/************************************************************************** ** ** This file is part of Qt Creator ** ** Copyright (c) 2011 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 "cppmodelmanager.h" #include "cppcompletionassist.h" #include "cppdoxygen.h" #include "cppmodelmanager.h" #include "cpptoolsconstants.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace CPlusPlus; using namespace CppEditor; using namespace CppTools; using namespace Internal; using namespace TextEditor; namespace { int activationSequenceChar(const QChar &ch, const QChar &ch2, const QChar &ch3, unsigned *kind, bool wantFunctionCall) { int referencePosition = 0; int completionKind = T_EOF_SYMBOL; switch (ch.toLatin1()) { case '.': if (ch2 != QLatin1Char('.')) { completionKind = T_DOT; referencePosition = 1; } break; case ',': completionKind = T_COMMA; referencePosition = 1; break; case '(': if (wantFunctionCall) { completionKind = T_LPAREN; referencePosition = 1; } break; case ':': if (ch3 != QLatin1Char(':') && ch2 == QLatin1Char(':')) { completionKind = T_COLON_COLON; referencePosition = 2; } break; case '>': if (ch2 == QLatin1Char('-')) { completionKind = T_ARROW; referencePosition = 2; } break; case '*': if (ch2 == QLatin1Char('.')) { completionKind = T_DOT_STAR; referencePosition = 2; } else if (ch3 == QLatin1Char('-') && ch2 == QLatin1Char('>')) { completionKind = T_ARROW_STAR; referencePosition = 3; } break; case '\\': case '@': if (ch2.isNull() || ch2.isSpace()) { completionKind = T_DOXY_COMMENT; referencePosition = 1; } break; case '<': completionKind = T_ANGLE_STRING_LITERAL; referencePosition = 1; break; case '"': completionKind = T_STRING_LITERAL; referencePosition = 1; break; case '/': completionKind = T_SLASH; referencePosition = 1; break; case '#': completionKind = T_POUND; referencePosition = 1; break; } if (kind) *kind = completionKind; return referencePosition; } } // Anonymous namespace CppTools { namespace Internal { struct CompleteFunctionDeclaration { explicit CompleteFunctionDeclaration(Function *f = 0) : function(f) {} Function *function; }; // ---------------------- // CppAssistProposalModel // ---------------------- class CppAssistProposalModel : public TextEditor::BasicProposalItemListModel { public: CppAssistProposalModel() : TextEditor::BasicProposalItemListModel() , m_sortable(false) , m_completionOperator(T_EOF_SYMBOL) , m_replaceDotForArrow(false) , m_typeOfExpression(new TypeOfExpression) {} virtual bool isSortable() const { return m_sortable; } virtual IAssistProposalItem *proposalItem(int index) const; bool m_sortable; unsigned m_completionOperator; bool m_replaceDotForArrow; QSharedPointer m_typeOfExpression; }; // --------------------- // CppAssistProposalItem // --------------------- class CppAssistProposalItem : public TextEditor::BasicProposalItem { public: CppAssistProposalItem() : m_isOverloaded(false) {} virtual bool prematurelyApplies(const QChar &c) const; virtual void applyContextualContent(TextEditor::BaseTextEditor *editor, int basePosition) const; bool isOverloaded() const { return m_isOverloaded; } void markAsOverloaded() { m_isOverloaded = true; } void keepCompletionOperator(unsigned compOp) { m_completionOperator = compOp; } void keepTypeOfExpression(const QSharedPointer &typeOfExp) { m_typeOfExpression = typeOfExp; } private: bool m_isOverloaded; unsigned m_completionOperator; mutable QChar m_typedChar; QSharedPointer m_typeOfExpression; }; } // Internal } // CppTools Q_DECLARE_METATYPE(CppTools::Internal::CompleteFunctionDeclaration) IAssistProposalItem *CppAssistProposalModel::proposalItem(int index) const { BasicProposalItem *item = static_cast(BasicProposalItemListModel::proposalItem(index)); if (!item->data().canConvert()) { CppAssistProposalItem *cppItem = static_cast(item); cppItem->keepCompletionOperator(m_completionOperator); cppItem->keepTypeOfExpression(m_typeOfExpression); } return item; } bool CppAssistProposalItem::prematurelyApplies(const QChar &typedChar) const { if (m_completionOperator == T_SIGNAL || m_completionOperator == T_SLOT) { if (typedChar == QLatin1Char('(') || typedChar == QLatin1Char(',')) { m_typedChar = typedChar; return true; } } else if (m_completionOperator == T_STRING_LITERAL || m_completionOperator == T_ANGLE_STRING_LITERAL) { if (typedChar == QLatin1Char('/') && text().endsWith(QLatin1Char('/'))) { m_typedChar = typedChar; return true; } } else if (data().value()) { if (typedChar == QLatin1Char(':') || typedChar == QLatin1Char(';') || typedChar == QLatin1Char('.') || typedChar == QLatin1Char(',') || typedChar == QLatin1Char('(')) { m_typedChar = typedChar; return true; } } else if (data().canConvert()) { if (typedChar == QLatin1Char('(')) { m_typedChar = typedChar; return true; } } return false; } void CppAssistProposalItem::applyContextualContent(TextEditor::BaseTextEditor *editor, int basePosition) const { Symbol *symbol = 0; if (data().isValid()) symbol = data().value(); QString toInsert; QString extraChars; int extraLength = 0; int cursorOffset = 0; bool autoParenthesesEnabled = true; if (m_completionOperator == T_SIGNAL || m_completionOperator == T_SLOT) { toInsert = text(); extraChars += QLatin1Char(')'); if (m_typedChar == QLatin1Char('(')) // Eat the opening parenthesis m_typedChar = QChar(); } else if (m_completionOperator == T_STRING_LITERAL || m_completionOperator == T_ANGLE_STRING_LITERAL) { toInsert = text(); if (!toInsert.endsWith(QLatin1Char('/'))) { extraChars += QLatin1Char((m_completionOperator == T_ANGLE_STRING_LITERAL) ? '>' : '"'); } else { if (m_typedChar == QLatin1Char('/')) // Eat the slash m_typedChar = QChar(); } } else { toInsert = text(); const CompletionSettings &completionSettings = TextEditorSettings::instance()->completionSettings(); const bool autoInsertBrackets = completionSettings.m_autoInsertBrackets; if (autoInsertBrackets && symbol && symbol->type()) { if (Function *function = symbol->type()->asFunctionType()) { // If the member is a function, automatically place the opening parenthesis, // except when it might take template parameters. if (! function->hasReturnType() && (function->unqualifiedName() && !function->unqualifiedName()->isDestructorNameId())) { // Don't insert any magic, since the user might have just wanted to select the class /// ### port me #if 0 } else if (function->templateParameterCount() != 0 && typedChar != QLatin1Char('(')) { // If there are no arguments, then we need the template specification if (function->argumentCount() == 0) { extraChars += QLatin1Char('<'); } #endif } else if (! function->isAmbiguous()) { // When the user typed the opening parenthesis, he'll likely also type the closing one, // in which case it would be annoying if we put the cursor after the already automatically // inserted closing parenthesis. const bool skipClosingParenthesis = m_typedChar != QLatin1Char('('); if (completionSettings.m_spaceAfterFunctionName) extraChars += QLatin1Char(' '); extraChars += QLatin1Char('('); if (m_typedChar == QLatin1Char('(')) m_typedChar = QChar(); // If the function doesn't return anything, automatically place the semicolon, // unless we're doing a scope completion (then it might be function definition). const QChar characterAtCursor = editor->characterAt(editor->position()); bool endWithSemicolon = m_typedChar == QLatin1Char(';') || (function->returnType()->isVoidType() && m_completionOperator != T_COLON_COLON); const QChar semicolon = m_typedChar.isNull() ? QLatin1Char(';') : m_typedChar; if (endWithSemicolon && characterAtCursor == semicolon) { endWithSemicolon = false; m_typedChar = QChar(); } // If the function takes no arguments, automatically place the closing parenthesis if (!isOverloaded() && ! function->hasArguments() && skipClosingParenthesis) { extraChars += QLatin1Char(')'); if (endWithSemicolon) { extraChars += semicolon; m_typedChar = QChar(); } } else if (autoParenthesesEnabled) { const QChar lookAhead = editor->characterAt(editor->position() + 1); if (MatchingText::shouldInsertMatchingText(lookAhead)) { extraChars += QLatin1Char(')'); --cursorOffset; if (endWithSemicolon) { extraChars += semicolon; --cursorOffset; m_typedChar = QChar(); } } // TODO: When an opening parenthesis exists, the "semicolon" should really be // inserted after the matching closing parenthesis. } } } } if (autoInsertBrackets && data().canConvert()) { if (m_typedChar == QLatin1Char('(')) m_typedChar = QChar(); // everything from the closing parenthesis on are extra chars, to // make sure an auto-inserted ")" gets replaced by ") const" if necessary int closingParen = toInsert.lastIndexOf(QLatin1Char(')')); extraChars = toInsert.mid(closingParen); toInsert.truncate(closingParen); } } // Append an unhandled typed character, adjusting cursor offset when it had been adjusted before if (!m_typedChar.isNull()) { extraChars += m_typedChar; if (cursorOffset != 0) --cursorOffset; } // Avoid inserting characters that are already there for (int i = 0; i < extraChars.length(); ++i) { const QChar a = extraChars.at(i); const QChar b = editor->characterAt(editor->position() + i); if (a == b) ++extraLength; else break; } toInsert += extraChars; // Insert the remainder of the name int length = editor->position() - basePosition + extraLength; editor->setCursorPosition(basePosition); editor->replace(length, toInsert); if (cursorOffset) editor->setCursorPosition(editor->position() + cursorOffset); } // -------------------- // CppFunctionHintModel // -------------------- class CppFunctionHintModel : public TextEditor::IFunctionHintProposalModel { public: CppFunctionHintModel(QList functionSymbols, const QSharedPointer &typeOfExp) : m_functionSymbols(functionSymbols) , m_currentArg(-1) , m_typeOfExpression(typeOfExp) {} virtual void reset() {} virtual int size() const { return m_functionSymbols.size(); } virtual QString text(int index) const; virtual int activeArgument(const QString &prefix) const; private: QList m_functionSymbols; mutable int m_currentArg; QSharedPointer m_typeOfExpression; }; QString CppFunctionHintModel::text(int index) const { Overview overview; overview.setShowReturnTypes(true); overview.setShowArgumentNames(true); overview.setMarkedArgument(m_currentArg + 1); Function *f = m_functionSymbols.at(index); const QString prettyMethod = overview(f->type(), f->name()); const int begin = overview.markedArgumentBegin(); const int end = overview.markedArgumentEnd(); QString hintText; hintText += Qt::escape(prettyMethod.left(begin)); hintText += ""; hintText += Qt::escape(prettyMethod.mid(begin, end - begin)); hintText += ""; hintText += Qt::escape(prettyMethod.mid(end)); return hintText; } int CppFunctionHintModel::activeArgument(const QString &prefix) const { int argnr = 0; int parcount = 0; SimpleLexer tokenize; QList tokens = tokenize(prefix); for (int i = 0; i < tokens.count(); ++i) { const Token &tk = tokens.at(i); if (tk.is(T_LPAREN)) ++parcount; else if (tk.is(T_RPAREN)) --parcount; else if (! parcount && tk.is(T_COMMA)) ++argnr; } if (parcount < 0) return -1; if (argnr != m_currentArg) m_currentArg = argnr; return argnr; } // --------------------------- // CppCompletionAssistProvider // --------------------------- bool CppCompletionAssistProvider::supportsEditor(const QString &editorId) const { return editorId == QLatin1String(CppEditor::Constants::CPPEDITOR_ID); } int CppCompletionAssistProvider::activationCharSequenceLength() const { return 3; } bool CppCompletionAssistProvider::isActivationCharSequence(const QString &sequence) const { const QChar &ch = sequence.at(2); const QChar &ch2 = sequence.at(1); const QChar &ch3 = sequence.at(0); if (activationSequenceChar(ch, ch2, ch3, 0, true) != 0) return true; return false; } IAssistProcessor *CppCompletionAssistProvider::createProcessor() const { return new CppCompletionAssistProcessor; } // ----------------- // CppAssistProposal // ----------------- class CppAssistProposal : public TextEditor::GenericProposal { public: CppAssistProposal(int cursorPos, TextEditor::IGenericProposalModel *model) : TextEditor::GenericProposal(cursorPos, model) , m_replaceDotForArrow(static_cast(model)->m_replaceDotForArrow) {} virtual bool isCorrective() const { return m_replaceDotForArrow; } virtual void makeCorrection(BaseTextEditor *editor); private: bool m_replaceDotForArrow; }; void CppAssistProposal::makeCorrection(BaseTextEditor *editor) { editor->setCursorPosition(basePosition() - 1); editor->replace(1, QLatin1String("->")); moveBasePosition(1); } namespace { class ConvertToCompletionItem: protected NameVisitor { // The completion item. BasicProposalItem *_item; // The current symbol. Symbol *_symbol; // The pretty printer. Overview overview; public: ConvertToCompletionItem() : _item(0) , _symbol(0) { } BasicProposalItem *operator()(Symbol *symbol) { if (! symbol || ! symbol->name() || symbol->name()->isQualifiedNameId()) return 0; BasicProposalItem *previousItem = switchCompletionItem(0); Symbol *previousSymbol = switchSymbol(symbol); accept(symbol->unqualifiedName()); if (_item) _item->setData(QVariant::fromValue(symbol)); (void) switchSymbol(previousSymbol); return switchCompletionItem(previousItem); } protected: Symbol *switchSymbol(Symbol *symbol) { Symbol *previousSymbol = _symbol; _symbol = symbol; return previousSymbol; } BasicProposalItem *switchCompletionItem(BasicProposalItem *item) { BasicProposalItem *previousItem = _item; _item = item; return previousItem; } BasicProposalItem *newCompletionItem(const Name *name) { BasicProposalItem *item = new CppAssistProposalItem; item->setText(overview.prettyName(name)); return item; } virtual void visit(const Identifier *name) { _item = newCompletionItem(name); } virtual void visit(const TemplateNameId *name) { _item = newCompletionItem(name); _item->setText(QLatin1String(name->identifier()->chars())); } virtual void visit(const DestructorNameId *name) { _item = newCompletionItem(name); } virtual void visit(const OperatorNameId *name) { _item = newCompletionItem(name); } virtual void visit(const ConversionNameId *name) { _item = newCompletionItem(name); } virtual void visit(const QualifiedNameId *name) { _item = newCompletionItem(name->name()); } }; Class *asClassOrTemplateClassType(FullySpecifiedType ty) { if (Class *classTy = ty->asClassType()) return classTy; else if (Template *templ = ty->asTemplateType()) { if (Symbol *decl = templ->declaration()) return decl->asClass(); } return 0; } Scope *enclosingNonTemplateScope(Symbol *symbol) { if (symbol) { if (Scope *scope = symbol->enclosingScope()) { if (Template *templ = scope->asTemplate()) return templ->enclosingScope(); return scope; } } return 0; } Function *asFunctionOrTemplateFunctionType(FullySpecifiedType ty) { if (Function *funTy = ty->asFunctionType()) return funTy; else if (Template *templ = ty->asTemplateType()) { if (Symbol *decl = templ->declaration()) return decl->asFunction(); } return 0; } } // Anonymous // ---------------------------- // CppCompletionAssistProcessor // ---------------------------- CppCompletionAssistProcessor::CppCompletionAssistProcessor() : m_startPosition(-1) , m_objcEnabled(true) , m_snippetCollector(CppEditor::Constants::CPP_SNIPPETS_GROUP_ID, QIcon(QLatin1String(":/texteditor/images/snippet.png"))) , preprocessorCompletions(QStringList() << QLatin1String("define") << QLatin1String("error") << QLatin1String("include") << QLatin1String("line") << QLatin1String("pragma") << QLatin1String("undef") << QLatin1String("if") << QLatin1String("ifdef") << QLatin1String("ifndef") << QLatin1String("elif") << QLatin1String("else") << QLatin1String("endif")) , m_model(new CppAssistProposalModel) , m_hintProposal(0) {} CppCompletionAssistProcessor::~CppCompletionAssistProcessor() {} IAssistProposal * CppCompletionAssistProcessor::perform(const IAssistInterface *interface) { m_interface.reset(static_cast(interface)); if (interface->reason() != ExplicitlyInvoked && !accepts()) return 0; int index = startCompletionHelper(); if (index != -1) { if (m_hintProposal) return m_hintProposal; if (m_model->m_completionOperator != T_EOF_SYMBOL) m_model->m_sortable = true; else m_model->m_sortable = false; return createContentProposal(); } return 0; } bool CppCompletionAssistProcessor::accepts() const { const int pos = m_interface->position(); unsigned token = T_EOF_SYMBOL; const int start = startOfOperator(pos, &token, /*want function call=*/ true); if (start != pos) { if (token == T_POUND) { const int column = pos - m_interface->document()->findBlock(start).position(); if (column != 1) return false; } return true; } else { // Trigger completion after three characters of a name have been typed, when not editing an existing name QChar characterUnderCursor = m_interface->characterAt(pos); if (!characterUnderCursor.isLetterOrNumber() && characterUnderCursor != QLatin1Char('_')) { const int startOfName = findStartOfName(pos); if (pos - startOfName >= 3) { const QChar firstCharacter = m_interface->characterAt(startOfName); if (firstCharacter.isLetter() || firstCharacter == QLatin1Char('_')) { // Finally check that we're not inside a comment or string (code copied from startOfOperator) QTextCursor tc(m_interface->document()); tc.setPosition(pos); SimpleLexer tokenize; tokenize.setQtMocRunEnabled(true); tokenize.setObjCEnabled(true); tokenize.setSkipComments(false); const QList &tokens = tokenize(tc.block().text(), BackwardsScanner::previousBlockState(tc.block())); const int tokenIdx = SimpleLexer::tokenBefore(tokens, qMax(0, tc.positionInBlock() - 1)); const Token tk = (tokenIdx == -1) ? Token() : tokens.at(tokenIdx); if (!tk.isComment() && !tk.isLiteral()) { return true; } else if (tk.isLiteral() && tokens.size() == 3 && tokens.at(0).kind() == T_POUND && tokens.at(1).kind() == T_IDENTIFIER) { const QString &line = tc.block().text(); const Token &idToken = tokens.at(1); const QStringRef &identifier = line.midRef(idToken.begin(), idToken.end() - idToken.begin()); if (identifier == QLatin1String("include") || identifier == QLatin1String("include_next") || (m_objcEnabled && identifier == QLatin1String("import"))) { return true; } } } } } } return false; } IAssistProposal *CppCompletionAssistProcessor::createContentProposal() { // Duplicates are kept only if they are snippets. QSet processed; QList::iterator it = m_completions.begin(); while (it != m_completions.end()) { CppAssistProposalItem *item = static_cast(*it); if (!processed.contains(item->text()) || item->data().canConvert()) { ++it; if (!item->data().canConvert()) { processed.insert(item->text()); if (!item->isOverloaded()) { if (Symbol *symbol = qvariant_cast(item->data())) { if (Function *funTy = symbol->type()->asFunctionType()) { if (funTy->hasArguments()) item->markAsOverloaded(); } } } } } else { delete *it; it = m_completions.erase(it); } } m_model->loadContent(m_completions); return new CppAssistProposal(m_startPosition, m_model.take()); } IAssistProposal *CppCompletionAssistProcessor::createHintProposal( QList functionSymbols) const { IFunctionHintProposalModel *model = new CppFunctionHintModel(functionSymbols, m_model->m_typeOfExpression); IAssistProposal *proposal = new FunctionHintProposal(m_startPosition, model); return proposal; } int CppCompletionAssistProcessor::startOfOperator(int pos, unsigned *kind, bool wantFunctionCall) const { const QChar ch = pos > -1 ? m_interface->characterAt(pos - 1) : QChar(); const QChar ch2 = pos > 0 ? m_interface->characterAt(pos - 2) : QChar(); const QChar ch3 = pos > 1 ? m_interface->characterAt(pos - 3) : QChar(); int start = pos - activationSequenceChar(ch, ch2, ch3, kind, wantFunctionCall); if (start != pos) { QTextCursor tc(m_interface->document()); tc.setPosition(pos); // Include completion: make sure the quote character is the first one on the line if (*kind == T_STRING_LITERAL) { QTextCursor s = tc; s.movePosition(QTextCursor::StartOfLine, QTextCursor::KeepAnchor); QString sel = s.selectedText(); if (sel.indexOf(QLatin1Char('"')) < sel.length() - 1) { *kind = T_EOF_SYMBOL; start = pos; } } if (*kind == T_COMMA) { ExpressionUnderCursor expressionUnderCursor; if (expressionUnderCursor.startOfFunctionCall(tc) == -1) { *kind = T_EOF_SYMBOL; start = pos; } } SimpleLexer tokenize; tokenize.setQtMocRunEnabled(true); tokenize.setObjCEnabled(true); tokenize.setSkipComments(false); const QList &tokens = tokenize(tc.block().text(), BackwardsScanner::previousBlockState(tc.block())); const int tokenIdx = SimpleLexer::tokenBefore(tokens, qMax(0, tc.positionInBlock() - 1)); // get the token at the left of the cursor const Token tk = (tokenIdx == -1) ? Token() : tokens.at(tokenIdx); if (*kind == T_DOXY_COMMENT && !(tk.is(T_DOXY_COMMENT) || tk.is(T_CPP_DOXY_COMMENT))) { *kind = T_EOF_SYMBOL; start = pos; } // Don't complete in comments or strings, but still check for include completion else if (tk.is(T_COMMENT) || tk.is(T_CPP_COMMENT) || (tk.isLiteral() && (*kind != T_STRING_LITERAL && *kind != T_ANGLE_STRING_LITERAL && *kind != T_SLASH))) { *kind = T_EOF_SYMBOL; start = pos; } // Include completion: can be triggered by slash, but only in a string else if (*kind == T_SLASH && (tk.isNot(T_STRING_LITERAL) && tk.isNot(T_ANGLE_STRING_LITERAL))) { *kind = T_EOF_SYMBOL; start = pos; } else if (*kind == T_LPAREN) { if (tokenIdx > 0) { const Token &previousToken = tokens.at(tokenIdx - 1); // look at the token at the left of T_LPAREN switch (previousToken.kind()) { case T_IDENTIFIER: case T_GREATER: case T_SIGNAL: case T_SLOT: break; // good default: // that's a bad token :) *kind = T_EOF_SYMBOL; start = pos; } } } // Check for include preprocessor directive else if (*kind == T_STRING_LITERAL || *kind == T_ANGLE_STRING_LITERAL || *kind == T_SLASH) { bool include = false; if (tokens.size() >= 3) { if (tokens.at(0).is(T_POUND) && tokens.at(1).is(T_IDENTIFIER) && (tokens.at(2).is(T_STRING_LITERAL) || tokens.at(2).is(T_ANGLE_STRING_LITERAL))) { const Token &directiveToken = tokens.at(1); QString directive = tc.block().text().mid(directiveToken.begin(), directiveToken.length()); if (directive == QLatin1String("include") || directive == QLatin1String("include_next") || directive == QLatin1String("import")) { include = true; } } } if (!include) { *kind = T_EOF_SYMBOL; start = pos; } } } return start; } int CppCompletionAssistProcessor::findStartOfName(int pos) const { if (pos == -1) pos = m_interface->position(); QChar chr; // Skip to the start of a name do { chr = m_interface->characterAt(--pos); } while (chr.isLetterOrNumber() || chr == QLatin1Char('_')); return pos + 1; } int CppCompletionAssistProcessor::startCompletionHelper() { if (m_objcEnabled) { if (tryObjCCompletion()) return m_startPosition; } const int startOfName = findStartOfName(); m_startPosition = startOfName; m_model->m_completionOperator = T_EOF_SYMBOL; int endOfOperator = m_startPosition; // Skip whitespace preceding this position while (m_interface->characterAt(endOfOperator - 1).isSpace()) --endOfOperator; int endOfExpression = startOfOperator(endOfOperator, &m_model->m_completionOperator, /*want function call =*/ true); const Core::IFile *file = m_interface->file(); QString fileName = file->fileName(); if (m_model->m_completionOperator == T_DOXY_COMMENT) { for (int i = 1; i < T_DOXY_LAST_TAG; ++i) addCompletionItem(QString::fromLatin1(doxygenTagSpell(i)), m_icons.keywordIcon()); return m_startPosition; } // Pre-processor completion if (m_model->m_completionOperator == T_POUND) { completePreprocessor(); m_startPosition = startOfName; return m_startPosition; } // Include completion if (m_model->m_completionOperator == T_STRING_LITERAL || m_model->m_completionOperator == T_ANGLE_STRING_LITERAL || m_model->m_completionOperator == T_SLASH) { QTextCursor c(m_interface->document()); c.setPosition(endOfExpression); if (completeInclude(c)) m_startPosition = startOfName; return m_startPosition; } ExpressionUnderCursor expressionUnderCursor; QTextCursor tc(m_interface->document()); if (m_model->m_completionOperator == T_COMMA) { tc.setPosition(endOfExpression); const int start = expressionUnderCursor.startOfFunctionCall(tc); if (start == -1) { m_model->m_completionOperator = T_EOF_SYMBOL; return -1; } endOfExpression = start; m_startPosition = start + 1; m_model->m_completionOperator = T_LPAREN; } QString expression; int startOfExpression = m_interface->position(); tc.setPosition(endOfExpression); if (m_model->m_completionOperator) { expression = expressionUnderCursor(tc); startOfExpression = endOfExpression - expression.length(); if (m_model->m_completionOperator == T_LPAREN) { if (expression.endsWith(QLatin1String("SIGNAL"))) m_model->m_completionOperator = T_SIGNAL; else if (expression.endsWith(QLatin1String("SLOT"))) m_model->m_completionOperator = T_SLOT; else if (m_interface->position() != endOfOperator) { // We don't want a function completion when the cursor isn't at the opening brace expression.clear(); m_model->m_completionOperator = T_EOF_SYMBOL; m_startPosition = startOfName; startOfExpression = m_interface->position(); } } } else if (expression.isEmpty()) { while (startOfExpression > 0 && m_interface->characterAt(startOfExpression).isSpace()) --startOfExpression; } int line = 0, column = 0; Convenience::convertPosition(m_interface->document(), startOfExpression, &line, &column); return startCompletionInternal(fileName, line, column, expression, endOfExpression); } bool CppCompletionAssistProcessor::tryObjCCompletion() { int end = m_interface->position(); while (m_interface->characterAt(end).isSpace()) ++end; if (m_interface->characterAt(end) != QLatin1Char(']')) return false; QTextCursor tc(m_interface->document()); tc.setPosition(end); BackwardsScanner tokens(tc); if (tokens[tokens.startToken() - 1].isNot(T_RBRACKET)) return false; const int start = tokens.startOfMatchingBrace(tokens.startToken()); if (start == tokens.startToken()) return false; const int startPos = tokens[start].begin() + tokens.startPosition(); const QString expr = m_interface->textAt(startPos, m_interface->position() - startPos); Document::Ptr thisDocument = m_interface->snapshot().document(m_interface->file()->fileName()); if (! thisDocument) return false; m_model->m_typeOfExpression->init(thisDocument, m_interface->snapshot()); int line = 0, column = 0; Convenience::convertPosition(m_interface->document(), m_interface->position(), &line, &column); Scope *scope = thisDocument->scopeAt(line, column); if (!scope) return false; const QList items = (*m_model->m_typeOfExpression)(expr, scope); LookupContext lookupContext(thisDocument, m_interface->snapshot()); foreach (const LookupItem &item, items) { FullySpecifiedType ty = item.type().simplified(); if (ty->isPointerType()) { ty = ty->asPointerType()->elementType().simplified(); if (NamedType *namedTy = ty->asNamedType()) { ClassOrNamespace *binding = lookupContext.lookupType(namedTy->name(), item.scope()); completeObjCMsgSend(binding, false); } } else { if (ObjCClass *clazz = ty->asObjCClassType()) { ClassOrNamespace *binding = lookupContext.lookupType(clazz->name(), item.scope()); completeObjCMsgSend(binding, true); } } } if (m_completions.isEmpty()) return false; m_startPosition = m_interface->position(); return true; } void CppCompletionAssistProcessor::addCompletionItem(const QString &text, const QIcon &icon, int order, const QVariant &data) { BasicProposalItem *item = new CppAssistProposalItem; item->setText(text); item->setIcon(icon); item->setOrder(order); item->setData(data); m_completions.append(item); } void CppCompletionAssistProcessor::addCompletionItem(CPlusPlus::Symbol *symbol) { ConvertToCompletionItem toCompletionItem; BasicProposalItem *item = toCompletionItem(symbol); if (item) { item->setIcon(m_icons.iconForSymbol(symbol)); m_completions.append(item); } } void CppCompletionAssistProcessor::completeObjCMsgSend(CPlusPlus::ClassOrNamespace *binding, bool staticClassAccess) { QList memberScopes; foreach (Symbol *s, binding->symbols()) { if (ObjCClass *c = s->asObjCClass()) memberScopes.append(c); } foreach (Scope *scope, memberScopes) { for (unsigned i = 0; i < scope->memberCount(); ++i) { Symbol *symbol = scope->memberAt(i); if (ObjCMethod *method = symbol->type()->asObjCMethodType()) { if (method->isStatic() == staticClassAccess) { Overview oo; const SelectorNameId *selectorName = method->name()->asSelectorNameId(); QString text; QString data; if (selectorName->hasArguments()) { for (unsigned i = 0; i < selectorName->nameCount(); ++i) { if (i > 0) text += QLatin1Char(' '); Symbol *arg = method->argumentAt(i); text += selectorName->nameAt(i)->identifier()->chars(); text += QLatin1Char(':'); text += TextEditor::Snippet::kVariableDelimiter; text += QLatin1Char('('); text += oo(arg->type()); text += QLatin1Char(')'); text += oo(arg->name()); text += TextEditor::Snippet::kVariableDelimiter; } } else { text = selectorName->identifier()->chars(); } data = text; if (!text.isEmpty()) addCompletionItem(text, QIcon(), 0, QVariant::fromValue(data)); } } } } } bool CppCompletionAssistProcessor::completeInclude(const QTextCursor &cursor) { QString directoryPrefix; if (m_model->m_completionOperator == T_SLASH) { QTextCursor c = cursor; c.movePosition(QTextCursor::StartOfLine, QTextCursor::KeepAnchor); QString sel = c.selectedText(); int startCharPos = sel.indexOf(QLatin1Char('"')); if (startCharPos == -1) { startCharPos = sel.indexOf(QLatin1Char('<')); m_model->m_completionOperator = T_ANGLE_STRING_LITERAL; } else { m_model->m_completionOperator = T_STRING_LITERAL; } if (startCharPos != -1) directoryPrefix = sel.mid(startCharPos + 1, sel.length() - 1); } // Make completion for all relevant includes QStringList includePaths = m_interface->includePaths(); const QString ¤tFilePath = QFileInfo(m_interface->file()->fileName()).path(); if (!includePaths.contains(currentFilePath)) includePaths.append(currentFilePath); const Core::MimeType mimeType = Core::ICore::instance()->mimeDatabase()->findByType(QLatin1String("text/x-c++hdr")); const QStringList suffixes = mimeType.suffixes(); foreach (const QString &includePath, includePaths) { QString realPath = includePath; if (!directoryPrefix.isEmpty()) { realPath += QLatin1Char('/'); realPath += directoryPrefix; } completeInclude(realPath, suffixes); } foreach (const QString &frameworkPath, m_interface->frameworkPaths()) { QString realPath = frameworkPath; if (!directoryPrefix.isEmpty()) { realPath += QLatin1Char('/'); realPath += directoryPrefix; realPath += QLatin1String(".framework/Headers"); } completeInclude(realPath, suffixes); } return !m_completions.isEmpty(); } void CppCompletionAssistProcessor::completeInclude(const QString &realPath, const QStringList &suffixes) { QDirIterator i(realPath, QDir::Files | QDir::Dirs | QDir::NoDotAndDotDot); while (i.hasNext()) { const QString fileName = i.next(); const QFileInfo fileInfo = i.fileInfo(); const QString suffix = fileInfo.suffix(); if (suffix.isEmpty() || suffixes.contains(suffix)) { QString text = fileName.mid(realPath.length() + 1); if (fileInfo.isDir()) text += QLatin1Char('/'); addCompletionItem(text, m_icons.keywordIcon()); } } } void CppCompletionAssistProcessor::completePreprocessor() { foreach (const QString &preprocessorCompletion, preprocessorCompletions) addCompletionItem(preprocessorCompletion); if (objcKeywordsWanted()) addCompletionItem(QLatin1String("import")); } bool CppCompletionAssistProcessor::objcKeywordsWanted() const { if (!m_objcEnabled) return false; const Core::IFile *file = m_interface->file(); QString fileName = file->fileName(); const Core::MimeDatabase *mdb = Core::ICore::instance()->mimeDatabase(); return mdb->findByFile(fileName).type() == CppTools::Constants::OBJECTIVE_CPP_SOURCE_MIMETYPE; } int CppCompletionAssistProcessor::startCompletionInternal(const QString fileName, unsigned line, unsigned column, const QString &expr, int endOfExpression) { QString expression = expr.trimmed(); Document::Ptr thisDocument = m_interface->snapshot().document(fileName); if (! thisDocument) return -1; m_model->m_typeOfExpression->init(thisDocument, m_interface->snapshot()); Scope *scope = thisDocument->scopeAt(line, column); Q_ASSERT(scope != 0); if (expression.isEmpty()) { if (m_model->m_completionOperator == T_EOF_SYMBOL || m_model->m_completionOperator == T_COLON_COLON) { (void) (*m_model->m_typeOfExpression)(expression, scope); globalCompletion(scope); if (m_completions.isEmpty()) return -1; return m_startPosition; } else if (m_model->m_completionOperator == T_SIGNAL || m_model->m_completionOperator == T_SLOT) { // Apply signal/slot completion on 'this' expression = QLatin1String("this"); } } QList results = (*m_model->m_typeOfExpression)(expression, scope, TypeOfExpression::Preprocess); if (results.isEmpty()) { if (m_model->m_completionOperator == T_SIGNAL || m_model->m_completionOperator == T_SLOT) { if (! (expression.isEmpty() || expression == QLatin1String("this"))) { expression = QLatin1String("this"); results = (*m_model->m_typeOfExpression)(expression, scope); } if (results.isEmpty()) return -1; } else if (m_model->m_completionOperator == T_LPAREN) { // Find the expression that precedes the current name int index = endOfExpression; while (m_interface->characterAt(index - 1).isSpace()) --index; index = findStartOfName(index); QTextCursor tc(m_interface->document()); tc.setPosition(index); ExpressionUnderCursor expressionUnderCursor; const QString baseExpression = expressionUnderCursor(tc); // Resolve the type of this expression const QList results = (*m_model->m_typeOfExpression)(baseExpression, scope, TypeOfExpression::Preprocess); // If it's a class, add completions for the constructors foreach (const LookupItem &result, results) { if (result.type()->isClassType()) { if (completeConstructorOrFunction(results, endOfExpression, true)) return m_startPosition; break; } } return -1; } else { // nothing to do. return -1; } } switch (m_model->m_completionOperator) { case T_LPAREN: if (completeConstructorOrFunction(results, endOfExpression, false)) return m_startPosition; break; case T_DOT: case T_ARROW: if (completeMember(results)) return m_startPosition; break; case T_COLON_COLON: if (completeScope(results)) return m_startPosition; break; case T_SIGNAL: if (completeSignal(results)) return m_startPosition; break; case T_SLOT: if (completeSlot(results)) return m_startPosition; break; default: break; } // end of switch // nothing to do. return -1; } void CppCompletionAssistProcessor::globalCompletion(CPlusPlus::Scope *currentScope) { const LookupContext &context = m_model->m_typeOfExpression->context(); if (m_model->m_completionOperator == T_COLON_COLON) { completeNamespace(context.globalNamespace()); return; } QList usingBindings; ClassOrNamespace *currentBinding = 0; for (Scope *scope = currentScope; scope; scope = scope->enclosingScope()) { if (scope->isBlock()) { if (ClassOrNamespace *binding = context.lookupType(scope)) { for (unsigned i = 0; i < scope->memberCount(); ++i) { Symbol *member = scope->memberAt(i); if (! member->name()) continue; else if (UsingNamespaceDirective *u = member->asUsingNamespaceDirective()) { if (ClassOrNamespace *b = binding->lookupType(u->name())) usingBindings.append(b); } } } } else if (scope->isFunction() || scope->isClass() || scope->isNamespace()) { currentBinding = context.lookupType(scope); break; } } for (Scope *scope = currentScope; scope; scope = scope->enclosingScope()) { if (scope->isBlock()) { for (unsigned i = 0; i < scope->memberCount(); ++i) { addCompletionItem(scope->memberAt(i)); } } else if (scope->isFunction()) { Function *fun = scope->asFunction(); for (unsigned i = 0; i < fun->argumentCount(); ++i) { addCompletionItem(fun->argumentAt(i)); } break; } else { break; } } for (; currentBinding; currentBinding = currentBinding->parent()) { const QList symbols = currentBinding->symbols(); if (! symbols.isEmpty()) { if (symbols.first()->isNamespace()) completeNamespace(currentBinding); else completeClass(currentBinding); } } foreach (ClassOrNamespace *b, usingBindings) completeNamespace(b); addKeywords(); addMacros(QLatin1String(""), context.snapshot()); addMacros(context.thisDocument()->fileName(), context.snapshot()); addSnippets(); } bool CppCompletionAssistProcessor::completeMember(const QList &baseResults) { const LookupContext &context = m_model->m_typeOfExpression->context(); if (baseResults.isEmpty()) return false; ResolveExpression resolveExpression(context); if (ClassOrNamespace *binding = resolveExpression.baseExpression(baseResults, m_model->m_completionOperator, &m_model->m_replaceDotForArrow)) { if (binding) completeClass(binding, /*static lookup = */ false); return ! m_completions.isEmpty(); } return false; } bool CppCompletionAssistProcessor::completeScope(const QList &results) { const LookupContext &context = m_model->m_typeOfExpression->context(); if (results.isEmpty()) return false; foreach (const LookupItem &result, results) { FullySpecifiedType ty = result.type(); Scope *scope = result.scope(); if (NamedType *namedTy = ty->asNamedType()) { if (ClassOrNamespace *b = context.lookupType(namedTy->name(), scope)) { completeClass(b); break; } } else if (Class *classTy = ty->asClassType()) { if (ClassOrNamespace *b = context.lookupType(classTy)) { completeClass(b); break; } } else if (Namespace *nsTy = ty->asNamespaceType()) { if (ClassOrNamespace *b = context.lookupType(nsTy)) { completeNamespace(b); break; } } } return ! m_completions.isEmpty(); } void CppCompletionAssistProcessor::completeNamespace(CPlusPlus::ClassOrNamespace *b) { QSet bindingsVisited; QList bindingsToVisit; bindingsToVisit.append(b); while (! bindingsToVisit.isEmpty()) { ClassOrNamespace *binding = bindingsToVisit.takeFirst(); if (! binding || bindingsVisited.contains(binding)) continue; bindingsVisited.insert(binding); bindingsToVisit += binding->usings(); QList scopesToVisit; QSet scopesVisited; foreach (Symbol *bb, binding->symbols()) { if (Namespace *ns = bb->asNamespace()) scopesToVisit.append(ns); } foreach (Enum *e, binding->enums()) { scopesToVisit.append(e); } while (! scopesToVisit.isEmpty()) { Scope *scope = scopesToVisit.takeFirst(); if (! scope || scopesVisited.contains(scope)) continue; scopesVisited.insert(scope); for (Scope::iterator it = scope->firstMember(); it != scope->lastMember(); ++it) { Symbol *member = *it; addCompletionItem(member); } } } } void CppCompletionAssistProcessor::completeClass(CPlusPlus::ClassOrNamespace *b, bool staticLookup) { QSet bindingsVisited; QList bindingsToVisit; bindingsToVisit.append(b); while (! bindingsToVisit.isEmpty()) { ClassOrNamespace *binding = bindingsToVisit.takeFirst(); if (! binding || bindingsVisited.contains(binding)) continue; bindingsVisited.insert(binding); bindingsToVisit += binding->usings(); QList scopesToVisit; QSet scopesVisited; foreach (Symbol *bb, binding->symbols()) { if (Class *k = bb->asClass()) scopesToVisit.append(k); } foreach (Enum *e, binding->enums()) scopesToVisit.append(e); while (! scopesToVisit.isEmpty()) { Scope *scope = scopesToVisit.takeFirst(); if (! scope || scopesVisited.contains(scope)) continue; scopesVisited.insert(scope); addCompletionItem(scope); // add a completion item for the injected class name. for (Scope::iterator it = scope->firstMember(); it != scope->lastMember(); ++it) { Symbol *member = *it; if (member->isFriend() || member->isQtPropertyDeclaration() || member->isQtEnum()) { continue; } else if (! staticLookup && (member->isTypedef() || member->isEnum() || member->isClass())) { continue; } addCompletionItem(member); } } } } bool CppCompletionAssistProcessor::completeQtMethod(const QList &results, bool wantSignals) { if (results.isEmpty()) return false; const LookupContext &context = m_model->m_typeOfExpression->context(); ConvertToCompletionItem toCompletionItem; Overview o; o.setShowReturnTypes(false); o.setShowArgumentNames(false); o.setShowFunctionSignatures(true); QSet signatures; foreach (const LookupItem &p, results) { FullySpecifiedType ty = p.type().simplified(); if (PointerType *ptrTy = ty->asPointerType()) ty = ptrTy->elementType().simplified(); else continue; // not a pointer or a reference to a pointer. NamedType *namedTy = ty->asNamedType(); if (! namedTy) // not a class name. continue; ClassOrNamespace *b = context.lookupType(namedTy->name(), p.scope()); if (! b) continue; QListtodo; QSet processed; QList scopes; todo.append(b); while (!todo.isEmpty()) { ClassOrNamespace *binding = todo.takeLast(); if (!processed.contains(binding)) { processed.insert(binding); foreach (Symbol *s, binding->symbols()) if (Class *clazz = s->asClass()) scopes.append(clazz); todo.append(binding->usings()); } } foreach (Scope *scope, scopes) { if (! scope->isClass()) continue; for (unsigned i = 0; i < scope->memberCount(); ++i) { Symbol *member = scope->memberAt(i); Function *fun = member->type()->asFunctionType(); if (! fun) continue; if (wantSignals && ! fun->isSignal()) continue; else if (! wantSignals && ! fun->isSlot()) continue; unsigned count = fun->argumentCount(); while (true) { QString signature; signature += Overview().prettyName(fun->name()); signature += QLatin1Char('('); for (unsigned i = 0; i < count; ++i) { Symbol *arg = fun->argumentAt(i); if (i != 0) signature += QLatin1Char(','); signature += o.prettyType(arg->type()); } signature += QLatin1Char(')'); const QByteArray normalized = QMetaObject::normalizedSignature(signature.toLatin1()); signature = QString::fromLatin1(normalized, normalized.size()); if (! signatures.contains(signature)) { BasicProposalItem *ci = toCompletionItem(fun); if (!ci) break; signatures.insert(signature); ci->setText(signature); // fix the completion item. m_completions.append(ci); } if (count && fun->argumentAt(count - 1)->asArgument()->hasInitializer()) --count; else break; } } } } return ! m_completions.isEmpty(); } void CppCompletionAssistProcessor::addSnippets() { m_completions.append(m_snippetCollector.collect()); } void CppCompletionAssistProcessor::addKeywords() { int keywordLimit = T_FIRST_OBJC_AT_KEYWORD; if (objcKeywordsWanted()) keywordLimit = T_LAST_OBJC_AT_KEYWORD + 1; // keyword completion items. for (int i = T_FIRST_KEYWORD; i < keywordLimit; ++i) addCompletionItem(QLatin1String(Token::name(i)), m_icons.keywordIcon()); } void CppCompletionAssistProcessor::addMacros(const QString &fileName, const CPlusPlus::Snapshot &snapshot) { QSet processed; QSet definedMacros; addMacros_helper(snapshot, fileName, &processed, &definedMacros); foreach (const QString ¯oName, definedMacros) addCompletionItem(macroName, m_icons.macroIcon()); } void CppCompletionAssistProcessor::addMacros_helper(const CPlusPlus::Snapshot &snapshot, const QString &fileName, QSet *processed, QSet *definedMacros) { Document::Ptr doc = snapshot.document(fileName); if (! doc || processed->contains(doc->fileName())) return; processed->insert(doc->fileName()); foreach (const Document::Include &i, doc->includes()) { addMacros_helper(snapshot, i.fileName(), processed, definedMacros); } foreach (const Macro ¯o, doc->definedMacros()) { const QString macroName = QString::fromUtf8(macro.name().constData(), macro.name().length()); if (! macro.isHidden()) definedMacros->insert(macroName); else definedMacros->remove(macroName); } } bool CppCompletionAssistProcessor::completeConstructorOrFunction(const QList &results, int endOfExpression, bool toolTipOnly) { const LookupContext &context = m_model->m_typeOfExpression->context(); QList functions; foreach (const LookupItem &result, results) { FullySpecifiedType exprTy = result.type().simplified(); if (Class *klass = asClassOrTemplateClassType(exprTy)) { const Name *className = klass->name(); if (! className) continue; // nothing to do for anonymous classes. for (unsigned i = 0; i < klass->memberCount(); ++i) { Symbol *member = klass->memberAt(i); const Name *memberName = member->name(); if (! memberName) continue; // skip anonymous member. else if (memberName->isQualifiedNameId()) continue; // skip if (Function *funTy = member->type()->asFunctionType()) { if (memberName->isEqualTo(className)) { // it's a ctor. functions.append(funTy); } } } break; } } if (functions.isEmpty()) { foreach (const LookupItem &result, results) { FullySpecifiedType ty = result.type().simplified(); if (Function *fun = asFunctionOrTemplateFunctionType(ty)) { if (! fun->name()) continue; else if (! functions.isEmpty() && enclosingNonTemplateScope(functions.first()) != enclosingNonTemplateScope(fun)) continue; // skip fun, it's an hidden declaration. bool newOverload = true; foreach (Function *f, functions) { if (fun->isEqualTo(f)) { newOverload = false; break; } } if (newOverload) functions.append(fun); } } } if (functions.isEmpty()) { const Name *functionCallOp = context.control()->operatorNameId(OperatorNameId::FunctionCallOp); foreach (const LookupItem &result, results) { FullySpecifiedType ty = result.type().simplified(); Scope *scope = result.scope(); if (NamedType *namedTy = ty->asNamedType()) { if (ClassOrNamespace *b = context.lookupType(namedTy->name(), scope)) { foreach (const LookupItem &r, b->lookup(functionCallOp)) { Symbol *overload = r.declaration(); FullySpecifiedType overloadTy = overload->type().simplified(); if (Function *funTy = overloadTy->asFunctionType()) { functions.append(funTy); } } } } } } // There are two different kinds of completion we want to provide: // 1. If this is a function call, we want to pop up a tooltip that shows the user // the possible overloads with their argument types and names. // 2. If this is a function definition, we want to offer autocompletion of // the function signature. // check if function signature autocompletion is appropriate // Also check if the function name is a destructor name. bool isDestructor = false; if (! functions.isEmpty() && ! toolTipOnly) { // function definitions will only happen in class or namespace scope, // so get the current location's enclosing scope. // get current line and column int lineSigned = 0, columnSigned = 0; Convenience::convertPosition(m_interface->document(), m_interface->position(), &lineSigned, &columnSigned); unsigned line = lineSigned, column = columnSigned; // find a scope that encloses the current location, starting from the lastVisibileSymbol // and moving outwards Scope *sc = context.thisDocument()->scopeAt(line, column); if (sc && (sc->isClass() || sc->isNamespace())) { // It may still be a function call. If the whole line parses as a function // declaration, we should be certain that it isn't. bool autocompleteSignature = false; QTextCursor tc(m_interface->document()); tc.setPosition(endOfExpression); BackwardsScanner bs(tc); const int startToken = bs.startToken(); int lineStartToken = bs.startOfLine(startToken); // make sure the required tokens are actually available bs.LA(startToken - lineStartToken); QString possibleDecl = bs.mid(lineStartToken).trimmed().append("();"); Document::Ptr doc = Document::create(QLatin1String("")); doc->setSource(possibleDecl.toLatin1()); if (doc->parse(Document::ParseDeclaration)) { doc->check(); if (SimpleDeclarationAST *sd = doc->translationUnit()->ast()->asSimpleDeclaration()) { if (sd->declarator_list && sd->declarator_list && sd->declarator_list->value->postfix_declarator_list && sd->declarator_list->value->postfix_declarator_list->value->asFunctionDeclarator()) { autocompleteSignature = true; CoreDeclaratorAST *coreDecl = sd->declarator_list->value->core_declarator; if (coreDecl && coreDecl->asDeclaratorId() && coreDecl->asDeclaratorId()->name) { NameAST *declName = coreDecl->asDeclaratorId()->name; if (declName->asDestructorName()) { isDestructor = true; } else if (QualifiedNameAST *qName = declName->asQualifiedName()) { if (qName->unqualified_name && qName->unqualified_name->asDestructorName()) isDestructor = true; } } } } } if (autocompleteSignature && !isDestructor) { // set up for rewriting function types with minimally qualified names // to do it correctly we'd need the declaration's context and scope, but // that'd be too expensive to get here. instead, we just minimize locally SubstitutionEnvironment env; env.setContext(context); env.switchScope(sc); ClassOrNamespace *targetCoN = context.lookupType(sc); if (!targetCoN) targetCoN = context.globalNamespace(); UseMinimalNames q(targetCoN); env.enter(&q); Control *control = context.control().data(); // set up signature autocompletion foreach (Function *f, functions) { Overview overview; overview.setShowArgumentNames(true); overview.setShowDefaultArguments(false); const FullySpecifiedType localTy = rewriteType(f->type(), &env, control); // gets: "parameter list) cv-spec", QString completion = overview(localTy).mid(1); addCompletionItem(completion, QIcon(), 0, QVariant::fromValue(CompleteFunctionDeclaration(f))); } return true; } } } if (! functions.empty() && !isDestructor) { m_hintProposal = createHintProposal(functions); return true; } return false; }