/* valaccodebasemodule.vala * * Copyright (C) 2006-2012 Jürg Billeter * Copyright (C) 2006-2008 Raffaele Sandrini * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA * * Author: * Jürg Billeter * Raffaele Sandrini */ /** * Code visitor generating C Code. */ public abstract class Vala.CCodeBaseModule : CodeGenerator { public class EmitContext { public Symbol? current_symbol; public ArrayList symbol_stack = new ArrayList (); public TryStatement current_try; public int current_try_id; public int next_try_id; public CatchClause current_catch; public CCodeFunction ccode; public ArrayList ccode_stack = new ArrayList (); public ArrayList temp_ref_values = new ArrayList (); public int next_temp_var_id; public int current_inner_error_id; public bool current_method_inner_error; public bool current_method_return; public int next_coroutine_state = 1; public Map variable_name_map = new HashMap (str_hash, str_equal); public Map closure_variable_count_map = new HashMap (str_hash, str_equal); public Map closure_variable_clash_map = new HashMap (); public bool is_in_method_precondition; public EmitContext (Symbol? symbol = null) { current_symbol = symbol; } public void push_symbol (Symbol symbol) { symbol_stack.add (current_symbol); current_symbol = symbol; } public void pop_symbol () { current_symbol = symbol_stack.remove_at (symbol_stack.size - 1); } } public CodeContext context { get; set; } public Symbol root_symbol; public EmitContext emit_context = new EmitContext (); List emit_context_stack = new ArrayList (); public CCodeLineDirective? current_line = null; List line_directive_stack = new ArrayList (); public Symbol current_symbol { get { return emit_context.current_symbol; } } public TryStatement current_try { get { return emit_context.current_try; } set { emit_context.current_try = value; } } public int current_try_id { get { return emit_context.current_try_id; } set { emit_context.current_try_id = value; } } public int next_try_id { get { return emit_context.next_try_id; } set { emit_context.next_try_id = value; } } public CatchClause current_catch { get { return emit_context.current_catch; } set { emit_context.current_catch = value; } } public int current_inner_error_id { get { return emit_context.current_inner_error_id; } set { emit_context.current_inner_error_id = value; } } public bool is_in_method_precondition { get { return emit_context.is_in_method_precondition; } set { emit_context.is_in_method_precondition = value; } } public TypeSymbol? current_type_symbol { get { var sym = current_symbol; while (sym != null) { if (sym is TypeSymbol) { return (TypeSymbol) sym; } sym = sym.parent_symbol; } return null; } } public Class? current_class { get { return current_type_symbol as Class; } } public Method? current_method { get { var sym = current_symbol; while (sym is Block) { sym = sym.parent_symbol; } return sym as Method; } } public PropertyAccessor? current_property_accessor { get { var sym = current_symbol; while (sym is Block) { sym = sym.parent_symbol; } return sym as PropertyAccessor; } } public Constructor? current_constructor { get { var sym = current_symbol; while (sym is Block) { sym = sym.parent_symbol; } return sym as Constructor; } } public Destructor? current_destructor { get { var sym = current_symbol; while (sym is Block) { sym = sym.parent_symbol; } return sym as Destructor; } } public DataType? current_return_type { get { var m = current_method; if (m != null) { return m.return_type; } var acc = current_property_accessor; if (acc != null) { if (acc.readable) { return acc.value_type; } else { return void_type; } } if (is_in_constructor () || is_in_destructor ()) { return void_type; } return null; } } public bool is_in_coroutine () { return current_method != null && current_method.coroutine; } public bool is_in_constructor () { if (current_method != null) { // make sure to not return true in lambda expression inside constructor return false; } var sym = current_symbol; while (sym != null) { if (sym is Constructor) { return true; } sym = sym.parent_symbol; } return false; } public bool is_in_destructor () { if (current_method != null) { // make sure to not return true in lambda expression inside constructor return false; } var sym = current_symbol; while (sym != null) { if (sym is Destructor) { return true; } sym = sym.parent_symbol; } return false; } public Block? current_closure_block { get { return next_closure_block (current_symbol); } } public unowned Block? next_closure_block (Symbol sym) { while (true) { unowned Method method = sym as Method; if (method != null && !method.closure) { // parent blocks are not captured by this method break; } unowned Block block = sym as Block; if (method == null && block == null) { // no closure block break; } if (block != null && block.captured) { // closure block found return block; } sym = sym.parent_symbol; } return null; } public CCodeFile header_file; public CCodeFile internal_header_file; public CCodeFile cfile; public EmitContext class_init_context; public EmitContext base_init_context; public EmitContext class_finalize_context; public EmitContext base_finalize_context; public EmitContext instance_init_context; public EmitContext instance_finalize_context; public CCodeStruct param_spec_struct; public CCodeStruct closure_struct; public CCodeEnum prop_enum; public CCodeEnum signal_enum; public CCodeFunction ccode { get { return emit_context.ccode; } } /* temporary variables that own their content */ public ArrayList temp_ref_values { get { return emit_context.temp_ref_values; } } /* cache to check whether a certain marshaller has been created yet */ public Set user_marshal_set; /* (constant) hash table with all predefined marshallers */ public Set predefined_marshal_set; /* (constant) hash table with all reserved identifiers in the generated code */ public static Set reserved_identifiers; public static Set reserved_vala_identifiers; public int next_temp_var_id { get { return emit_context.next_temp_var_id; } set { emit_context.next_temp_var_id = value; } } public int next_regex_id = 0; public bool in_creation_method { get { return current_method is CreationMethod; } } public bool current_method_inner_error { get { return emit_context.current_method_inner_error; } set { emit_context.current_method_inner_error = value; } } public bool current_method_return { get { return emit_context.current_method_return; } set { emit_context.current_method_return = value; } } int next_block_id = 0; Map block_map = new HashMap (); /* count of emitted inner_error variables in methods */ Map method_inner_error_var_count = new HashMap (); public DataType void_type = new VoidType (); public DataType bool_type; public DataType char_type; public DataType uchar_type; public DataType? unichar_type; public DataType short_type; public DataType ushort_type; public DataType int_type; public DataType uint_type; public DataType long_type; public DataType ulong_type; public DataType int8_type; public DataType uint8_type; public DataType int16_type; public DataType uint16_type; public DataType int32_type; public DataType uint32_type; public DataType int64_type; public DataType uint64_type; public DataType size_t_type; public DataType ssize_t_type; public DataType string_type; public DataType regex_type; public DataType float_type; public DataType double_type; public DataType pointer_type; public TypeSymbol gtype_type; public TypeSymbol gobject_type; public ErrorType gerror_type; public Class glist_type; public Class gslist_type; public Class gnode_type; public Class gqueue_type; public Class gvaluearray_type; public TypeSymbol gstringbuilder_type; public Class garray_type; public TypeSymbol gbytearray_type; public TypeSymbol genericarray_type; public Class gsequence_type; public Class gsequence_iter_type; public TypeSymbol gthreadpool_type; public DataType gquark_type; public Struct gvalue_type; public Class gvariant_type; public Struct mutex_type; public Struct gmutex_type; public Struct grecmutex_type; public Struct grwlock_type; public Struct gcond_type; public Class gsource_type; public TypeSymbol type_module_type; public TypeSymbol dbus_proxy_type; public Class gtk_widget_type; public DataType delegate_target_type; public DelegateType delegate_target_destroy_type; Delegate destroy_notify; Class gerror; public bool in_plugin = false; public string module_init_param_name; public bool requires_assert; public bool requires_array_free; public bool requires_array_move; public bool requires_array_length; public bool requires_array_n_elements; public bool requires_clear_mutex; public bool requires_memdup2; public bool requires_vala_extern; public Set wrappers; Set generated_external_symbols; public Map variable_name_map { get { return emit_context.variable_name_map; } } public static int ccode_attribute_cache_index = CodeNode.get_attribute_cache_index (); protected CCodeBaseModule () { if (Vala.get_build_version () != Vala.BUILD_VERSION) { Report.error (null, "Integrity check failed (libvala %s doesn't match ccodegen %s)", Vala.get_build_version (), Vala.BUILD_VERSION); } predefined_marshal_set = new HashSet (str_hash, str_equal); predefined_marshal_set.add ("VOID:VOID"); predefined_marshal_set.add ("VOID:BOOLEAN"); predefined_marshal_set.add ("VOID:CHAR"); predefined_marshal_set.add ("VOID:UCHAR"); predefined_marshal_set.add ("VOID:INT"); predefined_marshal_set.add ("VOID:UINT"); predefined_marshal_set.add ("VOID:LONG"); predefined_marshal_set.add ("VOID:ULONG"); predefined_marshal_set.add ("VOID:ENUM"); predefined_marshal_set.add ("VOID:FLAGS"); predefined_marshal_set.add ("VOID:FLOAT"); predefined_marshal_set.add ("VOID:DOUBLE"); predefined_marshal_set.add ("VOID:STRING"); predefined_marshal_set.add ("VOID:POINTER"); predefined_marshal_set.add ("VOID:OBJECT"); predefined_marshal_set.add ("STRING:OBJECT,POINTER"); predefined_marshal_set.add ("VOID:UINT,POINTER"); predefined_marshal_set.add ("BOOLEAN:FLAGS"); predefined_marshal_set.add ("VOID:BOXED"); predefined_marshal_set.add ("VOID:VARIANT"); predefined_marshal_set.add ("BOOLEAN:BOXED,BOXED"); init (); } public static void init () { if (reserved_identifiers != null) { return; } reserved_identifiers = new HashSet (str_hash, str_equal); // C99 keywords reserved_identifiers.add ("_Bool"); reserved_identifiers.add ("_Complex"); reserved_identifiers.add ("_Imaginary"); reserved_identifiers.add ("asm"); reserved_identifiers.add ("auto"); reserved_identifiers.add ("break"); reserved_identifiers.add ("case"); reserved_identifiers.add ("char"); reserved_identifiers.add ("const"); reserved_identifiers.add ("continue"); reserved_identifiers.add ("default"); reserved_identifiers.add ("do"); reserved_identifiers.add ("double"); reserved_identifiers.add ("else"); reserved_identifiers.add ("enum"); reserved_identifiers.add ("extern"); reserved_identifiers.add ("float"); reserved_identifiers.add ("for"); reserved_identifiers.add ("goto"); reserved_identifiers.add ("if"); reserved_identifiers.add ("inline"); reserved_identifiers.add ("int"); reserved_identifiers.add ("long"); reserved_identifiers.add ("register"); reserved_identifiers.add ("restrict"); reserved_identifiers.add ("return"); reserved_identifiers.add ("short"); reserved_identifiers.add ("signed"); reserved_identifiers.add ("sizeof"); reserved_identifiers.add ("static"); reserved_identifiers.add ("struct"); reserved_identifiers.add ("switch"); reserved_identifiers.add ("typedef"); reserved_identifiers.add ("union"); reserved_identifiers.add ("unsigned"); reserved_identifiers.add ("void"); reserved_identifiers.add ("volatile"); reserved_identifiers.add ("while"); // C11 keywords reserved_identifiers.add ("_Alignas"); reserved_identifiers.add ("_Alignof"); reserved_identifiers.add ("_Atomic"); reserved_identifiers.add ("_Generic"); reserved_identifiers.add ("_Noreturn"); reserved_identifiers.add ("_Static_assert"); reserved_identifiers.add ("_Thread_local"); // MSVC keywords reserved_identifiers.add ("cdecl"); reserved_vala_identifiers = new HashSet (str_hash, str_equal); // reserved for Vala/GObject naming conventions reserved_vala_identifiers.add ("error"); reserved_vala_identifiers.add ("result"); reserved_vala_identifiers.add ("self"); } public override void emit (CodeContext context) { this.context = context; ccode_init (context.profile); root_symbol = context.root; bool_type = new BooleanType ((Struct) root_symbol.scope.lookup ("bool")); char_type = new IntegerType ((Struct) root_symbol.scope.lookup ("char")); uchar_type = new IntegerType ((Struct) root_symbol.scope.lookup ("uchar")); short_type = new IntegerType ((Struct) root_symbol.scope.lookup ("short")); ushort_type = new IntegerType ((Struct) root_symbol.scope.lookup ("ushort")); int_type = new IntegerType ((Struct) root_symbol.scope.lookup ("int")); uint_type = new IntegerType ((Struct) root_symbol.scope.lookup ("uint")); long_type = new IntegerType ((Struct) root_symbol.scope.lookup ("long")); ulong_type = new IntegerType ((Struct) root_symbol.scope.lookup ("ulong")); int8_type = new IntegerType ((Struct) root_symbol.scope.lookup ("int8")); uint8_type = new IntegerType ((Struct) root_symbol.scope.lookup ("uint8")); int16_type = new IntegerType ((Struct) root_symbol.scope.lookup ("int16")); uint16_type = new IntegerType ((Struct) root_symbol.scope.lookup ("uint16")); int32_type = new IntegerType ((Struct) root_symbol.scope.lookup ("int32")); uint32_type = new IntegerType ((Struct) root_symbol.scope.lookup ("uint32")); int64_type = new IntegerType ((Struct) root_symbol.scope.lookup ("int64")); uint64_type = new IntegerType ((Struct) root_symbol.scope.lookup ("uint64")); size_t_type = new IntegerType ((Struct) root_symbol.scope.lookup ("size_t")); ssize_t_type = new IntegerType ((Struct) root_symbol.scope.lookup ("ssize_t")); float_type = new FloatingType ((Struct) root_symbol.scope.lookup ("float")); double_type = new FloatingType ((Struct) root_symbol.scope.lookup ("double")); string_type = new ObjectType ((Class) root_symbol.scope.lookup ("string")); var unichar_struct = (Struct) root_symbol.scope.lookup ("unichar"); if (unichar_struct != null) { unichar_type = new IntegerType (unichar_struct); } if (context.profile == Profile.GOBJECT) { var glib_ns = root_symbol.scope.lookup ("GLib"); gtype_type = (TypeSymbol) glib_ns.scope.lookup ("Type"); gobject_type = (TypeSymbol) glib_ns.scope.lookup ("Object"); gerror_type = new ErrorType (null, null); glist_type = (Class) glib_ns.scope.lookup ("List"); gslist_type = (Class) glib_ns.scope.lookup ("SList"); gnode_type = (Class) glib_ns.scope.lookup ("Node"); gqueue_type = (Class) glib_ns.scope.lookup ("Queue"); gvaluearray_type = (Class) glib_ns.scope.lookup ("ValueArray"); gstringbuilder_type = (TypeSymbol) glib_ns.scope.lookup ("StringBuilder"); garray_type = (Class) glib_ns.scope.lookup ("Array"); gbytearray_type = (TypeSymbol) glib_ns.scope.lookup ("ByteArray"); genericarray_type = (TypeSymbol) glib_ns.scope.lookup ("GenericArray"); gsequence_type = (Class) glib_ns.scope.lookup ("Sequence"); gsequence_iter_type = (Class) glib_ns.scope.lookup ("SequenceIter"); gthreadpool_type = (TypeSymbol) glib_ns.scope.lookup ("ThreadPool"); gerror = (Class) glib_ns.scope.lookup ("Error"); gquark_type = new IntegerType ((Struct) glib_ns.scope.lookup ("Quark")); gvalue_type = (Struct) glib_ns.scope.lookup ("Value"); gvariant_type = (Class) glib_ns.scope.lookup ("Variant"); gsource_type = (Class) glib_ns.scope.lookup ("Source"); gmutex_type = (Struct) glib_ns.scope.lookup ("Mutex"); grecmutex_type = (Struct) glib_ns.scope.lookup ("RecMutex"); grwlock_type = (Struct) glib_ns.scope.lookup ("RWLock"); gcond_type = (Struct) glib_ns.scope.lookup ("Cond"); mutex_type = grecmutex_type; type_module_type = (TypeSymbol) glib_ns.scope.lookup ("TypeModule"); regex_type = new ObjectType ((Class) glib_ns.scope.lookup ("Regex")); if (context.module_init_method != null) { foreach (Parameter parameter in context.module_init_method.get_parameters ()) { if (parameter.variable_type.type_symbol.is_subtype_of (type_module_type)) { in_plugin = true; module_init_param_name = parameter.name; break; } } } dbus_proxy_type = (TypeSymbol) glib_ns.scope.lookup ("DBusProxy"); pointer_type = new StructValueType ((Struct) glib_ns.scope.lookup ("pointer")); delegate_target_type = pointer_type; destroy_notify = (Delegate) glib_ns.scope.lookup ("DestroyNotify"); delegate_target_destroy_type = new DelegateType (destroy_notify); } else { pointer_type = new PointerType (new VoidType ()); delegate_target_type = pointer_type; destroy_notify = new Delegate ("ValaDestroyNotify", new VoidType ()); destroy_notify.add_parameter (new Parameter ("data", new PointerType (new VoidType ()))); destroy_notify.has_target = false; destroy_notify.owner = root_symbol.scope; delegate_target_destroy_type = new DelegateType (destroy_notify); } var gtk_ns = root_symbol.scope.lookup ("Gtk"); if (gtk_ns != null) { gtk_widget_type = (Class) gtk_ns.scope.lookup ("Widget"); } header_file = new CCodeFile (CCodeFileType.PUBLIC_HEADER); internal_header_file = new CCodeFile (CCodeFileType.INTERNAL_HEADER); /* we're only interested in non-pkg source files */ var source_files = context.get_source_files (); foreach (SourceFile file in source_files) { if (file.file_type == SourceFileType.SOURCE || (context.header_filename != null && file.file_type == SourceFileType.FAST)) { file.accept (this); } } // generate symbols file for public API if (context.symbols_filename != null) { var stream = FileStream.open (context.symbols_filename, "w"); if (stream == null) { Report.error (null, "unable to open `%s' for writing", context.symbols_filename); this.context = null; return; } foreach (string symbol in header_file.get_symbols ()) { stream.puts (symbol); stream.putc ('\n'); } stream = null; } // generate C header file for public API if (context.header_filename != null) { bool ret; if (context.profile == Profile.GOBJECT) { header_file.add_include ("glib.h"); ret = header_file.store (context.header_filename, null, context.version_header, false, "G_BEGIN_DECLS", "G_END_DECLS"); } else { ret = header_file.store (context.header_filename, null, context.version_header, false, "#ifdef __cplusplus\nextern \"C\" {\n#endif", "#ifdef __cplusplus\n}\n#endif"); } if (!ret) { Report.error (null, "unable to open `%s' for writing", context.header_filename); } } // generate C header file for internal API if (context.internal_header_filename != null) { bool ret; if (context.profile == Profile.GOBJECT) { internal_header_file.add_include ("glib.h"); ret = internal_header_file.store (context.internal_header_filename, null, context.version_header, false, "G_BEGIN_DECLS", "G_END_DECLS"); } else { ret = internal_header_file.store (context.internal_header_filename, null, context.version_header, false, "#ifdef __cplusplus\nextern \"C\" {\n#endif", "#ifdef __cplusplus\n}\n#endif"); } if (!ret) { Report.error (null, "unable to open `%s' for writing", context.internal_header_filename); } } this.context = null; } public void push_context (EmitContext emit_context) { if (this.emit_context != null) { emit_context_stack.add (this.emit_context); } this.emit_context = emit_context; if (ccode != null) { ccode.current_line = current_line; } } public void pop_context () { if (emit_context_stack.size > 0) { this.emit_context = emit_context_stack.remove_at (emit_context_stack.size - 1); if (ccode != null) { ccode.current_line = current_line; } } else { this.emit_context = null; } } public void push_line (SourceReference? source_reference) { line_directive_stack.add (current_line); if (source_reference != null) { current_line = new CCodeLineDirective (source_reference.file.get_relative_filename (), source_reference.begin.line); if (ccode != null) { ccode.current_line = current_line; } } } public void pop_line () { current_line = line_directive_stack.remove_at (line_directive_stack.size - 1); if (ccode != null) { ccode.current_line = current_line; } } public void push_function (CCodeFunction func) { emit_context.ccode_stack.add (ccode); emit_context.ccode = func; ccode.current_line = current_line; } public void pop_function () { emit_context.ccode = emit_context.ccode_stack.remove_at (emit_context.ccode_stack.size - 1); if (ccode != null) { ccode.current_line = current_line; } } public bool add_symbol_declaration (CCodeFile decl_space, Symbol sym, string name) { bool in_generated_header = context.header_filename != null && (decl_space.file_type != CCodeFileType.PUBLIC_HEADER && !sym.is_internal_symbol () && !(sym is Class && ((Class) sym).is_opaque)); if (decl_space.add_declaration (name)) { return true; } if (sym.source_reference != null) { sym.source_reference.file.used = true; } if (sym.anonymous) { return in_generated_header; } // constants with initializer-list are special if (sym is Constant && ((Constant) sym).value is InitializerList) { return false; } // sealed classes are special if (!sym.external_package && sym is Class && ((Class) sym).is_sealed) { return false; } if (sym.external_package || in_generated_header || (sym.is_extern && get_ccode_header_filenames (sym).length > 0)) { // add feature test macros foreach (unowned string feature_test_macro in get_ccode_feature_test_macros (sym).split (",")) { decl_space.add_feature_test_macro (feature_test_macro); } // add appropriate include file foreach (unowned string header_filename in get_ccode_header_filenames (sym).split (",")) { decl_space.add_include (header_filename, !sym.is_extern && (!sym.external_package || (sym.external_package && sym.from_commandline))); } // declaration complete return true; } else { // require declaration return false; } } public virtual void append_vala_array_free () { } public virtual void append_vala_array_move () { } public virtual void append_vala_array_length () { } public virtual void append_params_array (Method m) { } public void append_vala_clear_mutex (string typename, string funcprefix) { // memset cfile.add_include ("string.h"); var fun = new CCodeFunction ("_vala_clear_" + typename); fun.modifiers = CCodeModifiers.STATIC; fun.add_parameter (new CCodeParameter ("mutex", typename + " *")); push_function (fun); ccode.add_declaration (typename, new CCodeVariableDeclarator.zero ("zero_mutex", new CCodeConstant ("{ 0 }"))); var cmp = new CCodeFunctionCall (new CCodeIdentifier ("memcmp")); cmp.add_argument (new CCodeIdentifier ("mutex")); cmp.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, new CCodeIdentifier ("zero_mutex"))); cmp.add_argument (new CCodeIdentifier ("sizeof (" + typename + ")")); ccode.open_if (cmp); var mutex_clear = new CCodeFunctionCall (new CCodeIdentifier (funcprefix + "_clear")); mutex_clear.add_argument (new CCodeIdentifier ("mutex")); ccode.add_expression (mutex_clear); var mset = new CCodeFunctionCall (new CCodeIdentifier ("memset")); mset.add_argument (new CCodeIdentifier ("mutex")); mset.add_argument (new CCodeConstant ("0")); mset.add_argument (new CCodeIdentifier ("sizeof (" + typename + ")")); ccode.add_expression (mset); ccode.close (); pop_function (); cfile.add_function_declaration (fun); cfile.add_function (fun); } void append_vala_memdup2 () { // g_malloc cfile.add_include ("glib.h"); // memcpy cfile.add_include ("string.h"); var fun = new CCodeFunction ("_vala_memdup2", "gpointer"); fun.modifiers = CCodeModifiers.STATIC | CCodeModifiers.INLINE; fun.add_parameter (new CCodeParameter ("mem", "gconstpointer")); fun.add_parameter (new CCodeParameter ("byte_size", "gsize")); push_function (fun); ccode.add_declaration ("gpointer", new CCodeVariableDeclarator ("new_mem")); ccode.open_if (new CCodeIdentifier ("mem && byte_size != 0")); var malloc = new CCodeFunctionCall (new CCodeIdentifier ("g_malloc")); malloc.add_argument (new CCodeIdentifier ("byte_size")); ccode.add_assignment (new CCodeIdentifier ("new_mem"), malloc); var mcpy = new CCodeFunctionCall (new CCodeIdentifier ("memcpy")); mcpy.add_argument (new CCodeIdentifier ("new_mem")); mcpy.add_argument (new CCodeIdentifier ("mem")); mcpy.add_argument (new CCodeIdentifier ("byte_size")); ccode.add_expression (mcpy); ccode.add_else (); ccode.add_assignment (new CCodeIdentifier ("new_mem"), new CCodeConstant ("NULL")); ccode.close (); ccode.add_return (new CCodeIdentifier ("new_mem")); pop_function (); cfile.add_function_declaration (fun); cfile.add_function (fun); } /** * Define a macro hint for exporting a symbol in a portable way. */ void append_vala_extern_define (CCodeFile decl_space) { var extern_define = new CCodeIfSection ("!defined(VALA_EXTERN)"); CCodeIfSection if_section; if_section = new CCodeIfSection ("defined(_WIN32) || defined(__CYGWIN__)"); extern_define.append (if_section); if_section.append (new CCodeDefine ("VALA_EXTERN", "__declspec(dllexport) extern")); if_section = if_section.append_else ("__GNUC__ >= 4"); if_section.append (new CCodeDefine ("VALA_EXTERN", "__attribute__((visibility(\"default\"))) extern")); if_section = if_section.append_else (); if_section.append (new CCodeDefine ("VALA_EXTERN", "extern")); decl_space.add_define (extern_define); } public override void visit_source_file (SourceFile source_file) { cfile = new CCodeFile (CCodeFileType.SOURCE, source_file); user_marshal_set = new HashSet (str_hash, str_equal); next_regex_id = 0; requires_assert = false; requires_array_free = false; requires_array_move = false; requires_array_length = false; requires_array_n_elements = false; requires_clear_mutex = false; requires_vala_extern = false; wrappers = new HashSet (str_hash, str_equal); generated_external_symbols = new HashSet (); source_file.accept_children (this); if (context.report.get_errors () > 0) { return; } /* For fast-vapi, we only wanted the header declarations * to be emitted, so bail out here without writing the * C code output. */ if (source_file.file_type == SourceFileType.FAST) { if (requires_vala_extern) { if (context.header_filename != null) { if (!header_file.add_declaration ("VALA_EXTERN")) { append_vala_extern_define (header_file); } internal_header_file.add_include (source_file.get_cinclude_filename (), true); } } return; } if (requires_assert) { cfile.add_type_declaration (new CCodeMacroReplacement.with_expression ("_vala_assert(expr, msg)", new CCodeConstant ("if G_LIKELY (expr) ; else g_assertion_message_expr (G_LOG_DOMAIN, __FILE__, __LINE__, G_STRFUNC, msg);"))); cfile.add_type_declaration (new CCodeMacroReplacement.with_expression ("_vala_return_if_fail(expr, msg)", new CCodeConstant ("if G_LIKELY (expr) ; else { g_return_if_fail_warning (G_LOG_DOMAIN, G_STRFUNC, msg); return; }"))); cfile.add_type_declaration (new CCodeMacroReplacement.with_expression ("_vala_return_val_if_fail(expr, msg, val)", new CCodeConstant ("if G_LIKELY (expr) ; else { g_return_if_fail_warning (G_LOG_DOMAIN, G_STRFUNC, msg); return val; }"))); cfile.add_type_declaration (new CCodeMacroReplacement.with_expression ("_vala_warn_if_fail(expr, msg)", new CCodeConstant ("if G_LIKELY (expr) ; else g_warn_message (G_LOG_DOMAIN, __FILE__, __LINE__, G_STRFUNC, msg);"))); } if (requires_array_free) { append_vala_array_free (); } if (requires_array_move) { append_vala_array_move (); } if (requires_array_length) { append_vala_array_length (); } if (requires_array_n_elements) { cfile.add_type_declaration (new CCodeMacroReplacement.with_expression ("VALA_N_ELEMENTS(arr)", new CCodeConstant ("(sizeof (arr) / sizeof ((arr)[0]))"))); } if (requires_clear_mutex) { append_vala_clear_mutex ("GMutex", "g_mutex"); append_vala_clear_mutex ("GRecMutex", "g_rec_mutex"); append_vala_clear_mutex ("GRWLock", "g_rw_lock"); append_vala_clear_mutex ("GCond", "g_cond"); } if (requires_memdup2) { append_vala_memdup2 (); } if (requires_vala_extern) { if (context.header_filename != null) { if (!header_file.add_declaration ("VALA_EXTERN")) { append_vala_extern_define (header_file); } cfile.add_include (source_file.get_cinclude_filename (), true); internal_header_file.add_include (source_file.get_cinclude_filename (), true); } else { if (!cfile.add_declaration ("VALA_EXTERN")) { append_vala_extern_define (cfile); append_vala_extern_define (internal_header_file); } } } var comments = source_file.get_comments(); if (comments != null) { foreach (Comment comment in comments) { var ccomment = new CCodeComment (comment.content); cfile.add_comment (ccomment); } } if (!cfile.store (source_file.get_csource_filename (), source_file.filename, context.version_header, context.debug)) { Report.error (null, "unable to open `%s' for writing", source_file.get_csource_filename ()); } cfile = null; } public virtual bool generate_enum_declaration (Enum en, CCodeFile decl_space) { if (add_symbol_declaration (decl_space, en, get_ccode_name (en))) { return false; } var cenum = new CCodeEnum (get_ccode_name (en)); if (en.version.deprecated) { if (context.profile == Profile.GOBJECT) { decl_space.add_include ("glib.h"); } cenum.modifiers |= CCodeModifiers.DEPRECATED; } var current_cfile = cfile; cfile = decl_space; int flag_shift = 0; foreach (EnumValue ev in en.get_values ()) { CCodeEnumValue c_ev; if (ev.value == null) { c_ev = new CCodeEnumValue (get_ccode_name (ev)); if (en.is_flags) { c_ev.value = new CCodeConstant ("1 << %d".printf (flag_shift)); flag_shift += 1; } } else { ev.value.emit (this); c_ev = new CCodeEnumValue (get_ccode_name (ev), get_cvalue (ev.value)); } c_ev.modifiers |= (ev.version.deprecated ? CCodeModifiers.DEPRECATED : 0); cenum.add_value (c_ev); } cfile = current_cfile; decl_space.add_type_declaration (cenum); decl_space.add_type_declaration (new CCodeNewline ()); if (context.profile != Profile.GOBJECT || !get_ccode_has_type_id (en)) { return true; } decl_space.add_include ("glib-object.h"); decl_space.add_type_declaration (new CCodeNewline ()); var fun_name = get_ccode_type_function (en); var macro = "(%s ())".printf (fun_name); decl_space.add_type_declaration (new CCodeMacroReplacement (get_ccode_type_id (en), macro)); var regfun = new CCodeFunction (fun_name, "GType"); regfun.modifiers = CCodeModifiers.CONST; if (en.is_private_symbol ()) { // avoid C warning as this function is not always used regfun.modifiers |= CCodeModifiers.STATIC | CCodeModifiers.UNUSED; } else if (context.hide_internal && en.is_internal_symbol ()) { regfun.modifiers |= CCodeModifiers.INTERNAL; } else { regfun.modifiers |= CCodeModifiers.EXTERN; requires_vala_extern = true; } decl_space.add_function_declaration (regfun); return true; } public override void visit_enum (Enum en) { push_line (en.source_reference); if (en.comment != null) { cfile.add_type_member_definition (new CCodeComment (en.comment.content)); } generate_enum_declaration (en, cfile); if (!en.is_internal_symbol ()) { generate_enum_declaration (en, header_file); } if (!en.is_private_symbol ()) { generate_enum_declaration (en, internal_header_file); } en.accept_children (this); pop_line (); } public void visit_member (Symbol m) { /* stuff meant for all lockable members */ if (m is Lockable && ((Lockable) m).lock_used) { CCodeExpression l = new CCodeIdentifier ("self"); var init_context = class_init_context; var finalize_context = class_finalize_context; if (m.is_instance_member ()) { l = new CCodeMemberAccess.pointer (new CCodeMemberAccess.pointer (l, "priv"), get_symbol_lock_name (get_ccode_name (m))); init_context = instance_init_context; finalize_context = instance_finalize_context; } else if (m.is_class_member ()) { var get_class_private_call = new CCodeFunctionCall (new CCodeIdentifier (get_ccode_class_get_private_function ((Class) m.parent_symbol))); get_class_private_call.add_argument (new CCodeIdentifier ("klass")); l = new CCodeMemberAccess.pointer (get_class_private_call, get_symbol_lock_name (get_ccode_name (m))); } else { l = new CCodeIdentifier (get_symbol_lock_name ("%s_%s".printf (get_ccode_lower_case_name (m.parent_symbol), get_ccode_name (m)))); } push_context (init_context); var initf = new CCodeFunctionCall (new CCodeIdentifier (get_ccode_name (mutex_type.default_construction_method))); initf.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, l)); ccode.add_expression (initf); pop_context (); if (finalize_context != null) { push_context (finalize_context); var fc = new CCodeFunctionCall (new CCodeIdentifier ("g_rec_mutex_clear")); fc.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, l)); ccode.add_expression (fc); pop_context (); } } } static void constant_array_ranks_sizes (InitializerList initializer_list, int[] sizes, int rank = 0) { sizes[rank] = int.max (sizes[rank], initializer_list.size); rank++; foreach (var expr in initializer_list.get_initializers()) { if (expr is InitializerList && ((InitializerList) expr).target_type is ArrayType) { constant_array_ranks_sizes ((InitializerList) expr, sizes, rank); } } } CCodeDeclaratorSuffix? get_constant_declarator_suffix (Constant c) { unowned ArrayType? array = c.type_reference as ArrayType; unowned InitializerList? initializer_list = c.value as InitializerList; if (array == null || initializer_list == null) { if (c.type_reference.compatible (string_type)) { return new CCodeDeclaratorSuffix.with_array (); } return null; } var lengths = new ArrayList (); int[] sizes = new int[array.rank]; constant_array_ranks_sizes (initializer_list, sizes); for (int i = 0; i < array.rank; i++) { lengths.add (new CCodeConstant ("%d".printf (sizes[i]))); } return new CCodeDeclaratorSuffix.with_multi_array (lengths); } public void generate_constant_declaration (Constant c, CCodeFile decl_space, bool definition = false) { if (c.parent_symbol is Block) { // local constant return; } if (add_symbol_declaration (decl_space, c, get_ccode_name (c))) { return; } if (!c.external && c.value != null) { generate_type_declaration (c.type_reference, decl_space); c.value.emit (this); var initializer_list = c.value as InitializerList; if (initializer_list != null) { var cdecl = new CCodeDeclaration (get_ccode_const_name (c.type_reference)); var cinitializer = get_cvalue (c.value); if (!definition) { // never output value in header // special case needed as this method combines declaration and definition cinitializer = null; } cdecl.add_declarator (new CCodeVariableDeclarator (get_ccode_name (c), cinitializer, get_constant_declarator_suffix (c))); if (c.is_private_symbol ()) { cdecl.modifiers = CCodeModifiers.STATIC; } else { cdecl.modifiers = CCodeModifiers.EXTERN; requires_vala_extern = true; } decl_space.add_constant_declaration (cdecl); } else { if (c.value is StringLiteral && ((StringLiteral) c.value).translate) { // translated string constant var m = (Method) root_symbol.scope.lookup ("GLib").scope.lookup ("_"); add_symbol_declaration (decl_space, m, get_ccode_name (m)); } var cdefine = new CCodeDefine.with_expression (get_ccode_name (c), get_cvalue (c.value)); decl_space.add_define (cdefine); } } } public override void visit_constant (Constant c) { push_line (c.source_reference); if (c.parent_symbol is Block) { // local constant generate_type_declaration (c.type_reference, cfile); c.value.emit (this); string type_name; if (c.type_reference.compatible (string_type)) { type_name = "const char"; } else { type_name = get_ccode_const_name (c.type_reference); } var cinitializer = get_cvalue (c.value); ccode.add_declaration (type_name, new CCodeVariableDeclarator (get_ccode_name (c), cinitializer, get_constant_declarator_suffix (c)), CCodeModifiers.STATIC); } else { generate_constant_declaration (c, cfile, true); if (!c.is_internal_symbol ()) { generate_constant_declaration (c, header_file); } if (!c.is_private_symbol ()) { generate_constant_declaration (c, internal_header_file); } } pop_line (); } public void append_field (CCodeStruct ccode_struct, Field f, CCodeFile decl_space) { generate_type_declaration (f.variable_type, decl_space); CCodeModifiers modifiers = (f.is_volatile ? CCodeModifiers.VOLATILE : 0) | (f.version.deprecated ? CCodeModifiers.DEPRECATED : 0); ccode_struct.add_field (get_ccode_name (f.variable_type), get_ccode_name (f), modifiers, get_ccode_declarator_suffix (f.variable_type)); if (f.variable_type is ArrayType && get_ccode_array_length (f)) { // create fields to store array dimensions var array_type = (ArrayType) f.variable_type; if (!array_type.fixed_length) { var length_ctype = get_ccode_array_length_type (f); for (int dim = 1; dim <= array_type.rank; dim++) { string length_cname = get_variable_array_length_cname (f, dim); ccode_struct.add_field (length_ctype, length_cname); } if (array_type.rank == 1 && f.is_internal_symbol ()) { ccode_struct.add_field (length_ctype, get_array_size_cname (get_ccode_name (f))); } } } else if (get_ccode_delegate_target (f)) { var delegate_type = (DelegateType) f.variable_type; if (delegate_type.delegate_symbol.has_target) { // create field to store delegate target ccode_struct.add_field (get_ccode_name (delegate_target_type), get_ccode_delegate_target_name (f)); if (delegate_type.is_disposable ()) { ccode_struct.add_field (get_ccode_name (delegate_target_destroy_type), get_ccode_delegate_target_destroy_notify_name (f)); } } } } public void generate_field_declaration (Field f, CCodeFile decl_space) { if (add_symbol_declaration (decl_space, f, get_ccode_name (f))) { return; } generate_type_declaration (f.variable_type, decl_space); var cdecl = new CCodeDeclaration (get_ccode_name (f.variable_type)); cdecl.add_declarator (new CCodeVariableDeclarator (get_ccode_name (f), null, get_ccode_declarator_suffix (f.variable_type))); if (f.is_private_symbol ()) { cdecl.modifiers = CCodeModifiers.STATIC; } else { cdecl.modifiers = CCodeModifiers.EXTERN; requires_vala_extern = true; } if (f.version.deprecated) { cdecl.modifiers |= CCodeModifiers.DEPRECATED; } if (f.is_volatile) { cdecl.modifiers |= CCodeModifiers.VOLATILE; } decl_space.add_type_member_declaration (cdecl); if (f.lock_used) { // Declare mutex for static member var flock = new CCodeDeclaration (get_ccode_name (mutex_type)); var flock_decl = new CCodeVariableDeclarator (get_symbol_lock_name ("%s_%s".printf (get_ccode_lower_case_name (f.parent_symbol), get_ccode_name (f))), new CCodeConstant ("{0}")); flock.add_declarator (flock_decl); if (f.is_private_symbol ()) { flock.modifiers = CCodeModifiers.STATIC; } else { flock.modifiers = CCodeModifiers.EXTERN; requires_vala_extern = true; } decl_space.add_type_member_declaration (flock); } if (f.variable_type is ArrayType && get_ccode_array_length (f)) { var array_type = (ArrayType) f.variable_type; if (!array_type.fixed_length) { var length_ctype = get_ccode_array_length_type (f); for (int dim = 1; dim <= array_type.rank; dim++) { cdecl = new CCodeDeclaration (length_ctype); cdecl.add_declarator (new CCodeVariableDeclarator (get_variable_array_length_cname (f, dim))); if (f.is_private_symbol ()) { cdecl.modifiers = CCodeModifiers.STATIC; } else { cdecl.modifiers = CCodeModifiers.EXTERN; requires_vala_extern = true; } decl_space.add_type_member_declaration (cdecl); } } } else if (get_ccode_delegate_target (f)) { var delegate_type = (DelegateType) f.variable_type; if (delegate_type.delegate_symbol.has_target) { // create field to store delegate target cdecl = new CCodeDeclaration (get_ccode_name (delegate_target_type)); cdecl.add_declarator (new CCodeVariableDeclarator (get_ccode_delegate_target_name (f))); if (f.is_private_symbol ()) { cdecl.modifiers = CCodeModifiers.STATIC; } else { cdecl.modifiers = CCodeModifiers.EXTERN; requires_vala_extern = true; } decl_space.add_type_member_declaration (cdecl); if (delegate_type.is_disposable ()) { cdecl = new CCodeDeclaration (get_ccode_name (delegate_target_destroy_type)); cdecl.add_declarator (new CCodeVariableDeclarator (get_ccode_delegate_target_destroy_notify_name (f))); if (f.is_private_symbol ()) { cdecl.modifiers = CCodeModifiers.STATIC; } else { cdecl.modifiers = CCodeModifiers.EXTERN; requires_vala_extern = true; } decl_space.add_type_member_declaration (cdecl); } } } } public override void visit_field (Field f) { push_line (f.source_reference); visit_member (f); var cl = f.parent_symbol as Class; bool is_gtypeinstance = (cl != null && !cl.is_compact); if (f.binding == MemberBinding.INSTANCE) { if (f.initializer != null) { push_context (instance_init_context); f.initializer.emit (this); if (!is_simple_struct_creation (f, f.initializer)) { // otherwise handled in visit_object_creation_expression store_field (f, new GLibValue (null, new CCodeIdentifier ("self")), f.initializer.target_value, true, f.source_reference); } foreach (var value in temp_ref_values) { ccode.add_expression (destroy_value (value)); } temp_ref_values.clear (); pop_context (); } if ((!(f.variable_type is DelegateType) || get_ccode_delegate_target (f)) && requires_destroy (f.variable_type) && instance_finalize_context != null) { push_context (instance_finalize_context); ccode.add_expression (destroy_field (f, load_this_parameter ((TypeSymbol) f.parent_symbol))); pop_context (); } } else if (f.binding == MemberBinding.CLASS) { if (f.initializer != null) { push_context (class_init_context); f.initializer.emit (this); store_field (f, null, f.initializer.target_value, true, f.source_reference); foreach (var value in temp_ref_values) { ccode.add_expression (destroy_value (value)); } temp_ref_values.clear (); pop_context (); } } else { generate_field_declaration (f, cfile); if (!f.is_internal_symbol ()) { generate_field_declaration (f, header_file); } if (!f.is_private_symbol ()) { generate_field_declaration (f, internal_header_file); } if (!f.external) { var var_decl = new CCodeVariableDeclarator (get_ccode_name (f), null, get_ccode_declarator_suffix (f.variable_type)); var_decl.initializer = default_value_for_type (f.variable_type, true); if (class_init_context != null) { push_context (class_init_context); } else { push_context (new EmitContext ()); } if (f.initializer != null) { f.initializer.emit (this); var init = get_cvalue (f.initializer); if (is_constant_ccode_expression (init)) { var_decl.initializer = init; } } var var_def = new CCodeDeclaration (get_ccode_name (f.variable_type)); var_def.add_declarator (var_decl); if (!f.is_private_symbol ()) { var_def.modifiers = CCodeModifiers.EXTERN; requires_vala_extern = true; } else { var_def.modifiers = CCodeModifiers.STATIC; } if (f.version.deprecated) { var_def.modifiers |= CCodeModifiers.DEPRECATED; } if (f.is_volatile) { var_def.modifiers |= CCodeModifiers.VOLATILE; } cfile.add_type_member_declaration (var_def); /* add array length fields where necessary */ if (f.variable_type is ArrayType && get_ccode_array_length (f)) { var array_type = (ArrayType) f.variable_type; if (!array_type.fixed_length) { var length_ctype = get_ccode_array_length_type (f); for (int dim = 1; dim <= array_type.rank; dim++) { var len_def = new CCodeDeclaration (length_ctype); len_def.add_declarator (new CCodeVariableDeclarator (get_variable_array_length_cname (f, dim), new CCodeConstant ("0"))); if (!f.is_private_symbol ()) { len_def.modifiers = CCodeModifiers.EXTERN; requires_vala_extern = true; } else { len_def.modifiers = CCodeModifiers.STATIC; } cfile.add_type_member_declaration (len_def); } if (array_type.rank == 1 && f.is_internal_symbol ()) { var cdecl = new CCodeDeclaration (length_ctype); cdecl.add_declarator (new CCodeVariableDeclarator (get_array_size_cname (get_ccode_name (f)), new CCodeConstant ("0"))); cdecl.modifiers = CCodeModifiers.STATIC; cfile.add_type_member_declaration (cdecl); } } } else if (get_ccode_delegate_target (f)) { var delegate_type = (DelegateType) f.variable_type; if (delegate_type.delegate_symbol.has_target) { // create field to store delegate target var target_def = new CCodeDeclaration (get_ccode_name (delegate_target_type)); target_def.add_declarator (new CCodeVariableDeclarator (get_ccode_delegate_target_name (f), new CCodeConstant ("NULL"))); if (!f.is_private_symbol ()) { target_def.modifiers = CCodeModifiers.EXTERN; requires_vala_extern = true; } else { target_def.modifiers = CCodeModifiers.STATIC; } cfile.add_type_member_declaration (target_def); if (delegate_type.is_disposable ()) { var target_destroy_notify_def = new CCodeDeclaration (get_ccode_name (delegate_target_destroy_type)); target_destroy_notify_def.add_declarator (new CCodeVariableDeclarator (get_ccode_delegate_target_destroy_notify_name (f), new CCodeConstant ("NULL"))); if (!f.is_private_symbol ()) { target_destroy_notify_def.modifiers = CCodeModifiers.EXTERN; requires_vala_extern = true; } else { target_destroy_notify_def.modifiers = CCodeModifiers.STATIC; } cfile.add_type_member_declaration (target_destroy_notify_def); } } } if (f.initializer != null) { var rhs = get_cvalue (f.initializer); if (!is_constant_ccode_expression (rhs)) { if (is_gtypeinstance) { store_field (f, null, f.initializer.target_value, true, f.source_reference); } else { f.error = true; Report.error (f.source_reference, "Non-constant field initializers not supported in this context"); return; } } } pop_context (); } } pop_line (); } public static bool is_constant_ccode_expression (CCodeExpression cexpr) { if (cexpr is CCodeConstant || cexpr is CCodeConstantIdentifier) { return true; } else if (cexpr is CCodeInitializerList) { return true; } else if (cexpr is CCodeCastExpression) { var ccast = (CCodeCastExpression) cexpr; return is_constant_ccode_expression (ccast.inner); } else if (cexpr is CCodeUnaryExpression) { var cunary = (CCodeUnaryExpression) cexpr; switch (cunary.operator) { case CCodeUnaryOperator.PREFIX_INCREMENT: case CCodeUnaryOperator.PREFIX_DECREMENT: case CCodeUnaryOperator.POSTFIX_INCREMENT: case CCodeUnaryOperator.POSTFIX_DECREMENT: return false; default: break; } return is_constant_ccode_expression (cunary.inner); } else if (cexpr is CCodeBinaryExpression) { var cbinary = (CCodeBinaryExpression) cexpr; return is_constant_ccode_expression (cbinary.left) && is_constant_ccode_expression (cbinary.right); } var cparenthesized = (cexpr as CCodeParenthesizedExpression); return (null != cparenthesized && is_constant_ccode_expression (cparenthesized.inner)); } public static bool is_constant_ccode (CodeNode expr) { if (expr is Constant) { // Local constants are not considered constant in C return !(((Constant) expr).parent_symbol is Block); } else if (expr is IntegerLiteral) { return ((IntegerLiteral) expr).is_constant (); } else if (expr is MemberAccess) { return is_constant_ccode (((MemberAccess) expr).symbol_reference); } else if (expr is CastExpression) { return is_constant_ccode (((CastExpression) expr).inner); } return false; } /** * Returns whether the passed cexpr is a pure expression, i.e. an * expression without side-effects. */ public static bool is_pure_ccode_expression (CCodeExpression cexpr) { if (cexpr is CCodeConstant || cexpr is CCodeIdentifier) { return true; } else if (cexpr is CCodeBinaryExpression) { var cbinary = (CCodeBinaryExpression) cexpr; return is_pure_ccode_expression (cbinary.left) && is_pure_ccode_expression (cbinary.right); } else if (cexpr is CCodeUnaryExpression) { var cunary = (CCodeUnaryExpression) cexpr; switch (cunary.operator) { case CCodeUnaryOperator.PREFIX_INCREMENT: case CCodeUnaryOperator.PREFIX_DECREMENT: case CCodeUnaryOperator.POSTFIX_INCREMENT: case CCodeUnaryOperator.POSTFIX_DECREMENT: return false; default: return is_pure_ccode_expression (cunary.inner); } } else if (cexpr is CCodeMemberAccess) { var cma = (CCodeMemberAccess) cexpr; return is_pure_ccode_expression (cma.inner); } else if (cexpr is CCodeElementAccess) { var cea = (CCodeElementAccess) cexpr; return is_pure_ccode_expression (cea.container) && is_pure_ccode_expression (cea.indices[0]); } else if (cexpr is CCodeCastExpression) { var ccast = (CCodeCastExpression) cexpr; return is_pure_ccode_expression (ccast.inner); } else if (cexpr is CCodeParenthesizedExpression) { var cparenthesized = (CCodeParenthesizedExpression) cexpr; return is_pure_ccode_expression (cparenthesized.inner); } return false; } public override void visit_property (Property prop) { visit_member (prop); if (prop.get_accessor != null) { prop.get_accessor.accept (this); } if (prop.set_accessor != null) { prop.set_accessor.accept (this); } } public void generate_type_declaration (DataType type, CCodeFile decl_space) { if (type is ObjectType) { var object_type = (ObjectType) type; if (object_type.type_symbol is Class) { var cl = (Class) object_type.type_symbol; generate_class_declaration (cl, decl_space); if (!cl.is_compact && cl.has_type_parameters ()) { generate_struct_declaration ((Struct) gtype_type, decl_space); } } else if (object_type.type_symbol is Interface) { var iface = (Interface) object_type.type_symbol; generate_interface_declaration (iface, decl_space); if (iface.has_type_parameters ()) { generate_struct_declaration ((Struct) gtype_type, decl_space); } } } else if (type is DelegateType) { var deleg_type = (DelegateType) type; var d = deleg_type.delegate_symbol; generate_delegate_declaration (d, decl_space); if (d.has_target) { generate_type_declaration (delegate_target_type, decl_space); if (deleg_type.is_disposable ()) { generate_type_declaration (delegate_target_destroy_type, decl_space); } } } else if (type.type_symbol is Enum) { var en = (Enum) type.type_symbol; generate_enum_declaration (en, decl_space); } else if (type is ValueType) { var value_type = (ValueType) type; generate_struct_declaration ((Struct) value_type.type_symbol, decl_space); } else if (type is ArrayType) { var array_type = (ArrayType) type; generate_type_declaration (array_type.element_type, decl_space); if (array_type.length_type != null) { generate_type_declaration (array_type.length_type, decl_space); } } else if (type is ErrorType) { var error_type = (ErrorType) type; if (error_type.error_domain != null) { generate_error_domain_declaration (error_type.error_domain, decl_space); } else { generate_class_declaration (gerror, decl_space); } } else if (type is PointerType) { var pointer_type = (PointerType) type; generate_type_declaration (pointer_type.base_type, decl_space); } else if (type is MethodType) { var method = ((MethodType) type).method_symbol; if (method.has_type_parameters () && !get_ccode_simple_generics (method)) { generate_struct_declaration ((Struct) gtype_type, decl_space); } } foreach (DataType type_arg in type.get_type_arguments ()) { generate_type_declaration (type_arg, decl_space); } } public virtual void generate_class_struct_declaration (Class cl, CCodeFile decl_space) { } public virtual void generate_struct_declaration (Struct st, CCodeFile decl_space) { } public virtual void generate_delegate_declaration (Delegate d, CCodeFile decl_space) { } public virtual void generate_cparameters (Method m, CCodeFile decl_space, Map cparam_map, CCodeFunction func, CCodeFunctionDeclarator? vdeclarator = null, Map? carg_map = null, CCodeFunctionCall? vcall = null, int direction = 3) { } public void generate_property_accessor_declaration (PropertyAccessor acc, CCodeFile decl_space) { if (add_symbol_declaration (decl_space, acc, get_ccode_name (acc))) { return; } var prop = (Property) acc.prop; bool returns_real_struct = acc.readable && prop.property_type.is_real_non_null_struct_type (); CCodeParameter cvalueparam; if (returns_real_struct) { cvalueparam = new CCodeParameter ("result", "%s *".printf (get_ccode_name (acc.value_type))); } else if (!acc.readable && prop.property_type.is_real_non_null_struct_type ()) { cvalueparam = new CCodeParameter ("value", "%s *".printf (get_ccode_name (acc.value_type))); } else { cvalueparam = new CCodeParameter ("value", get_ccode_name (acc.value_type)); } generate_type_declaration (acc.value_type, decl_space); CCodeFunction function; if (acc.readable && !returns_real_struct) { function = new CCodeFunction (get_ccode_name (acc), get_ccode_name (acc.value_type)); } else { function = new CCodeFunction (get_ccode_name (acc), "void"); } if (prop.binding == MemberBinding.INSTANCE) { var t = (TypeSymbol) prop.parent_symbol; var this_type = SemanticAnalyzer.get_data_type_for_symbol (t); generate_type_declaration (this_type, decl_space); var cselfparam = new CCodeParameter ("self", get_ccode_name (this_type)); if (t is Struct && !((Struct) t).is_simple_type ()) { cselfparam.type_name += "*"; } function.add_parameter (cselfparam); } if (acc.writable || acc.construction || returns_real_struct) { function.add_parameter (cvalueparam); } if (acc.value_type is ArrayType && get_ccode_array_length (prop)) { var array_type = (ArrayType) acc.value_type; var length_ctype = get_ccode_array_length_type (prop); for (int dim = 1; dim <= array_type.rank; dim++) { function.add_parameter (new CCodeParameter (get_array_length_cname (acc.readable ? "result" : "value", dim), acc.readable ? length_ctype + "*" : length_ctype)); } } else if ((acc.value_type is DelegateType) && get_ccode_delegate_target (prop) && ((DelegateType) acc.value_type).delegate_symbol.has_target) { function.add_parameter (new CCodeParameter (get_delegate_target_cname (acc.readable ? "result" : "value"), acc.readable ? get_ccode_name (delegate_target_type) + "*" : get_ccode_name (delegate_target_type))); if (!acc.readable && acc.value_type.value_owned) { function.add_parameter (new CCodeParameter (get_delegate_target_destroy_notify_cname ("value"), get_ccode_name (delegate_target_destroy_type))); } } if (prop.version.deprecated) { if (context.profile == Profile.GOBJECT) { decl_space.add_include ("glib.h"); } function.modifiers |= CCodeModifiers.DEPRECATED; } if (!prop.is_abstract && (prop.is_private_symbol () || (!acc.readable && !acc.writable) || acc.access == SymbolAccessibility.PRIVATE)) { function.modifiers |= CCodeModifiers.STATIC; } else if (context.hide_internal && (prop.is_internal_symbol () || acc.access == SymbolAccessibility.INTERNAL)) { function.modifiers |= CCodeModifiers.INTERNAL; } else { function.modifiers |= CCodeModifiers.EXTERN; requires_vala_extern = true; } decl_space.add_function_declaration (function); } public override void visit_property_accessor (PropertyAccessor acc) { push_context (new EmitContext (acc)); push_line (acc.source_reference); var prop = (Property) acc.prop; if (acc.comment != null) { cfile.add_type_member_definition (new CCodeComment (acc.comment.content)); } bool returns_real_struct = acc.readable && prop.property_type.is_real_non_null_struct_type (); if (acc.result_var != null) { acc.result_var.accept (this); } var t = (TypeSymbol) prop.parent_symbol; // do not declare overriding properties and interface implementations if (prop.is_abstract || prop.is_virtual || (prop.base_property == null && prop.base_interface_property == null)) { generate_property_accessor_declaration (acc, cfile); // do not declare construct-only properties in header files if (acc.readable || acc.writable) { if (!prop.is_internal_symbol () && (acc.access == SymbolAccessibility.PUBLIC || acc.access == SymbolAccessibility.PROTECTED)) { generate_property_accessor_declaration (acc, header_file); } if (!prop.is_private_symbol () && acc.access != SymbolAccessibility.PRIVATE) { generate_property_accessor_declaration (acc, internal_header_file); } } } if (acc.source_type == SourceFileType.FAST) { pop_line (); pop_context (); return; } var this_type = SemanticAnalyzer.get_data_type_for_symbol (t); var cselfparam = new CCodeParameter ("self", get_ccode_name (this_type)); if (t is Struct && !((Struct) t).is_simple_type ()) { cselfparam.type_name += "*"; } CCodeParameter cvalueparam; if (returns_real_struct) { cvalueparam = new CCodeParameter ("result", "%s *".printf (get_ccode_name (acc.value_type))); } else if (!acc.readable && prop.property_type.is_real_non_null_struct_type ()) { cvalueparam = new CCodeParameter ("value", "%s *".printf (get_ccode_name (acc.value_type))); } else { cvalueparam = new CCodeParameter ("value", get_ccode_name (acc.value_type)); } if (prop.is_abstract || prop.is_virtual) { CCodeFunction function; if (acc.readable && !returns_real_struct) { function = new CCodeFunction (get_ccode_name (acc), get_ccode_name (current_return_type)); } else { function = new CCodeFunction (get_ccode_name (acc), "void"); } function.add_parameter (cselfparam); if (acc.writable || acc.construction || returns_real_struct) { function.add_parameter (cvalueparam); } if (acc.value_type is ArrayType && get_ccode_array_length (prop)) { var array_type = (ArrayType) acc.value_type; var length_ctype = get_ccode_array_length_type (prop); for (int dim = 1; dim <= array_type.rank; dim++) { function.add_parameter (new CCodeParameter (get_array_length_cname (acc.readable ? "result" : "value", dim), acc.readable ? length_ctype + "*": length_ctype)); } } else if ((acc.value_type is DelegateType) && get_ccode_delegate_target (prop) && ((DelegateType) acc.value_type).delegate_symbol.has_target) { function.add_parameter (new CCodeParameter (get_delegate_target_cname (acc.readable ? "result" : "value"), acc.readable ? get_ccode_name (delegate_target_type) + "*" : get_ccode_name (delegate_target_type))); if (!acc.readable && acc.value_type.value_owned) { function.add_parameter (new CCodeParameter (get_delegate_target_destroy_notify_cname ("value"), get_ccode_name (delegate_target_destroy_type))); } } if (!prop.is_abstract && (prop.is_private_symbol () || !(acc.readable || acc.writable) || acc.access == SymbolAccessibility.PRIVATE)) { // accessor function should be private if the property is an internal symbol or it's a construct-only setter function.modifiers |= CCodeModifiers.STATIC; } else if (context.hide_internal && (prop.is_internal_symbol () || acc.access == SymbolAccessibility.INTERNAL)) { function.modifiers |= CCodeModifiers.INTERNAL; } push_function (function); if (acc.value_type.is_non_null_simple_type () && default_value_for_type (acc.value_type, false) == null) { var vardecl = new CCodeVariableDeclarator ("result", default_value_for_type (acc.value_type, true)); vardecl.init0 = true; ccode.add_declaration (get_ccode_name (acc.value_type), vardecl); } if (prop.binding == MemberBinding.INSTANCE) { if (!acc.readable || returns_real_struct) { create_property_type_check_statement (prop, false, t, true, "self"); } else { create_property_type_check_statement (prop, true, t, true, "self"); } } CCodeExpression vcast; if (prop.parent_symbol is Interface) { var iface = (Interface) prop.parent_symbol; vcast = new CCodeIdentifier ("_iface_"); var vcastcall = new CCodeFunctionCall (new CCodeIdentifier (get_ccode_type_get_function (iface))); ((CCodeFunctionCall) vcastcall).add_argument (new CCodeIdentifier ("self")); ccode.add_declaration ("%s*".printf (get_ccode_type_name (iface)), new CCodeVariableDeclarator ("_iface_")); ccode.add_assignment (vcast, vcastcall); } else { var cl = (Class) prop.parent_symbol; if (!cl.is_compact) { vcast = new CCodeIdentifier ("_klass_"); var vcastcall = new CCodeFunctionCall (new CCodeIdentifier (get_ccode_type_get_function (cl))); ((CCodeFunctionCall) vcastcall).add_argument (new CCodeIdentifier ("self")); ccode.add_declaration ("%s*".printf (get_ccode_type_name (cl)), new CCodeVariableDeclarator ("_klass_")); ccode.add_assignment (vcast, vcastcall); } else { vcast = new CCodeIdentifier ("self"); } } if (acc.readable) { var vcall = new CCodeFunctionCall (new CCodeMemberAccess.pointer (vcast, "get_%s".printf (prop.name))); vcall.add_argument (new CCodeIdentifier ("self")); // check if vfunc pointer is properly set ccode.open_if (vcall.call); if (returns_real_struct) { vcall.add_argument (new CCodeIdentifier ("result")); ccode.add_expression (vcall); } else { if (acc.value_type is ArrayType && get_ccode_array_length (prop)) { var array_type = (ArrayType) acc.value_type; for (int dim = 1; dim <= array_type.rank; dim++) { var len_expr = new CCodeIdentifier (get_array_length_cname ("result", dim)); vcall.add_argument (len_expr); } } else if ((acc.value_type is DelegateType) && get_ccode_delegate_target (prop) && ((DelegateType) acc.value_type).delegate_symbol.has_target) { vcall.add_argument (new CCodeIdentifier (get_delegate_target_cname ("result"))); } ccode.add_return (vcall); } ccode.close (); if (acc.value_type.is_non_null_simple_type () && default_value_for_type (acc.value_type, false) == null) { ccode.add_return (new CCodeIdentifier ("result")); } else if (!(acc.value_type is VoidType)) { ccode.add_return (default_value_for_type (acc.value_type, false, true)); } } else { var vcall = new CCodeFunctionCall (new CCodeMemberAccess.pointer (vcast, "set_%s".printf (prop.name))); vcall.add_argument (new CCodeIdentifier ("self")); vcall.add_argument (new CCodeIdentifier ("value")); // check if vfunc pointer is properly set ccode.open_if (vcall.call); if (acc.value_type is ArrayType && get_ccode_array_length (prop)) { var array_type = (ArrayType) acc.value_type; for (int dim = 1; dim <= array_type.rank; dim++) { var len_expr = new CCodeIdentifier (get_array_length_cname ("value", dim)); vcall.add_argument (len_expr); } } else if ((acc.value_type is DelegateType) && get_ccode_delegate_target (prop) && ((DelegateType) acc.value_type).delegate_symbol.has_target) { vcall.add_argument (new CCodeIdentifier (get_delegate_target_cname ("value"))); if (!acc.readable && acc.value_type.value_owned) { vcall.add_argument (new CCodeIdentifier (get_delegate_target_destroy_notify_cname ("value"))); } } ccode.add_expression (vcall); ccode.close (); } pop_function (); cfile.add_function (function); } if (!prop.is_abstract && acc.body != null) { bool is_virtual = prop.base_property != null || prop.base_interface_property != null; string cname = get_ccode_real_name (acc); CCodeFunction function; if (acc.writable || acc.construction || returns_real_struct) { function = new CCodeFunction (cname, "void"); } else { function = new CCodeFunction (cname, get_ccode_name (acc.value_type)); } ObjectType base_type = null; if (prop.binding == MemberBinding.INSTANCE) { if (is_virtual) { if (prop.base_property != null) { base_type = new ObjectType ((ObjectTypeSymbol) prop.base_property.parent_symbol); } else if (prop.base_interface_property != null) { base_type = new ObjectType ((ObjectTypeSymbol) prop.base_interface_property.parent_symbol); } function.modifiers |= CCodeModifiers.STATIC; function.add_parameter (new CCodeParameter ("base", get_ccode_name (base_type))); } else { function.add_parameter (cselfparam); } } if (acc.writable || acc.construction || returns_real_struct) { function.add_parameter (cvalueparam); } if (acc.value_type is ArrayType && get_ccode_array_length (prop)) { var array_type = (ArrayType) acc.value_type; var length_ctype = get_ccode_array_length_type (prop); for (int dim = 1; dim <= array_type.rank; dim++) { function.add_parameter (new CCodeParameter (get_array_length_cname (acc.readable ? "result" : "value", dim), acc.readable ? length_ctype + "*" : length_ctype)); } } else if ((acc.value_type is DelegateType) && get_ccode_delegate_target (prop) && ((DelegateType) acc.value_type).delegate_symbol.has_target) { function.add_parameter (new CCodeParameter (get_delegate_target_cname (acc.readable ? "result" : "value"), acc.readable ? get_ccode_name (delegate_target_type) + "*" : get_ccode_name (delegate_target_type))); if (!acc.readable && acc.value_type.value_owned) { function.add_parameter (new CCodeParameter (get_delegate_target_destroy_notify_cname ("value"), get_ccode_name (delegate_target_destroy_type))); } } if (!is_virtual) { if (prop.is_private_symbol () || !(acc.readable || acc.writable) || acc.access == SymbolAccessibility.PRIVATE) { // accessor function should be private if the property is an internal symbol or it's a construct-only setter function.modifiers |= CCodeModifiers.STATIC; } else if (context.hide_internal && (prop.is_internal_symbol () || acc.access == SymbolAccessibility.INTERNAL)) { function.modifiers |= CCodeModifiers.INTERNAL; } } push_function (function); if (prop.binding == MemberBinding.INSTANCE && !is_virtual) { if (!acc.readable || returns_real_struct) { create_property_type_check_statement (prop, false, t, true, "self"); } else { create_property_type_check_statement (prop, true, t, true, "self"); } } if (acc.readable && !returns_real_struct) { // do not declare result variable if exit block is known to be unreachable if (acc.return_block == null || acc.return_block.get_predecessors ().size > 0) { ccode.add_declaration (get_ccode_name (acc.value_type), new CCodeVariableDeclarator ("result")); } } if (is_virtual) { ccode.add_declaration (get_ccode_name (this_type), new CCodeVariableDeclarator ("self")); ccode.add_assignment (new CCodeIdentifier ("self"), get_cvalue_ (transform_value (new GLibValue (base_type, new CCodeIdentifier ("base"), true), this_type, acc))); } // notify on property changes if (context.analyzer.is_gobject_property (prop) && prop.notify && (acc.writable || acc.construction)) { var notify_call = new CCodeFunctionCall (new CCodeIdentifier ("g_object_notify_by_pspec")); notify_call.add_argument (new CCodeCastExpression (new CCodeIdentifier ("self"), "GObject *")); notify_call.add_argument (get_param_spec_cexpression (prop)); var get_accessor = prop.get_accessor; if (get_accessor != null && get_accessor.automatic_body) { var property_type = prop.property_type; var get_call = new CCodeFunctionCall (new CCodeIdentifier (get_ccode_real_name (get_accessor))); get_call.add_argument (new CCodeIdentifier (is_virtual ? "base" : "self")); if (property_type is ArrayType && get_ccode_array_length (prop)) { ccode.add_declaration (get_ccode_name (property_type), new CCodeVariableDeclarator ("old_value")); ccode.add_declaration (get_ccode_array_length_type (prop), new CCodeVariableDeclarator ("old_value_length")); get_call.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, new CCodeIdentifier ("old_value_length"))); ccode.add_assignment (new CCodeIdentifier ("old_value"), get_call); ccode.open_if (new CCodeBinaryExpression (CCodeBinaryOperator.INEQUALITY, new CCodeIdentifier ("old_value"), new CCodeIdentifier ("value"))); } else if (property_type.compatible (string_type)) { ccode.add_declaration (get_ccode_name (property_type), new CCodeVariableDeclarator ("old_value")); ccode.add_assignment (new CCodeIdentifier ("old_value"), get_call); CCodeFunctionCall ccall; if (context.profile == Profile.POSIX) { cfile.add_include ("string.h"); ccall = new CCodeFunctionCall (new CCodeIdentifier (generate_cmp_wrapper (new CCodeIdentifier ("strcmp")))); } else { ccall = new CCodeFunctionCall (new CCodeIdentifier ("g_strcmp0")); } ccall.add_argument (new CCodeIdentifier ("value")); ccall.add_argument (new CCodeIdentifier ("old_value")); ccode.open_if (new CCodeBinaryExpression (CCodeBinaryOperator.INEQUALITY, ccall, new CCodeConstant ("0"))); } else if (property_type is StructValueType) { ccode.add_declaration (get_ccode_name (property_type), new CCodeVariableDeclarator ("old_value")); if (property_type.nullable) { ccode.add_assignment (new CCodeIdentifier ("old_value"), get_call); } else { get_call.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, new CCodeIdentifier ("old_value"))); ccode.add_expression (get_call); } var equalfunc = generate_struct_equal_function ((Struct) property_type.type_symbol); var ccall = new CCodeFunctionCall (new CCodeIdentifier (equalfunc)); ccall.add_argument (new CCodeIdentifier ("value")); if (property_type.nullable) { ccall.add_argument (new CCodeIdentifier ("old_value")); } else { ccall.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, new CCodeIdentifier ("old_value"))); } ccode.open_if (new CCodeBinaryExpression (CCodeBinaryOperator.INEQUALITY, ccall, new CCodeConstant ("TRUE"))); } else { ccode.add_declaration (get_ccode_name (property_type), new CCodeVariableDeclarator ("old_value")); ccode.add_assignment (new CCodeIdentifier ("old_value"), get_call); ccode.open_if (new CCodeBinaryExpression (CCodeBinaryOperator.INEQUALITY, new CCodeIdentifier ("old_value"), new CCodeIdentifier ("value"))); } acc.body.emit (this); ccode.add_expression (notify_call); ccode.close (); if (prop.get_accessor.value_type.is_disposable ()) { var old_value = new GLibValue (prop.get_accessor.value_type, new CCodeIdentifier ("old_value"), true); if (property_type is ArrayType && get_ccode_array_length (prop)) { old_value.append_array_length_cvalue (new CCodeIdentifier ("old_value_length")); } ccode.add_expression (destroy_value (old_value)); } } else { acc.body.emit (this); ccode.add_expression (notify_call); } } else { acc.body.emit (this); } if (current_method_inner_error) { ccode.add_declaration ("GError*", new CCodeVariableDeclarator.zero ("_inner_error%d_".printf (current_inner_error_id), new CCodeConstant ("NULL"))); } pop_function (); cfile.add_function (function); } pop_line (); pop_context (); } public override void visit_destructor (Destructor d) { if (d.binding == MemberBinding.STATIC && !in_plugin) { Report.error (d.source_reference, "static destructors are only supported for dynamic types"); d.error = true; return; } } public int get_block_id (Block b) { int result = block_map[b]; if (result == 0) { result = ++next_block_id; block_map[b] = result; } return result; } public bool no_implicit_copy (DataType type) { // note: implicit copy of array is planned to be forbidden unowned Class? cl = type.type_symbol as Class; return (type is DelegateType || type is ArrayType || (cl != null && !cl.is_immutable && !is_reference_counting (cl) && !get_ccode_is_gboxed (cl))); } void capture_parameter (Parameter param, CCodeStruct data, int block_id) { generate_type_declaration (param.variable_type, cfile); var param_type = param.variable_type.copy (); if (!param.variable_type.value_owned) { param_type.value_owned = !no_implicit_copy (param.variable_type); } data.add_field (get_ccode_name (param_type), get_ccode_name (param), 0, get_ccode_declarator_suffix (param_type)); // create copy if necessary as captured variables may need to be kept alive param.captured = false; var value = load_parameter (param); var array_type = param.variable_type as ArrayType; var deleg_type = param.variable_type as DelegateType; if (array_type != null && get_ccode_array_length (param) && !((ArrayType) array_type).fixed_length) { var length_ctype = get_ccode_array_length_type (param); for (int dim = 1; dim <= array_type.rank; dim++) { data.add_field (length_ctype, get_variable_array_length_cname (param, dim)); } } else if (deleg_type != null && deleg_type.delegate_symbol.has_target) { data.add_field (get_ccode_name (delegate_target_type), get_ccode_delegate_target_name (param)); if (param.variable_type.is_disposable ()) { data.add_field (get_ccode_name (delegate_target_destroy_type), get_ccode_delegate_target_destroy_notify_name (param)); // reference transfer for delegates var lvalue = get_parameter_cvalue (param); ((GLibValue) value).delegate_target_destroy_notify_cvalue = get_delegate_target_destroy_notify_cvalue (lvalue); } } param.captured = true; store_parameter (param, value, true); } public override void visit_block (Block b) { emit_context.push_symbol (b); var local_vars = b.get_local_variables (); if (b.parent_node is Block || b.parent_node is SwitchStatement || b.parent_node is TryStatement) { ccode.open_block (); } if (b.parent_node is TryStatement && b == ((TryStatement) b.parent_node).finally_body) { // finally-block with nested error handling if (((TryStatement) b.parent_node).body.tree_can_fail) { if (is_in_coroutine ()) { // _inner_error0_ gets added to closure_struct in CCodeMethodModule.visit_method() if (current_inner_error_id > 0 && (!method_inner_error_var_count.contains (current_method) || method_inner_error_var_count.get (current_method) < current_inner_error_id)) { // no initialization necessary, closure struct is zeroed closure_struct.add_field ("GError*", "_inner_error%d_".printf (current_inner_error_id)); method_inner_error_var_count.set (current_method, current_inner_error_id); } } else { ccode.add_declaration ("GError*", new CCodeVariableDeclarator.zero ("_inner_error%d_".printf (current_inner_error_id), new CCodeConstant ("NULL"))); } } } if (b.captured) { var parent_block = next_closure_block (b.parent_symbol); int block_id = get_block_id (b); string struct_name = "Block%dData".printf (block_id); var data = new CCodeStruct ("_" + struct_name); data.add_field ("int", "_ref_count_"); if (parent_block != null) { int parent_block_id = get_block_id (parent_block); data.add_field ("Block%dData *".printf (parent_block_id), "_data%d_".printf (parent_block_id)); } else { unowned DataType? this_type = get_this_type (); if (this_type != null) { data.add_field (get_ccode_name (this_type), "self"); } if (current_method != null) { // allow capturing generic type parameters foreach (var type_param in current_method.get_type_parameters ()) { data.add_field ("GType", get_ccode_type_id (type_param)); data.add_field ("GBoxedCopyFunc", get_ccode_copy_function (type_param)); data.add_field ("GDestroyNotify", get_ccode_destroy_function (type_param)); } } } foreach (var local in local_vars) { if (local.captured) { generate_type_declaration (local.variable_type, cfile); data.add_field (get_ccode_name (local.variable_type), get_local_cname (local), 0, get_ccode_declarator_suffix (local.variable_type)); if (local.variable_type is ArrayType && !((ArrayType) local.variable_type).fixed_length) { var array_type = (ArrayType) local.variable_type; var length_ctype = get_ccode_array_length_type (array_type); for (int dim = 1; dim <= array_type.rank; dim++) { data.add_field (length_ctype, get_array_length_cname (get_local_cname (local), dim)); } data.add_field (length_ctype, get_array_size_cname (get_local_cname (local))); } else if (local.variable_type is DelegateType && ((DelegateType) local.variable_type).delegate_symbol.has_target) { data.add_field (get_ccode_name (delegate_target_type), get_delegate_target_cname (get_local_cname (local))); if (local.variable_type.is_disposable ()) { data.add_field (get_ccode_name (delegate_target_destroy_type), get_delegate_target_destroy_notify_cname (get_local_cname (local))); } } else if (local.variable_type.type_symbol == context.analyzer.va_list_type.type_symbol) { Report.error (local.source_reference, "internal: Capturing `va_list' variable `%s' is not allowed", local.get_full_name ()); b.error = true; } } } var data_alloc = new CCodeFunctionCall (new CCodeIdentifier ("g_slice_new0")); data_alloc.add_argument (new CCodeIdentifier (struct_name)); if (is_in_coroutine ()) { closure_struct.add_field (struct_name + "*", "_data%d_".printf (block_id)); } else { ccode.add_declaration (struct_name + "*", new CCodeVariableDeclarator ("_data%d_".printf (block_id))); } ccode.add_assignment (get_variable_cexpression ("_data%d_".printf (block_id)), data_alloc); // initialize ref_count ccode.add_assignment (new CCodeMemberAccess.pointer (get_variable_cexpression ("_data%d_".printf (block_id)), "_ref_count_"), new CCodeIdentifier ("1")); if (parent_block != null) { int parent_block_id = get_block_id (parent_block); var ref_call = new CCodeFunctionCall (new CCodeIdentifier ("block%d_data_ref".printf (parent_block_id))); ref_call.add_argument (get_variable_cexpression ("_data%d_".printf (parent_block_id))); ccode.add_assignment (new CCodeMemberAccess.pointer (get_variable_cexpression ("_data%d_".printf (block_id)), "_data%d_".printf (parent_block_id)), ref_call); } else { // skip self assignment in toplevel block of creation methods with chainup as self is not set at the beginning of the method // the chainup statement takes care of assigning self in the closure struct bool in_creation_method_with_chainup = (current_method is CreationMethod && current_class != null && current_class.base_class != null); unowned DataType? this_type = get_this_type (); if (this_type != null && (!in_creation_method_with_chainup || current_method.body != b)) { CCodeExpression instance; if (is_in_destructor ()) { // never increase reference count for self in finalizers to avoid infinite recursion on following unref instance = new CCodeIdentifier ("self"); } else { var ref_call = new CCodeFunctionCall (get_dup_func_expression (this_type, b.source_reference)); ref_call.add_argument (get_this_cexpression ()); instance = ref_call; } ccode.add_assignment (new CCodeMemberAccess.pointer (get_variable_cexpression ("_data%d_".printf (block_id)), "self"), instance); } if (current_method != null) { // allow capturing generic type parameters var data_var = get_variable_cexpression ("_data%d_".printf (block_id)); foreach (var type_param in current_method.get_type_parameters ()) { var type = get_ccode_type_id (type_param); var dup_func = get_ccode_copy_function (type_param); var destroy_func = get_ccode_destroy_function (type_param); ccode.add_assignment (new CCodeMemberAccess.pointer (data_var, type), get_variable_cexpression (type)); ccode.add_assignment (new CCodeMemberAccess.pointer (data_var, dup_func), get_variable_cexpression (dup_func)); ccode.add_assignment (new CCodeMemberAccess.pointer (data_var, destroy_func), get_variable_cexpression (destroy_func)); } } } if (b.parent_symbol is Method) { var m = (Method) b.parent_symbol; // parameters are captured with the top-level block of the method foreach (var param in m.get_parameters ()) { if (param.captured) { capture_parameter (param, data, block_id); if (param.variable_type.type_symbol == context.analyzer.va_list_type.type_symbol) { Report.error (param.source_reference, "internal: Capturing `va_list' parameter `%s' is not allowed", param.get_full_name ()); b.error = true; } } } if (m.coroutine) { // capture async data to allow invoking callback from inside closure data.add_field (get_ccode_name (pointer_type), "_async_data_"); // async method is suspended while waiting for callback, // so we never need to care about memory management of async data ccode.add_assignment (new CCodeMemberAccess.pointer (get_variable_cexpression ("_data%d_".printf (block_id)), "_async_data_"), new CCodeIdentifier ("_data_")); } } else if (b.parent_symbol is PropertyAccessor) { var acc = (PropertyAccessor) b.parent_symbol; if (!acc.readable && acc.value_parameter.captured) { capture_parameter (acc.value_parameter, data, block_id); } } else if (b.parent_symbol is ForeachStatement) { var stmt = (ForeachStatement) b.parent_symbol; if (!stmt.use_iterator && stmt.element_variable.captured) { ccode.add_assignment (new CCodeMemberAccess.pointer (get_variable_cexpression ("_data%d_".printf (block_id)), get_local_cname (stmt.element_variable)), get_variable_cexpression (get_local_cname (stmt.element_variable))); } } var typedef = new CCodeTypeDefinition ("struct _" + struct_name, new CCodeVariableDeclarator (struct_name)); cfile.add_type_declaration (typedef); cfile.add_type_definition (data); // create ref/unref functions var ref_fun = new CCodeFunction ("block%d_data_ref".printf (block_id), struct_name + "*"); ref_fun.add_parameter (new CCodeParameter ("_data%d_".printf (block_id), struct_name + "*")); ref_fun.modifiers = CCodeModifiers.STATIC; push_function (ref_fun); var ccall = new CCodeFunctionCall (new CCodeIdentifier ("g_atomic_int_inc")); ccall.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, new CCodeMemberAccess.pointer (new CCodeIdentifier ("_data%d_".printf (block_id)), "_ref_count_"))); ccode.add_expression (ccall); ccode.add_return (new CCodeIdentifier ("_data%d_".printf (block_id))); pop_function (); cfile.add_function_declaration (ref_fun); cfile.add_function (ref_fun); var unref_fun = new CCodeFunction ("block%d_data_unref".printf (block_id), "void"); unref_fun.add_parameter (new CCodeParameter ("_userdata_", "void *")); unref_fun.modifiers = CCodeModifiers.STATIC; push_function (unref_fun); ccode.add_declaration (struct_name + "*", new CCodeVariableDeclarator ("_data%d_".printf (block_id), new CCodeCastExpression (new CCodeIdentifier ("_userdata_"), struct_name + "*"))); ccall = new CCodeFunctionCall (new CCodeIdentifier ("g_atomic_int_dec_and_test")); ccall.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, new CCodeMemberAccess.pointer (new CCodeIdentifier ("_data%d_".printf (block_id)), "_ref_count_"))); ccode.open_if (ccall); CCodeExpression outer_block = new CCodeIdentifier ("_data%d_".printf (block_id)); unowned Block parent_closure_block = b; while (true) { parent_closure_block = next_closure_block (parent_closure_block.parent_symbol); if (parent_closure_block == null) { break; } int parent_block_id = get_block_id (parent_closure_block); outer_block = new CCodeMemberAccess.pointer (outer_block, "_data%d_".printf (parent_block_id)); } var this_type = get_this_type (); if (this_type != null) { // assign "self" for type parameters ccode.add_declaration(get_ccode_name (this_type), new CCodeVariableDeclarator ("self")); ccode.add_assignment (new CCodeIdentifier ("self"), new CCodeMemberAccess.pointer (outer_block, "self")); } if (current_method != null) { // assign captured generic type parameters foreach (var type_param in current_method.get_type_parameters ()) { var type = get_ccode_type_id (type_param); var dup_func = get_ccode_copy_function (type_param); var destroy_func = get_ccode_destroy_function (type_param); ccode.add_declaration ("GType", new CCodeVariableDeclarator (type)); ccode.add_declaration ("GBoxedCopyFunc", new CCodeVariableDeclarator (dup_func)); ccode.add_declaration ("GDestroyNotify", new CCodeVariableDeclarator (destroy_func)); ccode.add_assignment (new CCodeIdentifier (type), new CCodeMemberAccess.pointer (outer_block, type)); ccode.add_assignment (new CCodeIdentifier (dup_func), new CCodeMemberAccess.pointer (outer_block, dup_func)); ccode.add_assignment (new CCodeIdentifier (destroy_func), new CCodeMemberAccess.pointer (outer_block, destroy_func)); } } // free in reverse order for (int i = local_vars.size - 1; i >= 0; i--) { var local = local_vars[i]; if (local.captured) { if (requires_destroy (local.variable_type)) { bool old_coroutine = false; if (current_method != null) { old_coroutine = current_method.coroutine; current_method.coroutine = false; } ccode.add_expression (destroy_local (local)); if (old_coroutine) { current_method.coroutine = true; } } } } if (b.parent_symbol is Method) { var m = (Method) b.parent_symbol; // parameters are captured with the top-level block of the method foreach (var param in m.get_parameters ()) { if (param.captured) { var param_type = param.variable_type.copy (); if (!param_type.value_owned) { param_type.value_owned = !no_implicit_copy (param_type); } if (requires_destroy (param_type)) { bool old_coroutine = false; if (m != null) { old_coroutine = m.coroutine; m.coroutine = false; } ccode.add_expression (destroy_parameter (param)); if (old_coroutine) { m.coroutine = true; } } } } } else if (b.parent_symbol is PropertyAccessor) { var acc = (PropertyAccessor) b.parent_symbol; if (!acc.readable && acc.value_parameter.captured) { var param_type = acc.value_parameter.variable_type.copy (); if (!param_type.value_owned) { param_type.value_owned = !no_implicit_copy (param_type); } if (requires_destroy (param_type)) { ccode.add_expression (destroy_parameter (acc.value_parameter)); } } } // free parent block and "self" after captured variables // because they may require type parameters if (parent_block != null) { int parent_block_id = get_block_id (parent_block); var unref_call = new CCodeFunctionCall (new CCodeIdentifier ("block%d_data_unref".printf (parent_block_id))); unref_call.add_argument (new CCodeMemberAccess.pointer (new CCodeIdentifier ("_data%d_".printf (block_id)), "_data%d_".printf (parent_block_id))); ccode.add_expression (unref_call); ccode.add_assignment (new CCodeMemberAccess.pointer (new CCodeIdentifier ("_data%d_".printf (block_id)), "_data%d_".printf (parent_block_id)), new CCodeConstant ("NULL")); } else { this_type = get_this_type (); if (this_type != null) { this_type = this_type.copy (); this_type.value_owned = true; if (this_type.is_disposable () && !is_in_destructor ()) { // reference count for self is not increased in finalizers var this_value = new GLibValue (this_type, new CCodeIdentifier ("self"), true); ccode.add_expression (destroy_value (this_value)); } } } var data_free = new CCodeFunctionCall (new CCodeIdentifier ("g_slice_free")); data_free.add_argument (new CCodeIdentifier (struct_name)); data_free.add_argument (new CCodeIdentifier ("_data%d_".printf (block_id))); ccode.add_expression (data_free); ccode.close (); pop_function (); cfile.add_function_declaration (unref_fun); cfile.add_function (unref_fun); } foreach (Statement stmt in b.get_statements ()) { push_line (stmt.source_reference); stmt.emit (this); pop_line (); } if (!b.unreachable_exit) { if (b.parent_symbol is Method) { unowned Method m = (Method) b.parent_symbol; // check postconditions foreach (var postcondition in m.get_postconditions ()) { create_postcondition_statement (postcondition); } } // free in reverse order for (int i = local_vars.size - 1; i >= 0; i--) { var local = local_vars[i]; local.active = false; if (!local.unreachable && !local.captured && requires_destroy (local.variable_type)) { ccode.add_expression (destroy_local (local)); } } if (b.parent_symbol is Method) { var m = (Method) b.parent_symbol; foreach (Parameter param in m.get_parameters ()) { if (!param.captured && !param.ellipsis && !param.params_array && requires_destroy (param.variable_type) && param.direction == ParameterDirection.IN) { ccode.add_expression (destroy_parameter (param)); } else if (param.direction == ParameterDirection.OUT && !m.coroutine) { return_out_parameter (param); } } } else if (b.parent_symbol is PropertyAccessor) { var acc = (PropertyAccessor) b.parent_symbol; if (acc.value_parameter != null && !acc.value_parameter.captured && requires_destroy (acc.value_parameter.variable_type)) { ccode.add_expression (destroy_parameter (acc.value_parameter)); } } if (b.captured) { int block_id = get_block_id (b); var data_unref = new CCodeFunctionCall (new CCodeIdentifier ("block%d_data_unref".printf (block_id))); data_unref.add_argument (get_variable_cexpression ("_data%d_".printf (block_id))); ccode.add_expression (data_unref); ccode.add_assignment (get_variable_cexpression ("_data%d_".printf (block_id)), new CCodeConstant ("NULL")); } } if (b.parent_node is Block || b.parent_node is SwitchStatement || b.parent_node is TryStatement) { ccode.close (); } emit_context.pop_symbol (); } public override void visit_declaration_statement (DeclarationStatement stmt) { stmt.declaration.accept (this); } public CCodeExpression get_cexpression (string name) { if (is_in_coroutine ()) { return new CCodeMemberAccess.pointer (new CCodeIdentifier ("_data_"), name); } else { return new CCodeIdentifier (name); } } public CCodeExpression get_local_cexpression (LocalVariable local) { return get_cexpression (get_local_cname (local)); } public CCodeExpression get_parameter_cexpression (Parameter param) { return get_cexpression (get_ccode_name (param)); } public CCodeExpression get_variable_cexpression (string name) { return get_cexpression (get_variable_cname (name)); } public CCodeExpression get_this_cexpression () { return get_cexpression ("self"); } public CCodeExpression get_this_class_cexpression (Class cl, TargetValue? instance = null) { CCodeExpression cast; CCodeFunctionCall call; if (instance != null) { // Accessing the member of an instance if (cl.external_package) { call = new CCodeFunctionCall (new CCodeIdentifier ("G_TYPE_INSTANCE_GET_CLASS")); call.add_argument (get_cvalue_ (instance)); call.add_argument (new CCodeIdentifier (get_ccode_type_id (cl))); call.add_argument (new CCodeIdentifier (get_ccode_type_name (cl))); } else { call = new CCodeFunctionCall (new CCodeIdentifier (get_ccode_type_get_function (cl))); call.add_argument (get_cvalue_ (instance)); } cast = call; } else if (get_this_type () != null) { // Accessing the member from within an instance method if (cl.external_package) { call = new CCodeFunctionCall (new CCodeIdentifier ("G_TYPE_INSTANCE_GET_CLASS")); call.add_argument (get_this_cexpression ()); call.add_argument (new CCodeIdentifier (get_ccode_type_id (cl))); call.add_argument (new CCodeIdentifier (get_ccode_type_name (cl))); } else { call = new CCodeFunctionCall (new CCodeIdentifier (get_ccode_type_get_function (cl))); call.add_argument (get_this_cexpression ()); } cast = call; } else { // Accessing the member from a static or class constructor if (current_class == cl) { cast = new CCodeIdentifier ("klass"); } else { call = new CCodeFunctionCall (new CCodeIdentifier (get_ccode_class_type_function (cl))); call.add_argument (new CCodeIdentifier ("klass")); cast = call; } } return cast; } public CCodeExpression get_this_interface_cexpression (Interface iface, TargetValue? instance = null) { unowned Class? cl = current_class; if (cl != null && cl.implements (iface)) { return new CCodeIdentifier ("%s_%s_parent_iface".printf (get_ccode_lower_case_name (cl), get_ccode_lower_case_name (iface))); } CCodeExpression cast; CCodeFunctionCall call; if (instance != null) { if (iface.external_package) { call = new CCodeFunctionCall (new CCodeIdentifier ("G_TYPE_INSTANCE_GET_INTERFACE")); call.add_argument (get_cvalue_ (instance)); call.add_argument (new CCodeIdentifier (get_ccode_type_id (iface))); call.add_argument (new CCodeIdentifier (get_ccode_type_name (iface))); } else { call = new CCodeFunctionCall (new CCodeIdentifier (get_ccode_type_get_function (iface))); call.add_argument (get_cvalue_ (instance)); } cast = call; } else if (get_this_type () != null) { if (iface.external_package) { call = new CCodeFunctionCall (new CCodeIdentifier ("G_TYPE_INSTANCE_GET_INTERFACE")); call.add_argument (get_this_cexpression ()); call.add_argument (new CCodeIdentifier (get_ccode_type_id (iface))); call.add_argument (new CCodeIdentifier (get_ccode_type_name (iface))); } else { call = new CCodeFunctionCall (new CCodeIdentifier (get_ccode_type_get_function (iface))); call.add_argument (get_this_cexpression ()); } cast = call; } else { Report.error (null, "internal: missing instance"); cast = null; assert_not_reached (); } return cast; } public CCodeExpression get_inner_error_cexpression () { return get_cexpression ("_inner_error%d_".printf (current_inner_error_id)); } public string get_local_cname (LocalVariable local) { var cname = get_variable_cname (local.name); if (cname[0].isdigit ()) { cname = "_%s_".printf (cname); } if (is_in_coroutine ()) { var clash_index = emit_context.closure_variable_clash_map.get (local); if (clash_index > 0) { cname = "_vala%d_%s".printf (clash_index, cname); } } return cname; } public string get_variable_cname (string name) { if (name[0] == '.') { if (name == ".result") { return "result"; } // compiler-internal variable if (!variable_name_map.contains (name)) { variable_name_map.set (name, "_tmp%d_".printf (next_temp_var_id)); next_temp_var_id++; } return variable_name_map.get (name); } else if (reserved_identifiers.contains (name) || reserved_vala_identifiers.contains (name)) { return "_%s_".printf (name); } else { return name; } } public bool is_simple_struct_creation (Variable variable, Expression expr) { unowned Struct? st = variable.variable_type.type_symbol as Struct; var creation = expr as ObjectCreationExpression; if (creation != null && st != null && (!st.is_simple_type () || get_ccode_name (st) == "va_list") && !variable.variable_type.nullable && variable.variable_type.type_symbol != gvalue_type && creation.get_object_initializer ().size == 0) { return true; } else { return false; } } static bool is_foreach_element_variable (LocalVariable local) { var block = local.parent_symbol; if (block != null) { var stmt = block.parent_symbol as ForeachStatement; if (stmt != null && !stmt.use_iterator && stmt.element_variable == local) { return true; } } return false; } public override void visit_local_variable (LocalVariable local) { /* Declaration */ generate_type_declaration (local.variable_type, cfile); // captured element variables of foreach statements (without iterator) require local declaration var declared = !local.captured || is_foreach_element_variable (local); if (declared) { if (is_in_coroutine ()) { var count = emit_context.closure_variable_count_map.get (local.name); if (count > 0) { emit_context.closure_variable_clash_map.set (local, count); } emit_context.closure_variable_count_map.set (local.name, count + 1); closure_struct.add_field (get_ccode_name (local.variable_type), get_local_cname (local), 0, get_ccode_declarator_suffix (local.variable_type)); } else { var cvar = new CCodeVariableDeclarator (get_local_cname (local), null, get_ccode_declarator_suffix (local.variable_type)); // try to initialize uninitialized variables // initialization not necessary for variables stored in closure CCodeExpression? size = null; if (!requires_memset_init (local, out size)) { cvar.initializer = default_value_for_type (local.variable_type, true); cvar.init0 = true; } else if (size != null && local.initializer == null) { cfile.add_include ("string.h"); var memset_call = new CCodeFunctionCall (new CCodeIdentifier ("memset")); memset_call.add_argument (get_variable_cexpression (local.name)); memset_call.add_argument (new CCodeConstant ("0")); memset_call.add_argument (size); ccode.add_expression (memset_call); } ccode.add_declaration (get_ccode_name (local.variable_type), cvar); } } /* Emit initializer */ if (local.initializer != null) { local.initializer.emit (this); visit_end_full_expression (local.initializer); } CCodeExpression rhs = null; if (local.initializer != null && get_cvalue (local.initializer) != null) { rhs = get_cvalue (local.initializer); } /* Additional temp variables */ if (declared) { if (local.variable_type is ArrayType) { // create variables to store array dimensions var array_type = (ArrayType) local.variable_type; if (!array_type.fixed_length) { for (int dim = 1; dim <= array_type.rank; dim++) { var len_var = new LocalVariable (array_type.length_type.copy (), get_array_length_cname (get_local_cname (local), dim)); len_var.init = local.initializer == null; emit_temp_var (len_var); } if (array_type.rank == 1) { var size_var = new LocalVariable (array_type.length_type.copy (), get_array_size_cname (get_local_cname (local))); size_var.init = local.initializer == null; emit_temp_var (size_var); } } } else if (local.variable_type is DelegateType) { var deleg_type = (DelegateType) local.variable_type; if (deleg_type.delegate_symbol.has_target) { // create variable to store delegate target var target_var = new LocalVariable (delegate_target_type.copy (), get_delegate_target_cname (get_local_cname (local))); target_var.init = local.initializer == null; emit_temp_var (target_var); if (deleg_type.is_disposable ()) { var target_destroy_notify_var = new LocalVariable (delegate_target_destroy_type.copy (), get_delegate_target_destroy_notify_cname (get_local_cname (local))); target_destroy_notify_var.init = local.initializer == null; emit_temp_var (target_destroy_notify_var); } } } } /* Store the initializer */ if (rhs != null) { if (!is_simple_struct_creation (local, local.initializer)) { store_local (local, local.initializer.target_value, true, local.source_reference); } } if (local.initializer != null && local.initializer.tree_can_fail) { add_simple_check (local.initializer); } local.active = true; } /** * Create a temporary variable and return lvalue access to it */ public TargetValue create_temp_value (DataType type, bool init, CodeNode node_reference, bool? value_owned = null) { if (type is VoidType) { Report.error (node_reference.source_reference, "internal: 'void' not supported as variable type"); } var local = new LocalVariable (type.copy (), "_tmp%d_".printf (next_temp_var_id++), null, node_reference.source_reference); local.init = init; if (value_owned != null) { local.variable_type.value_owned = value_owned; } var array_type = local.variable_type as ArrayType; var deleg_type = local.variable_type as DelegateType; emit_temp_var (local); if (array_type != null) { for (int dim = 1; dim <= array_type.rank; dim++) { var len_var = new LocalVariable (array_type.length_type.copy (), get_array_length_cname (local.name, dim), null, node_reference.source_reference); len_var.init = init; emit_temp_var (len_var); } } else if (deleg_type != null && deleg_type.delegate_symbol.has_target) { var target_var = new LocalVariable (delegate_target_type.copy (), get_delegate_target_cname (local.name), null, node_reference.source_reference); target_var.init = init; emit_temp_var (target_var); if (deleg_type.is_disposable ()) { var target_destroy_notify_var = new LocalVariable (delegate_target_destroy_type.copy (), get_delegate_target_destroy_notify_cname (local.name), null, node_reference.source_reference); target_destroy_notify_var.init = init; emit_temp_var (target_destroy_notify_var); } } var value = get_local_cvalue (local); set_array_size_cvalue (value, null); return value; } /** * Load a temporary variable returning unowned or owned rvalue access to it, depending on the ownership of the value type. */ public TargetValue load_temp_value (TargetValue lvalue) { var value = ((GLibValue) lvalue).copy (); var deleg_type = value.value_type as DelegateType; if (deleg_type != null) { if (!deleg_type.delegate_symbol.has_target) { value.delegate_target_cvalue = new CCodeConstant ("NULL"); ((GLibValue) value).lvalue = false; } else if (!deleg_type.is_disposable ()) { value.delegate_target_destroy_notify_cvalue = new CCodeConstant ("NULL"); ((GLibValue) value).lvalue = false; } } return value; } /** * Store a value in a temporary variable and return unowned or owned rvalue access to it, depending on the ownership of the given type. */ public TargetValue store_temp_value (TargetValue initializer, CodeNode node_reference, bool? value_owned = null) { var lvalue = create_temp_value (initializer.value_type, false, node_reference, value_owned); store_value (lvalue, initializer, node_reference.source_reference); return load_temp_value (lvalue); } bool is_static_field_initializer (CodeNode node) { if (node is InitializerList) { return is_static_field_initializer (node.parent_node); } return node is Constant || (node is Field && ((Field) node).binding == MemberBinding.STATIC); } public override void visit_initializer_list (InitializerList list) { if (list.target_type.type_symbol is Struct) { /* initializer is used as struct initializer */ unowned Struct st = (Struct) list.target_type.type_symbol; while (st.base_struct != null) { st = st.base_struct; } if (list.parent_node is Constant || list.parent_node is Field || list.parent_node is InitializerList) { var clist = new CCodeInitializerList (); var field_it = st.get_fields ().iterator (); foreach (Expression expr in list.get_initializers ()) { Field field = null; while (field == null) { field_it.next (); field = field_it.get (); if (field.binding != MemberBinding.INSTANCE) { // we only initialize instance fields field = null; } } var cexpr = get_cvalue (expr); string ctype = get_ccode_type (field); if (ctype != null) { cexpr = new CCodeCastExpression (cexpr, ctype); } clist.append (cexpr); var array_type = field.variable_type as ArrayType; if (array_type != null && !array_type.fixed_length && get_ccode_array_length (field) && !get_ccode_array_null_terminated (field)) { for (int dim = 1; dim <= array_type.rank; dim++) { clist.append (get_array_length_cvalue (expr.target_value, dim)); } if (array_type.rank == 1 && field.is_internal_symbol ()) { clist.append (get_array_length_cvalue (expr.target_value, 1)); } } } if (list.size <= 0) { clist.append (new CCodeConstant ("0")); } if (is_static_field_initializer (list.parent_node) || (list.parent_node is Expression && ((Expression) list.parent_node).value_type is ArrayType)) { set_cvalue (list, clist); } else { set_cvalue (list, new CCodeCastExpression (clist, get_ccode_name (list.target_type.type_symbol))); } } else { // used as expression var instance = create_temp_value (list.value_type, true, list); var field_it = st.get_fields ().iterator (); foreach (Expression expr in list.get_initializers ()) { Field field = null; while (field == null) { field_it.next (); field = field_it.get (); if (field.binding != MemberBinding.INSTANCE) { // we only initialize instance fields field = null; } } store_field (field, instance, expr.target_value, false, expr.source_reference); } list.target_value = instance; } } else { var clist = new CCodeInitializerList (); foreach (Expression expr in list.get_initializers ()) { clist.append (get_cvalue (expr)); } set_cvalue (list, clist); } } public LocalVariable get_temp_variable (DataType type, bool value_owned = true, CodeNode? node_reference = null, bool init = false) { var var_type = type.copy (); var_type.value_owned = value_owned; var local = new LocalVariable (var_type, "_tmp%d_".printf (next_temp_var_id)); local.init = init; if (node_reference != null) { local.source_reference = node_reference.source_reference; } next_temp_var_id++; return local; } bool is_in_generic_type (GenericType type) { if (current_symbol != null && type.type_parameter.parent_symbol is TypeSymbol && (current_method == null || current_method.binding == MemberBinding.INSTANCE)) { return true; } else { return false; } } void require_generic_accessors (Interface iface) { if (iface.get_attribute ("GenericAccessors") == null) { Report.error (iface.source_reference, "missing generic type for interface `%s', add GenericAccessors attribute to interface declaration", iface.get_full_name ()); } } CCodeExpression get_generic_type_expression (string identifier, GenericType type, bool is_chainup = false) { if (type.type_parameter.parent_symbol is Interface) { unowned Interface iface = (Interface) type.type_parameter.parent_symbol; require_generic_accessors (iface); var cast_self = new CCodeFunctionCall (new CCodeIdentifier (get_ccode_type_get_function (iface))); cast_self.add_argument (get_this_cexpression ()); var function_call = new CCodeFunctionCall (new CCodeMemberAccess.pointer (cast_self, "get_%s".printf (identifier))); function_call.add_argument (get_this_cexpression ()); return function_call; } if (is_in_generic_type (type) && !is_chainup && !in_creation_method) { return new CCodeMemberAccess.pointer (new CCodeMemberAccess.pointer (get_this_cexpression (), "priv"), identifier); } else { return get_variable_cexpression (identifier); } } public CCodeExpression get_type_id_expression (DataType type, bool is_chainup = false) { if (type is GenericType) { var type_parameter = ((GenericType) type).type_parameter; unowned Symbol? parent = type_parameter.owner.owner; if (parent is Class && ((Class) parent).is_compact) { Report.error (type.source_reference, "static type-parameter `%s' can not be used in runtime context", type.type_symbol.get_full_name ()); return new CCodeInvalidExpression(); } string identifier = get_ccode_type_id (type_parameter); return get_generic_type_expression (identifier, (GenericType) type, is_chainup); } else { string type_id = get_ccode_type_id (type); if (type_id == "") { type_id = "G_TYPE_INVALID"; } else { generate_type_declaration (type, cfile); } return new CCodeIdentifier (type_id); } } public virtual CCodeExpression? get_dup_func_expression (DataType type, SourceReference? source_reference, bool is_chainup = false) { if (type is ErrorType) { return new CCodeIdentifier ("g_error_copy"); } else if (type is GenericType) { var type_parameter = ((GenericType) type).type_parameter; string identifier = get_ccode_copy_function (type_parameter); return get_generic_type_expression (identifier, (GenericType) type, is_chainup); } else if (type.type_symbol != null) { string dup_function; unowned Class? cl = type.type_symbol as Class; if (is_reference_counting (type.type_symbol)) { dup_function = get_ccode_ref_function ((ObjectTypeSymbol) type.type_symbol); if (type.type_symbol is Interface && dup_function == null) { Report.error (source_reference, "missing class prerequisite for interface `%s', add GLib.Object to interface declaration if unsure", type.type_symbol.get_full_name ()); return new CCodeInvalidExpression(); } } else if (cl != null && cl.is_immutable) { // allow duplicates of immutable instances as for example strings dup_function = get_ccode_dup_function (type.type_symbol); if (dup_function == null) { dup_function = ""; } } else if (get_ccode_is_gboxed (type.type_symbol)) { // allow duplicates of gboxed instances dup_function = generate_dup_func_wrapper (type); if (dup_function == null) { dup_function = ""; } } else if (type is ValueType) { dup_function = get_ccode_dup_function (type.type_symbol); if (dup_function == null && type.nullable) { dup_function = generate_struct_dup_wrapper ((ValueType) type); } else if (dup_function == null) { dup_function = ""; } } else { // duplicating non-reference counted objects may cause side-effects (and performance issues) Report.error (source_reference, "duplicating `%s' instance, use unowned variable or explicitly invoke copy method", type.type_symbol.name); return new CCodeInvalidExpression(); } return new CCodeIdentifier (dup_function); } else if (type is PointerType) { var pointer_type = (PointerType) type; return get_dup_func_expression (pointer_type.base_type, source_reference); } else { return new CCodeConstant ("NULL"); } } void make_comparable_cexpression (ref DataType left_type, ref CCodeExpression cleft, ref DataType right_type, ref CCodeExpression cright) { unowned Struct? left_type_as_struct = left_type.type_symbol as Struct; unowned Struct? right_type_as_struct = right_type.type_symbol as Struct; unowned ObjectTypeSymbol? left_type_as_object_type = left_type.type_symbol as ObjectTypeSymbol; unowned ObjectTypeSymbol? right_type_as_object_type = right_type.type_symbol as ObjectTypeSymbol; if (left_type_as_object_type != null && (!(left_type_as_object_type is Class) || !((Class) left_type_as_object_type).is_compact) && right_type_as_object_type != null && (!(right_type_as_object_type is Class) || !((Class) right_type_as_object_type).is_compact)) { if (left_type_as_object_type != right_type_as_object_type) { if (left_type_as_object_type.is_subtype_of (right_type_as_object_type)) { cleft = generate_instance_cast (cleft, right_type_as_object_type); } else if (right_type_as_object_type.is_subtype_of (left_type_as_object_type)) { cright = generate_instance_cast (cright, left_type_as_object_type); } } } else if (left_type_as_struct != null && right_type_as_struct != null) { if (left_type is StructValueType) { // real structs (uses compare/equal function) if (!left_type.nullable) { cleft = new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, cleft); } if (!right_type.nullable) { cright = new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, cright); } } else { // integer or floating or boolean type if (left_type.nullable && right_type.nullable) { // FIXME also compare contents, not just address } else if (left_type.nullable) { // FIXME check left value is not null cleft = new CCodeUnaryExpression (CCodeUnaryOperator.POINTER_INDIRECTION, cleft); } else if (right_type.nullable) { // FIXME check right value is not null cright = new CCodeUnaryExpression (CCodeUnaryOperator.POINTER_INDIRECTION, cright); } } } } private string generate_struct_equal_function (Struct st) { if (st.base_struct != null) { return generate_struct_equal_function (st.base_struct); } string equal_func = "_%sequal".printf (get_ccode_lower_case_prefix (st)); if (!add_wrapper (equal_func)) { // wrapper already defined return equal_func; } var function = new CCodeFunction (equal_func, get_ccode_name (bool_type)); function.modifiers = CCodeModifiers.STATIC; function.add_parameter (new CCodeParameter ("s1", "const %s *".printf (get_ccode_name (st)))); function.add_parameter (new CCodeParameter ("s2", "const %s *".printf (get_ccode_name (st)))); push_function (function); // if (s1 == s2) return TRUE; { var cexp = new CCodeBinaryExpression (CCodeBinaryOperator.EQUALITY, new CCodeIdentifier ("s1"), new CCodeIdentifier ("s2")); ccode.open_if (cexp); ccode.add_return (get_boolean_cconstant (true)); ccode.close (); } // if (s1 == NULL || s2 == NULL) return FALSE; { var cexp = new CCodeBinaryExpression (CCodeBinaryOperator.EQUALITY, new CCodeIdentifier ("s1"), new CCodeConstant ("NULL")); ccode.open_if (cexp); ccode.add_return (get_boolean_cconstant (false)); ccode.close (); cexp = new CCodeBinaryExpression (CCodeBinaryOperator.EQUALITY, new CCodeIdentifier ("s2"), new CCodeConstant ("NULL")); ccode.open_if (cexp); ccode.add_return (get_boolean_cconstant (false)); ccode.close (); } bool has_instance_fields = false; foreach (Field f in st.get_fields ()) { if (f.binding != MemberBinding.INSTANCE) { // we only compare instance fields continue; } has_instance_fields = true; CCodeExpression cexp; // if (cexp) return FALSE; var s1 = (CCodeExpression) new CCodeMemberAccess.pointer (new CCodeIdentifier ("s1"), get_ccode_name (f)); // s1->f var s2 = (CCodeExpression) new CCodeMemberAccess.pointer (new CCodeIdentifier ("s2"), get_ccode_name (f)); // s2->f var variable_type = f.variable_type.copy (); make_comparable_cexpression (ref variable_type, ref s1, ref variable_type, ref s2); if (!(f.variable_type is NullType) && f.variable_type.compatible (string_type)) { CCodeFunctionCall ccall; if (context.profile == Profile.POSIX) { cfile.add_include ("string.h"); ccall = new CCodeFunctionCall (new CCodeIdentifier (generate_cmp_wrapper (new CCodeIdentifier ("strcmp")))); } else { ccall = new CCodeFunctionCall (new CCodeIdentifier ("g_strcmp0")); } ccall.add_argument (s1); ccall.add_argument (s2); cexp = ccall; } else if (f.variable_type is StructValueType) { var equalfunc = generate_struct_equal_function (f.variable_type.type_symbol as Struct); var ccall = new CCodeFunctionCall (new CCodeIdentifier (equalfunc)); ccall.add_argument (s1); ccall.add_argument (s2); cexp = new CCodeUnaryExpression (CCodeUnaryOperator.LOGICAL_NEGATION, ccall); } else { cexp = new CCodeBinaryExpression (CCodeBinaryOperator.INEQUALITY, s1, s2); } ccode.open_if (cexp); ccode.add_return (get_boolean_cconstant (false)); ccode.close (); } if (!has_instance_fields) { // either opaque structure or simple type if (st.is_simple_type ()) { var cexp = new CCodeBinaryExpression (CCodeBinaryOperator.EQUALITY, new CCodeUnaryExpression (CCodeUnaryOperator.POINTER_INDIRECTION, new CCodeIdentifier ("s1")), new CCodeUnaryExpression (CCodeUnaryOperator.POINTER_INDIRECTION, new CCodeIdentifier ("s2"))); ccode.add_return (cexp); } else { ccode.add_return (get_boolean_cconstant (false)); } } else { ccode.add_return (get_boolean_cconstant (true)); } pop_function (); cfile.add_function_declaration (function); cfile.add_function (function); return equal_func; } private string generate_numeric_equal_function (TypeSymbol sym) { string equal_func = "_%sequal".printf (get_ccode_lower_case_prefix (sym)); if (!add_wrapper (equal_func)) { // wrapper already defined return equal_func; } var function = new CCodeFunction (equal_func, get_ccode_name (bool_type)); function.modifiers = CCodeModifiers.STATIC; function.add_parameter (new CCodeParameter ("s1", "const %s *".printf (get_ccode_name (sym)))); function.add_parameter (new CCodeParameter ("s2", "const %s *".printf (get_ccode_name (sym)))); push_function (function); // if (s1 == s2) return TRUE; { var cexp = new CCodeBinaryExpression (CCodeBinaryOperator.EQUALITY, new CCodeIdentifier ("s1"), new CCodeIdentifier ("s2")); ccode.open_if (cexp); ccode.add_return (get_boolean_cconstant (true)); ccode.close (); } // if (s1 == NULL || s2 == NULL) return FALSE; { var cexp = new CCodeBinaryExpression (CCodeBinaryOperator.EQUALITY, new CCodeIdentifier ("s1"), new CCodeConstant ("NULL")); ccode.open_if (cexp); ccode.add_return (get_boolean_cconstant (false)); ccode.close (); cexp = new CCodeBinaryExpression (CCodeBinaryOperator.EQUALITY, new CCodeIdentifier ("s2"), new CCodeConstant ("NULL")); ccode.open_if (cexp); ccode.add_return (get_boolean_cconstant (false)); ccode.close (); } // return (*s1 == *s2); { var cexp = new CCodeBinaryExpression (CCodeBinaryOperator.EQUALITY, new CCodeUnaryExpression (CCodeUnaryOperator.POINTER_INDIRECTION, new CCodeIdentifier ("s1")), new CCodeUnaryExpression (CCodeUnaryOperator.POINTER_INDIRECTION, new CCodeIdentifier ("s2"))); ccode.add_return (cexp); } pop_function (); cfile.add_function_declaration (function); cfile.add_function (function); return equal_func; } private string generate_struct_dup_wrapper (ValueType value_type) { string dup_func = "_%sdup".printf (get_ccode_lower_case_prefix (value_type.type_symbol)); if (!add_wrapper (dup_func)) { // wrapper already defined return dup_func; } var function = new CCodeFunction (dup_func, get_ccode_name (value_type)); function.modifiers = CCodeModifiers.STATIC; function.add_parameter (new CCodeParameter ("self", get_ccode_name (value_type))); push_function (function); if (value_type.type_symbol == gvalue_type) { var dup_call = new CCodeFunctionCall (new CCodeIdentifier ("g_boxed_copy")); dup_call.add_argument (new CCodeIdentifier ("G_TYPE_VALUE")); dup_call.add_argument (new CCodeIdentifier ("self")); ccode.add_return (dup_call); } else { ccode.add_declaration (get_ccode_name (value_type), new CCodeVariableDeclarator ("dup")); CCodeFunctionCall creation_call; if (context.profile == Profile.POSIX) { cfile.add_include ("stdlib.h"); creation_call = new CCodeFunctionCall (new CCodeIdentifier ("calloc")); creation_call.add_argument (new CCodeConstant ("1")); var csizeof = new CCodeFunctionCall (new CCodeIdentifier ("sizeof")); csizeof.add_argument (new CCodeIdentifier (get_ccode_name (value_type.type_symbol))); creation_call.add_argument (csizeof); } else { cfile.add_include ("glib.h"); creation_call = new CCodeFunctionCall (new CCodeIdentifier ("g_new0")); creation_call.add_argument (new CCodeIdentifier (get_ccode_name (value_type.type_symbol))); creation_call.add_argument (new CCodeConstant ("1")); } ccode.add_assignment (new CCodeIdentifier ("dup"), creation_call); var st = value_type.type_symbol as Struct; if (st != null && st.is_disposable ()) { if (!get_ccode_has_copy_function (st)) { generate_struct_copy_function (st); } var copy_call = new CCodeFunctionCall (new CCodeIdentifier (get_ccode_copy_function (st))); copy_call.add_argument (new CCodeIdentifier ("self")); copy_call.add_argument (new CCodeIdentifier ("dup")); ccode.add_expression (copy_call); } else { cfile.add_include ("string.h"); var sizeof_call = new CCodeFunctionCall (new CCodeIdentifier ("sizeof")); sizeof_call.add_argument (new CCodeConstant (get_ccode_name (value_type.type_symbol))); var copy_call = new CCodeFunctionCall (new CCodeIdentifier ("memcpy")); copy_call.add_argument (new CCodeIdentifier ("dup")); copy_call.add_argument (new CCodeIdentifier ("self")); copy_call.add_argument (sizeof_call); ccode.add_expression (copy_call); } ccode.add_return (new CCodeIdentifier ("dup")); } pop_function (); cfile.add_function_declaration (function); cfile.add_function (function); return dup_func; } protected string generate_dup_func_wrapper (DataType type) { string destroy_func = "_vala_%s_copy".printf (get_ccode_name (type.type_symbol)); if (!add_wrapper (destroy_func)) { // wrapper already defined return destroy_func; } var function = new CCodeFunction (destroy_func, get_ccode_name (type)); function.modifiers = CCodeModifiers.STATIC; function.add_parameter (new CCodeParameter ("self", get_ccode_name (type))); push_function (function); var free_call = new CCodeFunctionCall (new CCodeIdentifier ("g_boxed_copy")); free_call.add_argument (new CCodeIdentifier (get_ccode_type_id (type.type_symbol))); free_call.add_argument (new CCodeIdentifier ("self")); ccode.add_return (free_call); pop_function (); cfile.add_function_declaration (function); cfile.add_function (function); return destroy_func; } protected string generate_free_function_address_of_wrapper (DataType type) { string destroy_func = "_vala_%s_free_function_address_of".printf (get_ccode_name (type.type_symbol)); if (!add_wrapper (destroy_func)) { // wrapper already defined return destroy_func; } var function = new CCodeFunction (destroy_func, "void"); function.modifiers = CCodeModifiers.STATIC; function.add_parameter (new CCodeParameter ("self", get_ccode_name (type))); push_function (function); unowned Class? cl = type.type_symbol as Class; assert (cl != null); var free_call = new CCodeFunctionCall (new CCodeIdentifier (get_ccode_free_function (cl))); free_call.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, new CCodeIdentifier ("self"))); ccode.add_expression (free_call); pop_function (); cfile.add_function_declaration (function); cfile.add_function (function); return destroy_func; } protected string generate_destroy_function_content_of_wrapper (DataType type) { // g_array_set_clear_func has a specific GDestroyNotify where the content of an element is given string destroy_func = "_vala_%s_free_function_content_of".printf (get_ccode_name (type.type_symbol)); if (!add_wrapper (destroy_func)) { // wrapper already defined return destroy_func; } var function = new CCodeFunction (destroy_func, "void"); function.modifiers = CCodeModifiers.STATIC; function.add_parameter (new CCodeParameter ("data", get_ccode_name (pointer_type))); push_function (function); ccode.add_declaration (get_ccode_name (type), new CCodeVariableDeclarator ("self")); var cast = new CCodeUnaryExpression (CCodeUnaryOperator.POINTER_INDIRECTION, new CCodeCastExpression (new CCodeIdentifier ("data"), get_ccode_name (type) + "*")); ccode.add_assignment (new CCodeIdentifier ("self"), cast); var free_call = new CCodeFunctionCall (get_destroy0_func_expression (type)); free_call.add_argument (new CCodeIdentifier ("self")); ccode.add_expression (free_call); pop_function (); cfile.add_function_declaration (function); cfile.add_function (function); return destroy_func; } protected string generate_free_func_wrapper (DataType type) { string destroy_func = "_vala_%s_free".printf (get_ccode_name (type.type_symbol)); if (!add_wrapper (destroy_func)) { // wrapper already defined return destroy_func; } var function = new CCodeFunction (destroy_func, "void"); function.modifiers = CCodeModifiers.STATIC; function.add_parameter (new CCodeParameter ("self", get_ccode_name (type))); push_function (function); if (get_ccode_is_gboxed (type.type_symbol) || (gvalue_type != null && type.type_symbol == gvalue_type)) { var free_call = new CCodeFunctionCall (new CCodeIdentifier ("g_boxed_free")); free_call.add_argument (new CCodeIdentifier (get_ccode_type_id (type.type_symbol))); free_call.add_argument (new CCodeIdentifier ("self")); ccode.add_expression (free_call); } else { unowned Struct? st = type.type_symbol as Struct; if (st != null && st.is_disposable ()) { if (!get_ccode_has_destroy_function (st)) { generate_struct_destroy_function (st); } var destroy_call = new CCodeFunctionCall (new CCodeIdentifier (get_ccode_destroy_function (st))); destroy_call.add_argument (new CCodeIdentifier ("self")); ccode.add_expression (destroy_call); } CCodeFunctionCall free_call; if (context.profile == Profile.POSIX) { cfile.add_include ("stdlib.h"); free_call = new CCodeFunctionCall (new CCodeIdentifier ("free")); } else { cfile.add_include ("glib.h"); free_call = new CCodeFunctionCall (new CCodeIdentifier ("g_free")); } free_call.add_argument (new CCodeIdentifier ("self")); ccode.add_expression (free_call); } pop_function (); cfile.add_function_declaration (function); cfile.add_function (function); return destroy_func; } public CCodeExpression? get_destroy0_func_expression (DataType type, bool is_chainup = false) { var element_destroy_func_expression = get_destroy_func_expression (type, is_chainup); if (!(type is GenericType) && element_destroy_func_expression is CCodeIdentifier) { var freeid = (CCodeIdentifier) element_destroy_func_expression; string free0_func = "_%s0_".printf (freeid.name); if (add_wrapper (free0_func)) { var function = new CCodeFunction (free0_func, "void"); function.modifiers = CCodeModifiers.STATIC; function.add_parameter (new CCodeParameter ("var", get_ccode_name (pointer_type))); push_function (function); ccode.add_expression (destroy_value (new GLibValue (type, new CCodeIdentifier ("var"), true), true)); pop_function (); cfile.add_function_declaration (function); cfile.add_function (function); } element_destroy_func_expression = new CCodeIdentifier (free0_func); } return element_destroy_func_expression; } public CCodeExpression? get_destroy_func_expression (DataType type, bool is_chainup = false) { if (context.profile == Profile.GOBJECT && (type.type_symbol == glist_type || type.type_symbol == gslist_type || type.type_symbol == gnode_type || type.type_symbol == gqueue_type)) { // create wrapper function to free list elements if necessary bool elements_require_free = false; bool generic_elements = false; CCodeExpression element_destroy_func_expression = null; foreach (DataType type_arg in type.get_type_arguments ()) { elements_require_free = requires_destroy (type_arg); if (elements_require_free) { element_destroy_func_expression = get_destroy0_func_expression (type_arg); generic_elements = (type_arg is GenericType); } } if (elements_require_free) { CCodeExpression? cexpr = null; if (element_destroy_func_expression is CCodeIdentifier || element_destroy_func_expression is CCodeMemberAccess) { cexpr = new CCodeIdentifier (generate_collection_free_wrapper (type, (generic_elements ? null : element_destroy_func_expression as CCodeIdentifier))); if (generic_elements) { // adding second argument early, instance parameter will be inserted by destroy_value() cexpr = new CCodeFunctionCall (cexpr); ((CCodeFunctionCall) cexpr).add_argument (element_destroy_func_expression); } } else { Report.error (null, "internal error: No useable element_destroy_function found"); } return cexpr; } else { return new CCodeIdentifier (get_ccode_free_function (type.type_symbol)); } } else if (type is ErrorType) { cfile.add_include ("glib.h"); return new CCodeIdentifier ("g_error_free"); } else if (type is GenericType) { var type_parameter = ((GenericType) type).type_parameter; string identifier = get_ccode_destroy_function (type_parameter); return get_generic_type_expression (identifier, (GenericType) type, is_chainup); } else if (type.type_symbol != null) { string unref_function; if (type is ReferenceType) { if (is_reference_counting (type.type_symbol)) { unref_function = get_ccode_unref_function ((ObjectTypeSymbol) type.type_symbol); if (type.type_symbol is Interface && unref_function == null) { Report.error (type.source_reference, "missing class prerequisite for interface `%s', add GLib.Object to interface declaration if unsure", type.type_symbol.get_full_name ()); return new CCodeInvalidExpression (); } } else { if (get_ccode_is_gboxed (type.type_symbol)) { unref_function = generate_free_func_wrapper (type); } else { if (is_free_function_address_of (type)) { unref_function = generate_free_function_address_of_wrapper (type); } else { unref_function = get_ccode_free_function (type.type_symbol); } } } } else { if (type.nullable) { if (get_ccode_is_gboxed (type.type_symbol)) { unref_function = generate_free_func_wrapper (type); } else { unref_function = get_ccode_free_function (type.type_symbol); } if (unref_function == null) { if (type.type_symbol is Struct && ((Struct) type.type_symbol).is_disposable ()) { unref_function = generate_free_func_wrapper (type); } else { if (context.profile == Profile.POSIX) { cfile.add_include ("stdlib.h"); unref_function = "free"; } else { cfile.add_include ("glib.h"); unref_function = "g_free"; } } } } else if (type is EnumValueType) { unref_function = null; } else { unowned Struct? st = type.type_symbol as Struct; if (st != null && st.is_disposable ()) { if (!get_ccode_has_destroy_function (st)) { generate_struct_destroy_function (st); } unref_function = get_ccode_destroy_function (st); } else { unref_function = null; } } } if (unref_function == null) { return new CCodeConstant ("NULL"); } return new CCodeIdentifier (unref_function); } else if (type is ArrayType) { if (context.profile == Profile.POSIX) { cfile.add_include ("stdlib.h"); return new CCodeIdentifier ("free"); } else { cfile.add_include ("glib.h"); return new CCodeIdentifier ("g_free"); } } else if (type is PointerType) { if (context.profile == Profile.POSIX) { cfile.add_include ("stdlib.h"); return new CCodeIdentifier ("free"); } else { cfile.add_include ("glib.h"); return new CCodeIdentifier ("g_free"); } } else { return new CCodeConstant ("NULL"); } } private string generate_collection_free_wrapper (DataType collection_type, CCodeIdentifier? element_destroy_func_expression) { string destroy_func; string? destroy_func_wrapper = null; if (element_destroy_func_expression != null) { destroy_func_wrapper = "_%s_%s".printf (get_ccode_free_function (collection_type.type_symbol), element_destroy_func_expression.name); if (!add_wrapper (destroy_func_wrapper)) { // wrapper already defined return destroy_func_wrapper; } } if (collection_type.type_symbol == gnode_type) { destroy_func = "_g_node_free_all"; if (!add_wrapper (destroy_func)) { // wrapper already defined return destroy_func; } var function = new CCodeFunction (destroy_func, "void"); function.add_parameter (new CCodeParameter ("self", get_ccode_name (collection_type))); function.add_parameter (new CCodeParameter ("free_func", "GDestroyNotify")); push_function (function); CCodeFunctionCall element_free_call; string destroy_node_func = "%s_node".printf (destroy_func); var wrapper = new CCodeFunction (destroy_node_func, get_ccode_name (bool_type)); wrapper.modifiers = CCodeModifiers.STATIC; wrapper.add_parameter (new CCodeParameter ("node", get_ccode_name (collection_type))); wrapper.add_parameter (new CCodeParameter ("free_func", "GDestroyNotify")); push_function (wrapper); var free_call = new CCodeFunctionCall (new CCodeIdentifier ("free_func")); free_call.add_argument (new CCodeMemberAccess.pointer (new CCodeIdentifier("node"), "data")); var data_isnull = new CCodeBinaryExpression (CCodeBinaryOperator.EQUALITY, new CCodeMemberAccess.pointer (new CCodeIdentifier("node"), "data"), new CCodeConstant ("NULL")); var ccomma_data = new CCodeCommaExpression (); ccomma_data.append_expression (new CCodeConditionalExpression (data_isnull, new CCodeConstant ("NULL"), free_call)); ccode.add_expression (ccomma_data); ccode.add_return (new CCodeConstant ("FALSE")); pop_function (); cfile.add_function_declaration (wrapper); cfile.add_function (wrapper); /* Now the code to call g_traverse with the above */ element_free_call = new CCodeFunctionCall (new CCodeIdentifier ("g_node_traverse")); element_free_call.add_argument (new CCodeIdentifier("self")); element_free_call.add_argument (new CCodeConstant ("G_POST_ORDER")); element_free_call.add_argument (new CCodeConstant ("G_TRAVERSE_ALL")); element_free_call.add_argument (new CCodeConstant ("-1")); element_free_call.add_argument (new CCodeCastExpression (new CCodeIdentifier (destroy_node_func), "GNodeTraverseFunc")); element_free_call.add_argument (new CCodeIdentifier ("free_func")); var free_func_isnull = new CCodeBinaryExpression (CCodeBinaryOperator.EQUALITY, new CCodeIdentifier ("free_func"), new CCodeConstant ("NULL")); var ccomma = new CCodeCommaExpression (); ccomma.append_expression (new CCodeConditionalExpression (free_func_isnull, new CCodeConstant ("NULL"), element_free_call)); ccode.add_expression (ccomma); var cfreecall = new CCodeFunctionCall (new CCodeIdentifier (get_ccode_free_function (gnode_type))); cfreecall.add_argument (new CCodeIdentifier ("self")); ccode.add_expression (cfreecall); function.modifiers = CCodeModifiers.STATIC; pop_function (); cfile.add_function_declaration (function); cfile.add_function (function); } else if (collection_type.type_symbol == glist_type) { destroy_func = "g_list_free_full"; } else if (collection_type.type_symbol == gslist_type) { destroy_func = "g_slist_free_full"; } else if (collection_type.type_symbol == gqueue_type) { destroy_func = "g_queue_free_full"; } else { Report.error (null, "internal error: type of collection not supported"); return ""; } if (element_destroy_func_expression != null) { var function = new CCodeFunction (destroy_func_wrapper, "void"); function.add_parameter (new CCodeParameter ("self", get_ccode_name (collection_type))); push_function (function); var collection_free_call = new CCodeFunctionCall (new CCodeIdentifier (destroy_func)); collection_free_call.add_argument (new CCodeIdentifier ("self")); collection_free_call.add_argument (new CCodeCastExpression (element_destroy_func_expression, "GDestroyNotify")); ccode.add_expression (collection_free_call); function.modifiers = CCodeModifiers.STATIC | CCodeModifiers.INLINE; pop_function (); cfile.add_function_declaration (function); cfile.add_function (function); return destroy_func_wrapper; } return destroy_func; } public virtual string? append_struct_array_destroy (Struct st) { return null; } public virtual string? append_struct_array_free (Struct st) { return null; } public CCodeExpression destroy_local (LocalVariable local) { return destroy_value (get_local_cvalue (local)); } public CCodeExpression destroy_parameter (Parameter param) { return destroy_value (get_parameter_cvalue (param)); } public CCodeExpression destroy_field (Field field, TargetValue? instance) { return destroy_value (get_field_cvalue (field, instance)); } public virtual CCodeExpression destroy_value (TargetValue value, bool is_macro_definition = false) { var type = value.value_type; if (value.actual_value_type != null) { type = value.actual_value_type; } var cvar = get_cvalue_ (value); if (type is DelegateType) { if (context.profile != Profile.GOBJECT) { // Required for NULL cfile.add_include ("stddef.h"); } var delegate_target = get_delegate_target_cvalue (value); var delegate_target_destroy_notify = get_delegate_target_destroy_notify_cvalue (value); var ccall = new CCodeFunctionCall (delegate_target_destroy_notify); ccall.add_argument (delegate_target); var destroy_call = new CCodeCommaExpression (); destroy_call.append_expression (ccall); destroy_call.append_expression (new CCodeConstant ("NULL")); var cisnull = new CCodeBinaryExpression (CCodeBinaryOperator.EQUALITY, delegate_target_destroy_notify, new CCodeConstant ("NULL")); var ccomma = new CCodeCommaExpression (); ccomma.append_expression (new CCodeConditionalExpression (cisnull, new CCodeConstant ("NULL"), destroy_call)); ccomma.append_expression (new CCodeAssignment (cvar, new CCodeConstant ("NULL"))); ccomma.append_expression (new CCodeAssignment (delegate_target, new CCodeConstant ("NULL"))); ccomma.append_expression (new CCodeAssignment (delegate_target_destroy_notify, new CCodeConstant ("NULL"))); return ccomma; } bool is_gcollection = (type.type_symbol == glist_type || type.type_symbol == gslist_type || type.type_symbol == gnode_type || type.type_symbol == gqueue_type); CCodeFunctionCall ccall; var cexpr = get_destroy_func_expression (type); if (is_gcollection && cexpr is CCodeFunctionCall) { ccall = (CCodeFunctionCall) cexpr; } else { ccall = new CCodeFunctionCall (cexpr); } if (type is ValueType && !type.nullable) { // normal value type, no null check unowned Struct? st = type.type_symbol as Struct; if (st != null && st.is_simple_type ()) { // used for va_list ccall.add_argument (cvar); } else { ccall.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, cvar)); } if (gvalue_type != null && type.type_symbol == gvalue_type) { // g_value_unset must not be called for already unset values var cisvalid = new CCodeFunctionCall (new CCodeIdentifier ("G_IS_VALUE")); cisvalid.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, cvar)); var ccomma = new CCodeCommaExpression (); ccomma.append_expression (ccall); ccomma.append_expression (new CCodeConstant ("NULL")); return new CCodeConditionalExpression (cisvalid, ccomma, new CCodeConstant ("NULL")); } else if ((type.type_symbol == gmutex_type || type.type_symbol == grecmutex_type || type.type_symbol == grwlock_type || type.type_symbol == gcond_type)) { // g_mutex_clear must not be called for uninitialized mutex // also, g_mutex_clear does not clear the struct requires_clear_mutex = true; ccall.call = new CCodeIdentifier ("_vala_clear_" + get_ccode_name (type.type_symbol)); return ccall; } else { return ccall; } } if (!is_gcollection && ccall.call is CCodeIdentifier && !(type is ArrayType) && !(type is GenericType) && !is_macro_definition) { // generate and use NULL-aware free macro to simplify code var freeid = (CCodeIdentifier) ccall.call; string free0_func = "_%s0".printf (freeid.name); if (add_wrapper (free0_func)) { var macro = destroy_value (new GLibValue (type, new CCodeIdentifier ("var"), true), true); cfile.add_type_declaration (new CCodeMacroReplacement.with_expression ("%s(var)".printf (free0_func), macro)); } // FIXME this breaks in our macro, so this should not happen while (cvar is CCodeCastExpression) { cvar = ((CCodeCastExpression) cvar).inner; } if (cvar is CCodeFunctionCall) { cvar = ((CCodeFunctionCall) cvar).get_arguments ()[0]; } ccall = new CCodeFunctionCall (new CCodeIdentifier (free0_func)); ccall.add_argument (cvar); return ccall; } if (context.profile != Profile.GOBJECT) { // Required for NULL cfile.add_include ("stddef.h"); } /* (foo == NULL ? NULL : foo = (unref (foo), NULL)) */ /* can be simplified to * foo = (unref (foo), NULL) * if foo is of static type non-null */ var cisnull = new CCodeBinaryExpression (CCodeBinaryOperator.EQUALITY, cvar, new CCodeConstant ("NULL")); if (type is GenericType) { var parent = ((GenericType) type).type_parameter.parent_symbol; var cl = parent as Class; if ((!(parent is Method) && !(parent is ObjectTypeSymbol)) || (cl != null && cl.is_compact)) { return new CCodeConstant ("NULL"); } // unref functions are optional for type parameters var cunrefisnull = new CCodeBinaryExpression (CCodeBinaryOperator.EQUALITY, get_destroy_func_expression (type), new CCodeConstant ("NULL")); cisnull = new CCodeBinaryExpression (CCodeBinaryOperator.OR, cisnull, cunrefisnull); } // glib collections already have the free_func argument, so make sure the instance parameter gets first ccall.insert_argument (0, cvar); /* set freed references to NULL to prevent further use */ var ccomma = new CCodeCommaExpression (); if (context.profile == Profile.GOBJECT && type.type_symbol != null && !is_reference_counting (type.type_symbol) && type.type_symbol.is_subtype_of (gstringbuilder_type)) { ccall.add_argument (new CCodeConstant ("TRUE")); } else if (context.profile == Profile.GOBJECT && type.type_symbol == gthreadpool_type) { ccall.add_argument (new CCodeConstant ("FALSE")); ccall.add_argument (new CCodeConstant ("TRUE")); } else if (type is ArrayType) { var array_type = (ArrayType) type; if (requires_destroy (array_type.element_type)) { CCodeExpression csizeexpr = null; if (((GLibValue) value).array_length_cvalues != null) { csizeexpr = get_array_length_cvalue (value); } else if (get_array_null_terminated (value)) { requires_array_length = true; var len_call = new CCodeFunctionCall (new CCodeIdentifier ("_vala_array_length")); len_call.add_argument (cvar); csizeexpr = len_call; } else { csizeexpr = get_array_length_cexpr (value); } if (csizeexpr != null) { unowned Struct? st = array_type.element_type.type_symbol as Struct; if (st != null && !array_type.element_type.nullable) { ccall.call = new CCodeIdentifier (append_struct_array_free (st)); ccall.add_argument (csizeexpr); } else { requires_array_free = true; generate_type_declaration (delegate_target_destroy_type, cfile); ccall.call = new CCodeIdentifier ("_vala_array_free"); ccall.add_argument (csizeexpr); ccall.add_argument (new CCodeCastExpression (get_destroy_func_expression (array_type.element_type), get_ccode_name (delegate_target_destroy_type))); } } } } ccomma.append_expression (ccall); ccomma.append_expression (new CCodeConstant ("NULL")); var cassign = new CCodeAssignment (cvar, ccomma); // g_free (NULL) is allowed bool uses_gfree = (type.type_symbol != null && !is_reference_counting (type.type_symbol) && get_ccode_free_function (type.type_symbol) == "g_free"); uses_gfree = uses_gfree || type is ArrayType; if (uses_gfree) { return cassign; } return new CCodeConditionalExpression (cisnull, new CCodeConstant ("NULL"), cassign); } public override void visit_end_full_expression (Expression expr) { /* expr is a full expression, i.e. an initializer, the * expression in an expression statement, the controlling * expression in if, while, for, or foreach statements * * we unref temporary variables at the end of a full * expression */ if (temp_ref_values.size == 0) { /* nothing to do without temporary variables */ return; } var local_decl = expr.parent_node as LocalVariable; if (!(local_decl != null && is_simple_struct_creation (local_decl, local_decl.initializer))) { expr.target_value = store_temp_value (expr.target_value, expr); } foreach (var value in temp_ref_values) { ccode.add_expression (destroy_value (value)); } temp_ref_values.clear (); } public void emit_temp_var (LocalVariable local, bool on_error = false) { generate_type_declaration (local.variable_type, cfile); var init = (!local.name.has_prefix ("*") && local.init); if (is_in_coroutine ()) { closure_struct.add_field (get_ccode_name (local.variable_type), local.name, 0, get_ccode_declarator_suffix (local.variable_type)); // even though closure struct is zerod, we need to initialize temporary variables // as they might be used multiple times when declared in a loop if (init) { var initializer = default_value_for_type (local.variable_type, false, on_error); if (initializer == null) { cfile.add_include ("string.h"); var memset_call = new CCodeFunctionCall (new CCodeIdentifier ("memset")); memset_call.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, get_variable_cexpression (local.name))); memset_call.add_argument (new CCodeConstant ("0")); CCodeExpression? size = null; requires_memset_init (local, out size); if (size == null) { size = new CCodeIdentifier ("sizeof (%s)".printf (get_ccode_name (local.variable_type))); } memset_call.add_argument (size); ccode.add_expression (memset_call); } else { ccode.add_assignment (get_variable_cexpression (local.name), initializer); } } } else { var cvar = new CCodeVariableDeclarator (local.name, null, get_ccode_declarator_suffix (local.variable_type)); CCodeExpression? size = null; if (init && !requires_memset_init (local, out size)) { cvar.initializer = default_value_for_type (local.variable_type, true, on_error); cvar.init0 = true; } else if (init && size != null && local.initializer == null) { cfile.add_include ("string.h"); var memset_call = new CCodeFunctionCall (new CCodeIdentifier ("memset")); memset_call.add_argument (get_variable_cexpression (local.name)); memset_call.add_argument (new CCodeConstant ("0")); memset_call.add_argument (size); ccode.add_expression (memset_call); } ccode.add_declaration (get_ccode_name (local.variable_type), cvar); } } public override void visit_expression_statement (ExpressionStatement stmt) { if (stmt.expression.error) { stmt.error = true; return; } /* free temporary objects and handle errors */ foreach (var value in temp_ref_values) { ccode.add_expression (destroy_value (value)); } if (stmt.tree_can_fail && stmt.expression.tree_can_fail) { // simple case, no node breakdown necessary add_simple_check (stmt.expression); } temp_ref_values.clear (); } protected virtual void append_scope_free (Symbol sym, CodeNode? stop_at = null) { var b = (Block) sym; var local_vars = b.get_local_variables (); // free in reverse order for (int i = local_vars.size - 1; i >= 0; i--) { var local = local_vars[i]; if (!local.unreachable && local.active && !local.captured && requires_destroy (local.variable_type)) { ccode.add_expression (destroy_local (local)); } } if (b.captured) { int block_id = get_block_id (b); var data_unref = new CCodeFunctionCall (new CCodeIdentifier ("block%d_data_unref".printf (block_id))); data_unref.add_argument (get_variable_cexpression ("_data%d_".printf (block_id))); ccode.add_expression (data_unref); ccode.add_assignment (get_variable_cexpression ("_data%d_".printf (block_id)), new CCodeConstant ("NULL")); } } public void append_local_free (Symbol sym, Statement? jump_stmt = null, CodeNode? stop_at = null) { var b = (Block) sym; append_scope_free (sym, stop_at); if (jump_stmt is BreakStatement) { if (b.parent_node is LoopStatement || b.parent_node is ForeachStatement || b.parent_node is SwitchStatement) { return; } } else if (jump_stmt is ContinueStatement) { if (b.parent_node is LoopStatement || b.parent_node is ForeachStatement) { return; } } if (stop_at != null && b.parent_node == stop_at) { return; } if (sym.parent_symbol is Block) { append_local_free (sym.parent_symbol, jump_stmt, stop_at); } else if (sym.parent_symbol is Method) { append_param_free ((Method) sym.parent_symbol); } else if (sym.parent_symbol is PropertyAccessor) { var acc = (PropertyAccessor) sym.parent_symbol; if (acc.value_parameter != null && requires_destroy (acc.value_parameter.variable_type)) { ccode.add_expression (destroy_parameter (acc.value_parameter)); } } } private void append_param_free (Method m) { foreach (Parameter param in m.get_parameters ()) { if (!param.captured && !param.ellipsis && !param.params_array && requires_destroy (param.variable_type) && param.direction == ParameterDirection.IN) { ccode.add_expression (destroy_parameter (param)); } } } public void append_out_param_free (Method? m) { if (m == null) { return; } foreach (Parameter param in m.get_parameters ()) { if (param.direction == ParameterDirection.OUT && param.variable_type.is_disposable ()) { ccode.add_expression (destroy_parameter (param)); } } } public bool variable_accessible_in_finally (LocalVariable local) { if (current_try == null) { return false; } var sym = current_symbol; while (!(sym is Method || sym is PropertyAccessor) && sym.scope.lookup (local.name) == null) { if ((sym.parent_node is TryStatement && ((TryStatement) sym.parent_node).finally_body != null) || (sym.parent_node is CatchClause && ((TryStatement) sym.parent_node.parent_node).finally_body != null)) { return true; } sym = sym.parent_symbol; } return false; } public void return_out_parameter (Parameter param) { var delegate_type = param.variable_type as DelegateType; var value = get_parameter_cvalue (param); var old_coroutine = is_in_coroutine (); current_method.coroutine = false; ccode.open_if (get_parameter_cexpression (param)); ccode.add_assignment (new CCodeUnaryExpression (CCodeUnaryOperator.POINTER_INDIRECTION, get_parameter_cexpression (param)), get_cvalue_ (value)); if (get_ccode_delegate_target (param) && delegate_type != null && delegate_type.delegate_symbol.has_target) { ccode.add_assignment (new CCodeUnaryExpression (CCodeUnaryOperator.POINTER_INDIRECTION, get_cexpression (get_ccode_delegate_target_name (param))), get_delegate_target_cvalue (value)); if (delegate_type.is_disposable ()) { ccode.add_assignment (new CCodeUnaryExpression (CCodeUnaryOperator.POINTER_INDIRECTION, get_cexpression (get_ccode_delegate_target_destroy_notify_name (param))), get_delegate_target_destroy_notify_cvalue (get_parameter_cvalue (param))); } } if (param.variable_type.is_disposable ()){ ccode.add_else (); current_method.coroutine = old_coroutine; ccode.add_expression (destroy_parameter (param)); current_method.coroutine = false; } ccode.close (); var array_type = param.variable_type as ArrayType; if (array_type != null && !array_type.fixed_length && get_ccode_array_length (param)) { for (int dim = 1; dim <= array_type.rank; dim++) { string length_cname = get_variable_array_length_cname (param, dim); ccode.open_if (get_cexpression (length_cname)); ccode.add_assignment (new CCodeUnaryExpression (CCodeUnaryOperator.POINTER_INDIRECTION, get_cexpression (length_cname)), get_array_length_cvalue (value, dim)); ccode.close (); } } current_method.coroutine = old_coroutine; } public override void visit_return_statement (ReturnStatement stmt) { Symbol return_expression_symbol = null; if (stmt.return_expression != null) { // avoid unnecessary ref/unref pair var local = stmt.return_expression.symbol_reference as LocalVariable; if (local != null && !local.active) { /* return expression is local variable taking ownership and * current method is transferring ownership */ return_expression_symbol = local; } } // return array length if appropriate if (((current_method != null && get_ccode_array_length (current_method)) || (current_property_accessor != null && get_ccode_array_length (current_property_accessor))) && current_return_type is ArrayType) { var temp_value = store_temp_value (stmt.return_expression.target_value, stmt); var array_type = (ArrayType) current_return_type; for (int dim = 1; dim <= array_type.rank; dim++) { var len_l = get_cexpression (get_array_length_cname ("result", dim)); var len_r = get_array_length_cvalue (temp_value, dim); if (!is_in_coroutine ()) { ccode.open_if (len_l); len_l = new CCodeUnaryExpression (CCodeUnaryOperator.POINTER_INDIRECTION, len_l); ccode.add_assignment (len_l, len_r); ccode.close (); } else { ccode.add_assignment (len_l, len_r); } } stmt.return_expression.target_value = temp_value; } else if (((current_method != null && get_ccode_delegate_target (current_method)) || (current_property_accessor != null && get_ccode_delegate_target (current_property_accessor))) && current_return_type is DelegateType) { var delegate_type = (DelegateType) current_return_type; if (delegate_type.delegate_symbol.has_target) { var temp_value = store_temp_value (stmt.return_expression.target_value, stmt); var target_l = get_cexpression (get_delegate_target_cname ("result")); if (!is_in_coroutine ()) { target_l = new CCodeUnaryExpression (CCodeUnaryOperator.POINTER_INDIRECTION, target_l); } var target_r = get_delegate_target_cvalue (temp_value); ccode.add_assignment (target_l, target_r); if (delegate_type.is_disposable ()) { var target_l_destroy_notify = get_cexpression (get_delegate_target_destroy_notify_cname ("result")); if (!is_in_coroutine ()) { target_l_destroy_notify = new CCodeUnaryExpression (CCodeUnaryOperator.POINTER_INDIRECTION, target_l_destroy_notify); } var target_r_destroy_notify = get_delegate_target_destroy_notify_cvalue (temp_value); ccode.add_assignment (target_l_destroy_notify, target_r_destroy_notify); } stmt.return_expression.target_value = temp_value; } } if (stmt.return_expression != null) { // assign method result to `result' CCodeExpression result_lhs = get_cexpression ("result"); if (current_return_type.is_real_non_null_struct_type () && !is_in_coroutine ()) { result_lhs = new CCodeUnaryExpression (CCodeUnaryOperator.POINTER_INDIRECTION, result_lhs); } else if (current_return_type is GenericType) { set_cvalue (stmt.return_expression, convert_to_generic_pointer (get_cvalue (stmt.return_expression), stmt.return_expression.value_type)); } ccode.add_assignment (result_lhs, get_cvalue (stmt.return_expression)); } if (current_method != null) { // check postconditions foreach (Expression postcondition in current_method.get_postconditions ()) { create_postcondition_statement (postcondition); } } // free local variables append_local_free (current_symbol); if (current_method != null && !current_method.coroutine) { // assign values to output parameters if they are not NULL // otherwise, free the value if necessary foreach (var param in current_method.get_parameters ()) { if (param.direction != ParameterDirection.OUT) { continue; } return_out_parameter (param); } } // TODO: don't duplicate the code in CCodeMethodModule, we do this right now because it needs to be before return if (current_method != null && current_method.get_attribute ("Profile") != null) { string prefix = "_vala_prof_%s".printf (get_ccode_real_name (current_method)); var level = new CCodeIdentifier (prefix + "_level"); ccode.open_if (new CCodeUnaryExpression (CCodeUnaryOperator.LOGICAL_NEGATION, new CCodeUnaryExpression (CCodeUnaryOperator.PREFIX_DECREMENT, level))); var timer = new CCodeIdentifier (prefix + "_timer"); var stop_call = new CCodeFunctionCall (new CCodeIdentifier ("g_timer_stop")); stop_call.add_argument (timer); ccode.add_expression (stop_call); ccode.close (); } if (is_in_constructor ()) { ccode.add_return (new CCodeIdentifier ("obj")); } else if (is_in_destructor ()) { // do not call return as member cleanup and chain up to base finalizer // still need to be executed ccode.add_goto ("_return"); } else if (is_in_coroutine ()) { } else if (current_method is CreationMethod) { ccode.add_return (new CCodeIdentifier ("self")); } else if (current_return_type is VoidType || current_return_type.is_real_non_null_struct_type ()) { // structs are returned via out parameter ccode.add_return (); } else { ccode.add_return (new CCodeIdentifier ("result")); } if (return_expression_symbol != null) { return_expression_symbol.active = true; } // required for destructors current_method_return = true; } public string get_symbol_lock_name (string symname) { return "__lock_%s".printf (symname.replace ("-", "_")); } private CCodeExpression get_lock_expression (Statement stmt, Expression resource) { CCodeExpression l = null; var member = resource.symbol_reference; var parent = (TypeSymbol)resource.symbol_reference.parent_symbol; if (member.is_instance_member ()) { l = get_cvalue (((MemberAccess) resource).inner); l = new CCodeMemberAccess.pointer (new CCodeMemberAccess.pointer (l, "priv"), get_symbol_lock_name (get_ccode_name (member))); } else if (member.is_class_member ()) { unowned Class cl = (Class) parent; var cast = get_this_class_cexpression (cl); var get_class_private_call = new CCodeFunctionCall (new CCodeIdentifier (get_ccode_class_get_private_function (cl))); get_class_private_call.add_argument (cast); l = new CCodeMemberAccess.pointer (get_class_private_call, get_symbol_lock_name (get_ccode_name (member))); } else { string lock_name = "%s_%s".printf (get_ccode_lower_case_name (parent), get_ccode_name (member)); l = new CCodeIdentifier (get_symbol_lock_name (lock_name)); } return l; } public override void visit_lock_statement (LockStatement stmt) { var l = get_lock_expression (stmt, stmt.resource); var fc = new CCodeFunctionCall (new CCodeIdentifier (get_ccode_name (mutex_type.scope.lookup ("lock")))); fc.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, l)); ccode.add_expression (fc); } public override void visit_unlock_statement (UnlockStatement stmt) { var l = get_lock_expression (stmt, stmt.resource); var fc = new CCodeFunctionCall (new CCodeIdentifier (get_ccode_name (mutex_type.scope.lookup ("unlock")))); fc.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, l)); ccode.add_expression (fc); } public override void visit_delete_statement (DeleteStatement stmt) { unowned DataType type = stmt.expression.value_type; unowned PointerType? pointer_type = type as PointerType; if (pointer_type != null && pointer_type.base_type.type_symbol != null && pointer_type.base_type.type_symbol.is_reference_type ()) { type = pointer_type.base_type; } ccode.add_expression (destroy_value (new GLibValue (type, get_cvalue (stmt.expression)))); } static bool is_compact_class_destructor_call (Expression expr) { unowned Class? cl = expr.value_type.type_symbol as Class; if (cl != null && cl.is_compact && expr.parent_node is MemberAccess) { unowned MethodType? mt = ((MemberAccess) expr.parent_node).value_type as MethodType; if (mt != null && mt.method_symbol != null && mt.method_symbol.get_attribute ("DestroysInstance") != null) { return true; } } return false; } public override void visit_expression (Expression expr) { if (get_cvalue (expr) != null && !expr.lvalue) { if (expr.formal_value_type is GenericType && !(expr.value_type is GenericType)) { var type_parameter = ((GenericType) expr.formal_value_type).type_parameter; var st = type_parameter.parent_symbol.parent_symbol as Struct; if (type_parameter.parent_symbol != garray_type && (st == null || get_ccode_name (st) != "va_list")) { // GArray and va_list don't use pointer-based generics set_cvalue (expr, convert_from_generic_pointer (get_cvalue (expr), expr.value_type)); ((GLibValue) expr.target_value).lvalue = false; } } // memory management, implicit casts, and boxing/unboxing if (expr.value_type != null) { // FIXME: temporary workaround until the refactoring is complete, not all target_value have a value_type expr.target_value.value_type = expr.value_type; expr.target_value = transform_value (expr.target_value, expr.target_type, expr); } if (expr.target_value == null) { return; } if (expr.formal_target_type is GenericType && !(expr.target_type is GenericType)) { if (((GenericType) expr.formal_target_type).type_parameter.parent_symbol != garray_type) { // GArray doesn't use pointer-based generics set_cvalue (expr, convert_to_generic_pointer (get_cvalue (expr), expr.target_type)); ((GLibValue) expr.target_value).lvalue = false; } } else if (expr.formal_target_type is GenericType && !(expr.value_type is GenericType)) { set_cvalue (expr, convert_to_generic_pointer (get_cvalue (expr), expr.value_type)); } // Allow null to initialize non-null struct inside initializer list if (expr is NullLiteral && expr.parent_node is InitializerList && expr.target_type != null && expr.target_type.is_real_non_null_struct_type ()) { var clist = new CCodeInitializerList (); clist.append (new CCodeConstant ("0")); set_cvalue (expr, new CCodeCastExpression (clist, get_ccode_name (expr.target_type.type_symbol))); } if (!(expr.value_type is ValueType && !expr.value_type.nullable)) { ((GLibValue) expr.target_value).non_null = expr.is_non_null (); } } else if (expr.value_type != null && is_compact_class_destructor_call (expr)) { // transfer ownership here and consume given instance var temp_value = store_temp_value (expr.target_value, expr); ccode.add_assignment (get_cvalue (expr), new CCodeConstant ("NULL")); expr.target_value = temp_value; } } public override void visit_boolean_literal (BooleanLiteral expr) { set_cvalue (expr, get_boolean_cconstant (expr.value)); } public override void visit_character_literal (CharacterLiteral expr) { if (expr.get_char () >= 0x20 && expr.get_char () < 0x80) { set_cvalue (expr, new CCodeConstant (expr.value)); } else { set_cvalue (expr, new CCodeConstant ("%uU".printf (expr.get_char ()))); } } public override void visit_integer_literal (IntegerLiteral expr) { set_cvalue (expr, new CCodeConstant (expr.value + expr.type_suffix)); } public override void visit_real_literal (RealLiteral expr) { string c_literal = expr.value; if (c_literal.has_suffix ("d") || c_literal.has_suffix ("D")) { // there is no suffix for double in C c_literal = c_literal.substring (0, c_literal.length - 1); } if (!("." in c_literal || "e" in c_literal || "E" in c_literal)) { // C requires period or exponent part for floating constants if ("f" in c_literal || "F" in c_literal) { c_literal = c_literal.substring (0, c_literal.length - 1) + ".f"; } else { c_literal += "."; } } set_cvalue (expr, new CCodeConstant (c_literal)); } public override void visit_string_literal (StringLiteral expr) { set_cvalue (expr, new CCodeConstant.string (expr.value.replace ("\n", "\\n"))); if (expr.translate) { // translated string constant var translate = new CCodeFunctionCall (new CCodeIdentifier ("_")); translate.add_argument (get_cvalue (expr)); set_cvalue (expr, translate); } } public override void visit_regex_literal (RegexLiteral expr) { string[] parts = expr.value.split ("/", 3); string re = parts[2].escape (""); string flags = "0"; if (parts[1].contains ("i")) { flags += " | G_REGEX_CASELESS"; } if (parts[1].contains ("m")) { flags += " | G_REGEX_MULTILINE"; } if (parts[1].contains ("s")) { flags += " | G_REGEX_DOTALL"; } if (parts[1].contains ("x")) { flags += " | G_REGEX_EXTENDED"; } var cdecl = new CCodeDeclaration ("GRegex*"); var cname = "_tmp_regex_%d".printf (next_regex_id); if (this.next_regex_id == 0) { var fun = new CCodeFunction ("_thread_safe_regex_init", "GRegex*"); fun.modifiers = CCodeModifiers.STATIC | CCodeModifiers.INLINE; fun.add_parameter (new CCodeParameter ("re", "GRegex**")); fun.add_parameter (new CCodeParameter ("pattern", "const gchar *")); fun.add_parameter (new CCodeParameter ("compile_flags", "GRegexCompileFlags")); push_function (fun); var once_enter_call = new CCodeFunctionCall (new CCodeIdentifier ("g_once_init_enter")); if (context.require_glib_version (2, 68)) { once_enter_call.add_argument (new CCodeConstant ("(gsize*) re")); } else { once_enter_call.add_argument (new CCodeConstant ("(volatile gsize*) re")); } ccode.open_if (once_enter_call); var regex_new_call = new CCodeFunctionCall (new CCodeIdentifier ("g_regex_new")); regex_new_call.add_argument (new CCodeConstant ("pattern")); regex_new_call.add_argument (new CCodeConstant ("compile_flags")); regex_new_call.add_argument (new CCodeConstant ("0")); regex_new_call.add_argument (new CCodeConstant ("NULL")); ccode.add_assignment (new CCodeIdentifier ("GRegex* val"), regex_new_call); var once_leave_call = new CCodeFunctionCall (new CCodeIdentifier ("g_once_init_leave")); if (context.require_glib_version (2, 68)) { once_leave_call.add_argument (new CCodeConstant ("(gsize*) re")); } else { once_leave_call.add_argument (new CCodeConstant ("(volatile gsize*) re")); } once_leave_call.add_argument (new CCodeConstant ("(gsize) val")); ccode.add_expression (once_leave_call); ccode.close (); ccode.add_return (new CCodeIdentifier ("*re")); pop_function (); cfile.add_function (fun); } this.next_regex_id++; cdecl.add_declarator (new CCodeVariableDeclarator (cname + " = NULL")); cdecl.modifiers = CCodeModifiers.STATIC; var regex_const = new CCodeConstant ("_thread_safe_regex_init (&%s, \"%s\", %s)".printf (cname, re, flags)); cfile.add_constant_declaration (cdecl); set_cvalue (expr, regex_const); } public override void visit_null_literal (NullLiteral expr) { if (context.profile == Profile.GOBJECT) { cfile.add_include ("glib.h"); } else { cfile.add_include ("stddef.h"); } set_cvalue (expr, new CCodeConstant ("NULL")); var array_type = expr.target_type as ArrayType; var delegate_type = expr.target_type as DelegateType; if (array_type != null) { for (int dim = 1; dim <= array_type.rank; dim++) { append_array_length (expr, new CCodeConstant ("0")); } } else if (delegate_type != null && delegate_type.delegate_symbol.has_target) { set_delegate_target (expr, new CCodeConstant ("NULL")); set_delegate_target_destroy_notify (expr, new CCodeConstant ("NULL")); } } public abstract TargetValue get_local_cvalue (LocalVariable local); public abstract TargetValue get_parameter_cvalue (Parameter param); public abstract TargetValue get_field_cvalue (Field field, TargetValue? instance); public abstract TargetValue load_variable (Variable variable, TargetValue value, Expression? expr = null); public abstract TargetValue load_this_parameter (TypeSymbol sym); public abstract void store_value (TargetValue lvalue, TargetValue value, SourceReference? source_reference = null); public virtual string get_delegate_target_cname (string delegate_cname) { assert_not_reached (); } public virtual CCodeExpression get_delegate_target_cexpression (Expression delegate_expr, out CCodeExpression delegate_target_destroy_notify) { assert_not_reached (); } public virtual CCodeExpression get_delegate_target_cvalue (TargetValue value) { return new CCodeInvalidExpression (); } public virtual CCodeExpression get_delegate_target_destroy_notify_cvalue (TargetValue value) { return new CCodeInvalidExpression (); } public virtual string get_delegate_target_destroy_notify_cname (string delegate_cname) { assert_not_reached (); } public override void visit_base_access (BaseAccess expr) { unowned Class? cl = expr.value_type.type_symbol as Class; if (cl != null && !cl.is_compact) { set_cvalue (expr, generate_instance_cast (get_this_cexpression (), cl)); } else { expr.target_value = load_this_parameter (expr.value_type.type_symbol); } } public override void visit_postfix_expression (PostfixExpression expr) { MemberAccess ma = find_property_access (expr.inner); if (ma != null) { // property postfix expression var prop = (Property) ma.symbol_reference; // increment/decrement property var op = expr.increment ? CCodeBinaryOperator.PLUS : CCodeBinaryOperator.MINUS; var cexpr = new CCodeBinaryExpression (op, get_cvalue (expr.inner), new CCodeConstant ("1")); store_property (prop, ma.inner, new GLibValue (expr.value_type, cexpr)); // return previous value expr.target_value = expr.inner.target_value; return; } // assign current value to temp variable var temp_value = store_temp_value (expr.inner.target_value, expr); // increment/decrement variable var op = expr.increment ? CCodeBinaryOperator.PLUS : CCodeBinaryOperator.MINUS; var cexpr = new CCodeBinaryExpression (op, get_cvalue_ (temp_value), new CCodeConstant ("1")); ccode.add_assignment (get_cvalue (expr.inner), cexpr); // return previous value expr.target_value = temp_value; } private MemberAccess? find_property_access (Expression expr) { if (!(expr is MemberAccess)) { return null; } var ma = (MemberAccess) expr; if (ma.symbol_reference is Property) { return ma; } return null; } static bool is_limited_generic_type (GenericType type) { unowned Class? cl = type.type_parameter.parent_symbol as Class; unowned Struct? st = type.type_parameter.parent_symbol as Struct; if ((cl != null && cl.is_compact) || st != null) { // compact classes and structs only // have very limited generics support return true; } return false; } public static bool requires_copy (DataType type) { if (!type.is_disposable ()) { return false; } unowned Class? cl = type.type_symbol as Class; if (cl != null && is_reference_counting (cl) && get_ccode_ref_function (cl) == "") { // empty ref_function => no ref necessary return false; } if (type is GenericType) { if (is_limited_generic_type ((GenericType) type)) { return false; } } return true; } public static bool requires_destroy (DataType type) { if (!type.is_disposable ()) { return false; } var array_type = type as ArrayType; if (array_type != null && array_type.fixed_length) { return requires_destroy (array_type.element_type); } unowned Class? cl = type.type_symbol as Class; if (cl != null && is_reference_counting (cl) && get_ccode_unref_function (cl) == "") { // empty unref_function => no unref necessary return false; } if (type is GenericType) { if (is_limited_generic_type ((GenericType) type)) { return false; } } return true; } public virtual TargetValue? copy_value (TargetValue value, CodeNode node) { var type = value.value_type; var cexpr = get_cvalue_ (value); var result = ((GLibValue) value).copy (); if (type is DelegateType) { var delegate_type = (DelegateType) type; if (get_ccode_delegate_target (node) && delegate_type.delegate_symbol.has_target && !context.deprecated) { Report.deprecated (node.source_reference, "copying delegates is not supported"); } result.delegate_target_destroy_notify_cvalue = new CCodeConstant ("NULL"); return result; } if (type is ValueType && !type.nullable) { // normal value type, no null check // use temp-var for upcoming address-of operator var temp_cvalue = create_temp_value (type, false, node); store_value (temp_cvalue, value, node.source_reference); cexpr = get_cvalue_ (temp_cvalue); var temp_value = create_temp_value (type, true, node, true); var ctemp = get_cvalue_ (temp_value); var vt = (ValueType) type; var st = (Struct) vt.type_symbol; var copy_call = new CCodeFunctionCall (new CCodeIdentifier (get_ccode_copy_function (st))); copy_call.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, cexpr)); copy_call.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, ctemp)); if (!get_ccode_has_copy_function (st)) { generate_struct_copy_function (st); } if (gvalue_type != null && type.type_symbol == gvalue_type) { var cisvalid = new CCodeFunctionCall (new CCodeIdentifier ("G_IS_VALUE")); cisvalid.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, cexpr)); ccode.open_if (cisvalid); // GValue requires g_value_init in addition to g_value_copy var value_type_call = new CCodeFunctionCall (new CCodeIdentifier ("G_VALUE_TYPE")); value_type_call.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, cexpr)); var init_call = new CCodeFunctionCall (new CCodeIdentifier ("g_value_init")); init_call.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, ctemp)); init_call.add_argument (value_type_call); ccode.add_expression (init_call); ccode.add_expression (copy_call); ccode.add_else (); // g_value_init/copy must not be called for uninitialized values store_value (temp_value, temp_cvalue, node.source_reference); ccode.close (); } else { ccode.add_expression (copy_call); } return temp_value; } /* (temp = expr, temp == NULL ? NULL : ref (temp)) * * can be simplified to * ref (expr) * if static type of expr is non-null */ var dupexpr = get_dup_func_expression (type, node.source_reference); if (dupexpr == null) { node.error = true; return null; } if (dupexpr is CCodeIdentifier && !(type is ArrayType) && !(type is GenericType) && !is_ref_function_void (type)) { // generate and call NULL-aware ref function to reduce number // of temporary variables and simplify code var dupid = (CCodeIdentifier) dupexpr; string dup0_func = "_%s0".printf (dupid.name); // g_strdup is already NULL-safe if (dupid.name == "g_strdup") { dup0_func = dupid.name; } else if (add_wrapper (dup0_func)) { var dup0_fun = new CCodeFunction (dup0_func, get_ccode_name (pointer_type)); dup0_fun.add_parameter (new CCodeParameter ("self", get_ccode_name (pointer_type))); dup0_fun.modifiers = CCodeModifiers.STATIC; push_function (dup0_fun); var dup_call = new CCodeFunctionCall (dupexpr); dup_call.add_argument (new CCodeIdentifier ("self")); ccode.add_return (new CCodeConditionalExpression (new CCodeIdentifier ("self"), dup_call, new CCodeConstant ("NULL"))); pop_function (); cfile.add_function (dup0_fun); } var ccall = new CCodeFunctionCall (new CCodeIdentifier (dup0_func)); ccall.add_argument (cexpr); result.cvalue = ccall; result.value_type.value_owned = true; return store_temp_value (result, node); } var ccall = new CCodeFunctionCall (dupexpr); if (!(type is ArrayType) && get_non_null (value) && !is_ref_function_void (type)) { // expression is non-null ccall.add_argument (cexpr); return store_temp_value (new GLibValue (type, ccall), node); } else { CCodeExpression ccallarg; if (node is SliceExpression) { ccallarg = cexpr; cexpr = get_cvalue (((SliceExpression) node).container); } else { ccallarg = cexpr; } var cnotnull = new CCodeBinaryExpression (CCodeBinaryOperator.INEQUALITY, cexpr, new CCodeConstant ("NULL")); if (type is GenericType) { // dup functions are optional for type parameters var cdupnotnull = new CCodeBinaryExpression (CCodeBinaryOperator.INEQUALITY, get_dup_func_expression (type, node.source_reference), new CCodeConstant ("NULL")); cnotnull = new CCodeBinaryExpression (CCodeBinaryOperator.AND, cnotnull, cdupnotnull); } if (type is GenericType) { // cast from gconstpointer to gpointer as GBoxedCopyFunc expects gpointer ccall.add_argument (new CCodeCastExpression (ccallarg, get_ccode_name (pointer_type))); } else { ccall.add_argument (ccallarg); } if (type is ArrayType) { var array_type = (ArrayType) type; ccall.add_argument (get_array_length_cvalue (value)); if (array_type.element_type is GenericType) { var elem_dupexpr = get_dup_func_expression (array_type.element_type, node.source_reference); if (elem_dupexpr == null) { elem_dupexpr = new CCodeConstant ("NULL"); } ccall.add_argument (elem_dupexpr); } } CCodeExpression cifnull; if (type is GenericType) { // the value might be non-null even when the dup function is null, // so we may not just use NULL for type parameters // cast from gconstpointer to gpointer as methods in // generic classes may not return gconstpointer cifnull = new CCodeCastExpression (cexpr, get_ccode_name (pointer_type)); } else if (type.type_symbol != null) { cifnull = new CCodeConstant ("NULL"); } else { cifnull = cexpr; } if (is_ref_function_void (type)) { ccode.open_if (cnotnull); ccode.add_expression (ccall); ccode.close (); } else { if (get_non_null (value)) { result.cvalue = ccall; } else { var ccond = new CCodeConditionalExpression (cnotnull, ccall, cifnull); result.cvalue = ccond; } result = (GLibValue) store_temp_value (result, node, true); } return result; } } public virtual void generate_class_declaration (Class cl, CCodeFile decl_space) { if (add_symbol_declaration (decl_space, cl, get_ccode_name (cl))) { return; } } public virtual void generate_interface_declaration (Interface iface, CCodeFile decl_space) { } public virtual bool generate_method_declaration (Method m, CCodeFile decl_space) { return false; } public virtual void generate_error_domain_declaration (ErrorDomain edomain, CCodeFile decl_space) { } public void add_generic_type_arguments (Method m, Map arg_map, List type_args, CodeNode expr, bool is_chainup = false, List? type_parameters = null) { int type_param_index = 0; foreach (var type_arg in type_args) { if (get_ccode_simple_generics (m)) { if (requires_copy (type_arg)) { arg_map.set (get_param_pos (-1 + 0.1 * type_param_index + 0.03), get_destroy0_func_expression (type_arg, is_chainup)); } else { arg_map.set (get_param_pos (-1 + 0.1 * type_param_index + 0.03), new CCodeConstant ("NULL")); } type_param_index++; continue; } if (type_parameters != null) { var type_param_name = type_parameters.get (type_param_index).name.ascii_down ().replace ("_", "-"); arg_map.set (get_param_pos (0.1 * type_param_index + 0.01), new CCodeConstant ("\"%s-type\"".printf (type_param_name))); arg_map.set (get_param_pos (0.1 * type_param_index + 0.03), new CCodeConstant ("\"%s-dup-func\"".printf (type_param_name))); arg_map.set (get_param_pos (0.1 * type_param_index + 0.05), new CCodeConstant ("\"%s-destroy-func\"".printf (type_param_name))); } arg_map.set (get_param_pos (0.1 * type_param_index + 0.02), get_type_id_expression (type_arg, is_chainup)); if (requires_copy (type_arg)) { var dup_func = get_dup_func_expression (type_arg, type_arg.source_reference ?? expr.source_reference, is_chainup); if (dup_func == null) { // type doesn't contain a copy function expr.error = true; return; } arg_map.set (get_param_pos (0.1 * type_param_index + 0.04), new CCodeCastExpression (dup_func, "GBoxedCopyFunc")); arg_map.set (get_param_pos (0.1 * type_param_index + 0.06), new CCodeCastExpression (get_destroy_func_expression (type_arg, is_chainup), "GDestroyNotify")); } else { arg_map.set (get_param_pos (0.1 * type_param_index + 0.04), new CCodeConstant ("NULL")); arg_map.set (get_param_pos (0.1 * type_param_index + 0.06), new CCodeConstant ("NULL")); } type_param_index++; } } public override void visit_object_creation_expression (ObjectCreationExpression expr) { CCodeExpression instance = null; CCodeExpression creation_expr = null; unowned Struct? st = expr.type_reference.type_symbol as Struct; if ((st != null && (!st.is_simple_type () || get_ccode_name (st) == "va_list")) || expr.get_object_initializer ().size > 0) { // value-type initialization or object creation expression with object initializer var local = expr.parent_node as LocalVariable; var field = expr.parent_node as Field; var a = expr.parent_node as Assignment; if (local != null && is_simple_struct_creation (local, local.initializer)) { instance = get_cvalue_ (get_local_cvalue (local)); } else if (field != null && is_simple_struct_creation (field, field.initializer)) { // field initialization var thisparam = load_this_parameter ((TypeSymbol) field.parent_symbol); instance = get_cvalue_ (get_field_cvalue (field, thisparam)); } else if (a != null && a.left.symbol_reference is Variable && is_simple_struct_creation ((Variable) a.left.symbol_reference, a.right)) { if (requires_destroy (a.left.value_type)) { /* unref old value */ ccode.add_expression (destroy_value (a.left.target_value)); } local = a.left.symbol_reference as LocalVariable; field = a.left.symbol_reference as Field; var param = a.left.symbol_reference as Parameter; if (local != null) { instance = get_cvalue_ (get_local_cvalue (local)); } else if (field != null) { var inner = ((MemberAccess) a.left).inner; instance = get_cvalue_ (get_field_cvalue (field, inner != null ? inner.target_value : null)); } else if (param != null) { instance = get_cvalue_ (get_parameter_cvalue (param)); } } else if (expr.is_chainup) { instance = get_this_cexpression (); } else { var temp_value = create_temp_value (expr.type_reference, true, expr); instance = get_cvalue_ (temp_value); } } if (expr.symbol_reference == null) { // no creation method if (expr.type_reference.type_symbol is Struct) { // memset needs string.h cfile.add_include ("string.h"); var creation_call = new CCodeFunctionCall (new CCodeIdentifier ("memset")); creation_call.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, instance)); creation_call.add_argument (new CCodeConstant ("0")); creation_call.add_argument (new CCodeIdentifier ("sizeof (%s)".printf (get_ccode_name (expr.type_reference)))); creation_expr = creation_call; } } else if (expr.type_reference.type_symbol == glist_type || expr.type_reference.type_symbol == gslist_type) { // NULL is an empty list set_cvalue (expr, new CCodeConstant ("NULL")); } else if (expr.symbol_reference is Method) { // use creation method var m = (Method) expr.symbol_reference; var params = m.get_parameters (); CCodeFunctionCall creation_call; CCodeFunctionCall async_call = null; CCodeFunctionCall finish_call = null; generate_method_declaration (m, cfile); if (m is CreationMethod && !m.external && m.external_package) { unowned CreationMethod cm = (CreationMethod) m; if (!cm.chain_up) { Report.error (cm.source_reference, "internal: Creation method implementation in binding must be chained up"); } // internal VAPI creation methods // only add them once per source file if (add_generated_external_symbol (cm)) { visit_creation_method (cm); } } unowned Class? cl = expr.type_reference.type_symbol as Class; if (!get_ccode_has_new_function (m)) { // use construct function directly creation_call = new CCodeFunctionCall (new CCodeIdentifier (get_ccode_real_name (m))); creation_call.add_argument (new CCodeIdentifier (get_ccode_type_id (cl))); } else { creation_call = new CCodeFunctionCall (new CCodeIdentifier (get_ccode_name (m))); } if ((st != null && !st.is_simple_type ()) && !(get_ccode_instance_pos (m) < 0)) { if (expr.is_chainup) { creation_call.add_argument (instance); } else { creation_call.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, instance)); } } else if (st != null && get_ccode_name (st) == "va_list") { creation_call.add_argument (instance); if (get_ccode_name (m) == "va_start") { unowned Class? parent = current_method.parent_symbol as Class; if (in_creation_method && parent != null && !parent.is_compact) { creation_call = new CCodeFunctionCall (new CCodeIdentifier ("va_copy")); creation_call.add_argument (instance); creation_call.add_argument (new CCodeIdentifier ("_vala_va_list")); } else { Parameter last_param = null; // FIXME: this doesn't take into account exception handling parameters foreach (var param in current_method.get_parameters ()) { if (param.ellipsis || param.params_array) { break; } last_param = param; } int nParams = ccode.get_parameter_count (); if (nParams == 0 || !ccode.get_parameter (nParams - 1).ellipsis) { Report.error (expr.source_reference, "`va_list' used in method with fixed args"); } else if (nParams == 1) { Report.error (expr.source_reference, "`va_list' used in method without parameter"); } else { creation_call.add_argument (new CCodeIdentifier (ccode.get_parameter (nParams - 2).name)); } } } } generate_type_declaration (expr.type_reference, cfile); var in_arg_map = new HashMap (direct_hash, direct_equal); var out_arg_map = in_arg_map; if (m != null && m.coroutine) { // async call async_call = new CCodeFunctionCall (new CCodeIdentifier (get_ccode_name (m))); finish_call = new CCodeFunctionCall (new CCodeIdentifier (get_ccode_finish_name (m))); creation_call = finish_call; // output arguments used separately out_arg_map = new HashMap (direct_hash, direct_equal); // pass GAsyncResult stored in closure to finish function out_arg_map.set (get_param_pos (get_ccode_async_result_pos (m)), new CCodeMemberAccess.pointer (new CCodeIdentifier ("_data_"), "_res_")); } if (cl != null && (!cl.is_compact || get_ccode_simple_generics (m))) { add_generic_type_arguments (m, in_arg_map, expr.type_reference.get_type_arguments (), expr); } bool ellipsis = false; int i = 1; int arg_pos; Iterator params_it = params.iterator (); foreach (Expression arg in expr.get_argument_list ()) { CCodeExpression cexpr = get_cvalue (arg); var carg_map = in_arg_map; Parameter param = null; if (params_it.next ()) { param = params_it.get (); ellipsis = param.ellipsis || param.params_array; if (!ellipsis) { if (param.direction == ParameterDirection.OUT) { carg_map = out_arg_map; } if (get_ccode_array_length (param) && param.variable_type is ArrayType) { var array_type = (ArrayType) param.variable_type; for (int dim = 1; dim <= array_type.rank; dim++) { carg_map.set (get_param_pos (get_ccode_array_length_pos (param) + 0.01 * dim), get_array_length_cexpression (arg, dim)); } } else if (get_ccode_delegate_target (param) && param.variable_type is DelegateType) { var deleg_type = (DelegateType) param.variable_type; var d = deleg_type.delegate_symbol; if (d.has_target) { CCodeExpression delegate_target_destroy_notify; var delegate_target = get_delegate_target_cexpression (arg, out delegate_target_destroy_notify); carg_map.set (get_param_pos (get_ccode_delegate_target_pos (param)), delegate_target); if (deleg_type.is_disposable ()) { carg_map.set (get_param_pos (get_ccode_destroy_notify_pos (param)), delegate_target_destroy_notify); } } } cexpr = handle_struct_argument (param, arg, cexpr); if (get_ccode_type (param) != null) { cexpr = new CCodeCastExpression (cexpr, get_ccode_type (param)); } } else { cexpr = handle_struct_argument (null, arg, cexpr); } arg_pos = get_param_pos (get_ccode_pos (param), ellipsis); } else { // default argument position cexpr = handle_struct_argument (null, arg, cexpr); arg_pos = get_param_pos (i, ellipsis); } carg_map.set (arg_pos, cexpr); i++; } if (params_it.next ()) { var param = params_it.get (); /* if there are more parameters than arguments, * the additional parameter is an ellipsis parameter * otherwise there is a bug in the semantic analyzer */ assert (param.params_array || param.ellipsis); ellipsis = true; } if (expr.tree_can_fail) { // method can fail current_method_inner_error = true; // add &inner_error before the ellipsis arguments out_arg_map.set (get_param_pos (-1), new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, get_inner_error_cexpression ())); } if (ellipsis) { /* ensure variable argument list ends with NULL * except when using printf-style arguments */ if (m == null) { in_arg_map.set (get_param_pos (-1, true), new CCodeConstant ("NULL")); } else if (!m.printf_format && !m.scanf_format && get_ccode_sentinel (m) != "") { in_arg_map.set (get_param_pos (-1, true), new CCodeConstant (get_ccode_sentinel (m))); } } if ((st != null && !st.is_simple_type ()) && get_ccode_instance_pos (m) < 0) { // instance parameter is at the end in a struct creation method out_arg_map.set (get_param_pos (-3), new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, instance)); } if (m != null && m.coroutine) { if (expr.is_yield_expression) { // asynchronous call in_arg_map.set (get_param_pos (-1), new CCodeIdentifier (generate_ready_function (current_method))); in_arg_map.set (get_param_pos (-0.9), new CCodeIdentifier ("_data_")); } } if (m != null && m.coroutine && m.parent_symbol is Class) { if (get_ccode_finish_instance (m)) { var tmp = new CCodeMemberAccess.pointer (new CCodeIdentifier ("_data_"), "_source_object_"); out_arg_map.set (get_param_pos (get_ccode_instance_pos (m)), tmp); } } // append C arguments in the right order int last_pos; int min_pos; if (async_call != creation_call) { // don't append out arguments for .begin() calls last_pos = -1; while (true) { min_pos = -1; foreach (int pos in out_arg_map.get_keys ()) { if (pos > last_pos && (min_pos == -1 || pos < min_pos)) { min_pos = pos; } } if (min_pos == -1) { break; } creation_call.add_argument (out_arg_map.get (min_pos)); last_pos = min_pos; } } if (async_call != null) { last_pos = -1; while (true) { min_pos = -1; foreach (int pos in in_arg_map.get_keys ()) { if (pos > last_pos && (min_pos == -1 || pos < min_pos)) { min_pos = pos; } } if (min_pos == -1) { break; } async_call.add_argument (in_arg_map.get (min_pos)); last_pos = min_pos; } } if (expr.is_yield_expression) { // set state before calling async function to support immediate callbacks int state = emit_context.next_coroutine_state++; ccode.add_assignment (new CCodeMemberAccess.pointer (new CCodeIdentifier ("_data_"), "_state_"), new CCodeConstant (state.to_string ())); ccode.add_expression (async_call); ccode.add_return (new CCodeConstant ("FALSE")); ccode.add_label ("_state_%d".printf (state)); } creation_expr = creation_call; // cast the return value of the creation method back to the intended type if // it requested a special C return type if (get_ccode_type (m) != null) { creation_expr = new CCodeCastExpression (creation_expr, get_ccode_name (expr.type_reference)); } } else if (expr.symbol_reference is ErrorCode) { var ecode = (ErrorCode) expr.symbol_reference; var edomain = (ErrorDomain) ecode.parent_symbol; CCodeFunctionCall creation_call; generate_error_domain_declaration (edomain, cfile); if (expr.get_argument_list ().size == 1) { // must not be a format argument creation_call = new CCodeFunctionCall (new CCodeIdentifier ("g_error_new_literal")); } else { creation_call = new CCodeFunctionCall (new CCodeIdentifier ("g_error_new")); } creation_call.add_argument (new CCodeIdentifier (get_ccode_upper_case_name (edomain))); creation_call.add_argument (new CCodeIdentifier (get_ccode_name (ecode))); foreach (Expression arg in expr.get_argument_list ()) { creation_call.add_argument (get_cvalue (arg)); } creation_expr = creation_call; } else { assert (false); } var local = expr.parent_node as LocalVariable; if (local != null && is_simple_struct_creation (local, local.initializer)) { // no temporary variable necessary ccode.add_expression (creation_expr); set_cvalue (expr, instance); } else if (instance != null) { if (expr.type_reference.type_symbol is Struct) { ccode.add_expression (creation_expr); } else { ccode.add_assignment (instance, creation_expr); } foreach (MemberInitializer init in expr.get_object_initializer ()) { if (init.symbol_reference is Field) { var f = (Field) init.symbol_reference; var instance_target_type = SemanticAnalyzer.get_data_type_for_symbol ((TypeSymbol) f.parent_symbol); var typed_inst = transform_value (new GLibValue (expr.type_reference, instance, true), instance_target_type, init); store_field (f, typed_inst, init.initializer.target_value, false, init.source_reference); var cl = f.parent_symbol as Class; if (cl != null) { generate_class_struct_declaration (cl, cfile); } } else if (init.symbol_reference is Property) { var p = (Property) init.symbol_reference; if (p.base_property != null) { p = p.base_property; } else if (p.base_interface_property != null) { p = p.base_interface_property; } var instance_target_type = SemanticAnalyzer.get_data_type_for_symbol ((TypeSymbol) p.parent_symbol); var typed_inst = transform_value (new GLibValue (expr.type_reference, instance), instance_target_type, init); var inst_ma = new MemberAccess.simple ("fake"); inst_ma.target_value = typed_inst; store_property (p, inst_ma, init.initializer.target_value); // FIXME Do not ref/copy in the first place if (!p.set_accessor.value_type.value_owned && requires_destroy (init.initializer.target_value.value_type)) { ccode.add_expression (destroy_value (init.initializer.target_value)); } } else { Report.error (init.source_reference, "internal: Unsupported symbol"); } } set_cvalue (expr, instance); } else if (creation_expr != null) { var temp_value = create_temp_value (expr.value_type, false, expr); ccode.add_assignment (get_cvalue_ (temp_value), creation_expr); expr.target_value = temp_value; unowned Class? cl = expr.type_reference.type_symbol as Class; if (context.gobject_tracing) { // GObject creation tracing enabled if (cl != null && cl.is_subtype_of (gobject_type)) { // creating GObject // instance can be NULL in error cases ccode.open_if (get_cvalue_ (expr.target_value)); var set_data_call = new CCodeFunctionCall (new CCodeIdentifier ("g_object_set_data")); set_data_call.add_argument (new CCodeCastExpression (get_cvalue_ (expr.target_value), "GObject *")); set_data_call.add_argument (new CCodeConstant ("\"vala-creation-function\"")); string func_name = ""; if (current_method != null) { func_name = current_method.get_full_name (); } else if (current_property_accessor != null) { func_name = current_property_accessor.get_full_name (); } set_data_call.add_argument (new CCodeConstant ("\"%s\"".printf (func_name))); ccode.add_expression (set_data_call); ccode.close (); } } // create a special GDestroyNotify for created GArray and set with g_array_set_clear_func (since glib 2.32) if (cl != null && cl == garray_type) { var type_arg = expr.type_reference.get_type_arguments ().get (0); if (requires_destroy (type_arg)) { var clear_func = new CCodeFunctionCall (new CCodeIdentifier ("g_array_set_clear_func")); clear_func.add_argument (get_cvalue_ (expr.target_value)); string destroy_func; if (type_arg.is_non_null_simple_type () || type_arg.is_real_non_null_struct_type ()) { destroy_func = get_ccode_destroy_function (type_arg.type_symbol); } else { destroy_func = generate_destroy_function_content_of_wrapper (type_arg); } clear_func.add_argument (new CCodeCastExpression (new CCodeIdentifier (destroy_func), "GDestroyNotify")); ccode.add_expression (clear_func); } } } ((GLibValue) expr.target_value).lvalue = true; } public CCodeExpression? handle_struct_argument (Parameter? param, Expression arg, CCodeExpression? cexpr) { DataType type; if (param != null) { type = param.variable_type; } else { // varargs type = arg.value_type; } var unary = arg as UnaryExpression; // pass non-simple struct instances always by reference if (!(arg.value_type is NullType) && type.is_real_struct_type ()) { // we already use a reference for arguments of ref, out, and nullable parameters if (!(unary != null && (unary.operator == UnaryOperator.OUT || unary.operator == UnaryOperator.REF)) && !type.nullable) { if (cexpr is CCodeIdentifier || cexpr is CCodeMemberAccess) { return new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, cexpr); } else { // if cexpr is e.g. a function call, we can't take the address of the expression var temp_value = create_temp_value (type, false, arg); ccode.add_assignment (get_cvalue_ (temp_value), cexpr); return new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, get_cvalue_ (temp_value)); } } } return cexpr; } public override void visit_sizeof_expression (SizeofExpression expr) { generate_type_declaration (expr.type_reference, cfile); var csizeof = new CCodeFunctionCall (new CCodeIdentifier ("sizeof")); csizeof.add_argument (new CCodeIdentifier (get_ccode_name (expr.type_reference))); set_cvalue (expr, csizeof); } public override void visit_typeof_expression (TypeofExpression expr) { cfile.add_include ("glib-object.h"); set_cvalue (expr, get_type_id_expression (expr.type_reference)); } public override void visit_unary_expression (UnaryExpression expr) { if (expr.operator == UnaryOperator.REF || expr.operator == UnaryOperator.OUT) { var glib_value = (GLibValue) expr.inner.target_value; var ref_value = new GLibValue (glib_value.value_type); if (expr.target_type != null && glib_value.value_type.is_real_struct_type () && glib_value.value_type.nullable != expr.target_type.nullable) { // the only possibility is that value_type is nullable and target_type is non-nullable ref_value.cvalue = glib_value.cvalue; } else { ref_value.cvalue = new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, glib_value.cvalue); } if (glib_value.array_length_cvalues != null) { for (int i = 0; i < glib_value.array_length_cvalues.size; i++) { ref_value.append_array_length_cvalue (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, glib_value.array_length_cvalues[i])); } } if (glib_value.delegate_target_cvalue != null) { ref_value.delegate_target_cvalue = new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, glib_value.delegate_target_cvalue); } if (glib_value.delegate_target_destroy_notify_cvalue != null) { ref_value.delegate_target_destroy_notify_cvalue = new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, glib_value.delegate_target_destroy_notify_cvalue); } expr.target_value = ref_value; return; } if (expr.operator == UnaryOperator.INCREMENT || expr.operator == UnaryOperator.DECREMENT) { // increment/decrement variable var op = expr.operator == UnaryOperator.INCREMENT ? CCodeBinaryOperator.PLUS : CCodeBinaryOperator.MINUS; var cexpr = new CCodeBinaryExpression (op, get_cvalue_ (expr.inner.target_value), new CCodeConstant ("1")); ccode.add_assignment (get_cvalue (expr.inner), cexpr); // assign new value to temp variable var temp_value = store_temp_value (expr.inner.target_value, expr); MemberAccess ma = find_property_access (expr.inner); if (ma != null) { // property postfix expression var prop = (Property) ma.symbol_reference; store_property (prop, ma.inner, temp_value); } // return new value expr.target_value = temp_value; return; } CCodeUnaryOperator op; switch (expr.operator) { case UnaryOperator.PLUS: op = CCodeUnaryOperator.PLUS; break; case UnaryOperator.MINUS: op = CCodeUnaryOperator.MINUS; break; case UnaryOperator.LOGICAL_NEGATION: op = CCodeUnaryOperator.LOGICAL_NEGATION; break; case UnaryOperator.BITWISE_COMPLEMENT: op = CCodeUnaryOperator.BITWISE_COMPLEMENT; break; case UnaryOperator.INCREMENT: op = CCodeUnaryOperator.PREFIX_INCREMENT; break; case UnaryOperator.DECREMENT: op = CCodeUnaryOperator.PREFIX_DECREMENT; break; default: assert_not_reached (); } set_cvalue (expr, new CCodeUnaryExpression (op, get_cvalue (expr.inner))); } public virtual CCodeExpression? deserialize_expression (DataType type, CCodeExpression variant_expr, CCodeExpression? expr, CCodeExpression? error_expr = null, out bool may_fail = null) { assert_not_reached (); } public virtual CCodeExpression? serialize_expression (DataType type, CCodeExpression expr) { assert_not_reached (); } public override void visit_cast_expression (CastExpression expr) { if (expr.is_silent_cast) { set_cvalue (expr, new CCodeInvalidExpression ()); expr.error = true; Report.error (expr.source_reference, "Operation not supported for this type"); return; } generate_type_declaration (expr.type_reference, cfile); // recompute array length when casting to other array type var array_type = expr.type_reference as ArrayType; if (array_type != null && expr.inner.value_type is ArrayType) { if (array_type.element_type is GenericType || ((ArrayType) expr.inner.value_type).element_type is GenericType) { // element size unknown for generic arrays, retain array length as is for (int dim = 1; dim <= array_type.rank; dim++) { append_array_length (expr, get_array_length_cexpression (expr.inner, dim)); } } else { var sizeof_to = new CCodeFunctionCall (new CCodeIdentifier ("sizeof")); sizeof_to.add_argument (new CCodeConstant (get_ccode_name (array_type.element_type))); var sizeof_from = new CCodeFunctionCall (new CCodeIdentifier ("sizeof")); sizeof_from.add_argument (new CCodeConstant (get_ccode_name (((ArrayType) expr.inner.value_type).element_type))); for (int dim = 1; dim <= array_type.rank; dim++) { append_array_length (expr, new CCodeBinaryExpression (CCodeBinaryOperator.DIV, new CCodeBinaryExpression (CCodeBinaryOperator.MUL, get_array_length_cexpression (expr.inner, dim), sizeof_from), sizeof_to)); } } } else if (array_type != null) { CCodeExpression array_length_expr; var sizeof_to = new CCodeFunctionCall (new CCodeIdentifier ("sizeof")); sizeof_to.add_argument (new CCodeConstant (get_ccode_name (array_type.element_type))); var sizeof_from = new CCodeFunctionCall (new CCodeIdentifier ("sizeof")); var value_type = expr.inner.value_type; if (value_type is ValueType) { sizeof_from.add_argument (new CCodeConstant (get_ccode_name (value_type.type_symbol))); array_length_expr = new CCodeBinaryExpression (CCodeBinaryOperator.DIV, sizeof_from, sizeof_to); } else if (value_type is PointerType && ((PointerType) value_type).base_type is ValueType) { sizeof_from.add_argument (new CCodeConstant (get_ccode_name (((PointerType) value_type).base_type.type_symbol))); array_length_expr = new CCodeBinaryExpression (CCodeBinaryOperator.DIV, sizeof_from, sizeof_to); } else { // cast from unsupported non-array to array, set invalid length // required by string.data, e.g. array_length_expr = new CCodeConstant ("-1"); } for (int dim = 1; dim <= array_type.rank; dim++) { append_array_length (expr, array_length_expr); } } var innercexpr = get_cvalue (expr.inner); if (expr.type_reference is ValueType && !expr.type_reference.nullable && expr.inner.value_type is ValueType && expr.inner.value_type.nullable) { // handle nested cast expressions unowned Expression? inner_expr = expr.inner; while (inner_expr is CastExpression) { inner_expr = ((CastExpression) inner_expr).inner; } if (inner_expr.value_type.value_owned && !(inner_expr.symbol_reference is Variable || inner_expr is ElementAccess)) { // heap allocated struct leaked, destroy it var value = new GLibValue (new PointerType (new VoidType ()), innercexpr); temp_ref_values.insert (0, value); } // nullable integer or float or boolean or struct or enum cast to non-nullable innercexpr = new CCodeUnaryExpression (CCodeUnaryOperator.POINTER_INDIRECTION, innercexpr); } else if (expr.type_reference is ValueType && expr.type_reference.nullable && expr.inner.value_type.is_real_non_null_struct_type ()) { // real non-null struct cast to nullable innercexpr = new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, innercexpr); } else if (expr.type_reference is ArrayType && !(expr.inner is Literal) && expr.inner.value_type is ValueType && !expr.inner.value_type.nullable) { // integer or float or boolean or struct or enum to array cast innercexpr = new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, innercexpr); } set_cvalue (expr, new CCodeCastExpression (innercexpr, get_ccode_name (expr.type_reference))); //TODO Use get_non_null (expr.inner.target_value) ((GLibValue) expr.target_value).non_null = expr.is_non_null (); if (expr.type_reference is DelegateType) { var target = get_delegate_target (expr.inner); if (target != null) { set_delegate_target (expr, target); } else { set_delegate_target (expr, new CCodeConstant ("NULL")); } var target_destroy_notify = get_delegate_target_destroy_notify (expr.inner); if (target_destroy_notify != null) { set_delegate_target_destroy_notify (expr, target_destroy_notify); } else { set_delegate_target_destroy_notify (expr, new CCodeConstant ("NULL")); } } } public override void visit_named_argument (NamedArgument expr) { set_cvalue (expr, get_cvalue (expr.inner)); } public override void visit_pointer_indirection (PointerIndirection expr) { set_cvalue (expr, new CCodeUnaryExpression (CCodeUnaryOperator.POINTER_INDIRECTION, get_cvalue (expr.inner))); ((GLibValue) expr.target_value).lvalue = get_lvalue (expr.inner.target_value); } public override void visit_addressof_expression (AddressofExpression expr) { set_cvalue (expr, new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, get_cvalue (expr.inner))); } public override void visit_reference_transfer_expression (ReferenceTransferExpression expr) { /* tmp = expr.inner; expr.inner = NULL; expr = tmp; */ expr.target_value = store_temp_value (expr.inner.target_value, expr); if (expr.inner.value_type is StructValueType && !expr.inner.value_type.nullable) { // memset needs string.h cfile.add_include ("string.h"); var creation_call = new CCodeFunctionCall (new CCodeIdentifier ("memset")); creation_call.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, get_cvalue (expr.inner))); creation_call.add_argument (new CCodeConstant ("0")); creation_call.add_argument (new CCodeIdentifier ("sizeof (%s)".printf (get_ccode_name (expr.inner.value_type)))); ccode.add_expression (creation_call); } else if (expr.value_type is DelegateType) { ccode.add_assignment (get_cvalue (expr.inner), new CCodeConstant ("NULL")); var target = get_delegate_target_cvalue (expr.inner.target_value); if (target != null) { ccode.add_assignment (target, new CCodeConstant ("NULL")); } var target_destroy_notify = get_delegate_target_destroy_notify_cvalue (expr.inner.target_value); if (target_destroy_notify != null) { ccode.add_assignment (target_destroy_notify, new CCodeConstant ("NULL")); } } else if (expr.inner.value_type is ArrayType) { var array_type = (ArrayType) expr.inner.value_type; var glib_value = (GLibValue) expr.inner.target_value; ccode.add_assignment (get_cvalue (expr.inner), new CCodeConstant ("NULL")); if (glib_value.array_length_cvalues != null) { for (int dim = 1; dim <= array_type.rank; dim++) { ccode.add_assignment (get_array_length_cvalue (glib_value, dim), new CCodeConstant ("0")); } } } else { ccode.add_assignment (get_cvalue (expr.inner), new CCodeConstant ("NULL")); } } public override void visit_binary_expression (BinaryExpression expr) { var cleft = get_cvalue (expr.left); var cright = get_cvalue (expr.right); CCodeExpression? left_chain = null; if (expr.is_chained) { var lbe = (BinaryExpression) expr.left; var temp_decl = get_temp_variable (lbe.right.target_type, true, null, false); emit_temp_var (temp_decl); var cvar = get_variable_cexpression (temp_decl.name); var clbe = (CCodeBinaryExpression) get_cvalue (lbe); if (lbe.is_chained) { clbe = (CCodeBinaryExpression) clbe.right; } ccode.add_assignment (cvar, get_cvalue (lbe.right)); clbe.right = get_variable_cexpression (temp_decl.name); left_chain = cleft; cleft = cvar; } CCodeBinaryOperator op; switch (expr.operator) { case BinaryOperator.PLUS: op = CCodeBinaryOperator.PLUS; break; case BinaryOperator.MINUS: op = CCodeBinaryOperator.MINUS; break; case BinaryOperator.MUL: op = CCodeBinaryOperator.MUL; break; case BinaryOperator.DIV: op = CCodeBinaryOperator.DIV; break; case BinaryOperator.MOD: // FIXME Code duplication with CCodeAssignmentModule.emit_simple_assignment() if (expr.value_type.equals (double_type)) { cfile.add_include ("math.h"); var ccall = new CCodeFunctionCall (new CCodeIdentifier ("fmod")); ccall.add_argument (cleft); ccall.add_argument (cright); set_cvalue (expr, ccall); return; } else if (expr.value_type.equals (float_type)) { cfile.add_include ("math.h"); var ccall = new CCodeFunctionCall (new CCodeIdentifier ("fmodf")); ccall.add_argument (cleft); ccall.add_argument (cright); set_cvalue (expr, ccall); return; } else { op = CCodeBinaryOperator.MOD; } break; case BinaryOperator.SHIFT_LEFT: op = CCodeBinaryOperator.SHIFT_LEFT; break; case BinaryOperator.SHIFT_RIGHT: op = CCodeBinaryOperator.SHIFT_RIGHT; break; case BinaryOperator.LESS_THAN: op = CCodeBinaryOperator.LESS_THAN; break; case BinaryOperator.GREATER_THAN: op = CCodeBinaryOperator.GREATER_THAN; break; case BinaryOperator.LESS_THAN_OR_EQUAL: op = CCodeBinaryOperator.LESS_THAN_OR_EQUAL; break; case BinaryOperator.GREATER_THAN_OR_EQUAL: op = CCodeBinaryOperator.GREATER_THAN_OR_EQUAL; break; case BinaryOperator.EQUALITY: op = CCodeBinaryOperator.EQUALITY; break; case BinaryOperator.INEQUALITY: op = CCodeBinaryOperator.INEQUALITY; break; case BinaryOperator.BITWISE_AND: op = CCodeBinaryOperator.BITWISE_AND; break; case BinaryOperator.BITWISE_OR: op = CCodeBinaryOperator.BITWISE_OR; break; case BinaryOperator.BITWISE_XOR: op = CCodeBinaryOperator.BITWISE_XOR; break; case BinaryOperator.AND: op = CCodeBinaryOperator.AND; break; case BinaryOperator.OR: op = CCodeBinaryOperator.OR; break; case BinaryOperator.IN: if (expr.right.value_type is ArrayType) { unowned ArrayType array_type = (ArrayType) expr.right.value_type; unowned DataType element_type = array_type.element_type; var ccall = new CCodeFunctionCall (new CCodeIdentifier (generate_array_contains_wrapper (array_type))); CCodeExpression node = ccall; ccall.add_argument (cright); ccall.add_argument (get_array_length_cexpression (expr.right)); if (element_type is StructValueType) { ccall.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, cleft)); } else if (element_type is ValueType && !element_type.nullable && expr.left.value_type is ValueType && expr.left.value_type.nullable) { // null check var cnull = new CCodeBinaryExpression (CCodeBinaryOperator.EQUALITY, cleft, new CCodeConstant ("NULL")); ccall.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.POINTER_INDIRECTION, cleft)); node = new CCodeParenthesizedExpression (new CCodeConditionalExpression (cnull, new CCodeConstant ("FALSE"), ccall)); } else { ccall.add_argument (cleft); } set_cvalue (expr, node); } else { set_cvalue (expr, new CCodeBinaryExpression (CCodeBinaryOperator.EQUALITY, new CCodeBinaryExpression (CCodeBinaryOperator.BITWISE_AND, cright, cleft), cleft)); } return; default: assert_not_reached (); } if (expr.operator == BinaryOperator.EQUALITY || expr.operator == BinaryOperator.INEQUALITY) { var left_type = expr.left.target_type; var right_type = expr.right.target_type; make_comparable_cexpression (ref left_type, ref cleft, ref right_type, ref cright); if (left_type is StructValueType && right_type is StructValueType) { var equalfunc = generate_struct_equal_function ((Struct) left_type.type_symbol); var ccall = new CCodeFunctionCall (new CCodeIdentifier (equalfunc)); ccall.add_argument (cleft); ccall.add_argument (cright); cleft = ccall; cright = get_boolean_cconstant (true); } else if ((left_type is IntegerType || left_type is FloatingType || left_type is BooleanType || left_type is EnumValueType) && left_type.nullable && (right_type is IntegerType || right_type is FloatingType || right_type is BooleanType || right_type is EnumValueType) && right_type.nullable) { var equalfunc = generate_numeric_equal_function ((TypeSymbol) left_type.type_symbol); var ccall = new CCodeFunctionCall (new CCodeIdentifier (equalfunc)); ccall.add_argument (cleft); ccall.add_argument (cright); cleft = ccall; cright = get_boolean_cconstant (true); } } bool is_string_comparison = false; if (!(expr.right.value_type is NullType) && expr.right.value_type.compatible (string_type)) { if (!(expr.left.value_type is NullType) && expr.left.value_type.compatible (string_type)) { is_string_comparison = true; } else if (expr.is_chained) { unowned BinaryExpression lbe = (BinaryExpression) expr.left; if (!(lbe.right.value_type is NullType) && lbe.right.value_type.compatible (string_type)) { is_string_comparison = true; } } } bool has_string_literal = (expr.left is StringLiteral || expr.right is StringLiteral); if (is_string_comparison || (has_string_literal && expr.operator != BinaryOperator.PLUS)) { switch (expr.operator) { case BinaryOperator.PLUS: // string concatenation if (expr.left.is_constant () && expr.right.is_constant ()) { string left, right; if (cleft is CCodeIdentifier) { left = ((CCodeIdentifier) cleft).name; } else if (cleft is CCodeConstant) { left = ((CCodeConstant) cleft).name; } else { Report.error (expr.source_reference, "internal: Unsupported expression"); left = "NULL"; } if (cright is CCodeIdentifier) { right = ((CCodeIdentifier) cright).name; } else if (cright is CCodeConstant) { right = ((CCodeConstant) cright).name; } else { Report.error (expr.source_reference, "internal: Unsupported expression"); right = "NULL"; } set_cvalue (expr, new CCodeConstant ("%s %s".printf (left, right))); } else { var temp_value = create_temp_value (expr.value_type, false, expr); CCodeFunctionCall ccall; if (context.profile == Profile.POSIX) { // convert to strcat (strcpy (malloc (1 + strlen (a) + strlen (b)), a), b) ccall = new CCodeFunctionCall (new CCodeIdentifier ("strcat")); var strcpy = new CCodeFunctionCall (new CCodeIdentifier ("strcpy")); var malloc = new CCodeFunctionCall (new CCodeIdentifier ("malloc")); var strlen_a = new CCodeFunctionCall (new CCodeIdentifier ("strlen")); strlen_a.add_argument (cleft); var strlen_b = new CCodeFunctionCall (new CCodeIdentifier ("strlen")); strlen_b.add_argument (cright); var newlength = new CCodeBinaryExpression (CCodeBinaryOperator.PLUS, new CCodeIdentifier ("1"), new CCodeBinaryExpression (CCodeBinaryOperator.PLUS, strlen_a, strlen_b)); malloc.add_argument (newlength); strcpy.add_argument (malloc); strcpy.add_argument (cleft); ccall.add_argument (strcpy); ccall.add_argument (cright); } else { // convert to g_strconcat (a, b, NULL) ccall = new CCodeFunctionCall (new CCodeIdentifier ("g_strconcat")); ccall.add_argument (cleft); ccall.add_argument (cright); ccall.add_argument (new CCodeConstant("NULL")); } ccode.add_assignment (get_cvalue_ (temp_value), ccall); expr.target_value = temp_value; } return; case BinaryOperator.EQUALITY: case BinaryOperator.INEQUALITY: case BinaryOperator.LESS_THAN: case BinaryOperator.GREATER_THAN: case BinaryOperator.LESS_THAN_OR_EQUAL: case BinaryOperator.GREATER_THAN_OR_EQUAL: CCodeExpression call; if (context.profile == Profile.POSIX) { cfile.add_include ("string.h"); call = new CCodeIdentifier (generate_cmp_wrapper (new CCodeIdentifier ("strcmp"))); } else { call = new CCodeIdentifier ("g_strcmp0"); } set_cvalue (expr, new CCodeBinaryCompareExpression (call, op, cleft, cright, new CCodeConstant ("0"))); break; default: set_cvalue (expr, new CCodeBinaryExpression (op, cleft, cright)); break; } } else { set_cvalue (expr, new CCodeBinaryExpression (op, cleft, cright)); } if (left_chain != null) { set_cvalue (expr, new CCodeBinaryExpression (CCodeBinaryOperator.AND, left_chain, get_cvalue (expr))); } } public CCodeExpression? create_type_check (CCodeNode ccodenode, DataType type) { var et = type as ErrorType; if (et != null && et.error_code != null) { var matches_call = new CCodeFunctionCall (new CCodeIdentifier ("g_error_matches")); matches_call.add_argument ((CCodeExpression) ccodenode); matches_call.add_argument (new CCodeIdentifier (get_ccode_upper_case_name (et.error_domain))); matches_call.add_argument (new CCodeIdentifier (get_ccode_name (et.error_code))); return matches_call; } else if (et != null && et.error_domain != null) { var instance_domain = new CCodeMemberAccess.pointer ((CCodeExpression) ccodenode, "domain"); var type_domain = new CCodeIdentifier (get_ccode_upper_case_name (et.error_domain)); return new CCodeBinaryExpression (CCodeBinaryOperator.EQUALITY, instance_domain, type_domain); } else { CCodeFunctionCall ccheck; if (type is GenericType || type.type_symbol == null || type.type_symbol.external_package) { ccheck = new CCodeFunctionCall (new CCodeIdentifier ("G_TYPE_CHECK_INSTANCE_TYPE")); ccheck.add_argument ((CCodeExpression) ccodenode); ccheck.add_argument (get_type_id_expression (type)); } else { ccheck = new CCodeFunctionCall (new CCodeIdentifier (get_ccode_type_check_function (type.type_symbol))); ccheck.add_argument ((CCodeExpression) ccodenode); } return ccheck; } } string generate_array_contains_wrapper (ArrayType array_type) { string array_contains_func = "_vala_%s_array_contains".printf (get_ccode_lower_case_name (array_type.element_type)); if (!add_wrapper (array_contains_func)) { return array_contains_func; } generate_type_declaration (ssize_t_type, cfile); var function = new CCodeFunction (array_contains_func, get_ccode_name (bool_type)); function.modifiers = CCodeModifiers.STATIC; function.add_parameter (new CCodeParameter ("stack", "%s *".printf (get_ccode_name (array_type.element_type)))); function.add_parameter (new CCodeParameter ("stack_length", get_ccode_name (ssize_t_type))); if (array_type.element_type is StructValueType) { function.add_parameter (new CCodeParameter ("needle", "const %s *".printf (get_ccode_name (array_type.element_type)))); } else { function.add_parameter (new CCodeParameter ("needle", "const %s".printf (get_ccode_name (array_type.element_type)))); } push_function (function); ccode.add_declaration (get_ccode_name (ssize_t_type), new CCodeVariableDeclarator ("i")); var cloop_initializer = new CCodeAssignment (new CCodeIdentifier ("i"), new CCodeConstant ("0")); var cloop_condition = new CCodeBinaryExpression (CCodeBinaryOperator.LESS_THAN, new CCodeIdentifier ("i"), new CCodeIdentifier ("stack_length")); var cloop_iterator = new CCodeUnaryExpression (CCodeUnaryOperator.POSTFIX_INCREMENT, new CCodeIdentifier ("i")); ccode.open_for (cloop_initializer, cloop_condition, cloop_iterator); var celement = new CCodeElementAccess (new CCodeIdentifier ("stack"), new CCodeIdentifier ("i")); var cneedle = new CCodeIdentifier ("needle"); CCodeBinaryExpression cif_condition; if (array_type.element_type.compatible (string_type)) { CCodeFunctionCall ccall; if (context.profile == Profile.POSIX) { cfile.add_include ("string.h"); ccall = new CCodeFunctionCall (new CCodeIdentifier (generate_cmp_wrapper (new CCodeIdentifier ("strcmp")))); } else { ccall = new CCodeFunctionCall (new CCodeIdentifier ("g_strcmp0")); } ccall.add_argument (celement); ccall.add_argument (cneedle); cif_condition = new CCodeBinaryExpression (CCodeBinaryOperator.EQUALITY, ccall, new CCodeConstant ("0")); } else if (array_type.element_type is StructValueType) { var equalfunc = generate_struct_equal_function ((Struct) array_type.element_type.type_symbol); var ccall = new CCodeFunctionCall (new CCodeIdentifier (equalfunc)); ccall.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, celement)); ccall.add_argument (cneedle); cif_condition = new CCodeBinaryExpression (CCodeBinaryOperator.EQUALITY, ccall, get_boolean_cconstant (true)); } else { cif_condition = new CCodeBinaryExpression (CCodeBinaryOperator.EQUALITY, cneedle, celement); } ccode.open_if (cif_condition); ccode.add_return (get_boolean_cconstant (true)); ccode.close (); ccode.close (); ccode.add_return (get_boolean_cconstant (false)); pop_function (); cfile.add_function_declaration (function); cfile.add_function (function); return array_contains_func; } string generate_cmp_wrapper (CCodeIdentifier cmpid) { // generate and call NULL-aware cmp function to reduce number // of temporary variables and simplify code string cmp0_func = "_%s0".printf (cmpid.name); // g_strcmp0 is already NULL-safe if (cmpid.name == "g_strcmp0") { cmp0_func = cmpid.name; } else if (add_wrapper (cmp0_func)) { var cmp0_fun = new CCodeFunction (cmp0_func, get_ccode_name (int_type)); cmp0_fun.add_parameter (new CCodeParameter ("s1", "const void *")); cmp0_fun.add_parameter (new CCodeParameter ("s2", "const void *")); cmp0_fun.modifiers = CCodeModifiers.STATIC; push_function (cmp0_fun); // s1 != s2; var noteq = new CCodeBinaryExpression (CCodeBinaryOperator.INEQUALITY, new CCodeIdentifier ("s1"), new CCodeIdentifier ("s2")); // if (!s1) return -(s1 != s2); { var cexp = new CCodeUnaryExpression (CCodeUnaryOperator.LOGICAL_NEGATION, new CCodeIdentifier ("s1")); ccode.open_if (cexp); ccode.add_return (new CCodeUnaryExpression (CCodeUnaryOperator.MINUS, noteq)); ccode.close (); } // if (!s2) return s1 != s2; { var cexp = new CCodeUnaryExpression (CCodeUnaryOperator.LOGICAL_NEGATION, new CCodeIdentifier ("s2")); ccode.open_if (cexp); ccode.add_return (noteq); ccode.close (); } // return strcmp (s1, s2); var cmp_call = new CCodeFunctionCall (cmpid); cmp_call.add_argument (new CCodeIdentifier ("s1")); cmp_call.add_argument (new CCodeIdentifier ("s2")); ccode.add_return (cmp_call); pop_function (); cfile.add_function (cmp0_fun); } return cmp0_func; } public override void visit_type_check (TypeCheck expr) { generate_type_declaration (expr.type_reference, cfile); var type = expr.expression.value_type; var pointer_type = type as PointerType; if (pointer_type != null) { type = pointer_type.base_type; } unowned Class? cl = type.type_symbol as Class; unowned Interface? iface = type.type_symbol as Interface; if ((cl != null && !cl.is_compact) || iface != null || type is GenericType || type is ErrorType) { set_cvalue (expr, create_type_check (get_cvalue (expr.expression), expr.type_reference)); } else { set_cvalue (expr, new CCodeInvalidExpression ()); } if (get_cvalue (expr) is CCodeInvalidExpression) { Report.error (expr.source_reference, "type check expressions not supported for compact classes, structs, and enums"); } } public override void visit_lambda_expression (LambdaExpression lambda) { var delegate_type = (DelegateType) lambda.target_type; lambda.accept_children (this); bool expr_owned = lambda.value_type.value_owned; set_cvalue (lambda, new CCodeIdentifier (get_ccode_name (lambda.method))); unowned DataType? this_type; if (lambda.method.closure) { int block_id = get_block_id (current_closure_block); var delegate_target = get_variable_cexpression ("_data%d_".printf (block_id)); if (expr_owned || delegate_type.is_called_once) { var ref_call = new CCodeFunctionCall (new CCodeIdentifier ("block%d_data_ref".printf (block_id))); ref_call.add_argument (delegate_target); delegate_target = ref_call; set_delegate_target_destroy_notify (lambda, new CCodeIdentifier ("block%d_data_unref".printf (block_id))); } else { set_delegate_target_destroy_notify (lambda, new CCodeConstant ("NULL")); } set_delegate_target (lambda, delegate_target); } else if ((this_type = get_this_type ()) != null) { CCodeExpression delegate_target = get_this_cexpression (); delegate_target = convert_to_generic_pointer (delegate_target, this_type); if (expr_owned || delegate_type.is_called_once) { var ref_call = new CCodeFunctionCall (get_dup_func_expression (this_type, lambda.source_reference)); ref_call.add_argument (delegate_target); delegate_target = ref_call; set_delegate_target_destroy_notify (lambda, get_destroy_func_expression (this_type)); } else { set_delegate_target_destroy_notify (lambda, new CCodeConstant ("NULL")); } set_delegate_target (lambda, delegate_target); } else { set_delegate_target (lambda, new CCodeConstant ("NULL")); set_delegate_target_destroy_notify (lambda, new CCodeConstant ("NULL")); } } public CCodeExpression convert_from_generic_pointer (CCodeExpression cexpr, DataType actual_type) { unowned SemanticAnalyzer analyzer = context.analyzer; var result = cexpr; if (analyzer.is_reference_type_argument (actual_type) || analyzer.is_nullable_value_type_argument (actual_type)) { generate_type_declaration (actual_type, cfile); result = new CCodeCastExpression (cexpr, get_ccode_name (actual_type)); } else if (analyzer.is_signed_integer_type_argument (actual_type)) { // FIXME this should not happen while (cexpr is CCodeCastExpression) { cexpr = ((CCodeCastExpression) cexpr).inner; } result = new CCodeCastExpression (new CCodeCastExpression (cexpr, "gintptr"), get_ccode_name (actual_type)); } else if (analyzer.is_unsigned_integer_type_argument (actual_type)) { // FIXME this should not happen while (cexpr is CCodeCastExpression) { cexpr = ((CCodeCastExpression) cexpr).inner; } result = new CCodeCastExpression (new CCodeCastExpression (cexpr, "guintptr"), get_ccode_name (actual_type)); } return result; } public CCodeExpression convert_to_generic_pointer (CCodeExpression cexpr, DataType actual_type) { unowned SemanticAnalyzer analyzer = context.analyzer; var result = cexpr; if (analyzer.is_signed_integer_type_argument (actual_type)) { // FIXME this should not happen while (cexpr is CCodeCastExpression) { cexpr = ((CCodeCastExpression) cexpr).inner; } result = new CCodeCastExpression (new CCodeCastExpression (cexpr, "gintptr"), get_ccode_name (pointer_type)); } else if (analyzer.is_unsigned_integer_type_argument (actual_type)) { // FIXME this should not happen while (cexpr is CCodeCastExpression) { cexpr = ((CCodeCastExpression) cexpr).inner; } result = new CCodeCastExpression (new CCodeCastExpression (cexpr, "guintptr"), get_ccode_name (pointer_type)); } return result; } int next_variant_function_id = 0; public TargetValue transform_value (TargetValue value, DataType? target_type, CodeNode node) { var type = value.value_type; var result = ((GLibValue) value).copy (); if (type.value_owned && (target_type == null || target_type is GenericType || !target_type.floating_reference) && type.floating_reference) { /* floating reference, sink it. */ unowned ObjectTypeSymbol? cl = type.type_symbol as ObjectTypeSymbol; var sink_func = (cl != null) ? get_ccode_ref_sink_function (cl) : ""; if (sink_func != "") { if (type.nullable) { var is_not_null = new CCodeBinaryExpression (CCodeBinaryOperator.INEQUALITY, result.cvalue, new CCodeConstant ("NULL")); ccode.open_if (is_not_null); } var csink = new CCodeFunctionCall (new CCodeIdentifier (sink_func)); csink.add_argument (result.cvalue); ccode.add_expression (csink); if (type.nullable) { ccode.close (); } } else { Report.error (node.source_reference, "type `%s' does not support floating references", type.type_symbol.name); } } bool boxing = (type is ValueType && !type.nullable && target_type is ValueType && target_type.nullable); bool unboxing = (type is ValueType && type.nullable && target_type is ValueType && !target_type.nullable); bool gvalue_boxing = (context.profile == Profile.GOBJECT && target_type != null && target_type.type_symbol == gvalue_type && !(type is NullType) && get_ccode_type_id (type) != "G_TYPE_VALUE"); bool gvariant_boxing = (context.profile == Profile.GOBJECT && target_type != null && target_type.type_symbol == gvariant_type && !(type is NullType) && type.type_symbol != gvariant_type); if (type.value_owned && (target_type == null || !target_type.value_owned || boxing || unboxing || gvariant_boxing) && !gvalue_boxing /* gvalue can assume ownership of value, no need to free it */) { // value leaked, destroy it if (target_type is PointerType) { // manual memory management for pointers } else if (requires_destroy (type)) { if (!is_lvalue_access_allowed (type)) { // cannot assign to a temporary variable temp_ref_values.insert (0, result.copy ()); } else { var temp_value = create_temp_value (type, false, node); temp_ref_values.insert (0, ((GLibValue) temp_value).copy ()); store_value (temp_value, result, node.source_reference); result.cvalue = get_cvalue_ (temp_value); } } } if (target_type == null) { // value will be destroyed, no need for implicit casts return result; } result.value_type = target_type.copy (); if (gvalue_boxing) { // implicit conversion to GValue var temp_value = create_temp_value (target_type, true, node, true); if (!target_type.value_owned) { // boxed GValue leaked, destroy it temp_ref_values.insert (0, ((GLibValue) temp_value).copy ()); } if (target_type.nullable) { var newcall = new CCodeFunctionCall (new CCodeIdentifier ("g_new0")); newcall.add_argument (new CCodeConstant ("GValue")); newcall.add_argument (new CCodeConstant ("1")); var newassignment = new CCodeAssignment (get_cvalue_ (temp_value), newcall); ccode.add_expression (newassignment); } var ccall = new CCodeFunctionCall (new CCodeIdentifier ("g_value_init")); if (target_type.nullable) { ccall.add_argument (get_cvalue_ (temp_value)); } else { ccall.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, get_cvalue_ (temp_value))); } var type_id = get_ccode_type_id (type); if (type_id == "") { Report.error (node.source_reference, "GValue boxing of type `%s' is not supported", type.to_string ()); } ccall.add_argument (new CCodeIdentifier (type_id)); ccode.add_expression (ccall); if (requires_destroy (type)) { ccall = new CCodeFunctionCall (get_value_taker_function (type)); } else { ccall = new CCodeFunctionCall (get_value_setter_function (type)); } if (target_type.nullable) { ccall.add_argument (get_cvalue_ (temp_value)); } else { ccall.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, get_cvalue_ (temp_value))); } if (type.is_real_non_null_struct_type ()) { ccall.add_argument (new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, result.cvalue)); } else { ccall.add_argument (result.cvalue); } ccode.add_expression (ccall); result = (GLibValue) temp_value; } else if (gvariant_boxing) { // implicit conversion to GVariant string variant_func = "_variant_new%d".printf (++next_variant_function_id); var ccall = new CCodeFunctionCall (new CCodeIdentifier (variant_func)); ccall.add_argument (result.cvalue); var cfunc = new CCodeFunction (variant_func, "GVariant*"); cfunc.modifiers = CCodeModifiers.STATIC; cfunc.add_parameter (new CCodeParameter ("value", get_ccode_name (type))); if (type is ArrayType) { // return array length if appropriate var array_type = (ArrayType) type; var length_ctype = get_ccode_array_length_type (array_type); for (int dim = 1; dim <= array_type.rank; dim++) { ccall.add_argument (get_array_length_cvalue (value, dim)); cfunc.add_parameter (new CCodeParameter (get_array_length_cname ("value", dim), length_ctype)); } } push_function (cfunc); // sink floating reference var sink = new CCodeFunctionCall (new CCodeIdentifier ("g_variant_ref_sink")); sink.add_argument (serialize_expression (type, new CCodeIdentifier ("value"))); ccode.add_return (sink); pop_function (); cfile.add_function_declaration (cfunc); cfile.add_function (cfunc); result.cvalue = ccall; result.value_type.value_owned = true; result = (GLibValue) store_temp_value (result, node); if (!target_type.value_owned) { // value leaked temp_ref_values.insert (0, ((GLibValue) result).copy ()); } } else if (boxing) { // value needs to be boxed result.value_type.nullable = false; if (!result.lvalue || !result.value_type.equals (value.value_type)) { result.cvalue = get_implicit_cast_expression (result.cvalue, value.value_type, result.value_type, node); if (!(result.cvalue is CCodeConstantIdentifier)) { result = (GLibValue) store_temp_value (result, node); } } result.cvalue = new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, result.cvalue); result.lvalue = false; result.value_type.nullable = true; } else if (unboxing) { // unbox value result.cvalue = new CCodeUnaryExpression (CCodeUnaryOperator.POINTER_INDIRECTION, result.cvalue); } else { // TODO: rewrite get_implicit_cast_expression to return a GLibValue var old_cexpr = result.cvalue; result.cvalue = get_implicit_cast_expression (result.cvalue, type, target_type, node); result.lvalue = result.lvalue && result.cvalue == old_cexpr; } bool array_needs_copy = false; if (type is ArrayType && target_type is ArrayType) { var array = (ArrayType) type; var target_array = (ArrayType) target_type; if (target_array.element_type.value_owned && !array.element_type.value_owned) { array_needs_copy = requires_copy (target_array.element_type); } } if (!gvalue_boxing && !gvariant_boxing && target_type.value_owned && (!type.value_owned || boxing || unboxing || array_needs_copy) && requires_copy (target_type) && !(type is NullType)) { // need to copy value var copy = (GLibValue) copy_value (result, node); // need to free old array after copying it if (array_needs_copy && requires_destroy (type)) { result.value_type = type.copy (); ccode.add_expression (destroy_value (result)); } result = copy; // implicit array copying is deprecated, but allow it for internal codegen usage var prop_acc = node as PropertyAccessor; if ((prop_acc != null && !prop_acc.automatic_body) && result.value_type is ArrayType) { Report.deprecated (node.source_reference, "implicit copy of array is deprecated, explicitly invoke the copy method instead"); } } return result; } public virtual CCodeExpression get_implicit_cast_expression (CCodeExpression source_cexpr, DataType? expression_type, DataType? target_type, CodeNode? node) { var cexpr = source_cexpr; if (expression_type.type_symbol != null && expression_type.type_symbol == target_type.type_symbol) { // same type, no cast required return cexpr; } if (expression_type is NullType) { // null literal, no cast required when not converting to generic type pointer return cexpr; } generate_type_declaration (target_type, cfile); unowned Class? cl = target_type.type_symbol as Class; unowned Interface? iface = target_type.type_symbol as Interface; if (context.checking && (iface != null || (cl != null && !cl.is_compact))) { // checked cast for strict subtypes of GTypeInstance return generate_instance_cast (cexpr, target_type.type_symbol); } else if (target_type.type_symbol != null && get_ccode_name (expression_type) != get_ccode_name (target_type)) { unowned Struct? st = target_type.type_symbol as Struct; if (target_type.type_symbol.is_reference_type () || (st != null && st.is_simple_type ())) { // don't cast non-simple structs return new CCodeCastExpression (cexpr, get_ccode_name (target_type)); } else { return cexpr; } } else { return cexpr; } } public void store_property (Property prop, Expression? instance, TargetValue value) { unowned Property base_prop = prop; if (prop.base_property != null) { base_prop = prop.base_property; } else if (prop.base_interface_property != null) { base_prop = prop.base_interface_property; } if (instance is BaseAccess && (base_prop.is_abstract || base_prop.is_virtual)) { CCodeExpression? vcast = null; if (base_prop.parent_symbol is Class) { unowned Class base_class = (Class) base_prop.parent_symbol; vcast = new CCodeFunctionCall (new CCodeIdentifier (get_ccode_class_type_function (base_class))); ((CCodeFunctionCall) vcast).add_argument (new CCodeIdentifier ("%s_parent_class".printf (get_ccode_lower_case_name (current_class)))); } else if (base_prop.parent_symbol is Interface) { unowned Interface base_iface = (Interface) base_prop.parent_symbol; vcast = get_this_interface_cexpression (base_iface); } if (vcast != null) { var ccall = new CCodeFunctionCall (new CCodeMemberAccess.pointer (vcast, "set_%s".printf (prop.name))); ccall.add_argument ((CCodeExpression) get_ccodenode (instance)); var cexpr = get_cvalue_ (value); if (prop.property_type.is_real_non_null_struct_type ()) { //TODO Make use of get_lvalue (value) if (!(cexpr is CCodeConstant || cexpr is CCodeIdentifier)) { var temp_value = store_temp_value (value, instance); cexpr = get_cvalue_ (temp_value); } cexpr = new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, cexpr); } ccall.add_argument (cexpr); ccode.add_expression (ccall); } else { Report.error (instance.source_reference, "internal: Invalid assignment to `%s'", base_prop.get_full_name ()); } return; } var set_func = "g_object_set"; if (!get_ccode_no_accessor_method (prop) && !(prop is DynamicProperty)) { generate_property_accessor_declaration (base_prop.set_accessor, cfile); set_func = get_ccode_name (base_prop.set_accessor); if (!prop.external && prop.external_package) { // internal VAPI properties // only add them once per source file if (add_generated_external_symbol (prop)) { visit_property (prop); } } } var ccall = new CCodeFunctionCall (new CCodeIdentifier (set_func)); if (prop.binding == MemberBinding.INSTANCE) { /* target instance is first argument */ var cinstance = (CCodeExpression) get_ccodenode (instance); if (prop.parent_symbol is Struct && !((Struct) prop.parent_symbol).is_simple_type ()) { // we need to pass struct instance by reference if it isn't a simple-type var instance_value = instance.target_value; if (!get_lvalue (instance_value)) { instance_value = store_temp_value (instance_value, instance); } cinstance = new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, get_cvalue_ (instance_value)); } ccall.add_argument (cinstance); } if (get_ccode_no_accessor_method (prop) || prop is DynamicProperty) { /* property name is second argument of g_object_set */ ccall.add_argument (get_property_canonical_cconstant (prop)); } var cexpr = get_cvalue_ (value); if (prop.property_type.is_real_non_null_struct_type ()) { //TODO Make use of get_lvalue (value) if (!(cexpr is CCodeConstant || cexpr is CCodeIdentifier)) { var temp_value = store_temp_value (value, instance); cexpr = get_cvalue_ (temp_value); } cexpr = new CCodeUnaryExpression (CCodeUnaryOperator.ADDRESS_OF, cexpr); } var array_type = prop.property_type as ArrayType; ccall.add_argument (cexpr); if (array_type != null && get_ccode_array_length (prop)) { for (int dim = 1; dim <= array_type.rank; dim++) { ccall.add_argument (get_array_length_cvalue (value, dim)); } } else if (prop.property_type is DelegateType) { var delegate_type = (DelegateType) prop.property_type; if (get_ccode_delegate_target (prop) && delegate_type.delegate_symbol.has_target) { ccall.add_argument (get_delegate_target_cvalue (value)); if (base_prop.set_accessor.value_type.value_owned) { ccall.add_argument (get_delegate_target_destroy_notify_cvalue (value)); } } } if (get_ccode_no_accessor_method (prop) || prop is DynamicProperty) { ccall.add_argument (new CCodeConstant ("NULL")); } ccode.add_expression (ccall); } public bool add_wrapper (string wrapper_name) { return wrappers.add (wrapper_name); } public bool add_generated_external_symbol (Symbol external_symbol) { return generated_external_symbols.add (external_symbol); } public static DataType get_callable_creturn_type (Callable c) { assert (c is Method || c is Delegate); var creturn_type = c.return_type.copy (); if (c is CreationMethod) { unowned Class? cl = c.parent_symbol as Class; unowned Struct? st = c.parent_symbol as Struct; if (cl != null) { // object creation methods return the new object in C // in Vala they have no return type creturn_type = new ObjectType (cl); } else if (st != null && st.is_simple_type ()) { // constructors return simple type structs by value creturn_type = new StructValueType (st); } } else if (c.return_type.is_real_non_null_struct_type ()) { // structs are returned via out parameter creturn_type = new VoidType (); } return creturn_type; } public CCodeExpression? default_value_for_type (DataType type, bool initializer_expression, bool on_error = false) { unowned Struct? st = type.type_symbol as Struct; var array_type = type as ArrayType; if (type.type_symbol != null && !type.nullable && (on_error ? get_ccode_default_value_on_error (type.type_symbol) : get_ccode_default_value (type.type_symbol)) != "") { CCodeExpression val = new CCodeConstant (on_error ? get_ccode_default_value_on_error (type.type_symbol) : get_ccode_default_value (type.type_symbol)); if (st != null && st.get_fields ().size > 0) { val = new CCodeCastExpression (val, get_ccode_name (st)); } return val; } else if (initializer_expression && !type.nullable && (st != null || (array_type != null && array_type.fixed_length))) { // 0-initialize struct with struct initializer { 0 } // only allowed as initializer expression in C var clist = new CCodeInitializerList (); clist.append (new CCodeConstant ("0")); return clist; } else if ((type.type_symbol != null && type.type_symbol.is_reference_type ()) || type.nullable || type is PointerType || type is DelegateType || (array_type != null && !array_type.fixed_length)) { return new CCodeConstant ("NULL"); } else if (type is GenericType) { return new CCodeConstant ("NULL"); } else if (type is ErrorType) { return new CCodeConstant ("NULL"); } else if (type is CType) { return new CCodeConstant (((CType) type).cdefault_value); } return null; } private void create_property_type_check_statement (Property prop, bool check_return_type, TypeSymbol t, bool non_null, string var_name) { if (check_return_type) { create_type_check_statement (prop, prop.property_type, t, non_null, var_name); } else { create_type_check_statement (prop, new VoidType (), t, non_null, var_name); } } public virtual void create_type_check_statement (CodeNode method_node, DataType ret_type, TypeSymbol t, bool non_null, string var_name) { } public int get_param_pos (double param_pos, bool ellipsis = false) { if (!ellipsis) { if (param_pos >= 0) { return (int) (param_pos * 1000); } else { return (int) ((100 + param_pos) * 1000); } } else { if (param_pos >= 0) { return (int) ((100 + param_pos) * 1000); } else { return (int) ((200 + param_pos) * 1000); } } } public CCodeExpression? get_ccodenode (Expression node) { if (get_cvalue (node) == null) { node.emit (this); } return get_cvalue (node); } public bool is_lvalue_access_allowed (DataType type) { var array_type = type as ArrayType; if (array_type != null && array_type.inline_allocated) { return false; } if (type.type_symbol != null) { return type.type_symbol.get_attribute_bool ("CCode", "lvalue_access", true); } return true; } public bool requires_memset_init (Variable variable, out CCodeExpression? size) { unowned ArrayType? array_type = variable.variable_type as ArrayType; if (array_type != null && array_type.fixed_length) { var sizeof_call = new CCodeFunctionCall (new CCodeIdentifier ("sizeof")); sizeof_call.add_argument (new CCodeIdentifier (get_ccode_name (array_type.element_type))); size = new CCodeBinaryExpression (CCodeBinaryOperator.MUL, get_ccodenode (array_type.length), sizeof_call); return !is_constant_ccode (array_type.length); } size = null; return false; } public CCodeDeclaratorSuffix? get_ccode_declarator_suffix (DataType type) { var array_type = type as ArrayType; if (array_type != null) { if (array_type.fixed_length) { return new CCodeDeclaratorSuffix.with_array (get_ccodenode (array_type.length)); } else if (array_type.inline_allocated) { return new CCodeDeclaratorSuffix.with_array (); } } return null; } public CCodeConstant get_signal_canonical_constant (Signal sig, string? detail = null) { return new CCodeConstant ("\"%s%s\"".printf (get_ccode_name (sig), (detail != null ? "::%s".printf (detail) : ""))); } public CCodeConstant get_property_canonical_cconstant (Property prop) { return new CCodeConstant ("\"%s\"".printf (get_ccode_name (prop))); } public override void visit_class (Class cl) { } public void create_postcondition_statement (Expression postcondition) { var cassert = new CCodeFunctionCall (new CCodeIdentifier ("_vala_warn_if_fail")); postcondition.emit (this); string message = ((string) postcondition.source_reference.begin.pos).substring (0, (int) (postcondition.source_reference.end.pos - postcondition.source_reference.begin.pos)); cassert.add_argument (get_cvalue (postcondition)); cassert.add_argument (new CCodeConstant ("\"%s\"".printf (message.replace ("\n", " ").escape ("")))); requires_assert = true; ccode.add_expression (cassert); foreach (var value in temp_ref_values) { ccode.add_expression (destroy_value (value)); } temp_ref_values.clear (); } public unowned DataType? get_this_type () { if (current_method != null && current_method.binding == MemberBinding.INSTANCE) { return current_method.this_parameter.variable_type; } else if (current_property_accessor != null && current_property_accessor.prop.binding == MemberBinding.INSTANCE) { return current_property_accessor.prop.this_parameter.variable_type; } else if (current_constructor != null && current_constructor.binding == MemberBinding.INSTANCE) { return current_constructor.this_parameter.variable_type; } else if (current_destructor != null && current_destructor.binding == MemberBinding.INSTANCE) { return current_destructor.this_parameter.variable_type; } return null; } public CCodeFunctionCall generate_instance_cast (CCodeExpression expr, TypeSymbol type) { var result = new CCodeFunctionCall (new CCodeIdentifier ("G_TYPE_CHECK_INSTANCE_CAST")); result.add_argument (expr); result.add_argument (new CCodeIdentifier (get_ccode_type_id (type))); result.add_argument (new CCodeIdentifier (get_ccode_name (type))); return result; } void generate_struct_destroy_function (Struct st) { if (cfile.add_declaration (get_ccode_destroy_function (st))) { // only generate function once per source file return; } var function = new CCodeFunction (get_ccode_destroy_function (st), "void"); function.modifiers = CCodeModifiers.STATIC; function.add_parameter (new CCodeParameter ("self", "%s *".printf (get_ccode_name (st)))); push_context (new EmitContext ()); push_function (function); var this_value = load_this_parameter (st); foreach (Field f in st.get_fields ()) { if (f.binding == MemberBinding.INSTANCE) { if ((!(f.variable_type is DelegateType) || get_ccode_delegate_target (f)) && requires_destroy (f.variable_type)) { ccode.add_expression (destroy_field (f, this_value)); } } } pop_function (); pop_context (); cfile.add_function_declaration (function); cfile.add_function (function); } void generate_struct_copy_function (Struct st) { if (cfile.add_declaration (get_ccode_copy_function (st))) { // only generate function once per source file return; } var function = new CCodeFunction (get_ccode_copy_function (st), "void"); function.modifiers = CCodeModifiers.STATIC; function.add_parameter (new CCodeParameter ("self", "const %s *".printf (get_ccode_name (st)))); function.add_parameter (new CCodeParameter ("dest", "%s *".printf (get_ccode_name (st)))); push_context (new EmitContext ()); push_function (function); var dest_struct = new GLibValue (SemanticAnalyzer.get_data_type_for_symbol (st), new CCodeIdentifier ("(*dest)"), true); foreach (Field f in st.get_fields ()) { if (f.binding == MemberBinding.INSTANCE) { var value = load_field (f, load_this_parameter ((TypeSymbol) st)); if ((!(f.variable_type is DelegateType) || get_ccode_delegate_target (f)) && requires_copy (f.variable_type)) { value = copy_value (value, f); if (value == null) { // error case, continue to avoid critical continue; } } store_field (f, dest_struct, value, false); } } pop_function (); pop_context (); cfile.add_function_declaration (function); cfile.add_function (function); } public void return_default_value (DataType return_type, bool on_error = false) { unowned Struct? st = return_type.type_symbol as Struct; if (st != null && st.is_simple_type () && !return_type.nullable) { // 0-initialize struct with struct initializer { 0 } // only allowed as initializer expression in C var ret_temp_var = get_temp_variable (return_type, true, null, true); emit_temp_var (ret_temp_var, on_error); ccode.add_return (new CCodeIdentifier (ret_temp_var.name)); } else { ccode.add_return (default_value_for_type (return_type, false, on_error)); } } public virtual void generate_dynamic_method_wrapper (DynamicMethod method) { } public virtual CCodeExpression get_param_spec_cexpression (Property prop) { return new CCodeInvalidExpression (); } public virtual CCodeExpression get_param_spec (Property prop) { return new CCodeInvalidExpression (); } public virtual CCodeExpression get_signal_creation (Signal sig, ObjectTypeSymbol type) { return new CCodeInvalidExpression (); } public virtual CCodeExpression get_value_getter_function (DataType type_reference) { return new CCodeInvalidExpression (); } public virtual CCodeExpression get_value_setter_function (DataType type_reference) { return new CCodeInvalidExpression (); } public virtual CCodeExpression get_value_taker_function (DataType type_reference) { return new CCodeInvalidExpression (); } public virtual void register_dbus_info (CCodeBlock block, ObjectTypeSymbol bindable) { } public virtual string get_dynamic_signal_cname (DynamicSignal node) { return ""; } public virtual string get_array_length_cname (string array_cname, int dim) { return ""; } public virtual string get_variable_array_length_cname (Variable variable, int dim) { return ""; } public virtual CCodeExpression get_array_length_cexpression (Expression array_expr, int dim = -1) { return new CCodeInvalidExpression (); } public virtual CCodeExpression get_array_length_cvalue (TargetValue value, int dim = -1) { return new CCodeInvalidExpression (); } public virtual string get_array_size_cname (string array_cname) { return ""; } public virtual void add_simple_check (CodeNode node, bool always_fails = false) { } public virtual string generate_ready_function (Method m) { return ""; } public CCodeExpression get_boolean_cconstant (bool b) { if (context.profile == Profile.GOBJECT) { cfile.add_include ("glib.h"); return new CCodeConstant (b ? "TRUE" : "FALSE"); } else { cfile.add_include ("stdbool.h"); return new CCodeConstant (b ? "true" : "false"); } } }