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qt-creator/src/libs/cplusplus/LookupContext.cpp
Przemyslaw Gorszkowski ea32191542 C++: fix instantiation of template special. with pointer argument 
Fixed code completion for instantiation of template specialization
with argument as pointer, e.g.:
template <typename T>
struct Template
{ T variable; };
template <typename T>
struct Template<T *>
{ T *pointer; };
Template<int*> templ;
templ.pointer;

Change-Id: I7c79fe0cd7119b1208f064aece0cafdf50e1a012
Reviewed-by: Erik Verbruggen <erik.verbruggen@digia.com>
2013-02-21 16:32:25 +01:00

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/****************************************************************************
**
** Copyright (C) 2013 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://qt.digia.com/licensing. For further information
** use the contact form at http://qt.digia.com/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 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, 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 "LookupContext.h"
#include "ResolveExpression.h"
#include "Overview.h"
#include "DeprecatedGenTemplateInstance.h"
#include "CppRewriter.h"
#include <CoreTypes.h>
#include <Symbols.h>
#include <Literals.h>
#include <Names.h>
#include <Scope.h>
#include <Control.h>
#include <QStack>
#include <QHash>
#include <QVarLengthArray>
#include <QDebug>
using namespace CPlusPlus;
namespace {
const bool debug = ! qgetenv("CPLUSPLUS_LOOKUPCONTEXT_DEBUG").isEmpty();
} // end of anonymous namespace
static void addNames(const Name *name, QList<const Name *> *names, bool addAllNames = false)
{
if (! name)
return;
else if (const QualifiedNameId *q = name->asQualifiedNameId()) {
addNames(q->base(), names);
addNames(q->name(), names, addAllNames);
} else if (addAllNames || name->isNameId() || name->isTemplateNameId()) {
names->append(name);
}
}
static void path_helper(Symbol *symbol, QList<const Name *> *names)
{
if (! symbol)
return;
path_helper(symbol->enclosingScope(), names);
if (symbol->name()) {
if (symbol->isClass() || symbol->isNamespace()) {
addNames(symbol->name(), names);
} else if (symbol->isObjCClass() || symbol->isObjCBaseClass() || symbol->isObjCProtocol()
|| symbol->isObjCForwardClassDeclaration() || symbol->isObjCForwardProtocolDeclaration()
|| symbol->isForwardClassDeclaration()) {
addNames(symbol->name(), names);
} else if (symbol->isFunction()) {
if (const QualifiedNameId *q = symbol->name()->asQualifiedNameId())
addNames(q->base(), names);
} else if (Enum *e = symbol->asEnum()) {
if (e->isScoped())
addNames(symbol->name(), names);
}
}
}
namespace CPlusPlus {
bool compareName(const Name *name, const Name *other)
{
if (name == other)
return true;
else if (name && other) {
const Identifier *id = name->identifier();
const Identifier *otherId = other->identifier();
if (id == otherId || (id && id->isEqualTo(otherId)))
return true;
}
return false;
}
bool compareFullyQualifiedName(const QList<const Name *> &path, const QList<const Name *> &other)
{
if (path.length() != other.length())
return false;
for (int i = 0; i < path.length(); ++i) {
if (! compareName(path.at(i), other.at(i)))
return false;
}
return true;
}
}
/////////////////////////////////////////////////////////////////////
// LookupContext
/////////////////////////////////////////////////////////////////////
LookupContext::LookupContext()
: _control(new Control())
, m_expandTemplates(false)
{ }
LookupContext::LookupContext(Document::Ptr thisDocument,
const Snapshot &snapshot)
: _expressionDocument(Document::create(QLatin1String("<LookupContext>"))),
_thisDocument(thisDocument),
_snapshot(snapshot),
_control(new Control()),
m_expandTemplates(false)
{
}
LookupContext::LookupContext(Document::Ptr expressionDocument,
Document::Ptr thisDocument,
const Snapshot &snapshot)
: _expressionDocument(expressionDocument),
_thisDocument(thisDocument),
_snapshot(snapshot),
_control(new Control()),
m_expandTemplates(false)
{
}
LookupContext::LookupContext(const LookupContext &other)
: _expressionDocument(other._expressionDocument),
_thisDocument(other._thisDocument),
_snapshot(other._snapshot),
_bindings(other._bindings),
_control(other._control),
m_expandTemplates(other.m_expandTemplates)
{ }
LookupContext &LookupContext::operator = (const LookupContext &other)
{
_expressionDocument = other._expressionDocument;
_thisDocument = other._thisDocument;
_snapshot = other._snapshot;
_bindings = other._bindings;
_control = other._control;
m_expandTemplates = other.m_expandTemplates;
return *this;
}
QList<const Name *> LookupContext::fullyQualifiedName(Symbol *symbol)
{
QList<const Name *> qualifiedName = path(symbol->enclosingScope());
addNames(symbol->name(), &qualifiedName, /*add all names*/ true);
return qualifiedName;
}
QList<const Name *> LookupContext::path(Symbol *symbol)
{
QList<const Name *> names;
path_helper(symbol, &names);
return names;
}
static bool symbolIdentical(Symbol *s1, Symbol *s2)
{
if (!s1 || !s2)
return false;
if (s1->line() != s2->line())
return false;
if (s1->column() != s2->column())
return false;
return QByteArray(s1->fileName()) == QByteArray(s2->fileName());
}
const Name *LookupContext::minimalName(Symbol *symbol, ClassOrNamespace *target, Control *control)
{
const Name *n = 0;
QList<const Name *> names = LookupContext::fullyQualifiedName(symbol);
for (int i = names.size() - 1; i >= 0; --i) {
if (! n)
n = names.at(i);
else
n = control->qualifiedNameId(names.at(i), n);
// once we're qualified enough to get the same symbol, break
if (target) {
const QList<LookupItem> tresults = target->lookup(n);
foreach (const LookupItem &tr, tresults) {
if (symbolIdentical(tr.declaration(), symbol))
return n;
}
}
}
return n;
}
QSharedPointer<CreateBindings> LookupContext::bindings() const
{
if (! _bindings) {
_bindings = QSharedPointer<CreateBindings>(new CreateBindings(_thisDocument, _snapshot, control()));
_bindings->setExpandTemplates(m_expandTemplates);
}
return _bindings;
}
void LookupContext::setBindings(QSharedPointer<CreateBindings> bindings)
{
_bindings = bindings;
}
QSharedPointer<Control> LookupContext::control() const
{
return _control;
}
Document::Ptr LookupContext::expressionDocument() const
{ return _expressionDocument; }
Document::Ptr LookupContext::thisDocument() const
{ return _thisDocument; }
Document::Ptr LookupContext::document(const QString &fileName) const
{ return _snapshot.document(fileName); }
Snapshot LookupContext::snapshot() const
{ return _snapshot; }
ClassOrNamespace *LookupContext::globalNamespace() const
{
return bindings()->globalNamespace();
}
ClassOrNamespace *LookupContext::lookupType(const Name *name, Scope *scope,
ClassOrNamespace* enclosingTemplateInstantiation) const
{
if (! scope) {
return 0;
} else if (Block *block = scope->asBlock()) {
for (unsigned i = 0; i < block->memberCount(); ++i) {
Symbol *m = block->memberAt(i);
if (UsingNamespaceDirective *u = m->asUsingNamespaceDirective()) {
if (ClassOrNamespace *uu = lookupType(u->name(), scope->enclosingNamespace())) {
if (ClassOrNamespace *r = uu->lookupType(name))
return r;
}
} else if (Declaration *d = m->asDeclaration()) {
if (d->name() && d->name()->isEqualTo(name->asNameId())) {
if (d->isTypedef() && d->type()) {
#ifdef DEBUG_LOOKUP
Overview oo;
qDebug() << "Looks like" << oo(name) << "is a typedef for" << oo(d->type());
#endif // DEBUG_LOOKUP
if (const NamedType *namedTy = d->type()->asNamedType())
return lookupType(namedTy->name(), scope);
}
}
}
}
return lookupType(name, scope->enclosingScope());
} else if (ClassOrNamespace *b = bindings()->lookupType(scope, enclosingTemplateInstantiation)) {
return b->lookupType(name);
}
return 0;
}
ClassOrNamespace *LookupContext::lookupType(Symbol *symbol,
ClassOrNamespace* enclosingTemplateInstantiation) const
{
return bindings()->lookupType(symbol, enclosingTemplateInstantiation);
}
QList<LookupItem> LookupContext::lookup(const Name *name, Scope *scope) const
{
QList<LookupItem> candidates;
if (! name)
return candidates;
for (; scope; scope = scope->enclosingScope()) {
if (name->identifier() != 0 && scope->isBlock()) {
bindings()->lookupInScope(name, scope, &candidates, /*templateId = */ 0, /*binding=*/ 0);
if (! candidates.isEmpty())
break; // it's a local.
for (unsigned i = 0; i < scope->memberCount(); ++i) {
if (UsingNamespaceDirective *u = scope->memberAt(i)->asUsingNamespaceDirective()) {
if (ClassOrNamespace *uu = lookupType(u->name(), scope->enclosingNamespace())) {
candidates = uu->find(name);
if (! candidates.isEmpty())
return candidates;
}
}
}
} else if (Function *fun = scope->asFunction()) {
bindings()->lookupInScope(name, fun, &candidates, /*templateId = */ 0, /*binding=*/ 0);
if (! candidates.isEmpty())
break; // it's an argument or a template parameter.
if (fun->name() && fun->name()->isQualifiedNameId()) {
if (ClassOrNamespace *binding = bindings()->lookupType(fun)) {
candidates = binding->find(name);
// try find this name in parent class
while (candidates.isEmpty() && (binding = binding->parent()))
candidates = binding->find(name);
if (! candidates.isEmpty())
return candidates;
}
}
// contunue, and look at the enclosing scope.
} else if (ObjCMethod *method = scope->asObjCMethod()) {
bindings()->lookupInScope(name, method, &candidates, /*templateId = */ 0, /*binding=*/ 0);
if (! candidates.isEmpty())
break; // it's a formal argument.
} else if (Template *templ = scope->asTemplate()) {
bindings()->lookupInScope(name, templ, &candidates, /*templateId = */ 0, /*binding=*/ 0);
if (! candidates.isEmpty())
return candidates; // it's a template parameter.
} else if (scope->asNamespace()
|| scope->asClass()
|| (scope->asEnum() && scope->asEnum()->isScoped())) {
if (ClassOrNamespace *binding = bindings()->lookupType(scope))
candidates = binding->find(name);
if (! candidates.isEmpty())
return candidates;
} else if (scope->isObjCClass() || scope->isObjCProtocol()) {
if (ClassOrNamespace *binding = bindings()->lookupType(scope))
candidates = binding->find(name);
if (! candidates.isEmpty())
return candidates;
}
}
return candidates;
}
ClassOrNamespace *LookupContext::lookupParent(Symbol *symbol) const
{
QList<const Name *> fqName = path(symbol);
ClassOrNamespace *binding = globalNamespace();
foreach (const Name *name, fqName) {
binding = binding->findType(name);
if (!binding)
return 0;
}
return binding;
}
ClassOrNamespace::ClassOrNamespace(CreateBindings *factory, ClassOrNamespace *parent)
: _factory(factory), _parent(parent), _templateId(0), _instantiationOrigin(0)
#ifdef DEBUG_LOOKUP
, _name(0)
#endif // DEBUG_LOOKUP
{
}
const TemplateNameId *ClassOrNamespace::templateId() const
{
return _templateId;
}
ClassOrNamespace *ClassOrNamespace::instantiationOrigin() const
{
return _instantiationOrigin;
}
ClassOrNamespace *ClassOrNamespace::parent() const
{
return _parent;
}
QList<ClassOrNamespace *> ClassOrNamespace::usings() const
{
const_cast<ClassOrNamespace *>(this)->flush();
return _usings;
}
QList<Enum *> ClassOrNamespace::unscopedEnums() const
{
const_cast<ClassOrNamespace *>(this)->flush();
return _enums;
}
QList<Symbol *> ClassOrNamespace::symbols() const
{
const_cast<ClassOrNamespace *>(this)->flush();
return _symbols;
}
ClassOrNamespace *ClassOrNamespace::globalNamespace() const
{
ClassOrNamespace *e = const_cast<ClassOrNamespace *>(this);
do {
if (! e->_parent)
break;
e = e->_parent;
} while (e);
return e;
}
QList<LookupItem> ClassOrNamespace::find(const Name *name)
{
return lookup_helper(name, false);
}
QList<LookupItem> ClassOrNamespace::lookup(const Name *name)
{
return lookup_helper(name, true);
}
QList<LookupItem> ClassOrNamespace::lookup_helper(const Name *name, bool searchInEnclosingScope)
{
QList<LookupItem> result;
if (name) {
if (const QualifiedNameId *q = name->asQualifiedNameId()) {
if (! q->base())
result = globalNamespace()->find(q->name());
else if (ClassOrNamespace *binding = lookupType(q->base())) {
result = binding->find(q->name());
QList<const Name *> fullName;
addNames(name, &fullName);
// It's also possible that there are matches in the parent binding through
// a qualified name. For instance, a nested class which is forward declared
// in the class but defined outside it - we should capture both.
Symbol *match = 0;
ClassOrNamespace *parentBinding = binding->parent();
while (parentBinding && !match) {
for (int j = 0; j < parentBinding->symbols().size() && !match; ++j) {
if (Scope *scope = parentBinding->symbols().at(j)->asScope()) {
for (unsigned i = 0; i < scope->memberCount(); ++i) {
Symbol *candidate = scope->memberAt(i);
if (compareFullyQualifiedName(
fullName,
LookupContext::fullyQualifiedName(candidate))) {
match = candidate;
break;
}
}
}
}
parentBinding = parentBinding->parent();
}
if (match) {
LookupItem item;
item.setDeclaration(match);
item.setBinding(binding);
result.append(item);
}
}
return result;
}
QSet<ClassOrNamespace *> processed;
ClassOrNamespace *binding = this;
do {
lookup_helper(name, binding, &result, &processed, /*templateId = */ 0);
binding = binding->_parent;
} while (searchInEnclosingScope && binding);
}
return result;
}
void ClassOrNamespace::lookup_helper(const Name *name, ClassOrNamespace *binding,
QList<LookupItem> *result,
QSet<ClassOrNamespace *> *processed,
const TemplateNameId *templateId)
{
if (binding && ! processed->contains(binding)) {
processed->insert(binding);
const Identifier *nameId = name->identifier();
foreach (Symbol *s, binding->symbols()) {
if (s->isFriend())
continue;
else if (s->isUsingNamespaceDirective())
continue;
if (Scope *scope = s->asScope()) {
if (Class *klass = scope->asClass()) {
if (const Identifier *id = klass->identifier()) {
if (nameId && nameId->isEqualTo(id)) {
LookupItem item;
item.setDeclaration(klass);
item.setBinding(binding);
result->append(item);
}
}
}
_factory->lookupInScope(name, scope, result, templateId, binding);
}
}
foreach (Enum *e, binding->unscopedEnums())
_factory->lookupInScope(name, e, result, templateId, binding);
foreach (ClassOrNamespace *u, binding->usings())
lookup_helper(name, u, result, processed, binding->_templateId);
}
}
void CreateBindings::lookupInScope(const Name *name, Scope *scope,
QList<LookupItem> *result,
const TemplateNameId *templateId,
ClassOrNamespace *binding)
{
if (! name) {
return;
} else if (const OperatorNameId *op = name->asOperatorNameId()) {
for (Symbol *s = scope->find(op->kind()); s; s = s->next()) {
if (! s->name())
continue;
else if (s->isFriend())
continue;
else if (! s->name()->isEqualTo(op))
continue;
LookupItem item;
item.setDeclaration(s);
item.setBinding(binding);
result->append(item);
}
} else if (const Identifier *id = name->identifier()) {
for (Symbol *s = scope->find(id); s; s = s->next()) {
if (s->isFriend())
continue; // skip friends
else if (s->isUsingNamespaceDirective())
continue; // skip using namespace directives
else if (! id->isEqualTo(s->identifier()))
continue;
else if (s->name()->isQualifiedNameId())
continue; // skip qualified ids.
#ifdef DEBUG_LOOKUP
Overview oo;
qDebug() << "Found" << id->chars() << "in"
<< (binding ? oo(binding->_name) : QString::fromAscii("<null>"));
#endif // DEBUG_LOOKUP
LookupItem item;
item.setDeclaration(s);
item.setBinding(binding);
if (s->asNamespaceAlias() && binding) {
ClassOrNamespace *targetNamespaceBinding = binding->lookupType(name);
if (targetNamespaceBinding && targetNamespaceBinding->symbols().size() == 1) {
Symbol *resolvedSymbol = targetNamespaceBinding->symbols().first();
item.setType(resolvedSymbol->type()); // override the type
}
}
if (templateId && (s->isDeclaration() || s->isFunction())) {
FullySpecifiedType ty = DeprecatedGenTemplateInstance::instantiate(templateId, s, _control);
item.setType(ty); // override the type.
}
result->append(item);
}
}
}
ClassOrNamespace *ClassOrNamespace::lookupType(const Name *name)
{
if (! name)
return 0;
QSet<ClassOrNamespace *> processed;
return lookupType_helper(name, &processed, /*searchInEnclosingScope =*/ true, this);
}
ClassOrNamespace *ClassOrNamespace::findType(const Name *name)
{
QSet<ClassOrNamespace *> processed;
return lookupType_helper(name, &processed, /*searchInEnclosingScope =*/ false, this);
}
ClassOrNamespace *ClassOrNamespace::lookupType_helper(const Name *name,
QSet<ClassOrNamespace *> *processed,
bool searchInEnclosingScope,
ClassOrNamespace *origin)
{
#ifdef DEBUG_LOOKUP
Overview oo;
qDebug() << "Looking up" << oo(name) << "in" << oo(_name);
#endif // DEBUG_LOOKUP
if (const QualifiedNameId *q = name->asQualifiedNameId()) {
QSet<ClassOrNamespace *> innerProcessed;
if (! q->base())
return globalNamespace()->lookupType_helper(q->name(), &innerProcessed, true, origin);
if (ClassOrNamespace *binding = lookupType_helper(q->base(), processed, true, origin))
return binding->lookupType_helper(q->name(), &innerProcessed, false, origin);
return 0;
} else if (! processed->contains(this)) {
processed->insert(this);
if (name->isNameId() || name->isTemplateNameId()) {
flush();
foreach (Symbol *s, symbols()) {
if (Class *klass = s->asClass()) {
if (klass->identifier() && klass->identifier()->isEqualTo(name->identifier()))
return this;
}
}
if (ClassOrNamespace *e = nestedType(name, origin))
return e;
else if (_templateId) {
if (_usings.size() == 1) {
ClassOrNamespace *delegate = _usings.first();
if (ClassOrNamespace *r = delegate->lookupType_helper(name,
processed,
/*searchInEnclosingScope = */ true,
origin))
return r;
} else {
if (debug)
qWarning() << "expected one using declaration. Number of using declarations is:"
<< _usings.size();
}
}
foreach (ClassOrNamespace *u, usings()) {
if (ClassOrNamespace *r = u->lookupType_helper(name,
processed,
/*searchInEnclosingScope =*/ false,
origin))
return r;
}
}
if (_parent && searchInEnclosingScope)
return _parent->lookupType_helper(name, processed, searchInEnclosingScope, origin);
}
return 0;
}
ClassOrNamespace *ClassOrNamespace::findSpecializationWithPointer(const TemplateNameId *templId,
const TemplateNameIdTable &specializations)
{
// we go through all specialization and try to find that one with template argument as pointer
for (TemplateNameIdTable::const_iterator cit = specializations.begin();
cit != specializations.end(); ++cit) {
const TemplateNameId *specializationNameId = cit->first;
const unsigned specializationTemplateArgumentCount
= specializationNameId->templateArgumentCount();
const unsigned initializationTemplateArgumentCount
= templId->templateArgumentCount();
// for now it works only when we have the same number of arguments in specialization
// and initialization(in future it should be more clever)
if (specializationTemplateArgumentCount == initializationTemplateArgumentCount) {
for (unsigned i = 0; i < initializationTemplateArgumentCount; ++i) {
const FullySpecifiedType &specializationTemplateArgument
= specializationNameId->templateArgumentAt(i);
const FullySpecifiedType &initializationTemplateArgument
= templId->templateArgumentAt(i);
PointerType *specPointer
= specializationTemplateArgument.type()->asPointerType();
// specialization and initialization argument have to be a pointer
// additionally type of pointer argument of specialization has to be namedType
if (specPointer && initializationTemplateArgument.type()->isPointerType()
&& specPointer->elementType().type()->isNamedType()) {
return cit->second;
}
}
}
}
return 0;
}
ClassOrNamespace *ClassOrNamespace::nestedType(const Name *name, ClassOrNamespace *origin)
{
Q_ASSERT(name != 0);
Q_ASSERT(name->isNameId() || name->isTemplateNameId());
const_cast<ClassOrNamespace *>(this)->flush();
Table::const_iterator it = _classOrNamespaces.find(name);
if (it == _classOrNamespaces.end())
return 0;
ClassOrNamespace *reference = it->second;
const TemplateNameId *templId = name->asTemplateNameId();
if (templId) {
// if it is a TemplateNameId it could be a specialization(full or partial) or
// instantiation of one of the specialization(reference->_specialization) or
// base class(reference)
if (templId->isSpecialization()) {
// if it is a specialization we try to find or create new one and
// add to base class(reference)
TemplateNameIdTable::const_iterator cit = reference->_specializations.find(templId);
if (cit != reference->_specializations.end()) {
return cit->second;
} else {
ClassOrNamespace *newSpecialization = _factory->allocClassOrNamespace(reference);
#ifdef DEBUG_LOOKUP
newSpecialization->_name = templId;
#endif // DEBUG_LOOKUP
reference->_specializations[templId] = newSpecialization;
return newSpecialization;
}
} else {
TemplateNameId *nonConstTemplId = const_cast<TemplateNameId *>(templId);
// make this instantiation looks like specialization which help to find
// full specialization for this instantiation
nonConstTemplId->setIsSpecialization(true);
const TemplateNameIdTable &specializations = reference->_specializations;
TemplateNameIdTable::const_iterator cit = specializations.find(templId);
if (cit != specializations.end()) {
// we found full specialization
reference = cit->second;
} else {
ClassOrNamespace *specializationWithPointer
= findSpecializationWithPointer(templId, specializations);
if (specializationWithPointer)
reference = specializationWithPointer;
// TODO: find the best specialization(probably partial) for this instantiation
}
// let's instantiation be instantiation
nonConstTemplId->setIsSpecialization(false);
}
}
// The reference binding might still be missing some of its base classes in the case they
// are templates. We need to collect them now. First, we track the bases which are already
// part of the binding so we can identify the missings ones later.
Class *referenceClass = 0;
QList<const Name *> allBases;
foreach (Symbol *s, reference->symbols()) {
if (Class *clazz = s->asClass()) {
for (unsigned i = 0; i < clazz->baseClassCount(); ++i) {
BaseClass *baseClass = clazz->baseClassAt(i);
if (baseClass->name())
allBases.append(baseClass->name());
}
referenceClass = clazz;
break;
}
}
if (!referenceClass)
return reference;
if ((! templId && _alreadyConsideredClasses.contains(referenceClass)) ||
(templId &&
_alreadyConsideredTemplates.contains(templId))) {
return reference;
}
if (!name->isTemplateNameId())
_alreadyConsideredClasses.insert(referenceClass);
QSet<ClassOrNamespace *> knownUsings = reference->usings().toSet();
// If we are dealling with a template type, more work is required, since we need to
// construct all instantiation data.
if (templId) {
_alreadyConsideredTemplates.insert(templId);
ClassOrNamespace *instantiation = _factory->allocClassOrNamespace(reference);
#ifdef DEBUG_LOOKUP
instantiation->_name = templId;
#endif // DEBUG_LOOKUP
instantiation->_templateId = templId;
instantiation->_instantiationOrigin = origin;
// The instantiation should have all symbols, enums, and usings from the reference.
instantiation->_enums.append(reference->unscopedEnums());
instantiation->_usings.append(reference->usings());
// It gets a bit complicated if the reference is actually a class template because we
// now must worry about dependent names in base classes.
if (Template *templateSpecialization = referenceClass->enclosingTemplate()) {
const unsigned argumentCountOfInitialization = templId->templateArgumentCount();
const unsigned argumentCountOfSpecialization
= templateSpecialization->templateParameterCount();
if (_factory->expandTemplates()) {
Clone cloner(_control.data());
Subst subst(_control.data());
for (unsigned i = 0; i < argumentCountOfSpecialization; ++i) {
const TypenameArgument *tParam
= templateSpecialization->templateParameterAt(i)->asTypenameArgument();
if (!tParam)
continue;
const Name *name = tParam->name();
if (!name)
continue;
FullySpecifiedType ty = (i < argumentCountOfInitialization) ?
templId->templateArgumentAt(i):
cloner.type(tParam->type(), &subst);
subst.bind(cloner.name(name, &subst), ty);
}
foreach (Symbol *s, reference->symbols()) {
Symbol *clone = cloner.symbol(s, &subst);
instantiation->_symbols.append(clone);
#ifdef DEBUG_LOOKUP
Overview oo;oo.showFunctionSignatures = true;
oo.showReturnTypes = true;
oo.showTemplateParameters = true;
qDebug()<<"cloned"<<oo(clone->type());
if (Class *klass = s->asClass()) {
const unsigned klassMemberCount = klass->memberCount();
for (unsigned i = 0; i < klassMemberCount; ++i){
Symbol *klassMemberAsSymbol = klass->memberAt(i);
if (klassMemberAsSymbol->isTypedef()) {
if (Declaration *declaration = klassMemberAsSymbol->asDeclaration()) {
qDebug() << "Member: " << oo(declaration->type(), declaration->name());
}
}
}
}
#endif // DEBUG_LOOKUP
}
instantiateNestedClasses(reference, cloner, subst, instantiation);
} else {
instantiation->_symbols.append(reference->symbols());
}
QHash<const Name*, unsigned> templParams;
for (unsigned i = 0; i < argumentCountOfSpecialization; ++i)
templParams.insert(templateSpecialization->templateParameterAt(i)->name(), i);
foreach (const Name *baseName, allBases) {
ClassOrNamespace *baseBinding = 0;
if (const Identifier *nameId = baseName->asNameId()) {
// This is the simple case in which a template parameter is itself a base.
// Ex.: template <class T> class A : public T {};
if (templParams.contains(nameId)) {
const unsigned parameterIndex = templParams.value(nameId);
if (parameterIndex < argumentCountOfInitialization) {
const FullySpecifiedType &fullType =
templId->templateArgumentAt(parameterIndex);
if (fullType.isValid()) {
if (NamedType *namedType = fullType.type()->asNamedType())
baseBinding = lookupType(namedType->name());
}
}
}
} else {
SubstitutionMap map;
for (unsigned i = 0;
i < argumentCountOfSpecialization && i < argumentCountOfInitialization;
++i) {
map.bind(templateSpecialization->templateParameterAt(i)->name(),
templId->templateArgumentAt(i));
}
SubstitutionEnvironment env;
env.enter(&map);
baseName = rewriteName(baseName, &env, _control.data());
if (const TemplateNameId *baseTemplId = baseName->asTemplateNameId()) {
// Another template that uses the dependent name.
// Ex.: template <class T> class A : public B<T> {};
if (baseTemplId->identifier() != templId->identifier())
baseBinding = nestedType(baseName, origin);
} else if (const QualifiedNameId *qBaseName = baseName->asQualifiedNameId()) {
// Qualified names in general.
// Ex.: template <class T> class A : public B<T>::Type {};
ClassOrNamespace *binding = this;
if (const Name *qualification = qBaseName->base()) {
const TemplateNameId *baseTemplName = qualification->asTemplateNameId();
if (!baseTemplName || !compareName(baseTemplName, templateSpecialization->name()))
binding = lookupType(qualification);
}
baseName = qBaseName->name();
if (binding)
baseBinding = binding->lookupType(baseName);
}
}
if (baseBinding && !knownUsings.contains(baseBinding))
instantiation->addUsing(baseBinding);
}
} else {
instantiation->_classOrNamespaces = reference->_classOrNamespaces;
instantiation->_symbols.append(reference->symbols());
}
_alreadyConsideredTemplates.clear(templId);
return instantiation;
}
if (allBases.isEmpty() || allBases.size() == knownUsings.size())
return reference;
// Find the missing bases for regular (non-template) types.
// Ex.: class A : public B<Some>::Type {};
foreach (const Name *baseName, allBases) {
ClassOrNamespace *binding = this;
if (const QualifiedNameId *qBaseName = baseName->asQualifiedNameId()) {
if (const Name *qualification = qBaseName->base())
binding = lookupType(qualification);
else if (binding->parent() != 0)
//if this is global identifier we take global namespace
//Ex: class A{}; namespace NS { class A: public ::A{}; }
binding = binding->globalNamespace();
else
//if we are in the global scope
continue;
baseName = qBaseName->name();
}
if (binding) {
ClassOrNamespace * baseBinding = binding->lookupType(baseName);
if (baseBinding && !knownUsings.contains(baseBinding))
reference->addUsing(baseBinding);
}
}
_alreadyConsideredClasses.clear(referenceClass);
return reference;
}
void ClassOrNamespace::instantiateNestedClasses(ClassOrNamespace *enclosingTemplateClass,
Clone &cloner,
Subst &subst,
ClassOrNamespace *enclosingTemplateClassInstantiation)
{
NestedClassInstantiator nestedClassInstantiator(_factory, cloner, subst);
nestedClassInstantiator.instantiate(enclosingTemplateClass, enclosingTemplateClassInstantiation);
}
void ClassOrNamespace::NestedClassInstantiator::instantiate(ClassOrNamespace *enclosingTemplateClass,
ClassOrNamespace *enclosingTemplateClassInstantiation)
{
if (_alreadyConsideredNestedClassInstantiations.contains(enclosingTemplateClass))
return;
_alreadyConsideredNestedClassInstantiations.insert(enclosingTemplateClass);
ClassOrNamespace::Table::const_iterator cit = enclosingTemplateClass->_classOrNamespaces.begin();
for (; cit != enclosingTemplateClass->_classOrNamespaces.end(); ++cit) {
const Name *nestedName = cit->first;
ClassOrNamespace *nestedClassOrNamespace = cit->second;
ClassOrNamespace *nestedClassOrNamespaceInstantiation = nestedClassOrNamespace;
if (isInstantiateNestedClassNeeded(nestedClassOrNamespace->_symbols)) {
nestedClassOrNamespaceInstantiation = _factory->allocClassOrNamespace(nestedClassOrNamespace);
nestedClassOrNamespaceInstantiation->_enums.append(nestedClassOrNamespace->unscopedEnums());
nestedClassOrNamespaceInstantiation->_usings.append(nestedClassOrNamespace->usings());
nestedClassOrNamespaceInstantiation->_instantiationOrigin = nestedClassOrNamespace;
foreach (Symbol *s, nestedClassOrNamespace->_symbols) {
Symbol *clone = _cloner.symbol(s, &_subst);
nestedClassOrNamespaceInstantiation->_symbols.append(clone);
}
}
instantiate(nestedClassOrNamespace, nestedClassOrNamespaceInstantiation);
enclosingTemplateClassInstantiation->_classOrNamespaces[nestedName] =
nestedClassOrNamespaceInstantiation;
}
_alreadyConsideredNestedClassInstantiations.remove(enclosingTemplateClass);
}
bool ClassOrNamespace::NestedClassInstantiator::isInstantiateNestedClassNeeded(const QList<Symbol *> &symbols) const
{
foreach (Symbol *s, symbols) {
if (Class *klass = s->asClass()) {
int memberCount = klass->memberCount();
for (int i = 0; i < memberCount; ++i) {
Symbol *memberAsSymbol = klass->memberAt(i);
if (Declaration *declaration = memberAsSymbol->asDeclaration()) {
if (containsTemplateType(declaration))
return true;
}
else if (Function *function = memberAsSymbol->asFunction()) {
if (containsTemplateType(function))
return true;
}
}
}
}
return false;
}
bool ClassOrNamespace::NestedClassInstantiator::containsTemplateType(Declaration *declaration) const
{
Type *memberType = declaration->type().type();
NamedType *memberNamedType = findMemberNamedType(memberType);
if (memberNamedType) {
const Name *name = memberNamedType->name();
if (_subst.contains(name))
return true;
}
return false;
}
bool ClassOrNamespace::NestedClassInstantiator::containsTemplateType(Function * /*function*/) const
{
//TODO: make implementation
return false;
}
NamedType *ClassOrNamespace::NestedClassInstantiator::findMemberNamedType(Type *memberType) const
{
if (NamedType *namedType = memberType->asNamedType())
return namedType;
else if (PointerType *pointerType = memberType->asPointerType())
return findMemberNamedType(pointerType->elementType().type());
else if (ReferenceType *referenceType = memberType->asReferenceType())
return findMemberNamedType(referenceType->elementType().type());
return 0;
}
void ClassOrNamespace::flush()
{
if (! _todo.isEmpty()) {
const QList<Symbol *> todo = _todo;
_todo.clear();
foreach (Symbol *member, todo)
_factory->process(member, this);
}
}
void ClassOrNamespace::addSymbol(Symbol *symbol)
{
_symbols.append(symbol);
}
void ClassOrNamespace::addTodo(Symbol *symbol)
{
_todo.append(symbol);
}
void ClassOrNamespace::addUnscopedEnum(Enum *e)
{
_enums.append(e);
}
void ClassOrNamespace::addUsing(ClassOrNamespace *u)
{
_usings.append(u);
}
void ClassOrNamespace::addNestedType(const Name *alias, ClassOrNamespace *e)
{
_classOrNamespaces[alias] = e;
}
ClassOrNamespace *ClassOrNamespace::findOrCreateType(const Name *name, ClassOrNamespace *origin)
{
if (! name)
return this;
if (! origin)
origin = this;
if (const QualifiedNameId *q = name->asQualifiedNameId()) {
if (! q->base())
return globalNamespace()->findOrCreateType(q->name(), origin);
return findOrCreateType(q->base(), origin)->findOrCreateType(q->name(), origin);
} else if (name->isNameId() || name->isTemplateNameId()) {
ClassOrNamespace *e = nestedType(name, origin);
if (! e) {
e = _factory->allocClassOrNamespace(this);
#ifdef DEBUG_LOOKUP
e->_name = name;
#endif // DEBUG_LOOKUP
_classOrNamespaces[name] = e;
}
return e;
}
return 0;
}
CreateBindings::CreateBindings(Document::Ptr thisDocument, const Snapshot &snapshot, QSharedPointer<Control> control)
: _snapshot(snapshot), _control(control), _expandTemplates(false)
{
_globalNamespace = allocClassOrNamespace(/*parent = */ 0);
_currentClassOrNamespace = _globalNamespace;
process(thisDocument);
}
CreateBindings::~CreateBindings()
{
qDeleteAll(_entities);
}
ClassOrNamespace *CreateBindings::switchCurrentClassOrNamespace(ClassOrNamespace *classOrNamespace)
{
ClassOrNamespace *previous = _currentClassOrNamespace;
_currentClassOrNamespace = classOrNamespace;
return previous;
}
ClassOrNamespace *CreateBindings::globalNamespace() const
{
return _globalNamespace;
}
ClassOrNamespace *CreateBindings::lookupType(Symbol *symbol, ClassOrNamespace* enclosingTemplateInstantiation)
{
const QList<const Name *> path = LookupContext::path(symbol);
return lookupType(path, enclosingTemplateInstantiation);
}
ClassOrNamespace *CreateBindings::lookupType(const QList<const Name *> &path, ClassOrNamespace* enclosingTemplateInstantiation)
{
if (path.isEmpty())
return _globalNamespace;
if (enclosingTemplateInstantiation) {
if (ClassOrNamespace *b = enclosingTemplateInstantiation->lookupType(path.last()))
return b;
}
ClassOrNamespace *b = _globalNamespace->lookupType(path.at(0));
for (int i = 1; b && i < path.size(); ++i)
b = b->findType(path.at(i));
return b;
}
void CreateBindings::process(Symbol *s, ClassOrNamespace *classOrNamespace)
{
ClassOrNamespace *previous = switchCurrentClassOrNamespace(classOrNamespace);
accept(s);
(void) switchCurrentClassOrNamespace(previous);
}
void CreateBindings::process(Symbol *symbol)
{
_currentClassOrNamespace->addTodo(symbol);
}
QSharedPointer<Control> CreateBindings::control() const
{
return _control;
}
ClassOrNamespace *CreateBindings::allocClassOrNamespace(ClassOrNamespace *parent)
{
ClassOrNamespace *e = new ClassOrNamespace(this, parent);
e->_control = control();
_entities.append(e);
return e;
}
void CreateBindings::process(Document::Ptr doc)
{
if (! doc)
return;
else if (Namespace *globalNamespace = doc->globalNamespace()) {
if (! _processed.contains(globalNamespace)) {
_processed.insert(globalNamespace);
foreach (const Document::Include &i, doc->includes()) {
if (Document::Ptr incl = _snapshot.document(i.fileName()))
process(incl);
}
accept(globalNamespace);
}
}
}
ClassOrNamespace *CreateBindings::enterClassOrNamespaceBinding(Symbol *symbol)
{
ClassOrNamespace *entity = _currentClassOrNamespace->findOrCreateType(symbol->name());
entity->addSymbol(symbol);
return switchCurrentClassOrNamespace(entity);
}
ClassOrNamespace *CreateBindings::enterGlobalClassOrNamespace(Symbol *symbol)
{
ClassOrNamespace *entity = _globalNamespace->findOrCreateType(symbol->name());
entity->addSymbol(symbol);
return switchCurrentClassOrNamespace(entity);
}
bool CreateBindings::visit(Template *templ)
{
if (Symbol *d = templ->declaration())
accept(d);
return false;
}
bool CreateBindings::visit(Namespace *ns)
{
ClassOrNamespace *previous = enterClassOrNamespaceBinding(ns);
for (unsigned i = 0; i < ns->memberCount(); ++i)
process(ns->memberAt(i));
if (ns->isInline() && previous)
previous->addUsing(_currentClassOrNamespace);
_currentClassOrNamespace = previous;
return false;
}
bool CreateBindings::visit(Class *klass)
{
ClassOrNamespace *previous = _currentClassOrNamespace;
ClassOrNamespace *binding = 0;
if (klass->name() && klass->name()->isQualifiedNameId())
binding = _currentClassOrNamespace->lookupType(klass->name());
if (! binding)
binding = _currentClassOrNamespace->findOrCreateType(klass->name());
_currentClassOrNamespace = binding;
_currentClassOrNamespace->addSymbol(klass);
for (unsigned i = 0; i < klass->baseClassCount(); ++i)
process(klass->baseClassAt(i));
for (unsigned i = 0; i < klass->memberCount(); ++i)
process(klass->memberAt(i));
_currentClassOrNamespace = previous;
return false;
}
bool CreateBindings::visit(ForwardClassDeclaration *klass)
{
if (! klass->isFriend()) {
ClassOrNamespace *previous = enterClassOrNamespaceBinding(klass);
_currentClassOrNamespace = previous;
}
return false;
}
bool CreateBindings::visit(Enum *e)
{
if (e->isScoped()) {
ClassOrNamespace *previous = enterClassOrNamespaceBinding(e);
_currentClassOrNamespace = previous;
} else {
_currentClassOrNamespace->addUnscopedEnum(e);
}
return false;
}
bool CreateBindings::visit(Declaration *decl)
{
if (decl->isTypedef()) {
FullySpecifiedType ty = decl->type();
const Identifier *typedefId = decl->identifier();
if (typedefId && ! (ty.isConst() || ty.isVolatile())) {
if (const NamedType *namedTy = ty->asNamedType()) {
if (ClassOrNamespace *e = _currentClassOrNamespace->lookupType(namedTy->name())) {
_currentClassOrNamespace->addNestedType(decl->name(), e);
} else if (false) {
Overview oo;
qDebug() << "found entity not found for" << oo.prettyName(namedTy->name());
}
} else if (Class *klass = ty->asClassType()) {
if (const Identifier *nameId = decl->name()->asNameId()) {
ClassOrNamespace *binding = _currentClassOrNamespace->findOrCreateType(nameId);
binding->addSymbol(klass);
}
}
}
}
return false;
}
bool CreateBindings::visit(Function *)
{
return false;
}
bool CreateBindings::visit(BaseClass *b)
{
if (ClassOrNamespace *base = _currentClassOrNamespace->lookupType(b->name())) {
_currentClassOrNamespace->addUsing(base);
} else if (false) {
Overview oo;
qDebug() << "no entity for:" << oo.prettyName(b->name());
}
return false;
}
bool CreateBindings::visit(UsingDeclaration *u)
{
if (u->name()) {
if (const QualifiedNameId *q = u->name()->asQualifiedNameId()) {
if (const Identifier *unqualifiedId = q->name()->asNameId()) {
if (ClassOrNamespace *delegate = _currentClassOrNamespace->lookupType(q)) {
ClassOrNamespace *b = _currentClassOrNamespace->findOrCreateType(unqualifiedId);
b->addUsing(delegate);
}
}
}
}
return false;
}
bool CreateBindings::visit(UsingNamespaceDirective *u)
{
if (ClassOrNamespace *e = _currentClassOrNamespace->lookupType(u->name())) {
_currentClassOrNamespace->addUsing(e);
} else if (false) {
Overview oo;
qDebug() << "no entity for namespace:" << oo.prettyName(u->name());
}
return false;
}
bool CreateBindings::visit(NamespaceAlias *a)
{
if (! a->identifier()) {
return false;
} else if (ClassOrNamespace *e = _currentClassOrNamespace->lookupType(a->namespaceName())) {
if (a->name()->isNameId() || a->name()->isTemplateNameId())
_currentClassOrNamespace->addNestedType(a->name(), e);
} else if (false) {
Overview oo;
qDebug() << "no entity for namespace:" << oo.prettyName(a->namespaceName());
}
return false;
}
bool CreateBindings::visit(ObjCClass *klass)
{
ClassOrNamespace *previous = enterGlobalClassOrNamespace(klass);
process(klass->baseClass());
for (unsigned i = 0; i < klass->protocolCount(); ++i)
process(klass->protocolAt(i));
for (unsigned i = 0; i < klass->memberCount(); ++i)
process(klass->memberAt(i));
_currentClassOrNamespace = previous;
return false;
}
bool CreateBindings::visit(ObjCBaseClass *b)
{
if (ClassOrNamespace *base = _globalNamespace->lookupType(b->name())) {
_currentClassOrNamespace->addUsing(base);
} else if (false) {
Overview oo;
qDebug() << "no entity for:" << oo.prettyName(b->name());
}
return false;
}
bool CreateBindings::visit(ObjCForwardClassDeclaration *klass)
{
ClassOrNamespace *previous = enterGlobalClassOrNamespace(klass);
_currentClassOrNamespace = previous;
return false;
}
bool CreateBindings::visit(ObjCProtocol *proto)
{
ClassOrNamespace *previous = enterGlobalClassOrNamespace(proto);
for (unsigned i = 0; i < proto->protocolCount(); ++i)
process(proto->protocolAt(i));
for (unsigned i = 0; i < proto->memberCount(); ++i)
process(proto->memberAt(i));
_currentClassOrNamespace = previous;
return false;
}
bool CreateBindings::visit(ObjCBaseProtocol *b)
{
if (ClassOrNamespace *base = _globalNamespace->lookupType(b->name())) {
_currentClassOrNamespace->addUsing(base);
} else if (false) {
Overview oo;
qDebug() << "no entity for:" << oo.prettyName(b->name());
}
return false;
}
bool CreateBindings::visit(ObjCForwardProtocolDeclaration *proto)
{
ClassOrNamespace *previous = enterGlobalClassOrNamespace(proto);
_currentClassOrNamespace = previous;
return false;
}
bool CreateBindings::visit(ObjCMethod *)
{
return false;
}
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