void AdaptSignatureAssistant::textChanged(KTextEditor::View* view, const KTextEditor::Range& invocationRange, const QString& removedText)
{
  reset();

  m_view = view;

  //FIXME: update signature assistant to play well with the rename assistant
  KTextEditor::Range sigAssistRange = invocationRange;
  if (!removedText.isEmpty()) {
    sigAssistRange.setRange(sigAssistRange.start(), sigAssistRange.start());
  }

  m_document = view->document()->url();

  DUChainReadLocker lock(DUChain::lock(), 300);
  if(!lock.locked()) {
    qCDebug(CPP) << "failed to lock duchain in time";
    return;
  }

  KTextEditor::Range simpleInvocationRange = KTextEditor::Range(sigAssistRange);
  Declaration* funDecl = getDeclarationAtCursor(simpleInvocationRange.start(), m_document);
  if(!funDecl || !funDecl->type<FunctionType>())
    return;

  if(QtFunctionDeclaration* classFun = dynamic_cast<QtFunctionDeclaration*>(funDecl)) {
    if (classFun->isSignal()) {
      // do not offer to change signature of a signal, as the implementation will be generated by moc
      return;
    }
  }

  Declaration* otherSide = 0;
  FunctionDefinition* definition = dynamic_cast<FunctionDefinition*>(funDecl);
  if (definition)
  {
    m_editingDefinition = true;
    otherSide = definition->declaration();
  }
  else if ((definition = FunctionDefinition::definition(funDecl)))
  {
    m_editingDefinition = false;
    otherSide = definition;
  }

  if (!otherSide)
    return;

  m_otherSideContext = DUContextPointer(DUChainUtils::getFunctionContext(otherSide));
  if (!m_otherSideContext)
    return;

  m_declarationName = funDecl->identifier();
  m_otherSideId = otherSide->id();
  m_otherSideTopContext = ReferencedTopDUContext(otherSide->topContext());
  m_oldSignature = getDeclarationSignature(otherSide, m_otherSideContext.data(), true);

  //Schedule an update, to make sure the ranges match
  DUChain::self()->updateContextForUrl(m_otherSideTopContext->url(), TopDUContext::AllDeclarationsAndContexts);
}
void AdaptSignatureAssistant::parseJobFinished(KDevelop::ParseJob* job)
{
    if (job->document().toUrl() != m_document || !m_view) {
        return;
    }
    clearActions();

    DUChainReadLocker lock;

    Declaration *functionDecl = getDeclarationAtCursor(KTextEditor::Cursor(m_view.data()->cursorPosition()), m_document);
    if (!functionDecl || functionDecl->identifier() != m_declarationName) {
        clangDebug() << "No function found at" << m_document << m_view.data()->cursorPosition();
        return;
    }
    DUContext *functionCtxt = DUChainUtils::getFunctionContext(functionDecl);
    if (!functionCtxt) {
        clangDebug() << "No function context found for" << functionDecl->toString();
        return;
    }
#if 0 // TODO: Port
    if (QtFunctionDeclaration * classFun = dynamic_cast<QtFunctionDeclaration*>(functionDecl)) {
        if (classFun->isSignal()) {
            // do not offer to change signature of a signal, as the implementation will be generated by moc
            return;
        }
    }
#endif

    //ParseJob having finished, get the signature that was modified
    Signature newSignature = getDeclarationSignature(functionDecl, functionCtxt, false);

    //Check for changes between m_oldSignature and newSignature, use oldPositions to store old<->new param index mapping
    QList<int> oldPositions;
    if (!getSignatureChanges(newSignature, oldPositions)) {
        reset();
        return; //No changes to signature
    }
    QList<RenameAction*> renameActions;
    if (m_editingDefinition) {
        setDefaultParams(newSignature, oldPositions); //restore default parameters before updating the declarations
    } else {
        renameActions = getRenameActions(newSignature, oldPositions);  //rename as needed when updating the definition
    }
    IAssistantAction::Ptr action(new AdaptSignatureAction(m_otherSideId, m_otherSideTopContext,
                                                          m_oldSignature, newSignature,
                                                          m_editingDefinition, renameActions));
    connect(action.data(), &IAssistantAction::executed,
            this, &AdaptSignatureAssistant::reset);
    addAction(action);
    emit actionsChanged();
}
예제 #3
0
void TestDUChain::testTypeDeductionInTemplateInstantiation()
{
    // see: http://clang-developers.42468.n3.nabble.com/RFC-missing-libclang-query-functions-features-td2504253.html
    TestFile file("template<typename T> struct foo { T member; } foo<int> f; auto i = f.member;", "cpp");
    QVERIFY(file.parseAndWait());

    DUChainReadLocker lock;

    DUContext* ctx = file.topContext().data();
    QVERIFY(ctx);
    QCOMPARE(ctx->localDeclarations().size(), 3);
    Declaration* decl = 0;

    // check 'foo' declaration
    decl = ctx->localDeclarations()[0];
    QVERIFY(decl);
    QCOMPARE(decl->identifier(), Identifier("foo"));

    // check type of 'member' inside declaration-scope
    QCOMPARE(ctx->childContexts().size(), 1);
    DUContext* fooCtx = ctx->childContexts().first();
    QVERIFY(fooCtx);
    // Should there really be two declarations?
    QCOMPARE(fooCtx->localDeclarations().size(), 2);
    decl = fooCtx->localDeclarations()[1];
    QCOMPARE(decl->identifier(), Identifier("member"));

    // check type of 'member' in definition of 'f'
    decl = ctx->localDeclarations()[1];
    QCOMPARE(decl->identifier(), Identifier("f"));
    decl = ctx->localDeclarations()[2];
    QCOMPARE(decl->identifier(), Identifier("i"));
#if CINDEX_VERSION_MINOR < 31
    QEXPECT_FAIL("", "No type deduction here unfortunately, missing API in Clang", Continue);
#endif
    QVERIFY(decl->type<IntegralType>());
}
예제 #4
0
void TestDUChain::testVirtualMemberFunction()
{
    //Forward-declarations with "struct" or "class" are considered equal, so make sure the override is detected correctly.
    TestFile file("struct S {}; struct A { virtual S* ret(); }; struct B : public A { virtual S* ret(); };", "cpp");
    QVERIFY(file.parseAndWait());

    DUChainReadLocker lock;
    DUContext* top = file.topContext().data();
    QVERIFY(top);

    QCOMPARE(top->childContexts().count(), 3);
    QCOMPARE(top->localDeclarations().count(), 3);
    QCOMPARE(top->childContexts()[2]->localDeclarations().count(), 1);
    Declaration* decl = top->childContexts()[2]->localDeclarations()[0];
    QCOMPARE(decl->identifier(), Identifier("ret"));
    QVERIFY(DUChainUtils::getOverridden(decl));
}
QList<RenameAction*> AdaptSignatureAssistant::getRenameActions(const Signature &newSignature, const QList<int> &oldPositions) const
{
    Q_ASSERT(DUChain::lock()->currentThreadHasReadLock());
    QList<RenameAction*> renameActions;
    if (!m_otherSideContext) {
        return renameActions;
    }
    for (int i = newSignature.parameters.size() - 1; i >= 0; --i) {
        if (oldPositions[i] == -1) {
            continue;  //new parameter
        }
        Declaration *renamedDecl = m_otherSideContext->localDeclarations()[oldPositions[i]];
        if (newSignature.parameters[i].second != m_oldSignature.parameters[oldPositions[i]].second) {
            QMap<IndexedString, QList<RangeInRevision> > uses = renamedDecl->uses();
            if (!uses.isEmpty()) {
                renameActions << new RenameAction(renamedDecl->identifier(), newSignature.parameters[i].second,
                                                  RevisionedFileRanges::convert(uses));
            }
        }
    }

    return renameActions;
}
예제 #6
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void TestDUChain::testBaseClasses()
{
    TestFile file("class Base {}; class Inherited : public Base {};", "cpp");
    QVERIFY(file.parseAndWait());

    DUChainReadLocker lock;
    DUContext* top = file.topContext().data();
    QVERIFY(top);

    QCOMPARE(top->localDeclarations().count(), 2);
    Declaration* baseDecl = top->localDeclarations().first();
    QCOMPARE(baseDecl->identifier(), Identifier("Base"));

    ClassDeclaration* inheritedDecl = dynamic_cast<ClassDeclaration*>(top->localDeclarations()[1]);
    QCOMPARE(inheritedDecl->identifier(), Identifier("Inherited"));

    QVERIFY(inheritedDecl);
    QCOMPARE(inheritedDecl->baseClassesSize(), 1u);

    QCOMPARE(baseDecl->uses().count(), 1);
    QCOMPARE(baseDecl->uses().first().count(), 1);
    QCOMPARE(baseDecl->uses().first().first(), RangeInRevision(0, 40, 0, 44));
}
예제 #7
0
void TestDUChain::testAutoTypeDeduction()
{
    TestFile file("const volatile auto foo = 5;\n", "cpp");
    QVERIFY(file.parseAndWait());

    DUChainReadLocker lock;

    DUContext* ctx = file.topContext().data();
    QVERIFY(ctx);
    QCOMPARE(ctx->localDeclarations().size(), 1);
    QCOMPARE(ctx->findDeclarations(QualifiedIdentifier("foo")).size(), 1);
    Declaration* decl = ctx->findDeclarations(QualifiedIdentifier("foo"))[0];
    QCOMPARE(decl->identifier(), Identifier("foo"));
#if CINDEX_VERSION_MINOR < 31
    QEXPECT_FAIL("", "No type deduction here unfortunately, missing API in Clang", Continue);
#endif
    QVERIFY(decl->type<IntegralType>());
#if CINDEX_VERSION_MINOR < 31
    QCOMPARE(decl->toString(), QStringLiteral("const volatile auto foo"));
#else
    QCOMPARE(decl->toString(), QStringLiteral("const volatile int foo"));
#endif
}
예제 #8
0
QString DeclarationNavigationContext::html(bool shorten)
{
  clear();
  m_shorten = shorten;
  modifyHtml()  += "<html><body><p>" + fontSizePrefix(shorten);

  addExternalHtml(m_prefix);

  if(!m_declaration.data()) {
    modifyHtml() += i18n("<br /> lost declaration <br />");
    return currentHtml();
  }
  
  if( m_previousContext ) {
    QString link = createLink( m_previousContext->name(), m_previousContext->name(), NavigationAction(m_previousContext) );
    modifyHtml() += navigationHighlight(i18n("Back to %1<br />", link));
  }
  
  QExplicitlySharedDataPointer<IDocumentation> doc;
  
  if( !shorten ) {
    doc = ICore::self()->documentationController()->documentationForDeclaration(m_declaration.data());

    const AbstractFunctionDeclaration* function = dynamic_cast<const AbstractFunctionDeclaration*>(m_declaration.data());
    if( function ) {
      htmlFunction();
    } else if( m_declaration->isTypeAlias() || m_declaration->kind() == Declaration::Instance ) {
	
	
      if( m_declaration->isTypeAlias() )
        modifyHtml() += importantHighlight("type ");

      if(m_declaration->type<EnumeratorType>())
        modifyHtml() += i18n("enumerator ");
      
      if( !m_declaration->isTypeAlias()) 
          modifyHtml() += ' ' + identifierHighlight(declarationName(m_declaration).toHtmlEscaped(), m_declaration) + " ";

      AbstractType::Ptr useType = m_declaration->abstractType();
      if(m_declaration->isTypeAlias()) {
        //Do not show the own name as type of typedefs
        if(useType.cast<TypeAliasType>())
          useType = useType.cast<TypeAliasType>()->type();
      } 
      
      eventuallyMakeTypeLinks( useType );
      
      modifyHtml() += "<br>";

    }else{
      if( m_declaration->kind() == Declaration::Type && m_declaration->abstractType().cast<StructureType>()) {
        htmlClass();
      }
      if ( m_declaration->kind() == Declaration::Namespace ) {
        modifyHtml() += i18n("namespace %1 ", identifierHighlight(m_declaration->qualifiedIdentifier().toString().toHtmlEscaped(), m_declaration));
      }

      if(m_declaration->type<EnumerationType>()) {
        EnumerationType::Ptr enumeration = m_declaration->type<EnumerationType>();
        modifyHtml() += i18n("enumeration %1 ", identifierHighlight(m_declaration->identifier().toString().toHtmlEscaped(), m_declaration));
      }

      if(m_declaration->isForwardDeclaration()) {
        ForwardDeclaration* forwardDec = static_cast<ForwardDeclaration*>(m_declaration.data());
        Declaration* resolved = forwardDec->resolve(m_topContext.data());
        if(resolved) {
          modifyHtml() += i18n("( resolved forward-declaration: ");
          makeLink(resolved->identifier().toString(), KDevelop::DeclarationPointer(resolved), NavigationAction::NavigateDeclaration );
          modifyHtml() += i18n(") ");
        }else{
          modifyHtml() += i18n("(unresolved forward-declaration) ");
          QualifiedIdentifier id = forwardDec->qualifiedIdentifier();
          uint count;
          const IndexedDeclaration* decls;
          PersistentSymbolTable::self().declarations(id, count, decls);
          for(uint a = 0; a < count; ++a) {
            if(decls[a].isValid() && !decls[a].data()->isForwardDeclaration()) {
              modifyHtml() += "<br />";
              makeLink(i18n("possible resolution from"), KDevelop::DeclarationPointer(decls[a].data()), NavigationAction::NavigateDeclaration);
              modifyHtml() += ' ' + decls[a].data()->url().str();
            }
          }
        }
      }
      modifyHtml() += "<br />";
    }
  }else{
    AbstractType::Ptr showType = m_declaration->abstractType();
    if(showType && showType.cast<FunctionType>()) {
      showType = showType.cast<FunctionType>()->returnType();
      if(showType)
        modifyHtml() += labelHighlight(i18n("Returns: "));
    }else  if(showType) {
      modifyHtml() += labelHighlight(i18n("Type: "));
    }
    
    if(showType) {
      eventuallyMakeTypeLinks(showType);
      modifyHtml() += " ";
    }
  }
  
  QualifiedIdentifier identifier = m_declaration->qualifiedIdentifier();
  if( identifier.count() > 1 ) {
    if( m_declaration->context() && m_declaration->context()->owner() )
    {
      Declaration* decl = m_declaration->context()->owner();

      FunctionDefinition* definition = dynamic_cast<FunctionDefinition*>(decl);
      if(definition && definition->declaration())
        decl = definition->declaration();

      if(decl->abstractType().cast<EnumerationType>())
        modifyHtml() += labelHighlight(i18n("Enum: "));
      else
        modifyHtml() += labelHighlight(i18n("Container: "));

      makeLink( declarationName(DeclarationPointer(decl)), DeclarationPointer(decl), NavigationAction::NavigateDeclaration );
      modifyHtml() += " ";
    } else {
      QualifiedIdentifier parent = identifier;
      parent.pop();
      modifyHtml() += labelHighlight(i18n("Scope: %1 ", typeHighlight(parent.toString().toHtmlEscaped())));
    }
  }
  
  if( shorten && !m_declaration->comment().isEmpty() ) {
    QString comment = QString::fromUtf8(m_declaration->comment());
    if( comment.length() > 60 ) {
      comment.truncate(60);
      comment += "...";
    }
    comment.replace('\n', " ");
    comment.replace("<br />", " ");
    comment.replace("<br/>", " ");
    modifyHtml() += commentHighlight(comment.toHtmlEscaped()) + "   ";
  }
  

  QString access = stringFromAccess(m_declaration);
  if( !access.isEmpty() )
    modifyHtml() += labelHighlight(i18n("Access: %1 ", propertyHighlight(access.toHtmlEscaped())));


  ///@todo Enumerations

  QString detailsHtml;
  QStringList details = declarationDetails(m_declaration);
  if( !details.isEmpty() ) {
    bool first = true;
    foreach( const QString &str, details ) {
      if( !first )
        detailsHtml += ", ";
      first = false;
      detailsHtml += propertyHighlight(str);
    }
  }
예제 #9
0
void CorrectionFileGenerator::addHint(const QString &typeCode, const QStringList &modules, Declaration *forDeclaration,
                                      CorrectionFileGenerator::HintType hintType)
{
    if ( ! forDeclaration || ! forDeclaration->context() ) {
        qCWarning(KDEV_PYTHON_CODEGEN) << "Declaration does not have context!" << (forDeclaration ? forDeclaration->toString() : "");
        return;
    }

    DUContext* context = forDeclaration->context();
    if ( context->type() == DUContext::Function ) {
        auto otherImporters = context->importers();
        if ( otherImporters.isEmpty() ) {
            return;
        }
        context = otherImporters.first();
    }

    // We're in a class if the context of the declaration is a Class or if its
    // parent context is a class. This is because a function body has a context
    // of type Other.
    bool inClass = context->type() == DUContext::Class
            || (context->parentContext() && context->parentContext()->type() == DUContext::Class);

    // If the declaration is part of the function's arguments or it's parent
    // context is one of a function.
    bool inFunction = context->type() == DUContext::Function
            || (context->owner() && context->owner()->abstractType()->whichType() == AbstractType::TypeFunction);

    qCDebug(KDEV_PYTHON_CODEGEN) << "Are we in a class: " << inClass;
    qCDebug(KDEV_PYTHON_CODEGEN) << "Are we in a function: " << inFunction;

    QString enclosingClassIdentifier, enclosingFunctionIdentifier;

    if ( context->owner() ) {
        if ( inClass && inFunction ) {
            Declaration *functionDeclaration = context->owner();

            enclosingClassIdentifier = functionDeclaration->context()->owner()->identifier().identifier().str();
            enclosingFunctionIdentifier = functionDeclaration->identifier().identifier().str();
        }
        else if ( inClass ) {
            enclosingClassIdentifier = context->owner()->identifier().identifier().str();
        }
        else if ( inFunction ) {
            enclosingFunctionIdentifier = context->owner()->identifier().identifier().str();
        }
    }

    qCDebug(KDEV_PYTHON_CODEGEN) << "Enclosing class: " << enclosingClassIdentifier;
    qCDebug(KDEV_PYTHON_CODEGEN) << "Enclosing function: " << enclosingFunctionIdentifier;

    QString declarationIdentifier = forDeclaration->identifier().identifier().str();

    bool foundClassDeclaration = false;
    bool foundFunctionDeclaration = false;

    QString functionIdentifier;

    if ( hintType == FunctionReturnHint ) {
        functionIdentifier = declarationIdentifier;
    }
    else if ( hintType == LocalVariableHint ) {
        functionIdentifier = enclosingFunctionIdentifier;
    }

    int line = findStructureFor(enclosingClassIdentifier, functionIdentifier);

    if ( line == -1 ) {
        line = findStructureFor(enclosingClassIdentifier, QString());
    }
    else if ( inFunction || hintType == FunctionReturnHint ) {
        foundFunctionDeclaration = true;
    }

    if ( line == -1 ) {
        line = findStructureFor(QString(), QString());
    }
    else if ( inClass ) {
        foundClassDeclaration = true;
    }

    qCDebug(KDEV_PYTHON_CODEGEN) << "Found class declaration: " << foundClassDeclaration << enclosingClassIdentifier;
    qCDebug(KDEV_PYTHON_CODEGEN) << "Found function declaration: " << foundFunctionDeclaration << functionIdentifier;
    qCDebug(KDEV_PYTHON_CODEGEN) << "Line: " << line;

    int indentsForNextStatement = m_fileIndents->indentForLine(line);

    if ( foundClassDeclaration ) {
        indentsForNextStatement += DEFAULT_INDENT_LEVEL;
    }

    QStringList newCode;
    if ( inClass ) {
        if ( ! foundClassDeclaration ) {
            QString classDeclaration = createStructurePart(enclosingClassIdentifier, ClassType);
            classDeclaration.prepend(QString(indentsForNextStatement, ' '));

            newCode.append(classDeclaration);
            indentsForNextStatement += DEFAULT_INDENT_LEVEL;
        }
        else {
            line++;
        }
    }

    if ( inFunction || hintType == FunctionReturnHint ) {
        if ( ! foundFunctionDeclaration ) {
            QString functionDeclaration;
            if ( inClass ) {
                functionDeclaration = createStructurePart(functionIdentifier, MemberFunctionType);
            }
            else {
                functionDeclaration = createStructurePart(functionIdentifier, FunctionType);
            }
            functionDeclaration.prepend(QString(indentsForNextStatement, ' '));

            newCode.append(functionDeclaration);
            indentsForNextStatement += DEFAULT_INDENT_LEVEL;
        }
        else {
            line++;
        }
    }

    if ( foundFunctionDeclaration && ! foundClassDeclaration ) {
        indentsForNextStatement += DEFAULT_INDENT_LEVEL;
    }
    QString hintCode;
    if ( hintType == FunctionReturnHint ) {
        hintCode = "returns = " + typeCode;
    }
    else if ( hintType == LocalVariableHint ) {
        hintCode = "l_" + declarationIdentifier + " = " + typeCode;
    }
    qCDebug(KDEV_PYTHON_CODEGEN) << "Hint code: " << hintCode;
    hintCode.prepend(QString(indentsForNextStatement, ' '));
    newCode.append(hintCode);

    for ( int i = 0; i < newCode.length(); i++ ) {
        m_code.insert(line + i, newCode.at(i));
    }

    // We safely insert any import declaration at the top
    foreach ( const QString &moduleName, modules ) {
        bool importExists = false;
        foreach (const QString &line, m_code) {
            if ( ! line.startsWith("import") && ! line.startsWith("from") && ! line.isEmpty() ) {
                break;
            }

            // In both import ... and from ... import ..., the second part is what we want
            if ( line.section(' ', 1, 1, QString::SectionSkipEmpty) == moduleName.trimmed() ) {
                importExists = true;
            }
        }

        if ( ! importExists ) {
            m_code.prepend("import " + moduleName.trimmed());
        }
    }