/************************************************************************** ** ** This file is part of Qt Creator ** ** Copyright (c) 2010 Nokia Corporation and/or its subsidiary(-ies). ** ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** Commercial Usage ** ** Licensees holding valid Qt Commercial licenses may use this file in ** accordance with the Qt Commercial License Agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and Nokia. ** ** GNU Lesser General Public License Usage ** ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** If you are unsure which license is appropriate for your use, please ** contact the sales department at http://qt.nokia.com/contact. ** **************************************************************************/ #include "cmakeproject.h" #include "cmakeprojectconstants.h" #include "cmakeprojectnodes.h" #include "cmakerunconfiguration.h" #include "cmaketarget.h" #include "makestep.h" #include "cmakeopenprojectwizard.h" #include "cmakebuildconfiguration.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace CMakeProjectManager; using namespace CMakeProjectManager::Internal; using namespace ProjectExplorer; using ProjectExplorer::Environment; using ProjectExplorer::EnvironmentItem; // QtCreator CMake Generator wishlist: // Which make targets we need to build to get all executables // What is the make we need to call // What is the actual compiler executable // DEFINES // Open Questions // Who sets up the environment for cl.exe ? INCLUDEPATH and so on /*! \class CMakeProject */ CMakeProject::CMakeProject(CMakeManager *manager, const QString &fileName) : m_manager(manager), m_fileName(fileName), m_rootNode(new CMakeProjectNode(m_fileName)), m_insideFileChanged(false), m_targetFactory(new CMakeTargetFactory(this)) { m_file = new CMakeFile(this, fileName); connect(this, SIGNAL(addedTarget(ProjectExplorer::Target*)), SLOT(targetAdded(ProjectExplorer::Target*))); } CMakeProject::~CMakeProject() { m_codeModelFuture.cancel(); delete m_rootNode; } void CMakeProject::fileChanged(const QString &fileName) { Q_UNUSED(fileName) if (!activeTarget() || !activeTarget()->activeBuildConfiguration()) return; if (m_insideFileChanged) return; m_insideFileChanged = true; changeActiveBuildConfiguration(activeTarget()->activeBuildConfiguration()); m_insideFileChanged = false; } void CMakeProject::changeActiveBuildConfiguration(ProjectExplorer::BuildConfiguration *bc) { if (!bc || bc->target() != activeTarget()) return; CMakeBuildConfiguration * cmakebc(qobject_cast(bc)); if (!cmakebc) return; // Pop up a dialog asking the user to rerun cmake QFileInfo sourceFileInfo(m_fileName); QString cbpFile = CMakeManager::findCbpFile(QDir(bc->buildDirectory())); QFileInfo cbpFileFi(cbpFile); CMakeOpenProjectWizard::Mode mode = CMakeOpenProjectWizard::Nothing; if (!cbpFileFi.exists()) { mode = CMakeOpenProjectWizard::NeedToCreate; } else { foreach(const QString &file, m_watchedFiles) { if (QFileInfo(file).lastModified() > cbpFileFi.lastModified()) { mode = CMakeOpenProjectWizard::NeedToUpdate; break; } } } if (mode != CMakeOpenProjectWizard::Nothing) { CMakeOpenProjectWizard copw(m_manager, sourceFileInfo.absolutePath(), cmakebc->buildDirectory(), mode, cmakebc->environment()); copw.exec(); cmakebc->setMsvcVersion(copw.msvcVersion()); } // reparse parseCMakeLists(); } void CMakeProject::targetAdded(ProjectExplorer::Target *t) { if (!t) return; connect(t, SIGNAL(activeBuildConfigurationChanged(ProjectExplorer::BuildConfiguration*)), SLOT(changeActiveBuildConfiguration(ProjectExplorer::BuildConfiguration*))); } void CMakeProject::changeBuildDirectory(CMakeBuildConfiguration *bc, const QString &newBuildDirectory) { bc->setBuildDirectory(newBuildDirectory); parseCMakeLists(); } QString CMakeProject::defaultBuildDirectory() const { return projectDirectory() + QLatin1String("/qtcreator-build"); } bool CMakeProject::parseCMakeLists() { if (!activeTarget() || !activeTarget()->activeBuildConfiguration()) return false; // Find cbp file CMakeBuildConfiguration *activeBC = activeTarget()->activeBuildConfiguration(); QString cbpFile = CMakeManager::findCbpFile(activeBC->buildDirectory()); // setFolderName m_rootNode->setDisplayName(QFileInfo(cbpFile).completeBaseName()); CMakeCbpParser cbpparser; // Parsing //qDebug()<<"Parsing file "<updateToolChain(QString::null); emit buildTargetsChanged(); return false; } // ToolChain // activeBC->updateToolChain(cbpparser.compilerName()); m_projectName = cbpparser.projectName(); m_rootNode->setDisplayName(cbpparser.projectName()); //qDebug()<<"Building Tree"; QList fileList = cbpparser.fileList(); QSet projectFiles; if (cbpparser.hasCMakeFiles()) { fileList.append(cbpparser.cmakeFileList()); foreach(const ProjectExplorer::FileNode *node, cbpparser.cmakeFileList()) projectFiles.insert(node->path()); } else { // Manually add the CMakeLists.txt file QString cmakeListTxt = projectDirectory() + "/CMakeLists.txt"; fileList.append(new ProjectExplorer::FileNode(cmakeListTxt, ProjectExplorer::ProjectFileType, false)); projectFiles.insert(cmakeListTxt); } QSet added = projectFiles; added.subtract(m_watchedFiles); foreach(const QString &add, added) m_watcher->addFile(add); foreach(const QString &remove, m_watchedFiles.subtract(projectFiles)) m_watcher->removeFile(remove); m_watchedFiles = projectFiles; m_files.clear(); foreach (ProjectExplorer::FileNode *fn, fileList) m_files.append(fn->path()); m_files.sort(); buildTree(m_rootNode, fileList); //qDebug()<<"Adding Targets"; m_buildTargets = cbpparser.buildTargets(); // qDebug()<<"Printing targets"; // foreach(CMakeBuildTarget ct, m_buildTargets) { // qDebug()< allHeaderPaths = activeBC->toolChain()->systemHeaderPaths(); foreach (const ProjectExplorer::HeaderPath &headerPath, allHeaderPaths) { if (headerPath.kind() == ProjectExplorer::HeaderPath::FrameworkHeaderPath) allFrameworkPaths.append(headerPath.path()); else allIncludePaths.append(headerPath.path()); } // This explicitly adds -I. to the include paths allIncludePaths.append(projectDirectory()); allIncludePaths.append(cbpparser.includeFiles()); CppTools::CppModelManagerInterface *modelmanager = ExtensionSystem::PluginManager::instance()->getObject(); if (modelmanager) { CppTools::CppModelManagerInterface::ProjectInfo pinfo = modelmanager->projectInfo(this); if (pinfo.includePaths != allIncludePaths || pinfo.sourceFiles != m_files || pinfo.defines != activeBC->toolChain()->predefinedMacros() || pinfo.frameworkPaths != allFrameworkPaths) { pinfo.includePaths = allIncludePaths; // TODO we only want C++ files, not all other stuff that might be in the project pinfo.sourceFiles = m_files; pinfo.defines = activeBC->toolChain()->predefinedMacros(); // TODO this is to simplistic pinfo.frameworkPaths = allFrameworkPaths; modelmanager->updateProjectInfo(pinfo); m_codeModelFuture.cancel(); m_codeModelFuture = modelmanager->updateSourceFiles(pinfo.sourceFiles); } } emit buildTargetsChanged(); return true; } QList CMakeProject::buildTargets() const { return m_buildTargets; } QStringList CMakeProject::buildTargetTitles() const { QStringList results; foreach (const CMakeBuildTarget &ct, m_buildTargets) { if (ct.executable.isEmpty()) continue; if (ct.title.endsWith(QLatin1String("/fast"))) continue; results << ct.title; } return results; } bool CMakeProject::hasBuildTarget(const QString &title) const { foreach (const CMakeBuildTarget &ct, m_buildTargets) { if (ct.executable.isEmpty()) continue; if (ct.title.endsWith(QLatin1String("/fast"))) continue; if (ct.title == title) return true; } return false; } void CMakeProject::gatherFileNodes(ProjectExplorer::FolderNode *parent, QList &list) { foreach(ProjectExplorer::FolderNode *folder, parent->subFolderNodes()) gatherFileNodes(folder, list); foreach(ProjectExplorer::FileNode *file, parent->fileNodes()) list.append(file); } void CMakeProject::buildTree(CMakeProjectNode *rootNode, QList newList) { // Gather old list QList oldList; gatherFileNodes(rootNode, oldList); qSort(oldList.begin(), oldList.end(), ProjectExplorer::ProjectNode::sortNodesByPath); qSort(newList.begin(), newList.end(), ProjectExplorer::ProjectNode::sortNodesByPath); // generate added and deleted list QList::const_iterator oldIt = oldList.constBegin(); QList::const_iterator oldEnd = oldList.constEnd(); QList::const_iterator newIt = newList.constBegin(); QList::const_iterator newEnd = newList.constEnd(); QList added; QList deleted; while(oldIt != oldEnd && newIt != newEnd) { if ( (*oldIt)->path() == (*newIt)->path()) { delete *newIt; ++oldIt; ++newIt; } else if ((*oldIt)->path() < (*newIt)->path()) { deleted.append(*oldIt); ++oldIt; } else { added.append(*newIt); ++newIt; } } while (oldIt != oldEnd) { deleted.append(*oldIt); ++oldIt; } while (newIt != newEnd) { added.append(*newIt); ++newIt; } // add added nodes foreach (ProjectExplorer::FileNode *fn, added) { // qDebug()<<"added"<path(); // Get relative path to rootNode QString parentDir = QFileInfo(fn->path()).absolutePath(); ProjectExplorer::FolderNode *folder = findOrCreateFolder(rootNode, parentDir); rootNode->addFileNodes(QList()<< fn, folder); } // remove old file nodes and check whether folder nodes can be removed foreach (ProjectExplorer::FileNode *fn, deleted) { ProjectExplorer::FolderNode *parent = fn->parentFolderNode(); // qDebug()<<"removed"<path(); rootNode->removeFileNodes(QList() << fn, parent); // Check for empty parent while (parent->subFolderNodes().isEmpty() && parent->fileNodes().isEmpty()) { ProjectExplorer::FolderNode *grandparent = parent->parentFolderNode(); rootNode->removeFolderNodes(QList() << parent, grandparent); parent = grandparent; if (parent == rootNode) break; } } } ProjectExplorer::FolderNode *CMakeProject::findOrCreateFolder(CMakeProjectNode *rootNode, QString directory) { QString relativePath = QDir(QFileInfo(rootNode->path()).path()).relativeFilePath(directory); QStringList parts = relativePath.split(QLatin1Char('/'), QString::SkipEmptyParts); ProjectExplorer::FolderNode *parent = rootNode; QString path = QFileInfo(rootNode->path()).path(); foreach (const QString &part, parts) { path += QLatin1Char('/'); path += part; // Find folder in subFolders bool found = false; foreach (ProjectExplorer::FolderNode *folder, parent->subFolderNodes()) { if (folder->path() == path) { // yeah found something :) parent = folder; found = true; break; } } if (!found) { // No FolderNode yet, so create it ProjectExplorer::FolderNode *tmp = new ProjectExplorer::FolderNode(path); tmp->setDisplayName(part); rootNode->addFolderNodes(QList() << tmp, parent); parent = tmp; } } return parent; } QString CMakeProject::displayName() const { return m_projectName; } QString CMakeProject::id() const { return QLatin1String("CMakeProjectManager.CMakeProject"); } Core::IFile *CMakeProject::file() const { return m_file; } CMakeTargetFactory *CMakeProject::targetFactory() const { return m_targetFactory; } CMakeManager *CMakeProject::projectManager() const { return m_manager; } CMakeTarget *CMakeProject::activeTarget() const { return static_cast(Project::activeTarget()); } QList CMakeProject::dependsOn() { return QList(); } ProjectExplorer::BuildConfigWidget *CMakeProject::createConfigWidget() { return new CMakeBuildSettingsWidget(this); } QList CMakeProject::subConfigWidgets() { QList list; list << new BuildEnvironmentWidget; return list; } ProjectExplorer::ProjectNode *CMakeProject::rootProjectNode() const { return m_rootNode; } QStringList CMakeProject::files(FilesMode fileMode) const { Q_UNUSED(fileMode) return m_files; } bool CMakeProject::fromMap(const QVariantMap &map) { if (!Project::fromMap(map)) return false; bool hasUserFile = activeTarget(); if (!hasUserFile) { CMakeTarget *t = targetFactory()->create(this, QLatin1String(DEFAULT_CMAKE_TARGET_ID)); Q_ASSERT(t); Q_ASSERT(t->activeBuildConfiguration()); // Ask the user for where he wants to build it // and the cmake command line CMakeOpenProjectWizard copw(m_manager, projectDirectory(), ProjectExplorer::Environment::systemEnvironment()); if (copw.exec() != QDialog::Accepted) return false; CMakeBuildConfiguration *bc = static_cast(t->buildConfigurations().at(0)); bc->setMsvcVersion(copw.msvcVersion()); if (!copw.buildDirectory().isEmpty()) bc->setBuildDirectory(copw.buildDirectory()); addTarget(t); } else { // We have a user file, but we could still be missing the cbp file // or simply run createXml with the saved settings QFileInfo sourceFileInfo(m_fileName); CMakeBuildConfiguration *activeBC = activeTarget()->activeBuildConfiguration(); QString cbpFile = CMakeManager::findCbpFile(QDir(activeBC->buildDirectory())); QFileInfo cbpFileFi(cbpFile); CMakeOpenProjectWizard::Mode mode = CMakeOpenProjectWizard::Nothing; if (!cbpFileFi.exists()) mode = CMakeOpenProjectWizard::NeedToCreate; else if (cbpFileFi.lastModified() < sourceFileInfo.lastModified()) mode = CMakeOpenProjectWizard::NeedToUpdate; if (mode != CMakeOpenProjectWizard::Nothing) { CMakeOpenProjectWizard copw(m_manager, sourceFileInfo.absolutePath(), activeBC->buildDirectory(), mode, activeBC->environment()); if (copw.exec() != QDialog::Accepted) return false; activeBC->setMsvcVersion(copw.msvcVersion()); } } m_watcher = new ProjectExplorer::FileWatcher(this); connect(m_watcher, SIGNAL(fileChanged(QString)), this, SLOT(fileChanged(QString))); if (!parseCMakeLists()) // Gets the directory from the active buildconfiguration return false; if (!hasUserFile && hasBuildTarget("all")) { MakeStep *makeStep = qobject_cast( activeTarget()->activeBuildConfiguration()->steps(ProjectExplorer::Build).at(0)); Q_ASSERT(makeStep); makeStep->setBuildTarget("all", true); } foreach (Target *t, targets()) { connect(t, SIGNAL(activeBuildConfigurationChanged(ProjectExplorer::BuildConfiguration*)), this, SLOT(changeActiveBuildConfiguration(ProjectExplorer::BuildConfiguration*))); connect(t, SIGNAL(environmentChanged()), this, SLOT(changeEnvironment())); } return true; } CMakeBuildTarget CMakeProject::buildTargetForTitle(const QString &title) { foreach(const CMakeBuildTarget &ct, m_buildTargets) if (ct.title == title) return ct; return CMakeBuildTarget(); } // CMakeFile CMakeFile::CMakeFile(CMakeProject *parent, QString fileName) : Core::IFile(parent), m_project(parent), m_fileName(fileName) { } bool CMakeFile::save(const QString &fileName) { // Once we have an texteditor open for this file, we probably do // need to implement this, don't we. Q_UNUSED(fileName) return false; } QString CMakeFile::fileName() const { return m_fileName; } QString CMakeFile::defaultPath() const { return QString(); } QString CMakeFile::suggestedFileName() const { return QString(); } QString CMakeFile::mimeType() const { return Constants::CMAKEMIMETYPE; } bool CMakeFile::isModified() const { return false; } bool CMakeFile::isReadOnly() const { return true; } bool CMakeFile::isSaveAsAllowed() const { return false; } Core::IFile::ReloadBehavior CMakeFile::reloadBehavior(ChangeTrigger state, ChangeType type) const { Q_UNUSED(state) Q_UNUSED(type) return BehaviorSilent; } void CMakeFile::reload(ReloadFlag flag, ChangeType type) { Q_UNUSED(flag) Q_UNUSED(type) } CMakeBuildSettingsWidget::CMakeBuildSettingsWidget(CMakeProject *project) : m_project(project), m_buildConfiguration(0) { QFormLayout *fl = new QFormLayout(this); fl->setContentsMargins(20, -1, 0, -1); fl->setFieldGrowthPolicy(QFormLayout::ExpandingFieldsGrow); setLayout(fl); m_pathLineEdit = new QLineEdit(this); m_pathLineEdit->setReadOnly(true); QHBoxLayout *hbox = new QHBoxLayout(); hbox->addWidget(m_pathLineEdit); m_changeButton = new QPushButton(this); m_changeButton->setText(tr("&Change")); connect(m_changeButton, SIGNAL(clicked()), this, SLOT(openChangeBuildDirectoryDialog())); hbox->addWidget(m_changeButton); fl->addRow("Build directory:", hbox); } QString CMakeBuildSettingsWidget::displayName() const { return "CMake"; } void CMakeBuildSettingsWidget::init(BuildConfiguration *bc) { m_buildConfiguration = static_cast(bc); m_pathLineEdit->setText(m_buildConfiguration->buildDirectory()); if (m_buildConfiguration->buildDirectory() == m_project->projectDirectory()) m_changeButton->setEnabled(false); else m_changeButton->setEnabled(true); } void CMakeBuildSettingsWidget::openChangeBuildDirectoryDialog() { CMakeOpenProjectWizard copw(m_project->projectManager(), m_project->projectDirectory(), m_buildConfiguration->buildDirectory(), m_buildConfiguration->environment()); if (copw.exec() == QDialog::Accepted) { m_project->changeBuildDirectory(m_buildConfiguration, copw.buildDirectory()); m_pathLineEdit->setText(m_buildConfiguration->buildDirectory()); } } ///// // CMakeCbpParser //// bool CMakeCbpParser::parseCbpFile(const QString &fileName) { QFile fi(fileName); if (fi.exists() && fi.open(QFile::ReadOnly)) { setDevice(&fi); while (!atEnd()) { readNext(); if (name() == "CodeBlocks_project_file") { parseCodeBlocks_project_file(); } else if (isStartElement()) { parseUnknownElement(); } } fi.close(); m_includeFiles.sort(); m_includeFiles.removeDuplicates(); return true; } return false; } void CMakeCbpParser::parseCodeBlocks_project_file() { while (!atEnd()) { readNext(); if (isEndElement()) { return; } else if (name() == "Project") { parseProject(); } else if (isStartElement()) { parseUnknownElement(); } } } void CMakeCbpParser::parseProject() { while (!atEnd()) { readNext(); if (isEndElement()) { return; } else if (name() == "Option") { parseOption(); } else if (name() == "Unit") { parseUnit(); } else if (name() == "Build") { parseBuild(); } else if (isStartElement()) { parseUnknownElement(); } } } void CMakeCbpParser::parseBuild() { while (!atEnd()) { readNext(); if (isEndElement()) { return; } else if (name() == "Target") { parseBuildTarget(); } else if (isStartElement()) { parseUnknownElement(); } } } void CMakeCbpParser::parseBuildTarget() { m_buildTargetType = false; m_buildTarget.clear(); if (attributes().hasAttribute("title")) m_buildTarget.title = attributes().value("title").toString(); while (!atEnd()) { readNext(); if (isEndElement()) { if (m_buildTargetType || m_buildTarget.title == "all" || m_buildTarget.title == "install") { m_buildTargets.append(m_buildTarget); } return; } else if (name() == "Compiler") { parseCompiler(); } else if (name() == "Option") { parseBuildTargetOption(); } else if (isStartElement()) { parseUnknownElement(); } } } void CMakeCbpParser::parseBuildTargetOption() { if (attributes().hasAttribute("output")) { m_buildTarget.executable = attributes().value("output").toString(); } else if (attributes().hasAttribute("type") && (attributes().value("type") == "1" || attributes().value("type") == "0")) { m_buildTargetType = true; } else if (attributes().hasAttribute("type") && (attributes().value("type") == "3" || attributes().value("type") == "2")) { m_buildTargetType = true; m_buildTarget.library = true; } else if (attributes().hasAttribute("working_dir")) { m_buildTarget.workingDirectory = attributes().value("working_dir").toString(); } while (!atEnd()) { readNext(); if (isEndElement()) { return; } else if (name() == "MakeCommand") { parseMakeCommand(); } else if (isStartElement()) { parseUnknownElement(); } } } QString CMakeCbpParser::projectName() const { return m_projectName; } void CMakeCbpParser::parseOption() { if (attributes().hasAttribute("title")) m_projectName = attributes().value("title").toString(); if (attributes().hasAttribute("compiler")) m_compiler = attributes().value("compiler").toString(); while (!atEnd()) { readNext(); if (isEndElement()) { return; } else if(isStartElement()) { parseUnknownElement(); } } } void CMakeCbpParser::parseMakeCommand() { while (!atEnd()) { readNext(); if (isEndElement()) { return; } else if (name() == "Build") { parseBuildTargetBuild(); } else if (name() == "Clean") { parseBuildTargetClean(); } else if (isStartElement()) { parseUnknownElement(); } } } void CMakeCbpParser::parseBuildTargetBuild() { if (attributes().hasAttribute("command")) m_buildTarget.makeCommand = attributes().value("command").toString(); while (!atEnd()) { readNext(); if (isEndElement()) { return; } else if (isStartElement()) { parseUnknownElement(); } } } void CMakeCbpParser::parseBuildTargetClean() { if (attributes().hasAttribute("command")) m_buildTarget.makeCleanCommand = attributes().value("command").toString(); while (!atEnd()) { readNext(); if (isEndElement()) { return; } else if (isStartElement()) { parseUnknownElement(); } } } void CMakeCbpParser::parseCompiler() { while (!atEnd()) { readNext(); if (isEndElement()) { return; } else if (name() == "Add") { parseAdd(); } else if (isStartElement()) { parseUnknownElement(); } } } void CMakeCbpParser::parseAdd() { m_includeFiles.append(attributes().value("directory").toString()); while (!atEnd()) { readNext(); if (isEndElement()) { return; } else if (isStartElement()) { parseUnknownElement(); } } } void CMakeCbpParser::parseUnit() { //qDebug()< CMakeCbpParser::fileList() { return m_fileList; } QList CMakeCbpParser::cmakeFileList() { return m_cmakeFileList; } bool CMakeCbpParser::hasCMakeFiles() { return !m_cmakeFileList.isEmpty(); } QStringList CMakeCbpParser::includeFiles() { return m_includeFiles; } QList CMakeCbpParser::buildTargets() { return m_buildTargets; } QString CMakeCbpParser::compilerName() const { return m_compiler; } void CMakeBuildTarget::clear() { executable.clear(); makeCommand.clear(); makeCleanCommand.clear(); workingDirectory.clear(); title.clear(); library = false; }