_PRODUCTS_DIR': 16, # Products Directory + # Other types that can be chosen via the Xcode UI. + # TODO(mark): Map Xcode variable names to these. + # : 1, # Wrapper + # : 6, # Executables: 6 + # : 7, # Resources + # : 15, # Java Resources + # : 10, # Frameworks + # : 11, # Shared Frameworks + # : 12, # Shared Support + # : 13, # PlugIns + } + + def Name(self): + if 'name' in self._properties: + return self._properties['name'] + + return 'CopyFiles' + + def FileGroup(self, path): + return self.PBXProjectAncestor().RootGroupForPath(path) + + def SetDestination(self, path): + """Set the dstSubfolderSpec and dstPath properties from path. + + path may be specified in the same notation used for XCHierarchicalElements, + specifically, "$(DIR)/path". + """ + + path_tree_match = self.path_tree_re.search(path) + if path_tree_match: + # Everything else needs to be relative to an Xcode variable. + path_tree = path_tree_match.group(1) + relative_path = path_tree_match.group(3) + + if path_tree in self.path_tree_to_subfolder: + subfolder = self.path_tree_to_subfolder[path_tree] + if relative_path is None: + relative_path = '' + else: + # The path starts with an unrecognized Xcode variable + # name like $(SRCROOT). Xcode will still handle this + # as an "absolute path" that starts with the variable. + subfolder = 0 + relative_path = path + elif path.startswith('/'): + # Special case. Absolute paths are in dstSubfolderSpec 0. + subfolder = 0 + relative_path = path[1:] + else: + raise ValueError, 'Can\'t use path %s in a %s' % \ + (path, self.__class__.__name__) + + self._properties['dstPath'] = relative_path + self._properties['dstSubfolderSpec'] = subfolder + + +class PBXBuildRule(XCObject): + _schema = XCObject._schema.copy() + _schema.update({ + 'compilerSpec': [0, str, 0, 1], + 'filePatterns': [0, str, 0, 0], + 'fileType': [0, str, 0, 1], + 'isEditable': [0, int, 0, 1, 1], + 'outputFiles': [1, str, 0, 1, []], + 'script': [0, str, 0, 0], + }) + + def Name(self): + # Not very inspired, but it's what Xcode uses. + return self.__class__.__name__ + + def Hashables(self): + # super + hashables = XCObject.Hashables(self) + + # Use the hashables of the weak objects that this object refers to. + hashables.append(self._properties['fileType']) + if 'filePatterns' in self._properties: + hashables.append(self._properties['filePatterns']) + return hashables + + +class PBXContainerItemProxy(XCObject): + # When referencing an item in this project file, containerPortal is the + # PBXProject root object of this project file. When referencing an item in + # another project file, containerPortal is a PBXFileReference identifying + # the other project file. + # + # When serving as a proxy to an XCTarget (in this project file or another), + # proxyType is 1. When serving as a proxy to a PBXFileReference (in another + # project file), proxyType is 2. Type 2 is used for references to the + # producs of the other project file's targets. + # + # Xcode is weird about remoteGlobalIDString. Usually, it's printed without + # a comment, indicating that it's tracked internally simply as a string, but + # sometimes it's printed with a comment (usually when the object is initially + # created), indicating that it's tracked as a project file object at least + # sometimes. This module always tracks it as an object, but contains a hack + # to prevent it from printing the comment in the project file output. See + # _XCKVPrint. + _schema = XCObject._schema.copy() + _schema.update({ + 'containerPortal': [0, XCContainerPortal, 0, 1], + 'proxyType': [0, int, 0, 1], + 'remoteGlobalIDString': [0, XCRemoteObject, 0, 1], + 'remoteInfo': [0, str, 0, 1], + }) + + def __repr__(self): + props = self._properties + name = '%s.gyp:%s' % (props['containerPortal'].Name(), props['remoteInfo']) + return '<%s %r at 0x%x>' % (self.__class__.__name__, name, id(self)) + + def Name(self): + # Admittedly not the best name, but it's what Xcode uses. + return self.__class__.__name__ + + def Hashables(self): + # super + hashables = XCObject.Hashables(self) + + # Use the hashables of the weak objects that this object refers to. + hashables.extend(self._properties['containerPortal'].Hashables()) + hashables.extend(self._properties['remoteGlobalIDString'].Hashables()) + return hashables + + +class PBXTargetDependency(XCObject): + # The "target" property accepts an XCTarget object, and obviously not + # NoneType. But XCTarget is defined below, so it can't be put into the + # schema yet. The definition of PBXTargetDependency can't be moved below + # XCTarget because XCTarget's own schema references PBXTargetDependency. + # Python doesn't deal well with this circular relationship, and doesn't have + # a real way to do forward declarations. To work around, the type of + # the "target" property is reset below, after XCTarget is defined. + # + # At least one of "name" and "target" is required. + _schema = XCObject._schema.copy() + _schema.update({ + 'name': [0, str, 0, 0], + 'target': [0, None.__class__, 0, 0], + 'targetProxy': [0, PBXContainerItemProxy, 1, 1], + }) + + def __repr__(self): + name = self._properties.get('name') or self._properties['target'].Name() + return '<%s %r at 0x%x>' % (self.__class__.__name__, name, id(self)) + + def Name(self): + # Admittedly not the best name, but it's what Xcode uses. + return self.__class__.__name__ + + def Hashables(self): + # super + hashables = XCObject.Hashables(self) + + # Use the hashables of the weak objects that this object refers to. + hashables.extend(self._properties['targetProxy'].Hashables()) + return hashables + + +class PBXReferenceProxy(XCFileLikeElement): + _schema = XCFileLikeElement._schema.copy() + _schema.update({ + 'fileType': [0, str, 0, 1], + 'path': [0, str, 0, 1], + 'remoteRef': [0, PBXContainerItemProxy, 1, 1], + }) + + +class XCTarget(XCRemoteObject): + # An XCTarget is really just an XCObject, the XCRemoteObject thing is just + # to allow PBXProject to be used in the remoteGlobalIDString property of + # PBXContainerItemProxy. + # + # Setting a "name" property at instantiation may also affect "productName", + # which may in turn affect the "PRODUCT_NAME" build setting in children of + # "buildConfigurationList". See __init__ below. + _schema = XCRemoteObject._schema.copy() + _schema.update({ + 'buildConfigurationList': [0, XCConfigurationList, 1, 1, + XCConfigurationList()], + 'buildPhases': [1, XCBuildPhase, 1, 1, []], + 'dependencies': [1, PBXTargetDependency, 1, 1, []], + 'name': [0, str, 0, 1], + 'productName': [0, str, 0, 1], + }) + + def __init__(self, properties=None, id=None, parent=None, + force_outdir=None, force_prefix=None, force_extension=None): + # super + XCRemoteObject.__init__(self, properties, id, parent) + + # Set up additional defaults not expressed in the schema. If a "name" + # property was supplied, set "productName" if it is not present. Also set + # the "PRODUCT_NAME" build setting in each configuration, but only if + # the setting is not present in any build configuration. + if 'name' in self._properties: + if not 'productName' in self._properties: + self.SetProperty('productName', self._properties['name']) + + if 'productName' in self._properties: + if 'buildConfigurationList' in self._properties: + configs = self._properties['buildConfigurationList'] + if configs.HasBuildSetting('PRODUCT_NAME') == 0: + configs.SetBuildSetting('PRODUCT_NAME', + self._properties['productName']) + + def AddDependency(self, other): + pbxproject = self.PBXProjectAncestor() + other_pbxproject = other.PBXProjectAncestor() + if pbxproject == other_pbxproject: + # Add a dependency to another target in the same project file. + container = PBXContainerItemProxy({'containerPortal': pbxproject, + 'proxyType': 1, + 'remoteGlobalIDString': other, + 'remoteInfo': other.Name()}) + dependency = PBXTargetDependency({'target': other, + 'targetProxy': container}) + self.AppendProperty('dependencies', dependency) + else: + # Add a dependency to a target in a different project file. + other_project_ref = \ + pbxproject.AddOrGetProjectReference(other_pbxproject)[1] + container = PBXContainerItemProxy({ + 'containerPortal': other_project_ref, + 'proxyType': 1, + 'remoteGlobalIDString': other, + 'remoteInfo': other.Name(), + }) + dependency = PBXTargetDependency({'name': other.Name(), + 'targetProxy': container}) + self.AppendProperty('dependencies', dependency) + + # Proxy all of these through to the build configuration list. + + def ConfigurationNamed(self, name): + return self._properties['buildConfigurationList'].ConfigurationNamed(name) + + def DefaultConfiguration(self): + return self._properties['buildConfigurationList'].DefaultConfiguration() + + def HasBuildSetting(self, key): + return self._properties['buildConfigurationList'].HasBuildSetting(key) + + def GetBuildSetting(self, key): + return self._properties['buildConfigurationList'].GetBuildSetting(key) + + def SetBuildSetting(self, key, value): + return self._properties['buildConfigurationList'].SetBuildSetting(key, \ + value) + + def AppendBuildSetting(self, key, value): + return self._properties['buildConfigurationList'].AppendBuildSetting(key, \ + value) + + def DelBuildSetting(self, key): + return self._properties['buildConfigurationList'].DelBuildSetting(key) + + +# Redefine the type of the "target" property. See PBXTargetDependency._schema +# above. +PBXTargetDependency._schema['target'][1] = XCTarget + + +class PBXNativeTarget(XCTarget): + # buildPhases is overridden in the schema to be able to set defaults. + # + # NOTE: Contrary to most objects, it is advisable to set parent when + # constructing PBXNativeTarget. A parent of an XCTarget must be a PBXProject + # object. A parent reference is required for a PBXNativeTarget during + # construction to be able to set up the target defaults for productReference, + # because a PBXBuildFile object must be created for the target and it must + # be added to the PBXProject's mainGroup hierarchy. + _schema = XCTarget._schema.copy() + _schema.update({ + 'buildPhases': [1, XCBuildPhase, 1, 1, + [PBXSourcesBuildPhase(), PBXFrameworksBuildPhase()]], + 'buildRules': [1, PBXBuildRule, 1, 1, []], + 'productReference': [0, PBXFileReference, 0, 1], + 'productType': [0, str, 0, 1], + }) + + # Mapping from Xcode product-types to settings. The settings are: + # filetype : used for explicitFileType in the project file + # prefix : the prefix for the file name + # suffix : the suffix for the filen ame + _product_filetypes = { + 'com.apple.product-type.application': ['wrapper.application', + '', '.app'], + 'com.apple.product-type.bundle': ['wrapper.cfbundle', + '', '.bundle'], + 'com.apple.product-type.framework': ['wrapper.framework', + '', '.framework'], + 'com.apple.product-type.library.dynamic': ['compiled.mach-o.dylib', + 'lib', '.dylib'], + 'com.apple.product-type.library.static': ['archive.ar', + 'lib', '.a'], + 'com.apple.product-type.tool': ['compiled.mach-o.executable', + '', ''], + 'com.apple.product-type.bundle.unit-test': ['wrapper.cfbundle', + '', '.xctest'], + 'com.googlecode.gyp.xcode.bundle': ['compiled.mach-o.dylib', + '', '.so'], + } + + def __init__(self, properties=None, id=None, parent=None, + force_outdir=None, force_prefix=None, force_extension=None): + # super + XCTarget.__init__(self, properties, id, parent) + + if 'productName' in self._properties and \ + 'productType' in self._properties and \ + not 'productReference' in self._properties and \ + self._properties['productType'] in self._product_filetypes: + products_group = None + pbxproject = self.PBXProjectAncestor() + if pbxproject != None: + products_group = pbxproject.ProductsGroup() + + if products_group != None: + (filetype, prefix, suffix) = \ + self._product_filetypes[self._properties['productType']] + # Xcode does not have a distinct type for loadable modules that are + # pure BSD targets (not in a bundle wrapper). GYP allows such modules + # to be specified by setting a target type to loadable_module without + # having mac_bundle set. These are mapped to the pseudo-product type + # com.googlecode.gyp.xcode.bundle. + # + # By picking up this special type and converting it to a dynamic + # library (com.apple.product-type.library.dynamic) with fix-ups, + # single-file loadable modules can be produced. + # + # MACH_O_TYPE is changed to mh_bundle to produce the proper file type + # (as opposed to mh_dylib). In order for linking to succeed, + # DYLIB_CURRENT_VERSION and DYLIB_COMPATIBILITY_VERSION must be + # cleared. They are meaningless for type mh_bundle. + # + # Finally, the .so extension is forcibly applied over the default + # (.dylib), unless another forced extension is already selected. + # .dylib is plainly wrong, and .bundle is used by loadable_modules in + # bundle wrappers (com.apple.product-type.bundle). .so seems an odd + # choice because it's used as the extension on many other systems that + # don't distinguish between linkable shared libraries and non-linkable + # loadable modules, but there's precedent: Python loadable modules on + # Mac OS X use an .so extension. + if self._properties['productType'] == 'com.googlecode.gyp.xcode.bundle': + self._properties['productType'] = \ + 'com.apple.product-type.library.dynamic' + self.SetBuildSetting('MACH_O_TYPE', 'mh_bundle') + self.SetBuildSetting('DYLIB_CURRENT_VERSION', '') + self.SetBuildSetting('DYLIB_COMPATIBILITY_VERSION', '') + if force_extension is None: + force_extension = suffix[1:] + + if self._properties['productType'] == \ + 'com.apple.product-type-bundle.unit.test': + if force_extension is None: + force_extension = suffix[1:] + + if force_extension is not None: + # If it's a wrapper (bundle), set WRAPPER_EXTENSION. + if filetype.startswith('wrapper.'): + self.SetBuildSetting('WRAPPER_EXTENSION', force_extension) + else: + # Extension override. + suffix = '.' + force_extension + self.SetBuildSetting('EXECUTABLE_EXTENSION', force_extension) + + if filetype.startswith('compiled.mach-o.executable'): + product_name = self._properties['productName'] + product_name += suffix + suffix = '' + self.SetProperty('productName', product_name) + self.SetBuildSetting('PRODUCT_NAME', product_name) + + # Xcode handles most prefixes based on the target type, however there + # are exceptions. If a "BSD Dynamic Library" target is added in the + # Xcode UI, Xcode sets EXECUTABLE_PREFIX. This check duplicates that + # behavior. + if force_prefix is not None: + prefix = force_prefix + if filetype.startswith('wrapper.'): + self.SetBuildSetting('WRAPPER_PREFIX', prefix) + else: + self.SetBuildSetting('EXECUTABLE_PREFIX', prefix) + + if force_outdir is not None: + self.SetBuildSetting('TARGET_BUILD_DIR', force_outdir) + + # TODO(tvl): Remove the below hack. + # http://code.google.com/p/gyp/issues/detail?id=122 + + # Some targets include the prefix in the target_name. These targets + # really should just add a product_name setting that doesn't include + # the prefix. For example: + # target_name = 'libevent', product_name = 'event' + # This check cleans up for them. + product_name = self._properties['productName'] + prefix_len = len(prefix) + if prefix_len and (product_name[:prefix_len] == prefix): + product_name = product_name[prefix_len:] + self.SetProperty('productName', product_name) + self.SetBuildSetting('PRODUCT_NAME', product_name) + + ref_props = { + 'explicitFileType': filetype, + 'includeInIndex': 0, + 'path': prefix + product_name + suffix, + 'sourceTree': 'BUILT_PRODUCTS_DIR', + } + file_ref = PBXFileReference(ref_props) + products_group.AppendChild(file_ref) + self.SetProperty('productReference', file_ref) + + def GetBuildPhaseByType(self, type): + if not 'buildPhases' in self._properties: + return None + + the_phase = None + for phase in self._properties['buildPhases']: + if isinstance(phase, type): + # Some phases may be present in multiples in a well-formed project file, + # but phases like PBXSourcesBuildPhase may only be present singly, and + # this function is intended as an aid to GetBuildPhaseByType. Loop + # over the entire list of phases and assert if more than one of the + # desired type is found. + assert the_phase is None + the_phase = phase + + return the_phase + + def HeadersPhase(self): + headers_phase = self.GetBuildPhaseByType(PBXHeadersBuildPhase) + if headers_phase is None: + headers_phase = PBXHeadersBuildPhase() + + # The headers phase should come before the resources, sources, and + # frameworks phases, if any. + insert_at = len(self._properties['buildPhases']) + for index in xrange(0, len(self._properties['buildPhases'])): + phase = self._properties['buildPhases'][index] + if isinstance(phase, PBXResourcesBuildPhase) or \ + isinstance(phase, PBXSourcesBuildPhase) or \ + isinstance(phase, PBXFrameworksBuildPhase): + insert_at = index + break + + self._properties['buildPhases'].insert(insert_at, headers_phase) + headers_phase.parent = self + + return headers_phase + + def ResourcesPhase(self): + resources_phase = self.GetBuildPhaseByType(PBXResourcesBuildPhase) + if resources_phase is None: + resources_phase = PBXResourcesBuildPhase() + + # The resources phase should come before the sources and frameworks + # phases, if any. + insert_at = len(self._properties['buildPhases']) + for index in xrange(0, len(self._properties['buildPhases'])): + phase = self._properties['buildPhases'][index] + if isinstance(phase, PBXSourcesBuildPhase) or \ + isinstance(phase, PBXFrameworksBuildPhase): + insert_at = index + break + + self._properties['buildPhases'].insert(insert_at, resources_phase) + resources_phase.parent = self + + return resources_phase + + def SourcesPhase(self): + sources_phase = self.GetBuildPhaseByType(PBXSourcesBuildPhase) + if sources_phase is None: + sources_phase = PBXSourcesBuildPhase() + self.AppendProperty('buildPhases', sources_phase) + + return sources_phase + + def FrameworksPhase(self): + frameworks_phase = self.GetBuildPhaseByType(PBXFrameworksBuildPhase) + if frameworks_phase is None: + frameworks_phase = PBXFrameworksBuildPhase() + self.AppendProperty('buildPhases', frameworks_phase) + + return frameworks_phase + + def AddDependency(self, other): + # super + XCTarget.AddDependency(self, other) + + static_library_type = 'com.apple.product-type.library.static' + shared_library_type = 'com.apple.product-type.library.dynamic' + framework_type = 'com.apple.product-type.framework' + if isinstance(other, PBXNativeTarget) and \ + 'productType' in self._properties and \ + self._properties['productType'] != static_library_type and \ + 'productType' in other._properties and \ + (other._properties['productType'] == static_library_type or \ + ((other._properties['productType'] == shared_library_type or \ + other._properties['productType'] == framework_type) and \ + ((not other.HasBuildSetting('MACH_O_TYPE')) or + other.GetBuildSetting('MACH_O_TYPE') != 'mh_bundle'))): + + file_ref = other.GetProperty('productReference') + + pbxproject = self.PBXProjectAncestor() + other_pbxproject = other.PBXProjectAncestor() + if pbxproject != other_pbxproject: + other_project_product_group = \ + pbxproject.AddOrGetProjectReference(other_pbxproject)[0] + file_ref = other_project_product_group.GetChildByRemoteObject(file_ref) + + self.FrameworksPhase().AppendProperty('files', + PBXBuildFile({'fileRef': file_ref})) + + +class PBXAggregateTarget(XCTarget): + pass + + +class PBXProject(XCContainerPortal): + # A PBXProject is really just an XCObject, the XCContainerPortal thing is + # just to allow PBXProject to be used in the containerPortal property of + # PBXContainerItemProxy. + """ + + Attributes: + path: "sample.xcodeproj". TODO(mark) Document me! + _other_pbxprojects: A dictionary, keyed by other PBXProject objects. Each + value is a reference to the dict in the + projectReferences list associated with the keyed + PBXProject. + """ + + _schema = XCContainerPortal._schema.copy() + _schema.update({ + 'attributes': [0, dict, 0, 0], + 'buildConfigurationList': [0, XCConfigurationList, 1, 1, + XCConfigurationList()], + 'compatibilityVersion': [0, str, 0, 1, 'Xcode 3.2'], + 'hasScannedForEncodings': [0, int, 0, 1, 1], + 'mainGroup': [0, PBXGroup, 1, 1, PBXGroup()], + 'projectDirPath': [0, str, 0, 1, ''], + 'projectReferences': [1, dict, 0, 0], + 'projectRoot': [0, str, 0, 1, ''], + 'targets': [1, XCTarget, 1, 1, []], + }) + + def __init__(self, properties=None, id=None, parent=None, path=None): + self.path = path + self._other_pbxprojects = {} + # super + return XCContainerPortal.__init__(self, properties, id, parent) + + def Name(self): + name = self.path + if name[-10:] == '.xcodeproj': + name = name[:-10] + return posixpath.basename(name) + + def Path(self): + return self.path + + def Comment(self): + return 'Project object' + + def Children(self): + # super + children = XCContainerPortal.Children(self) + + # Add children that the schema doesn't know about. Maybe there's a more + # elegant way around this, but this is the only case where we need to own + # objects in a dictionary (that is itself in a list), and three lines for + # a one-off isn't that big a deal. + if 'projectReferences' in self._properties: + for reference in self._properties['projectReferences']: + children.append(reference['ProductGroup']) + + return children + + def PBXProjectAncestor(self): + return self + + def _GroupByName(self, name): + if not 'mainGroup' in self._properties: + self.SetProperty('mainGroup', PBXGroup()) + + main_group = self._properties['mainGroup'] + group = main_group.GetChildByName(name) + if group is None: + group = PBXGroup({'name': name}) + main_group.AppendChild(group) + + return group + + # SourceGroup and ProductsGroup are created by default in Xcode's own + # templates. + def SourceGroup(self): + return self._GroupByName('Source') + + def ProductsGroup(self): + return self._GroupByName('Products') + + # IntermediatesGroup is used to collect source-like files that are generated + # by rules or script phases and are placed in intermediate directories such + # as DerivedSources. + def IntermediatesGroup(self): + return self._GroupByName('Intermediates') + + # FrameworksGroup and ProjectsGroup are top-level groups used to collect + # frameworks and projects. + def FrameworksGroup(self): + return self._GroupByName('Frameworks') + + def ProjectsGroup(self): + return self._GroupByName('Projects') + + def RootGroupForPath(self, path): + """Returns a PBXGroup child of this object to which path should be added. + + This method is intended to choose between SourceGroup and + IntermediatesGroup on the basis of whether path is present in a source + directory or an intermediates directory. For the purposes of this + determination, any path located within a derived file directory such as + PROJECT_DERIVED_FILE_DIR is treated as being in an intermediates + directory. + + The returned value is a two-element tuple. The first element is the + PBXGroup, and the second element specifies whether that group should be + organized hierarchically (True) or as a single flat list (False). + """ + + # TODO(mark): make this a class variable and bind to self on call? + # Also, this list is nowhere near exhaustive. + # INTERMEDIATE_DIR and SHARED_INTERMEDIATE_DIR are used by + # gyp.generator.xcode. There should probably be some way for that module + # to push the names in, rather than having to hard-code them here. + source_tree_groups = { + 'DERIVED_FILE_DIR': (self.IntermediatesGroup, True), + 'INTERMEDIATE_DIR': (self.IntermediatesGroup, True), + 'PROJECT_DERIVED_FILE_DIR': (self.IntermediatesGroup, True), + 'SHARED_INTERMEDIATE_DIR': (self.IntermediatesGroup, True), + } + + (source_tree, path) = SourceTreeAndPathFromPath(path) + if source_tree != None and source_tree in source_tree_groups: + (group_func, hierarchical) = source_tree_groups[source_tree] + group = group_func() + return (group, hierarchical) + + # TODO(mark): make additional choices based on file extension. + + return (self.SourceGroup(), True) + + def AddOrGetFileInRootGroup(self, path): + """Returns a PBXFileReference corresponding to path in the correct group + according to RootGroupForPath's heuristics. + + If an existing PBXFileReference for path exists, it will be returned. + Otherwise, one will be created and returned. + """ + + (group, hierarchical) = self.RootGroupForPath(path) + return group.AddOrGetFileByPath(path, hierarchical) + + def RootGroupsTakeOverOnlyChildren(self, recurse=False): + """Calls TakeOverOnlyChild for all groups in the main group.""" + + for group in self._properties['mainGroup']._properties['children']: + if isinstance(group, PBXGroup): + group.TakeOverOnlyChild(recurse) + + def SortGroups(self): + # Sort the children of the mainGroup (like "Source" and "Products") + # according to their defined order. + self._properties['mainGroup']._properties['children'] = \ + sorted(self._properties['mainGroup']._properties['children'], + cmp=lambda x,y: x.CompareRootGroup(y)) + + # Sort everything else by putting group before files, and going + # alphabetically by name within sections of groups and files. SortGroup + # is recursive. + for group in self._properties['mainGroup']._properties['children']: + if not isinstance(group, PBXGroup): + continue + + if group.Name() == 'Products': + # The Products group is a special case. Instead of sorting + # alphabetically, sort things in the order of the targets that + # produce the products. To do this, just build up a new list of + # products based on the targets. + products = [] + for target in self._properties['targets']: + if not isinstance(target, PBXNativeTarget): + continue + product = target._properties['productReference'] + # Make sure that the product is already in the products group. + assert product in group._properties['children'] + products.append(product) + + # Make sure that this process doesn't miss anything that was already + # in the products group. + assert len(products) == len(group._properties['children']) + group._properties['children'] = products + else: + group.SortGroup() + + def AddOrGetProjectReference(self, other_pbxproject): + """Add a reference to another project file (via PBXProject object) to this + one. + + Returns [ProductGroup, ProjectRef]. ProductGroup is a PBXGroup object in + this project file that contains a PBXReferenceProxy object for each + product of each PBXNativeTarget in the other project file. ProjectRef is + a PBXFileReference to the other project file. + + If this project file already references the other project file, the + existing ProductGroup and ProjectRef are returned. The ProductGroup will + still be updated if necessary. + """ + + if not 'projectReferences' in self._properties: + self._properties['projectReferences'] = [] + + product_group = None + project_ref = None + + if not other_pbxproject in self._other_pbxprojects: + # This project file isn't yet linked to the other one. Establish the + # link. + product_group = PBXGroup({'name': 'Products'}) + + # ProductGroup is strong. + product_group.parent = self + + # There's nothing unique about this PBXGroup, and if left alone, it will + # wind up with the same set of hashables as all other PBXGroup objects + # owned by the projectReferences list. Add the hashables of the + # remote PBXProject that it's related to. + product_group._hashables.extend(other_pbxproject.Hashables()) + + # The other project reports its path as relative to the same directory + # that this project's path is relative to. The other project's path + # is not necessarily already relative to this project. Figure out the + # pathname that this project needs to use to refer to the other one. + this_path = posixpath.dirname(self.Path()) + projectDirPath = self.GetProperty('projectDirPath') + if projectDirPath: + if posixpath.isabs(projectDirPath[0]): + this_path = projectDirPath + else: + this_path = posixpath.join(this_path, projectDirPath) + other_path = gyp.common.RelativePath(other_pbxproject.Path(), this_path) + + # ProjectRef is weak (it's owned by the mainGroup hierarchy). + project_ref = PBXFileReference({ + 'lastKnownFileType': 'wrapper.pb-project', + 'path': other_path, + 'sourceTree': 'SOURCE_ROOT', + }) + self.ProjectsGroup().AppendChild(project_ref) + + ref_dict = {'ProductGroup': product_group, 'ProjectRef': project_ref} + self._other_pbxprojects[other_pbxproject] = ref_dict + self.AppendProperty('projectReferences', ref_dict) + + # Xcode seems to sort this list case-insensitively + self._properties['projectReferences'] = \ + sorted(self._properties['projectReferences'], cmp=lambda x,y: + cmp(x['ProjectRef'].Name().lower(), + y['ProjectRef'].Name().lower())) + else: + # The link already exists. Pull out the relevnt data. + project_ref_dict = self._other_pbxprojects[other_pbxproject] + product_group = project_ref_dict['ProductGroup'] + project_ref = project_ref_dict['ProjectRef'] + + self._SetUpProductReferences(other_pbxproject, product_group, project_ref) + + return [product_group, project_ref] + + def _SetUpProductReferences(self, other_pbxproject, product_group, + project_ref): + # TODO(mark): This only adds references to products in other_pbxproject + # when they don't exist in this pbxproject. Perhaps it should also + # remove references from this pbxproject that are no longer present in + # other_pbxproject. Perhaps it should update various properties if they + # change. + for target in other_pbxproject._properties['targets']: + if not isinstance(target, PBXNativeTarget): + continue + + other_fileref = target._properties['productReference'] + if product_group.GetChildByRemoteObject(other_fileref) is None: + # Xcode sets remoteInfo to the name of the target and not the name + # of its product, despite this proxy being a reference to the product. + container_item = PBXContainerItemProxy({ + 'containerPortal': project_ref, + 'proxyType': 2, + 'remoteGlobalIDString': other_fileref, + 'remoteInfo': target.Name() + }) + # TODO(mark): Does sourceTree get copied straight over from the other + # project? Can the other project ever have lastKnownFileType here + # instead of explicitFileType? (Use it if so?) Can path ever be + # unset? (I don't think so.) Can other_fileref have name set, and + # does it impact the PBXReferenceProxy if so? These are the questions + # that perhaps will be answered one day. + reference_proxy = PBXReferenceProxy({ + 'fileType': other_fileref._properties['explicitFileType'], + 'path': other_fileref._properties['path'], + 'sourceTree': other_fileref._properties['sourceTree'], + 'remoteRef': container_item, + }) + + product_group.AppendChild(reference_proxy) + + def SortRemoteProductReferences(self): + # For each remote project file, sort the associated ProductGroup in the + # same order that the targets are sorted in the remote project file. This + # is the sort order used by Xcode. + + def CompareProducts(x, y, remote_products): + # x and y are PBXReferenceProxy objects. Go through their associated + # PBXContainerItem to get the remote PBXFileReference, which will be + # present in the remote_products list. + x_remote = x._properties['remoteRef']._properties['remoteGlobalIDString'] + y_remote = y._properties['remoteRef']._properties['remoteGlobalIDString'] + x_index = remote_products.index(x_remote) + y_index = remote_products.index(y_remote) + + # Use the order of each remote PBXFileReference in remote_products to + # determine the sort order. + return cmp(x_index, y_index) + + for other_pbxproject, ref_dict in self._other_pbxprojects.iteritems(): + # Build up a list of products in the remote project file, ordered the + # same as the targets that produce them. + remote_products = [] + for target in other_pbxproject._properties['targets']: + if not isinstance(target, PBXNativeTarget): + continue + remote_products.append(target._properties['productReference']) + + # Sort the PBXReferenceProxy children according to the list of remote + # products. + product_group = ref_dict['ProductGroup'] + product_group._properties['children'] = sorted( + product_group._properties['children'], + cmp=lambda x, y: CompareProducts(x, y, remote_products)) + + +class XCProjectFile(XCObject): + _schema = XCObject._schema.copy() + _schema.update({ + 'archiveVersion': [0, int, 0, 1, 1], + 'classes': [0, dict, 0, 1, {}], + 'objectVersion': [0, int, 0, 1, 45], + 'rootObject': [0, PBXProject, 1, 1], + }) + + def SetXcodeVersion(self, version): + version_to_object_version = { + '2.4': 45, + '3.0': 45, + '3.1': 45, + '3.2': 46, + } + if not version in version_to_object_version: + supported_str = ', '.join(sorted(version_to_object_version.keys())) + raise Exception( + 'Unsupported Xcode version %s (supported: %s)' % + ( version, supported_str ) ) + compatibility_version = 'Xcode %s' % version + self._properties['rootObject'].SetProperty('compatibilityVersion', + compatibility_version) + self.SetProperty('objectVersion', version_to_object_version[version]); + + def ComputeIDs(self, recursive=True, overwrite=True, hash=None): + # Although XCProjectFile is implemented here as an XCObject, it's not a + # proper object in the Xcode sense, and it certainly doesn't have its own + # ID. Pass through an attempt to update IDs to the real root object. + if recursive: + self._properties['rootObject'].ComputeIDs(recursive, overwrite, hash) + + def Print(self, file=sys.stdout): + self.VerifyHasRequiredProperties() + + # Add the special "objects" property, which will be caught and handled + # separately during printing. This structure allows a fairly standard + # loop do the normal printing. + self._properties['objects'] = {} + self._XCPrint(file, 0, '// !$*UTF8*$!\n') + if self._should_print_single_line: + self._XCPrint(file, 0, '{ ') + else: + self._XCPrint(file, 0, '{\n') + for property, value in sorted(self._properties.iteritems(), + cmp=lambda x, y: cmp(x, y)): + if property == 'objects': + self._PrintObjects(file) + else: + self._XCKVPrint(file, 1, property, value) + self._XCPrint(file, 0, '}\n') + del self._properties['objects'] + + def _PrintObjects(self, file): + if self._should_print_single_line: + self._XCPrint(file, 0, 'objects = {') + else: + self._XCPrint(file, 1, 'objects = {\n') + + objects_by_class = {} + for object in self.Descendants(): + if object == self: + continue + class_name = object.__class__.__name__ + if not class_name in objects_by_class: + objects_by_class[class_name] = [] + objects_by_class[class_name].append(object) + + for class_name in sorted(objects_by_class): + self._XCPrint(file, 0, '\n') + self._XCPrint(file, 0, '/* Begin ' + class_name + ' section */\n') + for object in sorted(objects_by_class[class_name], + cmp=lambda x, y: cmp(x.id, y.id)): + object.Print(file) + self._XCPrint(file, 0, '/* End ' + class_name + ' section */\n') + + if self._should_print_single_line: + self._XCPrint(file, 0, '}; ') + else: + self._XCPrint(file, 1, '};\n') diff --git a/deps/gyp/pylib/gyp/xml_fix.py b/deps/gyp/pylib/gyp/xml_fix.py new file mode 100644 index 0000000000..5de848158d --- /dev/null +++ b/deps/gyp/pylib/gyp/xml_fix.py @@ -0,0 +1,69 @@ +# Copyright (c) 2011 Google Inc. All rights reserved. +# Use of this source code is governed by a BSD-style license that can be +# found in the LICENSE file. + +"""Applies a fix to CR LF TAB handling in xml.dom. + +Fixes this: http://code.google.com/p/chromium/issues/detail?id=76293 +Working around this: http://bugs.python.org/issue5752 +TODO(bradnelson): Consider dropping this when we drop XP support. +""" + + +import xml.dom.minidom + + +def _Replacement_write_data(writer, data, is_attrib=False): + """Writes datachars to writer.""" + data = data.replace("&", "&").replace("<", "<") + data = data.replace("\"", """).replace(">", ">") + if is_attrib: + data = data.replace( + "\r", "
").replace( + "\n", "
").replace( + "\t", "	") + writer.write(data) + + +def _Replacement_writexml(self, writer, indent="", addindent="", newl=""): + # indent = current indentation + # addindent = indentation to add to higher levels + # newl = newline string + writer.write(indent+"<" + self.tagName) + + attrs = self._get_attributes() + a_names = attrs.keys() + a_names.sort() + + for a_name in a_names: + writer.write(" %s=\"" % a_name) + _Replacement_write_data(writer, attrs[a_name].value, is_attrib=True) + writer.write("\"") + if self.childNodes: + writer.write(">%s" % newl) + for node in self.childNodes: + node.writexml(writer, indent + addindent, addindent, newl) + writer.write("%s</%s>%s" % (indent, self.tagName, newl)) + else: + writer.write("/>%s" % newl) + + +class XmlFix(object): + """Object to manage temporary patching of xml.dom.minidom.""" + + def __init__(self): + # Preserve current xml.dom.minidom functions. + self.write_data = xml.dom.minidom._write_data + self.writexml = xml.dom.minidom.Element.writexml + # Inject replacement versions of a function and a method. + xml.dom.minidom._write_data = _Replacement_write_data + xml.dom.minidom.Element.writexml = _Replacement_writexml + + def Cleanup(self): + if self.write_data: + xml.dom.minidom._write_data = self.write_data + xml.dom.minidom.Element.writexml = self.writexml + self.write_data = None + + def __del__(self): + self.Cleanup() |