/* * Cppcheck - A tool for static C/C++ code analysis * Copyright (C) 2007-2022 Cppcheck team. * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "clangimport.h" #include "errortypes.h" #include "mathlib.h" #include "settings.h" #include "symboldatabase.h" #include "token.h" #include "tokenize.h" #include "tokenlist.h" #include "utils.h" #include "valueflow.h" #include #include #include #include #include #include #include #include #include #include // IWYU pragma: keep #include #include #include #include static const std::string AccessSpecDecl = "AccessSpecDecl"; static const std::string ArraySubscriptExpr = "ArraySubscriptExpr"; static const std::string BinaryOperator = "BinaryOperator"; static const std::string BreakStmt = "BreakStmt"; static const std::string CallExpr = "CallExpr"; static const std::string CaseStmt = "CaseStmt"; static const std::string CharacterLiteral = "CharacterLiteral"; static const std::string ClassTemplateDecl = "ClassTemplateDecl"; static const std::string ClassTemplateSpecializationDecl = "ClassTemplateSpecializationDecl"; static const std::string ConditionalOperator = "ConditionalOperator"; static const std::string ConstantExpr = "ConstantExpr"; static const std::string CompoundAssignOperator = "CompoundAssignOperator"; static const std::string CompoundStmt = "CompoundStmt"; static const std::string ContinueStmt = "ContinueStmt"; static const std::string CStyleCastExpr = "CStyleCastExpr"; static const std::string CXXBindTemporaryExpr = "CXXBindTemporaryExpr"; static const std::string CXXBoolLiteralExpr = "CXXBoolLiteralExpr"; static const std::string CXXConstructorDecl = "CXXConstructorDecl"; static const std::string CXXConstructExpr = "CXXConstructExpr"; static const std::string CXXDefaultArgExpr = "CXXDefaultArgExpr"; static const std::string CXXDeleteExpr = "CXXDeleteExpr"; static const std::string CXXDestructorDecl = "CXXDestructorDecl"; static const std::string CXXForRangeStmt = "CXXForRangeStmt"; static const std::string CXXFunctionalCastExpr = "CXXFunctionalCastExpr"; static const std::string CXXMemberCallExpr = "CXXMemberCallExpr"; static const std::string CXXMethodDecl = "CXXMethodDecl"; static const std::string CXXNewExpr = "CXXNewExpr"; static const std::string CXXNullPtrLiteralExpr = "CXXNullPtrLiteralExpr"; static const std::string CXXOperatorCallExpr = "CXXOperatorCallExpr"; static const std::string CXXRecordDecl = "CXXRecordDecl"; static const std::string CXXStaticCastExpr = "CXXStaticCastExpr"; static const std::string CXXStdInitializerListExpr = "CXXStdInitializerListExpr"; static const std::string CXXTemporaryObjectExpr = "CXXTemporaryObjectExpr"; static const std::string CXXThisExpr = "CXXThisExpr"; static const std::string CXXThrowExpr = "CXXThrowExpr"; static const std::string DeclRefExpr = "DeclRefExpr"; static const std::string DeclStmt = "DeclStmt"; static const std::string DefaultStmt = "DefaultStmt"; static const std::string DoStmt = "DoStmt"; static const std::string EnumConstantDecl = "EnumConstantDecl"; static const std::string EnumDecl = "EnumDecl"; static const std::string ExprWithCleanups = "ExprWithCleanups"; static const std::string FieldDecl = "FieldDecl"; static const std::string FloatingLiteral = "FloatingLiteral"; static const std::string ForStmt = "ForStmt"; static const std::string FunctionDecl = "FunctionDecl"; static const std::string FunctionTemplateDecl = "FunctionTemplateDecl"; static const std::string GotoStmt = "GotoStmt"; static const std::string IfStmt = "IfStmt"; static const std::string ImplicitCastExpr = "ImplicitCastExpr"; static const std::string InitListExpr = "InitListExpr"; static const std::string IntegerLiteral = "IntegerLiteral"; static const std::string LabelStmt = "LabelStmt"; static const std::string LinkageSpecDecl = "LinkageSpecDecl"; static const std::string MaterializeTemporaryExpr = "MaterializeTemporaryExpr"; static const std::string MemberExpr = "MemberExpr"; static const std::string NamespaceDecl = "NamespaceDecl"; static const std::string NullStmt = "NullStmt"; static const std::string ParenExpr = "ParenExpr"; static const std::string ParmVarDecl = "ParmVarDecl"; static const std::string RecordDecl = "RecordDecl"; static const std::string ReturnStmt = "ReturnStmt"; static const std::string StringLiteral = "StringLiteral"; static const std::string SwitchStmt = "SwitchStmt"; static const std::string TemplateArgument = "TemplateArgument"; static const std::string TypedefDecl = "TypedefDecl"; static const std::string UnaryOperator = "UnaryOperator"; static const std::string UnaryExprOrTypeTraitExpr = "UnaryExprOrTypeTraitExpr"; static const std::string VarDecl = "VarDecl"; static const std::string WhileStmt = "WhileStmt"; static std::string unquote(const std::string &s) { return (s[0] == '\'') ? s.substr(1, s.size() - 2) : s; } static std::vector splitString(const std::string &line) { std::vector ret; std::string::size_type pos1 = line.find_first_not_of(" "); while (pos1 < line.size()) { std::string::size_type pos2; if (std::strchr("*()", line[pos1])) { ret.push_back(line.substr(pos1,1)); pos1 = line.find_first_not_of(" ", pos1 + 1); continue; } if (line[pos1] == '<') pos2 = line.find(">", pos1); else if (line[pos1] == '\"') pos2 = line.find("\"", pos1+1); else if (line[pos1] == '\'') { pos2 = line.find("\'", pos1+1); if (pos2 < (int)line.size() - 3 && line.compare(pos2, 3, "\':\'", 0, 3) == 0) pos2 = line.find("\'", pos2 + 3); } else { pos2 = pos1; while (pos2 < line.size() && (line[pos2] == '_' || line[pos2] == ':' || std::isalnum((unsigned char)line[pos2]))) ++pos2; if (pos2 > pos1 && pos2 < line.size() && line[pos2] == '<' && std::isalpha(line[pos1])) { int tlevel = 1; while (++pos2 < line.size() && tlevel > 0) { if (line[pos2] == '<') ++tlevel; else if (line[pos2] == '>') --tlevel; } if (tlevel == 0 && pos2 < line.size() && line[pos2] == ' ') { ret.push_back(line.substr(pos1, pos2-pos1)); pos1 = pos2 + 1; continue; } } pos2 = line.find(" ", pos1) - 1; if ((std::isalpha(line[pos1]) || line[pos1] == '_') && line.find("::", pos1) < pos2 && line.find("::", pos1) < line.find("<", pos1)) { pos2 = line.find("::", pos1); ret.push_back(line.substr(pos1, pos2-pos1)); ret.emplace_back("::"); pos1 = pos2 + 2; continue; } if ((std::isalpha(line[pos1]) || line[pos1] == '_') && line.find("<", pos1) < pos2 && line.find("<<",pos1) != line.find("<",pos1) && line.find(">", pos1) != std::string::npos && line.find(">", pos1) > pos2) { int level = 0; for (pos2 = pos1; pos2 < line.size(); ++pos2) { if (line[pos2] == '<') ++level; else if (line[pos2] == '>') { if (level <= 1) break; --level; } } if (level > 1 && pos2 + 1 >= line.size()) return std::vector {}; pos2 = line.find(" ", pos2); if (pos2 != std::string::npos) --pos2; } } if (pos2 == std::string::npos) { ret.push_back(line.substr(pos1)); break; } ret.push_back(line.substr(pos1, pos2+1-pos1)); pos1 = line.find_first_not_of(" ", pos2 + 1); } return ret; } namespace clangimport { struct Data { struct Decl { explicit Decl(Scope *scope) : def(nullptr), enumerator(nullptr), function(nullptr), scope(scope), var(nullptr) {} Decl(Token *def, Variable *var) : def(def), enumerator(nullptr), function(nullptr), scope(nullptr), var(var) {} Decl(Token *def, Function *function) : def(def), enumerator(nullptr), function(function), scope(nullptr), var(nullptr) {} Decl(Token *def, Enumerator *enumerator) : def(def), enumerator(enumerator), function(nullptr), scope(nullptr), var(nullptr) {} void ref(Token *tok) const { if (enumerator) tok->enumerator(enumerator); if (function) tok->function(function); if (var) { tok->variable(var); tok->varId(var->declarationId()); } } Token *def; Enumerator *enumerator; Function *function; Scope *scope; Variable *var; }; const Settings *mSettings = nullptr; SymbolDatabase *mSymbolDatabase = nullptr; int enumValue = 0; void enumDecl(const std::string &addr, Token *nameToken, Enumerator *enumerator) { Decl decl(nameToken, enumerator); mDeclMap.insert(std::pair(addr, decl)); nameToken->enumerator(enumerator); notFound(addr); } void funcDecl(const std::string &addr, Token *nameToken, Function *function) { Decl decl(nameToken, function); mDeclMap.insert(std::pair(addr, decl)); nameToken->function(function); notFound(addr); } void scopeDecl(const std::string &addr, Scope *scope) { Decl decl(scope); mDeclMap.insert(std::pair(addr, decl)); } void varDecl(const std::string &addr, Token *def, Variable *var) { Decl decl(def, var); mDeclMap.insert(std::pair(addr, decl)); def->varId(++mVarId); def->variable(var); if (def->valueType()) var->setValueType(*def->valueType()); notFound(addr); } void replaceVarDecl(const Variable *from, Variable *to) { for (auto &it: mDeclMap) { Decl &decl = it.second; if (decl.var == from) decl.var = to; } } void ref(const std::string &addr, Token *tok) { auto it = mDeclMap.find(addr); if (it != mDeclMap.end()) it->second.ref(tok); else mNotFound[addr].push_back(tok); } std::vector getVariableList() const { std::vector ret; ret.resize(mVarId + 1, nullptr); for (const auto& it: mDeclMap) { if (it.second.var) ret[it.second.var->declarationId()] = it.second.var; } return ret; } bool hasDecl(const std::string &addr) const { return mDeclMap.find(addr) != mDeclMap.end(); } const Scope *getScope(const std::string &addr) { auto it = mDeclMap.find(addr); return (it == mDeclMap.end() ? nullptr : it->second.scope); } // "}" tokens that are not end-of-scope std::set mNotScope; std::map scopeAccessControl; private: void notFound(const std::string &addr) { auto it = mNotFound.find(addr); if (it != mNotFound.end()) { for (Token *reftok: it->second) ref(addr, reftok); mNotFound.erase(it); } } std::map mDeclMap; std::map> mNotFound; int mVarId = 0; }; class AstNode; using AstNodePtr = std::shared_ptr; class AstNode { public: AstNode(std::string nodeType, const std::string &ext, Data *data) : nodeType(std::move(nodeType)), mExtTokens(splitString(ext)), mData(data) {} std::string nodeType; std::vector children; void setLocations(TokenList *tokenList, int file, int line, int col); void dumpAst(int num = 0, int indent = 0) const; void createTokens1(TokenList *tokenList) { //dumpAst(); if (!tokenList->back()) setLocations(tokenList, 0, 1, 1); else setLocations(tokenList, tokenList->back()->fileIndex(), tokenList->back()->linenr(), 1); createTokens(tokenList); if (nodeType == VarDecl || nodeType == RecordDecl || nodeType == TypedefDecl) addtoken(tokenList, ";"); mData->mNotScope.clear(); } AstNodePtr getChild(int c) { if (c >= children.size()) { std::ostringstream err; err << "ClangImport: AstNodePtr::getChild(" << c << ") out of bounds. children.size=" << children.size() << " " << nodeType; for (const std::string &s: mExtTokens) err << " " << s; throw InternalError(nullptr, err.str()); } return children[c]; } private: Token *createTokens(TokenList *tokenList); Token *addtoken(TokenList *tokenList, const std::string &str, bool valueType=true); const ::Type *addTypeTokens(TokenList *tokenList, const std::string &str, const Scope *scope = nullptr); void addFullScopeNameTokens(TokenList *tokenList, const Scope *recordScope); Scope *createScope(TokenList *tokenList, Scope::ScopeType scopeType, AstNodePtr astNode, const Token *def); Scope *createScope(TokenList *tokenList, Scope::ScopeType scopeType, const std::vector &children2, const Token *def); Token *createTokensCall(TokenList *tokenList); void createTokensFunctionDecl(TokenList *tokenList); void createTokensForCXXRecord(TokenList *tokenList); Token *createTokensVarDecl(TokenList *tokenList); std::string getSpelling() const; std::string getType(int index = 0) const; std::string getFullType(int index = 0) const; bool isDefinition() const; std::string getTemplateParameters() const; const Scope *getNestedInScope(TokenList *tokenList); void setValueType(Token *tok); int mFile = 0; int mLine = 1; int mCol = 1; std::vector mExtTokens; Data *mData; }; } std::string clangimport::AstNode::getSpelling() const { if (nodeType == CompoundAssignOperator) { int typeIndex = 1; while (typeIndex < mExtTokens.size() && mExtTokens[typeIndex][0] != '\'') typeIndex++; // name is next quoted token int nameIndex = typeIndex + 1; while (nameIndex < mExtTokens.size() && mExtTokens[nameIndex][0] != '\'') nameIndex++; return (nameIndex < mExtTokens.size()) ? unquote(mExtTokens[nameIndex]) : ""; } if (nodeType == UnaryExprOrTypeTraitExpr) { int typeIndex = 1; while (typeIndex < mExtTokens.size() && mExtTokens[typeIndex][0] != '\'') typeIndex++; int nameIndex = typeIndex + 1; return (nameIndex < mExtTokens.size()) ? unquote(mExtTokens[nameIndex]) : ""; } int typeIndex = mExtTokens.size() - 1; if (nodeType == FunctionDecl || nodeType == CXXConstructorDecl || nodeType == CXXMethodDecl) { while (typeIndex >= 0 && mExtTokens[typeIndex][0] != '\'') typeIndex--; if (typeIndex <= 0) return ""; } if (nodeType == DeclRefExpr) { while (typeIndex > 0 && std::isalpha(mExtTokens[typeIndex][0])) typeIndex--; if (typeIndex <= 0) return ""; } const std::string &str = mExtTokens[typeIndex - 1]; if (str.compare(0,4,"col:") == 0) return ""; if (str.compare(0,8,"= mExtTokens.size()) return ""; std::string type = mExtTokens[typeIndex]; if (type.find("\':\'") != std::string::npos) { if (index == 0) type.erase(type.find("\':\'") + 1); else type.erase(0, type.find("\':\'") + 2); } return type; } bool clangimport::AstNode::isDefinition() const { return contains(mExtTokens, "definition"); } std::string clangimport::AstNode::getTemplateParameters() const { if (children.empty() || children[0]->nodeType != TemplateArgument) return ""; std::string templateParameters; for (const AstNodePtr& child: children) { if (child->nodeType == TemplateArgument) { if (templateParameters.empty()) templateParameters = "<"; else templateParameters += ","; templateParameters += unquote(child->mExtTokens.back()); } } return templateParameters + ">"; } void clangimport::AstNode::dumpAst(int num, int indent) const { (void)num; std::cout << std::string(indent, ' ') << nodeType; for (const auto& tok: mExtTokens) std::cout << " " << tok; std::cout << std::endl; for (int c = 0; c < children.size(); ++c) { if (children[c]) children[c]->dumpAst(c, indent + 2); else std::cout << std::string(indent + 2, ' ') << "<<<>>>>" << std::endl; } } void clangimport::AstNode::setLocations(TokenList *tokenList, int file, int line, int col) { for (const std::string &ext: mExtTokens) { if (ext.compare(0, 5, " 4 && ext[3] == '\\'; std::string::size_type sep1 = windowsPath ? ext.find(':', 4) : colon; std::string::size_type sep2 = ext.find(':', sep1 + 1); file = tokenList->appendFileIfNew(ext.substr(1, sep1 - 1)); line = MathLib::toLongNumber(ext.substr(sep1 + 1, sep2 - sep1 - 1)); } } } mFile = file; mLine = line; mCol = col; for (const auto& child: children) { if (child) child->setLocations(tokenList, file, line, col); } } Token *clangimport::AstNode::addtoken(TokenList *tokenList, const std::string &str, bool valueType) { const Scope *scope = getNestedInScope(tokenList); tokenList->addtoken(str, mLine, mCol, mFile); tokenList->back()->scope(scope); if (valueType) setValueType(tokenList->back()); return tokenList->back(); } const ::Type * clangimport::AstNode::addTypeTokens(TokenList *tokenList, const std::string &str, const Scope *scope) { if (str.find("\':\'") != std::string::npos) { return addTypeTokens(tokenList, str.substr(0, str.find("\':\'") + 1), scope); } if (str.compare(0, 16, "'enum (anonymous") == 0) return nullptr; std::string type; if (str.find(" (") != std::string::npos) { if (str.find("<") != std::string::npos) type = str.substr(1, str.find("<")) + "...>"; else type = str.substr(1,str.find(" (")-1); } else type = unquote(str); if (type.find("(*)(") != std::string::npos) { type.erase(type.find("(*)(")); type += "*"; } if (type.find("(") != std::string::npos) type.erase(type.find("(")); std::stack lpar; for (const std::string &s: splitString(type)) { Token *tok = addtoken(tokenList, s, false); if (tok->str() == "(") lpar.push(tok); else if (tok->str() == ")") { Token::createMutualLinks(tok, lpar.top()); lpar.pop(); } } // Set Type if (!scope) { scope = tokenList->back() ? tokenList->back()->scope() : nullptr; if (!scope) return nullptr; } for (const Token *typeToken = tokenList->back(); Token::Match(typeToken, "&|*|%name%"); typeToken = typeToken->previous()) { if (!typeToken->isName()) continue; const ::Type *recordType = scope->check->findVariableType(scope, typeToken); if (recordType) { const_cast(typeToken)->type(recordType); return recordType; } } return nullptr; } void clangimport::AstNode::addFullScopeNameTokens(TokenList *tokenList, const Scope *recordScope) { if (!recordScope) return; std::list scopes; while (recordScope && recordScope != tokenList->back()->scope() && !recordScope->isExecutable()) { scopes.push_front(recordScope); recordScope = recordScope->nestedIn; } for (const Scope *s: scopes) { if (!s->className.empty()) { addtoken(tokenList, s->className); addtoken(tokenList, "::"); } } } const Scope *clangimport::AstNode::getNestedInScope(TokenList *tokenList) { if (!tokenList->back()) return &mData->mSymbolDatabase->scopeList.front(); if (tokenList->back()->str() == "}" && mData->mNotScope.find(tokenList->back()) == mData->mNotScope.end()) return tokenList->back()->scope()->nestedIn; return tokenList->back()->scope(); } void clangimport::AstNode::setValueType(Token *tok) { for (int i = 0; i < 2; i++) { const std::string &type = getType(i); if (type.find("<") != std::string::npos) // TODO continue; TokenList decl(nullptr); addTypeTokens(&decl, type, tok->scope()); if (!decl.front()) break; ValueType valueType = ValueType::parseDecl(decl.front(), mData->mSettings, true); // TODO: set isCpp if (valueType.type != ValueType::Type::UNKNOWN_TYPE) { tok->setValueType(new ValueType(valueType)); break; } } } Scope *clangimport::AstNode::createScope(TokenList *tokenList, Scope::ScopeType scopeType, AstNodePtr astNode, const Token *def) { std::vector children2{astNode}; return createScope(tokenList, scopeType, children2, def); } Scope *clangimport::AstNode::createScope(TokenList *tokenList, Scope::ScopeType scopeType, const std::vector & children2, const Token *def) { SymbolDatabase *symbolDatabase = mData->mSymbolDatabase; Scope *nestedIn = const_cast(getNestedInScope(tokenList)); symbolDatabase->scopeList.emplace_back(nullptr, nullptr, nestedIn); Scope *scope = &symbolDatabase->scopeList.back(); if (scopeType == Scope::ScopeType::eEnum) scope->enumeratorList.reserve(children2.size()); nestedIn->nestedList.push_back(scope); scope->type = scopeType; scope->classDef = def; scope->check = nestedIn->check; if (Token::Match(def, "if|for|while (")) { std::map replaceVar; for (const Token *vartok = def->tokAt(2); vartok; vartok = vartok->next()) { if (!vartok->variable()) continue; if (vartok->variable()->nameToken() == vartok) { const Variable *from = vartok->variable(); scope->varlist.emplace_back(*from, scope); Variable *to = &scope->varlist.back(); replaceVar[from] = to; mData->replaceVarDecl(from, to); } if (replaceVar.find(vartok->variable()) != replaceVar.end()) const_cast(vartok)->variable(replaceVar[vartok->variable()]); } std::list &varlist = const_cast(def->scope())->varlist; for (std::list::iterator var = varlist.begin(); var != varlist.end();) { if (replaceVar.find(&(*var)) != replaceVar.end()) varlist.erase(var++); else ++var; } } scope->bodyStart = addtoken(tokenList, "{"); tokenList->back()->scope(scope); mData->scopeAccessControl[scope] = scope->defaultAccess(); if (!children2.empty()) { for (const AstNodePtr &astNode: children2) { if (astNode->nodeType == "VisibilityAttr") continue; if (astNode->nodeType == AccessSpecDecl) { if (contains(astNode->mExtTokens, "private")) mData->scopeAccessControl[scope] = AccessControl::Private; else if (contains(astNode->mExtTokens, "protected")) mData->scopeAccessControl[scope] = AccessControl::Protected; else if (contains(astNode->mExtTokens, "public")) mData->scopeAccessControl[scope] = AccessControl::Public; continue; } astNode->createTokens(tokenList); if (scopeType == Scope::ScopeType::eEnum) astNode->addtoken(tokenList, ","); else if (!Token::Match(tokenList->back(), "[;{}]")) astNode->addtoken(tokenList, ";"); } } scope->bodyEnd = addtoken(tokenList, "}"); Token::createMutualLinks(const_cast(scope->bodyStart), const_cast(scope->bodyEnd)); mData->scopeAccessControl.erase(scope); return scope; } Token *clangimport::AstNode::createTokens(TokenList *tokenList) { if (nodeType == ArraySubscriptExpr) { Token *array = getChild(0)->createTokens(tokenList); Token *bracket1 = addtoken(tokenList, "["); Token *index = children[1]->createTokens(tokenList); Token *bracket2 = addtoken(tokenList, "]"); bracket1->astOperand1(array); bracket1->astOperand2(index); bracket1->link(bracket2); bracket2->link(bracket1); return bracket1; } if (nodeType == BinaryOperator) { Token *tok1 = getChild(0)->createTokens(tokenList); Token *binop = addtoken(tokenList, unquote(mExtTokens.back())); Token *tok2 = children[1]->createTokens(tokenList); binop->astOperand1(tok1); binop->astOperand2(tok2); return binop; } if (nodeType == BreakStmt) return addtoken(tokenList, "break"); if (nodeType == CharacterLiteral) { int c = MathLib::toLongNumber(mExtTokens.back()); if (c == 0) return addtoken(tokenList, "\'\\0\'"); if (c == '\r') return addtoken(tokenList, "\'\\r\'"); if (c == '\n') return addtoken(tokenList, "\'\\n\'"); if (c == '\t') return addtoken(tokenList, "\'\\t\'"); if (c == '\\') return addtoken(tokenList, "\'\\\\\'"); if (c < ' ' || c >= 0x80) { std::ostringstream hex; hex << std::hex << ((c>>4) & 0xf) << (c&0xf); return addtoken(tokenList, "\'\\x" + hex.str() + "\'"); } return addtoken(tokenList, std::string("\'") + char(c) + std::string("\'")); } if (nodeType == CallExpr) return createTokensCall(tokenList); if (nodeType == CaseStmt) { Token *caseToken = addtoken(tokenList, "case"); Token *exprToken = getChild(0)->createTokens(tokenList); caseToken->astOperand1(exprToken); addtoken(tokenList, ":"); children.back()->createTokens(tokenList); return nullptr; } if (nodeType == ClassTemplateDecl) { for (const AstNodePtr& child: children) { if (child->nodeType == ClassTemplateSpecializationDecl) child->createTokens(tokenList); } return nullptr; } if (nodeType == ClassTemplateSpecializationDecl) { createTokensForCXXRecord(tokenList); return nullptr; } if (nodeType == ConditionalOperator) { Token *expr1 = getChild(0)->createTokens(tokenList); Token *tok1 = addtoken(tokenList, "?"); Token *expr2 = children[1]->createTokens(tokenList); Token *tok2 = addtoken(tokenList, ":"); Token *expr3 = children[2]->createTokens(tokenList); tok2->astOperand1(expr2); tok2->astOperand2(expr3); tok1->astOperand1(expr1); tok1->astOperand2(tok2); return tok1; } if (nodeType == CompoundAssignOperator) { Token *lhs = getChild(0)->createTokens(tokenList); Token *assign = addtoken(tokenList, getSpelling()); Token *rhs = children[1]->createTokens(tokenList); assign->astOperand1(lhs); assign->astOperand2(rhs); return assign; } if (nodeType == CompoundStmt) { for (const AstNodePtr& child: children) { child->createTokens(tokenList); if (!Token::Match(tokenList->back(), "[;{}]")) child->addtoken(tokenList, ";"); } return nullptr; } if (nodeType == ConstantExpr) return children.back()->createTokens(tokenList); if (nodeType == ContinueStmt) return addtoken(tokenList, "continue"); if (nodeType == CStyleCastExpr) { Token *par1 = addtoken(tokenList, "("); addTypeTokens(tokenList, '\'' + getType() + '\''); Token *par2 = addtoken(tokenList, ")"); par1->link(par2); par2->link(par1); par1->astOperand1(getChild(0)->createTokens(tokenList)); return par1; } if (nodeType == CXXBindTemporaryExpr) return getChild(0)->createTokens(tokenList); if (nodeType == CXXBoolLiteralExpr) { addtoken(tokenList, mExtTokens.back()); tokenList->back()->setValueType(new ValueType(ValueType::Sign::UNKNOWN_SIGN, ValueType::Type::BOOL, 0)); return tokenList->back(); } if (nodeType == CXXConstructExpr) { if (!children.empty()) return getChild(0)->createTokens(tokenList); addTypeTokens(tokenList, '\'' + getType() + '\''); Token *type = tokenList->back(); Token *par1 = addtoken(tokenList, "("); Token *par2 = addtoken(tokenList, ")"); par1->link(par2); par2->link(par1); par1->astOperand1(type); return par1; } if (nodeType == CXXConstructorDecl) { createTokensFunctionDecl(tokenList); return nullptr; } if (nodeType == CXXDeleteExpr) { addtoken(tokenList, "delete"); getChild(0)->createTokens(tokenList); return nullptr; } if (nodeType == CXXDestructorDecl) { createTokensFunctionDecl(tokenList); return nullptr; } if (nodeType == CXXForRangeStmt) { Token *forToken = addtoken(tokenList, "for"); Token *par1 = addtoken(tokenList, "("); AstNodePtr varDecl; if (children[6]->nodeType == DeclStmt) varDecl = getChild(6)->getChild(0); else varDecl = getChild(5)->getChild(0); varDecl->mExtTokens.pop_back(); varDecl->children.clear(); Token *expr1 = varDecl->createTokens(tokenList); Token *colon = addtoken(tokenList, ":"); AstNodePtr range; for (int i = 0; i < 2; i++) { if (children[i] && children[i]->nodeType == DeclStmt && children[i]->getChild(0)->nodeType == VarDecl) { range = children[i]->getChild(0)->getChild(0); break; } } if (!range) throw InternalError(tokenList->back(), "Failed to import CXXForRangeStmt. Range?"); Token *expr2 = range->createTokens(tokenList); Token *par2 = addtoken(tokenList, ")"); par1->link(par2); par2->link(par1); colon->astOperand1(expr1); colon->astOperand2(expr2); par1->astOperand1(forToken); par1->astOperand2(colon); createScope(tokenList, Scope::ScopeType::eFor, children.back(), forToken); return nullptr; } if (nodeType == CXXMethodDecl) { for (int i = 0; i+1 < mExtTokens.size(); ++i) { if (mExtTokens[i] == "prev" && !mData->hasDecl(mExtTokens[i+1])) return nullptr; } createTokensFunctionDecl(tokenList); return nullptr; } if (nodeType == CXXMemberCallExpr) return createTokensCall(tokenList); if (nodeType == CXXNewExpr) { Token *newtok = addtoken(tokenList, "new"); if (children.size() == 1 && getChild(0)->nodeType == CXXConstructExpr) { newtok->astOperand1(getChild(0)->createTokens(tokenList)); return newtok; } std::string type = getType(); if (type.find("*") != std::string::npos) type = type.erase(type.rfind("*")); addTypeTokens(tokenList, type); if (!children.empty()) { Token *bracket1 = addtoken(tokenList, "["); getChild(0)->createTokens(tokenList); Token *bracket2 = addtoken(tokenList, "]"); bracket1->link(bracket2); bracket2->link(bracket1); } return newtok; } if (nodeType == CXXNullPtrLiteralExpr) return addtoken(tokenList, "nullptr"); if (nodeType == CXXOperatorCallExpr) return createTokensCall(tokenList); if (nodeType == CXXRecordDecl) { createTokensForCXXRecord(tokenList); return nullptr; } if (nodeType == CXXStaticCastExpr || nodeType == CXXFunctionalCastExpr) { Token *cast = addtoken(tokenList, getSpelling()); Token *par1 = addtoken(tokenList, "("); Token *expr = getChild(0)->createTokens(tokenList); Token *par2 = addtoken(tokenList, ")"); par1->link(par2); par2->link(par1); par1->astOperand1(cast); par1->astOperand2(expr); setValueType(par1); return par1; } if (nodeType == CXXStdInitializerListExpr) return getChild(0)->createTokens(tokenList); if (nodeType == CXXTemporaryObjectExpr && !children.empty()) return getChild(0)->createTokens(tokenList); if (nodeType == CXXThisExpr) return addtoken(tokenList, "this"); if (nodeType == CXXThrowExpr) { Token *t = addtoken(tokenList, "throw"); t->astOperand1(getChild(0)->createTokens(tokenList)); return t; } if (nodeType == DeclRefExpr) { int addrIndex = mExtTokens.size() - 1; while (addrIndex > 1 && mExtTokens[addrIndex].compare(0,2,"0x") != 0) --addrIndex; const std::string addr = mExtTokens[addrIndex]; std::string name = unquote(getSpelling()); Token *reftok = addtoken(tokenList, name.empty() ? "" : name); mData->ref(addr, reftok); return reftok; } if (nodeType == DeclStmt) return getChild(0)->createTokens(tokenList); if (nodeType == DefaultStmt) { addtoken(tokenList, "default"); addtoken(tokenList, ":"); children.back()->createTokens(tokenList); return nullptr; } if (nodeType == DoStmt) { addtoken(tokenList, "do"); createScope(tokenList, Scope::ScopeType::eDo, getChild(0), tokenList->back()); Token *tok1 = addtoken(tokenList, "while"); Token *par1 = addtoken(tokenList, "("); Token *expr = children[1]->createTokens(tokenList); Token *par2 = addtoken(tokenList, ")"); par1->link(par2); par2->link(par1); par1->astOperand1(tok1); par1->astOperand2(expr); return nullptr; } if (nodeType == EnumConstantDecl) { Token *nameToken = addtoken(tokenList, getSpelling()); Scope *scope = const_cast(nameToken->scope()); scope->enumeratorList.emplace_back(nameToken->scope()); Enumerator *e = &scope->enumeratorList.back(); e->name = nameToken; e->value = mData->enumValue++; e->value_known = true; mData->enumDecl(mExtTokens.front(), nameToken, e); return nameToken; } if (nodeType == EnumDecl) { int colIndex = mExtTokens.size() - 1; while (colIndex > 0 && mExtTokens[colIndex].compare(0,4,"col:") != 0 && mExtTokens[colIndex].compare(0,5,"line:") != 0) --colIndex; if (colIndex == 0) return nullptr; mData->enumValue = 0; Token *enumtok = addtoken(tokenList, "enum"); Token *nametok = nullptr; { int nameIndex = mExtTokens.size() - 1; while (nameIndex > colIndex && mExtTokens[nameIndex][0] == '\'') --nameIndex; if (nameIndex > colIndex) nametok = addtoken(tokenList, mExtTokens[nameIndex]); if (mExtTokens.back()[0] == '\'') { addtoken(tokenList, ":"); addTypeTokens(tokenList, mExtTokens.back()); } } Scope *enumscope = createScope(tokenList, Scope::ScopeType::eEnum, children, enumtok); if (nametok) enumscope->className = nametok->str(); if (enumscope->bodyEnd && Token::simpleMatch(enumscope->bodyEnd->previous(), ", }")) const_cast(enumscope->bodyEnd)->deletePrevious(); // Create enum type mData->mSymbolDatabase->typeList.emplace_back(enumtok, enumscope, enumtok->scope()); enumscope->definedType = &mData->mSymbolDatabase->typeList.back(); if (nametok) const_cast(enumtok->scope())->definedTypesMap[nametok->str()] = enumscope->definedType; return nullptr; } if (nodeType == ExprWithCleanups) return getChild(0)->createTokens(tokenList); if (nodeType == FieldDecl) return createTokensVarDecl(tokenList); if (nodeType == FloatingLiteral) return addtoken(tokenList, mExtTokens.back()); if (nodeType == ForStmt) { Token *forToken = addtoken(tokenList, "for"); Token *par1 = addtoken(tokenList, "("); Token *expr1 = getChild(0) ? children[0]->createTokens(tokenList) : nullptr; Token *sep1 = addtoken(tokenList, ";"); Token *expr2 = children[2] ? children[2]->createTokens(tokenList) : nullptr; Token *sep2 = addtoken(tokenList, ";"); Token *expr3 = children[3] ? children[3]->createTokens(tokenList) : nullptr; Token *par2 = addtoken(tokenList, ")"); par1->link(par2); par2->link(par1); par1->astOperand1(forToken); par1->astOperand2(sep1); sep1->astOperand1(expr1); sep1->astOperand2(sep2); sep2->astOperand1(expr2); sep2->astOperand2(expr3); createScope(tokenList, Scope::ScopeType::eFor, children[4], forToken); return nullptr; } if (nodeType == FunctionDecl) { createTokensFunctionDecl(tokenList); return nullptr; } if (nodeType == FunctionTemplateDecl) { bool first = true; for (const AstNodePtr& child: children) { if (child->nodeType == FunctionDecl) { if (!first) child->createTokens(tokenList); first = false; } } return nullptr; } if (nodeType == GotoStmt) { addtoken(tokenList, "goto"); addtoken(tokenList, unquote(mExtTokens[mExtTokens.size() - 2])); addtoken(tokenList, ";"); return nullptr; } if (nodeType == IfStmt) { AstNodePtr cond; AstNodePtr thenCode; AstNodePtr elseCode; if (children.size() == 2) { cond = children[children.size() - 2]; thenCode = children[children.size() - 1]; } else { cond = children[children.size() - 3]; thenCode = children[children.size() - 2]; elseCode = children[children.size() - 1]; } Token *iftok = addtoken(tokenList, "if"); Token *par1 = addtoken(tokenList, "("); par1->astOperand1(iftok); par1->astOperand2(cond->createTokens(tokenList)); Token *par2 = addtoken(tokenList, ")"); par1->link(par2); par2->link(par1); createScope(tokenList, Scope::ScopeType::eIf, thenCode, iftok); if (elseCode) { elseCode->addtoken(tokenList, "else"); createScope(tokenList, Scope::ScopeType::eElse, elseCode, tokenList->back()); } return nullptr; } if (nodeType == ImplicitCastExpr) { Token *expr = getChild(0)->createTokens(tokenList); if (!expr->valueType() || contains(mExtTokens, "")) setValueType(expr); return expr; } if (nodeType == InitListExpr) { const Scope *scope = tokenList->back()->scope(); Token *start = addtoken(tokenList, "{"); start->scope(scope); for (const AstNodePtr& child: children) { if (tokenList->back()->str() != "{") addtoken(tokenList, ","); child->createTokens(tokenList); } Token *end = addtoken(tokenList, "}"); end->scope(scope); start->link(end); end->link(start); mData->mNotScope.insert(end); return start; } if (nodeType == IntegerLiteral) return addtoken(tokenList, mExtTokens.back()); if (nodeType == LabelStmt) { addtoken(tokenList, unquote(mExtTokens.back())); addtoken(tokenList, ":"); for (const auto& child: children) child->createTokens(tokenList); return nullptr; } if (nodeType == LinkageSpecDecl) return nullptr; if (nodeType == MaterializeTemporaryExpr) return getChild(0)->createTokens(tokenList); if (nodeType == MemberExpr) { Token *s = getChild(0)->createTokens(tokenList); Token *dot = addtoken(tokenList, "."); std::string memberName = getSpelling(); if (memberName.compare(0, 2, "->") == 0) { dot->originalName("->"); memberName = memberName.substr(2); } else if (memberName.compare(0, 1, ".") == 0) { memberName = memberName.substr(1); } if (memberName.empty()) memberName = ""; Token *member = addtoken(tokenList, memberName); mData->ref(mExtTokens.back(), member); dot->astOperand1(s); dot->astOperand2(member); return dot; } if (nodeType == NamespaceDecl) { if (children.empty()) return nullptr; Token *defToken = addtoken(tokenList, "namespace"); const std::string &s = mExtTokens[mExtTokens.size() - 2]; Token *nameToken = (s.compare(0,4,"col:")==0 || s.compare(0,5,"line:")==0) ? addtoken(tokenList, mExtTokens.back()) : nullptr; Scope *scope = createScope(tokenList, Scope::ScopeType::eNamespace, children, defToken); if (nameToken) scope->className = nameToken->str(); return nullptr; } if (nodeType == NullStmt) return addtoken(tokenList, ";"); if (nodeType == ParenExpr) { Token *par1 = addtoken(tokenList, "("); Token *expr = getChild(0)->createTokens(tokenList); Token *par2 = addtoken(tokenList, ")"); par1->link(par2); par2->link(par1); return expr; } if (nodeType == RecordDecl) { const Token *classDef = addtoken(tokenList, "struct"); const std::string &recordName = getSpelling(); if (!recordName.empty()) addtoken(tokenList, getSpelling()); if (!isDefinition()) { addtoken(tokenList, ";"); return nullptr; } Scope *recordScope = createScope(tokenList, Scope::ScopeType::eStruct, children, classDef); mData->mSymbolDatabase->typeList.emplace_back(classDef, recordScope, classDef->scope()); recordScope->definedType = &mData->mSymbolDatabase->typeList.back(); if (!recordName.empty()) { recordScope->className = recordName; const_cast(classDef->scope())->definedTypesMap[recordName] = recordScope->definedType; } return nullptr; } if (nodeType == ReturnStmt) { Token *tok1 = addtoken(tokenList, "return"); if (!children.empty()) { getChild(0)->setValueType(tok1); tok1->astOperand1(getChild(0)->createTokens(tokenList)); } return tok1; } if (nodeType == StringLiteral) return addtoken(tokenList, mExtTokens.back()); if (nodeType == SwitchStmt) { Token *tok1 = addtoken(tokenList, "switch"); Token *par1 = addtoken(tokenList, "("); Token *expr = children[children.size() - 2]->createTokens(tokenList); Token *par2 = addtoken(tokenList, ")"); par1->link(par2); par2->link(par1); par1->astOperand1(tok1); par1->astOperand2(expr); createScope(tokenList, Scope::ScopeType::eSwitch, children.back(), tok1); return nullptr; } if (nodeType == TypedefDecl) { addtoken(tokenList, "typedef"); addTypeTokens(tokenList, getType()); return addtoken(tokenList, getSpelling()); } if (nodeType == UnaryOperator) { int index = (int)mExtTokens.size() - 1; while (index > 0 && mExtTokens[index][0] != '\'') --index; Token *unop = addtoken(tokenList, unquote(mExtTokens[index])); unop->astOperand1(getChild(0)->createTokens(tokenList)); return unop; } if (nodeType == UnaryExprOrTypeTraitExpr) { Token *tok1 = addtoken(tokenList, getSpelling()); Token *par1 = addtoken(tokenList, "("); if (children.empty()) addTypeTokens(tokenList, mExtTokens.back()); else { AstNodePtr child = getChild(0); if (child && child->nodeType == ParenExpr) child = child->getChild(0); Token *expr = child->createTokens(tokenList); child->setValueType(expr); par1->astOperand2(expr); } Token *par2 = addtoken(tokenList, ")"); par1->link(par2); par2->link(par1); par1->astOperand1(tok1); par1->astOperand2(par1->next()); setValueType(par1); return par1; } if (nodeType == VarDecl) return createTokensVarDecl(tokenList); if (nodeType == WhileStmt) { AstNodePtr cond = children[children.size() - 2]; AstNodePtr body = children.back(); Token *whiletok = addtoken(tokenList, "while"); Token *par1 = addtoken(tokenList, "("); par1->astOperand1(whiletok); par1->astOperand2(cond->createTokens(tokenList)); Token *par2 = addtoken(tokenList, ")"); par1->link(par2); par2->link(par1); createScope(tokenList, Scope::ScopeType::eWhile, body, whiletok); return nullptr; } return addtoken(tokenList, "?" + nodeType + "?"); } Token * clangimport::AstNode::createTokensCall(TokenList *tokenList) { int firstParam; Token *f; if (nodeType == CXXOperatorCallExpr) { firstParam = 2; Token *obj = getChild(1)->createTokens(tokenList); Token *dot = addtoken(tokenList, "."); Token *op = getChild(0)->createTokens(tokenList); dot->astOperand1(obj); dot->astOperand2(op); f = dot; } else { firstParam = 1; f = getChild(0)->createTokens(tokenList); } f->setValueType(nullptr); Token *par1 = addtoken(tokenList, "("); par1->astOperand1(f); int args = 0; while (args < children.size() && children[args]->nodeType != CXXDefaultArgExpr) args++; Token *child = nullptr; for (int c = firstParam; c < args; ++c) { if (child) { Token *comma = addtoken(tokenList, ","); comma->setValueType(nullptr); comma->astOperand1(child); comma->astOperand2(children[c]->createTokens(tokenList)); child = comma; } else { child = children[c]->createTokens(tokenList); } } par1->astOperand2(child); Token *par2 = addtoken(tokenList, ")"); par1->link(par2); par2->link(par1); return par1; } void clangimport::AstNode::createTokensFunctionDecl(TokenList *tokenList) { const bool prev = contains(mExtTokens, "prev"); const bool hasBody = !children.empty() && children.back()->nodeType == CompoundStmt; const bool isStatic = contains(mExtTokens, "static"); const bool isInline = contains(mExtTokens, "inline"); const Token *startToken = nullptr; SymbolDatabase *symbolDatabase = mData->mSymbolDatabase; if (nodeType != CXXConstructorDecl && nodeType != CXXDestructorDecl) { if (isStatic) addtoken(tokenList, "static"); if (isInline) addtoken(tokenList, "inline"); const Token * const before = tokenList->back(); addTypeTokens(tokenList, '\'' + getType() + '\''); startToken = before ? before->next() : tokenList->front(); } if (mExtTokens.size() > 4 && mExtTokens[1] == "parent") addFullScopeNameTokens(tokenList, mData->getScope(mExtTokens[2])); Token *nameToken = addtoken(tokenList, getSpelling() + getTemplateParameters()); Scope *nestedIn = const_cast(nameToken->scope()); if (prev) { const std::string addr = *(std::find(mExtTokens.begin(), mExtTokens.end(), "prev") + 1); mData->ref(addr, nameToken); } if (!nameToken->function()) { nestedIn->functionList.emplace_back(nameToken, unquote(getFullType())); mData->funcDecl(mExtTokens.front(), nameToken, &nestedIn->functionList.back()); if (nodeType == CXXConstructorDecl) nestedIn->functionList.back().type = Function::Type::eConstructor; else if (nodeType == CXXDestructorDecl) nestedIn->functionList.back().type = Function::Type::eDestructor; else nestedIn->functionList.back().retDef = startToken; } Function * const function = const_cast(nameToken->function()); if (!prev) { auto accessControl = mData->scopeAccessControl.find(tokenList->back()->scope()); if (accessControl != mData->scopeAccessControl.end()) function->access = accessControl->second; } Scope *scope = nullptr; if (hasBody) { symbolDatabase->scopeList.emplace_back(nullptr, nullptr, nestedIn); scope = &symbolDatabase->scopeList.back(); scope->check = symbolDatabase; scope->function = function; scope->classDef = nameToken; scope->type = Scope::ScopeType::eFunction; scope->className = nameToken->str(); nestedIn->nestedList.push_back(scope); function->hasBody(true); function->functionScope = scope; } Token *par1 = addtoken(tokenList, "("); if (!function->arg) function->arg = par1; function->token = nameToken; if (!function->nestedIn) function->nestedIn = nestedIn; function->argDef = par1; // Function arguments function->argumentList.reserve(children.size()); for (int i = 0; i < children.size(); ++i) { AstNodePtr child = children[i]; if (child->nodeType != ParmVarDecl) continue; if (tokenList->back() != par1) addtoken(tokenList, ","); const Type *recordType = addTypeTokens(tokenList, child->mExtTokens.back(), nestedIn); const Token *typeEndToken = tokenList->back(); const std::string spelling = child->getSpelling(); Token *vartok = nullptr; if (!spelling.empty()) vartok = child->addtoken(tokenList, spelling); if (!prev) { function->argumentList.emplace_back(vartok, child->getType(), nullptr, typeEndToken, i, AccessControl::Argument, recordType, scope); if (vartok) { const std::string addr = child->mExtTokens[0]; mData->varDecl(addr, vartok, &function->argumentList.back()); } } else if (vartok) { const std::string addr = child->mExtTokens[0]; mData->ref(addr, vartok); } } Token *par2 = addtoken(tokenList, ")"); par1->link(par2); par2->link(par1); if (function->isConst()) addtoken(tokenList, "const"); // Function body if (hasBody) { symbolDatabase->functionScopes.push_back(scope); Token *bodyStart = addtoken(tokenList, "{"); bodyStart->scope(scope); children.back()->createTokens(tokenList); Token *bodyEnd = addtoken(tokenList, "}"); scope->bodyStart = bodyStart; scope->bodyEnd = bodyEnd; bodyStart->link(bodyEnd); bodyEnd->link(bodyStart); } else { if (nodeType == CXXConstructorDecl && contains(mExtTokens, "default")) { addtoken(tokenList, "="); addtoken(tokenList, "default"); } addtoken(tokenList, ";"); } } void clangimport::AstNode::createTokensForCXXRecord(TokenList *tokenList) { bool isStruct = contains(mExtTokens, "struct"); Token * const classToken = addtoken(tokenList, isStruct ? "struct" : "class"); std::string className; if (mExtTokens[mExtTokens.size() - 2] == (isStruct?"struct":"class")) className = mExtTokens.back(); else className = mExtTokens[mExtTokens.size() - 2]; className += getTemplateParameters(); /*Token *nameToken =*/ addtoken(tokenList, className); // base classes bool firstBase = true; for (const AstNodePtr &child: children) { if (child->nodeType == "public" || child->nodeType == "protected" || child->nodeType == "private") { addtoken(tokenList, firstBase ? ":" : ","); addtoken(tokenList, child->nodeType); addtoken(tokenList, unquote(child->mExtTokens.back())); firstBase = false; } } // definition if (isDefinition()) { std::vector children2; for (const AstNodePtr &child: children) { if (child->nodeType == CXXConstructorDecl || child->nodeType == CXXDestructorDecl || child->nodeType == CXXMethodDecl || child->nodeType == FieldDecl || child->nodeType == VarDecl || child->nodeType == AccessSpecDecl || child->nodeType == TypedefDecl) children2.push_back(child); } Scope *scope = createScope(tokenList, isStruct ? Scope::ScopeType::eStruct : Scope::ScopeType::eClass, children2, classToken); const std::string addr = mExtTokens[0]; mData->scopeDecl(addr, scope); scope->className = className; mData->mSymbolDatabase->typeList.emplace_back(classToken, scope, classToken->scope()); scope->definedType = &mData->mSymbolDatabase->typeList.back(); const_cast(classToken->scope())->definedTypesMap[className] = scope->definedType; } addtoken(tokenList, ";"); const_cast(tokenList->back())->scope(classToken->scope()); } Token * clangimport::AstNode::createTokensVarDecl(TokenList *tokenList) { const std::string addr = mExtTokens.front(); if (contains(mExtTokens, "static")) addtoken(tokenList, "static"); int typeIndex = mExtTokens.size() - 1; while (typeIndex > 1 && std::isalpha(mExtTokens[typeIndex][0])) typeIndex--; const std::string type = mExtTokens[typeIndex]; const std::string name = mExtTokens[typeIndex - 1]; const Token *startToken = tokenList->back(); const ::Type *recordType = addTypeTokens(tokenList, type); if (!startToken) startToken = tokenList->front(); else if (startToken->str() != "static") startToken = startToken->next(); Token *vartok1 = addtoken(tokenList, name); Scope *scope = const_cast(tokenList->back()->scope()); scope->varlist.emplace_back(vartok1, unquote(type), startToken, vartok1->previous(), 0, scope->defaultAccess(), recordType, scope); mData->varDecl(addr, vartok1, &scope->varlist.back()); if (mExtTokens.back() == "cinit" && !children.empty()) { Token *eq = addtoken(tokenList, "="); eq->astOperand1(vartok1); eq->astOperand2(children.back()->createTokens(tokenList)); return eq; } else if (mExtTokens.back() == "callinit") { Token *par1 = addtoken(tokenList, "("); par1->astOperand1(vartok1); par1->astOperand2(getChild(0)->createTokens(tokenList)); Token *par2 = addtoken(tokenList, ")"); par1->link(par2); par2->link(par1); return par1; } else if (mExtTokens.back() == "listinit") { return getChild(0)->createTokens(tokenList); } return vartok1; } static void setTypes(TokenList *tokenList) { for (Token *tok = tokenList->front(); tok; tok = tok->next()) { if (Token::simpleMatch(tok, "sizeof (")) { for (Token *typeToken = tok->tokAt(2); typeToken->str() != ")"; typeToken = typeToken->next()) { if (typeToken->type()) continue; typeToken->type(typeToken->scope()->findType(typeToken->str())); } } } } static void setValues(Tokenizer *tokenizer, SymbolDatabase *symbolDatabase) { const Settings * const settings = tokenizer->getSettings(); for (const Scope& scope : symbolDatabase->scopeList) { if (!scope.definedType) continue; int typeSize = 0; for (const Variable &var: scope.varlist) { int mul = 1; for (const auto &dim: var.dimensions()) { mul *= dim.num; } if (var.valueType()) typeSize += mul * var.valueType()->typeSize(*settings, true); } scope.definedType->sizeOf = typeSize; } for (Token *tok = const_cast(tokenizer->tokens()); tok; tok = tok->next()) { if (Token::simpleMatch(tok, "sizeof (")) { ValueType vt = ValueType::parseDecl(tok->tokAt(2), settings, tokenizer->isCPP()); int sz = vt.typeSize(*settings, true); if (sz <= 0) continue; long long mul = 1; for (Token *arrtok = tok->linkAt(1)->previous(); arrtok; arrtok = arrtok->previous()) { const std::string &a = arrtok->str(); if (a.size() > 2 && a[0] == '[' && a.back() == ']') mul *= std::atoi(a.substr(1).c_str()); else break; } ValueFlow::Value v(mul * sz); v.setKnown(); tok->next()->addValue(v); } } } void clangimport::parseClangAstDump(Tokenizer *tokenizer, std::istream &f) { TokenList *tokenList = &tokenizer->list; tokenizer->createSymbolDatabase(); SymbolDatabase *symbolDatabase = const_cast(tokenizer->getSymbolDatabase()); symbolDatabase->scopeList.emplace_back(nullptr, nullptr, nullptr); symbolDatabase->scopeList.back().type = Scope::ScopeType::eGlobal; symbolDatabase->scopeList.back().check = symbolDatabase; clangimport::Data data; data.mSettings = tokenizer->getSettings(); data.mSymbolDatabase = symbolDatabase; std::string line; std::vector tree; while (std::getline(f,line)) { const std::string::size_type pos1 = line.find("-"); if (pos1 == std::string::npos) continue; if (!tree.empty() && line.substr(pos1) == "-<<>>") { const int level = (pos1 - 1) / 2; tree[level - 1]->children.push_back(nullptr); continue; } const std::string::size_type pos2 = line.find(" ", pos1); if (pos2 < pos1 + 4 || pos2 == std::string::npos) continue; const std::string nodeType = line.substr(pos1+1, pos2 - pos1 - 1); const std::string ext = line.substr(pos2); if (pos1 == 1 && endsWith(nodeType, "Decl")) { if (!tree.empty()) tree[0]->createTokens1(tokenList); tree.clear(); tree.push_back(std::make_shared(nodeType, ext, &data)); continue; } const int level = (pos1 - 1) / 2; if (level == 0 || level > tree.size()) continue; AstNodePtr newNode = std::make_shared(nodeType, ext, &data); tree[level - 1]->children.push_back(newNode); if (level >= tree.size()) tree.push_back(std::move(newNode)); else tree[level] = std::move(newNode); } if (!tree.empty()) tree[0]->createTokens1(tokenList); // Validation for (const Token *tok = tokenList->front(); tok; tok = tok->next()) { if (Token::Match(tok, "(|)|[|]|{|}") && !tok->link()) throw InternalError(tok, "Token::link() is not set properly"); } if (tokenList->front()) tokenList->front()->assignIndexes(); symbolDatabase->clangSetVariables(data.getVariableList()); symbolDatabase->createSymbolDatabaseExprIds(); tokenList->clangSetOrigFiles(); setTypes(tokenList); setValues(tokenizer, symbolDatabase); }