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qt-creator/src/libs/cplusplus/CppRewriter.cpp
Bradley T. Hughes fb9146a9c3 Compile after qt5/qtbase commit 75a0c7f9 
Commit 75a0c7f9b52cde47f20fdc1b89e1264d60350848 in qt5/qtbase changed
some QRegExp methods to be non-const (they were previously const). This
change makes Qt Creator compile again.

Change-Id: Ibc98c678126c3b3189df7fcc043463b940951445
Reviewed-by: Friedemann Kleint <Friedemann.Kleint@nokia.com>
Reviewed-by: Thiago Macieira <thiago.macieira@intel.com>
Reviewed-by: Daniel Teske <daniel.teske@nokia.com>
2012-04-30 14:32:08 +02:00

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/**************************************************************************
**
** 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 "CppRewriter.h"
#include <TypeVisitor.h>
#include <NameVisitor.h>
#include <CoreTypes.h>
#include <Symbols.h>
#include <Literals.h>
#include <Names.h>
#include <Scope.h>
#include <Overview.h>
#include <QVarLengthArray>
#include <QRegExp>
#include <QDebug>
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<FullySpecifiedType> 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));
}
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; i < type->argumentCount(); ++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->resetScope();
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<const Name *> 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<FullySpecifiedType, 8> 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()), 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<const Name *, 8> 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<const Name *, FullySpecifiedType> &p = _map.at(n);
if (name->isEqualTo(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())
return FullySpecifiedType();
if (! scope)
return FullySpecifiedType();
const LookupContext &context = env->context();
Control *control = rewrite->control;
const QList<LookupItem> results = context.lookup(name, scope);
foreach (const LookupItem &r, results) {
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);
}
// Simplify complicated STL template types,
// such as 'std::basic_string<char,std::char_traits<char>,std::allocator<char> >'
// -> 'std::string' and helpers.
static QString chopConst(QString type)
{
while (1) {
if (type.startsWith(QLatin1String("const")))
type = type.mid(5);
else if (type.startsWith(QLatin1Char(' ')))
type = type.mid(1);
else if (type.endsWith(QLatin1String("const")))
type.chop(5);
else if (type.endsWith(QLatin1Char(' ')))
type.chop(1);
else
break;
}
return type;
}
static inline QRegExp stdStringRegExp(const QString &charType)
{
QString rc = QLatin1String("basic_string<");
rc += charType;
rc += QLatin1String(",[ ]?std::char_traits<");
rc += charType;
rc += QLatin1String(">,[ ]?std::allocator<");
rc += charType;
rc += QLatin1String("> >");
const QRegExp re(rc);
Q_ASSERT(re.isValid());
return re;
}
// Simplify string types in a type
// 'std::set<std::basic_string<char... > >' -> std::set<std::string>'
static inline void simplifyStdString(const QString &charType, const QString &replacement,
QString *type)
{
QRegExp stringRegexp = stdStringRegExp(charType);
const int replacementSize = replacement.size();
for (int pos = 0; pos < type->size(); ) {
// Check next match
const int matchPos = stringRegexp.indexIn(*type, pos);
if (matchPos == -1)
break;
const int matchedLength = stringRegexp.matchedLength();
type->replace(matchPos, matchedLength, replacement);
pos = matchPos + replacementSize;
// If we were inside an 'allocator<std::basic_string..char > >'
// kill the following blank -> 'allocator<std::string>'
if (pos + 1 < type->size() && type->at(pos) == QLatin1Char(' ')
&& type->at(pos + 1) == QLatin1Char('>'))
type->remove(pos, 1);
}
}
// Fix 'std::allocator<std::string >' -> 'std::allocator<std::string>',
// which can happen when replacing/simplifying
static inline QString fixNestedTemplates(QString s)
{
const int size = s.size();
if (size > 3
&& s.at(size - 1) == QLatin1Char('>')
&& s.at(size - 2) == QLatin1Char(' ')
&& s.at(size - 3) != QLatin1Char('>'))
s.remove(size - 2, 1);
return s;
}
CPLUSPLUS_EXPORT QString simplifySTLType(const QString &typeIn)
{
QString type = typeIn;
if (type.startsWith("class ")) // MSVC prepends class,struct
type.remove(0, 6);
if (type.startsWith("struct "))
type.remove(0, 7);
type.replace(QLatin1Char('*'), QLatin1Char('@'));
for (int i = 0; i < 10; ++i) {
int start = type.indexOf("std::allocator<");
if (start == -1)
break;
// search for matching '>'
int pos;
int level = 0;
for (pos = start + 12; pos < type.size(); ++pos) {
int c = type.at(pos).unicode();
if (c == '<') {
++level;
} else if (c == '>') {
--level;
if (level == 0)
break;
}
}
const QString alloc = fixNestedTemplates(type.mid(start, pos + 1 - start).trimmed());
const QString inner = fixNestedTemplates(alloc.mid(15, alloc.size() - 16).trimmed());
if (inner == QLatin1String("char")) { // std::string
simplifyStdString(QLatin1String("char"), QLatin1String("string"), &type);
} else if (inner == QLatin1String("wchar_t")) { // std::wstring
simplifyStdString(QLatin1String("wchar_t"), QLatin1String("wstring"), &type);
} else if (inner == QLatin1String("unsigned short")) { // std::wstring/MSVC
simplifyStdString(QLatin1String("unsigned short"), QLatin1String("wstring"), &type);
}
// std::vector, std::deque, std::list
QRegExp re1(QString::fromLatin1("(vector|list|deque)<%1, ?%2\\s*>").arg(inner, alloc));
Q_ASSERT(re1.isValid());
if (re1.indexIn(type) != -1)
type.replace(re1.cap(0), QString::fromLatin1("%1<%2>").arg(re1.cap(1), inner));
// std::stack
QRegExp stackRE(QString::fromLatin1("stack<%1, ?std::deque<%2> >").arg(inner, inner));
stackRE.setMinimal(true);
Q_ASSERT(stackRE.isValid());
if (stackRE.indexIn(type) != -1)
type.replace(stackRE.cap(0), QString::fromLatin1("stack<%1>").arg(inner));
// std::set
QRegExp setRE(QString::fromLatin1("set<%1, ?std::less<%2>, ?%3\\s*>").arg(inner, inner, alloc));
setRE.setMinimal(true);
Q_ASSERT(setRE.isValid());
if (setRE.indexIn(type) != -1)
type.replace(setRE.cap(0), QString::fromLatin1("set<%1>").arg(inner));
// std::map
if (inner.startsWith("std::pair<")) {
// search for outermost ',', split key and value
int pos;
int level = 0;
for (pos = 10; pos < inner.size(); ++pos) {
int c = inner.at(pos).unicode();
if (c == '<')
++level;
else if (c == '>')
--level;
else if (c == ',' && level == 0)
break;
}
const QString key = chopConst(inner.mid(10, pos - 10));
// Get value: MSVC: 'pair<a const ,b>', gcc: 'pair<const a, b>'
if (inner.at(++pos) == QLatin1Char(' '))
pos++;
QString value = inner.mid(pos, inner.size() - pos - 1).trimmed();
QRegExp mapRE1(QString("map<%1, ?%2, ?std::less<%3 ?>, ?%4\\s*>")
.arg(key, value, key, alloc));
mapRE1.setMinimal(true);
Q_ASSERT(mapRE1.isValid());
if (mapRE1.indexIn(type) != -1) {
type.replace(mapRE1.cap(0), QString("map<%1, %2>").arg(key, value));
} else {
QRegExp mapRE2(QString("map<const %1, ?%2, ?std::less<const %3>, ?%4\\s*>")
.arg(key, value, key, alloc));
mapRE2.setMinimal(true);
if (mapRE2.indexIn(type) != -1) {
type.replace(mapRE2.cap(0), QString("map<const %1, %2>").arg(key, value));
}
}
}
}
type.replace(QLatin1Char('@'), QLatin1Char('*'));
type.replace(QLatin1String(" >"), QLatin1String(">"));
return type;
}
} // namespace CPlusPlus
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