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Roberto Raggi authoredRoberto Raggi authored
FindUsages.cpp 13.43 KiB
/**************************************************************************
**
** This file is part of Qt Creator
**
** Copyright (c) 2009 Nokia Corporation and/or its subsidiary(-ies).
**
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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.
**
** 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 "FindUsages.h"
#include "TypeOfExpression.h"
#include <Control.h>
#include <Literals.h>
#include <Names.h>
#include <Symbols.h>
#include <AST.h>
#include <TranslationUnit.h>
#include <QtCore/QDir>
using namespace CPlusPlus;
FindUsages::FindUsages(Document::Ptr doc, const Snapshot &snapshot)
: ASTVisitor(doc->translationUnit()),
_doc(doc),
_snapshot(snapshot),
_source(_doc->source()),
_sem(doc->translationUnit()),
_inSimpleDeclaration(0)
{
_snapshot.insert(_doc);
}
void FindUsages::setGlobalNamespaceBinding(NamespaceBindingPtr globalNamespaceBinding)
{
_globalNamespaceBinding = globalNamespaceBinding;
}
QList<Usage> FindUsages::usages() const
{ return _usages; }
QList<int> FindUsages::references() const
{ return _references; }
void FindUsages::operator()(Symbol *symbol)
{
_processed.clear();
_references.clear();
_usages.clear(); _declSymbol = symbol;
_id = 0;
if (_declSymbol && 0 != & (_id = _declSymbol->identifier()))
_id = _doc->control()->findOrInsertIdentifier(_id->chars(), _id->size());
if (_id) {
_exprDoc = Document::create("<references>");
accept(_doc->translationUnit()->ast());
}
}
QString FindUsages::matchingLine(const Token &tk) const
{
const char *beg = _source.constData();
const char *cp = beg + tk.offset;
for (; cp != beg - 1; --cp) {
if (*cp == '\n')
break;
}
++cp;
const char *lineEnd = cp + 1;
for (; *lineEnd; ++lineEnd) {
if (*lineEnd == '\n')
break;
}
const QString matchingLine = QString::fromUtf8(cp, lineEnd - cp);
return matchingLine;
}
void FindUsages::reportResult(unsigned tokenIndex, const QList<Symbol *> &candidates)
{
if (_processed.contains(tokenIndex))
return;
const bool isStrongResult = checkCandidates(candidates);
if (isStrongResult)
reportResult(tokenIndex);
}
void FindUsages::reportResult(unsigned tokenIndex)
{
if (_processed.contains(tokenIndex))
return;
_processed.insert(tokenIndex);
const Token &tk = tokenAt(tokenIndex);
const QString lineText = matchingLine(tk);
unsigned line, col;
getTokenStartPosition(tokenIndex, &line, &col);
if (col)
--col; // adjust the column position.
const int len = tk.f.length;
const Usage u(_doc->fileName(), lineText, line, col, len);
_usages.append(u);
_references.append(tokenIndex);
}
bool FindUsages::checkCandidates(const QList<Symbol *> &candidates) const
{
if (Symbol *canonicalSymbol = LookupContext::canonicalSymbol(candidates, _globalNamespaceBinding.data())) {
#if 0
Symbol *c = candidates.first();
qDebug() << "*** canonical symbol:" << canonicalSymbol->fileName()
<< canonicalSymbol->line() << canonicalSymbol->column()
<< "candidates:" << candidates.size()
<< c->fileName() << c->line() << c->column();
#endif
return checkSymbol(canonicalSymbol);
}
return false;
}
bool FindUsages::checkScope(Symbol *symbol, Symbol *otherSymbol) const
{
if (! (symbol && otherSymbol))
return false;
else if (symbol->scope() == otherSymbol->scope())
return true;
else if (symbol->name() && otherSymbol->name()) {
if (! symbol->name()->isEqualTo(otherSymbol->name()))
return false;
} else if (symbol->name() != otherSymbol->name()) {
return false;
}
return checkScope(symbol->enclosingSymbol(), otherSymbol->enclosingSymbol());
}
bool FindUsages::checkSymbol(Symbol *symbol) const
{
if (! symbol) {
return false;
} else if (symbol == _declSymbol) {
return true;
} else if (symbol->line() == _declSymbol->line() && symbol->column() == _declSymbol->column()) {
if (! qstrcmp(symbol->fileName(), _declSymbol->fileName()))
return true;
} else if (symbol->isForwardClassDeclaration() && (_declSymbol->isClass() ||
_declSymbol->isForwardClassDeclaration())) {
return checkScope(symbol, _declSymbol);
} else if (_declSymbol->isForwardClassDeclaration() && (symbol->isClass() ||
symbol->isForwardClassDeclaration())) {
return checkScope(symbol, _declSymbol);
}
return false;
}
LookupContext FindUsages::currentContext(AST *ast)
{
unsigned line, column;
getTokenStartPosition(ast->firstToken(), &line, &column);
Symbol *lastVisibleSymbol = _doc->findSymbolAt(line, column);
if (lastVisibleSymbol && lastVisibleSymbol == _previousContext.symbol())
return _previousContext;
LookupContext ctx(lastVisibleSymbol, _exprDoc, _doc, _snapshot);
_previousContext = ctx; return ctx;
}
void FindUsages::ensureNameIsValid(NameAST *ast)
{
if (ast && ! ast->name)
ast->name = _sem.check(ast, /*scope = */ 0);
}
bool FindUsages::visit(MemInitializerAST *ast)
{
if (ast->name && ast->name->asSimpleName() != 0) {
ensureNameIsValid(ast->name);
SimpleNameAST *simple = ast->name->asSimpleName();
if (identifier(simple->identifier_token) == _id) {
LookupContext context = currentContext(ast);
const QList<Symbol *> candidates = context.resolve(simple->name);
reportResult(simple->identifier_token, candidates);
}
}
accept(ast->expression_list);
return false;
}
bool FindUsages::visit(PostfixExpressionAST *ast)
{
_postfixExpressionStack.append(ast);
return true;
}
void FindUsages::endVisit(PostfixExpressionAST *)
{
_postfixExpressionStack.removeLast();
}
bool FindUsages::visit(MemberAccessAST *ast)
{
if (ast->member_name) {
if (SimpleNameAST *simple = ast->member_name->asSimpleName()) {
if (identifier(simple->identifier_token) == _id) {
Q_ASSERT(! _postfixExpressionStack.isEmpty());
checkExpression(_postfixExpressionStack.last()->firstToken(),
simple->identifier_token);
return false;
}
}
}
return true;
}
void FindUsages::checkExpression(unsigned startToken, unsigned endToken)
{
const unsigned begin = tokenAt(startToken).begin();
const unsigned end = tokenAt(endToken).end();
const QString expression = _source.mid(begin, end - begin);
// qDebug() << "*** check expression:" << expression;
TypeOfExpression typeofExpression;
typeofExpression.setSnapshot(_snapshot);
unsigned line, column;
getTokenStartPosition(startToken, &line, &column);
Symbol *lastVisibleSymbol = _doc->findSymbolAt(line, column);
const QList<LookupItem> results = typeofExpression(expression, _doc, lastVisibleSymbol, TypeOfExpression::Preprocess);
QList<Symbol *> candidates;
foreach (const LookupItem &r, results) {
Symbol *lastVisibleSymbol = r.lastVisibleSymbol();
candidates.append(lastVisibleSymbol);
}
reportResult(endToken, candidates);
}
bool FindUsages::visit(QualifiedNameAST *ast)
{
for (NestedNameSpecifierListAST *it = ast->nested_name_specifier_list; it; it = it->next) {
NestedNameSpecifierAST *nested_name_specifier = it->value;
if (NameAST *class_or_namespace_name = nested_name_specifier->class_or_namespace_name) {
SimpleNameAST *simple_name = class_or_namespace_name->asSimpleName();
TemplateIdAST *template_id = 0;
if (! simple_name) {
template_id = class_or_namespace_name->asTemplateId();
if (template_id) {
for (TemplateArgumentListAST *arg_it = template_id->template_argument_list; arg_it; arg_it = arg_it->next) {
accept(arg_it->value);
}
}
}
if (simple_name || template_id) {
const unsigned identifier_token = simple_name
? simple_name->identifier_token
: template_id->identifier_token;
if (identifier(identifier_token) == _id)
checkExpression(ast->firstToken(), identifier_token);
}
}
}
if (NameAST *unqualified_name = ast->unqualified_name) {
unsigned identifier_token = 0;
if (SimpleNameAST *simple_name = unqualified_name->asSimpleName())
identifier_token = simple_name->identifier_token;
else if (DestructorNameAST *dtor_name = unqualified_name->asDestructorName())
identifier_token = dtor_name->identifier_token;
TemplateIdAST *template_id = 0;
if (! identifier_token) {
template_id = unqualified_name->asTemplateId();
if (template_id) {
identifier_token = template_id->identifier_token;
for (TemplateArgumentListAST *template_arguments = template_id->template_argument_list;
template_arguments; template_arguments = template_arguments->next) {
accept(template_arguments->value);
}
}
}
if (identifier_token && identifier(identifier_token) == _id)
checkExpression(ast->firstToken(), identifier_token);
}
return false;}
bool FindUsages::visit(EnumeratorAST *ast)
{
const Identifier *id = identifier(ast->identifier_token);
if (id == _id) {
LookupContext context = currentContext(ast);
const QList<Symbol *> candidates = context.resolve(control()->nameId(id));
reportResult(ast->identifier_token, candidates);
}
accept(ast->expression);
return false;
}
bool FindUsages::visit(SimpleNameAST *ast)
{
const Identifier *id = identifier(ast->identifier_token);
if (id == _id) {
LookupContext context = currentContext(ast);
const QList<Symbol *> candidates = context.resolve(ast->name);
reportResult(ast->identifier_token, candidates);
}
return false;
}
bool FindUsages::visit(DestructorNameAST *ast)
{
const Identifier *id = identifier(ast->identifier_token);
if (id == _id) {
LookupContext context = currentContext(ast);
const QList<Symbol *> candidates = context.resolve(ast->name);
reportResult(ast->identifier_token, candidates);
}
return false;
}
bool FindUsages::visit(TemplateIdAST *ast)
{
if (_id == identifier(ast->identifier_token)) {
LookupContext context = currentContext(ast);
const QList<Symbol *> candidates = context.resolve(ast->name);
reportResult(ast->identifier_token, candidates);
}
for (TemplateArgumentListAST *template_arguments = ast->template_argument_list;
template_arguments; template_arguments = template_arguments->next) {
accept(template_arguments->value);
}
return false;
}
bool FindUsages::visit(ParameterDeclarationAST *ast)
{
for (SpecifierListAST *it = ast->type_specifier_list; it; it = it->next)
accept(it->value);
if (DeclaratorAST *declarator = ast->declarator) {
for (SpecifierListAST *it = declarator->attribute_list; it; it = it->next)
accept(it->value);
for (PtrOperatorListAST *it = declarator->ptr_operator_list; it; it = it->next)
accept(it->value);
if (! _inSimpleDeclaration) // visit the core declarator only if we are not in simple-declaration.
accept(declarator->core_declarator);
for (PostfixDeclaratorListAST *it = declarator->postfix_declarator_list; it; it = it->next)
accept(it->value);
for (SpecifierListAST *it = declarator->post_attribute_list; it; it = it->next)
accept(it->value);
accept(declarator->initializer);
}
accept(ast->expression);
return false;
}
bool FindUsages::visit(ExpressionOrDeclarationStatementAST *ast)
{
accept(ast->declaration);
return false;
}
bool FindUsages::visit(FunctionDeclaratorAST *ast)
{
accept(ast->parameters);
for (SpecifierListAST *it = ast->cv_qualifier_list; it; it = it->next)
accept(it->value);
accept(ast->exception_specification);
return false;
}
bool FindUsages::visit(SimpleDeclarationAST *)
{
++_inSimpleDeclaration;
return true;
}
void FindUsages::endVisit(SimpleDeclarationAST *)
{ --_inSimpleDeclaration; }