/**************************************************************************
**
** This file is part of Qt Creator
**
** Copyright (c) 2010 Nokia Corporation and/or its subsidiary(-ies).
**
** Contact: Nokia Corporation (qt-info@nokia.com)
**
** Commercial Usage
**
** 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.
**
** 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.
**
** If you are unsure which license is appropriate for your use, please
** contact the sales department at http://qt.nokia.com/contact.
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**************************************************************************/
#include "CppDocument.h"
#include "FastPreprocessor.h"
#include "LookupContext.h"
#include "Overview.h"
#include <Control.h>
#include <TranslationUnit.h>
#include <DiagnosticClient.h>
#include <Semantic.h>
#include <Literals.h>
#include <Symbols.h>
#include <Names.h>
#include <AST.h>
#include <Scope.h>
#include <SymbolVisitor.h>
#include <QtCore/QByteArray>
#include <QtCore/QBitArray>
#include <QtCore/QDir>
#include <QtCore/QtDebug>
/*!
\namespace CPlusPlus
The namespace for C++ related tools.
*/
using namespace CPlusPlus;
namespace {
class FindScopeAt: protected SymbolVisitor
{
TranslationUnit *_unit;
unsigned _line;
unsigned _column;
Scope *_scope;
public:
FindScopeAt(TranslationUnit *unit, unsigned line, unsigned column)
: _unit(unit), _line(line), _column(column), _scope(0) {}
Scope *operator()(Symbol *symbol)
{
accept(symbol);
return _scope;
}
protected:
bool process(ScopedSymbol *symbol)
{
if (! _scope) {
Scope *scope = symbol->members();
for (unsigned i = 0; i < scope->symbolCount(); ++i) {
accept(scope->symbolAt(i));
if (_scope)
return false;
}
unsigned startLine, startColumn;
_unit->getPosition(symbol->startOffset(), &startLine, &startColumn);
if (_line > startLine || (_line == startLine && _column >= startColumn)) {
unsigned endLine, endColumn;
_unit->getPosition(symbol->endOffset(), &endLine, &endColumn);
if (_line < endLine || (_line == endLine && _column < endColumn))
_scope = scope;
}
}
return false;
}
using SymbolVisitor::visit;
virtual bool preVisit(Symbol *)
{ return ! _scope; }
virtual bool visit(UsingNamespaceDirective *) { return false; }
virtual bool visit(UsingDeclaration *) { return false; }
virtual bool visit(NamespaceAlias *) { return false; }
virtual bool visit(Declaration *) { return false; }
virtual bool visit(Argument *) { return false; }
virtual bool visit(TypenameArgument *) { return false; }
virtual bool visit(BaseClass *) { return false; }
virtual bool visit(ForwardClassDeclaration *) { return false; }
virtual bool visit(Enum *symbol)
{ return process(symbol); }
virtual bool visit(Function *symbol)
{ return process(symbol); }
virtual bool visit(Namespace *symbol)
{ return process(symbol); }
virtual bool visit(Class *symbol)
{ return process(symbol); }
virtual bool visit(Block *symbol)
{ return process(symbol); }
// Objective-C
virtual bool visit(ObjCBaseClass *) { return false; }
virtual bool visit(ObjCBaseProtocol *) { return false; }
virtual bool visit(ObjCForwardClassDeclaration *) { return false; }
virtual bool visit(ObjCForwardProtocolDeclaration *) { return false; }
virtual bool visit(ObjCPropertyDeclaration *) { return false; }
virtual bool visit(ObjCClass *symbol)
{ return process(symbol); }
virtual bool visit(ObjCProtocol *symbol)
{ return process(symbol); }
virtual bool visit(ObjCMethod *symbol)
{ return process(symbol); }
};
class DocumentDiagnosticClient : public DiagnosticClient
{
enum { MAX_MESSAGE_COUNT = 10 };
public:
DocumentDiagnosticClient(Document *doc, QList<Document::DiagnosticMessage> *messages)
: doc(doc),
messages(messages),
errorCount(0)
{ }
virtual void report(int level,
const StringLiteral *fileId,
unsigned line, unsigned column,
const char *format, va_list ap)
{
if (level == Error) {
++errorCount;
if (errorCount >= MAX_MESSAGE_COUNT)
return; // ignore the error
}
const QString fileName = QString::fromUtf8(fileId->chars(), fileId->size());
if (fileName != doc->fileName())
return;
QString message;
message.vsprintf(format, ap);
Document::DiagnosticMessage m(convertLevel(level), doc->fileName(),
line, column, message);
messages->append(m);
}
static int convertLevel(int level) {
switch (level) {
case Warning: return Document::DiagnosticMessage::Warning;
case Error: return Document::DiagnosticMessage::Error;
case Fatal: return Document::DiagnosticMessage::Fatal;
default: return Document::DiagnosticMessage::Error;
}
}
private:
Document *doc;
QList<Document::DiagnosticMessage> *messages;
int errorCount;
};
} // anonymous namespace
Document::Document(const QString &fileName)
: _fileName(QDir::cleanPath(fileName)),
_globalNamespace(0),
_revision(0),
_editorRevision(0)
{
_control = new Control();
_control->setDiagnosticClient(new DocumentDiagnosticClient(this, &_diagnosticMessages));
const QByteArray localFileName = fileName.toUtf8();
const StringLiteral *fileId = _control->findOrInsertStringLiteral(localFileName.constData(),
localFileName.size());
_translationUnit = new TranslationUnit(_control, fileId);
_translationUnit->setQtMocRunEnabled(true);
_translationUnit->setCxxOxEnabled(true);
_translationUnit->setObjCEnabled(true);
(void) _control->switchTranslationUnit(_translationUnit);
}
Document::~Document()
{
delete _translationUnit;
delete _control->diagnosticClient();
delete _control;
}
Control *Document::control() const
{
return _control;
}
unsigned Document::revision() const
{
return _revision;
}
void Document::setRevision(unsigned revision)
{
_revision = revision;
}
unsigned Document::editorRevision() const
{
return _editorRevision;
}
void Document::setEditorRevision(unsigned editorRevision)
{
_editorRevision = editorRevision;
}
QDateTime Document::lastModified() const
{
return _lastModified;
}
void Document::setLastModified(const QDateTime &lastModified)
{
_lastModified = lastModified;
}
QString Document::fileName() const
{
return _fileName;
}
QStringList Document::includedFiles() const
{
QStringList files;
foreach (const Include &i, _includes)
files.append(i.fileName());
files.removeDuplicates();
return files;
}
void Document::addIncludeFile(const QString &fileName, unsigned line)
{
_includes.append(Include(QDir::cleanPath(fileName), line));
}
void Document::appendMacro(const Macro ¯o)
{
_definedMacros.append(macro);
}
void Document::addMacroUse(const Macro ¯o, unsigned offset, unsigned length,
unsigned beginLine,
const QVector<MacroArgumentReference> &actuals, bool inCondition)
{
MacroUse use(macro, offset, offset + length, beginLine);
use.setInCondition(inCondition);
foreach (const MacroArgumentReference &actual, actuals) {
const Block arg(actual.position(), actual.position() + actual.length());
use.addArgument(arg);
}
_macroUses.append(use);
}
void Document::addUndefinedMacroUse(const QByteArray &name, unsigned offset)
{
QByteArray copy(name.data(), name.size());
UndefinedMacroUse use(copy, offset);
_undefinedMacroUses.append(use);
}
/*!
\class Document::MacroUse
\brief Represents the usage of a macro in a \l {Document}.
\sa Document::UndefinedMacroUse
*/
/*!
\class Document::UndefinedMacroUse
\brief Represents a macro that was looked up, but not found.
Holds data about the reference to a macro in an \tt{#ifdef} or \tt{#ifndef}
or argument to the \tt{defined} operator inside an \tt{#if} or \tt{#elif} that does
not exist.
\sa Document::undefinedMacroUses(), Document::MacroUse, Macro
*/
/*!
\fn QByteArray Document::UndefinedMacroUse::name() const
Returns the name of the macro that was not found.
*/
/*!
\fn QList<UndefinedMacroUse> Document::undefinedMacroUses() const
Returns a list of referenced but undefined macros.
\sa Document::macroUses(), Document::definedMacros(), Macro
*/
/*!
\fn QList<MacroUse> Document::macroUses() const
Returns a list of macros used.
\sa Document::undefinedMacroUses(), Document::definedMacros(), Macro
*/
/*!
\fn QList<Macro> Document::definedMacros() const
Returns the list of macros defined.
\sa Document::macroUses(), Document::undefinedMacroUses()
*/
TranslationUnit *Document::translationUnit() const
{
return _translationUnit;
}
bool Document::skipFunctionBody() const
{
return _translationUnit->skipFunctionBody();
}
void Document::setSkipFunctionBody(bool skipFunctionBody)
{
_translationUnit->setSkipFunctionBody(skipFunctionBody);
}
unsigned Document::globalSymbolCount() const
{
if (! _globalNamespace)
return 0;
return _globalNamespace->memberCount();
}
Symbol *Document::globalSymbolAt(unsigned index) const
{
return _globalNamespace->memberAt(index);
}
Scope *Document::globalSymbols() const
{
if (! _globalNamespace)
return 0;
return _globalNamespace->members();
}
Namespace *Document::globalNamespace() const
{
return _globalNamespace;
}
void Document::setGlobalNamespace(Namespace *globalNamespace)
{
_globalNamespace = globalNamespace;
}
Scope *Document::scopeAt(unsigned line, unsigned column)
{
FindScopeAt findScopeAt(_translationUnit, line, column);
if (Scope *scope = findScopeAt(_globalNamespace))
return scope;
return globalSymbols();
}
Symbol *Document::lastVisibleSymbolAt(unsigned line, unsigned column) const
{
return lastVisibleSymbolAt(line, column, globalSymbols());
}
Symbol *Document::lastVisibleSymbolAt(unsigned line, unsigned column, Scope *scope) const
{
Symbol *previousSymbol = 0;
for (unsigned i = 0; i < scope->symbolCount(); ++i) {
Symbol *symbol = scope->symbolAt(i);
if (symbol->line() > line)
break;
previousSymbol = symbol;
}
if (previousSymbol) {
if (ScopedSymbol *scoped = previousSymbol->asScopedSymbol()) {
if (Symbol *member = lastVisibleSymbolAt(line, column, scoped->members()))
return member;
}
}
return previousSymbol;
}
const Macro *Document::findMacroDefinitionAt(unsigned line) const
{
foreach (const Macro ¯o, _definedMacros) {
if (macro.line() == line)
return ¯o;
}
return 0;
}
const Document::MacroUse *Document::findMacroUseAt(unsigned offset) const
{
foreach (const Document::MacroUse &use, _macroUses) {
if (use.contains(offset))
return &use;
}
return 0;
}
const Document::UndefinedMacroUse *Document::findUndefinedMacroUseAt(unsigned offset) const
{
foreach (const Document::UndefinedMacroUse &use, _undefinedMacroUses) {
if (use.contains(offset))
return &use;
}
return 0;
}
Document::Ptr Document::create(const QString &fileName)
{
Document::Ptr doc(new Document(fileName));
return doc;
}
QByteArray Document::source() const
{ return _source; }
void Document::setSource(const QByteArray &source)
{
_source = source;
_translationUnit->setSource(_source.constBegin(), _source.size());
}
void Document::startSkippingBlocks(unsigned start)
{
_skippedBlocks.append(Block(start, 0));
}
void Document::stopSkippingBlocks(unsigned stop)
{
if (_skippedBlocks.isEmpty())
return;
unsigned start = _skippedBlocks.back().begin();
if (start > stop)
_skippedBlocks.removeLast(); // Ignore this block, it's invalid.
else
_skippedBlocks.back() = Block(start, stop);
}
bool Document::isTokenized() const
{
return _translationUnit->isTokenized();
}
void Document::tokenize()
{
_translationUnit->tokenize();
}
bool Document::isParsed() const
{
return _translationUnit->isParsed();
}
bool Document::parse(ParseMode mode)
{
TranslationUnit::ParseMode m = TranslationUnit::ParseTranlationUnit;
switch (mode) {
case ParseTranlationUnit:
m = TranslationUnit::ParseTranlationUnit;
break;
case ParseDeclaration:
m = TranslationUnit::ParseDeclaration;
break;
case ParseExpression:
m = TranslationUnit::ParseExpression;
break;
case ParseDeclarator:
m = TranslationUnit::ParseDeclarator;
break;
case ParseStatement:
m = TranslationUnit::ParseStatement;
break;
default:
break;
}
return _translationUnit->parse(m);
}
void Document::check(CheckMode mode)
{
Q_ASSERT(!_globalNamespace);
if (! isParsed())
parse();
Semantic semantic(_translationUnit);
if (mode == FastCheck)
semantic.setSkipFunctionBodies(true);
_globalNamespace = _control->newNamespace(0);
Scope *globals = _globalNamespace->members();
if (! _translationUnit->ast())
return; // nothing to do.
if (TranslationUnitAST *ast = _translationUnit->ast()->asTranslationUnit()) {
for (DeclarationListAST *decl = ast->declaration_list; decl; decl = decl->next) {
semantic.check(decl->value, globals);
}
} else if (ExpressionAST *ast = _translationUnit->ast()->asExpression()) {
semantic.check(ast, globals);
}
}
void Document::releaseSource()
{
_source.clear();
}
void Document::releaseTranslationUnit()
{
_translationUnit->release();
}
Snapshot::Snapshot()
{
}
Snapshot::~Snapshot()
{
}
int Snapshot::size() const
{
return _documents.size();
}
bool Snapshot::isEmpty() const
{
return _documents.isEmpty();
}
Document::Ptr Snapshot::operator[](const QString &fileName) const
{
return _documents.value(fileName, Document::Ptr());
}
Snapshot::const_iterator Snapshot::find(const QString &fileName) const
{
return _documents.find(fileName);
}
void Snapshot::remove(const QString &fileName)
{
_documents.remove(fileName);
}
bool Snapshot::contains(const QString &fileName) const
{
return _documents.contains(fileName);
}
void Snapshot::insert(Document::Ptr doc)
{
if (doc)
_documents.insert(doc->fileName(), doc);
}
QByteArray Snapshot::preprocessedCode(const QString &source, const QString &fileName) const
{
FastPreprocessor pp(*this);
return pp.run(fileName, source);
}
Document::Ptr Snapshot::documentFromSource(const QByteArray &preprocessedCode,
const QString &fileName) const
{
Document::Ptr newDoc = Document::create(fileName);
if (Document::Ptr thisDocument = document(fileName)) {
newDoc->_revision = thisDocument->_revision;
newDoc->_editorRevision = thisDocument->_editorRevision;
newDoc->_lastModified = thisDocument->_lastModified;
newDoc->_includes = thisDocument->_includes;
newDoc->_definedMacros = thisDocument->_definedMacros;
newDoc->_macroUses = thisDocument->_macroUses;
}
newDoc->setSource(preprocessedCode);
return newDoc;
}
Document::Ptr Snapshot::document(const QString &fileName) const
{
return _documents.value(fileName);
}
Snapshot Snapshot::simplified(Document::Ptr doc) const
{
Snapshot snapshot;
simplified_helper(doc, &snapshot);
return snapshot;
}
void Snapshot::simplified_helper(Document::Ptr doc, Snapshot *snapshot) const
{
if (! doc)
return;
if (! snapshot->contains(doc->fileName())) {
snapshot->insert(doc);
foreach (const Document::Include &incl, doc->includes()) {
Document::Ptr includedDoc = document(incl.fileName());
simplified_helper(includedDoc, snapshot);
}
}
}
namespace {
class FindMatchingDefinition: public SymbolVisitor
{
Symbol *_declaration;
QList<Function *> _result;
public:
FindMatchingDefinition(Symbol *declaration)
: _declaration(declaration) {}
QList<Function *> result() const { return _result; }
using SymbolVisitor::visit;
virtual bool visit(Function *fun)
{
if (_declaration->identifier()->isEqualTo(fun->identifier()))
_result.append(fun);
return false;
}
virtual bool visit(Block *)
{
return false;
}
};
} // end of anonymous namespace
Symbol *Snapshot::findMatchingDefinition(Symbol *declaration) const
{
if (! (declaration && declaration->identifier()))
return 0;
Document::Ptr thisDocument = document(QString::fromUtf8(declaration->fileName(), declaration->fileNameLength()));
if (! thisDocument) {
qWarning() << "undefined document:" << declaration->fileName();
return 0;
}
Function *declarationTy = declaration->type()->asFunctionType();
if (! declarationTy) {
qWarning() << "not a function:" << declaration->fileName() << declaration->line() << declaration->column();
return 0;
}
foreach (Document::Ptr doc, *this) {
if (! doc->control()->findIdentifier(declaration->identifier()->chars(),
declaration->identifier()->size()))
continue;
FindMatchingDefinition candidates(declaration);
candidates.accept(doc->globalNamespace());
const QList<Function *> result = candidates.result();
if (! result.isEmpty()) {
LookupContext context(doc, *this);
QList<Function *> viableFunctions;
ClassOrNamespace *enclosingType = context.lookupType(declaration);
if (! enclosingType)
continue; // nothing to do
foreach (Function *fun, result) {
const QList<Symbol *> declarations = context.lookup(fun->name(), fun->scope());
if (declarations.isEmpty())
continue;
else if (enclosingType == context.lookupType(declarations.first()))
viableFunctions.append(fun);
}
if (viableFunctions.isEmpty())
continue;
else if (viableFunctions.length() == 1)
return viableFunctions.first();
Function *best = 0;
foreach (Function *fun, viableFunctions) {
if (fun->identity()->isEqualTo(declaration->identity()))
continue;
else if (fun->argumentCount() == declarationTy->argumentCount()) {
if (! best)
best = fun;
unsigned argc = 0;
for (; argc < declarationTy->argumentCount(); ++argc) {
Symbol *arg = fun->argumentAt(argc);
Symbol *otherArg = declarationTy->argumentAt(argc);
if (! arg->type().isEqualTo(otherArg->type()))
break;
}
if (argc == declarationTy->argumentCount())
best = fun;
}
}
if (! best)
best = viableFunctions.first();
return best;
}
}
return 0;
}
Class *Snapshot::findMatchingClassDeclaration(Symbol *declaration) const
{
if (! declaration->identifier())
return 0;
foreach (Document::Ptr doc, *this) {
if (! doc->control()->findIdentifier(declaration->identifier()->chars(),
declaration->identifier()->size()))
continue;
LookupContext context(doc, *this);
ClassOrNamespace *type = context.lookupType(declaration);
if (!type)
continue;
foreach (Symbol *s, type->symbols()) {
if (Class *c = s->asClass())
return c;
}
}
return 0;
}