/************************************************************************** ** ** This file is part of Qt Creator ** ** Copyright (c) 2012 Nokia Corporation and/or its subsidiary(-ies). ** ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** ** GNU Lesser General Public License Usage ** ** 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. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** Other Usage ** ** Alternatively, this file may be used in accordance with the terms and ** conditions contained in a signed written agreement between you and Nokia. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** **************************************************************************/ #include "DeprecatedGenTemplateInstance.h" #include "Overview.h" #include #include #include #include #include #include #include #include using namespace CPlusPlus; namespace { class ApplySubstitution { public: ApplySubstitution(Control *control, Symbol *symbol, const DeprecatedGenTemplateInstance::Substitution &substitution); ~ApplySubstitution(); inline Control *control() const { return _control; } FullySpecifiedType apply(const Name *name); FullySpecifiedType apply(const FullySpecifiedType &type); int findSubstitution(const Identifier *id) const; FullySpecifiedType applySubstitution(int index) const; private: class ApplyToType: protected TypeVisitor { public: ApplyToType(ApplySubstitution *q) : q(q) {} FullySpecifiedType operator()(const FullySpecifiedType &ty) { FullySpecifiedType previousType = switchType(ty); accept(ty.type()); return switchType(previousType); } protected: using TypeVisitor::visit; Control *control() const { return q->control(); } FullySpecifiedType switchType(const FullySpecifiedType &type) { FullySpecifiedType previousType = _type; _type = type; return previousType; } virtual void visit(VoidType *) { // nothing to do } virtual void visit(IntegerType *) { // nothing to do } virtual void visit(FloatType *) { // nothing to do } virtual void visit(PointerToMemberType *) { qDebug() << Q_FUNC_INFO; // ### TODO } virtual void visit(PointerType *ptrTy) { _type.setType(control()->pointerType(q->apply(ptrTy->elementType()))); } virtual void visit(ReferenceType *refTy) { _type.setType(control()->referenceType(q->apply(refTy->elementType()))); } virtual void visit(ArrayType *arrayTy) { _type.setType(control()->arrayType(q->apply(arrayTy->elementType()), arrayTy->size())); } virtual void visit(NamedType *ty) { FullySpecifiedType n = q->apply(ty->name()); _type.setType(n.type()); } virtual void visit(Function *funTy) { Function *fun = control()->newFunction(/*sourceLocation=*/ 0, funTy->name()); fun->setScope(funTy->enclosingScope()); fun->setConst(funTy->isConst()); fun->setVolatile(funTy->isVolatile()); fun->setVirtual(funTy->isVirtual()); fun->setAmbiguous(funTy->isAmbiguous()); fun->setVariadic(funTy->isVariadic()); fun->setReturnType(q->apply(funTy->returnType())); for (unsigned i = 0; i < funTy->argumentCount(); ++i) { Argument *originalArgument = funTy->argumentAt(i)->asArgument(); Argument *arg = control()->newArgument(/*sourceLocation*/ 0, originalArgument->name()); arg->setType(q->apply(originalArgument->type())); arg->setInitializer(originalArgument->initializer()); fun->addMember(arg); } _type.setType(fun); } virtual void visit(Namespace *) { qDebug() << Q_FUNC_INFO; } virtual void visit(Class *) { qDebug() << Q_FUNC_INFO; } virtual void visit(Enum *) { qDebug() << Q_FUNC_INFO; } virtual void visit(ForwardClassDeclaration *) { qDebug() << Q_FUNC_INFO; } virtual void visit(ObjCClass *) { qDebug() << Q_FUNC_INFO; } virtual void visit(ObjCProtocol *) { qDebug() << Q_FUNC_INFO; } virtual void visit(ObjCMethod *) { qDebug() << Q_FUNC_INFO; } virtual void visit(ObjCForwardClassDeclaration *) { qDebug() << Q_FUNC_INFO; } virtual void visit(ObjCForwardProtocolDeclaration *) { qDebug() << Q_FUNC_INFO; } private: ApplySubstitution *q; FullySpecifiedType _type; QHash _processed; }; class ApplyToName: protected NameVisitor { public: ApplyToName(ApplySubstitution *q): q(q) {} FullySpecifiedType operator()(const Name *name) { FullySpecifiedType previousType = switchType(FullySpecifiedType()); accept(name); return switchType(previousType); } protected: Control *control() const { return q->control(); } int findSubstitution(const Identifier *id) const { return q->findSubstitution(id); } FullySpecifiedType applySubstitution(int index) const { return q->applySubstitution(index); } FullySpecifiedType switchType(const FullySpecifiedType &type) { FullySpecifiedType previousType = _type; _type = type; return previousType; } virtual void visit(const Identifier *name) { int index = findSubstitution(name->identifier()); if (index != -1) _type = applySubstitution(index); else _type = control()->namedType(name); } virtual void visit(const TemplateNameId *name) { QVarLengthArray arguments(name->templateArgumentCount()); for (unsigned i = 0; i < name->templateArgumentCount(); ++i) { FullySpecifiedType argTy = name->templateArgumentAt(i); arguments[i] = q->apply(argTy); } const TemplateNameId *templId = control()->templateNameId(name->identifier(), arguments.data(), arguments.size()); _type = control()->namedType(templId); } const Name *instantiate(const Name *name) { if (! name) return name; else if (const Identifier *nameId = name->asNameId()) { const Identifier *id = control()->identifier(nameId->chars(), nameId->size()); return id; } else if (const TemplateNameId *templId = name->asTemplateNameId()) { QVarLengthArray arguments(templId->templateArgumentCount()); for (unsigned templateArgIndex = 0; templateArgIndex < templId->templateArgumentCount(); ++templateArgIndex) { FullySpecifiedType argTy = templId->templateArgumentAt(templateArgIndex); arguments[templateArgIndex] = q->apply(argTy); } const Identifier *id = control()->identifier(templId->identifier()->chars(), templId->identifier()->size()); return control()->templateNameId(id, arguments.data(), arguments.size()); } else if (const QualifiedNameId *qq = name->asQualifiedNameId()) { const Name *base = instantiate(qq->base()); const Name *name = instantiate(qq->name()); return control()->qualifiedNameId(base, name); } else if (const OperatorNameId *op = name->asOperatorNameId()) { return control()->operatorNameId(op->kind()); } else if (const ConversionNameId *c = name->asConversionNameId()) { FullySpecifiedType ty = q->apply(c->type()); return control()->conversionNameId(ty); } return 0; } virtual void visit(const QualifiedNameId *name) { if (const Name *n = instantiate(name)) _type = control()->namedType(n); } virtual void visit(const DestructorNameId *name) { Overview oo; qWarning() << "ignored name:" << oo(name); } virtual void visit(const OperatorNameId *name) { Overview oo; qWarning() << "ignored name:" << oo(name); } virtual void visit(const ConversionNameId *name) { Overview oo; qWarning() << "ignored name:" << oo(name); } virtual void visit(const SelectorNameId *name) { Overview oo; qWarning() << "ignored name:" << oo(name); } private: ApplySubstitution *q; FullySpecifiedType _type; }; public: // attributes Control *_control; Symbol *symbol; DeprecatedGenTemplateInstance::Substitution substitution; ApplyToType applyToType; ApplyToName applyToName; }; ApplySubstitution::ApplySubstitution(Control *control, Symbol *symbol, const DeprecatedGenTemplateInstance::Substitution &substitution) : _control(control), symbol(symbol), substitution(substitution), applyToType(this), applyToName(this) { } ApplySubstitution::~ApplySubstitution() { } FullySpecifiedType ApplySubstitution::apply(const Name *name) { FullySpecifiedType ty = applyToName(name); return ty; } FullySpecifiedType ApplySubstitution::apply(const FullySpecifiedType &type) { FullySpecifiedType ty = applyToType(type); return ty; } int ApplySubstitution::findSubstitution(const Identifier *id) const { Q_ASSERT(id != 0); for (int index = 0; index < substitution.size(); ++index) { QPair s = substitution.at(index); if (id->isEqualTo(s.first)) return index; } return -1; } FullySpecifiedType ApplySubstitution::applySubstitution(int index) const { Q_ASSERT(index != -1); Q_ASSERT(index < substitution.size()); return substitution.at(index).second; } } // end of anonymous namespace DeprecatedGenTemplateInstance::DeprecatedGenTemplateInstance(QSharedPointer control, const Substitution &substitution) : _symbol(0), _control(control), _substitution(substitution) { } FullySpecifiedType DeprecatedGenTemplateInstance::gen(Symbol *symbol) { ApplySubstitution o(_control.data(), symbol, _substitution); return o.apply(symbol->type()); } FullySpecifiedType DeprecatedGenTemplateInstance::instantiate(const Name *className, Symbol *candidate, QSharedPointer control) { if (className) { if (const TemplateNameId *templId = className->asTemplateNameId()) { if (Template *templ = candidate->enclosingTemplate()) { DeprecatedGenTemplateInstance::Substitution subst; for (unsigned i = 0; i < templId->templateArgumentCount(); ++i) { FullySpecifiedType templArgTy = templId->templateArgumentAt(i); if (i < templ->templateParameterCount()) { const Name *templArgName = templ->templateParameterAt(i)->name(); if (templArgName && templArgName->identifier()) { const Identifier *templArgId = templArgName->identifier(); subst.append(qMakePair(templArgId, templArgTy)); } } } DeprecatedGenTemplateInstance inst(control, subst); return inst.gen(candidate); } } } return candidate->type(); }