QWidget* DUChainItemData::expandingWidget() const
{
  DUChainReadLocker lock;;

  Declaration* decl = dynamic_cast<KDevelop::Declaration*>(m_item.m_item.data());
  if( !decl || !decl->context() ) {
    return 0;
  }

  return decl->context()->createNavigationWidget( decl, decl->topContext(),
            m_item.m_project.isEmpty()
                ? QString()
                : ("<small><small>" + i18n("Project %1", m_item.m_project) + "<br></small></small>")
  );
}
示例#2
0
void ADLHelper::addArgumentType(const AbstractType::Ptr typePtr)
{
    if(m_alreadyProcessed.contains(typePtr.data()))
      return;

    if (typePtr)
    {
#ifdef DEBUG_ADL
        qCDebug(CPPDUCHAIN) << "    added argument type " << typePtr->toString() << " to ADL lookup";
#endif
        // the enumeration and enumerator types are not part of the TypeVisitor interface
        switch (typePtr->whichType())
        {
        case AbstractType::TypeEnumeration:
        {
            EnumerationType* specificType = fastCast<EnumerationType*>(typePtr.data());
            if (specificType)
            {
                Declaration * enumDecl = specificType->declaration(m_topContext.data());
                addDeclarationScopeIdentifier(enumDecl);
            }
            break;
        }
        case AbstractType::TypeEnumerator:
        {
            if (m_templateArgsDepth == 0)
            {
                EnumeratorType* specificType = fastCast<EnumeratorType*>(typePtr.data());
                if (specificType)
                {
                    // use the enumeration context for the enumerator value declaration to find out the namespace
                    Declaration * enumeratorDecl = specificType->declaration(m_topContext.data());
                    if (enumeratorDecl) {
                        DUContext * enumContext = enumeratorDecl->context();
                        if (enumContext) {
                            addAssociatedNamespace(enumContext->scopeIdentifier(false));
                        }
                    }
                }
            }
            break;
        }
        default:
            typePtr->accept(&m_typeVisitor);
        }
    }

    m_alreadyProcessed.insert(typePtr.data());
}
示例#3
0
void ADLTypeVisitor::endVisit(const FunctionType * /*type*/)
{
    // return type and argument types are handled by FunctionType::accept0

    // here we process the namespace of the function name (or containing class), if any

    /* at the bottom of 3.4.2.2 we find the following:

    In addition, if the argument is the name or address of a set of overloaded functions and/or function tem-
    plates, its associated classes and namespaces are the union of those associated with each of the members of
    the set: the namespace in which the function or function template is defined and the classes and namespaces
    associated with its (non-dependent) parameter types and return type.
    */

    if (m_helper.m_possibleFunctionName.data() && m_helper.m_possibleFunctionName.data()->isFunctionDeclaration())
    {
        Declaration * declaration = m_helper.m_possibleFunctionName.data();

#ifdef DEBUG_ADL
        qCDebug(CPPDUCHAIN) << "    function name = " << declaration->toString() << " ; identifier = " << declaration->qualifiedIdentifier().toString();
#endif

        // start going towards the global scope until we match an interesting name
        // note that calling addDeclarationScopeIdentifier does not work because for some reason
        // for function names DUContext::scopeIdentifier returns the function name instead of the
        // name of the function's scope
        DUContext* context = declaration->context();
        while (context) {
            if (Declaration* decl = context->owner())
            {
              if (context->type() == DUContext::Namespace)
              {
                  m_helper.addAssociatedNamespace(decl->qualifiedIdentifier());
                  break;
              } else if (context->type() == DUContext::Class) {
                  m_helper.addAssociatedClass(decl);
                  break;
              }
            }
            context = context->parentContext();
        }
    }
}
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());
        }
    }