RedPanda-CPP/RedPandaIDE/parser/cppparser.cpp

6552 lines
229 KiB
C++

/*
* 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 <https://www.gnu.org/licenses/>.
*/
#include "cppparser.h"
#include "parserutils.h"
#include "../utils.h"
#include "qsynedit/syntaxer/cpp.h"
#include <QApplication>
#include <QDate>
#include <QHash>
#include <QQueue>
#include <QRegularExpression>
#include <QThread>
#include <QTime>
static QAtomicInt cppParserCount(0);
CppParser::CppParser(QObject *parent) : QObject(parent)
{
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()
{
while (true) {
//wait for all methods finishes running
{
QMutexLocker locker(&mMutex);
if (!mParsing && (mLockCount == 0)) {
mParsing = true;
break;
}
}
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<PStatement> CppParser::getListOfFunctions(const QString &fileName, const QString &phrase, int line)
{
QMutexLocker locker(&mMutex);
QList<PStatement> result;
if (mParsing)
return result;
PStatement statement = doFindStatementOf(fileName,phrase, line);
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.includesList().value(filename);
if (!fileIncludes)
return PStatement();
return fileIncludes->scopes.findScopeAtLine(line);
}
PFileIncludes CppParser::findFileIncludes(const QString &filename, bool deleteIt)
{
QMutexLocker locker(&mMutex);
PFileIncludes fileIncludes = mPreprocessor.includesList().value(filename,PFileIncludes());
if (deleteIt && fileIncludes)
mPreprocessor.includesList().remove(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 &currentScope)
{
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.includesList().value(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<phraseLength) &&
(phrase[i + 1] == '>') && (phrase[i] == '-'))
return i;
else if ((i+1<phraseLength) &&
(phrase[i + 1] == ':') && (phrase[i] == ':'))
return i;
else if (phrase[i] == '.')
return i;
i--;
}
return -1;
}
PStatementList CppParser::findNamespace(const QString &name)
{
QMutexLocker locker(&mMutex);
return doFindNamespace(name);
}
PStatementList CppParser::doFindNamespace(const QString &name) const
{
return mNamespaces.value(name,PStatementList());
}
PStatement CppParser::findStatement(const QString &fullname)
{
QMutexLocker locker(&mMutex);
return doFindStatement(fullname);
}
PStatement CppParser::doFindStatement(const QString &fullname) const
{
if (fullname.isEmpty())
return PStatement();
QStringList phrases = fullname.split("::");
if (phrases.isEmpty())
return PStatement();
PStatement parentStatement;
PStatement statement;
for (int i=(phrases[0].isEmpty()?1:0);i<phrases.count();i++) {
const QString& phrase=phrases[i];
if (parentStatement && parentStatement->kind == 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
} 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();
} else {
//unqualified name
parentScopeType = currentScope;
remainder = splitPhrase(remainder,nextScopeWord,operatorToken,memberName);
statement = findStatementStartingFrom(fileName,nextScopeWord,parentScopeType);
if (!statement)
return PStatement();
}
parentScopeType = currentScope;
if (!memberName.isEmpty() && (statement->kind == StatementKind::skTypedef)) {
PStatement typeStatement = doFindTypeDefinitionOf(fileName,statement->type, parentScopeType);
if (typeStatement)
statement = typeStatement;
}
//using alias like 'using std::vector;'
if (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, parentScopeType);
//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 &currentScope)
{
QMutexLocker locker(&mMutex);
if (mParsing)
return PEvalStatement();
// qDebug()<<phraseExpression;
int pos = 0;
return doEvalExpression(fileName,
phraseExpression,
pos,
currentScope,
PEvalStatement(),
true);
}
PStatement CppParser::doFindStatementOf(const QString &fileName, const QString &phrase, const PStatement& currentClass) const
{
PStatement statementParentType;
return doFindStatementOf(fileName,phrase,currentClass,statementParentType);
}
PStatement CppParser::findStatementOf(const QString &fileName, const QStringList &expression, const PStatement &currentScope)
{
QMutexLocker locker(&mMutex);
if (mParsing)
return PStatement();
return doFindStatementOf(fileName,expression,currentScope);
}
PStatement CppParser::doFindStatementOf(const QString &fileName, const QStringList &expression, const PStatement &currentScope) const
{
QString memberOperator;
QStringList memberExpression;
QStringList ownerExpression = getOwnerExpressionAndMember(expression,memberOperator,memberExpression);
if (memberExpression.isEmpty()) {
return PStatement();
}
QString phrase = memberExpression[0];
if (memberOperator.isEmpty()) {
return findStatementStartingFrom(fileName,phrase,currentScope);
} else if (ownerExpression.isEmpty()) {
return findMemberOfStatement(fileName, phrase,PStatement());
} else {
int pos = 0;
PEvalStatement ownerEvalStatement = doEvalExpression(fileName,
ownerExpression,
pos,
currentScope,
PEvalStatement(),
true);
if (!ownerEvalStatement) {
return PStatement();
}
if (ownerEvalStatement->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"<<typeName<<lastResult->baseStatement->type<<lastResult->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<PStatement> CppParser::listTypeStatements(const QString &fileName, int line)
{
QMutexLocker locker(&mMutex);
if (mParsing)
return QList<PStatement>();
return doListTypeStatements(fileName,line);
}
PStatement CppParser::doFindAliasedStatement(const PStatement &statement) 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);
PStatementList namespaceStatements = doFindNamespace(nsName);
if (!namespaceStatements)
return PStatement();
foreach (const PStatement& namespaceStatement, *namespaceStatements) {
QList<PStatement> resultList = findMembersOfStatement(name,namespaceStatement);
foreach(const PStatement& resultStatement,resultList) {
if (resultStatement->kind != StatementKind::skAlias)
return resultStatement;
}
}
return PStatement();
}
QList<PStatement> CppParser::doListTypeStatements(const QString &fileName, int line) const
{
QList<PStatement> result;
QSet<QString> 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<QString>& 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<PStatement> 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.includesList().value(filename,PFileIncludes());
if (fileIncludes) {
return fileIncludes->directIncludes;
}
return QStringList();
}
QSet<QString> CppParser::getFileIncludes(const QString &filename)
{
QMutexLocker locker(&mMutex);
QSet<QString> list;
if (mParsing)
return list;
if (filename.isEmpty())
return list;
list.insert(filename);
PFileIncludes fileIncludes = mPreprocessor.includesList().value(filename,PFileIncludes());
if (fileIncludes) {
foreach (const QString& file, fileIncludes->includeFiles.keys()) {
list.insert(file);
}
}
return list;
}
QSet<QString> CppParser::getFileUsings(const QString &filename)
{
QMutexLocker locker(&mMutex);
return internalGetFileUsings(filename);
}
QSet<QString> CppParser::internalGetFileUsings(const QString &filename) const
{
QSet<QString> result;
if (filename.isEmpty())
return result;
// if (mParsing)
// return result;
PFileIncludes fileIncludes= mPreprocessor.includesList().value(filename,PFileIncludes());
if (fileIncludes) {
foreach (const QString& usingName, fileIncludes->usings) {
result.insert(usingName);
}
foreach (const QString& subFile,fileIncludes->includeFiles.keys()){
PFileIncludes subIncludes = mPreprocessor.includesList().value(subFile,PFileIncludes());
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);
}
void CppParser::invalidateFile(const QString &fileName)
{
if (!mEnabled)
return;
{
QMutexLocker locker(&mMutex);
if (mParsing || mLockCount>0)
return;
updateSerialId();
mParsing = true;
}
QSet<QString> 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.scannedFiles().contains(fName))
return;
if (inProject) {
QSet<QString> 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.scannedFiles().contains(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.scannedFiles().contains(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();
mPreprocessor.clear();
mTokenizer.clear();
}
}
void CppParser::unFreeze()
{
QMutexLocker locker(&mMutex);
mLockCount--;
}
QSet<QString> CppParser::scannedFiles()
{
return mPreprocessor.scannedFiles();
}
bool CppParser::isFileParsed(const QString &filename)
{
return mPreprocessor.scannedFiles().contains(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<index) {
i = getTemplateParamEnd(s,i)+1;
count++;
}
return i;
}
int CppParser::getTemplateParamEnd(const QString &s, int startAt) const {
int i = startAt;
int level = 1; // pretend we start on top of '<'
while (i < s.length()) {
switch (s[i].unicode()) {
case '<':
level++;
break;
case ',':
if (level == 1) {
return i;
}
break;
case '>':
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.scannedFiles().contains(fileName)) {
mFilesToScan.insert(fileName);
}
}
PStatement CppParser::addInheritedStatement(const PStatement& derived, const PStatement& inherit, StatementAccessibility access)
{
PStatement statement = addStatement(
derived,
inherit->fileName,
inherit->type, // "Type" is already in use
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
}
// if (newCommand.startsWith("::") && parent && kind!=StatementKind::skBlock ) {
// qDebug()<<command<<fileName<<line<<kind<<parent->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.includesList().value(fileName);
if (fileIncludes) {
fileIncludes->statements.insert(oldStatement->fullName,
oldStatement);
}
}
oldStatement->definitionLine = line;
oldStatement->definitionFileName = fileName;
return oldStatement;
}
}
}
PStatement result = std::make_shared<Statement>();
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->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, parent);
result->usageCount = -1;
mStatementList.add(result);
if (result->kind == StatementKind::skNamespace) {
PStatementList namespaceList = mNamespaces.value(result->fullName,PStatementList());
if (!namespaceList) {
namespaceList=std::make_shared<StatementList>();
mNamespaces.insert(result->fullName,namespaceList);
}
namespaceList->append(result);
}
if (result->kind!= StatementKind::skBlock) {
PFileIncludes fileIncludes = mPreprocessor.includesList().value(fileName);
if (fileIncludes) {
fileIncludes->statements.insert(result->fullName,result);
}
}
// if (result->command=="sync_with_stdio") {
// qDebug()<<result->fullName<<result->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;i<argEnd;i++) {
QChar ch=mTokenizer[i]->text[0];
if (this->isIdentChar(ch)) {
QString spaces=(i>argStart)?" ":"";
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)) {
args+=" ";
} else {
switch(ch.unicode()) {
case ',':
if (braceLevel==0)
typeGetted=false;
break;
case '{':
case '[':
case '<':
case '(':
braceLevel++;
break;
case '}':
case ']':
case '>':
case ')':
braceLevel--;
break;
//todo: * and & processing
case '*':
case '&':
if (braceLevel==0)
word+=ch;
break;
}
noNameArgs+= mTokenizer[i]->text;
}
args+=mTokenizer[i]->text;
}
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 tokenCount = mTokenizer.tokenCount();
// 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>=tokenCount || !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+1<tokenCount
&& mTokenizer[index]->text=="::"
&& 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);
}
}
// Find the corresponding PStatement
PStatement statement = doFindStatementOf(mCurrentFile,basename,
isGlobal?PStatement():classStatement->parentScope.lock());
if (statement && statement->kind == StatementKind::skClass) {
inheritClassStatement(classStatement,isStruct,statement,lastInheritScopeType);
}
}
}
index++;
if (index >= tokenCount)
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.includesList().value(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"<<mCurrentFile<<line<<mCurrentClassScope.count();
#endif
}
void CppParser::removeScopeLevel(int line)
{
// Remove class list
if (mCurrentScope.isEmpty())
return; // TODO: should be an exception
#ifdef QT_DEBUG
// if (mCurrentClassScope.count()<=2)
// qDebug()<<"--remove scope"<<mCurrentFile<<line<<mCurrentClassScope.count();
#endif
PStatement currentScope = getCurrentScope();
PFileIncludes fileIncludes = mPreprocessor.includesList().value(mCurrentFile);
if (currentScope) {
if (currentScope->kind == StatementKind::skBlock) {
if (currentScope->children.isEmpty()) {
// remove no children block
if (fileIncludes) {
fileIncludes->scopes.removeLastScope();
}
mStatementList.deleteStatement(currentScope);
} else {
fileIncludes->statements.insert(currentScope->fullName,currentScope);
}
} else if (currentScope->kind == StatementKind::skClass) {
mIndex=indexOfNextSemicolon(mIndex);
}
}
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<QString> &files)
{
QStringList result;
QSet<QString> saveScannedFiles;
saveScannedFiles=mPreprocessor.scannedFiles();
//rebuild file include relations
foreach(const QString& file, files) {
if (mPreprocessor.scannedFiles().contains(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<QString> fileSet=files;
while (!fileSet.isEmpty()) {
bool found=false;
foreach (const QString& file,fileSet) {
PFileIncludes fileIncludes = mPreprocessor.includesList().value(file);
bool hasInclude=false;
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<QString> 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 (mIndex<endIndex) {
if (mTokenizer[mIndex]->text=='+') {
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 (mIndex<endIndex) {
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 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<QString> 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+1<endIndex
&& mTokenizer[mIndex]->text=="::"
&& 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:
return false;
default:
return true;
}
}
bool CppParser::checkForNamespace(KeywordType keywordType)
{
return (keywordType==KeywordType::Namespace &&(mIndex < mTokenizer.tokenCount()-1))
|| (
keywordType==KeywordType::Inline
&& (mIndex+1 < mTokenizer.tokenCount()-1)
&&mTokenizer[mIndex+1]->text == "namespace"
);
}
bool CppParser::checkForPreprocessor()
{
return (mTokenizer[mIndex]->text.startsWith('#'));
}
//bool CppParser::checkForLambda()
//{
// return (mIndex+1<mTokenizer.tokenCount()
// && mTokenizer[mIndex]->text.startsWith('[')
// && mTokenizer[mIndex+1]->text=='(');
//}
bool CppParser::checkForAccessibilitySpecifiers(KeywordType keywordType)
{
return (keywordType == KeywordType::Public || keywordType == KeywordType::Protected
|| keywordType == KeywordType::Private);
}
bool CppParser::checkForStructs(KeywordType keywordType)
{
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>=mTokenizer.tokenCount()) {
mIndex++;
return false;
}
result = (mCppKeywords.value(mTokenizer[mIndex+dis]->text,KeywordType::None)==KeywordType::Struct);
} else {
result = (keywordType==KeywordType::Struct);
}
if (result) {
int tokenCount = mTokenizer.tokenCount();
if (mIndex >= tokenCount - 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 < tokenCount) {
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()
{
//we assume that typedef is the current index, so we check the next
//should call CheckForTypedef first!!!
return (mIndex+1 < mTokenizer.tokenCount() ) &&
(mTokenizer[mIndex + 1]->text == "enum");
}
bool CppParser::checkForTypedefStruct()
{
//we assume that typedef is the current index, so we check the next
//should call CheckForTypedef first!!!
if (mIndex+1 >= mTokenizer.tokenCount())
return false;
return (mCppKeywords.value(mTokenizer[mIndex+1]->text,KeywordType::None)==KeywordType::Struct);
}
bool CppParser::checkForUsing(KeywordType keywordType)
{
return keywordType==KeywordType::Using && (mIndex < mTokenizer.tokenCount()-1);
}
void CppParser::checkAndHandleMethodOrVar(KeywordType keywordType)
{
int tokenCount = mTokenizer.tokenCount();
if (mIndex+2>=tokenCount) {
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);
return;
}
mIndex++;
}
//next token must be */&/word/(/{
if (mTokenizer[mIndex]->text=='(') {
int indexAfterParentheis=mTokenizer[mIndex]->matchIndex+1;
if (indexAfterParentheis>=tokenCount) {
//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);
} else {
handleVar(currentText,false,false);
}
} else {
if (currentText=="operator") {
// operator overloading
handleOperatorOverloading(
"",
mIndex,
false);
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);
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);
return;
}
// function call, skip it
mIndex=moveToEndOfStatement(mIndex,true);
}
} else if (mTokenizer[mIndex]->text.startsWith('*')
|| mTokenizer[mIndex]->text.startsWith('&')
|| 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 < tokenCount) {
if (mTokenizer[mIndex]->text=="operator") {
handleOperatorOverloading(sType,
//sName,
mIndex,
isStatic);
return;
} else if (mTokenizer[mIndex + 1]->text == '(') {
if (mIndex+2<tokenCount && mTokenizer[mIndex+2]->text == '*') {
//foo(*blabla), it's a function pointer var
handleVar(sType+" "+sName,isExtern,isStatic);
return;
}
int indexAfter=mTokenizer[mIndex + 1]->matchIndex+1;
if (indexAfter>=tokenCount) {
//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);
//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);
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);
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);
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);
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);
else {
sType=sType.trimmed();
if (sType.isEmpty())
handleMethod(StatementKind::skConstructor,sType,
sName,mIndex,false,isFriend);
else
handleMethod(StatementKind::skFunction,sType,
sName,mIndex,isStatic,isFriend);
}
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);
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 (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 &currentClass) 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 &currentScope) const
{
return doFindTemplateParamOf(fileName,phrase,0,currentScope);
}
QString CppParser::doFindTemplateParamOf(const QString &fileName, const QString &phrase, int index, const PStatement &currentScope) 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()<<index<<s<<s.mid(i,t-i)<<i<<t;
return s.mid(i,t-i).replace(QRegularExpression("\\s+"),"");
}
int position = s.length()-1;
while ((position >= 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::getCurrentBlockEndSkip() const
{
if (mBlockEndSkips.isEmpty())
return mTokenizer.tokenCount()+1;
return mBlockEndSkips.back();
}
int CppParser::getCurrentBlockBeginSkip() const
{
if (mBlockBeginSkips.isEmpty())
return mTokenizer.tokenCount()+1;
return mBlockBeginSkips.back();
}
int CppParser::getCurrentInlineNamespaceEndSkip() const
{
if (mInlineNamespaceEndSkips.isEmpty())
return mTokenizer.tokenCount()+1;
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 ((i+1<strLen) && (phrase[i]==':') && (phrase[i+1]==':') ) {
if (!mNamespaces.contains(sNamespace)) {
break;
} else {
lastI = i;
}
}
sNamespace += phrase[i];
i++;
}
if (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 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::handleCatchBlock()
{
int tokenCount = mTokenizer.tokenCount();
int startLine= mTokenizer[mIndex]->line;
mIndex++; // skip for/catch;
if (!((mIndex < tokenCount) && (mTokenizer[mIndex]->text.startsWith('('))))
return;
//skip params
int i2=mTokenizer[mIndex]->matchIndex+1;
if (i2>=tokenCount)
return;
if (mTokenizer[i2]->text.startsWith('{')) {
mBlockBeginSkips.append(i2);
int i = indexOfMatchingBrace(i2);
mBlockEndSkips.append(i);
} else {
int i=indexOfNextSemicolon(i2);
mBlockEndSkips.append(i);
}
// add a block
PStatement block = addStatement(
getCurrentScope(),
mCurrentFile,
"",
"",
"",
"",
"",
startLine,
StatementKind::skBlock,
getScope(),
mCurrentMemberAccessibility,
StatementProperty::spHasDefinition);
addSoloScopeLevel(block,startLine);
scanMethodArgs(block,mIndex);
mIndex=mTokenizer[mIndex]->matchIndex+1;
}
void CppParser::handleEnum(bool isTypedef)
{
int tokenCount = mTokenizer.tokenCount();
QString enumName = "";
bool isEnumClass = false;
int startLine = mTokenizer[mIndex]->line;
mIndex++; //skip 'enum'
if (mIndex < tokenCount && mTokenizer[mIndex]->text == "class") {
//enum class
isEnumClass = true;
mIndex++; //skip class
}
bool isAdhocVar=false;
bool isNonameEnum=false;
int endIndex=-1;
if ((mIndex< tokenCount) && mTokenizer[mIndex]->text.startsWith('{')) { // enum {...} NAME
// Skip to the closing brace
int i = indexOfMatchingBrace(mIndex);
// Have we found the name?
if (i + 1 < tokenCount) {
enumName = mTokenizer[i + 1]->text.trimmed();
if (!isIdentifierOrPointer(enumName)) {
if (isTypedef || isEnumClass) {
//not a valid enum, skip to j
mIndex=indexOfNextSemicolon(i+1)+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)+1;
return;
}
enumName = "__@enum@__"+enumName+"__";
isAdhocVar=true;
}
}
endIndex=i+1;
} else if (mIndex+1< tokenCount && mTokenizer[mIndex+1]->text.startsWith('{')){ // enum NAME {...};
enumName = mTokenizer[mIndex]->text;
mIndex++;
} else if (mIndex+1< tokenCount && mTokenizer[mIndex+1]->text.startsWith(':')){ // enum NAME:int {...};
enumName = mTokenizer[mIndex]->text;
//skip :
mIndex = indexOfNextLeftBrace(mIndex);
if (mIndex>tokenCount)
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 (i<tokenCount) {
QString name=mTokenizer[i]->text;
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++;
}
endIndex=indexOfNextSemicolon(i);
}
// 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 < tokenCount) &&
mTokenizer[mIndex]->text!='}') {
if (tokenIsIdentifier(mTokenizer[mIndex]->text)) {
cmd = mTokenizer[mIndex]->text;
args = "";
if (mIndex+1<tokenCount &&
mTokenizer[mIndex+1]->text=="=") {
mIndex+=2;
if (mIndex<tokenCount) {
int endIndex = indexOfNextPeriodOrSemicolon(mIndex);
value = evaluateConstExpr(endIndex,canCalcValue);
mIndex = endIndex - 1;
}
}
if (isEnumClass) {
if (enumStatement) {
addStatement(
enumStatement,
mCurrentFile,
lastType,
cmd,
args,
"",
canCalcValue?QString("%1").arg(value):"",
mTokenizer[mIndex]->line,
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<endIndex)
mIndex=endIndex;
mIndex = indexOfNextSemicolon(mIndex)+1;
}
void CppParser::handleForBlock()
{
int tokenCount = mTokenizer.tokenCount();
int startLine = mTokenizer[mIndex]->line;
mIndex++; // skip for/catch;
if (mIndex >= tokenCount)
return;
if (mTokenizer[mIndex]->text!="(")
return;
int i=indexOfNextSemicolon(mIndex);
int i2 = i+1; //skip over ';' (tokenizer have change for(;;) to for(;)
// for(int x:vec)
if (i2 > mTokenizer[mIndex]->matchIndex)
i2 = mTokenizer[mIndex]->matchIndex+1;
if (i2>=tokenCount)
return;
if (mTokenizer[i2]->text.startsWith('{')) {
mBlockBeginSkips.append(i2);
i=indexOfMatchingBrace(i2);
// tokenizer will handle unbalanced braces, no need check here
// if (i==i2)
// mBlockEndSkips.append(mTokenizer.tokenCount());
// else
mBlockEndSkips.append(i);
} else {
i=indexOfNextSemicolon(i2);
mBlockEndSkips.append(i);
}
// add a block
PStatement block = addStatement(
getCurrentScope(),
mCurrentFile,
"",
"",
"",
"",
"",
startLine,
StatementKind::skBlock,
getScope(),
mCurrentMemberAccessibility,
StatementProperty::spHasDefinition);
addSoloScopeLevel(block,startLine);
}
void CppParser::handleKeyword(KeywordType skipType)
{
// Skip
switch (skipType) {
case KeywordType::SkipItself:
// skip it;
mIndex++;
break;
case KeywordType::SkipNextSemicolon:
// Skip to ; and over it
skipNextSemicolon(mIndex);
break;
case KeywordType::SkipNextColon:
// Skip to : and over it
mIndex = indexOfNextColon(mIndex)+1;
break;
case KeywordType::SkipNextParenthesis:
// skip pass ()
skipParenthesis(mIndex);
break;
case KeywordType::MoveToLeftBrace:
// Skip to {
mIndex = indexOfNextLeftBrace(mIndex);
break;
// case KeywordType::MoveToRightBrace:
// // Skip pass {}
// mIndex = indexPassBraces(mIndex);
// break;
default:
break;
}
}
void CppParser::handleLambda(int index, int endIndex)
{
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);
if (bodyStart>=endIndex) {
return;
}
int bodyEnd = mTokenizer[bodyStart]->matchIndex;
if (bodyEnd>endIndex) {
return;
}
PStatement lambdaBlock = addStatement(
getCurrentScope(),
mCurrentFile,
"",
"",
"",
"",
"",
startLine,
StatementKind::skBlock,
StatementScope::Local,
StatementAccessibility::None,
StatementProperty::spHasDefinition);
scanMethodArgs(lambdaBlock,argStart);
addSoloScopeLevel(lambdaBlock,mTokenizer[bodyStart]->line);
int i=bodyStart+1; // start after '{';
while (i+2<bodyEnd) {
if (tokenIsTypeOrNonKeyword(mTokenizer[i]->text)
&& !mTokenizer[i]->text.endsWith('.')
&& !mTokenizer[i]->text.endsWith("->")
&& (mTokenizer[i+1]->text.startsWith('*')
|| mTokenizer[i+1]->text.startsWith('&')
|| tokenIsTypeOrNonKeyword(mTokenizer[i+1]->text)))
{
QString sType;
QString sName;
while (i+1<bodyEnd) {
if (mTokenizer[i+1]->text==':'
|| mTokenizer[i+1]->text=='('
|| mTokenizer[i+1]->text=='='
|| mTokenizer[i+1]->text==';'
|| mTokenizer[i+1]->text==','
|| mTokenizer[i+1]->text=='{'
)
break;
else {
if (!sType.isEmpty())
sType+=' ';
sType+=mTokenizer[i]->text;
}
i++;
}
QString tempType;
while (i<bodyEnd) {
// Skip bit identifiers,
// e.g.:
// handle
// unsigned short bAppReturnCode:8,reserved:6,fBusy:1,fAck:1
// as
// unsigned short bAppReturnCode,reserved,fBusy,fAck
if (mTokenizer[i]->text.front() == ':') {
while ( (i < bodyEnd)
&& !(
mTokenizer[i]->text==','
|| mTokenizer[i]->text==';'
|| mTokenizer[i]->text=='='
))
i++;
} else if (mTokenizer[i]->text==';') {
break;
} else if (isIdentChar(mTokenizer[i]->text[0])) {
QString cmd=mTokenizer[i]->text;
if (cmd=="const") {
tempType="const";
} else {
QString suffix;
QString args;
parseCommandTypeAndArgs(cmd,suffix,args);
if (!cmd.isEmpty()) {
addChildStatement(
lambdaBlock,
mCurrentFile,
(sType+' '+tempType+suffix).trimmed(),
cmd,
args,
"",
"",
mTokenizer[mIndex]->line,
StatementKind::skVariable,
getScope(),
mCurrentMemberAccessibility,
StatementProperty::spHasDefinition); // TODO: not supported to pass list
tempType="";
}
}
i++;
} else if (mTokenizer[i]->text=='(') {
i=mTokenizer[i]->matchIndex+1;
} else if (mTokenizer[i]->text.endsWith('=')) {
i = skipAssignment(i, bodyEnd);
} else if (mTokenizer[i]->text=='{') {
tempType="";
i=mTokenizer[i]->matchIndex+1;
} else {
tempType="";
i++;
}
}
}
i=moveToEndOfStatement(i, true, bodyEnd);
}
removeScopeLevel(mTokenizer[bodyEnd]->line);
}
void CppParser::handleOperatorOverloading(const QString &sType,
//const QString &prefix,
int operatorTokenIndex, bool isStatic)
{
//operatorTokenIndex is the token index of "operator"
int tokenCount = mTokenizer.tokenCount();
int index=operatorTokenIndex+1;
QString op="";
if (index>=tokenCount) {
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 (index<tokenCount
&& mTokenizer[index]->text=="[]") {
op+="[]";
index++;
}
} else {
op=mTokenizer[index]->text;
index++;
while (index<mTokenizer.tokenCount()
&& mTokenizer[index]->text != "(")
index++;
}
while (index<tokenCount
&& mTokenizer[index]->text == ")")
index++;
if (index>=tokenCount
|| 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);
} else {
handleMethod(StatementKind::skFunction,
sType,
"operator"+op,
index,
isStatic,
false,
true);
}
}
void CppParser::handleMethod(StatementKind functionKind,const QString &sType, const QString &sName, int argStart, bool isStatic, bool isFriend,bool isOperatorOverload)
{
int tokenCount = mTokenizer.tokenCount();
bool isValid = true;
bool isDeclaration = false; // assume it's not a prototype
int startLine = mTokenizer[mIndex]->line;
int argEnd = mTokenizer[argStart]->matchIndex;
if (mIndex >= tokenCount) // not finished define, just skip it;
return;
PStatement scopeStatement = getCurrentScope();
//find start of the function body;
bool foundColon=false;
mIndex=argEnd+1;
while ((mIndex < tokenCount) && !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 < tokenCount) && !isblockChar(mTokenizer[mIndex]->text.front())) {
if (isWordChar(mTokenizer[mIndex]->text[0])
&& mIndex+1<mTokenizer.tokenCount()
&& 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>=tokenCount)
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()<<sName<<scopelessName<<parentClassName;
// if (scopeStatement)
// qDebug()<<"--"<<scopeStatement->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 < tokenCount) && mTokenizer[mIndex]->text.startsWith('{')) {
addSoloScopeLevel(functionStatement,startLine);
mIndex++; //skip '{'
} else if ((mIndex < tokenCount) && mTokenizer[mIndex]->text.startsWith(';')) {
addSoloScopeLevel(functionStatement,startLine);
if (mTokenizer[mIndex]->line != startLine)
removeScopeLevel(mTokenizer[mIndex]->line+1);
else
removeScopeLevel(startLine+1);
mIndex++;
}
}
void CppParser::handleNamespace(KeywordType skipType)
{
int tokenCount = mTokenizer.tokenCount();
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>=tokenCount)
return;
QString aliasName;
if ((mIndex+2<tokenCount) && (mTokenizer[mIndex]->text == '=')) {
aliasName=mTokenizer[mIndex+1]->text;
//namespace alias
addStatement(
getCurrentScope(),
mCurrentFile,
aliasName, // name of the alias namespace
command, // command
"", // args
"", // noname args
"", // values
//mTokenizer[mIndex]^.Line,
startLine,
StatementKind::skNamespaceAlias,
getScope(),
mCurrentMemberAccessibility,
StatementProperty::spHasDefinition);
mIndex+=2; //skip ;
return;
} else if (isInline) {
//inline namespace , just skip it
// Skip to '{'
while ((mIndex<tokenCount) && (mTokenizer[mIndex]->text != '{'))
mIndex++;
int i =indexOfMatchingBrace(mIndex); //skip '}'
if (i==mIndex)
mInlineNamespaceEndSkips.append(tokenCount);
else
mInlineNamespaceEndSkips.append(i);
if (mIndex<tokenCount)
mIndex++; //skip '{'
} else {
PStatement namespaceStatement = addStatement(
getCurrentScope(),
mCurrentFile,
"", // type
command, // command
"", // args
"", // noname args
"", // values
startLine,
StatementKind::skNamespace,
getScope(),
mCurrentMemberAccessibility,
StatementProperty::spHasDefinition);
// find next '{' or ';'
mIndex = indexOfNextSemicolonOrLeftBrace(mIndex);
if (mIndex<tokenCount && mTokenizer[mIndex]->text=='{')
addSoloScopeLevel(namespaceStatement,startLine);
//skip it
mIndex++;
}
}
void CppParser::handleOtherTypedefs()
{
int tokenCount = mTokenizer.tokenCount();
int startLine = mTokenizer[mIndex]->line;
// Skip typedef word
mIndex++;
if (mIndex>=tokenCount)
return;
if (mTokenizer[mIndex]->text == '('
|| mTokenizer[mIndex]->text == ','
|| mTokenizer[mIndex]->text == ';') { // error typedef
//skip over next ;
mIndex=indexOfNextSemicolon(mIndex)+1;
return;
}
if ((mIndex+1<tokenCount)
&& (mTokenizer[mIndex+1]->text == ';')) {
//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>=tokenCount) {
//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)+1;
return;
}
QString newType;
while(mIndex+1<tokenCount) {
if (mTokenizer[mIndex]->text == ',' ) {
mIndex++;
} else if (mTokenizer[mIndex]->text == ';' ) {
break;
} else if (mTokenizer[mIndex]->text == '(') {
int paramStart=mTokenizer[mIndex]->matchIndex+1;
if (paramStart>=tokenCount
|| mTokenizer[paramStart]->text!='(') {
//not valid function pointer (no args)
//skip over next ;
mIndex=indexOfNextSemicolon(paramStart)+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()<<mCurrentScope.size()<<mCurrentFile<<mTokenizer[mIndex]->line<<s.mid(0,delimPos).trimmed();
mCurrentFile = s.mid(0,delimPos).trimmed();
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)
{
mCurrentMemberAccessibility = getClassMemberAccessibility(keywordType);
mIndex++;
if (mIndex < mTokenizer.tokenCount()
&& mTokenizer[mIndex]->text == ':')
mIndex++; // skip ':'
}
bool CppParser::handleStatement()
{
QString funcType,funcName;
int idx=getCurrentBlockEndSkip();
int idx2=getCurrentBlockBeginSkip();
int idx3=getCurrentInlineNamespaceEndSkip();
KeywordType keywordType;
#ifdef QT_DEBUG
// qDebug()<<lastIndex<<mIndex;
Q_ASSERT(mIndex>=mLastIndex);
mLastIndex=mIndex;
#endif
int tokenCount = mTokenizer.tokenCount();
if (mIndex >= idx2) {
//skip (previous handled) block begin
mBlockBeginSkips.pop_back();
if (mIndex == idx2)
mIndex++;
else if (mIndex<tokenCount) //error happens, but we must remove an (error) added scope
removeScopeLevel(mTokenizer[mIndex]->line);
} else if (mIndex >= idx) {
//skip (previous handled) block end
mBlockEndSkips.pop_back();
if (idx+1 < tokenCount)
removeScopeLevel(mTokenizer[idx+1]->line);
if (mIndex == idx)
mIndex++;
} else 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);
mIndex++;
} else if (checkForPreprocessor()) {
handlePreprocessor();
// } else if (checkForLambda()) { // is lambda
// handleLambda();
} else if (mTokenizer[mIndex]->text=='(') {
if (mIndex+1<tokenCount &&
mTokenizer[mIndex+1]->text=="operator") {
// things like (operator int)
mIndex++; //just skip '('
} else
skipParenthesis(mIndex);
} else if (mTokenizer[mIndex]->text==')') {
mIndex++;
} else if (mTokenizer[mIndex]->text.startsWith('~')) {
//it should be a destructor
if (mIndex+2<tokenCount
&& isIdentChar(mTokenizer[mIndex+1]->text[0])
&& mTokenizer[mIndex+2]->text=='(') {
//dont further check to speed up
handleMethod(StatementKind::skDestructor, "", '~'+mTokenizer[mIndex+1]->text, mIndex+2, false, false);
} else {
//error
mIndex=moveToEndOfStatement(mIndex,false);
}
} else if (mTokenizer[mIndex]->text=="::") {
checkAndHandleMethodOrVar(KeywordType::None);
} else if (!isIdentChar(mTokenizer[mIndex]->text[0])) {
mIndex=moveToEndOfStatement(mIndex,true);
} else if (checkForKeyword(keywordType)) { // includes template now
handleKeyword(keywordType);
} else if (keywordType==KeywordType::For) { // (for/catch)
handleForBlock();
} else if (keywordType==KeywordType::Catch) { // (for/catch)
handleCatchBlock();
} else if (checkForAccessibilitySpecifiers(keywordType)) { // public /private/proteced
handleAccessibilitySpecifiers(keywordType);
} else if (keywordType==KeywordType::Enum) {
handleEnum(false);
} else if (keywordType==KeywordType::Typedef) {
if (mIndex+1 < tokenCount) {
if (checkForTypedefStruct()) { // typedef struct something
mIndex++; // skip 'typedef'
handleStructs(true);
} else if (checkForTypedefEnum()) { // typedef enum something
mIndex++; // skip 'typedef'
handleEnum(true);
} else
handleOtherTypedefs(); // typedef Foo Bar
} else
mIndex++;
} else if (checkForNamespace(keywordType)) {
handleNamespace(keywordType);
} else if (checkForUsing(keywordType)) {
handleUsing();
} else if (checkForStructs(keywordType)) {
handleStructs(false);
} else if (keywordType == KeywordType::Inline) {
mIndex++;
}else {
// it should be method/constructor/var
checkAndHandleMethodOrVar(keywordType);
}
//Q_ASSERT(mIndex<999999);
// while (mTokenizer.lambdasCount()>0 && mTokenizer.indexOfFirstLambda()<mIndex) {
// handleLambda(mTokenizer.indexOfFirstLambda());
// mTokenizer.removeFirstLambda();
// }
// else if (checkForMethod(funcType, funcName, argStart,argEnd, isStatic, isFriend)) {
// handleMethod(funcType, funcName, argStart, argEnd, isStatic, isFriend); // don't recalculate parts
// } else if (tryHandleVar()) {
// //do nothing
// } else
// mIndex++;
//todo: remove mSkipList (we can check '}''s statement type instead)
// checkForSkipStatement();
return mIndex < tokenCount;
}
void CppParser::handleStructs(bool isTypedef)
{
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;
int tokenCount = mTokenizer.tokenCount();
mIndex++; //skip struct/class/union
if (mIndex>=tokenCount)
return;
// Do not modifiy index
int i=indexOfNextSemicolonOrLeftBrace(mIndex);
if (i >= tokenCount) {
//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 < tokenCount) {
// 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 < tokenCount) {
if (mTokenizer[mIndex]->text == ":"
|| mTokenizer[mIndex]->text == "{"
|| mTokenizer[mIndex]->text == ";") {
break;
} else if ((mIndex + 1 < tokenCount)
&& (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 < tokenCount)
&& (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 < tokenCount) && (mTokenizer[mIndex]->text == ":")) {
if (firstSynonym)
setInheritance(mIndex, firstSynonym, isStruct); // set the _InheritanceList value
mIndex=indexOfNextLeftBrace(mIndex);
}
// Check for struct synonyms after close brace
if (isStruct) {
// Walk to closing brace
i = indexOfMatchingBrace(mIndex); // step onto closing brace
if ((i + 1 < tokenCount) && !(
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.front() == '*'
|| mTokenizer[i]->text.front() == '&') { // 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 >= tokenCount - 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
&& mIndex<tokenCount && mTokenizer[mIndex]->text=="{") {
//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 < tokenCount)
addSoloScopeLevel(firstSynonym,mTokenizer[mIndex]->line);
else
addSoloScopeLevel(firstSynonym,startLine);
// Step over {
if ((mIndex < tokenCount) && (mTokenizer[mIndex]->text == "{"))
mIndex++;
}
}
void CppParser::handleUsing()
{
int startLine = mTokenizer[mIndex]->line;
if (mCurrentFile.isEmpty()) {
//skip pass next ;
mIndex=indexOfNextSemicolon(mIndex)+1;
return;
}
int tokenCount = mTokenizer.tokenCount();
mIndex++; //skip 'using'
//handle things like 'using vec = std::vector; '
if (mIndex+1 < tokenCount
&& mTokenizer[mIndex+1]->text == "=") {
QString fullName = mTokenizer[mIndex]->text;
QString aliasName;
mIndex+=2;
while (mIndex<tokenCount &&
mTokenizer[mIndex]->text!=';') {
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>=tokenCount)
|| (mTokenizer[mIndex]->text != "namespace")) {
QString fullName;
QString usingName;
while (mIndex<tokenCount &&
mTokenizer[mIndex]->text!=';') {
fullName += mTokenizer[mIndex]->text;
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 (mIndex<tokenCount &&
mTokenizer[mIndex]->text!=';') {
usingName += mTokenizer[mIndex]->text;
mIndex++;
}
if (scopeStatement) {
QString fullName = scopeStatement->fullName + "::" + usingName;
if (!mNamespaces.contains(fullName)) {
fullName = usingName;
}
if (mNamespaces.contains(fullName)) {
scopeStatement->usingList.insert(fullName);
}
} else {
PFileIncludes fileInfo = mPreprocessor.includesList().value(mCurrentFile);
if (!fileInfo)
return;
if (mNamespaces.contains(usingName)) {
fileInfo->usings.insert(usingName);
}
}
//skip ;
mIndex++;
}
void CppParser::handleVar(const QString& typePrefix,bool isExtern,bool isStatic)
{
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;
int tokenCount = mTokenizer.tokenCount();
while (lastType.endsWith("*") || lastType.endsWith("&")) {
tempType = (lastType.back()+tempType);
lastType.truncate(lastType.length()-2);
}
while(mIndex<tokenCount) {
switch(mTokenizer[mIndex]->text[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+1<tokenCount
&& isIdentifier(mTokenizer[mIndex+1]->text)
&& isIdentChar(mTokenizer[mIndex+1]->text.back())
&& addedVar
&& !(addedVar->properties & StatementProperty::spFunctionPointer)
&& AutoTypes.contains(addedVar->type)) {
//handle e.g.: for(auto x:vec)
QStringList phraseExpression;
phraseExpression.append(mTokenizer[mIndex+1]->text);
int pos = 0;
PEvalStatement aliasStatement = doEvalExpression(mCurrentFile,
phraseExpression,
pos,
getCurrentScope(),
PEvalStatement(),
true);
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;
}
}
}
addedVar.reset();
bool should_exit=false;
while (mIndex < tokenCount) {
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+1<tokenCount
&& mTokenizer[mIndex+1]->text!="{"
&& addedVar
&& !(addedVar->properties & StatementProperty::spFunctionPointer)
&& AutoTypes.contains(addedVar->type)) {
//handle e.g.: auto x=blahblah;
int pos = 0;
int endIndex = skipAssignment(mIndex, tokenCount);
QStringList phraseExpression;
for (int i=mIndex+1;i<endIndex;i++) {
QString cmd = mTokenizer[i]->text;
if (cmd.length()>1 && cmd.endsWith(".")) {
phraseExpression.append(cmd.left(cmd.length()-1));
phraseExpression.append(".");
} else if (cmd.length()>2 && cmd.endsWith("->")) {
phraseExpression.append(cmd.left(cmd.length()-2));
phraseExpression.append("->");
} else if (cmd.length()>2 && cmd.endsWith("::")) {
phraseExpression.append(cmd.left(cmd.length()-2));
phraseExpression.append("::");
} else
phraseExpression.append(cmd);
}
PEvalStatement aliasStatement = doEvalExpression(mCurrentFile,
phraseExpression,
pos,
getCurrentScope(),
PEvalStatement(),
true);
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, tokenCount);
addedVar.reset();
break;
case '*':
case '&':
tempType+=mTokenizer[mIndex]->text;
mIndex++;
break;
case '(':
if (mTokenizer[mIndex]->matchIndex+1<tokenCount
&& mTokenizer[mTokenizer[mIndex]->matchIndex+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);
break;
}
//not function pointer, fall through
case '{':
tempType="";
if (mIndex+1<tokenCount
&& isIdentifier(mTokenizer[mIndex+1]->text)
&& addedVar
&& !(addedVar->properties & StatementProperty::spFunctionPointer)
&& AutoTypes.contains(addedVar->type)) {
int pos = 0;
int endIndex = mTokenizer[mIndex]->matchIndex;
QStringList phraseExpression;
for (int i=mIndex+1;i<endIndex;i++) {
QString cmd = mTokenizer[i]->text;
if (cmd.length()>1 && cmd.endsWith(".")) {
phraseExpression.append(cmd.left(cmd.length()-1));
phraseExpression.append(".");
} else if (cmd.length()>2 && cmd.endsWith("->")) {
phraseExpression.append(cmd.left(cmd.length()-2));
phraseExpression.append("->");
} else if (cmd.length()>2 && cmd.endsWith("::")) {
phraseExpression.append(cmd.left(cmd.length()-2));
phraseExpression.append("::");
} else
phraseExpression.append(cmd);
}
PEvalStatement aliasStatement = doEvalExpression(mCurrentFile,
phraseExpression,
pos,
getCurrentScope(),
PEvalStatement(),
true);
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::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"<<timer.elapsed();
//reduce memory usage
//timer.restart();
mPreprocessor.clearTempResults();
//qDebug()<<"preprocess clean"<<timer.elapsed();
//timer.restart();
// Tokenize the preprocessed buffer file
mTokenizer.tokenize(preprocessResult);
//reduce memory usage
preprocessResult.clear();
//qDebug()<<"tokenize"<<timer.elapsed();
if (mTokenizer.tokenCount() == 0)
return;
#ifdef QT_DEBUG
// mTokenizer.dumpTokens(QString("r:\\tokens-%1.txt").arg(extractFileName(fileName)));
#endif
#ifdef QT_DEBUG
mLastIndex = -1;
#endif
// timer.restart();
// Process the token list
while(true) {
if (!handleStatement())
break;
}
// qDebug()<<"parse"<<timer.elapsed();
#ifdef QT_DEBUG
// mStatementList.dumpAll(QString("r:\\all-stats-%1.txt").arg(extractFileName(fileName)));
// mStatementList.dump(QString("r:\\stats-%1.txt").arg(extractFileName(fileName)));
#endif
//reduce memory usage
internalClear();
}
void CppParser::inheritClassStatement(const PStatement& derived, bool isStruct,
const PStatement& base, StatementAccessibility access)
{
//differentiate class and struct
if (access == StatementAccessibility::None) {
if (isStruct)
access = StatementAccessibility::Public;
else
access = StatementAccessibility::Private;
}
foreach (const PStatement& statement, base->children) {
if (statement->accessibility == StatementAccessibility::Private
|| statement->kind == StatementKind::skConstructor
|| statement->kind == StatementKind::skDestructor)
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);
}
}
void CppParser::fillListOfFunctions(const QString& fileName, int line,
const PStatement& statement,
const PStatement& scopeStatement, QStringList &list)
{
StatementMap children = mStatementList.childrenStatements(scopeStatement);
for (const PStatement& child:children) {
if ((statement->command == child->command)
#ifdef Q_OS_WIN
|| (statement->command +'A' == child->command)
|| (statement->command +'W' == child->command)
#endif
) {
if (line < child->line && (child->fileName == fileName))
continue;
list.append(prettyPrintStatement(child,child->fileName,child->line));
}
}
}
QList<PStatement> CppParser::getListOfFunctions(const QString &fileName, int line, const PStatement &statement, const PStatement &scopeStatement) const
{
QList<PStatement> result;
StatementMap children = mStatementList.childrenStatements(scopeStatement);
for (const PStatement& child:children) {
if (( (statement->command == child->command)
#ifdef Q_OS_WIN
|| (statement->command +'A' == child->command)
|| (statement->command +'W' == child->command)
#endif
) ) {
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.includesList().value(fileName,PFileIncludes());
foreach (const PStatement& s, statements) {
if (s->kind == StatementKind::skPreprocessor) {
if (includes && !includes->includeFiles.contains(s->fileName)
&& !includes->includeFiles.contains(s->definitionFileName))
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<PStatement> stats = statementMap.values(s);
PFileIncludes fileIncludes = mPreprocessor.includesList().value(filename,PFileIncludes());
foreach(const PStatement &s,stats) {
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<PStatement> CppParser::findMembersOfStatement(const QString &phrase, const PStatement &scopeStatement) const
{
const StatementMap& statementMap =mStatementList.childrenStatements(scopeStatement);
if (statementMap.isEmpty())
return QList<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.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) const
{
//dummy function to easy later upgrades
return doEvalPointerArithmetic(fileName,
phraseExpression,
pos,
scope,
previousResult,
freeScoped);
}
PEvalStatement CppParser::doEvalPointerArithmetic(const QString &fileName, 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()<<pos<<"pointer add member end";
return currentResult;
}
PEvalStatement CppParser::doEvalPointerToMembers(
const QString &fileName,
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 = 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()<<pos<<"pointer member end";
return currentResult;
}
PEvalStatement CppParser::doEvalCCast(const QString &fileName,
QStringList &phraseExpression,
int &pos,
const PStatement& scope,
const PEvalStatement& previousResult,
bool freeScoped) const
{
if (pos>=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"<<typeName<<lastResult->baseStatement->type<<lastResult->baseStatement->command;
PStatement typeStatement=doFindTypeDefinitionOf(fileName, typeName,parentScope);
if (typeStatement) {
result = doCreateEvalType(fileName,typeName,parentScope);
result->definitionString=typeName;
result->kind = EvalStatementKind::Variable;
} else {
result = PEvalStatement();
}
} else if (STLMaps.contains(parentScope->fullName)) {
QString typeName=doFindTemplateParamOf(fileName,result->templateParams,1,parentScope);
// qDebug()<<"typeName"<<typeName<<lastResult->baseStatement->type<<lastResult->baseStatement->command;
PStatement typeStatement=doFindTypeDefinitionOf(fileName, typeName,parentScope);
if (typeStatement) {
result = doCreateEvalType(fileName,typeName,parentScope);
result->definitionString=typeName;
result->kind = EvalStatementKind::Variable;
} 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"<<typeName;
typeStatement=doFindTypeDefinitionOf(fileName, typeName,parentScope);
if (typeStatement) {
result = doCreateEvalType(fileName,typeName,parentScope);
result->definitionString=typeName;
result->kind = EvalStatementKind::Variable;
} 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);
// qDebug()<<pos;
if (pos >= 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()<<pos<<(int)result->kind<<result->baseType;
// } else {
// qDebug()<<"!!!!!!!!!!!not found";
// }
return result;
}
PEvalStatement CppParser::doEvalMemberAccess(const QString &fileName,
QStringList &phraseExpression,
int &pos,
const PStatement& scope,
const PEvalStatement& previousResult,
bool freeScoped) const
{
// qDebug()<<"eval member access "<<pos<<phraseExpression;
PEvalStatement result;
if (pos>=phraseExpression.length())
return result;
PEvalStatement lastResult = previousResult;
result = doEvalScopeResolution(
fileName,
phraseExpression,
pos,
scope,
previousResult,
freeScoped);
if (!result)
return PEvalStatement();
while (pos<phraseExpression.length()) {
if (!result)
break;
if (phraseExpression[pos]=="++" || phraseExpression[pos]=="--") {
pos++; //just skip it
} else if (phraseExpression[pos] == "(") {
if (result->kind == EvalStatementKind::Type) {
pos++; // skip "("
PEvalStatement newResult = doEvalExpression(
fileName,
phraseExpression,
pos,
scope,
PEvalStatement(),
true);
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"<<typeName<<lastResult->baseStatement->type<<lastResult->baseStatement->command;
if (!typeName.isEmpty())
typeStatement=doFindTypeDefinitionOf(fileName, typeName,parentScope);
if (typeStatement) {
result = doCreateEvalType(fileName,typeName,parentScope);
result->definitionString = typeName;
result->kind = EvalStatementKind::Variable;
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"<<typeName<<lastResult->baseStatement->type<<lastResult->baseStatement->command;
if (!typeName.isEmpty())
typeStatement=doFindTypeDefinitionOf(fileName, typeName,parentScope);
if (typeStatement) {
result = doCreateEvalType(fileName,typeName,parentScope);
result->definitionString = typeName;
result->kind = EvalStatementKind::Variable;
lastResult = result;
} else {
return PEvalStatement();
}
}
}
}
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 = doCreateEvalType(fileName,typeName,parentScope);
result->definitionString=typeName;
result->kind = EvalStatementKind::Variable;
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 = doCreateEvalType(fileName,typeName,parentScope);
result->definitionString=typeName;
result->kind = EvalStatementKind::Variable;
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"<<typeName<<lastResult->baseStatement->type<<lastResult->baseStatement->command;
PStatement typeStatement=doFindTypeDefinitionOf(fileName, typeName,parentScope);
if (typeStatement) {
result = doCreateEvalType(fileName,typeName,parentScope);
result->definitionString=typeName;
result->kind = EvalStatementKind::Variable;
} else {
result = PEvalStatement();
}
} else if (STLMaps.contains(parentScope->fullName)) {
QString typeName=doFindTemplateParamOf(fileName,result->templateParams,1,parentScope);
// qDebug()<<"typeName"<<typeName<<lastResult->baseStatement->type<<lastResult->baseStatement->command;
PStatement typeStatement=doFindTypeDefinitionOf(fileName, typeName,parentScope);
if (typeStatement) {
result = doCreateEvalType(fileName,typeName,parentScope);
result->definitionString=typeName;
result->kind = EvalStatementKind::Variable;
} 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"<<typeName;
typeStatement=doFindTypeDefinitionOf(fileName, typeName,parentScope);
if (typeStatement) {
result = doCreateEvalType(fileName,typeName,parentScope);
result->definitionString=typeName;
result->kind = EvalStatementKind::Variable;
} 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,
QStringList &phraseExpression,
int &pos,
const PStatement& scope,
const PEvalStatement& previousResult,
bool freeScoped) const
{
// qDebug()<<"eval scope res "<<pos<<phraseExpression;
PEvalStatement result;
if (pos>=phraseExpression.length())
return result;
result = doEvalTerm(
fileName,
phraseExpression,
pos,
scope,
previousResult,
freeScoped);
while (pos<phraseExpression.length()) {
if (phraseExpression[pos]=="::" ) {
pos++;
if (!result) {
//global
result = doEvalTerm(fileName,
phraseExpression,
pos,
PStatement(),
PEvalStatement(),
false);
} else if (result->kind == 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()<<pos<<"scope end";
return result;
}
PEvalStatement CppParser::doEvalTerm(const QString &fileName,
QStringList &phraseExpression,
int &pos,
const PStatement& scope,
const PEvalStatement& previousResult,
bool freeScoped) const
{
// if (previousResult) {
// qDebug()<<"eval term "<<pos<<phraseExpression<<previousResult->baseType<<freeScoped;
// } else {
// qDebug()<<"eval term "<<pos<<phraseExpression<<"no type"<<freeScoped;
// }
PEvalStatement result;
if (pos>=phraseExpression.length())
return result;
// qDebug()<<"eval term"<<phraseExpression[pos];
if (phraseExpression[pos]=="(") {
pos++;
result = doEvalExpression(fileName,phraseExpression,pos,scope,PEvalStatement(),freeScoped);
if (pos >= 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();
}
if (statement) {
switch (statement->kind) {
case StatementKind::skNamespace:
result = doCreateEvalNamespace(statement);
break;
case StatementKind::skAlias: {
statement = doFindAliasedStatement(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:
result = doCreateEvalFunction(fileName,statement);
break;
case StatementKind::skPreprocessor:
// qDebug()<<"before"<<phraseExpression;
pos--;
if (expandMacro(phraseExpression,pos,statement)) {
// qDebug()<<"after"<<phraseExpression;
result = doEvalExpression(fileName,phraseExpression,pos,scope,previousResult,freeScoped);
} else
result = PEvalStatement();
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()<<pos<<" term end";
// if (!result) {
// qDebug()<<"not found !!!!";
// }
return result;
}
bool CppParser::expandMacro(QStringList &phraseExpression, int &pos, const PStatement &macro) const
{
QString s;
if (macro->args.isEmpty()) {
s=macro->value;
phraseExpression.removeAt(pos);
} else {
QString args=macro->args.mid(1,macro->args.length()-2).trimmed(); // remove '(' ')'
if(args=="")
return false;
QStringList argList = args.split(',');
QList<bool> argUsed;
for (int i=0;i<argList.size();i++) {
argList[i]=argList[i].trimmed();
argUsed.append(false);
}
QList<PDefineArgToken> 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;i<phraseExpression.length();i++) {
if (phraseExpression[i]==')') {
level--;
if (level==0) {
values.append(current);
break;
}
} else if (phraseExpression[i]=='(') {
level++;
} else {
if (level==1 && phraseExpression[i]==',') {
values.append(current);
current.clear();
continue;
}
}
current+=phraseExpression[i];
}
if (level!=0)
return false;
if (values.length()!=argList.length())
return false;
s = formatStr;
for (int i=0;i<values.length();i++) {
if (argUsed[i]) {
QString argValue = values[i];
s=s.arg(argValue.trimmed());
}
}
for (int j=pos;j<=i;j++) {
phraseExpression.removeAt(pos);
}
}
QSynedit::CppSyntaxer syntaxer;
syntaxer.resetState();
syntaxer.setLine(s,0);
int i=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:
if (token!=macro->command)
phraseExpression.insert(pos+i,token);
else
phraseExpression.insert(pos+i,token+"_expanded");
i++;
break;
default:
phraseExpression.insert(pos+i,token);
i++;
}
syntaxer.next();
}
return true;
}
PEvalStatement CppParser::doCreateEvalNamespace(const PStatement &namespaceStatement) const
{
if (!namespaceStatement)
return PEvalStatement();
return std::make_shared<EvalStatement>(
namespaceStatement->fullName,
EvalStatementKind::Namespace,
PStatement(),
namespaceStatement,
namespaceStatement);
}
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<EvalStatement>(
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<EvalStatement>(
baseType,
EvalStatementKind::Type,
PStatement(),
typeStatement,
effetiveTypeStatement,
pointerLevel,
templateParams
);
} else {
return std::make_shared<EvalStatement>(
typeStatement->fullName,
EvalStatementKind::Type,
typeStatement,
typeStatement,
typeStatement);
}
}
PEvalStatement CppParser::doCreateEvalType(const QString &primitiveType) const
{
return std::make_shared<EvalStatement>(
primitiveType,
EvalStatementKind::Type,
PStatement(),
PStatement(),
PStatement());
}
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<<pointerLevel;
return std::make_shared<EvalStatement>(
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<EvalStatement>(
baseType,
EvalStatementKind::Function,
funcStatement,
typeStatement,
effetiveTypeStatement,
pointerLevel,
templateParams
);
}
PEvalStatement CppParser::doCreateEvalLiteral(const QString &type) const
{
return std::make_shared<EvalStatement>(
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 (pos<expression.length()) {
QString token = expression[pos];
if (token == startSymbol) {
level++;
} else if (token == endSymbol) {
level--;
if (level==0) {
pos++;
return;
}
}
pos++;
}
}
QString CppParser::findFunctionPointerName(int startIdx)
{
Q_ASSERT(mTokenizer[startIdx]->text=="(");
int i=startIdx+1;
int endIdx = mTokenizer[startIdx]->matchIndex;
while (i<endIdx) {
if (isIdentChar(mTokenizer[i]->text[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"<<type;
int position = s.length()-1;
QSynedit::CppSyntaxer syntaxer;
syntaxer.resetState();
syntaxer.setLine(type,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();
}
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--;
}
}
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();
}
//remove all statements from namespace cache
const QList<QString>& 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);
}
}
// delete it from scannedfiles
mPreprocessor.removeScannedFile(fileName);
}
void CppParser::internalInvalidateFiles(const QSet<QString> &files)
{
for (const QString& file:files)
internalInvalidateFile(file);
}
QSet<QString> CppParser::calculateFilesToBeReparsed(const QString &fileName)
{
if (fileName.isEmpty())
return QSet<QString>();
QSet<QString> result;
result.insert(fileName);
foreach (const QString& file, mProjectFiles) {
PFileIncludes fileIncludes = mPreprocessor.includesList().value(file,PFileIncludes());
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+1<argEnd
&& mTokenizer[mTokenizer[i]->matchIndex+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=="::") {
words.append(mTokenizer[i]->text);
i++;
} else if (mTokenizer[i]->text==',') {
addMethodParameterStatement(words,mTokenizer[i]->line,functionStatement);
i++;
words.clear();
} else if (isWordChar(mTokenizer[i]->text[0])) {
QString cmd=mTokenizer[i]->text;
words.append(cmd);
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<phraseLength;i++) {
if ((i+1<phrase.length()) && (phrase[i] == '-') && (phrase[i + 1] == '>') && (bracketLevel==0)) {
firstOpStart = i;
firstOpEnd = i+2;
sOperator = "->";
break;
} else if ((i+1<phrase.length()) && (phrase[i] == ':') && (phrase[i + 1] == ':') && (bracketLevel==0)) {
firstOpStart = i;
firstOpEnd = i+2;
sOperator = "::";
break;
} else if ((phrase[i] == '.') && (bracketLevel==0)) {
firstOpStart = i;
firstOpEnd = i+1;
sOperator = ".";
break;
} else if (phrase[i] == '[') {
bracketLevel++;
} else if (phrase[i] == ']') {
bracketLevel--;
}
}
sClazz = phrase.mid(0, firstOpStart);
if (firstOpStart == 0) {
sMember = "";
return "";
}
result = phrase.mid(firstOpEnd);
// ... and before second op, if there is one
int secondOp = 0;
bracketLevel = 0;
for (int i = firstOpEnd; i<phraseLength;i++) {
if ((i+1<phraseLength) && (phrase[i] == '-') && (phrase[i + 1] == '>') && (bracketLevel=0)) {
secondOp = i;
break;
} else if ((i+1<phraseLength) && (phrase[i] == ':') && (phrase[i + 1] == ':') && (bracketLevel=0)) {
secondOp = i;
break;
} else if ((phrase[i] == '.') && (bracketLevel=0)) {
secondOp = i;
break;
} else if (phrase[i] == '[') {
bracketLevel++;
} else if (phrase[i] == ']') {
bracketLevel--;
}
}
if (secondOp == 0) {
sMember = phrase.mid(firstOpEnd);
} else {
sMember = phrase.mid(firstOpEnd,secondOp-firstOpEnd);
}
return result;
}
QString CppParser::removeTemplateParams(const QString &phrase) const
{
int pos = phrase.indexOf('<');
if (pos>=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 (i<endPos) {
QChar ch=mTokenizer[i]->text[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 (i<endPos &&
(mTokenizer[i]->text=='('
|| 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 endIndex)
{
if (endIndex<0)
endIndex=mTokenizer.tokenCount();
while (index<endIndex) {
switch(mTokenizer[index]->text[0].unicode()) {
case ';':
return index;
case '(':
index = mTokenizer[index]->matchIndex+1;
break;
default:
index++;
}
}
return index;
}
int CppParser::indexOfNextPeriodOrSemicolon(int index, int endIndex)
{
if (endIndex<0)
endIndex=mTokenizer.tokenCount();
while (index<endIndex) {
switch(mTokenizer[index]->text[0].unicode()) {
case ';':
case ',':
case '}':
return index;
case '(':
index = mTokenizer[index]->matchIndex+1;
break;
default:
index++;
}
}
return index;
}
int CppParser::indexOfNextSemicolonOrLeftBrace(int index)
{
int tokenCount = mTokenizer.tokenCount();
while (index<tokenCount) {
switch(mTokenizer[index]->text[0].unicode()) {
case ';':
case '{':
return index;
case '(':
index = mTokenizer[index]->matchIndex+1;
break;
default:
index++;
}
}
return index;
}
int CppParser::indexOfNextColon(int index)
{
int tokenCount = mTokenizer.tokenCount();
while (index<tokenCount) {
QString s =mTokenizer[index]->text;
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 tokenCount = mTokenizer.tokenCount();
while (index<tokenCount) {
switch(mTokenizer[index]->text[0].unicode()) {
case '{':
return index;
case '(':
index = mTokenizer[index]->matchIndex+1;
break;
default:
index++;
}
}
return index;
}
int CppParser::indexPassParenthesis(int index)
{
int tokenCount = mTokenizer.tokenCount();
while (index<tokenCount) {
if (mTokenizer[index]->text=='(') {
return mTokenizer[index]->matchIndex+1;
}
index++;
}
return index;
}
//int CppParser::indexPassBraces(int index)
//{
// int tokenCount = mTokenizer.tokenCount();
// while (index<tokenCount) {
// switch(mTokenizer[index]->text[0].unicode()) {
// case '{':
// return mTokenizer[index]->matchIndex+1;
// case '(':
// index = mTokenizer[index]->matchIndex+1;
// break;
// default:
// index++;
// }
// }
// return index;
//}
void CppParser::skipNextSemicolon(int index)
{
int tokenCount = mTokenizer.tokenCount();
mIndex=index;
while (mIndex<tokenCount) {
switch(mTokenizer[mIndex]->text[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 endIndex)
{
int startIndex=index;
if (endIndex<0)
endIndex=mTokenizer.tokenCount();
if (index>=endIndex)
return index;
index--; // compensate for the first loop
bool skip=true;
do {
index++;
bool stop = false;
while (index<endIndex && !stop) {
switch(mTokenizer[index]->text[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 (index<mTokenizer.tokenCount() && mTokenizer[index]->text=='=');
if (index<endIndex && checkLambda) {
while (mTokenizer.lambdasCount()>0 && mTokenizer.indexOfFirstLambda()<index) {
int i=mTokenizer.indexOfFirstLambda();
mTokenizer.removeFirstLambda();
if (i>=startIndex) {
handleLambda(i,index);
}
}
}
if (skip)
index++;
return index;
}
void CppParser::skipParenthesis(int index)
{
int tokenCount = mTokenizer.tokenCount();
mIndex=index;
while (mIndex<tokenCount) {
if (mTokenizer[mIndex]->text=='(') {
mIndex=mTokenizer[mIndex]->matchIndex+1;
return;
}
mIndex++;
}
}
int CppParser::skipAssignment(int index, int endIndex)
{
int startIndex=index;
bool stop=false;
while (index<endIndex && !stop) {
switch(mTokenizer[index]->text[0].unicode()) {
case ';':
case ',':
case '{':
stop=true;
break;
case '(':
index = mTokenizer[index]->matchIndex+1;
break;
default:
index++;
}
}
if (stop) {
while (mTokenizer.lambdasCount()>0 && mTokenizer.indexOfFirstLambda()<index) {
int i=mTokenizer.indexOfFirstLambda();
mTokenizer.removeFirstLambda();
if (i>=startIndex) {
handleLambda(i,index);
}
}
}
return (index<endIndex)?index:endIndex;
}
QString CppParser::mergeArgs(int startIndex, int endIndex)
{
QString result;
for (int i=startIndex;i<=endIndex;i++) {
if (i>startIndex)
result+=' ';
result+=mTokenizer[i]->text;
}
return result;
}
void CppParser::parseCommandTypeAndArgs(QString &command, QString &typeSuffix, QString &args) const
{
int prefix=0;
while (prefix<command.length() && (command[prefix]=='*' || command[prefix]=='&')) {
prefix++;
}
if (prefix>0) {
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="";
}
}
const QSet<QString> &CppParser::projectFiles() const
{
return mProjectFiles;
}
QList<QString> CppParser::namespaces()
{
QMutexLocker locker(&mMutex);
return mNamespaces.keys();
}
ParserLanguage CppParser::language() const
{
return mLanguage;
}
void CppParser::setLanguage(ParserLanguage newLanguage)
{
mLanguage = newLanguage;
}
const StatementModel &CppParser::statementList() const
{
return mStatementList;
}
bool CppParser::parseGlobalHeaders() const
{
return mParseGlobalHeaders;
}
void CppParser::setParseGlobalHeaders(bool newParseGlobalHeaders)
{
mParseGlobalHeaders = newParseGlobalHeaders;
}
const QSet<QString> &CppParser::includePaths()
{
return mPreprocessor.includePaths();
}
const QSet<QString> &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<QString> &CppParser::filesToScan() const
{
return mFilesToScan;
}
void CppParser::setFilesToScan(const QSet<QString> &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;
//delete when finished
CppFileParserThread* thread = new CppFileParserThread(parser,fileName,inProject,onlyIfNotParsed,updateView);
thread->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();
}