/************************************************************************** ** ** This file is part of Qt Creator ** ** Copyright (c) 2009 Nokia Corporation and/or its subsidiary(-ies). ** ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** Commercial Usage ** ** Licensees holding valid Qt Commercial licenses may use this file in ** accordance with the Qt Commercial License Agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and Nokia. ** ** GNU Lesser General Public License Usage ** ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** If you are unsure which license is appropriate for your use, please ** contact the sales department at http://qt.nokia.com/contact. ** **************************************************************************/ // Copyright (c) 2008 Roberto Raggi // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to deal // in the Software without restriction, including without limitation the rights // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell // copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN // THE SOFTWARE. #ifndef CPLUSPLUS_SYMBOLS_H #define CPLUSPLUS_SYMBOLS_H #include "CPlusPlusForwardDeclarations.h" #include "Symbol.h" #include "Type.h" #include "FullySpecifiedType.h" #include "Array.h" namespace CPlusPlus { class TemplateParameters { public: TemplateParameters(Scope *scope); TemplateParameters(TemplateParameters *previous, Scope *scope); ~TemplateParameters(); TemplateParameters *previous() const; Scope *scope() const; private: TemplateParameters *_previous; Scope *_scope; }; class CPLUSPLUS_EXPORT UsingNamespaceDirective: public Symbol { public: UsingNamespaceDirective(TranslationUnit *translationUnit, unsigned sourceLocation, Name *name); virtual ~UsingNamespaceDirective(); // Symbol's interface virtual FullySpecifiedType type() const; virtual const UsingNamespaceDirective *asUsingNamespaceDirective() const { return this; } virtual UsingNamespaceDirective *asUsingNamespaceDirective() { return this; } protected: virtual void visitSymbol0(SymbolVisitor *visitor); }; class CPLUSPLUS_EXPORT UsingDeclaration: public Symbol { public: UsingDeclaration(TranslationUnit *translationUnit, unsigned sourceLocation, Name *name); virtual ~UsingDeclaration(); // Symbol's interface virtual FullySpecifiedType type() const; virtual const UsingDeclaration *asUsingDeclaration() const { return this; } virtual UsingDeclaration *asUsingDeclaration() { return this; } protected: virtual void visitSymbol0(SymbolVisitor *visitor); }; class CPLUSPLUS_EXPORT Declaration: public Symbol { public: Declaration(TranslationUnit *translationUnit, unsigned sourceLocation, Name *name); virtual ~Declaration(); TemplateParameters *templateParameters() const; void setTemplateParameters(TemplateParameters *templateParameters); void setType(FullySpecifiedType type); // Symbol's interface virtual FullySpecifiedType type() const; virtual const Declaration *asDeclaration() const { return this; } virtual Declaration *asDeclaration() { return this; } protected: virtual void visitSymbol0(SymbolVisitor *visitor); private: FullySpecifiedType _type; TemplateParameters *_templateParameters; }; class CPLUSPLUS_EXPORT Argument: public Symbol { public: Argument(TranslationUnit *translationUnit, unsigned sourceLocation, Name *name); virtual ~Argument(); void setType(FullySpecifiedType type); bool hasInitializer() const; void setInitializer(bool hasInitializer); // Symbol's interface virtual FullySpecifiedType type() const; virtual const Argument *asArgument() const { return this; } virtual Argument *asArgument() { return this; } protected: virtual void visitSymbol0(SymbolVisitor *visitor); private: FullySpecifiedType _type; bool _initializer: 1; }; class CPLUSPLUS_EXPORT ScopedSymbol: public Symbol { public: ScopedSymbol(TranslationUnit *translationUnit, unsigned sourceLocation, Name *name); virtual ~ScopedSymbol(); unsigned memberCount() const; Symbol *memberAt(unsigned index) const; Scope *members() const; void addMember(Symbol *member); virtual const ScopedSymbol *asScopedSymbol() const { return this; } virtual ScopedSymbol *asScopedSymbol() { return this; } private: Scope *_members; }; class CPLUSPLUS_EXPORT Block: public ScopedSymbol { public: Block(TranslationUnit *translationUnit, unsigned sourceLocation); virtual ~Block(); // Symbol's interface virtual FullySpecifiedType type() const; virtual const Block *asBlock() const { return this; } virtual Block *asBlock() { return this; } protected: virtual void visitSymbol0(SymbolVisitor *visitor); }; class CPLUSPLUS_EXPORT ForwardClassDeclaration: public Symbol, public Type { public: ForwardClassDeclaration(TranslationUnit *translationUnit, unsigned sourceLocation, Name *name); virtual ~ForwardClassDeclaration(); TemplateParameters *templateParameters() const; void setTemplateParameters(TemplateParameters *templateParameters); virtual FullySpecifiedType type() const; virtual bool isEqualTo(const Type *other) const; virtual const ForwardClassDeclaration *asForwardClassDeclaration() const { return this; } virtual ForwardClassDeclaration *asForwardClassDeclaration() { return this; } virtual const ForwardClassDeclaration *asForwardClassDeclarationType() const { return this; } virtual ForwardClassDeclaration *asForwardClassDeclarationType() { return this; } protected: virtual void visitSymbol0(SymbolVisitor *visitor); virtual void accept0(TypeVisitor *visitor); private: TemplateParameters *_templateParameters; }; class CPLUSPLUS_EXPORT Enum: public ScopedSymbol, public Type { public: Enum(TranslationUnit *translationUnit, unsigned sourceLocation, Name *name); virtual ~Enum(); // Symbol's interface virtual FullySpecifiedType type() const; // Type's interface virtual bool isEqualTo(const Type *other) const; virtual const Enum *asEnum() const { return this; } virtual Enum *asEnum() { return this; } virtual const Enum *asEnumType() const { return this; } virtual Enum *asEnumType() { return this; } protected: virtual void visitSymbol0(SymbolVisitor *visitor); virtual void accept0(TypeVisitor *visitor); }; class CPLUSPLUS_EXPORT Function: public ScopedSymbol, public Type { public: enum MethodKey { NormalMethod, SlotMethod, SignalMethod }; public: Function(TranslationUnit *translationUnit, unsigned sourceLocation, Name *name); virtual ~Function(); bool isNormal() const; bool isSignal() const; bool isSlot() const; int methodKey() const; void setMethodKey(int key); unsigned templateParameterCount() const; // ### remove me Symbol *templateParameterAt(unsigned index) const; // ### remove me TemplateParameters *templateParameters() const; void setTemplateParameters(TemplateParameters *templateParameters); FullySpecifiedType returnType() const; void setReturnType(FullySpecifiedType returnType); /** Convenience function that returns whether the function returns something (including void). */ bool hasReturnType() const; unsigned argumentCount() const; Symbol *argumentAt(unsigned index) const; Scope *arguments() const; /** Convenience function that returns whether the function receives any arguments. */ bool hasArguments() const; bool isVirtual() const; void setVirtual(bool isVirtual); bool isVariadic() const; void setVariadic(bool isVariadic); bool isConst() const; void setConst(bool isConst); bool isVolatile() const; void setVolatile(bool isVolatile); bool isPureVirtual() const; void setPureVirtual(bool isPureVirtual); // Symbol's interface virtual FullySpecifiedType type() const; // Type's interface virtual bool isEqualTo(const Type *other) const; virtual const Function *asFunction() const { return this; } virtual Function *asFunction() { return this; } virtual const Function *asFunctionType() const { return this; } virtual Function *asFunctionType() { return this; } bool isAmbiguous() const; // internal void setAmbiguous(bool isAmbiguous); // internal protected: virtual void visitSymbol0(SymbolVisitor *visitor); virtual void accept0(TypeVisitor *visitor); private: TemplateParameters *_templateParameters; FullySpecifiedType _returnType; struct Flags { unsigned _isVirtual: 1; unsigned _isVariadic: 1; unsigned _isPureVirtual: 1; unsigned _isConst: 1; unsigned _isVolatile: 1; unsigned _isAmbiguous: 1; unsigned _methodKey: 3; }; union { unsigned _flags; Flags f; }; Scope *_arguments; }; class CPLUSPLUS_EXPORT Namespace: public ScopedSymbol, public Type { public: Namespace(TranslationUnit *translationUnit, unsigned sourceLocation, Name *name); virtual ~Namespace(); // Symbol's interface virtual FullySpecifiedType type() const; // Type's interface virtual bool isEqualTo(const Type *other) const; virtual const Namespace *asNamespace() const { return this; } virtual Namespace *asNamespace() { return this; } virtual const Namespace *asNamespaceType() const { return this; } virtual Namespace *asNamespaceType() { return this; } protected: virtual void visitSymbol0(SymbolVisitor *visitor); virtual void accept0(TypeVisitor *visitor); }; class CPLUSPLUS_EXPORT BaseClass: public Symbol { public: BaseClass(TranslationUnit *translationUnit, unsigned sourceLocation, Name *name); virtual ~BaseClass(); bool isVirtual() const; void setVirtual(bool isVirtual); // Symbol's interface virtual FullySpecifiedType type() const; virtual const BaseClass *asBaseClass() const { return this; } virtual BaseClass *asBaseClass() { return this; } protected: virtual void visitSymbol0(SymbolVisitor *visitor); private: bool _isVirtual; }; class CPLUSPLUS_EXPORT Class: public ScopedSymbol, public Type { public: Class(TranslationUnit *translationUnit, unsigned sourceLocation, Name *name); virtual ~Class(); enum Key { ClassKey, StructKey, UnionKey }; bool isClass() const; bool isStruct() const; bool isUnion() const; Key classKey() const; void setClassKey(Key key); unsigned templateParameterCount() const; // ### remove me Symbol *templateParameterAt(unsigned index) const; // ### remove me TemplateParameters *templateParameters() const; void setTemplateParameters(TemplateParameters *templateParameters); unsigned baseClassCount() const; BaseClass *baseClassAt(unsigned index) const; void addBaseClass(BaseClass *baseClass); // Symbol's interface virtual FullySpecifiedType type() const; // Type's interface virtual bool isEqualTo(const Type *other) const; virtual const Class *asClass() const { return this; } virtual Class *asClass() { return this; } virtual const Class *asClassType() const { return this; } virtual Class *asClassType() { return this; } protected: virtual void visitSymbol0(SymbolVisitor *visitor); virtual void accept0(TypeVisitor *visitor); private: Key _key; TemplateParameters *_templateParameters; Array _baseClasses; }; class CPLUSPLUS_EXPORT ObjCBaseClass: public Symbol { public: ObjCBaseClass(TranslationUnit *translationUnit, unsigned sourceLocation, Name *name); virtual ~ObjCBaseClass(); // Symbol's interface virtual FullySpecifiedType type() const; virtual const ObjCBaseClass *asObjCBaseClass() const { return this; } virtual ObjCBaseClass *asObjCBaseClass() { return this; } protected: virtual void visitSymbol0(SymbolVisitor *visitor); private: }; class CPLUSPLUS_EXPORT ObjCBaseProtocol: public Symbol { public: ObjCBaseProtocol(TranslationUnit *translationUnit, unsigned sourceLocation, Name *name); virtual ~ObjCBaseProtocol(); // Symbol's interface virtual FullySpecifiedType type() const; virtual const ObjCBaseProtocol *asObjCBaseProtocol() const { return this; } virtual ObjCBaseProtocol *asObjCBaseProtocol() { return this; } protected: virtual void visitSymbol0(SymbolVisitor *visitor); private: }; class CPLUSPLUS_EXPORT ObjCForwardProtocolDeclaration: public Symbol, public Type { public: ObjCForwardProtocolDeclaration(TranslationUnit *translationUnit, unsigned sourceLocation, Name *name); virtual ~ObjCForwardProtocolDeclaration(); virtual FullySpecifiedType type() const; virtual bool isEqualTo(const Type *other) const; virtual const ObjCForwardProtocolDeclaration *asObjCForwardProtocolDeclaration() const { return this; } virtual ObjCForwardProtocolDeclaration *asObjCForwardProtocolDeclaration() { return this; } virtual const ObjCForwardProtocolDeclaration *asObjCForwardProtocolDeclarationType() const { return this; } virtual ObjCForwardProtocolDeclaration *asObjCForwardProtocolDeclarationType() { return this; } protected: virtual void visitSymbol0(SymbolVisitor *visitor); virtual void accept0(TypeVisitor *visitor); private: }; class CPLUSPLUS_EXPORT ObjCProtocol: public ScopedSymbol, public Type { public: ObjCProtocol(TranslationUnit *translationUnit, unsigned sourceLocation, Name *name); virtual ~ObjCProtocol(); unsigned protocolCount() const { return _protocols.count(); } ObjCBaseProtocol *protocolAt(unsigned index) const { return _protocols.at(index); } void addProtocol(ObjCBaseProtocol *protocol) { _protocols.push_back(protocol); } // Symbol's interface virtual FullySpecifiedType type() const; // Type's interface virtual bool isEqualTo(const Type *other) const; virtual const ObjCProtocol *asObjCProtocol() const { return this; } virtual ObjCProtocol *asObjCProtocol() { return this; } virtual const ObjCProtocol *asObjCProtocolType() const { return this; } virtual ObjCProtocol *asObjCProtocolType() { return this; } protected: virtual void visitSymbol0(SymbolVisitor *visitor); virtual void accept0(TypeVisitor *visitor); private: Array _protocols; }; class CPLUSPLUS_EXPORT ObjCForwardClassDeclaration: public Symbol, public Type { public: ObjCForwardClassDeclaration(TranslationUnit *translationUnit, unsigned sourceLocation, Name *name); virtual ~ObjCForwardClassDeclaration(); virtual FullySpecifiedType type() const; virtual bool isEqualTo(const Type *other) const; virtual const ObjCForwardClassDeclaration *asObjCForwardClassDeclaration() const { return this; } virtual ObjCForwardClassDeclaration *asObjCForwardClassDeclaration() { return this; } virtual const ObjCForwardClassDeclaration *asObjCForwardClassDeclarationType() const { return this; } virtual ObjCForwardClassDeclaration *asObjCForwardClassDeclarationType() { return this; } protected: virtual void visitSymbol0(SymbolVisitor *visitor); virtual void accept0(TypeVisitor *visitor); private: }; class CPLUSPLUS_EXPORT ObjCClass: public ScopedSymbol, public Type { public: ObjCClass(TranslationUnit *translationUnit, unsigned sourceLocation, Name *name); virtual ~ObjCClass(); bool isInterface() const { return _isInterface; } void setInterface(bool isInterface) { _isInterface = isInterface; } bool isCategory() const { return _categoryName != 0; } Name *categoryName() const { return _categoryName; } void setCategoryName(Name *categoryName) { _categoryName = categoryName; } ObjCBaseClass *baseClass() const { return _baseClass; } void setBaseClass(ObjCBaseClass *baseClass) { _baseClass = baseClass; } unsigned protocolCount() const { return _protocols.count(); } ObjCBaseProtocol *protocolAt(unsigned index) const { return _protocols.at(index); } void addProtocol(ObjCBaseProtocol *protocol) { _protocols.push_back(protocol); } // Symbol's interface virtual FullySpecifiedType type() const; // Type's interface virtual bool isEqualTo(const Type *other) const; virtual const ObjCClass *asObjCClass() const { return this; } virtual ObjCClass *asObjCClass() { return this; } virtual const ObjCClass *asObjCClassType() const { return this; } virtual ObjCClass *asObjCClassType() { return this; } protected: virtual void visitSymbol0(SymbolVisitor *visitor); virtual void accept0(TypeVisitor *visitor); private: bool _isInterface; Name *_categoryName; ObjCBaseClass * _baseClass; Array _protocols; }; class CPLUSPLUS_EXPORT ObjCMethod: public ScopedSymbol, public Type { public: ObjCMethod(TranslationUnit *translationUnit, unsigned sourceLocation, Name *name); virtual ~ObjCMethod(); FullySpecifiedType returnType() const; void setReturnType(FullySpecifiedType returnType); /** Convenience function that returns whether the function returns something (including void). */ bool hasReturnType() const; unsigned argumentCount() const; Symbol *argumentAt(unsigned index) const; Scope *arguments() const; /** Convenience function that returns whether the function receives any arguments. */ bool hasArguments() const; bool isVariadic() const; void setVariadic(bool isVariadic); // Symbol's interface virtual FullySpecifiedType type() const; // Type's interface virtual bool isEqualTo(const Type *other) const; virtual const ObjCMethod *asObjCMethod() const { return this; } virtual ObjCMethod *asObjCMethod() { return this; } virtual const ObjCMethod *asObjCMethodType() const { return this; } virtual ObjCMethod *asObjCMethodType() { return this; } protected: virtual void visitSymbol0(SymbolVisitor *visitor); virtual void accept0(TypeVisitor *visitor); private: FullySpecifiedType _returnType; struct Flags { unsigned _isVariadic: 1; }; union { unsigned _flags; Flags f; }; Scope *_arguments; }; } // end of namespace CPlusPlus #endif // CPLUSPLUS_SYMBOLS_H