CheckDeclaration.cpp 32.4 KB
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/**************************************************************************
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**
** This file is part of Qt Creator
**
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** Copyright (c) 2010 Nokia Corporation and/or its subsidiary(-ies).
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**
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** Contact: Nokia Corporation (qt-info@nokia.com)
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**
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** Commercial Usage
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**
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** 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.
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**
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** GNU Lesser General Public License Usage
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**
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** 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.
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**
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** If you are unsure which license is appropriate for your use, please
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** contact the sales department at http://qt.nokia.com/contact.
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**
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**************************************************************************/
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// Copyright (c) 2008 Roberto Raggi <roberto.raggi@gmail.com>
//
// 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.

#include "CheckDeclaration.h"
#include "Semantic.h"
#include "AST.h"
#include "TranslationUnit.h"
#include "Scope.h"
#include "Names.h"
#include "CoreTypes.h"
#include "Symbols.h"
#include "Control.h"
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#include "Literals.h"
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#include "QtContextKeywords.h"
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#include <string>
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#include <cassert>

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using namespace CPlusPlus;
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CheckDeclaration::CheckDeclaration(Semantic *semantic)
    : SemanticCheck(semantic),
      _declaration(0),
      _scope(0),
      _templateParameters(0),
      _checkAnonymousArguments(false)
{ }

CheckDeclaration::~CheckDeclaration()
{ }

void CheckDeclaration::check(DeclarationAST *declaration,
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                             Scope *scope, TemplateParameters *templateParameters)
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{
    Scope *previousScope = switchScope(scope);
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    TemplateParameters *previousTemplateParameters = switchTemplateParameters(templateParameters);
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    DeclarationAST *previousDeclaration = switchDeclaration(declaration);
    accept(declaration);
    (void) switchDeclaration(previousDeclaration);
    (void) switchTemplateParameters(previousTemplateParameters);
    (void) switchScope(previousScope);
}

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void CheckDeclaration::check(CtorInitializerAST *ast, Scope *scope)
{
    Scope *previousScope = switchScope(scope);
    accept(ast);
    (void) switchScope(previousScope);
}

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DeclarationAST *CheckDeclaration::switchDeclaration(DeclarationAST *declaration)
{
    DeclarationAST *previousDeclaration = _declaration;
    _declaration = declaration;
    return previousDeclaration;
}

Scope *CheckDeclaration::switchScope(Scope *scope)
{
    Scope *previousScope = _scope;
    _scope = scope;
    return previousScope;
}

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TemplateParameters *CheckDeclaration::switchTemplateParameters(TemplateParameters *templateParameters)
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{
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    TemplateParameters *previousTemplateParameters = _templateParameters;
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    _templateParameters = templateParameters;
    return previousTemplateParameters;
}

void CheckDeclaration::checkFunctionArguments(Function *fun)
{
    if (! _checkAnonymousArguments)
        return;

    if (_scope->isClassScope() && fun->isPublic()) {
        for (unsigned argc = 0; argc < fun->argumentCount(); ++argc) {
            Argument *arg = fun->argumentAt(argc)->asArgument();
            assert(arg != 0);

            if (! arg->name()) {
                translationUnit()->warning(arg->sourceLocation(),
                                           "anonymous argument");
            }
        }
    }
}

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unsigned CheckDeclaration::locationOfDeclaratorId(DeclaratorAST *declarator) const
{
    if (declarator && declarator->core_declarator) {
        if (DeclaratorIdAST *declaratorId = declarator->core_declarator->asDeclaratorId())
            return declaratorId->firstToken();
        else if (NestedDeclaratorAST *nested = declarator->core_declarator->asNestedDeclarator())
            return locationOfDeclaratorId(nested->declarator);
    }

    return 0;
}

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bool CheckDeclaration::visit(SimpleDeclarationAST *ast)
{
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    FullySpecifiedType ty = semantic()->check(ast->decl_specifier_list, _scope);
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    FullySpecifiedType qualTy = ty.qualifiedType();

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    if (_templateParameters && ty) {
        if (Class *klass = ty->asClassType()) {
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            klass->setTemplateParameters(_templateParameters);
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            _templateParameters = 0; // consume the template parameters
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        }
    }

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    if (ast->decl_specifier_list && ! ast->declarator_list) {
        ElaboratedTypeSpecifierAST *elab_type_spec = ast->decl_specifier_list->value->asElaboratedTypeSpecifier();
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        if (! elab_type_spec && ty.isFriend() && ast->decl_specifier_list->next && ! ast->decl_specifier_list->next->next) {
            // friend template class
            elab_type_spec = ast->decl_specifier_list->next->value->asElaboratedTypeSpecifier();
        }
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        if (elab_type_spec) {
            unsigned sourceLocation = ast->decl_specifier_list->firstToken();
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            const Name *name = semantic()->check(elab_type_spec->name, _scope);
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            ForwardClassDeclaration *symbol =
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                    control()->newForwardClassDeclaration(sourceLocation, name);
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            if (_templateParameters) {
                symbol->setTemplateParameters(_templateParameters);
                _templateParameters = 0;
            }
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            if (ty.isDeprecated())
                symbol->setDeprecated(true);
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            if (ty.isUnavailable())
                symbol->setUnavailable(true);
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            if (ty.isFriend())
                symbol->setStorage(Symbol::Friend);

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            _scope->enterSymbol(symbol);
            return false;
        }
    }

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    const bool isQ_SLOT   = ast->qt_invokable_token && tokenKind(ast->qt_invokable_token) == T_Q_SLOT;
    const bool isQ_SIGNAL = ast->qt_invokable_token && tokenKind(ast->qt_invokable_token) == T_Q_SIGNAL;
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    const bool isQ_INVOKABLE = ast->qt_invokable_token && tokenKind(ast->qt_invokable_token) == T_Q_INVOKABLE;
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    List<Declaration *> **decl_it = &ast->symbols;
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    for (DeclaratorListAST *it = ast->declarator_list; it; it = it->next) {
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        const Name *name = 0;
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        FullySpecifiedType declTy = semantic()->check(it->value, qualTy,
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                                                      _scope, &name);

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        unsigned location = locationOfDeclaratorId(it->value);
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        if (! location) {
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            if (it->value)
                location = it->value->firstToken();
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            else
                location = ast->firstToken();
        }
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        Function *fun = 0;
        if (declTy && 0 != (fun = declTy->asFunctionType())) {
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            fun->setSourceLocation(location, translationUnit());
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            fun->setScope(_scope);
            fun->setName(name);
            fun->setMethodKey(semantic()->currentMethodKey());
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            fun->setVirtual(ty.isVirtual());
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            if (ty.isDeprecated())
                fun->setDeprecated(true);
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            if (ty.isUnavailable())
                fun->setUnavailable(true);
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            if (isQ_SIGNAL)
                fun->setMethodKey(Function::SignalMethod);
            else if (isQ_SLOT)
                fun->setMethodKey(Function::SlotMethod);
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            else if (isQ_INVOKABLE)
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                fun->setMethodKey(Function::InvokableMethod);
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            fun->setVisibility(semantic()->currentVisibility());
        } else if (semantic()->currentMethodKey() != Function::NormalMethod) {
            translationUnit()->warning(ast->firstToken(),
                                       "expected a function declaration");
        }

        Declaration *symbol = control()->newDeclaration(location, name);
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        symbol->setStartOffset(tokenAt(ast->firstToken()).offset);
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        symbol->setEndOffset(tokenAt(ast->lastToken() - 1).end());
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        symbol->setType(declTy);
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        if (declTy.isDeprecated())
            symbol->setDeprecated(true);
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        if (declTy.isUnavailable())
            symbol->setUnavailable(true);
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        if (_templateParameters && it == ast->declarator_list) {
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            symbol->setTemplateParameters(_templateParameters);
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            _templateParameters = 0; // consume the template parameters
        }
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        symbol->setVisibility(semantic()->currentVisibility());

        if (ty.isFriend())
            symbol->setStorage(Symbol::Friend);
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        else if (ty.isAuto())
            symbol->setStorage(Symbol::Auto);
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        else if (ty.isRegister())
            symbol->setStorage(Symbol::Register);
        else if (ty.isStatic())
            symbol->setStorage(Symbol::Static);
        else if (ty.isExtern())
            symbol->setStorage(Symbol::Extern);
        else if (ty.isMutable())
            symbol->setStorage(Symbol::Mutable);
        else if (ty.isTypedef())
            symbol->setStorage(Symbol::Typedef);
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        if (ty.isDeprecated())
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            symbol->setDeprecated(true);
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        if (ty.isUnavailable())
            symbol->setUnavailable(true);
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        if (it->value && it->value->initializer) {
            FullySpecifiedType initTy = semantic()->check(it->value->initializer, _scope);
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        }

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        *decl_it = new (translationUnit()->memoryPool()) List<Declaration *>();
        (*decl_it)->value = symbol;
        decl_it = &(*decl_it)->next;

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        _scope->enterSymbol(symbol);
    }
    return false;
}

bool CheckDeclaration::visit(EmptyDeclarationAST *)
{
    return false;
}

bool CheckDeclaration::visit(AccessDeclarationAST *ast)
{
    int accessSpecifier = tokenKind(ast->access_specifier_token);
    int visibility = semantic()->visibilityForAccessSpecifier(accessSpecifier);
    semantic()->switchVisibility(visibility);
    if (ast->slots_token)
        semantic()->switchMethodKey(Function::SlotMethod);
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    else if (accessSpecifier == T_Q_SIGNALS)
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        semantic()->switchMethodKey(Function::SignalMethod);
    else
        semantic()->switchMethodKey(Function::NormalMethod);
    return false;
}

bool CheckDeclaration::visit(AsmDefinitionAST *)
{
    return false;
}

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bool CheckDeclaration::visit(ExceptionDeclarationAST *ast)
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{
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    FullySpecifiedType ty = semantic()->check(ast->type_specifier_list, _scope);
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    FullySpecifiedType qualTy = ty.qualifiedType();

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    const Name *name = 0;
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    FullySpecifiedType declTy = semantic()->check(ast->declarator, qualTy,
                                                  _scope, &name);

    unsigned location = locationOfDeclaratorId(ast->declarator);
    if (! location) {
        if (ast->declarator)
            location = ast->declarator->firstToken();
        else
            location = ast->firstToken();
    }

    Declaration *symbol = control()->newDeclaration(location, name);
    symbol->setStartOffset(tokenAt(ast->firstToken()).offset);
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    symbol->setEndOffset(tokenAt(ast->lastToken() - 1).end());
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    symbol->setType(declTy);
    _scope->enterSymbol(symbol);

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    return false;
}

bool CheckDeclaration::visit(FunctionDefinitionAST *ast)
{
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    FullySpecifiedType ty = semantic()->check(ast->decl_specifier_list, _scope);
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    FullySpecifiedType qualTy = ty.qualifiedType();
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    const Name *name = 0;
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    FullySpecifiedType funTy = semantic()->check(ast->declarator, qualTy,
                                                 _scope, &name);
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    if (! (funTy && funTy->isFunctionType())) {
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        translationUnit()->error(ast->firstToken(),
                                 "expected a function prototype");
        return false;
    }

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    unsigned funStartOffset = tokenAt(ast->firstToken()).offset;
    if (ast->declarator && ast->declarator->core_declarator) {
        funStartOffset = tokenAt(ast->declarator->core_declarator->lastToken() - 1).end();
    }

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    Function *fun = funTy->asFunctionType();
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    fun->setVirtual(ty.isVirtual());
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    if (ty.isDeprecated())
        fun->setDeprecated(true);
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    if (ty.isUnavailable())
        fun->setUnavailable(true);
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    fun->setStartOffset(funStartOffset);
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    fun->setEndOffset(tokenAt(ast->lastToken() - 1).end());
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    if (ast->declarator)
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        fun->setSourceLocation(ast->declarator->firstToken(), translationUnit());
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    fun->setName(name);
    fun->setTemplateParameters(_templateParameters);
    fun->setVisibility(semantic()->currentVisibility());
    fun->setMethodKey(semantic()->currentMethodKey());

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    const bool isQ_SLOT   = ast->qt_invokable_token && tokenKind(ast->qt_invokable_token) == T_Q_SLOT;
    const bool isQ_SIGNAL = ast->qt_invokable_token && tokenKind(ast->qt_invokable_token) == T_Q_SIGNAL;
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    const bool isQ_INVOKABLE = ast->qt_invokable_token && tokenKind(ast->qt_invokable_token) == T_Q_INVOKABLE;
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    if (isQ_SIGNAL)
        fun->setMethodKey(Function::SignalMethod);
    else if (isQ_SLOT)
        fun->setMethodKey(Function::SlotMethod);
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    else if (isQ_INVOKABLE)
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        fun->setMethodKey(Function::InvokableMethod);
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    checkFunctionArguments(fun);

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    ast->symbol = fun;
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    _scope->enterSymbol(fun);

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    if (! semantic()->skipFunctionBodies())
        semantic()->checkFunctionDefinition(ast);
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    return false;
}

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bool CheckDeclaration::visit(MemInitializerAST *ast)
{
    (void) semantic()->check(ast->name, _scope);
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    for (ExpressionListAST *it = ast->expression_list; it; it = it->next) {
        FullySpecifiedType ty = semantic()->check(it->value, _scope);
    }
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    return false;
}

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bool CheckDeclaration::visit(LinkageBodyAST *ast)
{
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    for (DeclarationListAST *decl = ast->declaration_list; decl; decl = decl->next) {
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       semantic()->check(decl->value, _scope);
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    }
    return false;
}

bool CheckDeclaration::visit(LinkageSpecificationAST *ast)
{
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    semantic()->check(ast->declaration, _scope);
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    return false;
}

bool CheckDeclaration::visit(NamespaceAST *ast)
{
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    const Name *namespaceName = 0;
    if (const Identifier *id = identifier(ast->identifier_token))
        namespaceName = control()->nameId(id);
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    unsigned sourceLocation = ast->firstToken();

    if (ast->identifier_token)
        sourceLocation = ast->identifier_token;

    Namespace *ns = control()->newNamespace(sourceLocation, namespaceName);
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    ns->setStartOffset(tokenAt(ast->firstToken()).offset);
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    ns->setEndOffset(tokenAt(ast->lastToken() - 1).end());
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    ast->symbol = ns;
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    _scope->enterSymbol(ns);
    semantic()->check(ast->linkage_body, ns->members()); // ### we'll do the merge later.

    return false;
}

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bool CheckDeclaration::visit(NamespaceAliasDefinitionAST *ast)
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{
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    const Name *name = 0;

    if (const Identifier *id = identifier(ast->namespace_name_token))
        name = control()->nameId(id);

    unsigned sourceLocation = ast->firstToken();

    if (ast->namespace_name_token)
        sourceLocation = ast->namespace_name_token;

    const Name *namespaceName = semantic()->check(ast->name, _scope);

    NamespaceAlias *namespaceAlias = control()->newNamespaceAlias(sourceLocation, name);
    namespaceAlias->setNamespaceName(namespaceName);
    namespaceAlias->setStartOffset(tokenAt(ast->firstToken()).offset);
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    namespaceAlias->setEndOffset(tokenAt(ast->lastToken() - 1).end());
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    //ast->symbol = namespaceAlias;
    _scope->enterSymbol(namespaceAlias);

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    return false;
}

bool CheckDeclaration::visit(ParameterDeclarationAST *ast)
{
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    unsigned sourceLocation = locationOfDeclaratorId(ast->declarator);
    if (! sourceLocation) {
        if (ast->declarator)
            sourceLocation = ast->declarator->firstToken();
        else
            sourceLocation = ast->firstToken();
    }
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    const Name *argName = 0;
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    FullySpecifiedType ty = semantic()->check(ast->type_specifier_list, _scope);
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    FullySpecifiedType argTy = semantic()->check(ast->declarator, ty.qualifiedType(),
                                                 _scope, &argName);
    FullySpecifiedType exprTy = semantic()->check(ast->expression, _scope);
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    Argument *arg = control()->newArgument(sourceLocation, argName);
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    ast->symbol = arg;
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    if (ast->expression) {
        unsigned startOfExpression = ast->expression->firstToken();
        unsigned endOfExpression = ast->expression->lastToken();
        std::string buffer;
        for (unsigned index = startOfExpression; index != endOfExpression; ++index) {
            const Token &tk = tokenAt(index);
            if (tk.whitespace() || tk.newline())
                buffer += ' ';
            buffer += tk.spell();
        }
        const StringLiteral *initializer = control()->findOrInsertStringLiteral(buffer.c_str(), buffer.size());
        arg->setInitializer(initializer);
    }
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    arg->setType(argTy);
    _scope->enterSymbol(arg);
    return false;
}

bool CheckDeclaration::visit(TemplateDeclarationAST *ast)
{
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    Scope *scope = new Scope(_scope->owner());

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    for (DeclarationListAST *param = ast->template_parameter_list; param; param = param->next) {
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       semantic()->check(param->value, scope);
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    }

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    semantic()->check(ast->declaration, _scope,
                      new TemplateParameters(_templateParameters, scope));

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    return false;
}

bool CheckDeclaration::visit(TypenameTypeParameterAST *ast)
{
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    unsigned sourceLocation = ast->firstToken();
    if (ast->name)
        sourceLocation = ast->name->firstToken();

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    const Name *name = semantic()->check(ast->name, _scope);
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    TypenameArgument *arg = control()->newTypenameArgument(sourceLocation, name);
    FullySpecifiedType ty = semantic()->check(ast->type_id, _scope);
    arg->setType(ty);
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    ast->symbol = arg;
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    _scope->enterSymbol(arg);
    return false;
}

bool CheckDeclaration::visit(TemplateTypeParameterAST *ast)
{
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    unsigned sourceLocation = ast->firstToken();
    if (ast->name)
        sourceLocation = ast->name->firstToken();

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    const Name *name = semantic()->check(ast->name, _scope);
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    TypenameArgument *arg = control()->newTypenameArgument(sourceLocation, name);
    FullySpecifiedType ty = semantic()->check(ast->type_id, _scope);
    arg->setType(ty);
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    ast->symbol = arg;
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    _scope->enterSymbol(arg);
    return false;
}

bool CheckDeclaration::visit(UsingAST *ast)
{
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    const Name *name = semantic()->check(ast->name, _scope);
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    unsigned sourceLocation = ast->firstToken();
    if (ast->name)
        sourceLocation = ast->name->firstToken();

    UsingDeclaration *u = control()->newUsingDeclaration(sourceLocation, name);
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    ast->symbol = u;
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    _scope->enterSymbol(u);
    return false;
}

bool CheckDeclaration::visit(UsingDirectiveAST *ast)
{
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    const Name *name = semantic()->check(ast->name, _scope);
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    unsigned sourceLocation = ast->firstToken();
    if (ast->name)
        sourceLocation = ast->name->firstToken();

    UsingNamespaceDirective *u = control()->newUsingNamespaceDirective(sourceLocation, name);
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    ast->symbol = u;
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    _scope->enterSymbol(u);
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    if (! (_scope->isBlockScope() || _scope->isNamespaceScope()))
        translationUnit()->error(ast->firstToken(),
                                 "using-directive not within namespace or block scope");

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    return false;
}

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bool CheckDeclaration::visit(ObjCProtocolForwardDeclarationAST *ast)
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{
    const unsigned sourceLocation = ast->firstToken();

    List<ObjCForwardProtocolDeclaration *> **symbolIter = &ast->symbols;
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    for (NameListAST *it = ast->identifier_list; it; it = it->next) {
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        unsigned declarationLocation;
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        if (it->value)
            declarationLocation = it->value->firstToken();
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        else
            declarationLocation = sourceLocation;

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        const Name *protocolName = semantic()->check(it->value, _scope);
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        ObjCForwardProtocolDeclaration *fwdProtocol = control()->newObjCForwardProtocolDeclaration(sourceLocation, protocolName);
        fwdProtocol->setStartOffset(tokenAt(ast->firstToken()).offset);
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        fwdProtocol->setEndOffset(tokenAt(ast->lastToken() - 1).end());
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        _scope->enterSymbol(fwdProtocol);

        *symbolIter = new (translationUnit()->memoryPool()) List<ObjCForwardProtocolDeclaration *>();
        (*symbolIter)->value = fwdProtocol;
        symbolIter = &(*symbolIter)->next;
    }

    return false;
}

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bool CheckDeclaration::visit(ObjCProtocolDeclarationAST *ast)
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{
    unsigned sourceLocation;
    if (ast->name)
        sourceLocation = ast->name->firstToken();
    else
        sourceLocation = ast->firstToken();

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    const Name *protocolName = semantic()->check(ast->name, _scope);
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    ObjCProtocol *protocol = control()->newObjCProtocol(sourceLocation, protocolName);
    protocol->setStartOffset(tokenAt(ast->firstToken()).offset);
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    protocol->setEndOffset(tokenAt(ast->lastToken() - 1).end());
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    if (ast->protocol_refs && ast->protocol_refs->identifier_list) {
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        for (NameListAST *iter = ast->protocol_refs->identifier_list; iter; iter = iter->next) {
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            NameAST* name = iter->value;
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            const Name *protocolName = semantic()->check(name, _scope);
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            ObjCBaseProtocol *baseProtocol = control()->newObjCBaseProtocol(name->firstToken(), protocolName);
            protocol->addProtocol(baseProtocol);
        }
    }

    int previousObjCVisibility = semantic()->switchObjCVisibility(Function::Public);
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    for (DeclarationListAST *it = ast->member_declaration_list; it; it = it->next) {
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        semantic()->check(it->value, protocol->members());
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    }
    (void) semantic()->switchObjCVisibility(previousObjCVisibility);

    ast->symbol = protocol;
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    _scope->enterSymbol(protocol);

    return false;
}

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bool CheckDeclaration::visit(ObjCClassForwardDeclarationAST *ast)
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{
    const unsigned sourceLocation = ast->firstToken();

    List<ObjCForwardClassDeclaration *> **symbolIter = &ast->symbols;
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    for (NameListAST *it = ast->identifier_list; it; it = it->next) {
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        unsigned declarationLocation;
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        if (it->value)
            declarationLocation = it->value->firstToken();
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        else
            declarationLocation = sourceLocation;

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        const Name *className = semantic()->check(it->value, _scope);
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        ObjCForwardClassDeclaration *fwdClass = control()->newObjCForwardClassDeclaration(sourceLocation, className);
        fwdClass->setStartOffset(tokenAt(ast->firstToken()).offset);
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        fwdClass->setEndOffset(tokenAt(ast->lastToken() - 1).end());
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        _scope->enterSymbol(fwdClass);

        *symbolIter = new (translationUnit()->memoryPool()) List<ObjCForwardClassDeclaration *>();
        (*symbolIter)->value = fwdClass;
        symbolIter = &(*symbolIter)->next;
    }

    return false;
}

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bool CheckDeclaration::visit(ObjCClassDeclarationAST *ast)
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{
    unsigned sourceLocation;
    if (ast->class_name)
        sourceLocation = ast->class_name->firstToken();
    else
        sourceLocation = ast->firstToken();

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    const Name *className = semantic()->check(ast->class_name, _scope);
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    ObjCClass *klass = control()->newObjCClass(sourceLocation, className);
    klass->setStartOffset(tokenAt(ast->firstToken()).offset);
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    klass->setEndOffset(tokenAt(ast->lastToken() - 1).end());
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    ast->symbol = klass;

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    klass->setInterface(ast->interface_token != 0);

    if (ast->category_name) {
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        const Name *categoryName = semantic()->check(ast->category_name, _scope);
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        klass->setCategoryName(categoryName);
    }

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    if (ast->superclass) {
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        const Name *superClassName = semantic()->check(ast->superclass, _scope);
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        ObjCBaseClass *superKlass = control()->newObjCBaseClass(ast->superclass->firstToken(), superClassName);
        klass->setBaseClass(superKlass);
    }

    if (ast->protocol_refs && ast->protocol_refs->identifier_list) {
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        for (NameListAST *iter = ast->protocol_refs->identifier_list; iter; iter = iter->next) {
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            NameAST* name = iter->value;
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            const Name *protocolName = semantic()->check(name, _scope);
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            ObjCBaseProtocol *baseProtocol = control()->newObjCBaseProtocol(name->firstToken(), protocolName);
            klass->addProtocol(baseProtocol);
        }
    }

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    _scope->enterSymbol(klass);

    int previousObjCVisibility = semantic()->switchObjCVisibility(Function::Protected);

    if (ast->inst_vars_decl) {
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        for (DeclarationListAST *it = ast->inst_vars_decl->instance_variable_list; it; it = it->next) {
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            semantic()->check(it->value, klass->members());
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        }
    }

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    (void) semantic()->switchObjCVisibility(Function::Public);

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    for (DeclarationListAST *it = ast->member_declaration_list; it; it = it->next) {
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        semantic()->check(it->value, klass->members());
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    }

    (void) semantic()->switchObjCVisibility(previousObjCVisibility);

    return false;
}

bool CheckDeclaration::visit(ObjCMethodDeclarationAST *ast)
{
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    ObjCMethodPrototypeAST *methodProto = ast->method_prototype;
    if (!methodProto)
        return false;
    ObjCSelectorAST *selector = methodProto->selector;
    if (!selector)
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        return false;

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    FullySpecifiedType ty = semantic()->check(methodProto, _scope);
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    ObjCMethod *methodTy = ty.type()->asObjCMethodType();
    if (!methodTy)
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        return false;

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    Symbol *symbol;
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    if (ast->function_body) {
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        symbol = methodTy;
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    } else {
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        Declaration *decl = control()->newDeclaration(selector->firstToken(), methodTy->name());
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        decl->setType(methodTy);
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        symbol = decl;
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        symbol->setStorage(methodTy->storage());
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    }
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    symbol->setStartOffset(tokenAt(ast->firstToken()).offset);
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    symbol->setEndOffset(tokenAt(ast->lastToken() - 1).end());
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    symbol->setVisibility(semantic()->currentObjCVisibility());
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    if (ty.isDeprecated())
        symbol->setDeprecated(true);
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    if (ty.isUnavailable())
        symbol->setUnavailable(true);
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    _scope->enterSymbol(symbol);

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    if (ast->function_body && !semantic()->skipFunctionBodies()) {
        semantic()->check(ast->function_body, methodTy->members());
    }

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    return false;
}

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bool CheckDeclaration::visit(ObjCVisibilityDeclarationAST *ast)
{
    int accessSpecifier = tokenKind(ast->visibility_token);
    int visibility = semantic()->visibilityForObjCAccessSpecifier(accessSpecifier);
    semantic()->switchObjCVisibility(visibility);
    return false;
}

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bool CheckDeclaration::checkPropertyAttribute(ObjCPropertyAttributeAST *attrAst,
                                              int &flags,
                                              int attr)
{
    if (flags & attr) {
        translationUnit()->warning(attrAst->attribute_identifier_token,
                                   "duplicate property attribute \"%s\"",
                                   spell(attrAst->attribute_identifier_token));
        return false;
    } else {
        flags |= attr;
        return true;
    }
}

bool CheckDeclaration::visit(ObjCPropertyDeclarationAST *ast)
{
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    semantic()->check(ast->simple_declaration, _scope);
    SimpleDeclarationAST *simpleDecl = ast->simple_declaration->asSimpleDeclaration();

    if (!simpleDecl) {
        translationUnit()->warning(ast->simple_declaration->firstToken(),
                                   "invalid type for property declaration");
        return false;
    }

    int propAttrs = ObjCPropertyDeclaration::None;
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    const Name *getterName = 0, *setterName = 0;
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    for (ObjCPropertyAttributeListAST *iter= ast->property_attribute_list; iter; iter = iter->next) {
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        ObjCPropertyAttributeAST *attrAst = iter->value;
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        if (!attrAst)
            continue;

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        const Identifier *attrId = identifier(attrAst->attribute_identifier_token);
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        if (attrId == control()->objcGetterId()) {
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            if (checkPropertyAttribute(attrAst, propAttrs, ObjCPropertyDeclaration::Getter)) {
                getterName = semantic()->check(attrAst->method_selector, _scope);
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            }
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        } else if (attrId == control()->objcSetterId()) {
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            if (checkPropertyAttribute(attrAst, propAttrs, ObjCPropertyDeclaration::Setter)) {
                setterName = semantic()->check(attrAst->method_selector, _scope);
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            }
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        } else if (attrId == control()->objcReadwriteId()) {
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            checkPropertyAttribute(attrAst, propAttrs, ObjCPropertyDeclaration::ReadWrite);
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        } else if (attrId == control()->objcReadonlyId()) {
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            checkPropertyAttribute(attrAst, propAttrs, ObjCPropertyDeclaration::ReadOnly);
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        } else if (attrId == control()->objcAssignId()) {
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            checkPropertyAttribute(attrAst, propAttrs, ObjCPropertyDeclaration::Assign);
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        } else if (attrId == control()->objcRetainId()) {
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            checkPropertyAttribute(attrAst, propAttrs, ObjCPropertyDeclaration::Retain);
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        } else if (attrId == control()->objcCopyId()) {
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            checkPropertyAttribute(attrAst, propAttrs, ObjCPropertyDeclaration::Copy);
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        } else if (attrId == control()->objcNonatomicId()) {
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            checkPropertyAttribute(attrAst, propAttrs, ObjCPropertyDeclaration::NonAtomic);
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        }
    }

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    if (propAttrs & ObjCPropertyDeclaration::ReadOnly &&
        propAttrs & ObjCPropertyDeclaration::ReadWrite)
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        // Should this be an error instead of only a warning?
        translationUnit()->warning(ast->property_token,
                                   "property can have at most one attribute \"readonly\" or \"readwrite\" specified");
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    if (setterSemAttrs
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            && setterSemAttrs != ObjCPropertyDeclaration::Assign
            && setterSemAttrs != ObjCPropertyDeclaration::Retain
            && setterSemAttrs != ObjCPropertyDeclaration::Copy) {
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        // Should this be an error instead of only a warning?
        translationUnit()->warning(ast->property_token,
                                   "property can have at most one attribute \"assign\", \"retain\", or \"copy\" specified");
    }

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    List<ObjCPropertyDeclaration *> **lastSymbols = &ast->symbols;
    for (List<Declaration*> *iter = simpleDecl->symbols; iter; iter = iter->next) {
        ObjCPropertyDeclaration *propDecl = control()->newObjCPropertyDeclaration(ast->firstToken(),
                                                                                  iter->value->name());
        propDecl->setType(iter->value->type());
        propDecl->setAttributes(propAttrs);
        propDecl->setGetterName(getterName);
        propDecl->setSetterName(setterName);
        _scope->enterSymbol(propDecl);

        *lastSymbols = new (translationUnit()->memoryPool()) List<ObjCPropertyDeclaration *>();
        (*lastSymbols)->value = propDecl;
        lastSymbols = &(*lastSymbols)->next;
    }

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    return false;
}
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bool CheckDeclaration::visit(QtEnumDeclarationAST *ast)
{
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    checkQEnumsQFlagsNames(ast->enumerator_list, "Q_ENUMS");
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    return false;
}

bool CheckDeclaration::visit(QtFlagsDeclarationAST *ast)
{
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    checkQEnumsQFlagsNames(ast->flag_enums_list, "Q_FLAGS");
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    return false;
}
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bool CheckDeclaration::visit(QtPropertyDeclarationAST *ast)
{
    if (ast->type_id)
        semantic()->check(ast->type_id, _scope);
    if (ast->property_name)
        semantic()->check(ast->property_name, _scope);
    for (QtPropertyDeclarationItemListAST *iter = ast->property_declaration_items;
         iter; iter = iter->next) {
        if (iter->value)
            semantic()->check(iter->value->expression, _scope);
    }
    return false;
}
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static bool checkEnumName(const Name *name)
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{
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    if (! name)
        return false;
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    else if (name->asNameId() != 0)
        return true;
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    else if (const QualifiedNameId *q = name->asQualifiedNameId()) {
        if (! q->base())
            return false; // global qualified name
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        if (checkEnumName(q->base()) && checkEnumName(q->name()))
            return true;
    }

    return false;
}

void CheckDeclaration::checkQEnumsQFlagsNames(NameListAST *nameListAst, const char *declName)
{
    for (NameListAST *iter = nameListAst; iter; iter = iter->next) {
        if (const Name *name = semantic()->check(iter->value, _scope)) {
            if (! checkEnumName(name))
                translationUnit()->error(iter->firstToken(), "invalid name in %s", declName);
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        }
    }
}