/**************************************************************************** ** ** Copyright (C) 2014 Digia Plc and/or its subsidiary(-ies). ** Contact: http://www.qt-project.org/legal ** ** This file is part of Qt Creator. ** ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and Digia. For licensing terms and ** conditions see http://www.qt.io/licensing. For further information ** use the contact form at http://www.qt.io/contact-us. ** ** 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 or version 3 as published by the Free ** Software Foundation and appearing in the file LICENSE.LGPLv21 and ** LICENSE.LGPLv3 included in the packaging of this file. Please review the ** following information to ensure the GNU Lesser General Public License ** requirements will be met: https://www.gnu.org/licenses/lgpl.html and ** http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Digia gives you certain additional ** rights. These rights are described in the Digia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ****************************************************************************/ #include "CppRewriter.h" #include "Overview.h" #include #include #include #include #include #include #include #include #include namespace CPlusPlus { class Rewrite { public: Rewrite(Control *control, SubstitutionEnvironment *env) : control(control), env(env), rewriteType(this), rewriteName(this) {} class RewriteType: public TypeVisitor { Rewrite *rewrite; QList temps; Control *control() const { return rewrite->control; } void accept(const FullySpecifiedType &ty) { TypeVisitor::accept(ty.type()); unsigned flags = ty.flags(); flags |= temps.back().flags(); temps.back().setFlags(flags); } public: RewriteType(Rewrite *r): rewrite(r) {} FullySpecifiedType operator()(const FullySpecifiedType &ty) { accept(ty); return temps.takeLast(); } virtual void visit(UndefinedType *) { temps.append(FullySpecifiedType()); } virtual void visit(VoidType *) { temps.append(control()->voidType()); } virtual void visit(IntegerType *type) { temps.append(control()->integerType(type->kind())); } virtual void visit(FloatType *type) { temps.append(control()->floatType(type->kind())); } virtual void visit(PointerToMemberType *type) { const Name *memberName = rewrite->rewriteName(type->memberName()); const FullySpecifiedType elementType = rewrite->rewriteType(type->elementType()); temps.append(control()->pointerToMemberType(memberName, elementType)); } virtual void visit(PointerType *type) { const FullySpecifiedType elementType = rewrite->rewriteType(type->elementType()); temps.append(control()->pointerType(elementType)); } virtual void visit(ReferenceType *type) { const FullySpecifiedType elementType = rewrite->rewriteType(type->elementType()); temps.append(control()->referenceType(elementType, type->isRvalueReference())); } virtual void visit(ArrayType *type) { const FullySpecifiedType elementType = rewrite->rewriteType(type->elementType()); temps.append(control()->arrayType(elementType, type->size())); } virtual void visit(NamedType *type) { FullySpecifiedType ty = rewrite->env->apply(type->name(), rewrite); if (! ty->isUndefinedType()) { temps.append(ty); } else { const Name *name = rewrite->rewriteName(type->name()); temps.append(control()->namedType(name)); } } virtual void visit(Function *type) { Function *funTy = control()->newFunction(0, 0); funTy->copy(type); funTy->setConst(type->isConst()); funTy->setVolatile(type->isVolatile()); funTy->setName(rewrite->rewriteName(type->name())); funTy->setReturnType(rewrite->rewriteType(type->returnType())); for (unsigned i = 0, argc = type->argumentCount(); i < argc; ++i) { Symbol *arg = type->argumentAt(i); Argument *newArg = control()->newArgument(0, 0); newArg->copy(arg); newArg->setName(rewrite->rewriteName(arg->name())); newArg->setType(rewrite->rewriteType(arg->type())); // the copy() call above set the scope to 'type' // reset it to 0 before adding addMember to avoid assert newArg->resetEnclosingScope(); funTy->addMember(newArg); } temps.append(funTy); } virtual void visit(Namespace *type) { qWarning() << Q_FUNC_INFO; temps.append(type); } virtual void visit(Class *type) { qWarning() << Q_FUNC_INFO; temps.append(type); } virtual void visit(Enum *type) { qWarning() << Q_FUNC_INFO; temps.append(type); } virtual void visit(ForwardClassDeclaration *type) { qWarning() << Q_FUNC_INFO; temps.append(type); } virtual void visit(ObjCClass *type) { qWarning() << Q_FUNC_INFO; temps.append(type); } virtual void visit(ObjCProtocol *type) { qWarning() << Q_FUNC_INFO; temps.append(type); } virtual void visit(ObjCMethod *type) { qWarning() << Q_FUNC_INFO; temps.append(type); } virtual void visit(ObjCForwardClassDeclaration *type) { qWarning() << Q_FUNC_INFO; temps.append(type); } virtual void visit(ObjCForwardProtocolDeclaration *type) { qWarning() << Q_FUNC_INFO; temps.append(type); } }; class RewriteName: public NameVisitor { Rewrite *rewrite; QList temps; Control *control() const { return rewrite->control; } const Identifier *identifier(const Identifier *other) const { if (! other) return 0; return control()->identifier(other->chars(), other->size()); } public: RewriteName(Rewrite *r): rewrite(r) {} const Name *operator()(const Name *name) { if (! name) return 0; accept(name); return temps.takeLast(); } virtual void visit(const QualifiedNameId *name) { const Name *base = rewrite->rewriteName(name->base()); const Name *n = rewrite->rewriteName(name->name()); temps.append(control()->qualifiedNameId(base, n)); } virtual void visit(const Identifier *name) { temps.append(control()->identifier(name->chars(), name->size())); } virtual void visit(const TemplateNameId *name) { QVarLengthArray args(name->templateArgumentCount()); for (unsigned i = 0; i < name->templateArgumentCount(); ++i) args[i] = rewrite->rewriteType(name->templateArgumentAt(i)); temps.append(control()->templateNameId(identifier(name->identifier()), name->isSpecialization(), args.data(), args.size())); } virtual void visit(const DestructorNameId *name) { temps.append(control()->destructorNameId(identifier(name->identifier()))); } virtual void visit(const OperatorNameId *name) { temps.append(control()->operatorNameId(name->kind())); } virtual void visit(const ConversionNameId *name) { FullySpecifiedType ty = rewrite->rewriteType(name->type()); temps.append(control()->conversionNameId(ty)); } virtual void visit(const SelectorNameId *name) { QVarLengthArray names(name->nameCount()); for (unsigned i = 0; i < name->nameCount(); ++i) names[i] = rewrite->rewriteName(name->nameAt(i)); temps.append(control()->selectorNameId(names.constData(), names.size(), name->hasArguments())); } }; public: // attributes Control *control; SubstitutionEnvironment *env; RewriteType rewriteType; RewriteName rewriteName; }; SubstitutionEnvironment::SubstitutionEnvironment() : _scope(0) { } FullySpecifiedType SubstitutionEnvironment::apply(const Name *name, Rewrite *rewrite) const { if (name) { for (int index = _substs.size() - 1; index != -1; --index) { const Substitution *subst = _substs.at(index); FullySpecifiedType ty = subst->apply(name, rewrite); if (! ty->isUndefinedType()) return ty; } } return FullySpecifiedType(); } void SubstitutionEnvironment::enter(Substitution *subst) { _substs.append(subst); } void SubstitutionEnvironment::leave() { _substs.removeLast(); } Scope *SubstitutionEnvironment::scope() const { return _scope; } Scope *SubstitutionEnvironment::switchScope(Scope *scope) { Scope *previous = _scope; _scope = scope; return previous; } const LookupContext &SubstitutionEnvironment::context() const { return _context; } void SubstitutionEnvironment::setContext(const LookupContext &context) { _context = context; } SubstitutionMap::SubstitutionMap() { } SubstitutionMap::~SubstitutionMap() { } void SubstitutionMap::bind(const Name *name, const FullySpecifiedType &ty) { _map.append(qMakePair(name, ty)); } FullySpecifiedType SubstitutionMap::apply(const Name *name, Rewrite *) const { for (int n = _map.size() - 1; n != -1; --n) { const QPair &p = _map.at(n); if (name->match(p.first)) return p.second; } return FullySpecifiedType(); } UseMinimalNames::UseMinimalNames(ClassOrNamespace *target) : _target(target) { } UseMinimalNames::~UseMinimalNames() { } FullySpecifiedType UseMinimalNames::apply(const Name *name, Rewrite *rewrite) const { SubstitutionEnvironment *env = rewrite->env; Scope *scope = env->scope(); if (name->isTemplateNameId() || (name->isQualifiedNameId() && name->asQualifiedNameId()->name()->isTemplateNameId())) return FullySpecifiedType(); if (! scope) return FullySpecifiedType(); const LookupContext &context = env->context(); Control *control = rewrite->control; const QList results = context.lookup(name, scope); if (!results.isEmpty()) { const LookupItem &r = results.first(); if (Symbol *d = r.declaration()) return control->namedType(LookupContext::minimalName(d, _target, control)); return r.type(); } return FullySpecifiedType(); } UseQualifiedNames::UseQualifiedNames() : UseMinimalNames(0) { } UseQualifiedNames::~UseQualifiedNames() { } FullySpecifiedType rewriteType(const FullySpecifiedType &type, SubstitutionEnvironment *env, Control *control) { Rewrite rewrite(control, env); return rewrite.rewriteType(type); } const Name *rewriteName(const Name *name, SubstitutionEnvironment *env, Control *control) { Rewrite rewrite(control, env); return rewrite.rewriteName(name); } } // namespace CPlusPlus