/* * Copyright (C) 2020-2022 Roy Qu (royqh1979@gmail.com) * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "cppparser.h" #include "parserutils.h" #include "../utils.h" #include "qsynedit/syntaxer/cpp.h" #include #include #include #include #include #include #include static QAtomicInt cppParserCount(0); static QString calcFullname(const QString& parentName, const QString& name) { QString s; s.reserve(parentName.size()+2+name.size()); s+= parentName; s+= "::"; s+= name; return s; } CppParser::CppParser(QObject *parent) : QObject(parent), #if QT_VERSION >= QT_VERSION_CHECK(5, 15, 0) mMutex() #else mMutex(QMutex::Recursive) #endif { mParserId = cppParserCount.fetchAndAddRelaxed(1); mLanguage = ParserLanguage::CPlusPlus; mSerialCount = 0; updateSerialId(); mUniqId = 0; mParsing = false; //mStatementList ; // owns the objects //mFilesToScan; //mIncludePaths; //mProjectIncludePaths; //mProjectFiles; // mCurrentScope; //mCurrentClassScope; //mSkipList; mParseLocalHeaders = true; mParseGlobalHeaders = true; mLockCount = 0; mIsSystemHeader = false; mIsHeader = false; mIsProjectFile = false; mCppKeywords = CppKeywords; mCppTypeKeywords = CppTypeKeywords; mEnabled = true; internalClear(); //mNamespaces; //mBlockBeginSkips; //mBlockEndSkips; //mInlineNamespaceEndSkips; } CppParser::~CppParser() { //qDebug()<<"delete parser"; while (true) { //wait for all methods finishes running { QMutexLocker locker(&mMutex); if (!mParsing && (mLockCount == 0)) { mParsing = true; break; } } //qDebug()<<"waiting for parse finished"; QThread::msleep(50); QCoreApplication* app = QApplication::instance(); app->processEvents(); } //qDebug()<<"-------- parser deleted ------------"; } void CppParser::addHardDefineByLine(const QString &line) { QMutexLocker locker(&mMutex); if (line.startsWith('#')) { mPreprocessor.addHardDefineByLine(line.mid(1).trimmed()); } else { mPreprocessor.addHardDefineByLine(line); } } void CppParser::addIncludePath(const QString &value) { QMutexLocker locker(&mMutex); mPreprocessor.addIncludePath(includeTrailingPathDelimiter(value)); } void CppParser::removeProjectFile(const QString &value) { QMutexLocker locker(&mMutex); mProjectFiles.remove(value); mFilesToScan.remove(value); } void CppParser::addProjectIncludePath(const QString &value) { QMutexLocker locker(&mMutex); mPreprocessor.addProjectIncludePath(includeTrailingPathDelimiter(value)); } void CppParser::clearIncludePaths() { QMutexLocker locker(&mMutex); mPreprocessor.clearIncludePaths(); } void CppParser::clearProjectIncludePaths() { QMutexLocker locker(&mMutex); mPreprocessor.clearProjectIncludePaths(); } void CppParser::clearProjectFiles() { QMutexLocker locker(&mMutex); mProjectFiles.clear(); } QList CppParser::getListOfFunctions(const QString &fileName, const QString &phrase, int line) { QMutexLocker locker(&mMutex); QList result; if (mParsing) return result; PStatement statement = doFindStatementOf(fileName,phrase, line); if (!statement) return result; if (statement->kind == StatementKind::skPreprocessor) { if (statement->args.isEmpty()) { QString name = expandMacro(statement->value); statement = doFindStatementOf(fileName, name ,line); if (!statement) return result; } } while(statement && statement->kind == StatementKind::skAlias) statement = doFindAliasedStatement(statement); if (!statement) return result; PStatement parentScope; if (statement->kind == StatementKind::skClass) { parentScope = statement; } else parentScope = statement->parentScope.lock(); if (parentScope && parentScope->kind == StatementKind::skNamespace) { PStatementList namespaceStatementsList = doFindNamespace(parentScope->command); if (namespaceStatementsList) { for (PStatement& namespaceStatement : *namespaceStatementsList) { result.append( getListOfFunctions(fileName,line,statement,namespaceStatement)); } } } else result.append( getListOfFunctions(fileName,line,statement,parentScope) ); return result; } PStatement CppParser::findScopeStatement(const QString &filename, int line) { QMutexLocker locker(&mMutex); if (mParsing) { return PStatement(); } return doFindScopeStatement(filename,line); } PStatement CppParser::doFindScopeStatement(const QString &filename, int line) const { PFileIncludes fileIncludes = mPreprocessor.findFileIncludes(filename); if (!fileIncludes) return PStatement(); return fileIncludes->scopes.findScopeAtLine(line); } PFileIncludes CppParser::findFileIncludes(const QString &filename, bool deleteIt) { QMutexLocker locker(&mMutex); PFileIncludes fileIncludes = mPreprocessor.findFileIncludes(filename); if (deleteIt && fileIncludes) mPreprocessor.removeFileIncludes(filename); return fileIncludes; } QString CppParser::findFirstTemplateParamOf(const QString &fileName, const QString &phrase, const PStatement& currentScope) { QMutexLocker locker(&mMutex); if (mParsing) return ""; return doFindFirstTemplateParamOf(fileName,phrase,currentScope); } QString CppParser::findTemplateParamOf(const QString &fileName, const QString &phrase, int index, const PStatement ¤tScope) { QMutexLocker locker(&mMutex); if (mParsing) return ""; return doFindTemplateParamOf(fileName,phrase,index,currentScope); } PStatement CppParser::findFunctionAt(const QString &fileName, int line) { QMutexLocker locker(&mMutex); PFileIncludes fileIncludes = mPreprocessor.findFileIncludes(fileName); if (!fileIncludes) return PStatement(); for (PStatement& statement : fileIncludes->statements) { if (statement->kind != StatementKind::skFunction && statement->kind != StatementKind::skConstructor && statement->kind != StatementKind::skDestructor) continue; if (statement->line == line || statement->definitionLine == line) return statement; } return PStatement(); } int CppParser::findLastOperator(const QString &phrase) const { int phraseLength = phrase.length(); int i = phraseLength-1; // Obtain stuff after first operator while (i>=0) { if ((i+1') && (phrase[i] == '-')) return i; else if ((i+1kind == StatementKind::skNamespace) { PStatementList lst = doFindNamespace(parentStatement->fullName); foreach (const PStatement& namespaceStatement, *lst) { statement = findMemberOfStatement(phrase,namespaceStatement); if (statement) break; } } else { statement = findMemberOfStatement(phrase,parentStatement); } if (!statement) return PStatement(); parentStatement = statement; } return statement; } PStatement CppParser::findStatementOf(const QString &fileName, const QString &phrase, int line) { QMutexLocker locker(&mMutex); if (mParsing) return PStatement(); return doFindStatementOf(fileName,phrase,line); } PStatement CppParser::doFindStatementOf(const QString &fileName, const QString &phrase, int line) const { return doFindStatementOf(fileName,phrase,doFindScopeStatement(fileName,line)); } PStatement CppParser::findStatementOf(const QString &fileName, const QString &phrase, const PStatement& currentScope, PStatement &parentScopeType) { QMutexLocker locker(&mMutex); if (mParsing) return PStatement(); return doFindStatementOf(fileName,phrase,currentScope,parentScopeType); } PStatement CppParser::doFindStatementOf(const QString &fileName, const QString &phrase, const PStatement& currentScope, PStatement &parentScopeType) const { PStatement result; parentScopeType = currentScope; //find the start scope statement QString namespaceName, remainder; QString nextScopeWord,operatorToken,memberName; PStatement statement; getFullNamespace(phrase, namespaceName, remainder); if (!namespaceName.isEmpty()) { // (namespace )qualified Name PStatementList namespaceList = mNamespaces.value(namespaceName); if (!namespaceList || namespaceList->isEmpty()) return PStatement(); if (remainder.isEmpty()) return namespaceList->front(); remainder = splitPhrase(remainder,nextScopeWord,operatorToken,memberName); for (PStatement& currentNamespace: *namespaceList) { statement = findMemberOfStatement(nextScopeWord,currentNamespace); if (statement) break; } //not found in namespaces; if (!statement) return PStatement(); // found in namespace parentScopeType = statement->parentScope.lock(); } else if ((phrase.length()>2) && (phrase[0]==':') && (phrase[1]==':')) { //global remainder= phrase.mid(2); remainder= splitPhrase(remainder,nextScopeWord,operatorToken,memberName); statement= findMemberOfStatement(nextScopeWord,PStatement()); if (!statement) return PStatement(); parentScopeType = currentScope; } else { //unqualified name parentScopeType = currentScope; remainder = splitPhrase(remainder,nextScopeWord,operatorToken,memberName); statement = findStatementStartingFrom(fileName,nextScopeWord,parentScopeType); if (!statement) return PStatement(); } if (!memberName.isEmpty() && (statement->kind == StatementKind::skTypedef)) { PStatement typeStatement = doFindTypeDefinitionOf(fileName,statement->type, parentScopeType); if (typeStatement) statement = typeStatement; } //using alias like 'using std::vector;' while (statement->kind == StatementKind::skAlias) { statement = doFindAliasedStatement(statement); if (!statement) return PStatement(); } if (statement->kind == StatementKind::skConstructor) { // we need the class, not the construtor statement = statement->parentScope.lock(); if (!statement) return PStatement(); } PStatement lastScopeStatement; QString typeName; PStatement typeStatement; while (!memberName.isEmpty()) { if (statement->kind!=StatementKind::skClass && operatorToken == "::") { return PStatement(); } if (statement->kind == StatementKind::skVariable || statement->kind == StatementKind::skParameter || statement->kind == StatementKind::skFunction) { bool isSTLContainerFunctions = false; if (statement->kind == StatementKind::skFunction){ PStatement parentScope = statement->parentScope.lock(); if (parentScope && STLContainers.contains(parentScope->fullName) && STLElementMethods.contains(statement->command) && lastScopeStatement) { isSTLContainerFunctions = true; PStatement lastScopeParent = lastScopeStatement->parentScope.lock(); typeName=doFindFirstTemplateParamOf(fileName,lastScopeStatement->type, lastScopeParent ); typeStatement=doFindTypeDefinitionOf(fileName, typeName, lastScopeParent ); } else if (parentScope && STLMaps.contains(parentScope->fullName) && STLElementMethods.contains(statement->command) && lastScopeStatement) { isSTLContainerFunctions = true; PStatement lastScopeParent = lastScopeStatement->parentScope.lock(); typeName=doFindTemplateParamOf(fileName,lastScopeStatement->type,1, lastScopeParent ); typeStatement=doFindTypeDefinitionOf(fileName, typeName, lastScopeParent ); } } if (!isSTLContainerFunctions) typeStatement = doFindTypeDefinitionOf(fileName,statement->type, statement->parentScope.lock()); //it's stl smart pointer if ((typeStatement) && STLPointers.contains(typeStatement->fullName) && (operatorToken == "->")) { PStatement parentScope = statement->parentScope.lock(); typeName=doFindFirstTemplateParamOf(fileName,statement->type, parentScope); typeStatement=doFindTypeDefinitionOf(fileName, typeName,parentScope); } else if ((typeStatement) && STLContainers.contains(typeStatement->fullName) && nextScopeWord.endsWith(']')) { //it's a std container PStatement parentScope = statement->parentScope.lock(); typeName = doFindFirstTemplateParamOf(fileName,statement->type, parentScope); typeStatement = doFindTypeDefinitionOf(fileName, typeName, parentScope); } else if ((typeStatement) && STLMaps.contains(typeStatement->fullName) && nextScopeWord.endsWith(']')) { //it's a std container PStatement parentScope = statement->parentScope.lock(); typeName = doFindFirstTemplateParamOf(fileName,statement->type, parentScope); typeStatement = doFindTypeDefinitionOf(fileName, typeName, parentScope); } lastScopeStatement = statement; if (typeStatement) statement = typeStatement; } else lastScopeStatement = statement; remainder = splitPhrase(remainder,nextScopeWord,operatorToken,memberName); PStatement memberStatement = findMemberOfStatement(nextScopeWord,statement); if (!memberStatement) return PStatement(); parentScopeType=statement; statement = memberStatement; if (!memberName.isEmpty() && (statement->kind == StatementKind::skTypedef)) { PStatement typeStatement = doFindTypeDefinitionOf(fileName,statement->type, parentScopeType); if (typeStatement) statement = typeStatement; } } return statement; } PEvalStatement CppParser::evalExpression( const QString &fileName, QStringList &phraseExpression, const PStatement ¤tScope) { QMutexLocker locker(&mMutex); if (mParsing) return PEvalStatement(); // qDebug()<effectiveTypeStatement && ownerEvalStatement->effectiveTypeStatement->kind == StatementKind::skNamespace) { PStatementList lst = doFindNamespace(ownerEvalStatement->effectiveTypeStatement->fullName); foreach (const PStatement& namespaceStatement, *lst) { PStatement statement = findMemberOfStatement(phrase,namespaceStatement); if (statement) return statement; } return PStatement(); } else if (ownerEvalStatement->typeStatement && STLIterators.contains(ownerEvalStatement->typeStatement->command) && memberOperator=="->" ) { PStatement parentScope = ownerEvalStatement->typeStatement->parentScope.lock(); if (STLContainers.contains(parentScope->fullName)) { QString typeName=doFindFirstTemplateParamOf(fileName,ownerEvalStatement->templateParams, parentScope); PStatement typeStatement=doFindTypeDefinitionOf(fileName, typeName,parentScope); if (typeStatement) { return findMemberOfStatement(phrase, typeStatement); } else { return PStatement(); } } else if (STLMaps.contains(parentScope->fullName)) { QString typeName=doFindTemplateParamOf(fileName,ownerEvalStatement->templateParams,1,parentScope); // qDebug()<<"typeName"<baseStatement->type<baseStatement->command; PStatement typeStatement=doFindTypeDefinitionOf(fileName, typeName,parentScope); if (typeStatement) { return findMemberOfStatement(phrase, typeStatement); } else { return PStatement(); } } } return findMemberOfStatement(phrase, ownerEvalStatement->effectiveTypeStatement); } } PStatement CppParser::findStatementOf(const QString &fileName, const QStringList &expression, int line) { QMutexLocker locker(&mMutex); if (mParsing) return PStatement(); return doFindStatementOf(fileName,expression,line); } PStatement CppParser::doFindStatementOf(const QString &fileName, const QStringList &expression, int line) const { PStatement statement = doFindStatementOf(fileName,expression,doFindScopeStatement(fileName,line)); if (statement && statement->line != line && statement->definitionLine != line) { PStatement parentStatement = statement->parentScope.lock(); if (parentStatement && (parentStatement->line == line && parentStatement->fileName == fileName)) { return parentStatement; } } return statement; } PStatement CppParser::findAliasedStatement(const PStatement &statement) { QMutexLocker locker(&mMutex); if (mParsing) return PStatement(); return doFindAliasedStatement(statement); } QList CppParser::listTypeStatements(const QString &fileName, int line) { QMutexLocker locker(&mMutex); if (mParsing) return QList(); return doListTypeStatements(fileName,line); } PStatement CppParser::doFindAliasedStatement(const PStatement &statement) const { QSet foundSet; return doFindAliasedStatement(statement,foundSet); } PStatement CppParser::doFindAliasedStatement(const PStatement &statement, QSet foundSet) const { if (!statement) return PStatement(); QString alias = statement->type; int pos = statement->type.lastIndexOf("::"); if (pos<0) return PStatement(); QString nsName=statement->type.mid(0,pos); QString name = statement->type.mid(pos+2); PFileIncludes fileIncludes = mPreprocessor.findFileIncludes(statement->fileName); if (!fileIncludes) return PStatement(); foundSet.insert(statement.get()); PStatement result; if (nsName.isEmpty()) { QList resultList = findMembersOfStatement(name,PStatement()); foreach(const PStatement& resultStatement,resultList) { if (fileIncludes->includeFiles.contains(resultStatement->fileName)) { result = resultStatement; break; } } } else { PStatementList namespaceStatements = doFindNamespace(nsName); if (!namespaceStatements) return PStatement(); foreach (const PStatement& namespaceStatement, *namespaceStatements) { QList resultList = findMembersOfStatement(name,namespaceStatement); foreach(const PStatement& resultStatement,resultList) { if (fileIncludes->includeFiles.contains(resultStatement->fileName)) { result = resultStatement; break; } } if (result) break; } } if (!result) return PStatement(); if (foundSet.contains(result.get())) return PStatement(); if (result->kind == StatementKind::skAlias) result = doFindAliasedStatement(result, foundSet); return result; } QList CppParser::doListTypeStatements(const QString &fileName, int line) const { QList result; QSet usedNamespaces; PStatement scopeStatement = doFindScopeStatement(fileName,line); while (true) { const StatementMap& statementMap = mStatementList.childrenStatements(scopeStatement); foreach (const PStatement statement, statementMap.values()) { if (isTypeStatement(statement->kind)) result.append(statement); } if (!scopeStatement) break; usedNamespaces = usedNamespaces.unite(scopeStatement->usingList); scopeStatement=scopeStatement->parentScope.lock(); } usedNamespaces = usedNamespaces.unite(internalGetFileUsings(fileName)); foreach(const QString& ns, usedNamespaces) { PStatementList namespaceStatementsList=doFindNamespace(ns); foreach (const PStatement& namespaceStatement,*namespaceStatementsList) { const StatementMap& statementMap = mStatementList.childrenStatements(namespaceStatement); foreach (const PStatement statement, statementMap.values()) { if (isTypeStatement(statement->kind)) result.append(statement); } } } return result; } PStatement CppParser::findStatementStartingFrom(const QString &fileName, const QString &phrase, const PStatement& startScope) const { PStatement scopeStatement = startScope; // repeat until reach global PStatement result; while (scopeStatement) { //search members of current scope result = findStatementInScope(phrase, scopeStatement); if (result) return result; // not found // search members of all usings (in current scope ) foreach (const QString& namespaceName, scopeStatement->usingList) { result = findStatementInNamespace(phrase,namespaceName); if (result) return result; } scopeStatement = scopeStatement->parentScope.lock(); } // Search all global members result = findMemberOfStatement(fileName, phrase,PStatement()); if (result) return result; //Find in all global usings const QSet& fileUsings = internalGetFileUsings(fileName); // add members of all fusings for (const QString& namespaceName:fileUsings) { result = findStatementInNamespace(phrase,namespaceName); if (result) return result; } return PStatement(); } PStatement CppParser::findTypeDefinitionOf(const QString &fileName, const QString &aType, const PStatement& currentClass) { QMutexLocker locker(&mMutex); if (mParsing) return PStatement(); return doFindTypeDefinitionOf(fileName,aType,currentClass); } PStatement CppParser::findTypeDef(const PStatement &statement, const QString &fileName) { QMutexLocker locker(&mMutex); if (mParsing) return PStatement(); return getTypeDef(statement, fileName, ""); } bool CppParser::freeze() { QMutexLocker locker(&mMutex); if (mParsing) return false; mLockCount++; return true; } bool CppParser::freeze(const QString &serialId) { QMutexLocker locker(&mMutex); if (mParsing) return false; if (mSerialId!=serialId) return false; mLockCount++; return true; } QStringList CppParser::getClassesList() { QMutexLocker locker(&mMutex); QStringList list; return list; // fills List with a list of all the known classes QQueue queue; queue.enqueue(PStatement()); while (!queue.isEmpty()) { PStatement statement = queue.dequeue(); StatementMap statementMap = mStatementList.childrenStatements(statement); for (PStatement& child:statementMap) { if (child->kind == StatementKind::skClass) list.append(child->command); if (!child->children.isEmpty()) queue.enqueue(child); } } return list; } QStringList CppParser::getFileDirectIncludes(const QString &filename) { QMutexLocker locker(&mMutex); if (mParsing) return QStringList(); if (filename.isEmpty()) return QStringList(); PFileIncludes fileIncludes = mPreprocessor.findFileIncludes(filename); if (fileIncludes) { return fileIncludes->directIncludes; } return QStringList(); } QSet CppParser::internalGetIncludedFiles(const QString &filename) const { QSet list; if (mParsing) return list; if (filename.isEmpty()) return list; list.insert(filename); PFileIncludes fileIncludes = mPreprocessor.findFileIncludes(filename); if (fileIncludes) { foreach (const QString& file, fileIncludes->includeFiles.keys()) { list.insert(file); } } return list; } QSet CppParser::getIncludedFiles(const QString &filename) { QMutexLocker locker(&mMutex); return internalGetIncludedFiles(filename); } QSet CppParser::getFileUsings(const QString &filename) { QMutexLocker locker(&mMutex); return internalGetFileUsings(filename); } QSet CppParser::internalGetFileUsings(const QString &filename) const { QSet result; if (filename.isEmpty()) return result; // if (mParsing) // return result; PFileIncludes fileIncludes= mPreprocessor.findFileIncludes(filename); if (fileIncludes) { foreach (const QString& usingName, fileIncludes->usings) { result.insert(usingName); } foreach (const QString& subFile,fileIncludes->includeFiles.keys()){ PFileIncludes subIncludes = mPreprocessor.findFileIncludes(subFile); if (subIncludes) { foreach (const QString& usingName, subIncludes->usings) { result.insert(usingName); } } } } return result; } QString CppParser::getHeaderFileName(const QString &relativeTo, const QString &headerName, bool fromNext) { QMutexLocker locker(&mMutex); QString currentDir = includeTrailingPathDelimiter(extractFileDir(relativeTo)); QStringList includes; QStringList projectIncludes; bool found=false; if (fromNext && mPreprocessor.includePaths().contains(currentDir)) { foreach(const QString& s, mPreprocessor.includePathList()) { if (found) { includes.append(s); continue; } else if (s == currentDir) found = true; } projectIncludes = mPreprocessor.projectIncludePathList(); } else if (fromNext && mPreprocessor.projectIncludePaths().contains(currentDir)) { includes = mPreprocessor.includePathList(); foreach(const QString& s, mPreprocessor.projectIncludePathList()) { if (found) { includes.append(s); continue; } else if (s == currentDir) found = true; } } else { includes = mPreprocessor.includePathList(); projectIncludes = mPreprocessor.projectIncludePathList(); } return ::getHeaderFilename(relativeTo, headerName, includes, projectIncludes); } bool CppParser::isLineVisible(const QString &fileName, int line) { QMutexLocker locker(&mMutex); if (mParsing) { return true; } PFileIncludes fileIncludes = mPreprocessor.findFileIncludes(fileName); if (!fileIncludes) return true; return fileIncludes->isLineVisible(line); } void CppParser::invalidateFile(const QString &fileName) { if (!mEnabled) return; { QMutexLocker locker(&mMutex); if (mParsing || mLockCount>0) return; updateSerialId(); mParsing = true; } QSet files = calculateFilesToBeReparsed(fileName); internalInvalidateFiles(files); mParsing = false; } bool CppParser::isIncludeLine(const QString &line) { QString trimmedLine = line.trimmed(); if ((trimmedLine.length() > 0) && trimmedLine.startsWith('#')) { // it's a preprocessor line if (trimmedLine.mid(1).trimmed().startsWith("include")) return true; } return false; } bool CppParser::isIncludeNextLine(const QString &line) { QString trimmedLine = line.trimmed(); if ((trimmedLine.length() > 0) && trimmedLine.startsWith('#')) { // it's a preprocessor line if (trimmedLine.mid(1).trimmed().startsWith("include_next")) return true; } return false; } bool CppParser::isProjectHeaderFile(const QString &fileName) { QMutexLocker locker(&mMutex); return ::isSystemHeaderFile(fileName,mPreprocessor.projectIncludePaths()); } bool CppParser::isSystemHeaderFile(const QString &fileName) { QMutexLocker locker(&mMutex); return ::isSystemHeaderFile(fileName,mPreprocessor.includePaths()); } void CppParser::parseFile(const QString &fileName, bool inProject, bool onlyIfNotParsed, bool updateView) { if (!mEnabled) return; { QMutexLocker locker(&mMutex); if (mParsing || mLockCount>0) return; updateSerialId(); mParsing = true; if (updateView) emit onBusy(); emit onStartParsing(); } { auto action = finally([&,this]{ mParsing = false; if (updateView) emit onEndParsing(mFilesScannedCount,1); else emit onEndParsing(mFilesScannedCount,0); }); QString fName = fileName; if (onlyIfNotParsed && mPreprocessor.fileScanned(fName)) return; if (inProject) { QSet filesToReparsed = calculateFilesToBeReparsed(fileName); QStringList files = sortFilesByIncludeRelations(filesToReparsed); internalInvalidateFiles(filesToReparsed); mFilesToScanCount = files.count(); mFilesScannedCount = 0; foreach (const QString& file,files) { mFilesScannedCount++; emit onProgress(file,mFilesToScanCount,mFilesScannedCount); if (!mPreprocessor.fileScanned(file)) { internalParse(file); } } } else { internalInvalidateFile(fileName); mFilesToScanCount = 1; mFilesScannedCount = 0; mFilesScannedCount++; emit onProgress(fileName,mFilesToScanCount,mFilesScannedCount); internalParse(fileName); } // if (inProject) // mProjectFiles.insert(fileName); // else { // mProjectFiles.remove(fileName); // } // Parse from disk or stream } } void CppParser::parseFileList(bool updateView) { if (!mEnabled) return; { QMutexLocker locker(&mMutex); if (mParsing || mLockCount>0) return; updateSerialId(); mParsing = true; if (updateView) emit onBusy(); emit onStartParsing(); } { auto action = finally([&,this]{ mParsing = false; if (updateView) emit onEndParsing(mFilesScannedCount,1); else emit onEndParsing(mFilesScannedCount,0); }); // Support stopping of parsing when files closes unexpectedly mFilesScannedCount = 0; mFilesToScanCount = mFilesToScan.count(); QStringList files = sortFilesByIncludeRelations(mFilesToScan); // parse header files in the first parse foreach (const QString& file, files) { mFilesScannedCount++; emit onProgress(mCurrentFile,mFilesToScanCount,mFilesScannedCount); if (!mPreprocessor.fileScanned(file)) { internalParse(file); } } mFilesToScan.clear(); } } void CppParser::parseHardDefines() { QMutexLocker locker(&mMutex); if (mParsing) return; int oldIsSystemHeader = mIsSystemHeader; mIsSystemHeader = true; mParsing=true; { auto action = finally([&,this]{ mParsing = false; mIsSystemHeader=oldIsSystemHeader; }); for (const PDefine& define:mPreprocessor.hardDefines()) { addStatement( PStatement(), // defines don't belong to any scope "", "", // define has no type define->name, define->args, "", define->value, -1, StatementKind::skPreprocessor, StatementScope::Global, StatementAccessibility::None, StatementProperty::spHasDefinition); } } } bool CppParser::parsing() const { return mParsing; } void CppParser::resetParser() { while (true) { { QMutexLocker locker(&mMutex); if (!mParsing && mLockCount ==0) { mParsing = true; break; } } QThread::msleep(50); QCoreApplication* app = QApplication::instance(); app->processEvents(); } { auto action = finally([this]{ mParsing = false; }); emit onBusy(); mUniqId = 0; mParseLocalHeaders = true; mParseGlobalHeaders = true; mIsSystemHeader = false; mIsHeader = false; mIsProjectFile = false; mFilesScannedCount=0; mFilesToScanCount = 0; mCurrentScope.clear(); mMemberAccessibilities.clear(); mStatementList.clear(); mProjectFiles.clear(); // mBlockBeginSkips.clear(); //list of for/catch block begin token index; // mBlockEndSkips.clear(); //list of for/catch block end token index; mInlineNamespaceEndSkips.clear(); // list for inline namespace end token index; mFilesToScan.clear(); // list of base files to scan mNamespaces.clear(); // namespace and the statements in its scope mInlineNamespaces.clear(); mClassInheritances.clear(); mPreprocessor.clear(); mTokenizer.clear(); } } void CppParser::unFreeze() { QMutexLocker locker(&mMutex); mLockCount--; } bool CppParser::fileScanned(const QString &fileName) { QMutexLocker locker(&mMutex); if (mParsing) return false; return mPreprocessor.fileScanned(fileName); } bool CppParser::isFileParsed(const QString &filename) { return mPreprocessor.fileScanned(filename); } QString CppParser::getScopePrefix(const PStatement& statement) const{ switch (statement->accessibility) { case StatementAccessibility::Public: return "public"; case StatementAccessibility::Private: return "private"; case StatementAccessibility::Protected: return "protected"; default: return ""; } } QString CppParser::prettyPrintStatement(const PStatement& statement, const QString& filename, int line) { QString result; switch(statement->kind) { case StatementKind::skPreprocessor: if (statement->command == "__FILE__") result = '"'+filename+'"'; else if (statement->command == "__LINE__") result = QString("\"%1\"").arg(line); else if (statement->command == "__DATE__") result = QString("\"%1\"").arg(QDate::currentDate().toString(Qt::ISODate)); else if (statement->command == "__TIME__") result = QString("\"%1\"").arg(QTime::currentTime().toString(Qt::ISODate)); else { QString hintText = "#define"; if (statement->command != "") hintText += ' ' + statement->command; if (statement->args != "") hintText += ' ' + statement->args; if (statement->value != "") hintText += ' ' + statement->value; result = hintText; } break; case StatementKind::skEnumClassType: result = "enum class "+statement->command; break; case StatementKind::skEnumType: result = "enum "+statement->command; break; case StatementKind::skEnum: if (!statement->type.isEmpty()) result = statement->type + "::"; else result = ""; result += statement->command; if (!statement->value.isEmpty()) result += "(" + statement->value + ")"; break; case StatementKind::skTypedef: result = "typedef "+statement->type+" "+statement->command; if (!statement->args.isEmpty()) result += " "+statement->args; break; case StatementKind::skAlias: result = "using "+statement->type; break; case StatementKind::skFunction: case StatementKind::skVariable: case StatementKind::skParameter: case StatementKind::skClass: if (statement->scope!= StatementScope::Local) result = getScopePrefix(statement)+ ' '; // public result += statement->type + ' '; // void result += statement->fullName; // A::B::C::Bar result += statement->args; // (int a) break; case StatementKind::skNamespace: result = statement->fullName; // Bar break; case StatementKind::skConstructor: result = getScopePrefix(statement); // public result += QObject::tr("constructor") + ' '; // constructor result += statement->type + ' '; // void result += statement->fullName; // A::B::C::Bar result += statement->args; // (int a) break; case StatementKind::skDestructor: result = getScopePrefix(statement); // public result += QObject::tr("destructor") + ' '; // constructor result += statement->type + ' '; // void result += statement->fullName; // A::B::C::Bar result += statement->args; // (int a) break; default: break; } return result; } QString CppParser::getTemplateParam(const PStatement& statement, const QString& filename, const QString& phrase, int index, const PStatement& currentScope) const { if (!statement) return ""; if (statement->kind != StatementKind::skTypedef) return ""; if (statement->type == phrase) // prevent infinite loop return ""; return doFindTemplateParamOf(filename,statement->type,index,currentScope); } int CppParser::getTemplateParamStart(const QString &s, int startAt, int index) const { int i = startAt+1; int count=0; while (count': level--; if (level==0) return i; } i++; } return startAt; } void CppParser::addProjectFile(const QString &fileName, bool needScan) { QMutexLocker locker(&mMutex); //value.replace('/','\\'); // only accept full file names // Update project listing mProjectFiles.insert(fileName); // Only parse given file if (needScan && !mPreprocessor.fileScanned(fileName)) { mFilesToScan.insert(fileName); } } PStatement CppParser::addInheritedStatement(const PStatement& derived, const PStatement& inherit, StatementAccessibility access) { PStatement statement = addStatement( derived, inherit->fileName, inherit->type, inherit->command, inherit->args, inherit->noNameArgs, inherit->value, inherit->line, inherit->kind, inherit->scope, access, inherit->properties | StatementProperty::spInherited); return statement; } PStatement CppParser::addChildStatement(const PStatement& parent, const QString &fileName, const QString &aType, const QString &command, const QString &args, const QString& noNameArgs, const QString &value, int line, StatementKind kind, const StatementScope& scope, const StatementAccessibility& classScope, StatementProperties properties) { return addStatement( parent, fileName, aType, command, args, noNameArgs, value, line, kind, scope, classScope, properties); } PStatement CppParser::addStatement(const PStatement& parent, const QString &fileName, const QString &aType, const QString &command, const QString &args, const QString &noNameArgs, const QString &value, int line, StatementKind kind, const StatementScope& scope, const StatementAccessibility& accessibility, StatementProperties properties) { // Move '*', '&' to type rather than cmd (it's in the way for code-completion) QString newType = aType; QString newCommand = command; while (!newCommand.isEmpty() && (newCommand.front() == '*' || newCommand.front() == '&')) { newType += newCommand.front(); newCommand.remove(0,1); // remove first } QString templateSpecializationParams; int pos = newCommand.indexOf("<"); if (pos>0 && !newCommand.startsWith("operator<")) { templateSpecializationParams = newCommand.mid(pos); newCommand = newCommand.left(pos); } newCommand.squeeze(); // if (newCommand.startsWith("::") && parent && kind!=StatementKind::skBlock ) { // qDebug()<fullName; // } if (kind == StatementKind::skConstructor || kind == StatementKind::skFunction || kind == StatementKind::skDestructor || kind == StatementKind::skVariable ) { //find if (properties.testFlag(StatementProperty::spHasDefinition)) { PStatement oldStatement = findStatementInScope(newCommand,noNameArgs,kind,parent); if (oldStatement && !oldStatement->hasDefinition()) { oldStatement->setHasDefinition(true); if (oldStatement->fileName!=fileName) { PFileIncludes fileIncludes=mPreprocessor.findFileIncludes(fileName); if (fileIncludes) { fileIncludes->statements.insert(oldStatement->fullName, oldStatement); } } oldStatement->definitionLine = line; oldStatement->definitionFileName = fileName; return oldStatement; } } } PStatement result = std::make_shared(); result->parentScope = parent; result->type = newType; if (!newCommand.isEmpty()) result->command = newCommand; else { mUniqId++; result->command = QString("__STATEMENT__%1").arg(mUniqId); } result->args = args; result->noNameArgs = noNameArgs; result->value = value; result->templateSpecializationParams = templateSpecializationParams; result->kind = kind; result->scope = scope; result->accessibility = accessibility; result->properties = properties; result->line = line; result->definitionLine = line; result->fileName = fileName; result->definitionFileName = fileName; if (!fileName.isEmpty()) { result->setInProject(mIsProjectFile); result->setInSystemHeader(mIsSystemHeader); } else { result->setInProject(false); result->setInSystemHeader(true); } //result->children; //result->friends; if (scope == StatementScope::Local) result->fullName = newCommand; else result->fullName = getFullStatementName(newCommand + templateSpecializationParams, parent); result->usageCount = -1; result->args.squeeze(); result->noNameArgs.squeeze(); result->value.squeeze(); result->type.squeeze(); mStatementList.add(result); if (result->kind == StatementKind::skNamespace) { PStatementList namespaceList = mNamespaces.value(result->fullName,PStatementList()); if (!namespaceList) { namespaceList=std::make_shared(); mNamespaces.insert(result->fullName,namespaceList); } namespaceList->append(result); } if (result->kind!= StatementKind::skBlock) { PFileIncludes fileIncludes = mPreprocessor.findFileIncludes(fileName); if (fileIncludes) { fileIncludes->statements.insert(result->fullName,result); } } // if (result->command=="sync_with_stdio") { // qDebug()<fullName<isStatic()<<(int)result->accessibility; // } return result; } PStatement CppParser::addStatement(const PStatement &parent, const QString &fileName, const QString &aType, const QString &command, int argStart, int argEnd, const QString &value, int line, StatementKind kind, const StatementScope &scope, const StatementAccessibility &classScope, StatementProperties properties) { Q_ASSERT(mTokenizer[argStart]->text=='('); QString args; QString noNameArgs; int start=argStart+1; bool typeGetted = false; int braceLevel=0; QString word; for (int i=start;itext[0]; if (this->isIdentChar(ch)) { QString spaces=(i>argStart)?" ":""; if (args.length()>0 && isWordChar(args.back())) args+=spaces; word += mTokenizer[i]->text; if (!typeGetted) { noNameArgs+=spaces+word; if (mCppTypeKeywords.contains(word) || !isCppKeyword(word)) typeGetted = true; } else { if (isCppKeyword(word)) { noNameArgs+=spaces+word; } } word=""; } else if (this->isDigitChar(ch)) { } else if (mTokenizer[i]->text=="::") { if (braceLevel==0) { noNameArgs+= mTokenizer[i]->text; } } else { switch(ch.unicode()) { case ',': if (braceLevel==0) { typeGetted=false; noNameArgs+= mTokenizer[i]->text; } break; case '{': case '[': case '<': case '(': braceLevel++; break; case '}': case ']': case '>': case ')': braceLevel--; break; //todo: * and & processing case '*': case '&': if (braceLevel==0) { noNameArgs+= mTokenizer[i]->text; } break; } } args+=mTokenizer[i]->text; } if (!word.isEmpty()) { noNameArgs.append(word); } args="("+args.trimmed()+")"; noNameArgs="("+noNameArgs.trimmed()+")"; return addStatement( parent, fileName, aType, command, args, noNameArgs, value, line, kind, scope, classScope, properties); } void CppParser::addMethodParameterStatement(QStringList words, int line, const PStatement &functionStatement) { if (words.isEmpty()) return; QString args,suffix; QString cmd=words.last(); parseCommandTypeAndArgs(cmd,suffix,args); words.pop_back(); if (!cmd.isEmpty()) { PStatement statement = doFindStatementOf(mCurrentFile,cmd,functionStatement); bool noCmd = (statement && isTypeStatement(statement->kind)); if (!noCmd) { addStatement( functionStatement, mCurrentFile, words.join(" ")+" "+suffix, // 'int*' cmd, // a args, "", "", line, StatementKind::skParameter, StatementScope::Local, StatementAccessibility::None, StatementProperty::spHasDefinition); } } } void CppParser::setInheritance(int index, const PStatement& classStatement, bool isStruct, int maxIndex) { // Clear it. Assume it is assigned StatementAccessibility lastInheritScopeType = StatementAccessibility::None; // Assemble a list of statements in text form we inherit from while (true) { QString currentText = mTokenizer[index]->text; if (currentText=='(') { //skip to matching ')' index=mTokenizer[index]->matchIndex; } else if (currentText=="::" || (isIdentChar(currentText[0]))) { KeywordType keywordType = mCppKeywords.value(currentText, KeywordType::None); if (keywordType!=KeywordType::None) { StatementAccessibility inheritScopeType = getClassMemberAccessibility(mTokenizer[index]->text); if (inheritScopeType != StatementAccessibility::None) { lastInheritScopeType = inheritScopeType; } } else { QString basename = currentText; bool isGlobal = false; index++; if (basename=="::") { if (index>=maxIndex || !isIdentChar(mTokenizer[index]->text[0])) { return; } isGlobal=true; basename=mTokenizer[index]->text; index++; } //remove template staff if (basename.endsWith('>')) { int pBegin = basename.indexOf('<'); if (pBegin>=0) basename.truncate(pBegin); } while (index+1text=="::" && isIdentChar(mTokenizer[index+1]->text[0])){ basename += "::" + mTokenizer[index+1]->text; index+=2; //remove template staff if (basename.endsWith('>')) { int pBegin = basename.indexOf('<'); if (pBegin>=0) basename.truncate(pBegin); } } PClassInheritanceInfo inheritanceInfo = std::make_shared(); inheritanceInfo->derivedClass = classStatement; inheritanceInfo->file = mCurrentFile; inheritanceInfo->parentClassName = basename; inheritanceInfo->isGlobal = isGlobal; inheritanceInfo->isStruct = isStruct; inheritanceInfo->visibility = lastInheritScopeType; inheritanceInfo->handled = false; mClassInheritances.append(inheritanceInfo); handleInheritance(classStatement, inheritanceInfo); } } index++; if (index >= maxIndex) break; if (mTokenizer[index]->text.front() == '{' || mTokenizer[index]->text.front() == ';') break; } } bool CppParser::isCurrentScope(const QString &command) const { PStatement statement = getCurrentScope(); if (!statement) return false; QString s = command; // remove template staff if (s.endsWith('>')) { int i= command.indexOf('<'); if (i>=0) { s.truncate(i); } } QString s2 = statement->command; if (s2.endsWith('>')) { int i= s2.indexOf('<'); if (i>=0) { s2.truncate(i); } } return (s2 == s); } void CppParser::addSoloScopeLevel(PStatement& statement, int line, bool shouldResetBlock) { // Add class list PStatement parentScope; if (shouldResetBlock && statement && (statement->kind == StatementKind::skBlock)) { parentScope = statement->parentScope.lock(); while (parentScope && (parentScope->kind == StatementKind::skBlock)) { parentScope = parentScope->parentScope.lock(); } if (!parentScope) statement.reset(); } if (mMemberAccessibilities.count()>0) { mMemberAccessibilities.back() = mCurrentMemberAccessibility; } mCurrentScope.append(statement); PFileIncludes fileIncludes = mPreprocessor.findFileIncludes(mCurrentFile); if (fileIncludes) { fileIncludes->scopes.addScope(line,statement); } // Set new scope if (!statement) mCurrentMemberAccessibility = StatementAccessibility::None; // {}, namespace or class that doesn't exist else if (statement->kind == StatementKind::skNamespace) mCurrentMemberAccessibility = StatementAccessibility::None; else if (statement->type == "class") mCurrentMemberAccessibility = StatementAccessibility::Private; // classes are private by default else mCurrentMemberAccessibility = StatementAccessibility::Public; // structs are public by default mMemberAccessibilities.push_back(mCurrentMemberAccessibility); #ifdef QT_DEBUG // if (mCurrentClassScope.count()<=2) // qDebug()<<"++add scope"<kind == StatementKind::skBlock) { if (currentScope->children.isEmpty()) { // remove no children block if (fileIncludes) fileIncludes->scopes.removeLastScope(); mStatementList.deleteStatement(currentScope); } else { if (fileIncludes) fileIncludes->statements.insert(currentScope->fullName,currentScope); } } else if (currentScope->kind == StatementKind::skClass) { mIndex=indexOfNextSemicolon(mIndex, maxIndex); } } mCurrentScope.pop_back(); mMemberAccessibilities.pop_back(); // Set new scope currentScope = getCurrentScope(); // fileIncludes:=FindFileIncludes(fCurrentFile); if (fileIncludes && fileIncludes->scopes.lastScope()!=currentScope) { fileIncludes->scopes.addScope(line,currentScope); } if (!currentScope) { mCurrentMemberAccessibility = StatementAccessibility::None; } else { mCurrentMemberAccessibility = mMemberAccessibilities.back(); } } void CppParser::internalClear() { mCurrentScope.clear(); mMemberAccessibilities.clear(); mIndex = 0; mCurrentMemberAccessibility = StatementAccessibility::None; // mBlockBeginSkips.clear(); // mBlockEndSkips.clear(); mInlineNamespaceEndSkips.clear(); } QStringList CppParser::sortFilesByIncludeRelations(const QSet &files) { QStringList result; QSet saveScannedFiles{mPreprocessor.scannedFiles()}; //rebuild file include relations foreach(const QString& file, files) { if (mPreprocessor.fileScanned(file)) continue; //already removed in interalInvalidateFiles //mPreprocessor.removeScannedFile(file); //we only use local include relations mPreprocessor.setScanOptions(false, true); mPreprocessor.preprocess(file); mPreprocessor.clearTempResults(); } QSet fileSet=files; while (!fileSet.isEmpty()) { bool found=false; foreach (const QString& file,fileSet) { PFileIncludes fileIncludes = mPreprocessor.findFileIncludes(file); bool hasInclude=false; if (fileIncludes) { foreach(const QString& inc,fileIncludes->includeFiles.keys()) { if (fileSet.contains(inc)) { hasInclude=true; break; } } } if (!hasInclude) { result.push_front(file); fileSet.remove(file); found=true; break; } } if (!found) { foreach (const QString& file,fileSet) { result.push_front(file); fileSet.remove(file); } } } QSet newScannedFiles{mPreprocessor.scannedFiles()}; foreach(const QString& file, newScannedFiles) { if (!saveScannedFiles.contains(file)) mPreprocessor.removeScannedFile(file); } return result; } int CppParser::evaluateConstExpr(int endIndex, bool &ok) { int result = 0; if (mIndex>=endIndex) { ok=false; return 0; } result = evaluateAdditionConstExpr(endIndex,ok); if (mIndex!=endIndex) ok = false; return result; } int CppParser::evaluateAdditionConstExpr(int endIndex, bool &ok) { int result = 0; if (mIndex>=endIndex) { ok=false; return 0; } result = evaluateMultiplyConstExpr(endIndex,ok); if (!ok) return result; while (mIndextext=='+') { mIndex++; int temp = evaluateMultiplyConstExpr(endIndex,ok); if (!ok) return result; result+=temp; } else if (mTokenizer[mIndex]->text=='-') { mIndex++; int temp = evaluateMultiplyConstExpr(endIndex,ok); if (!ok) return result; result-=temp; } else break; } return result; } int CppParser::evaluateMultiplyConstExpr(int endIndex, bool &ok) { int result = 0; if (mIndex>=endIndex) { ok=false; return 0; } result = evaluateConstExprTerm(endIndex,ok); if (!ok) return result; while (mIndextext=='*') { mIndex++; int temp = evaluateConstExprTerm(endIndex,ok); if (!ok) return result; result*=temp; } else if (mTokenizer[mIndex]->text=='/') { mIndex++; int temp = evaluateConstExprTerm(endIndex,ok); if (!ok) return result; result/=temp; } else if (mTokenizer[mIndex]->text=='%') { mIndex++; int temp = evaluateConstExprTerm(endIndex,ok); if (!ok) return result; result%=temp; } else break; } return result; } int CppParser::evaluateConstExprTerm(int endIndex, bool &ok) { int result = 0; if (mIndex>=endIndex) { ok=false; return 0; } if (mTokenizer[mIndex]->text=="(") { mIndex++; result = evaluateConstExpr(endIndex, ok); if (mIndex>=endIndex || mTokenizer[mIndex]->text!=')') ok=false; mIndex++; } else if (isIdentChar(mTokenizer[mIndex]->text[0]) || mTokenizer[mIndex]->text=="::") { QString s = mTokenizer[mIndex]->text; QSet searched; bool isGlobal = false; mIndex++; if (s=="::") { if (mIndex>=endIndex || !isIdentChar(mTokenizer[mIndex]->text[0])) { ok=false; return result; } isGlobal = true; s+=mTokenizer[mIndex]->text; mIndex++; } while (mIndex+1text=="::" && isIdentChar(mTokenizer[mIndex+1]->text[0])){ s += "::" + mTokenizer[mIndex+1]->text; mIndex+=2; } while (true){ //prevent infinite loop if (searched.contains(s)) { ok=false; return result; } searched.insert(s); PStatement statement = doFindStatementOf( mCurrentFile,s, isGlobal?PStatement():getCurrentScope()); if (!statement) { ok=false; return result; } if (statement->kind == StatementKind::skEnum) { result = statement->value.toInt(&ok); break; } else if (statement->kind == StatementKind::skAlias) { s = statement->value; } else { ok=false; return result; } } } else { result = evaluateLiteralNumber(endIndex,ok); mIndex++; } return result; } int CppParser::evaluateLiteralNumber(int endIndex, bool &ok) { int result = 0; if (mIndex>=endIndex) { ok=false; return 0; } if (mTokenizer[mIndex]->text.startsWith("0x") || mTokenizer[mIndex]->text.startsWith("0X")) result = mTokenizer[mIndex]->text.mid(2).toInt(&ok,16); else if (mTokenizer[mIndex]->text.startsWith("0b") || mTokenizer[mIndex]->text.startsWith("0B")) result = mTokenizer[mIndex]->text.mid(2).toInt(&ok,2); else if (mTokenizer[mIndex]->text.startsWith("0")) result = mTokenizer[mIndex]->text.toInt(&ok,8); else result = mTokenizer[mIndex]->text.toInt(&ok); return result; } bool CppParser::checkForKeyword(KeywordType& keywordType) { keywordType = mCppKeywords.value(mTokenizer[mIndex]->text,KeywordType::NotKeyword); switch(keywordType) { case KeywordType::Catch: case KeywordType::For: case KeywordType::Public: case KeywordType::Private: case KeywordType::Protected: case KeywordType::Struct: case KeywordType::Enum: case KeywordType::Inline: case KeywordType::Namespace: case KeywordType::Typedef: case KeywordType::Using: case KeywordType::Friend: case KeywordType::None: case KeywordType::NotKeyword: case KeywordType::DeclType: case KeywordType::Operator: case KeywordType::Requires: case KeywordType::Concept: return false; default: return true; } } bool CppParser::checkForNamespace(KeywordType keywordType, int maxIndex) { return (keywordType==KeywordType::Namespace &&(mIndex < maxIndex -1)) || ( keywordType==KeywordType::Inline && (mIndex+1 < maxIndex-1) &&mTokenizer[mIndex+1]->text == "namespace" ); } bool CppParser::checkForPreprocessor() { return (mTokenizer[mIndex]->text.startsWith('#')); } bool CppParser::checkForAccessibilitySpecifiers(KeywordType keywordType) { return (keywordType == KeywordType::Public || keywordType == KeywordType::Protected || keywordType == KeywordType::Private); } bool CppParser::checkForStructs(KeywordType keywordType, int maxIndex) { int dis = 0; // int keyLen = calcKeyLenForStruct(word); // if (keyLen<0) // return false; // bool result = (word.length() == keyLen) || isSpaceChar(word[keyLen]) // || (word[keyLen] == '['); bool result; if (keywordType == KeywordType::Friend || keywordType == KeywordType::Public || keywordType == KeywordType::Private) { dis = 1; if (mIndex+dis>=maxIndex) { mIndex++; return false; } result = (mCppKeywords.value(mTokenizer[mIndex+dis]->text,KeywordType::None)==KeywordType::Struct); } else { result = (keywordType==KeywordType::Struct); } if (result) { if (mIndex >= maxIndex - 2 - dis) return false; if (mTokenizer[mIndex + 2+dis]->text[0] != ';') { // not: class something; int i = mIndex+dis +1; // the check for ']' was added because of this example: // struct option long_options[] = { // {"debug", 1, 0, 'D'}, // {"info", 0, 0, 'i'}, // ... // }; while (i < maxIndex) { QChar ch = mTokenizer[i]->text.back(); if (ch=='{' || ch == ':') break; switch(ch.unicode()) { case ';': case '{': case '}': case ',': case '(': case ')': case '[': case ']': case '=': case '*': case '&': case '%': case '+': case '-': case '~': return false; } i++; } } } return result; } bool CppParser::checkForTypedefEnum(int maxIndex) { //we assume that typedef is the current index, so we check the next //should call CheckForTypedef first!!! return (mIndex+1 < maxIndex ) && (mTokenizer[mIndex + 1]->text == "enum"); } bool CppParser::checkForTypedefStruct(int maxIndex) { //we assume that typedef is the current index, so we check the next //should call CheckForTypedef first!!! if (mIndex+1 >= maxIndex) return false; return (mCppKeywords.value(mTokenizer[mIndex+1]->text,KeywordType::None)==KeywordType::Struct); } bool CppParser::checkForUsing(KeywordType keywordType, int maxIndex) { return keywordType==KeywordType::Using && (mIndex < maxIndex - 1); } void CppParser::checkAndHandleMethodOrVar(KeywordType keywordType, int maxIndex) { if (mIndex+2>=maxIndex) { mIndex+=2; // let's finish; return; } QString currentText=mTokenizer[mIndex]->text; if (keywordType==KeywordType::DeclType) { if (mTokenizer[mIndex+1]->text=='(') { currentText="auto"; mIndex=mTokenizer[mIndex+1]->matchIndex+1; } else { currentText=mTokenizer[mIndex+1]->text; mIndex+=2; } } else { if (keywordType == KeywordType::Operator) { handleOperatorOverloading("", mIndex, false, maxIndex); return; } mIndex++; } //next token must be */&/word/(/{ if (mTokenizer[mIndex]->text=='(') { int indexAfterParentheis=mTokenizer[mIndex]->matchIndex+1; if (indexAfterParentheis>=maxIndex) { //error mIndex=indexAfterParentheis; } else if (mTokenizer[indexAfterParentheis]->text=='(') { // operator overloading like (operator int) if (mTokenizer[mIndex+1]->text=="operator") { mIndex=indexAfterParentheis; handleMethod(StatementKind::skFunction,"", mergeArgs(mIndex+1,mTokenizer[mIndex]->matchIndex-1), indexAfterParentheis,false,false,true, maxIndex); } else { handleVar(currentText,false,false, maxIndex); } } else { if (currentText=="operator") { // operator overloading handleOperatorOverloading( "", mIndex, false, maxIndex); return; } //check for constructor like Foo::Foo() QString name; QString temp,temp2; QString parentName; if (splitLastMember(currentText,name,temp)) { //has '::' bool isDestructor=false; if (!splitLastMember(temp,parentName,temp2)) parentName=temp; if (name.startsWith('~')) name=name.mid(1); if (removeTemplateParams(name)==removeTemplateParams(parentName)) { handleMethod( (isDestructor?StatementKind::skDestructor:StatementKind::skConstructor), "", currentText, mIndex,false,false, false, maxIndex); return; } } // check for constructor like: // class Foo { // Foo(); // }; PStatement scope=getCurrentScope(); if (scope && scope->kind==StatementKind::skClass && removeTemplateParams(scope->command) == removeTemplateParams(currentText)) { handleMethod(StatementKind::skConstructor,"", currentText, mIndex,false,false, false, maxIndex); return; } // function call, skip it mIndex=moveToEndOfStatement(mIndex,true, maxIndex); } } else if (mTokenizer[mIndex]->text == "*" || mTokenizer[mIndex]->text == "&" || mTokenizer[mIndex]->text=="::" || tokenIsIdentifier(mTokenizer[mIndex]->text) ) { // it should be function/var bool isStatic = false; bool isFriend = false; bool isExtern = false; QString sType; // should contain type "int" QString sName; // should contain function name "foo::function" if (mTokenizer[mIndex]->text=="::") { mIndex--; } else { if (currentText=="::") { sName = currentText; } else { if (currentText == "static") isStatic = true; else if (currentText == "friend") isFriend = true; else if (currentText == "extern") isExtern = true; sType = currentText; } } // Gather data for the string parts while (mIndex+1 < maxIndex) { if (mTokenizer[mIndex]->text=="operator") { handleOperatorOverloading(sType, //sName, mIndex, isStatic, maxIndex); return; } else if (mTokenizer[mIndex + 1]->text == '(') { #ifdef ENABLE_SDCC if (mLanguage==ParserLanguage::SDCC && mTokenizer[mIndex]->text=="__at") { if (!sName.isEmpty()) { sType = sType+" "+sName; sName = ""; } sType+=" __at"; mIndex++; int idx= mTokenizer[mIndex]->matchIndex; if (idxtext; } } mIndex=idx+1; continue; } #endif if (mIndex+2text == '*') { //foo(*blabla), it's a function pointer var handleVar(sType+" "+sName,isExtern,isStatic, maxIndex); return; } int indexAfter=mTokenizer[mIndex + 1]->matchIndex+1; if (indexAfter>=maxIndex) { //error mIndex=indexAfter; return; } //if it's like: foo(...)(...) if (mTokenizer[indexAfter]->text=='(') { //foo(...)(...), it's a function pointer var handleVar(sType+" "+sName,isExtern,isStatic, maxIndex); //Won't implement: ignore function decl like int (text)(int x) { }; return; } //it's not a function define if (mTokenizer[indexAfter]->text == ',') { // var decl with init handleVar(sType+" "+sName,isExtern,isStatic, maxIndex); return; } if (mTokenizer[indexAfter]->text[0] == ';' && sType!="void") { //function can only be defined in global/namespaces/classes PStatement currentScope=getCurrentScope(); if (currentScope) { //in namespace, it might be function or object initilization if (currentScope->kind == StatementKind::skNamespace) { if (isNotFuncArgs(mIndex + 1)) { // var decl with init handleVar(sType+" "+sName,isExtern,isStatic, maxIndex); return; } } else if (currentScope->kind != StatementKind::skClass) { //not in class, it can't be a valid function definition // var decl with init handleVar(sType+" "+sName,isExtern,isStatic, maxIndex); return; } //variable can't be initialized in class definition, it must be a function } else if (isNotFuncArgs(mIndex + 1)){ // var decl with init handleVar(sType+" "+sName,isExtern,isStatic, maxIndex); return; } } bool isDestructor = false; if (!sName.isEmpty()) { if (sName.endsWith("::")) sName+=mTokenizer[mIndex]->text; else if (sName.endsWith("~")) { isDestructor=true; sName+=mTokenizer[mIndex]->text; } else { sType += " "+sName; sName = mTokenizer[mIndex]->text; } } else sName = mTokenizer[mIndex]->text; mIndex++; if (isDestructor) handleMethod(StatementKind::skDestructor,sType, sName,mIndex,false,isFriend, false, maxIndex); else { sType=sType.trimmed(); if (sType.isEmpty()) handleMethod(StatementKind::skConstructor,sType, sName,mIndex,false,isFriend, false, maxIndex); else handleMethod(StatementKind::skFunction,sType, sName,mIndex,isStatic,isFriend, false, maxIndex); } return; } else if ( mTokenizer[mIndex + 1]->text == ',' ||mTokenizer[mIndex + 1]->text == ';' ||mTokenizer[mIndex + 1]->text == ':' ||mTokenizer[mIndex + 1]->text == '{' || mTokenizer[mIndex + 1]->text == '=') { handleVar(sType+" "+sName,isExtern,isStatic, maxIndex); return; } else if ( mTokenizer[mIndex + 1]->text == "::") { sName = sName + mTokenizer[mIndex]->text+ "::"; mIndex+=2; } else if (mTokenizer[mIndex]->text == "~") { sName = sName + "~"; mIndex++; } else { QString s = mTokenizer[mIndex]->text; if (!isWordChar(s.front())) { mIndex = indexOfNextPeriodOrSemicolon(mIndex, maxIndex); return; } if (sName.endsWith("::")) { sName+=s; } else { if (!sName.isEmpty()) { sType = sType+" "+sName; sName = ""; } if (s == "static") isStatic = true; else if (s == "friend") isFriend = true; else if (s == "extern") isExtern = true; if (!s.isEmpty() && !(s=="extern")) { sType = sType + ' '+ s; } } mIndex++; } } } } PStatement CppParser::doFindTypeDefinitionOf(const QString &fileName, const QString &aType, const PStatement ¤tClass) const { if (aType.isEmpty()) return PStatement(); // Remove pointer stuff from type QString s = aType; // 'Type' is a keyword int position = s.length()-1; while ((position >= 0) && (s[position] == '*' || s[position] == ' ' || s[position] == '&')) position--; if (position != s.length()-1) s.truncate(position+1); // Strip template stuff position = s.indexOf('<'); if (position >= 0) { int endPos = getBracketEnd(s,position); s.remove(position,endPos-position+1); } // Use last word only (strip 'const', 'static', etc) position = s.lastIndexOf(' '); if (position >= 0) s = s.mid(position+1); PStatement scopeStatement = currentClass; PStatement statement = doFindStatementOf(fileName,s,currentClass); return getTypeDef(statement,fileName,aType); } QString CppParser::doFindFirstTemplateParamOf(const QString &fileName, const QString &phrase, const PStatement ¤tScope) const { return doFindTemplateParamOf(fileName,phrase,0,currentScope); } QString CppParser::doFindTemplateParamOf(const QString &fileName, const QString &phrase, int index, const PStatement ¤tScope) const { if (phrase.isEmpty()) return QString(); // Remove pointer stuff from type QString s = phrase; // 'Type' is a keyword int i = s.indexOf('<'); if (i>=0) { i=getTemplateParamStart(s,i,index); int t=getTemplateParamEnd(s,i); //qDebug()<= 0) && (s[position] == '*' || s[position] == ' ' || s[position] == '&')) position--; if (position != s.length()-1) s.truncate(position+1); PStatement scopeStatement = currentScope; PStatement statement = doFindStatementOf(fileName,s,currentScope); return getTemplateParam(statement,fileName, phrase,index, currentScope); } int CppParser::getCurrentInlineNamespaceEndSkip(int endIndex) const { if (mInlineNamespaceEndSkips.isEmpty()) return endIndex; return mInlineNamespaceEndSkips.back(); } PStatement CppParser::getCurrentScope() const { if (mCurrentScope.isEmpty()) { return PStatement(); } return mCurrentScope.back(); } void CppParser::getFullNamespace(const QString &phrase, QString &sNamespace, QString &member) const { sNamespace = ""; member = phrase; int strLen = phrase.length(); if (strLen==0) return; int lastI =-1; int i=0; while (i=strLen) { if (mNamespaces.contains(sNamespace)) { sNamespace = phrase; member = ""; return; } } if (lastI >= 0) { sNamespace = phrase.mid(0,lastI); member = phrase.mid(lastI+2); } else { sNamespace = ""; member = phrase; } } QString CppParser::getFullStatementName(const QString &command, const PStatement& parent) const { PStatement scopeStatement=parent; while (scopeStatement && !isNamedScope(scopeStatement->kind)) scopeStatement = scopeStatement->parentScope.lock(); if (scopeStatement) { return calcFullname(scopeStatement->fullName, command); } else return command; } PStatement CppParser::getIncompleteClass(const QString &command, const PStatement& parentScope) { QString s=command; //remove template parameter int p = s.indexOf('<'); if (p>=0) { s.truncate(p); } PStatement result = doFindStatementOf(mCurrentFile,s,parentScope); if (result && result->kind!=StatementKind::skClass) return PStatement(); return result; } StatementScope CppParser::getScope() { // Don't blindly trust levels. Namespaces and externs can have levels too PStatement currentScope = getCurrentScope(); // Invalid class or namespace/extern if (!currentScope || (currentScope->kind == StatementKind::skNamespace)) return StatementScope::Global; else if (currentScope->kind == StatementKind::skClass) return StatementScope::ClassLocal; else return StatementScope::Local; } QString CppParser::getStatementKey(const QString &sName, const QString &sType, const QString &sNoNameArgs) const { return sName + "--" + sType + "--" + sNoNameArgs; } PStatement CppParser::getTypeDef(const PStatement& statement, const QString& fileName, const QString& aType) const { if (!statement) { return PStatement(); } if (statement->kind == StatementKind::skClass || statement->kind == StatementKind::skEnumType || statement->kind == StatementKind::skEnumClassType) { return statement; } else if (statement->kind == StatementKind::skTypedef) { if (statement->type == aType) // prevent infinite loop return statement; PStatement result = doFindTypeDefinitionOf(fileName,statement->type, statement->parentScope.lock()); if (!result) // found end of typedef trail, return result return statement; return result; } else if (statement->kind == StatementKind::skAlias) { PStatement result = doFindAliasedStatement(statement); if (!result) // found end of typedef trail, return result return statement; return result; } else return PStatement(); } void CppParser::handleConcept(int maxIndex) { mIndex++; // skip 'concept'; // just skip it; mIndex = indexOfNextSemicolonOrLeftBrace(mIndex, maxIndex); if (mIndextext=='{') mIndex = mTokenizer[mIndex]->matchIndex+1; // skip '}' else mIndex++; // skip ; } } void CppParser::handleEnum(bool isTypedef, int maxIndex) { QString enumName = ""; bool isEnumClass = false; int startLine = mTokenizer[mIndex]->line; mIndex++; //skip 'enum' if (mIndex < maxIndex && (mTokenizer[mIndex]->text == "class" || mTokenizer[mIndex]->text == "struct")) { //enum class isEnumClass = true; mIndex++; //skip class } bool isAdhocVar=false; bool isNonameEnum=false; int definitionEndIndex=-1; if ((mIndex< maxIndex) && mTokenizer[mIndex]->text.startsWith('{')) { // enum {...} NAME // Skip to the closing brace int i = indexOfMatchingBrace(mIndex); // Have we found the name? if (i + 1 < maxIndex) { enumName = mTokenizer[i + 1]->text.trimmed(); if (!isIdentifierOrPointer(enumName)) { if (isTypedef || isEnumClass) { //not a valid enum, skip to j mIndex=indexOfNextSemicolon(i+1, maxIndex)+1; return; } else isNonameEnum = true; } if (!isTypedef) { //it's an ad-hoc enum var define; if (isEnumClass) { //Enum class can't add hoc, just skip to ; mIndex=indexOfNextSemicolon(i+1, maxIndex)+1; return; } enumName = "___enum___"+enumName+"__"; isAdhocVar=true; } } definitionEndIndex=i+1; } else if (mIndex+1< maxIndex && mTokenizer[mIndex+1]->text.startsWith('{')){ // enum NAME {...}; enumName = mTokenizer[mIndex]->text; mIndex++; } else if (mIndex+1< maxIndex && mTokenizer[mIndex+1]->text.startsWith(':')){ // enum NAME:int {...}; enumName = mTokenizer[mIndex]->text; //skip : mIndex = indexOfNextLeftBrace(mIndex, maxIndex); if (mIndex>maxIndex) return; } else { // enum NAME blahblah // it's an old c-style enum variable definition return; } // Add statement for enum name too PStatement enumStatement; if (!isNonameEnum) { if (isEnumClass) { enumStatement=addStatement( getCurrentScope(), mCurrentFile, "enum class", enumName, "", "", "", startLine, StatementKind::skEnumClassType, getScope(), mCurrentMemberAccessibility, StatementProperty::spHasDefinition); } else { enumStatement=addStatement( getCurrentScope(), mCurrentFile, "enum", enumName, "", "", "", startLine, StatementKind::skEnumType, getScope(), mCurrentMemberAccessibility, isAdhocVar?(StatementProperty::spHasDefinition|StatementProperty::spDummyStatement) :StatementProperty::spHasDefinition ); } } if (isAdhocVar) { //Ad-hoc var definition // Skip to the closing brace int i = indexOfMatchingBrace(mIndex)+1; QString typeSuffix=""; while (itext; if (isIdentifierOrPointer(name)) { QString suffix; QString args; parseCommandTypeAndArgs(name,suffix,args); if (!name.isEmpty()) { addStatement( getCurrentScope(), mCurrentFile, enumName+suffix, mTokenizer[i]->text, args, "", "", mTokenizer[i]->line, StatementKind::skVariable, getScope(), mCurrentMemberAccessibility, StatementProperty::spHasDefinition); } } else if (name!=',') { break; } i++; } definitionEndIndex=indexOfNextSemicolon(i, maxIndex); } // Skip opening brace mIndex++; // Call every member "enum NAME ITEMNAME" QString lastType; if (enumStatement && !isAdhocVar) lastType = "enum " + enumName; QString cmd; QString args; int value=0; bool canCalcValue=true; while ((mIndex < maxIndex) && mTokenizer[mIndex]->text!='}') { if (tokenIsIdentifier(mTokenizer[mIndex]->text)) { cmd = mTokenizer[mIndex]->text; args = ""; if (mIndex+1text=="=") { mIndex+=2; if (mIndexline, StatementKind::skEnum, getScope(), mCurrentMemberAccessibility, StatementProperty::spHasDefinition); } } else { QString strValue=canCalcValue?QString("%1").arg(value):""; if (enumStatement) { addStatement( enumStatement, mCurrentFile, lastType, cmd, args, "", strValue, mTokenizer[mIndex]->line, StatementKind::skEnum, getScope(), mCurrentMemberAccessibility, StatementProperty::spHasDefinition); } addStatement( getCurrentScope(), mCurrentFile, lastType, cmd, "", "", strValue, mTokenizer[mIndex]->line, StatementKind::skEnum, getScope(), mCurrentMemberAccessibility, StatementProperty::spHasDefinition); } value++; } mIndex ++ ; } if (mIndex= maxIndex) return; if (mTokenizer[mIndex]->text!='(') return; int i=mTokenizer[mIndex]->matchIndex; //")" int i2 = i+1; if (i2>=maxIndex) return; if (mTokenizer[i2]->text=='{') { mTokenizer[mIndex]->text="{"; mTokenizer[mIndex]->matchIndex = mTokenizer[i2]->matchIndex; mTokenizer[mTokenizer[mIndex]->matchIndex]->matchIndex = mIndex; mTokenizer[i]->text=";"; mTokenizer[i2]->text=";"; } else { mTokenizer[mIndex]->text=";"; mTokenizer[i]->text=";"; mIndex++; //skip ';' } } void CppParser::handleKeyword(KeywordType skipType, int maxIndex) { // Skip switch (skipType) { case KeywordType::SkipItself: // skip it; mIndex++; break; case KeywordType::SkipNextSemicolon: // Skip to ; and over it skipNextSemicolon(mIndex, maxIndex); break; case KeywordType::SkipNextColon: // Skip to : and over it mIndex = indexOfNextColon(mIndex, maxIndex)+1; break; case KeywordType::SkipNextParenthesis: // skip pass () skipParenthesis(mIndex, maxIndex); break; case KeywordType::MoveToLeftBrace: // Skip to { mIndex = indexOfNextLeftBrace(mIndex, maxIndex); break; // case KeywordType::MoveToRightBrace: // // Skip pass {} // mIndex = indexPassBraces(mIndex); // break; default: break; } } void CppParser::handleLambda(int index, int maxIndex) { Q_ASSERT(mTokenizer[index]->text.startsWith('[')); int startLine=mTokenizer[index]->line; int argStart=index+1; if (mTokenizer[argStart]->text!='(') return; int argEnd= mTokenizer[argStart]->matchIndex; //TODO: parse captures int bodyStart=indexOfNextLeftBrace(argEnd+1, maxIndex); if (bodyStart>=maxIndex) { return; } int bodyEnd = mTokenizer[bodyStart]->matchIndex; if (bodyEnd>maxIndex) { return; } PStatement lambdaBlock = addStatement( getCurrentScope(), mCurrentFile, "", "", "", "", "", startLine, StatementKind::skBlock, StatementScope::Local, StatementAccessibility::None, StatementProperty::spHasDefinition); scanMethodArgs(lambdaBlock,argStart); addSoloScopeLevel(lambdaBlock,mTokenizer[bodyStart]->line); int oldIndex = mIndex; mIndex = bodyStart+1; while (handleStatement(bodyEnd)); Q_ASSERT(mIndex == bodyEnd); mIndex = oldIndex; removeScopeLevel(mTokenizer[bodyEnd]->line, maxIndex); } void CppParser::handleOperatorOverloading(const QString &sType, int operatorTokenIndex, bool isStatic, int maxIndex) { //operatorTokenIndex is the token index of "operator" int index=operatorTokenIndex+1; QString op=""; if (index>=maxIndex) { mIndex=index; return; } if (mTokenizer[index]->text=="(") { op="()"; index=mTokenizer[index]->matchIndex+1; } else if (mTokenizer[index]->text=="new" || mTokenizer[index]->text=="delete") { op=mTokenizer[index]->text; index++; if (indextext=="[]") { op+="[]"; index++; } } else { op=mTokenizer[index]->text; index++; while (indextext != "(") index++; } while (indextext == ")") index++; if (index>=maxIndex || mTokenizer[index]->text!="(") { mIndex=index; return; } Q_ASSERT(!op.isEmpty()); if (isIdentChar(op.front())) { handleMethod(StatementKind::skFunction, sType+" "+op, "operator("+op+")", index, isStatic, false, true, maxIndex); } else { handleMethod(StatementKind::skFunction, sType, "operator"+op, index, isStatic, false, true, maxIndex); } } void CppParser::handleMethod(StatementKind functionKind,const QString &sType, const QString &sName, int argStart, bool isStatic, bool isFriend,bool isOperatorOverload, int maxIndex) { bool isValid = true; bool isDeclaration = false; // assume it's not a prototype int startLine = mTokenizer[mIndex]->line; int argEnd = mTokenizer[argStart]->matchIndex; if (mIndex >= maxIndex) // not finished define, just skip it; return; PStatement scopeStatement = getCurrentScope(); //find start of the function body; bool foundColon=false; mIndex=argEnd+1; while ((mIndex < maxIndex) && !isblockChar(mTokenizer[mIndex]->text.front())) { if (mTokenizer[mIndex]->text=='(') { mIndex=mTokenizer[mIndex]->matchIndex+1; }else if (mTokenizer[mIndex]->text==':') { foundColon=true; break; } else mIndex++; } if (foundColon) { mIndex++; while ((mIndex < maxIndex) && !isblockChar(mTokenizer[mIndex]->text.front())) { if (isWordChar(mTokenizer[mIndex]->text[0]) && mIndex+1< maxIndex && mTokenizer[mIndex+1]->text=='{') { //skip parent {}intializer mIndex=mTokenizer[mIndex+1]->matchIndex+1; } else if (mTokenizer[mIndex]->text=='(') { mIndex=mTokenizer[mIndex]->matchIndex+1; } else mIndex++; } } if (mIndex>=maxIndex) return; // Check if this is a prototype if (mTokenizer[mIndex]->text.startsWith(';') || mTokenizer[mIndex]->text.startsWith('}')) {// prototype isDeclaration = true; } QString scopelessName; PStatement functionStatement; if (isFriend && isDeclaration && scopeStatement) { int delimPos = sName.indexOf("::"); if (delimPos >= 0) { scopelessName = sName.mid(delimPos+2); } else scopelessName = sName; //TODO : we should check namespace scopeStatement->friends.insert(scopelessName); } else if (isValid) { // Use the class the function belongs to as the parent ID if the function is declared outside of the class body QString scopelessName; QString parentClassName; if (!isOperatorOverload && splitLastMember(sName,scopelessName,parentClassName)) { // Provide Bar instead of Foo::Bar scopeStatement = getIncompleteClass(parentClassName,getCurrentScope()); //parent not found if (!parentClassName.isEmpty() && !scopeStatement) scopelessName=sName; } else scopelessName = sName; // qDebug()<fullName; // For function definitions, the parent class is given. Only use that as a parent if (!isDeclaration) { functionStatement=addStatement( scopeStatement, mCurrentFile, sType, scopelessName, argStart, argEnd, "", //mTokenizer[mIndex - 1]^.Line, startLine, functionKind, getScope(), mCurrentMemberAccessibility, StatementProperty::spHasDefinition | (isStatic?StatementProperty::spStatic:StatementProperty::spNone) | (isOperatorOverload?StatementProperty::spOperatorOverloading:StatementProperty::spNone)); scanMethodArgs(functionStatement, argStart); // add variable this to the class function if (scopeStatement && scopeStatement->kind == StatementKind::skClass && !isStatic) { //add this to non-static class member function addStatement( functionStatement, mCurrentFile, scopeStatement->command+"*", "this", "", "", "", startLine, StatementKind::skVariable, StatementScope::Local, StatementAccessibility::None, StatementProperty::spHasDefinition | (isOperatorOverload?StatementProperty::spOperatorOverloading:StatementProperty::spNone)); } // add "__func__ variable" addStatement( functionStatement, mCurrentFile, "static const char ", "__func__", "[]", "", "\""+scopelessName+"\"", startLine+1, StatementKind::skVariable, StatementScope::Local, StatementAccessibility::None, StatementProperty::spHasDefinition | (isOperatorOverload?StatementProperty::spOperatorOverloading:StatementProperty::spNone)); } else { functionStatement = addStatement( scopeStatement, mCurrentFile, sType, scopelessName, argStart, argEnd, "", //mTokenizer[mIndex - 1]^.Line, startLine, functionKind, getScope(), mCurrentMemberAccessibility, (isStatic?StatementProperty::spStatic:StatementProperty::spNone) | (isOperatorOverload?StatementProperty::spOperatorOverloading:StatementProperty::spNone)); } } if ((mIndex < maxIndex) && mTokenizer[mIndex]->text.startsWith('{')) { addSoloScopeLevel(functionStatement,startLine); mIndex++; //skip '{' } else if ((mIndex < maxIndex) && mTokenizer[mIndex]->text.startsWith(';')) { addSoloScopeLevel(functionStatement,startLine); if (mTokenizer[mIndex]->line != startLine) removeScopeLevel(mTokenizer[mIndex]->line+1, maxIndex); else removeScopeLevel(startLine+1, maxIndex); mIndex++; } } void CppParser::handleNamespace(KeywordType skipType, int maxIndex) { bool isInline=false; int startLine = mTokenizer[mIndex]->line; if (skipType==KeywordType::Inline) { isInline = true; mIndex++; //skip 'inline' } mIndex++; //skip 'namespace' // if (!tokenIsIdentifier(mTokenizer[mIndex]->text)) // //wrong namespace define, stop handling // return; QString command = mTokenizer[mIndex]->text; QString fullName = getFullStatementName(command,getCurrentScope()); if (isInline) { mInlineNamespaces.insert(fullName); } else if (mInlineNamespaces.contains(fullName)) { isInline = true; } // if (command.startsWith("__")) // hack for inline namespaces // isInline = true; mIndex++; if (mIndex>=maxIndex) return; QString aliasName; if ((mIndex+2text == '=')) { aliasName=mTokenizer[mIndex+1]->text; mIndex+=2; if (aliasName == "::" && mIndextext; mIndex++; } while(mIndex+1text == "::") { aliasName+="::"; aliasName+=mTokenizer[mIndex+1]->text; mIndex+=2; } //qDebug()<text != '{')) mIndex++; int i =indexOfMatchingBrace(mIndex); //skip '}' if (i==mIndex) mInlineNamespaceEndSkips.append(maxIndex); else mInlineNamespaceEndSkips.append(i); if (mIndextext=='{') addSoloScopeLevel(namespaceStatement,startLine); //skip it mIndex++; } } void CppParser::handleOtherTypedefs(int maxIndex) { int startLine = mTokenizer[mIndex]->line; // Skip typedef word mIndex++; if (mIndex>=maxIndex) return; if (mTokenizer[mIndex]->text == '(' || mTokenizer[mIndex]->text == ',' || mTokenizer[mIndex]->text == ';') { // error typedef //skip over next ; mIndex=indexOfNextSemicolon(mIndex, maxIndex)+1; return; } if ((mIndex+1text == ';')) { //no old type, not valid mIndex+=2; //skip ; return; } QString oldType; QString tempType; // Walk up to first new word (before first comma or ;) while(true) { if (oldType.endsWith("::")) oldType += mTokenizer[mIndex]->text; else if (mTokenizer[mIndex]->text=="::") oldType += "::"; else if (mTokenizer[mIndex]->text=="*" || mTokenizer[mIndex]->text=="&") tempType += mTokenizer[mIndex]->text; else { oldType += tempType + ' ' + mTokenizer[mIndex]->text; tempType=""; } mIndex++; if (mIndex+1>=maxIndex) { //not valid, just exit return; } if (mTokenizer[mIndex]->text=='(') { break; } if (mTokenizer[mIndex + 1]->text.front() == ',' || mTokenizer[mIndex + 1]->text == ';') break; //typedef function pointer } oldType = oldType.trimmed(); if (oldType.isEmpty()) { //skip over next ; mIndex=indexOfNextSemicolon(mIndex, maxIndex)+1; return; } QString newType; while(mIndex+1text == ',' ) { mIndex++; } else if (mTokenizer[mIndex]->text == ';' ) { break; } else if (mTokenizer[mIndex]->text == '(') { int paramStart=mTokenizer[mIndex]->matchIndex+1; if (paramStart>=maxIndex || mTokenizer[paramStart]->text!='(') { //not valid function pointer (no args) //skip over next ; mIndex=indexOfNextSemicolon(paramStart, maxIndex)+1; return; } QString newType = findFunctionPointerName(mIndex); if (!newType.isEmpty()) { addStatement( getCurrentScope(), mCurrentFile, oldType+tempType, newType, mergeArgs(paramStart,mTokenizer[paramStart]->matchIndex), "", "", startLine, StatementKind::skTypedef, getScope(), mCurrentMemberAccessibility, StatementProperty::spHasDefinition); tempType=""; } mIndex = mTokenizer[paramStart]->matchIndex+1; } else if (mTokenizer[mIndex+1]->text.front() ==',' || mTokenizer[mIndex+1]->text.front() ==';') { newType += mTokenizer[mIndex]->text; QString suffix; QString args; parseCommandTypeAndArgs(newType,suffix,args); addStatement( getCurrentScope(), mCurrentFile, oldType+tempType+suffix, newType, args, "", "", startLine, StatementKind::skTypedef, getScope(), mCurrentMemberAccessibility, StatementProperty::spHasDefinition); tempType=""; newType = ""; mIndex++; } else { newType += mTokenizer[mIndex]->text; mIndex++; } } // Step over semicolon (saves one HandleStatement loop) mIndex++; } void CppParser::handlePreprocessor() { QString text = mTokenizer[mIndex]->text.mid(1).trimmed(); if (text.startsWith("include")) { // start of new file // format: #include fullfilename:line // Strip keyword QString s = text.mid(QString("include").length()); if (!s.startsWith(" ") && !s.startsWith("\t")) goto handlePreprocessorEnd; int delimPos = s.lastIndexOf(':'); if (delimPos>=0) { // qDebug()<line<baseFile; } else { mCurrentFile.squeeze(); } mIsSystemHeader = isSystemHeaderFile(mCurrentFile) || isProjectHeaderFile(mCurrentFile); mIsProjectFile = mProjectFiles.contains(mCurrentFile); mIsHeader = isHFile(mCurrentFile); // Mention progress to user if we enter a NEW file bool ok; int line = s.midRef(delimPos+1).toInt(&ok); if (line == 1) { mFilesScannedCount++; mFilesToScanCount++; emit onProgress(mCurrentFile,mFilesToScanCount,mFilesScannedCount); } } } else if (text.startsWith("define")) { // format: #define A B, remove define keyword QString s = text.mid(QString("define").length()); if (!s.startsWith(" ") && !s.startsWith("\t")) goto handlePreprocessorEnd; s = s.trimmed(); // Ask the preprocessor to cut parts up QString name,args,value; mPreprocessor.getDefineParts(s,name,args,value); addStatement( nullptr, // defines don't belong to any scope mCurrentFile, "", // define has no type name, args, "",// noname args value, mTokenizer[mIndex]->line, StatementKind::skPreprocessor, StatementScope::Global, StatementAccessibility::None, StatementProperty::spHasDefinition); } // TODO: undef ( define has limited scope) handlePreprocessorEnd: mIndex++; } StatementAccessibility CppParser::getClassMemberAccessibility(const QString& text) const { KeywordType type = mCppKeywords.value(text,KeywordType::None); return getClassMemberAccessibility(type); } StatementAccessibility CppParser::getClassMemberAccessibility(KeywordType keywordType) const { switch(keywordType) { case KeywordType::Public: return StatementAccessibility::Public; case KeywordType::Private: return StatementAccessibility::Private; case KeywordType::Protected: return StatementAccessibility::Protected; default: return StatementAccessibility::None; } } void CppParser::handleAccessibilitySpecifiers(KeywordType keywordType, int maxIndex) { mCurrentMemberAccessibility = getClassMemberAccessibility(keywordType); mIndex++; if (mIndex < maxIndex && mTokenizer[mIndex]->text == ':') mIndex++; // skip ':' } bool CppParser::handleStatement(int maxIndex) { QString funcType,funcName; // int idx=getCurrentBlockEndSkip(); // int idx2=getCurrentBlockBeginSkip(); int idx3=getCurrentInlineNamespaceEndSkip(maxIndex); KeywordType keywordType; #ifdef QT_DEBUG // qDebug()<=mLastIndex); mLastIndex=mIndex; #endif if (mIndex >= idx3) { //skip (previous handled) inline name space end mInlineNamespaceEndSkips.pop_back(); if (mIndex == idx3) mIndex++; } else if (mTokenizer[mIndex]->text.startsWith('{')) { PStatement block = addStatement( getCurrentScope(), mCurrentFile, "", "", "", "", "", //mTokenizer[mIndex]^.Line, mTokenizer[mIndex]->line, StatementKind::skBlock, getScope(), mCurrentMemberAccessibility, StatementProperty::spHasDefinition); addSoloScopeLevel(block,mTokenizer[mIndex]->line,true); mIndex++; } else if (mTokenizer[mIndex]->text[0] == '}') { removeScopeLevel(mTokenizer[mIndex]->line, maxIndex); mIndex++; } else if (checkForPreprocessor()) { handlePreprocessor(); // } else if (checkForLambda()) { // is lambda // handleLambda(); } else if (mTokenizer[mIndex]->text=='(') { if (mIndex+1text=="operator") { // things like (operator int) mIndex++; //just skip '(' } else skipParenthesis(mIndex, maxIndex); } else if (mTokenizer[mIndex]->text==')') { mIndex++; } else if (mTokenizer[mIndex]->text.startsWith('~')) { //it should be a destructor if (mIndex+2text[0]) && mTokenizer[mIndex+2]->text=='(') { //dont further check to speed up handleMethod(StatementKind::skDestructor, "", '~'+mTokenizer[mIndex+1]->text, mIndex+2, false, false, false, maxIndex); } else { //error mIndex=moveToEndOfStatement(mIndex,false, maxIndex); } } else if (mTokenizer[mIndex]->text=="::") { checkAndHandleMethodOrVar(KeywordType::None, maxIndex); } else if (!isIdentChar(mTokenizer[mIndex]->text[0])) { mIndex=moveToEndOfStatement(mIndex,true, maxIndex); } else if (checkForKeyword(keywordType)) { // includes template now handleKeyword(keywordType, maxIndex); } else if (keywordType==KeywordType::Concept) { handleConcept(maxIndex); } else if (keywordType==KeywordType::Requires) { skipRequires(maxIndex); } else if (keywordType==KeywordType::For || keywordType==KeywordType::Catch) { // (for/catch) handleForBlock(maxIndex); } else if (checkForAccessibilitySpecifiers(keywordType)) { // public /private/proteced handleAccessibilitySpecifiers(keywordType, maxIndex); } else if (keywordType==KeywordType::Enum) { handleEnum(false, maxIndex); } else if (keywordType==KeywordType::Typedef) { if (mIndex+1 < maxIndex) { if (checkForTypedefStruct(maxIndex)) { // typedef struct something mIndex++; // skip 'typedef' handleStructs(true, maxIndex); } else if (checkForTypedefEnum(maxIndex)) { // typedef enum something mIndex++; // skip 'typedef' handleEnum(true, maxIndex); } else handleOtherTypedefs(maxIndex); // typedef Foo Bar } else mIndex++; } else if (checkForNamespace(keywordType, maxIndex)) { handleNamespace(keywordType, maxIndex); } else if (checkForUsing(keywordType, maxIndex)) { handleUsing(maxIndex); } else if (checkForStructs(keywordType, maxIndex)) { handleStructs(false, maxIndex); } else if (keywordType == KeywordType::Inline) { mIndex++; }else { // it should be method/constructor/var checkAndHandleMethodOrVar(keywordType, maxIndex); } //Q_ASSERT(mIndex<999999); return mIndex < maxIndex; } void CppParser::handleStructs(bool isTypedef, int maxIndex) { bool isFriend = false; QString prefix = mTokenizer[mIndex]->text; if (prefix == "friend") { isFriend = true; mIndex++; } // Check if were dealing with a struct or union prefix = mTokenizer[mIndex]->text; bool isStruct = ("class" != prefix); //struct/union int startLine = mTokenizer[mIndex]->line; mIndex++; //skip struct/class/union if (mIndex>=maxIndex) return; // Do not modifiy index int i=indexOfNextSemicolonOrLeftBrace(mIndex, maxIndex); if (i >= maxIndex) { //error mIndex=i; return; } // Forward class/struct decl *or* typedef, e.g. typedef struct some_struct synonym1, synonym2; if (mTokenizer[i]->text == ";") { // typdef struct Foo Bar if (isTypedef) { QString structTypeName = mTokenizer[mIndex]->text; QString tempType = ""; mIndex++; // skip struct/class name while(mIndex+1 < maxIndex) { // Add definition statement for the synonym if ( (mTokenizer[mIndex + 1]->text=="," || mTokenizer[mIndex + 1]->text==";")) { QString newType = mTokenizer[mIndex]->text; QString suffix,tempArgs; parseCommandTypeAndArgs(newType,suffix,tempArgs); addStatement( getCurrentScope(), mCurrentFile, structTypeName + " "+ tempType + " " + suffix, newType, tempArgs, // args "", // noname args "", // values mTokenizer[mIndex]->line, StatementKind::skTypedef, getScope(), mCurrentMemberAccessibility, StatementProperty::spHasDefinition); tempType=""; mIndex++; //skip , ; if (mTokenizer[mIndex]->text.front() == ';') break; } else tempType+= mTokenizer[mIndex]->text; mIndex++; } } else { if (isFriend) { // friend class PStatement parentStatement = getCurrentScope(); if (parentStatement) { parentStatement->friends.insert(mTokenizer[mIndex]->text); } } else { // todo: Forward declaration, struct Foo. Don't mention in class browser } i++; // step over ; mIndex = i; } // normal class/struct decl } else { PStatement firstSynonym; // Add class/struct name BEFORE opening brace if (mTokenizer[mIndex]->text != "{") { while(mIndex < maxIndex) { if (mTokenizer[mIndex]->text == ":" || mTokenizer[mIndex]->text == "{" || mTokenizer[mIndex]->text == ";") { break; } else if ((mIndex + 1 < maxIndex) && (mTokenizer[mIndex + 1]->text == "," || mTokenizer[mIndex + 1]->text == ";" || mTokenizer[mIndex + 1]->text == "{" || mTokenizer[mIndex + 1]->text == ":")) { QString command = mTokenizer[mIndex]->text; PStatement scopeStatement=getCurrentScope(); QString scopelessName; QString parentName; if (splitLastMember(command,scopelessName,parentName)) { scopeStatement = getIncompleteClass(parentName,getCurrentScope()); } else { scopelessName=command; } if (!command.isEmpty()) { firstSynonym = addStatement( scopeStatement, mCurrentFile, prefix, // type scopelessName, // command "", // args "", // no name args, "", // values mTokenizer[mIndex]->line, //startLine, StatementKind::skClass, getScope(), mCurrentMemberAccessibility, StatementProperty::spHasDefinition); command = ""; } mIndex++; break; } else if ((mIndex + 2 < maxIndex) && (mTokenizer[mIndex + 1]->text == "final") && (mTokenizer[mIndex + 2]->text=="," || mTokenizer[mIndex + 2]->text==":" || isblockChar(mTokenizer[mIndex + 2]->text.front()))) { QString command = mTokenizer[mIndex]->text; if (!command.isEmpty()) { firstSynonym = addStatement( getCurrentScope(), mCurrentFile, prefix, // type command, // command "", // args "", // no name args "", // values mTokenizer[mIndex]->line, //startLine, StatementKind::skClass, getScope(), mCurrentMemberAccessibility, StatementProperty::spHasDefinition); command=""; } mIndex+=2; break; } else mIndex++; } } // Walk to opening brace if we encountered inheritance statements if ((mIndex < maxIndex) && (mTokenizer[mIndex]->text == ":")) { if (firstSynonym) setInheritance(mIndex, firstSynonym, isStruct, maxIndex); // set the _InheritanceList value mIndex=indexOfNextLeftBrace(mIndex, maxIndex); } // Check for struct/class synonyms after close brace // Walk to closing brace i = indexOfMatchingBrace(mIndex); // step onto closing brace if ((i + 1 < maxIndex) && !( mTokenizer[i + 1]->text.front() == ';' || mTokenizer[i + 1]->text.front() == '}')) { // When encountering names again after struct body scanning, skip it QString command = ""; QString args = ""; // Add synonym before opening brace while(true) { i++; if (mTokenizer[i]->text=='(' || mTokenizer[i]->text==')') { //skip } else if (!(mTokenizer[i]->text == '{' || mTokenizer[i]->text == ',' || mTokenizer[i]->text == ';')) { if (mTokenizer[i]->text.endsWith(']')) { // cut-off array brackets int pos = mTokenizer[i]->text.indexOf('['); command += mTokenizer[i]->text.mid(0,pos) + ' '; args = mTokenizer[i]->text.mid(pos); } else if (mTokenizer[i]->text == "*" || mTokenizer[i]->text == "&") { // do not add spaces after pointer operator command += mTokenizer[i]->text; } else { command += mTokenizer[i]->text + ' '; } } else { command = command.trimmed(); QString suffix,tempArgs; parseCommandTypeAndArgs(command,suffix,tempArgs); if (!command.isEmpty() && ( !firstSynonym || command!=firstSynonym->command )) { //not define the struct yet, we define a unamed struct if (!firstSynonym) { firstSynonym = addStatement( getCurrentScope(), mCurrentFile, prefix, "___dummy___"+command, "", "", "", mTokenizer[i]->line, //startLine, StatementKind::skClass, getScope(), mCurrentMemberAccessibility, StatementProperty::spHasDefinition | StatementProperty::spDummyStatement); } if (isTypedef) { //typedef addStatement( getCurrentScope(), mCurrentFile, firstSynonym->command+suffix, command, args+tempArgs, "", "", mTokenizer[mIndex]->line, StatementKind::skTypedef, getScope(), mCurrentMemberAccessibility, StatementProperty::spHasDefinition); // typedef } else { //variable define addStatement( getCurrentScope(), mCurrentFile, firstSynonym->command+suffix, command, args+tempArgs, "", "", mTokenizer[i]->line, StatementKind::skVariable, getScope(), mCurrentMemberAccessibility, StatementProperty::spHasDefinition); // TODO: not supported to pass list } } command = ""; } if (i >= maxIndex - 1) break; if (mTokenizer[i]->text=='{' || mTokenizer[i]->text== ';') break; } // Nothing worth mentioning after closing brace // Proceed to set first synonym as current class } if (!firstSynonym) { PStatement scope = getCurrentScope(); if (scope && scope->kind == StatementKind::skClass && mIndextext=="{") { //C11 anonymous union/struct addSoloScopeLevel(scope, mTokenizer[mIndex]->line); //skip { mIndex++; return; } else { //anonymous union/struct/class, add as a block firstSynonym=addStatement( getCurrentScope(), mCurrentFile, "", "", "", "", "", mTokenizer[mIndex]->line, StatementKind::skBlock, getScope(), mCurrentMemberAccessibility, StatementProperty::spHasDefinition); } } if (mIndex < maxIndex) addSoloScopeLevel(firstSynonym,mTokenizer[mIndex]->line); else addSoloScopeLevel(firstSynonym,startLine); // Step over { if ((mIndex < maxIndex) && (mTokenizer[mIndex]->text == "{")) mIndex++; } } void CppParser::handleUsing(int maxIndex) { int startLine = mTokenizer[mIndex]->line; if (mCurrentFile.isEmpty()) { //skip pass next ; mIndex=indexOfNextSemicolon(mIndex, maxIndex)+1; return; } mIndex++; //skip 'using' //handle things like 'using vec = std::vector; ' if (mIndex+1 < maxIndex && mTokenizer[mIndex+1]->text == "=") { QString fullName = mTokenizer[mIndex]->text; QString aliasName; mIndex+=2; while (mIndextext!=';') { aliasName += mTokenizer[mIndex]->text; mIndex++; } addStatement( getCurrentScope(), mCurrentFile, aliasName, // name of the alias (type) fullName, // command "", // args "", // noname args "", // values startLine, StatementKind::skTypedef, getScope(), mCurrentMemberAccessibility, StatementProperty::spHasDefinition); // skip ; mIndex++; return; } //handle things like 'using std::vector;' if ((mIndex+2>=maxIndex) || (mTokenizer[mIndex]->text != "namespace")) { QString fullName; QString usingName; bool appendUsingName = false; while (mIndextext!=';') { fullName += mTokenizer[mIndex]->text; if (!appendUsingName) { usingName = mTokenizer[mIndex]->text; if (usingName == "operator") { appendUsingName=true; } } else { usingName += mTokenizer[mIndex]->text; } mIndex++; } if (fullName!=usingName) { addStatement( getCurrentScope(), mCurrentFile, fullName, // name of the alias (type) usingName, // command "", // args "", // noname args "", // values startLine, StatementKind::skAlias, getScope(), mCurrentMemberAccessibility, StatementProperty::spHasDefinition); } //skip ; mIndex++; return; } mIndex++; // skip 'namespace' PStatement scopeStatement = getCurrentScope(); QString usingName; while (mIndextext!=';') { usingName += mTokenizer[mIndex]->text; mIndex++; } if (scopeStatement) { QString fullName = calcFullname(scopeStatement->fullName, usingName); if (!mNamespaces.contains(fullName)) { fullName = usingName; } if (mNamespaces.contains(fullName)) { scopeStatement->usingList.insert(fullName); } } else { PFileIncludes fileInfo = mPreprocessor.findFileIncludes(mCurrentFile); if (!fileInfo) return; if (mNamespaces.contains(usingName)) { fileInfo->usings.insert(usingName); } } //skip ; mIndex++; } void CppParser::handleVar(const QString& typePrefix,bool isExtern,bool isStatic, int maxIndex) { QString lastType; if (typePrefix=="extern") { isExtern=true; } else if (typePrefix=="static") { isStatic=true; } else { if (typePrefix.back()==':') return; lastType=typePrefix.trimmed(); } PStatement addedVar; QString tempType; while (lastType.endsWith("*") || lastType.endsWith("&")) { tempType = (lastType.back()+tempType); lastType.truncate(lastType.length()-2); } while(mIndextext[0].unicode()) { case ':': if (mTokenizer[mIndex]->text.length()>1) { //handle '::' tempType+=mTokenizer[mIndex]->text; mIndex++; } else { // Skip bit identifiers, // e.g.: // handle // unsigned short bAppReturnCode:8,reserved:6,fBusy:1,fAck:1 // as // unsigned short bAppReturnCode,reserved,fBusy,fAck if (mIndex+1text.front()) && (isIdentChar(mTokenizer[mIndex+1]->text.back()) || isDigitChar(mTokenizer[mIndex+1]->text.back())) && addedVar && !(addedVar->properties & StatementProperty::spFunctionPointer) && AutoTypes.contains(addedVar->type)) { //handle e.g.: for(auto x:vec) int endIndex = indexOfNextRightParenthesis(mIndex+1, maxIndex); QString expressionText; for (int i=mIndex+1;itext; } QStringList phraseExpression = splitExpression(expressionText); int pos = 0; PEvalStatement aliasStatement = doEvalExpression(mCurrentFile, phraseExpression, pos, getCurrentScope(), PEvalStatement(), true,false); if(aliasStatement && aliasStatement->effectiveTypeStatement) { if (STLMaps.contains(aliasStatement->effectiveTypeStatement->fullName)) { addedVar->type = "std::pair"+aliasStatement->templateParams; } else if (STLContainers.contains(aliasStatement->effectiveTypeStatement->fullName)){ QString type=doFindFirstTemplateParamOf(mCurrentFile,aliasStatement->templateParams, getCurrentScope()); if (!type.isEmpty()) addedVar->type = type; } } mIndex=endIndex; } addedVar.reset(); bool should_exit=false; while (mIndex < maxIndex) { switch(mTokenizer[mIndex]->text[0].unicode()) { case ',': case ';': case '=': should_exit = true; break; case ')': mIndex++; return; case '(': mIndex=mTokenizer[mIndex]->matchIndex+1; break; default: mIndex++; } if (should_exit) break; } } break; case ';': mIndex++; return; case '=': if (mIndex+1text!="{" && addedVar && !(addedVar->properties & StatementProperty::spFunctionPointer) && AutoTypes.contains(addedVar->type)) { //handle e.g.: auto x=blahblah; int pos = 0; int endIndex = skipAssignment(mIndex, maxIndex); QString expressionText; for (int i=mIndex+1;itext); } QStringList phraseExpression = splitExpression(expressionText); PEvalStatement aliasStatement = doEvalExpression(mCurrentFile, phraseExpression, pos, getCurrentScope(), PEvalStatement(), true,false); if(aliasStatement) { if (aliasStatement->effectiveTypeStatement) { addedVar->type = aliasStatement->effectiveTypeStatement->fullName; if (!addedVar->type.endsWith(">")) addedVar->type += aliasStatement->templateParams; if (aliasStatement->typeStatement && STLIterators.contains(aliasStatement->typeStatement->command) && !aliasStatement->templateParams.isEmpty()) { PStatement parentStatement = aliasStatement->typeStatement->parentScope.lock(); if (parentStatement && STLContainers.contains(parentStatement->fullName)) { addedVar->type = parentStatement->fullName+aliasStatement->templateParams+"::"+aliasStatement->typeStatement->command; } else if (parentStatement && STLMaps.contains(parentStatement->fullName)) { addedVar->type = parentStatement->fullName+aliasStatement->templateParams+"::"+aliasStatement->typeStatement->command; } } } else addedVar->type = aliasStatement->baseType + aliasStatement->templateParams; if (aliasStatement->pointerLevel>0) addedVar->type += QString(aliasStatement->pointerLevel,'*'); } mIndex = endIndex; } else mIndex = skipAssignment(mIndex, maxIndex); addedVar.reset(); break; case '*': case '&': tempType+=mTokenizer[mIndex]->text; mIndex++; break; case '(': if (mTokenizer[mIndex]->matchIndex+1matchIndex+1]->text=='(') { //function pointer QString cmd = findFunctionPointerName(mIndex); int argStart=mTokenizer[mIndex]->matchIndex+1; int argEnd=mTokenizer[argStart]->matchIndex; if (!cmd.isEmpty()) { QString type=lastType; if(type.endsWith("::")) type+=tempType.trimmed(); else type+=" "+tempType.trimmed(); addChildStatement( getCurrentScope(), mCurrentFile, type.trimmed(), cmd, mergeArgs(argStart,argEnd), "", "", mTokenizer[mIndex]->line, StatementKind::skVariable, getScope(), mCurrentMemberAccessibility, //True, (isExtern?StatementProperty::spNone:StatementProperty::spHasDefinition) | (isStatic?StatementProperty::spStatic:StatementProperty::spNone) | StatementProperty::spFunctionPointer); } addedVar.reset(); tempType=""; mIndex=indexOfNextPeriodOrSemicolon(argEnd+1, maxIndex); break; } //not function pointer, fall through case '{': tempType=""; if (mIndex+1text) && addedVar && !(addedVar->properties & StatementProperty::spFunctionPointer) && AutoTypes.contains(addedVar->type)) { int pos = 0; int endIndex = mTokenizer[mIndex]->matchIndex; QString expressionText; for (int i=mIndex+1;itext); } QStringList phraseExpression = splitExpression(expressionText); PEvalStatement aliasStatement = doEvalExpression(mCurrentFile, phraseExpression, pos, getCurrentScope(), PEvalStatement(), true,false); if(aliasStatement && aliasStatement->effectiveTypeStatement) { if (aliasStatement->effectiveTypeStatement) { addedVar->type = aliasStatement->effectiveTypeStatement->fullName; if (!addedVar->type.endsWith(">")) addedVar->type += aliasStatement->templateParams; if (aliasStatement->typeStatement && STLIterators.contains(aliasStatement->typeStatement->command)) { PStatement parentStatement = aliasStatement->typeStatement->parentScope.lock(); if (parentStatement && STLContainers.contains(parentStatement->fullName)) { addedVar->type = parentStatement->fullName+aliasStatement->templateParams+"::"+aliasStatement->typeStatement->command; } else if (parentStatement && STLMaps.contains(parentStatement->fullName)) { addedVar->type = parentStatement->fullName+aliasStatement->templateParams+"::"+aliasStatement->typeStatement->command; } } } else addedVar->type = aliasStatement->baseType + aliasStatement->templateParams; if (aliasStatement->pointerLevel>0) addedVar->type += QString(aliasStatement->pointerLevel,'*'); } } mIndex=mTokenizer[mIndex]->matchIndex+1; addedVar.reset(); break; default: if (isIdentChar(mTokenizer[mIndex]->text[0])) { QString cmd=mTokenizer[mIndex]->text; //normal var if (cmd=="const") { if (tempType.isEmpty()) { tempType = cmd; } else if (tempType.endsWith("*")) { tempType+=cmd; } else { tempType+=" "+cmd; } } else { QString suffix; QString args; cmd=mTokenizer[mIndex]->text; parseCommandTypeAndArgs(cmd,suffix,args); if (!cmd.isEmpty() && !isKeyword(cmd)) { addedVar = addChildStatement( getCurrentScope(), mCurrentFile, (lastType+' '+tempType+suffix).trimmed(), cmd, args, "", "", mTokenizer[mIndex]->line, StatementKind::skVariable, getScope(), mCurrentMemberAccessibility, //True, (isExtern?StatementProperty::spNone:StatementProperty::spHasDefinition) | (isStatic?StatementProperty::spStatic:StatementProperty::spNone)); tempType=""; } } mIndex++; } else { tempType=""; mIndex++; } } } // Skip ; mIndex++; } void CppParser::handleInheritance(PStatement derivedStatement, PClassInheritanceInfo inheritanceInfo) { if (inheritanceInfo->handled) return; PStatement statement = doFindStatementOf( inheritanceInfo->file, inheritanceInfo->parentClassName, inheritanceInfo->isGlobal?PStatement():derivedStatement->parentScope.lock()); if (statement && statement->kind == StatementKind::skClass) { inheritClassStatement(derivedStatement, inheritanceInfo->isStruct, statement, inheritanceInfo->visibility); // inheritanceInfo->parentClassFilename = statement->fileName; inheritanceInfo->handled = true; PFileIncludes fileIncludes = mPreprocessor.findFileIncludes(statement->fileName); Q_ASSERT(fileIncludes!=nullptr); fileIncludes->handledInheritances.append(inheritanceInfo); } } void CppParser::handleInheritances() { for (int i=mClassInheritances.length()-1;i>=0;i--) { PClassInheritanceInfo inheritanceInfo = mClassInheritances[i]; PStatement derivedStatement = inheritanceInfo->derivedClass.lock(); if (!derivedStatement) { //the derived class is invalid, remove it if (itext=='(') { //skip parenthesized expression mIndex = mTokenizer[mIndex]->matchIndex+1; } else if (isIdentifier(mTokenizer[mIndex]->text)) { // skip foo or foo::boo::ttt while (mIndex < maxIndex) { if (!isIdentifier(mTokenizer[mIndex]->text)) return; mIndex++; if (mIndex>=maxIndex) return; if (mTokenizer[mIndex]->text!="::") break; mIndex++; // skip '::'; } } if (mIndex+1>=maxIndex) return; if (mTokenizer[mIndex]->text!="&" || mTokenizer[mIndex+1]->text!="&") break; mIndex+=2; // skip '&&'; } if (mIndex+1>=maxIndex) return; if (mTokenizer[mIndex]->text!="|" || mTokenizer[mIndex+1]->text!="|") break; mIndex+=2; // skip '||'; } } void CppParser::internalParse(const QString &fileName) { // Perform some validation before we start if (!mEnabled) return; // if (!isCfile(fileName) && !isHfile(fileName)) // support only known C/C++ files // return; //QElapsedTimer timer; // Preprocess the file... auto action = finally([this]{ mTokenizer.clear(); }); //timer.start(); // Let the preprocessor augment the include records mPreprocessor.setScanOptions(mParseGlobalHeaders, mParseLocalHeaders); mPreprocessor.preprocess(fileName); QStringList preprocessResult = mPreprocessor.result(); #ifdef QT_DEBUG // stringsToFile(mPreprocessor.result(),QString("r:\\preprocess-%1.txt").arg(extractFileName(fileName))); // mPreprocessor.dumpDefinesTo("r:\\defines.txt"); // mPreprocessor.dumpIncludesListTo("r:\\includes.txt"); #endif //qDebug()<<"preprocess"<children) { if (statement->accessibility == StatementAccessibility::Private || statement->kind == StatementKind::skConstructor || statement->kind == StatementKind::skDestructor) continue; if (derived->children.contains(statement->command)) continue; StatementAccessibility m_acc; switch(access) { case StatementAccessibility::Public: m_acc = statement->accessibility; break; case StatementAccessibility::Protected: m_acc = StatementAccessibility::Protected; break; case StatementAccessibility::Private: m_acc = StatementAccessibility::Private; break; default: m_acc = StatementAccessibility::Private; } //inherit addInheritedStatement(derived,statement,m_acc); } } QList CppParser::getListOfFunctions(const QString &fileName, int line, const PStatement &statement, const PStatement &scopeStatement) const { QList result; StatementMap children = mStatementList.childrenStatements(scopeStatement); QSet includedFiles = internalGetIncludedFiles(fileName); for (const PStatement& child:children) { if (statement->command == child->command) { if (child->kind == StatementKind::skAlias) continue; if (!includedFiles.contains(fileName)) continue; if (line < child->line && (child->fileName == fileName)) continue; result.append(child); } } return result; } PStatement CppParser::findMacro(const QString &phrase, const QString &fileName) const { const StatementMap& statementMap =mStatementList.childrenStatements(nullptr); if (statementMap.isEmpty()) return PStatement(); StatementList statements = statementMap.values(phrase); PFileIncludes includes = mPreprocessor.findFileIncludes(fileName); foreach (const PStatement& s, statements) { if (s->kind == StatementKind::skPreprocessor) { if (includes && fileName != s->fileName && !includes->includeFiles.contains(s->fileName)) continue; return s; } } return PStatement(); } PStatement CppParser::findMemberOfStatement(const QString &phrase, const PStatement& scopeStatement) const { const StatementMap& statementMap =mStatementList.childrenStatements(scopeStatement); if (statementMap.isEmpty()) return PStatement(); QString s = phrase; //remove [] int p = phrase.indexOf('['); if (p>=0) s.truncate(p); //remove () p = phrase.indexOf('('); if (p>=0) s.truncate(p); //remove <> p =s.indexOf('<'); if (p>=0) s.truncate(p); return statementMap.value(s,PStatement()); } PStatement CppParser::findMemberOfStatement(const QString& filename, const QString &phrase, const PStatement& scopeStatement) const { const StatementMap& statementMap =mStatementList.childrenStatements(scopeStatement); if (statementMap.isEmpty()) return PStatement(); QString s = phrase; //remove [] int p = phrase.indexOf('['); if (p>=0) s.truncate(p); //remove () p = phrase.indexOf('('); if (p>=0) s.truncate(p); //remove <> p =s.indexOf('<'); if (p>=0) s.truncate(p); if (scopeStatement) { return statementMap.value(s,PStatement()); } else { QList stats = statementMap.values(s); PFileIncludes fileIncludes = mPreprocessor.findFileIncludes(filename); foreach(const PStatement &s,stats) { if (s->line==-1) { return s; // hard defines } if (s->fileName == filename || s->definitionFileName==filename) { return s; } else if (fileIncludes && (fileIncludes->includeFiles.contains(s->fileName) || fileIncludes->includeFiles.contains(s->definitionFileName))) { return s; } } return PStatement(); } } QList CppParser::findMembersOfStatement(const QString &phrase, const PStatement &scopeStatement) const { const StatementMap& statementMap =mStatementList.childrenStatements(scopeStatement); if (statementMap.isEmpty()) return QList(); QString s = phrase; //remove [] int p = phrase.indexOf('['); if (p>=0) s.truncate(p); //remove () p = phrase.indexOf('('); if (p>=0) s.truncate(p); //remove <> p =s.indexOf('<'); if (p>=0) s.truncate(p); return statementMap.values(s); } PStatement CppParser::findStatementInScope(const QString &name, const QString &noNameArgs, StatementKind kind, const PStatement& scope) const { if (scope && scope->kind == StatementKind::skNamespace) { PStatementList namespaceStatementsList = doFindNamespace(scope->command); if (!namespaceStatementsList) return PStatement(); foreach (const PStatement& namespaceStatement, *namespaceStatementsList) { PStatement result=doFindStatementInScope(name,noNameArgs,kind,namespaceStatement); if (result) return result; } } else { return doFindStatementInScope(name,noNameArgs,kind,scope); } return PStatement(); } PStatement CppParser::findStatementInScope(const QString &name, const PStatement &scope) const { if (!scope) return findMemberOfStatement(name,scope); if (scope->kind == StatementKind::skNamespace) { return findStatementInNamespace(name, scope->fullName); } else { return findMemberOfStatement(name,scope); } } PStatement CppParser::findStatementInNamespace(const QString &name, const QString &namespaceName) const { PStatementList namespaceStatementsList=doFindNamespace(namespaceName); if (!namespaceStatementsList) return PStatement(); foreach (const PStatement& namespaceStatement,*namespaceStatementsList) { PStatement result = findMemberOfStatement(name,namespaceStatement); if (result) return result; } return PStatement(); } PEvalStatement CppParser::doEvalExpression(const QString& fileName, QStringList phraseExpression, int &pos, const PStatement& scope, const PEvalStatement& previousResult, bool freeScoped, bool expandMacros) const { if (expandMacros) { QList> usedMacros; usedMacros.reserve(phraseExpression.length()); for(int i=0;i()); } int i=pos; while(i used = usedMacros[i]; if (!used.contains(word)) { PStatement macro = findMacro(word, fileName); if (macro) { if(!expandMacro(phraseExpression, i, macro, usedMacros)) continue; } } } i++; } } return doEvalPointerArithmetic(fileName, phraseExpression, pos, scope, previousResult, freeScoped); } PEvalStatement CppParser::doEvalPointerArithmetic(const QString &fileName, const QStringList &phraseExpression, int &pos, const PStatement &scope, const PEvalStatement &previousResult, bool freeScoped) const { if (pos>=phraseExpression.length()) return PEvalStatement(); //find the start scope statement PEvalStatement currentResult = doEvalPointerToMembers( fileName, phraseExpression, pos, scope, previousResult, freeScoped); while (pos < phraseExpression.length()) { if (!currentResult) break; if (currentResult && (phraseExpression[pos]=="+" || phraseExpression[pos]=="-")) { if (currentResult->kind == EvalStatementKind::Variable) { pos++; PEvalStatement op2=doEvalPointerToMembers( fileName, phraseExpression, pos, scope, currentResult, false); //todo operator+/- overload } else if (currentResult->kind == EvalStatementKind::Literal && currentResult->baseType == "int") { pos++; PEvalStatement op2=doEvalPointerToMembers( fileName, phraseExpression, pos, scope, currentResult, false); currentResult = op2; } else break; } else break; } // qDebug()<=phraseExpression.length()) return PEvalStatement(); //find the start scope statement PEvalStatement currentResult = doEvalCCast( fileName, phraseExpression, pos, scope, previousResult, freeScoped); while (pos < phraseExpression.length()) { if (!currentResult) break; if (currentResult && (currentResult->kind == EvalStatementKind::Variable) && (phraseExpression[pos]==".*" || phraseExpression[pos]=="->*")) { pos++; currentResult = doEvalCCast( fileName, phraseExpression, pos, scope, currentResult, false); if (currentResult) { currentResult->pointerLevel++; } } else break; } // qDebug()<=phraseExpression.length()) return PEvalStatement(); PEvalStatement result; if (phraseExpression[pos]=="*") { pos++; //skip "*" result = doEvalCCast( fileName, phraseExpression, pos, scope, previousResult, freeScoped); if (result) { //todo: STL container; if (result->pointerLevel==0) { //STL smart pointers if (result->typeStatement && STLIterators.contains(result->typeStatement->command) ) { PStatement parentScope = result->typeStatement->parentScope.lock(); if (STLContainers.contains(parentScope->fullName)) { QString typeName=doFindFirstTemplateParamOf(fileName,result->templateParams, parentScope); // qDebug()<<"typeName"<baseStatement->type<baseStatement->command; PStatement typeStatement=doFindTypeDefinitionOf(fileName, typeName,parentScope); if (typeStatement) { result = doCreateTypedEvalVar(fileName,typeName,parentScope, result->baseStatement); } else { result = PEvalStatement(); } } else if (STLMaps.contains(parentScope->fullName)) { QString typeName=doFindTemplateParamOf(fileName,result->templateParams,1,parentScope); // qDebug()<<"typeName"<baseStatement->type<baseStatement->command; PStatement typeStatement=doFindTypeDefinitionOf(fileName, typeName,parentScope); if (typeStatement) { result = doCreateTypedEvalVar(fileName,typeName,parentScope,result->baseStatement); } else { result = PEvalStatement(); } } } else { PStatement typeStatement = result->effectiveTypeStatement; if ((typeStatement) && STLPointers.contains(typeStatement->fullName) && result->kind == EvalStatementKind::Variable && result->baseStatement) { PStatement parentScope = result->baseStatement->parentScope.lock(); QString typeName; if (!previousResult || previousResult->definitionString.isEmpty()) typeName = doFindFirstTemplateParamOf(fileName,result->baseStatement->type, parentScope); else typeName = doFindFirstTemplateParamOf(fileName,previousResult->definitionString,parentScope); // qDebug()<<"typeName"<baseStatement); } else { result = PEvalStatement(); } } } } else result->pointerLevel--; } } else if (phraseExpression[pos]=="&") { pos++; //skip "&" result = doEvalCCast( fileName, phraseExpression, pos, scope, previousResult, freeScoped); if (result) { result->pointerLevel++; } } else if (phraseExpression[pos]=="++" || phraseExpression[pos]=="--") { pos++; //skip "++" or "--" result = doEvalCCast( fileName, phraseExpression, pos, scope, previousResult, freeScoped); } else if (phraseExpression[pos]=="(") { //parse int startPos = pos; pos++; // qDebug()<<"parse type cast ()"; PEvalStatement evalType = doEvalExpression( fileName, phraseExpression, pos, scope, PEvalStatement(), true, false); // qDebug()<= phraseExpression.length() || phraseExpression[pos]!=")") { return PEvalStatement(); } else if (evalType && (evalType->kind == EvalStatementKind::Type)) { pos++; // skip ")" // qDebug()<<"parse type cast exp"; //it's a type cast result = doEvalCCast(fileName, phraseExpression, pos, scope, previousResult, freeScoped); if (result) { // qDebug()<<"type cast"; result->assignType(evalType); } } else //it's not a type cast result = doEvalMemberAccess( fileName, phraseExpression, startPos, //we must reparse it scope, previousResult, freeScoped); } else result = doEvalMemberAccess( fileName, phraseExpression, pos, scope, previousResult, freeScoped); // if (result) { // qDebug()<kind<baseType; // } else { // qDebug()<<"!!!!!!!!!!!not found"; // } return result; } PEvalStatement CppParser::doEvalMemberAccess(const QString &fileName, const QStringList &phraseExpression, int &pos, const PStatement& scope, const PEvalStatement& previousResult, bool freeScoped) const { // qDebug()<<"eval member access "<=phraseExpression.length()) return result; PEvalStatement lastResult = previousResult; result = doEvalScopeResolution( fileName, phraseExpression, pos, scope, previousResult, freeScoped); if (!result) return PEvalStatement(); while (poskind == EvalStatementKind::Type) { pos++; // skip "(" PEvalStatement newResult = doEvalExpression( fileName, phraseExpression, pos, scope, PEvalStatement(), true, false); if (newResult) newResult->assignType(result); pos++; // skip ")" result = newResult; } else if (result->kind == EvalStatementKind::Function) { doSkipInExpression(phraseExpression,pos,"(",")"); // qDebug()<<"????"<<(result->baseStatement!=nullptr)<<(lastResult!=nullptr); if (result->baseStatement && lastResult) { PStatement parentScope = result->baseStatement->parentScope.lock(); if (parentScope && STLElementMethods.contains(result->baseStatement->command) ) { if (STLContainers.contains(parentScope->fullName)) { //stl container methods PStatement typeStatement = result->effectiveTypeStatement; QString typeName; if (!lastResult->definitionString.isEmpty()) typeName = doFindFirstTemplateParamOf(fileName,lastResult->definitionString,parentScope); else if (lastResult->baseStatement) typeName = doFindFirstTemplateParamOf(fileName,lastResult->baseStatement->type, parentScope); // qDebug()<<"typeName"<baseStatement->type<baseStatement->command; if (!typeName.isEmpty()) typeStatement=doFindTypeDefinitionOf(fileName, typeName,parentScope); if (typeStatement) { result = doCreateTypedEvalVar(fileName,typeName,parentScope,result->baseStatement); lastResult = result; } else { return PEvalStatement(); } } else if (STLMaps.contains(parentScope->fullName)) { //stl map methods PStatement typeStatement = result->effectiveTypeStatement; QString typeName; if (!lastResult->definitionString.isEmpty()) typeName = doFindTemplateParamOf(fileName,lastResult->definitionString,1,parentScope); else if (lastResult->baseStatement) typeName = doFindTemplateParamOf(fileName,lastResult->baseStatement->type,1, parentScope); // qDebug()<<"typeName"<baseStatement->type<baseStatement->command; if (!typeName.isEmpty()) typeStatement=doFindTypeDefinitionOf(fileName, typeName,parentScope); if (typeStatement) { result = doCreateTypedEvalVar(fileName,typeName,parentScope,result->baseStatement); lastResult = result; } else { return PEvalStatement(); } } } } // qDebug()<<"baseType:"<baseType; // if (result->baseStatement) // qDebug()<<"baseStatement"<baseStatement->fullName; // if (result->typeStatement) // qDebug()<<"typeStatement"<typeStatement->fullName; // if (result->effectiveTypeStatement) // qDebug()<<"typeStatement"<effectiveTypeStatement->fullName; result->kind = EvalStatementKind::Variable; } else result = PEvalStatement(); } else if (phraseExpression[pos] == "[") { //skip to "]" doSkipInExpression(phraseExpression,pos,"[","]"); if (result->pointerLevel>0) result->pointerLevel--; else { PStatement typeStatement = result->effectiveTypeStatement; if (typeStatement && result->kind == EvalStatementKind::Variable && result->baseStatement) { if (STLContainers.contains(typeStatement->fullName)) { PStatement parentScope = result->baseStatement->parentScope.lock(); QString typeName; if (!lastResult || lastResult->definitionString.isEmpty()) typeName = doFindFirstTemplateParamOf(fileName,result->baseStatement->type, parentScope); else typeName = doFindFirstTemplateParamOf(fileName,lastResult->definitionString,parentScope); typeStatement = doFindTypeDefinitionOf(fileName, typeName, parentScope); if (typeStatement) { result = doCreateTypedEvalVar(fileName,typeName,parentScope,result->baseStatement); lastResult = result; } else { return PEvalStatement(); } } else if (STLMaps.contains(typeStatement->fullName)) { PStatement parentScope = result->baseStatement->parentScope.lock(); QString typeName; if (!lastResult || lastResult->definitionString.isEmpty()) typeName = doFindTemplateParamOf(fileName,result->baseStatement->type, 1,parentScope); else typeName = doFindTemplateParamOf(fileName,lastResult->definitionString,1,parentScope); typeStatement = doFindTypeDefinitionOf(fileName, typeName, parentScope); if (typeStatement) { result = doCreateTypedEvalVar(fileName,typeName,parentScope,result->baseStatement); lastResult = result; } else { return PEvalStatement(); } } } else { return PEvalStatement(); } } } else if (phraseExpression[pos] == ".") { pos++; lastResult = result; result = doEvalScopeResolution( fileName, phraseExpression, pos, scope, result, false); } else if (phraseExpression[pos] == "->") { pos++; if (result->pointerLevel==0) { // iterator if (result->typeStatement && STLIterators.contains(result->typeStatement->command) ) { PStatement parentScope = result->typeStatement->parentScope.lock(); if (STLContainers.contains(parentScope->fullName)) { QString typeName=doFindFirstTemplateParamOf(fileName,result->templateParams, parentScope); // qDebug()<<"typeName"<baseStatement->type<baseStatement->command; PStatement typeStatement=doFindTypeDefinitionOf(fileName, typeName,parentScope); if (typeStatement) { result = doCreateTypedEvalVar(fileName,typeName,parentScope,result->baseStatement); } else { result = PEvalStatement(); } } else if (STLMaps.contains(parentScope->fullName)) { QString typeName=doFindTemplateParamOf(fileName,result->templateParams,1,parentScope); // qDebug()<<"typeName"<baseStatement->type<baseStatement->command; PStatement typeStatement=doFindTypeDefinitionOf(fileName, typeName,parentScope); if (typeStatement) { result = doCreateTypedEvalVar(fileName,typeName,parentScope,result->baseStatement); } else { result = PEvalStatement(); } } } else { //smart pointer PStatement typeStatement = result->effectiveTypeStatement; if ((typeStatement) && STLPointers.contains(typeStatement->fullName) && result->kind == EvalStatementKind::Variable && result->baseStatement) { PStatement parentScope = result->baseStatement->parentScope.lock(); QString typeName; if (!previousResult || previousResult->definitionString.isEmpty()) typeName = doFindFirstTemplateParamOf(fileName,result->baseStatement->type, parentScope); else typeName = doFindFirstTemplateParamOf(fileName,previousResult->definitionString,parentScope); // qDebug()<<"typeName"<baseStatement); } else { return PEvalStatement(); } } } } else { result->pointerLevel--; } lastResult = result; result = doEvalScopeResolution( fileName, phraseExpression, pos, scope, result, false); } else break; } return result; } PEvalStatement CppParser::doEvalScopeResolution(const QString &fileName, const QStringList &phraseExpression, int &pos, const PStatement& scope, const PEvalStatement& previousResult, bool freeScoped) const { // qDebug()<<"eval scope res "<=phraseExpression.length()) return result; result = doEvalTerm( fileName, phraseExpression, pos, scope, previousResult, freeScoped); while (poskind == EvalStatementKind::Type) { //class static member result = doEvalTerm(fileName, phraseExpression, pos, scope, result, false); } else if (result->kind == EvalStatementKind::Namespace) { //namespace result = doEvalTerm(fileName, phraseExpression, pos, scope, result, false); } if (!result) break; } else break; } // qDebug()<baseType<=phraseExpression.length()) return result; // qDebug()<<"eval term"<= phraseExpression.length() || phraseExpression[pos]!=")") return PEvalStatement(); else { pos++; // skip ")"; return result; } } else { int pointerLevel = 0; //skip "struct", "const", "static", etc while(pos < phraseExpression.length()) { QString token = phraseExpression[pos]; if (token=="*") // for expression like (const * char)? pointerLevel++; else if (mCppTypeKeywords.contains(token) || !mCppKeywords.contains(token)) break; pos++; } if (pos>=phraseExpression.length() || phraseExpression[pos]==")") return result; if (mCppKeywords.contains(phraseExpression[pos])) { result = doCreateEvalType(phraseExpression[pos]); pos++; } else if (isIdentifier(phraseExpression[pos])) { PStatement statement; if (freeScoped) { if (!previousResult) { statement = findStatementStartingFrom( fileName, phraseExpression[pos], scope); } else { statement = findStatementStartingFrom( fileName, phraseExpression[pos], previousResult->effectiveTypeStatement); } } else { if (!previousResult) { statement = findStatementInScope(phraseExpression[pos],PStatement()); } else { statement = findStatementInScope(phraseExpression[pos],previousResult->effectiveTypeStatement); } // if (!statement) { // statement = findMacro( // phraseExpression[pos], // fileName); // } } pos++; if (statement && statement->kind == StatementKind::skConstructor) { statement = statement->parentScope.lock(); } while (statement && statement->kind == StatementKind::skAlias) { statement = doFindAliasedStatement(statement); } if (statement) { switch (statement->kind) { case StatementKind::skNamespace: result = doCreateEvalNamespace(statement); break; case StatementKind::skNamespaceAlias: result = doFindAliasedNamespace(statement); break; // case StatementKind::skAlias: { // statement = // if (statement) // result = doCreateEvalType(fileName,statement); // } // break; case StatementKind::skVariable: case StatementKind::skParameter: result = doCreateEvalVariable(fileName,statement, previousResult?previousResult->templateParams:"",scope); break; case StatementKind::skEnumType: case StatementKind::skClass: case StatementKind::skEnumClassType: case StatementKind::skTypedef: result = doCreateEvalType(fileName,statement); break; case StatementKind::skFunction: { if (statement->type=="auto") { PStatement scopeStatement = statement->parentScope.lock(); if (scopeStatement) { StatementMap children = mStatementList.childrenStatements(scopeStatement); QList lstFuncs = children.values(statement->command); for (const PStatement& func:lstFuncs) { if (func->type!="auto") statement=func; } } } result = doCreateEvalFunction(fileName,statement); } break; default: result = PEvalStatement(); } if (result && result->typeStatement && STLIterators.contains(result->typeStatement->command) && previousResult) { PStatement parentStatement = result->typeStatement->parentScope.lock(); if (parentStatement && STLContainers.contains(parentStatement->fullName)) { result->templateParams = previousResult->templateParams; } else if (parentStatement && STLMaps.contains(parentStatement->fullName)) { result->templateParams = previousResult->templateParams; } } } } else if (isIntegerLiteral(phraseExpression[pos])) { result = doCreateEvalLiteral("int"); pos++; } else if (isFloatLiteral(phraseExpression[pos])) { result = doCreateEvalLiteral("double"); pos++; } else if (isStringLiteral(phraseExpression[pos])) { result = doCreateEvalLiteral("char"); result->pointerLevel = 1; pos++; } else if (isCharLiteral(phraseExpression[pos])) { result = doCreateEvalLiteral("char"); pos++; } else return result; // if (result) { // qDebug()<<"term kind:"<<(int)result->kind; // } if (result && result->kind == EvalStatementKind::Type) { //skip "struct", "const", "static", etc while(pos < phraseExpression.length()) { QString token = phraseExpression[pos]; if (token=="*") // for expression like (const * char)? pointerLevel++; else if (mCppTypeKeywords.contains(token) || !mCppKeywords.contains(token)) break; pos++; } result->pointerLevel = pointerLevel; } } // qDebug()< > &usedMacros) const { QString s; QSet used = usedMacros[pos]; if (macro->args.isEmpty()) { s=macro->value; phraseExpression.removeAt(pos); usedMacros.removeAt(pos); } else { QString args=macro->args.mid(1,macro->args.length()-2).trimmed(); // remove '(' ')' if(args=="") return false; QStringList argList = args.split(','); QList argUsed; for (int i=0;i tokens = mPreprocessor.tokenizeValue(macro->value); QString formatStr = ""; DefineArgTokenType lastTokenType=DefineArgTokenType::Other; int index; foreach (const PDefineArgToken& token, tokens) { switch(token->type) { case DefineArgTokenType::Identifier: index = argList.indexOf(token->value); if (index>=0) { argUsed[index] = true; if (lastTokenType == DefineArgTokenType::Sharp) { formatStr+= "\"%"+QString("%1").arg(index+1)+"\""; break; } else { formatStr+= "%"+QString("%1").arg(index+1); break; } } formatStr += token->value; break; case DefineArgTokenType::DSharp: case DefineArgTokenType::Sharp: break; case DefineArgTokenType::Space: case DefineArgTokenType::Symbol: formatStr+=token->value; break; default: break; } lastTokenType = token->type; } QStringList values; int i; int level=1; QString current; for (i=pos+2;icommand); QSynedit::CppSyntaxer syntaxer; syntaxer.resetState(); syntaxer.setLine(s,0); while (!syntaxer.eol()) { QString token=syntaxer.getToken(); QSynedit::PTokenAttribute attr = syntaxer.getTokenAttribute(); switch(attr->tokenType()) { case QSynedit::TokenType::Space: case QSynedit::TokenType::Comment: break; case QSynedit::TokenType::Identifier: phraseExpression.insert(pos,token); usedMacros.insert(pos,used); pos++; break; default: phraseExpression.insert(pos,token); usedMacros.insert(pos,used); pos++; } syntaxer.next(); } return true; } PEvalStatement CppParser::doCreateEvalNamespace(const PStatement &namespaceStatement) const { if (!namespaceStatement) return PEvalStatement(); return std::make_shared( namespaceStatement->fullName, EvalStatementKind::Namespace, PStatement(), namespaceStatement, namespaceStatement); } PEvalStatement CppParser::doFindAliasedNamespace(const PStatement &namespaceAlias) const { QStringList expList; QString s = namespaceAlias->type; int pos = s.indexOf("::"); while (pos>=0) { expList.append(s.left(pos)); expList.append("::"); s = s.mid(pos+2); pos = s.indexOf("::"); } expList.append(s); pos=0; return doEvalExpression( namespaceAlias->fileName, expList, pos, namespaceAlias->parentScope.lock(), PEvalStatement(), true, false ); } PEvalStatement CppParser::doCreateEvalType(const QString &fileName, const QString &typeName, const PStatement& parentScope) const { QString baseType; PStatement typeStatement; int pointerLevel=0; QString templateParams; PStatement effectiveTypeStatement = doParseEvalTypeInfo( fileName, parentScope, typeName, baseType, typeStatement, pointerLevel, templateParams); return std::make_shared( baseType, EvalStatementKind::Type, PStatement(), typeStatement, effectiveTypeStatement, pointerLevel, templateParams ); } PEvalStatement CppParser::doCreateEvalType(const QString& fileName,const PStatement &typeStatement) const { if (!typeStatement) return PEvalStatement(); if (typeStatement->kind == StatementKind::skTypedef) { QString baseType; int pointerLevel=0; QString templateParams; PStatement tempStatement; PStatement effetiveTypeStatement = doParseEvalTypeInfo( fileName, typeStatement->parentScope.lock(), typeStatement->type + typeStatement->args, baseType, tempStatement, pointerLevel, templateParams); return std::make_shared( baseType, EvalStatementKind::Type, PStatement(), typeStatement, effetiveTypeStatement, pointerLevel, templateParams ); } else { return std::make_shared( typeStatement->fullName, EvalStatementKind::Type, typeStatement, typeStatement, typeStatement); } } PEvalStatement CppParser::doCreateEvalType(const QString &primitiveType) const { return std::make_shared( primitiveType, EvalStatementKind::Type, PStatement(), PStatement(), PStatement()); } PEvalStatement CppParser::doCreateTypedEvalVar(const QString &fileName, const QString &typeName, const PStatement &parentScope, const PStatement &baseStatement) const { PEvalStatement result = doCreateEvalType(fileName,typeName,parentScope); result->definitionString=typeName; result->kind = EvalStatementKind::Variable; result->baseStatement = baseStatement; return result; } PEvalStatement CppParser::doCreateEvalVariable( const QString &fileName, const PStatement& varStatement, const QString& baseTemplateParams, const PStatement& scope) const { if (!varStatement) return PEvalStatement(); QString baseType; int pointerLevel=0; QString templateParams; PStatement typeStatement; PStatement effectiveTypeStatement; //todo: ugly implementation for std::pair if (varStatement->fullName == "std::pair::first") { effectiveTypeStatement = doParseEvalTypeInfo( fileName, scope, doFindFirstTemplateParamOf(fileName,baseTemplateParams,scope), baseType, typeStatement, pointerLevel, templateParams); } else if (varStatement->fullName == "std::pair::second") { effectiveTypeStatement = doParseEvalTypeInfo( fileName, scope, doFindTemplateParamOf(fileName,baseTemplateParams,1,scope), baseType, typeStatement, pointerLevel, templateParams); } else { effectiveTypeStatement = doParseEvalTypeInfo( fileName, varStatement->parentScope.lock(), varStatement->type+varStatement->args, baseType, typeStatement, pointerLevel, templateParams); } // if (!varStatement->args.isEmpty()) { // int j = 0; // while ((j = varStatement->args.indexOf("[", j)) != -1) { // ++j; // pointerLevel++; // } // } // qDebug()<<"parse ..."<( baseType, EvalStatementKind::Variable, varStatement, typeStatement, effectiveTypeStatement, pointerLevel, templateParams ); } PEvalStatement CppParser::doCreateEvalFunction( const QString &fileName, const PStatement& funcStatement) const { if (!funcStatement) return PEvalStatement(); QString baseType; int pointerLevel=0; QString templateParams; PStatement typeStatement; PStatement effetiveTypeStatement = doParseEvalTypeInfo( fileName, funcStatement->parentScope.lock(), funcStatement->type, baseType, typeStatement, pointerLevel, templateParams); return std::make_shared( baseType, EvalStatementKind::Function, funcStatement, typeStatement, effetiveTypeStatement, pointerLevel, templateParams ); } PEvalStatement CppParser::doCreateEvalLiteral(const QString &type) const { return std::make_shared( type, EvalStatementKind::Literal, PStatement(), PStatement(), PStatement()); } void CppParser::doSkipInExpression(const QStringList &expression, int &pos, const QString &startSymbol, const QString &endSymbol) const { int level = 0; while (postext=="("); int i=startIdx+1; int endIdx = mTokenizer[startIdx]->matchIndex; while (itext[0])) { return mTokenizer[i]->text; } i++; } return QString(); } PStatement CppParser::doParseEvalTypeInfo( const QString &fileName, const PStatement &scope, const QString &type, QString &baseType, PStatement& typeStatement, int &pointerLevel, QString& templateParams) const { // Remove pointer stuff from type QString s = type; // qDebug()<<"eval type info"<tokenType() == QSynedit::TokenType::Identifier) { baseType += token; } else if (token == "[") { pointerLevel++; bracketLevel++; } else if (token == "<") { templateLevel++; templateParams += token; } else if (token == "::") { baseType += token; } } else if (bracketLevel > 0) { if (token == "[") { bracketLevel++; } else if (token == "]") { bracketLevel--; } } else if (templateLevel > 0) { if (token == "<") { templateLevel++; } else if (token == ">") { templateLevel--; } templateParams += token; } syntaxer.next(); } while ((position >= 0) && (s[position] == '*' || s[position] == ' ' || s[position] == '&')) { if (s[position]=='*') { } position--; } typeStatement = doFindStatementOf(fileName,baseType,scope); PStatement effectiveTypeStatement = typeStatement; int level=0; while (effectiveTypeStatement && (effectiveTypeStatement->kind == StatementKind::skTypedef || effectiveTypeStatement->kind == StatementKind::skPreprocessor)) { if (level >20) // prevent infinite loop break; level++; baseType=""; syntaxer.resetState(); syntaxer.setLine(effectiveTypeStatement->type+effectiveTypeStatement->args,0); int bracketLevel = 0; int templateLevel = 0; while(!syntaxer.eol()) { QString token = syntaxer.getToken(); if (bracketLevel == 0 && templateLevel ==0) { if (token == "*") pointerLevel++; else if (syntaxer.getTokenAttribute()->tokenType() == QSynedit::TokenType::Identifier) { baseType += token; } else if (token == "[") { pointerLevel++; bracketLevel++; } else if (token == "<") { templateLevel++; templateParams += token; } else if (token == "::") { baseType += token; } } else if (bracketLevel > 0) { if (token == "[") { bracketLevel++; } else if (token == "]") { bracketLevel--; } } else if (templateLevel > 0) { if (token == "<") { templateLevel++; } else if (token == ">") { templateLevel--; } templateParams += token; } syntaxer.next(); } effectiveTypeStatement = doFindStatementOf(fileName,baseType, effectiveTypeStatement->parentScope.lock()); } effectiveTypeStatement = getTypeDef(effectiveTypeStatement,fileName,baseType); return effectiveTypeStatement; } int CppParser::getBracketEnd(const QString &s, int startAt) const { int i = startAt; int level = 0; // assume we start on top of [ while (i < s.length()) { switch(s[i].unicode()) { case '<': level++; break; case '>': level--; if (level == 0) return i; } i++; } return startAt; } PStatement CppParser::doFindStatementInScope(const QString &name, const QString &noNameArgs, StatementKind kind, const PStatement& scope) const { const StatementMap& statementMap = mStatementList.childrenStatements(scope); foreach (const PStatement& statement, statementMap.values(name)) { if (statement->kind == kind && statement->noNameArgs == noNameArgs) { return statement; } } return PStatement(); } void CppParser::internalInvalidateFile(const QString &fileName) { if (fileName.isEmpty()) return; // remove its include files list PFileIncludes p = findFileIncludes(fileName, true); if (p) { //fPreprocessor.InvalidDefinesInFile(FileName); //we don't need this, since we reset defines after each parse //p->includeFiles.clear(); //p->usings.clear(); for (PStatement& statement:p->statements) { if (statement->fileName==fileName) { mStatementList.deleteStatement(statement); } else { statement->setHasDefinition(false); statement->definitionFileName = statement->fileName; statement->definitionLine = statement->line; } } p->statements.clear(); //invalidate all handledInheritances for (std::weak_ptr &pWeakInfo: p->handledInheritances) { PClassInheritanceInfo info = pWeakInfo.lock(); if (info) { info->handled = false; } } p->handledInheritances.clear(); } //remove all statements from namespace cache const QList& keys=mNamespaces.keys(); for (const QString& key:keys) { PStatementList statements = mNamespaces.value(key); for (int i=statements->size()-1;i>=0;i--) { PStatement statement = statements->at(i); if (statement->fileName == fileName) { statements->removeAt(i); } } if (statements->isEmpty()) { mNamespaces.remove(key); } } // class inheritance // invalid class inheritance infos (derived class is not valid) whould be auto removed in handleInheritances() // foreach (const PClassInheritanceInfo& info, mClassInheritances) { // if (info->handled && info->parentClassFilename == fileName) // info->handled = false; // } // delete it from scannedfiles mPreprocessor.removeScannedFile(fileName); } void CppParser::internalInvalidateFiles(const QSet &files) { for (const QString& file:files) internalInvalidateFile(file); } QSet CppParser::calculateFilesToBeReparsed(const QString &fileName) { if (fileName.isEmpty()) return QSet(); QSet result; result.insert(fileName); foreach (const QString& file, mProjectFiles) { PFileIncludes fileIncludes = mPreprocessor.findFileIncludes(file); if (fileIncludes && fileIncludes->includeFiles.contains(fileName)) { result.insert(file); } } return result; } //int CppParser::calcKeyLenForStruct(const QString &word) //{ // if (word.startsWith("struct")) // return 6; // else if (word.startsWith("class") // || word.startsWith("union")) // return 5; // return -1; //} void CppParser::scanMethodArgs(const PStatement& functionStatement, int argStart) { Q_ASSERT(mTokenizer[argStart]->text=='('); int argEnd=mTokenizer[argStart]->matchIndex; int paramStart = argStart+1; int i = paramStart ; // assume it starts with ( and ends with ) // Keep going and stop on top of the variable name QStringList words; while (i < argEnd) { if (mTokenizer[i]->text=='(' && mTokenizer[i]->matchIndex+1matchIndex+1]->text=='(') { //function pointer int argStart=mTokenizer[i]->matchIndex+1; int argEnd=mTokenizer[argStart]->matchIndex; QString cmd=findFunctionPointerName(i); QString args=mergeArgs(argStart,argEnd); if (!cmd.isEmpty()) { addStatement( functionStatement, mCurrentFile, words.join(" "), // 'int*' cmd, // a args, "", "", mTokenizer[i+1]->line, StatementKind::skParameter, StatementScope::Local, StatementAccessibility::None, StatementProperty::spHasDefinition); } i=argEnd+1; words.clear(); } else if (mTokenizer[i]->text=='{') { i=mTokenizer[i]->matchIndex+1; } else if (mTokenizer[i]->text.endsWith('=')) { addMethodParameterStatement(words,mTokenizer[i]->line,functionStatement); i=skipAssignment(i,argEnd); } else if (mTokenizer[i]->text=="::") { int lastIdx=words.count()-1; if (lastIdx>=0 && words[lastIdx]!="const") { words[lastIdx]=words[lastIdx]+mTokenizer[i]->text; } else words.append(mTokenizer[i]->text); i++; } else if (mTokenizer[i]->text==',') { addMethodParameterStatement(words,mTokenizer[i]->line,functionStatement); i++; words.clear(); } else if (isIdentChar(mTokenizer[i]->text[0])) { // identifier int lastIdx=words.count()-1; if (lastIdx>=0 && words[lastIdx].endsWith("::")) { words[lastIdx]=words[lastIdx]+mTokenizer[i]->text; } else words.append(mTokenizer[i]->text); i++; } else if (isWordChar(mTokenizer[i]->text[0])) { // * & words.append(mTokenizer[i]->text); i++; } else if (mTokenizer[i]->text.startsWith("[")) { if (!words.isEmpty()) { int lastIdx=words.count()-1; words[lastIdx]=words[lastIdx]+mTokenizer[i]->text; } i++; } else { i++; } } addMethodParameterStatement(words,mTokenizer[i-1]->line,functionStatement); } QString CppParser::splitPhrase(const QString &phrase, QString &sClazz, QString &sOperator, QString &sMember) const { sClazz=""; sMember=""; sOperator=""; QString result=""; int bracketLevel = 0; int phraseLength = phrase.length(); // Obtain stuff before first operator int firstOpStart = phraseLength + 1; int firstOpEnd = phraseLength + 1; for (int i = 0; i') && (bracketLevel==0)) { firstOpStart = i; firstOpEnd = i+2; sOperator = "->"; break; } else if ((i+1') && (bracketLevel=0)) { secondOp = i; break; } else if ((i+1=0) { return phrase.left(pos); } return phrase; } bool CppParser::splitLastMember(const QString &token, QString &lastMember, QString &remaining) { int pos = token.length()-1; int level=0; bool found=false; while (pos>=0 && !found) { switch(token[pos].unicode()) { case ']': case '>': case ')': level++; break; case '[': case '<': case '(': level--; break; case ':': if (level==0 && pos>0 && token[pos-1]==':') { found=true; break; } } pos--; } if (pos<0) return false; lastMember=token.mid(pos+2); remaining=token.left(pos); return true; } //static void appendArgWord(QString& args, const QString& word) { // QString s=word.trimmed(); // if (s.isEmpty()) // return; // if (args.isEmpty()) // args.append(s); // else if (isIdentChar(args.back()) && isIdentChar(word.front()) ) { // args+=" "; // args+=s; // } else { // args+=s; // } //} bool CppParser::isNotFuncArgs(int startIndex) { Q_ASSERT(mTokenizer[startIndex]->text=='('); int endIndex=mTokenizer[startIndex]->matchIndex; //no args, it must be a function if (endIndex-startIndex==1) return false; int i=startIndex+1; //skip '(' int endPos = endIndex; QString word = ""; while (itext[0]; switch(ch.unicode()) { // args contains a string/char, can't be a func define case '"': case '\'': case '+': case '-': case '/': case '|': case '!': case '{': return true; case '[': // function args like int f[10] i=mTokenizer[i]->matchIndex+1; if (itext=='(' || mTokenizer[i]->text=='{')) //lambda return true; continue; } if (isDigitChar(ch)) return true; if (isIdentChar(ch)) { QString currentText=mTokenizer[i]->text; // if (mTokenizer[i]->text.endsWith('.')) // return true; // if (mTokenizer[i]->text.endsWith("->")) // return true; if (!mCppTypeKeywords.contains(currentText)) { if (currentText=="true" || currentText=="false" || currentText=="nullptr" || currentText=="this") return true; if (currentText=="const") return false; if (isCppKeyword(currentText)) return false; PStatement statement = doFindStatementOf(mCurrentFile,word,getCurrentScope()); //template arguments if (!statement) return false; if (statement && isTypeStatement(statement->kind)) return false; } else { return false; } } i++; } //function with no args return false; } bool CppParser::isNamedScope(StatementKind kind) const { switch(kind) { case StatementKind::skClass: case StatementKind::skNamespace: case StatementKind::skFunction: return true; default: return false; } } bool CppParser::isTypeStatement(StatementKind kind) const { switch(kind) { case StatementKind::skClass: case StatementKind::skTypedef: case StatementKind::skEnumClassType: case StatementKind::skEnumType: return true; default: return false; } } void CppParser::updateSerialId() { mSerialId = QString("%1 %2").arg(mParserId).arg(mSerialCount); } int CppParser::indexOfNextSemicolon(int index, int maxIndex) { while (indextext[0].unicode()) { case ';': return index; case '(': index = mTokenizer[index]->matchIndex+1; break; default: index++; } } return index; } int CppParser::indexOfNextPeriodOrSemicolon(int index, int maxIndex) { while (indextext[0].unicode()) { case ';': case ',': case '}': case ')': return index; case '(': index = mTokenizer[index]->matchIndex+1; break; default: index++; } } return index; } int CppParser::indexOfNextSemicolonOrLeftBrace(int index, int maxIndex) { while (indextext[0].unicode()) { case ';': case '{': return index; case '(': index = mTokenizer[index]->matchIndex+1; break; default: index++; } } return index; } int CppParser::indexOfNextColon(int index, int maxIndex) { while (indextext; switch(s[0].unicode()) { case ':': if (s.length()==1) return index; else index++; break; case '(': index = mTokenizer[index]->matchIndex+1; break; default: index++; } } return index; } int CppParser::indexOfNextLeftBrace(int index, int maxIndex) { while (indextext[0].unicode()) { case '{': return index; case '(': index = mTokenizer[index]->matchIndex+1; break; default: index++; } } return index; } int CppParser::indexPassParenthesis(int index, int maxIndex) { while (indextext=='(') { return mTokenizer[index]->matchIndex+1; } index++; } return index; } int CppParser::indexOfNextRightParenthesis(int index, int maxIndex) { while (indextext; switch(s[0].unicode()) { case ')': return index; case '(': index = mTokenizer[index]->matchIndex+1; break; default: index++; } } return index; } void CppParser::skipNextSemicolon(int index, int endIndex) { mIndex=index; while (mIndextext[0].unicode()) { case ';': mIndex++; return; case '{': mIndex = mTokenizer[mIndex]->matchIndex+1; break; case '(': mIndex = mTokenizer[mIndex]->matchIndex+1; break; default: mIndex++; } } } int CppParser::moveToEndOfStatement(int index, bool checkLambda, int maxIndex) { int startIndex=index; if (index>=maxIndex) return index; index--; // compensate for the first loop bool skip=true; do { index++; bool stop = false; while (indextext[0].unicode()) { case ';': stop=true; break; case '=': stop=true; break; case '}': stop=true; skip=false; //don't skip the orphan '}' that we found break; case '{': //move to '}' index=mTokenizer[index]->matchIndex; stop=true; break; case '(': index = mTokenizer[index]->matchIndex+1; break; default: index++; } } } while (indextext=='='); if (index0 && mTokenizer.indexOfFirstLambda()=startIndex) { handleLambda(i,index); } } } if (skip) index++; return index; } void CppParser::skipParenthesis(int index, int maxIndex) { mIndex=index; while (mIndextext=='(') { mIndex=mTokenizer[mIndex]->matchIndex+1; return; } mIndex++; } } int CppParser::skipAssignment(int index, int maxIndex) { int startIndex=index; bool stop=false; while (indextext[0].unicode()) { case ';': case ',': case '}': case ')': stop=true; break; case '{': case '(': index = mTokenizer[index]->matchIndex+1; break; default: index++; } } if (stop) { while (mTokenizer.lambdasCount()>0 && mTokenizer.indexOfFirstLambda()=startIndex) { handleLambda(i,index); } } } return (indexstartIndex) result+=' '; result+=mTokenizer[i]->text; } return result; } void CppParser::parseCommandTypeAndArgs(QString &command, QString &typeSuffix, QString &args) const { int prefix=0; while (prefix0) { typeSuffix=command.left(prefix); command=command.mid(prefix); } else { typeSuffix=""; } int pos=command.indexOf('['); if (pos>=0) { args=command.mid(pos); command=command.left(pos); } else { args=""; } } QString CppParser::expandMacro(const QString &text) const { QSet usedMacros; return mPreprocessor.expandMacros(text, usedMacros); } QStringList CppParser::splitExpression(const QString &expr) { QStringList result; QSynedit::CppSyntaxer syntaxer; syntaxer.resetState(); QStringList lines = textToLines(expr); for(int i=0;itokenType()!=QSynedit::TokenType::Comment && syntaxer.getTokenAttribute()->tokenType()!=QSynedit::TokenType::Space) result.append(syntaxer.getToken()); syntaxer.next(); } } return result; } const QSet &CppParser::projectFiles() const { return mProjectFiles; } QList CppParser::namespaces() { QMutexLocker locker(&mMutex); return mNamespaces.keys(); } ParserLanguage CppParser::language() const { return mLanguage; } void CppParser::setLanguage(ParserLanguage newLanguage) { if (mLanguage != newLanguage) { mLanguage = newLanguage; mCppKeywords = CppKeywords; mCppTypeKeywords = CppTypeKeywords; #ifdef ENABLE_SDCC if (mLanguage == ParserLanguage::SDCC) { #if QT_VERSION >= QT_VERSION_CHECK(5, 15, 0) mCppKeywords.insert(SDCCKeywords); #else for (auto &k : SDCCKeywords.keys()) mCppKeywords[k] = SDCCKeywords[k]; #endif mCppTypeKeywords.unite(SDCCTypeKeywords); } #endif } } const StatementModel &CppParser::statementList() const { return mStatementList; } bool CppParser::parseGlobalHeaders() const { return mParseGlobalHeaders; } void CppParser::setParseGlobalHeaders(bool newParseGlobalHeaders) { mParseGlobalHeaders = newParseGlobalHeaders; } const QSet &CppParser::includePaths() { return mPreprocessor.includePaths(); } const QSet &CppParser::projectIncludePaths() { return mPreprocessor.projectIncludePaths(); } bool CppParser::parseLocalHeaders() const { return mParseLocalHeaders; } void CppParser::setParseLocalHeaders(bool newParseLocalHeaders) { mParseLocalHeaders = newParseLocalHeaders; } const QString &CppParser::serialId() const { return mSerialId; } int CppParser::parserId() const { return mParserId; } void CppParser::setOnGetFileStream(const GetFileStreamCallBack &newOnGetFileStream) { mPreprocessor.setOnGetFileStream(newOnGetFileStream); } const QSet &CppParser::filesToScan() const { return mFilesToScan; } void CppParser::setFilesToScan(const QSet &newFilesToScan) { mFilesToScan = newFilesToScan; } bool CppParser::enabled() const { return mEnabled; } void CppParser::setEnabled(bool newEnabled) { if (mEnabled!=newEnabled) { mEnabled = newEnabled; if (!mEnabled) { resetParser(); } } } CppFileParserThread::CppFileParserThread( PCppParser parser, QString fileName, bool inProject, bool onlyIfNotParsed, bool updateView, QObject *parent):QThread(parent), mParser(parser), mFileName(fileName), mInProject(inProject), mOnlyIfNotParsed(onlyIfNotParsed), mUpdateView(updateView) { connect(this,&QThread::finished, this,&QObject::deleteLater); } void CppFileParserThread::run() { if (mParser && !mParser->parsing()) { mParser->parseFile(mFileName,mInProject,mOnlyIfNotParsed,mUpdateView); } } CppFileListParserThread::CppFileListParserThread(PCppParser parser, bool updateView, QObject *parent): QThread(parent), mParser(parser), mUpdateView(updateView) { connect(this,&QThread::finished, this,&QObject::deleteLater); } void CppFileListParserThread::run() { if (mParser && !mParser->parsing()) { mParser->parseFileList(mUpdateView); } } void parseFile(PCppParser parser, const QString& fileName, bool inProject, bool onlyIfNotParsed, bool updateView) { if (!parser) return; if (!parser->enabled()) return; // qDebug()<<"parsing "<connect(thread, &QThread::finished, thread, &QThread::deleteLater); thread->start(); } void parseFileList(PCppParser parser, bool updateView) { if (!parser) return; if (!parser->enabled()) return; //delete when finished CppFileListParserThread *thread = new CppFileListParserThread(parser,updateView); thread->connect(thread, &QThread::finished, thread, &QThread::deleteLater); thread->start(); }