cppcheck/lib/symboldatabase.cpp

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/*
* Cppcheck - A tool for static C/C++ code analysis
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* Copyright (C) 2007-2016 Cppcheck team.
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*
* 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 <http://www.gnu.org/licenses/>.
*/
//---------------------------------------------------------------------------
#include "symboldatabase.h"
#include "errorlogger.h"
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#include "platform.h"
#include "settings.h"
#include "token.h"
#include "tokenize.h"
#include "tokenlist.h"
#include "utils.h"
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#include "valueflow.h"
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#include <algorithm>
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#include <cassert>
#include <climits>
#include <iomanip>
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#include <iostream>
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//---------------------------------------------------------------------------
SymbolDatabase::SymbolDatabase(const Tokenizer *tokenizer, const Settings *settings, ErrorLogger *errorLogger)
: _tokenizer(tokenizer), _settings(settings), _errorLogger(errorLogger)
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{
cpp = isCPP();
if (_settings->defaultSign == 's' || _settings->defaultSign == 'S')
defaultSignedness = ValueType::SIGNED;
else if (_settings->defaultSign == 'u' || _settings->defaultSign == 'U')
defaultSignedness = ValueType::UNSIGNED;
else
defaultSignedness = ValueType::UNKNOWN_SIGN;
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createSymbolDatabaseFindAllScopes();
createSymbolDatabaseClassInfo();
createSymbolDatabaseVariableInfo();
createSymbolDatabaseFunctionScopes();
createSymbolDatabaseClassAndStructScopes();
createSymbolDatabaseFunctionReturnTypes();
createSymbolDatabaseNeedInitialization();
createSymbolDatabaseVariableSymbolTable();
createSymbolDatabaseSetScopePointers();
createSymbolDatabaseSetFunctionPointers(true);
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createSymbolDatabaseSetVariablePointers();
createSymbolDatabaseSetTypePointers();
createSymbolDatabaseEnums();
createSymbolDatabaseUnknownArrayDimensions();
}
void SymbolDatabase::createSymbolDatabaseFindAllScopes()
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{
// create global scope
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scopeList.push_back(Scope(this, nullptr, nullptr));
// pointer to current scope
Scope *scope = &scopeList.back();
// Store current access in each scope (depends on evaluation progress)
std::map<const Scope*, AccessControl> access;
// find all scopes
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for (const Token *tok = _tokenizer->tokens(); tok; tok = tok ? tok->next() : nullptr) {
// #5593 suggested to add here:
if (_errorLogger)
_errorLogger->reportProgress(_tokenizer->list.getSourceFilePath(),
"SymbolDatabase",
tok->progressValue());
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// Locate next class
if ((_tokenizer->isCPP() && ((Token::Match(tok, "class|struct|union|namespace ::| %name% {|:|::|<") && tok->strAt(-1) != "friend") ||
(Token::Match(tok, "enum class| %name% {") || Token::Match(tok, "enum class| %name% : %name% {"))))
|| (_tokenizer->isC() && Token::Match(tok, "struct|union|enum %name% {"))) {
const Token *tok2 = tok->tokAt(2);
if (tok->strAt(1) == "::")
tok2 = tok2->next();
else if (_tokenizer->isCPP() && tok->strAt(1) == "class")
tok2 = tok2->next();
while (tok2 && tok2->str() == "::")
tok2 = tok2->tokAt(2);
// skip over template args
if (tok2 && tok2->str() == "<" && tok2->link())
tok2 = tok2->link()->next();
// make sure we have valid code
if (!tok2 || !Token::Match(tok2, "{|:")) {
// check for qualified variable
if (tok2 && tok2->next()) {
if (tok2->next()->str() == ";")
tok = tok2->next();
Use simple match where possible Fixes these warnings found by "--enable=internal": [lib/checkclass.cpp:972]: (warning) Found simple pattern inside Token::Match() call: "* *" [lib/checkbufferoverrun.cpp:635]: (warning) Found simple pattern inside Token::Match() call: "." [lib/checkbufferoverrun.cpp:1397]: (warning) Found simple pattern inside Token::Match() call: ";" [lib/checksizeof.cpp:299]: (warning) Found simple pattern inside Token::Match() call: "." [lib/checksizeof.cpp:301]: (warning) Found simple pattern inside Token::Match() call: ")" [lib/checksizeof.cpp:303]: (warning) Found simple pattern inside Token::Match() call: "]" [lib/checksizeof.cpp:318]: (warning) Found simple pattern inside Token::Match() call: ")" [lib/checknullpointer.cpp:413]: (warning) Found simple pattern inside Token::Match() call: "delete" [lib/checkio.cpp:1336]: (warning) Found simple pattern inside Token::Match() call: "> (" [lib/checkstl.cpp:1509]: (warning) Found simple pattern inside Token::findmatch() call: ";" [lib/checkstl.cpp:1512]: (warning) Found simple pattern inside Token::findmatch() call: ";" [lib/checkstl.cpp:1594]: (warning) Found simple pattern inside Token::Match() call: "=" [lib/checkstl.cpp:1598]: (warning) Found simple pattern inside Token::Match() call: "] =" [lib/checkunusedvar.cpp:755]: (warning) Found simple pattern inside Token::Match() call: "goto" [lib/checkunusedvar.cpp:793]: (warning) Found simple pattern inside Token::Match() call: "=" [lib/checkuninitvar.cpp:376]: (warning) Found simple pattern inside Token::Match() call: "> (" [lib/checkother.cpp:86]: (warning) Found simple pattern inside Token::Match() call: "> (" [lib/checkother.cpp:2181]: (warning) Found simple pattern inside Token::Match() call: "> {" [lib/valueflow.cpp:54]: (warning) Found simple pattern inside Token::Match() call: "&" [lib/valueflow.cpp:409]: (warning) Found simple pattern inside Token::Match() call: "do" [lib/valueflow.cpp:425]: (warning) Found simple pattern inside Token::Match() call: ") {" [lib/valueflow.cpp:487]: (warning) Found simple pattern inside Token::Match() call: ") {" [lib/valueflow.cpp:511]: (warning) Found simple pattern inside Token::Match() call: "} else {" [lib/valueflow.cpp:615]: (warning) Found simple pattern inside Token::Match() call: "for (" [lib/symboldatabase.cpp:80]: (warning) Found simple pattern inside Token::Match() call: "= {" [lib/symboldatabase.cpp:1069]: (warning) Found simple pattern inside Token::Match() call: "std ::" [lib/tokenize.cpp:2207]: (warning) Found simple pattern inside Token::Match() call: "< >" [lib/tokenize.cpp:2730]: (warning) Found simple pattern inside Token::Match() call: ";" [lib/tokenize.cpp:4234]: (warning) Found simple pattern inside Token::Match() call: "try {" [lib/tokenize.cpp:4235]: (warning) Found simple pattern inside Token::Match() call: "} catch (" [lib/tokenize.cpp:5500]: (warning) Found simple pattern inside Token::Match() call: "INT8" [lib/tokenize.cpp:5752]: (warning) Found simple pattern inside Token::Match() call: "}" [lib/tokenize.cpp:5752]: (warning) Found simple pattern inside Token::Match() call: "do"
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else if (Token::simpleMatch(tok2->next(), "= {") &&
Token::simpleMatch(tok2->linkAt(2), "} ;"))
tok = tok2->linkAt(2)->next();
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else if (Token::Match(tok2->next(), "(|{") &&
tok2->next()->link()->strAt(1) == ";")
tok = tok2->next()->link()->next();
// skip variable declaration
else if (Token::Match(tok2, "*|&|>"))
continue;
else
break; // bail
continue;
}
break; // bail
}
Scope *new_scope = findScope(tok->next(), scope);
if (new_scope) {
// only create base list for classes and structures
if (new_scope->isClassOrStruct()) {
// goto initial '{'
if (!new_scope->definedType) {
_tokenizer->syntaxError(nullptr); // #6808
}
tok2 = new_scope->definedType->initBaseInfo(tok, tok2);
// make sure we have valid code
if (!tok2) {
break;
}
}
// definition may be different than declaration
if (_tokenizer->isCPP() && tok->str() == "class") {
access[new_scope] = Private;
new_scope->type = Scope::eClass;
} else if (tok->str() == "struct") {
access[new_scope] = Public;
new_scope->type = Scope::eStruct;
}
new_scope->classDef = tok;
new_scope->classStart = tok2;
new_scope->classEnd = tok2->link();
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// make sure we have valid code
if (!new_scope->classEnd) {
_tokenizer->syntaxError(tok);
}
scope = new_scope;
tok = tok2;
} else {
scopeList.push_back(Scope(this, tok, scope));
new_scope = &scopeList.back();
if (tok->str() == "class")
access[new_scope] = Private;
else if (tok->str() == "struct" || tok->str() == "union")
access[new_scope] = Public;
// fill typeList...
if (new_scope->isClassOrStructOrUnion() || new_scope->type == Scope::eEnum) {
Type* new_type = findType(tok->next(), scope);
if (!new_type) {
typeList.push_back(Type(new_scope->classDef, new_scope, scope));
new_type = &typeList.back();
scope->definedTypes.push_back(new_type);
} else
new_type->classScope = new_scope;
new_scope->definedType = new_type;
}
// only create base list for classes and structures
if (new_scope->isClassOrStruct()) {
// goto initial '{'
tok2 = new_scope->definedType->initBaseInfo(tok, tok2);
// make sure we have valid code
if (!tok2) {
_tokenizer->syntaxError(tok);
}
} else if (new_scope->type == Scope::eEnum) {
if (tok2->str() == ":")
tok2 = tok2->tokAt(2);
}
new_scope->classStart = tok2;
new_scope->classEnd = tok2->link();
// make sure we have valid code
if (!new_scope->classEnd) {
_tokenizer->syntaxError(tok);
}
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if (new_scope->type == Scope::eEnum) {
tok2 = new_scope->addEnum(tok, _tokenizer->isCPP());
scope->nestedList.push_back(new_scope);
if (!tok2)
_tokenizer->syntaxError(tok);
} else {
// make the new scope the current scope
scope->nestedList.push_back(new_scope);
scope = new_scope;
}
tok = tok2;
}
}
// Namespace and unknown macro (#3854)
else if (_tokenizer->isCPP() &&
Token::Match(tok, "namespace %name% %type% (") &&
tok->tokAt(2)->isUpperCaseName() &&
Token::simpleMatch(tok->linkAt(3), ") {")) {
scopeList.push_back(Scope(this, tok, scope));
Scope *new_scope = &scopeList.back();
access[new_scope] = Public;
const Token *tok2 = tok->linkAt(3)->next();
new_scope->classStart = tok2;
new_scope->classEnd = tok2->link();
// make sure we have valid code
if (!new_scope->classEnd) {
scopeList.pop_back();
break;
}
// make the new scope the current scope
scope->nestedList.push_back(new_scope);
scope = &scopeList.back();
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tok = tok2;
}
// forward declaration
else if (Token::Match(tok, "class|struct|union %name% ;") &&
tok->strAt(-1) != "friend") {
if (!findType(tok->next(), scope)) {
// fill typeList..
typeList.push_back(Type(tok, nullptr, scope));
scope->definedTypes.push_back(&typeList.back());
}
tok = tok->tokAt(2);
}
// using namespace
else if (_tokenizer->isCPP() && Token::Match(tok, "using namespace ::| %type% ;|::")) {
Scope::UsingInfo using_info;
using_info.start = tok; // save location
using_info.scope = findNamespace(tok->tokAt(2), scope);
scope->usingList.push_back(using_info);
// check for global namespace
if (tok->strAt(2) == "::")
tok = tok->tokAt(4);
else
tok = tok->tokAt(3);
// skip over qualification
while (Token::Match(tok, "%type% ::"))
tok = tok->tokAt(2);
}
// unnamed struct and union
else if (Token::Match(tok, "struct|union {") &&
Token::Match(tok->next()->link(), "} *|&| %name% ;|[")) {
scopeList.push_back(Scope(this, tok, scope));
Scope *new_scope = &scopeList.back();
access[new_scope] = Public;
const Token* varNameTok = tok->next()->link()->next();
if (varNameTok->str() == "*") {
varNameTok = varNameTok->next();
} else if (varNameTok->str() == "&") {
varNameTok = varNameTok->next();
}
typeList.push_back(Type(tok, new_scope, scope));
new_scope->definedType = &typeList.back();
scope->definedTypes.push_back(&typeList.back());
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scope->addVariable(varNameTok, tok, tok, access[scope], new_scope->definedType, scope, &_settings->library);
const Token *tok2 = tok->next();
new_scope->classStart = tok2;
new_scope->classEnd = tok2->link();
// make sure we have valid code
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if (!new_scope->classEnd) {
scopeList.pop_back();
break;
}
// make the new scope the current scope
scope->nestedList.push_back(new_scope);
scope = new_scope;
tok = tok2;
}
// anonymous struct, union and namespace
else if ((Token::Match(tok, "struct|union {") &&
Token::simpleMatch(tok->next()->link(), "} ;")) ||
Token::simpleMatch(tok, "namespace {")) {
scopeList.push_back(Scope(this, tok, scope));
Scope *new_scope = &scopeList.back();
access[new_scope] = Public;
const Token *tok2 = tok->next();
new_scope->classStart = tok2;
new_scope->classEnd = tok2->link();
typeList.push_back(Type(tok, new_scope, scope));
new_scope->definedType = &typeList.back();
scope->definedTypes.push_back(&typeList.back());
// make sure we have valid code
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if (!new_scope->classEnd) {
scopeList.pop_back();
break;
}
// make the new scope the current scope
scope->nestedList.push_back(new_scope);
scope = new_scope;
tok = tok2;
}
// forward declared enum
else if (Token::Match(tok, "enum class| %name% ;") || Token::Match(tok, "enum class| %name% : %name% ;")) {
typeList.push_back(Type(tok, nullptr, scope));
scope->definedTypes.push_back(&typeList.back());
tok = tok->tokAt(2);
}
// check for end of scope
else if (tok == scope->classEnd) {
access.erase(scope);
scope = const_cast<Scope*>(scope->nestedIn);
continue;
}
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// check if in class or structure or union
else if (scope->isClassOrStructOrUnion()) {
const Token *funcStart = nullptr;
const Token *argStart = nullptr;
const Token *declEnd = nullptr;
// What section are we in..
if (tok->str() == "private:")
access[scope] = Private;
else if (tok->str() == "protected:")
access[scope] = Protected;
else if (tok->str() == "public:" || tok->str() == "__published:")
access[scope] = Public;
else if (Token::Match(tok, "public|protected|private %name% :")) {
if (tok->str() == "private")
access[scope] = Private;
else if (tok->str() == "protected")
access[scope] = Protected;
else
access[scope] = Public;
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tok = tok->tokAt(2);
}
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// class function?
else if (isFunction(tok, scope, &funcStart, &argStart, &declEnd)) {
if (tok->previous()->str() != "::" || tok->strAt(-2) == scope->className) {
Function function;
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// save the function definition argument start '('
function.argDef = argStart;
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// save the access type
function.access = access[scope];
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// save the function name location
function.tokenDef = funcStart;
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// save the function parent scope
function.nestedIn = scope;
// operator function
if (function.tokenDef->isOperatorKeyword()) {
function.isOperator(true);
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// 'operator =' is special
if (function.tokenDef->str() == "operator=")
function.type = Function::eOperatorEqual;
}
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// class constructor/destructor
else if (function.tokenDef->str() == scope->className) {
// destructor
if (function.tokenDef->previous()->str() == "~")
function.type = Function::eDestructor;
// copy/move constructor?
else if (Token::Match(function.tokenDef, "%name% ( const| %name% &|&& &| %name%| )") ||
Token::Match(function.tokenDef, "%name% ( const| %name% <")) {
const Token* typeTok = function.tokenDef->tokAt(2);
if (typeTok->str() == "const")
typeTok = typeTok->next();
if (typeTok->strAt(1) == "<") { // TODO: Remove this branch (#4710)
if (Token::Match(typeTok->linkAt(1), "> & %name%| )"))
function.type = Function::eCopyConstructor;
else if (Token::Match(typeTok->linkAt(1), "> &&|& & %name%| )"))
function.type = Function::eMoveConstructor;
else
function.type = Function::eConstructor;
} else if (typeTok->strAt(1) == "&&" || typeTok->strAt(2) == "&")
function.type = Function::eMoveConstructor;
else
function.type = Function::eCopyConstructor;
if (typeTok->str() != function.tokenDef->str())
function.type = Function::eConstructor; // Overwrite, if types are not identical
}
// regular constructor
else
function.type = Function::eConstructor;
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if (function.tokenDef->previous()->str() == "explicit")
function.isExplicit(true);
}
const Token *tok1 = tok;
// look for end of previous statement
while (tok1->previous() && !Token::Match(tok1->previous(), ";|}|{|public:|protected:|private:")) {
// virtual function
const Token* tok2 = tok1->previous();
if (tok2->str() == "virtual") {
function.isVirtual(true);
break;
}
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// static function
else if (tok2->str() == "static") {
function.isStatic(true);
break;
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}
// friend function
else if (tok2->str() == "friend") {
function.isFriend(true);
break;
}
// Function template
else if (tok2->link() && tok2->str() == ">" && Token::simpleMatch(tok2->link()->previous(), "template <"))
break;
tok1 = tok2;
}
// find the return type
if (!function.isConstructor() && !function.isDestructor()) {
if (argStart->link()->strAt(1) == ".") // Trailing return type
function.retDef = argStart->link()->tokAt(2);
else {
while (tok1 && Token::Match(tok1->next(), "virtual|static|friend|const|struct|union|enum"))
tok1 = tok1->next();
if (tok1)
function.retDef = tok1;
}
}
const Token *end = function.argDef->link();
// const function
if (end->next()->str() == "const")
function.isConst(true);
// count the number of constructors
if (function.isConstructor())
scope->numConstructors++;
if (function.type == Function::eCopyConstructor ||
function.type == Function::eMoveConstructor)
scope->numCopyOrMoveConstructors++;
// assume implementation is inline (definition and implementation same)
function.token = function.tokenDef;
function.arg = function.argDef;
// out of line function
if (_tokenizer->isFunctionHead(end, ";")) {
// find the function implementation later
tok = end->next();
if (tok->str() == "const")
tok = tok->next();
if (tok->str() == "&") {
function.hasLvalRefQualifier(true);
tok = tok->next();
} else if (tok->str() == "&&") {
function.hasRvalRefQualifier(true);
tok = tok->next();
} else if (tok->str() == "noexcept") {
function.isNoExcept(!Token::simpleMatch(tok->next(), "( false )"));
tok = tok->next();
if (tok->str() == "(")
tok = tok->link()->next();
} else if (Token::simpleMatch(tok, "throw (")) {
function.isThrow(true);
if (tok->strAt(2) != ")")
function.throwArg = end->tokAt(2);
tok = tok->linkAt(1)->next();
}
if (Token::Match(tok, "= %any% ;")) {
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const std::string& modifier = tok->strAt(1);
function.isPure(modifier == "0");
function.isDefault(modifier == "default");
function.isDelete(modifier == "delete");
tok = tok->tokAt(2);
}
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// skip over unknown tokens
while (tok && tok->str() != ";")
tok = tok->next();
scope->addFunction(function);
}
// inline function
else {
function.isInline(true);
function.hasBody(true);
if (Token::Match(end, ") const| noexcept")) {
int arg = 2;
if (end->strAt(1) == "const")
arg++;
if (end->strAt(arg) == "(")
function.noexceptArg = end->tokAt(arg + 1);
function.isNoExcept(true);
} else if (Token::Match(end, ") const| throw (")) {
int arg = 3;
if (end->strAt(1) == "const")
arg++;
if (end->strAt(arg) != ")")
function.throwArg = end->tokAt(arg);
function.isThrow(true);
} else if (Token::Match(end, ") const| &|&&| [;{]")) {
int arg = 1;
if (end->strAt(arg) == "const")
arg++;
if (end->strAt(arg) == "&")
function.hasLvalRefQualifier(true);
else if (end->strAt(arg) == "&&")
function.hasRvalRefQualifier(true);
}
// find start of function '{'
bool foundInitList = false;
while (end && end->str() != "{" && end->str() != ";") {
if (end->link() && Token::Match(end, "(|<")) {
end = end->link();
} else if (foundInitList &&
Token::Match(end, "%name%|> {") &&
Token::Match(end->linkAt(1), "} ,|{")) {
end = end->linkAt(1);
} else {
if (end->str() == ":")
foundInitList = true;
end = end->next();
}
}
if (!end || end->str() == ";")
continue;
scope->addFunction(function);
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Function* funcptr = &scope->functionList.back();
const Token *tok2 = funcStart;
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addNewFunction(&scope, &tok2);
if (scope) {
scope->functionOf = function.nestedIn;
scope->function = funcptr;
scope->function->functionScope = scope;
}
tok = tok2;
}
}
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// nested class or friend function?
else {
/** @todo check entire qualification for match */
Scope * nested = scope->findInNestedListRecursive(tok->strAt(-2));
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if (nested)
addClassFunction(&scope, &tok, argStart);
else {
/** @todo handle friend functions */
}
}
}
// friend class declaration?
else if (_tokenizer->isCPP() && Token::Match(tok, "friend class| ::| %any% ;|::")) {
Type::FriendInfo friendInfo;
// save the name start
friendInfo.nameStart = tok->strAt(1) == "class" ? tok->tokAt(2) : tok->next();
friendInfo.nameEnd = friendInfo.nameStart;
// skip leading "::"
if (friendInfo.nameEnd->str() == "::")
friendInfo.nameEnd = friendInfo.nameEnd->next();
// skip qualification "name ::"
while (friendInfo.nameEnd && friendInfo.nameEnd->strAt(1) == "::")
friendInfo.nameEnd = friendInfo.nameEnd->tokAt(2);
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// save the name
if (friendInfo.nameEnd)
friendInfo.name = friendInfo.nameEnd->str();
// fill this in after parsing is complete
friendInfo.type = nullptr;
if (!scope->definedType)
_tokenizer->syntaxError(tok);
scope->definedType->friendList.push_back(friendInfo);
}
} else if (scope->type == Scope::eNamespace || scope->type == Scope::eGlobal) {
const Token *funcStart = nullptr;
const Token *argStart = nullptr;
const Token *declEnd = nullptr;
// function?
if (isFunction(tok, scope, &funcStart, &argStart, &declEnd)) {
// has body?
if (declEnd && declEnd->str() == "{") {
tok = funcStart;
// class function
if (tok->previous() && tok->previous()->str() == "::")
addClassFunction(&scope, &tok, argStart);
// class destructor
else if (tok->previous() &&
tok->previous()->str() == "~" &&
tok->strAt(-2) == "::")
addClassFunction(&scope, &tok, argStart);
// regular function
else {
Function* function = addGlobalFunction(scope, tok, argStart, funcStart);
if (!function)
_tokenizer->syntaxError(tok);
// global functions can't be const but we have tests that are
if (Token::Match(argStart->link(), ") const| noexcept")) {
int arg = 2;
if (argStart->link()->strAt(1) == "const")
arg++;
if (argStart->link()->strAt(arg) == "(")
function->noexceptArg = argStart->link()->tokAt(arg + 1);
function->isNoExcept(true);
} else if (Token::Match(argStart->link(), ") const| throw (")) {
int arg = 3;
if (argStart->link()->strAt(1) == "const")
arg++;
if (argStart->link()->strAt(arg) != ")")
function->throwArg = argStart->link()->tokAt(arg);
function->isThrow(true);
}
const Token *tok1 = tok->previous();
// look for end of previous statement
while (tok1 && !Token::Match(tok1, ";|}|{")) {
// static function
if (tok1->str() == "static") {
function->isStaticLocal(true);
break;
}
// extern function
else if (tok1->str() == "extern") {
function->isExtern(true);
break;
}
tok1 = tok1->previous();
}
}
// syntax error?
if (!scope)
_tokenizer->syntaxError(tok);
}
// function prototype?
else if (declEnd && declEnd->str() == ";") {
bool newFunc = true; // Is this function already in the database?
for (std::multimap<std::string, const Function *>::const_iterator i = scope->functionMap.find(tok->str()); i != scope->functionMap.end() && i->first == tok->str(); ++i) {
if (Function::argsMatch(scope, i->second->argDef->next(), argStart->next(), emptyString, 0)) {
newFunc = false;
break;
}
}
// save function prototype in database
if (newFunc) {
Function* func = addGlobalFunctionDecl(scope, tok, argStart, funcStart);
if (Token::Match(argStart->link(), ") const| noexcept")) {
int arg = 2;
if (argStart->link()->strAt(1) == "const")
arg++;
if (argStart->link()->strAt(arg) == "(")
func->noexceptArg = argStart->link()->tokAt(arg + 1);
func->isNoExcept(true);
} else if (Token::Match(argStart->link(), ") const| throw (")) {
int arg = 3;
if (argStart->link()->strAt(1) == "const")
arg++;
if (argStart->link()->strAt(arg) != ")")
func->throwArg = argStart->link()->tokAt(arg);
func->isThrow(true);
}
const Token *tok1 = tok->previous();
// look for end of previous statement
while (tok1 && !Token::Match(tok1, ";|}|{")) {
// extern function
if (tok1->str() == "extern") {
func->isExtern(true);
break;
}
tok1 = tok1->previous();
}
}
tok = declEnd;
continue;
}
}
} else if (scope->isExecutable()) {
if (Token::Match(tok, "else|try|do {")) {
const Token* tok1 = tok->next();
if (tok->str() == "else")
scopeList.push_back(Scope(this, tok, scope, Scope::eElse, tok1));
else if (tok->str() == "do")
scopeList.push_back(Scope(this, tok, scope, Scope::eDo, tok1));
else //if (tok->str() == "try")
scopeList.push_back(Scope(this, tok, scope, Scope::eTry, tok1));
tok = tok1;
scope->nestedList.push_back(&scopeList.back());
scope = &scopeList.back();
} else if (Token::Match(tok, "if|for|while|catch|switch (") && Token::simpleMatch(tok->next()->link(), ") {")) {
const Token *scopeStartTok = tok->next()->link()->next();
if (tok->str() == "if")
scopeList.push_back(Scope(this, tok, scope, Scope::eIf, scopeStartTok));
else if (tok->str() == "for") {
scopeList.push_back(Scope(this, tok, scope, Scope::eFor, scopeStartTok));
} else if (tok->str() == "while")
scopeList.push_back(Scope(this, tok, scope, Scope::eWhile, scopeStartTok));
else if (tok->str() == "catch") {
scopeList.push_back(Scope(this, tok, scope, Scope::eCatch, scopeStartTok));
} else // if (tok->str() == "switch")
scopeList.push_back(Scope(this, tok, scope, Scope::eSwitch, scopeStartTok));
scope->nestedList.push_back(&scopeList.back());
scope = &scopeList.back();
if (scope->type == Scope::eFor)
scope->checkVariable(tok->tokAt(2), Local, &_settings->library); // check for variable declaration and add it to new scope if found
else if (scope->type == Scope::eCatch)
scope->checkVariable(tok->tokAt(2), Throw, &_settings->library); // check for variable declaration and add it to new scope if found
tok = scopeStartTok;
} else if (tok->str() == "{") {
if (tok->previous()->varId())
tok = tok->link();
else {
const Token* tok2 = tok->previous();
while (!Token::Match(tok2, ";|}|{|)"))
tok2 = tok2->previous();
if (tok2->next() != tok && tok2->strAt(1) != ".")
tok2 = nullptr; // No lambda
if (tok2 && tok2->str() == ")" && tok2->link()->strAt(-1) == "]") {
scopeList.push_back(Scope(this, tok2->link()->linkAt(-1), scope, Scope::eLambda, tok));
scope->nestedList.push_back(&scopeList.back());
scope = &scopeList.back();
} else if (!Token::Match(tok->previous(), "=|,|(|return") && !(tok->strAt(-1) == ")" && Token::Match(tok->linkAt(-1)->previous(), "=|,|(|return"))) {
scopeList.push_back(Scope(this, tok, scope, Scope::eUnconditional, tok));
scope->nestedList.push_back(&scopeList.back());
scope = &scopeList.back();
} else {
tok = tok->link();
}
}
}
}
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}
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}
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void SymbolDatabase::createSymbolDatabaseClassInfo()
{
if (!_tokenizer->isC()) {
// fill in using info
for (std::list<Scope>::iterator it = scopeList.begin(); it != scopeList.end(); ++it) {
for (std::list<Scope::UsingInfo>::iterator i = it->usingList.begin(); i != it->usingList.end(); ++i) {
// only find if not already found
if (i->scope == nullptr) {
// check scope for match
Scope *scope = findScope(i->start->tokAt(2), &(*it));
if (scope) {
// set found scope
i->scope = scope;
break;
}
}
}
}
// fill in base class info
for (std::list<Type>::iterator it = typeList.begin(); it != typeList.end(); ++it) {
// finish filling in base class info
for (unsigned int i = 0; i < it->derivedFrom.size(); ++i) {
const Type* found = findType(it->derivedFrom[i].nameTok, it->enclosingScope);
if (found && found->findDependency(&(*it))) {
// circular dependency
//_tokenizer->syntaxError(nullptr);
} else {
it->derivedFrom[i].type = found;
}
}
}
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// fill in friend info
for (std::list<Type>::iterator it = typeList.begin(); it != typeList.end(); ++it) {
for (std::list<Type::FriendInfo>::iterator i = it->friendList.begin(); i != it->friendList.end(); ++i) {
i->type = findType(i->nameStart, it->enclosingScope);
}
}
}
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}
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void SymbolDatabase::createSymbolDatabaseVariableInfo()
{
// fill in variable info
for (std::list<Scope>::iterator it = scopeList.begin(); it != scopeList.end(); ++it) {
// find variables
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it->getVariableList(&_settings->library);
}
// fill in function arguments
for (std::list<Scope>::iterator it = scopeList.begin(); it != scopeList.end(); ++it) {
std::list<Function>::iterator func;
for (func = it->functionList.begin(); func != it->functionList.end(); ++func) {
// add arguments
func->addArguments(this, &*it);
}
}
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}
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void SymbolDatabase::createSymbolDatabaseFunctionScopes()
{
// fill in function scopes
for (std::list<Scope>::iterator it = scopeList.begin(); it != scopeList.end(); ++it) {
if (it->type == Scope::eFunction)
functionScopes.push_back(&*it);
}
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}
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void SymbolDatabase::createSymbolDatabaseClassAndStructScopes()
{
// fill in class and struct scopes
for (std::list<Scope>::iterator it = scopeList.begin(); it != scopeList.end(); ++it) {
if (it->isClassOrStruct())
classAndStructScopes.push_back(&*it);
}
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}
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void SymbolDatabase::createSymbolDatabaseFunctionReturnTypes()
{
// fill in function return types
for (std::list<Scope>::iterator it = scopeList.begin(); it != scopeList.end(); ++it) {
std::list<Function>::iterator func;
for (func = it->functionList.begin(); func != it->functionList.end(); ++func) {
// add return types
if (func->retDef) {
const Token *type = func->retDef;
while (Token::Match(type, "static|const|struct|union|enum"))
type = type->next();
if (type) {
func->retType = findVariableTypeInBase(&*it, type);
if (!func->retType)
func->retType = findTypeInNested(type, func->nestedIn);
}
}
}
}
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}
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void SymbolDatabase::createSymbolDatabaseNeedInitialization()
{
if (_tokenizer->isC()) {
// For C code it is easy, as there are no constructors and no default values
for (std::list<Scope>::iterator it = scopeList.begin(); it != scopeList.end(); ++it) {
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Scope *scope = &(*it);
if (scope->definedType)
scope->definedType->needInitialization = Type::True;
}
} else {
// For C++, it is more difficult: Determine if user defined type needs initialization...
unsigned int unknowns = 0; // stop checking when there are no unknowns
unsigned int retry = 0; // bail if we don't resolve all the variable types for some reason
do {
unknowns = 0;
for (std::list<Scope>::iterator it = scopeList.begin(); it != scopeList.end(); ++it) {
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Scope *scope = &(*it);
if (!scope->definedType) {
_blankTypes.push_back(Type());
scope->definedType = &_blankTypes.back();
}
if (scope->isClassOrStruct() && scope->definedType->needInitialization == Type::Unknown) {
// check for default constructor
bool hasDefaultConstructor = false;
std::list<Function>::const_iterator func;
for (func = scope->functionList.begin(); func != scope->functionList.end(); ++func) {
if (func->type == Function::eConstructor) {
// check for no arguments: func ( )
if (func->argCount() == 0) {
hasDefaultConstructor = true;
break;
}
/** check for arguments with default values */
else if (func->argCount() == func->initializedArgCount()) {
hasDefaultConstructor = true;
break;
}
}
}
// User defined types with user defined default constructor doesn't need initialization.
// We assume the default constructor initializes everything.
// Another check will figure out if the constructor actually initializes everything.
if (hasDefaultConstructor)
scope->definedType->needInitialization = Type::False;
// check each member variable to see if it needs initialization
else {
bool needInitialization = false;
bool unknown = false;
std::list<Variable>::const_iterator var;
for (var = scope->varlist.begin(); var != scope->varlist.end() && !needInitialization; ++var) {
if (var->isClass()) {
if (var->type()) {
// does this type need initialization?
if (var->type()->needInitialization == Type::True)
needInitialization = true;
else if (var->type()->needInitialization == Type::Unknown)
unknown = true;
}
} else if (!var->hasDefault())
needInitialization = true;
}
if (needInitialization)
scope->definedType->needInitialization = Type::True;
else if (!unknown)
scope->definedType->needInitialization = Type::False;
else {
if (scope->definedType->needInitialization == Type::Unknown)
unknowns++;
}
}
} else if (scope->type == Scope::eUnion && scope->definedType->needInitialization == Type::Unknown)
scope->definedType->needInitialization = Type::True;
}
retry++;
} while (unknowns && retry < 100);
// this shouldn't happen so output a debug warning
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if (retry == 100 && _settings->debugwarnings) {
for (std::list<Scope>::iterator it = scopeList.begin(); it != scopeList.end(); ++it) {
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const Scope *scope = &(*it);
if (scope->isClassOrStruct() && scope->definedType->needInitialization == Type::Unknown)
debugMessage(scope->classDef, "SymbolDatabase::SymbolDatabase couldn't resolve all user defined types.");
}
}
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}
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}
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void SymbolDatabase::createSymbolDatabaseVariableSymbolTable()
{
// create variable symbol table
_variableList.resize(_tokenizer->varIdCount() + 1);
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std::fill_n(_variableList.begin(), _variableList.size(), (const Variable*)nullptr);
// check all scopes for variables
for (std::list<Scope>::iterator it = scopeList.begin(); it != scopeList.end(); ++it) {
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Scope *scope = &(*it);
// add all variables
for (std::list<Variable>::iterator var = scope->varlist.begin(); var != scope->varlist.end(); ++var) {
unsigned int varId = var->declarationId();
if (varId)
_variableList[varId] = &(*var);
// fix up variables without type
if (!var->type() && !var->typeStartToken()->isStandardType()) {
const Type *type = findType(var->typeStartToken(), scope);
if (type)
var->type(type);
}
}
// add all function parameters
for (std::list<Function>::iterator func = scope->functionList.begin(); func != scope->functionList.end(); ++func) {
for (std::list<Variable>::iterator arg = func->argumentList.begin(); arg != func->argumentList.end(); ++arg) {
// check for named parameters
if (arg->nameToken() && arg->declarationId()) {
const unsigned int declarationId = arg->declarationId();
if (declarationId > 0U)
_variableList[declarationId] = &(*arg);
// fix up parameters without type
if (!arg->type() && !arg->typeStartToken()->isStandardType()) {
const Type *type = findTypeInNested(arg->typeStartToken(), scope);
if (type)
arg->type(type);
}
}
}
}
}
// fill in missing variables if possible
const std::size_t functions = functionScopes.size();
for (std::size_t i = 0; i < functions; ++i) {
const Scope *func = functionScopes[i];
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for (const Token *tok = func->classStart->next(); tok && tok != func->classEnd; tok = tok->next()) {
// check for member variable
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if (tok->varId() && tok->next() &&
(tok->next()->str() == "." ||
(tok->next()->str() == "[" && tok->linkAt(1)->strAt(1) == "."))) {
const Token *tok1 = tok->next()->str() == "." ? tok->tokAt(2) : tok->linkAt(1)->tokAt(2);
if (tok1 && tok1->varId() && _variableList[tok1->varId()] == 0) {
const Variable *var = _variableList[tok->varId()];
if (var && var->typeScope()) {
// find the member variable of this variable
const Variable *var1 = var->typeScope()->getVariable(tok1->str());
if (var1) {
// add this variable to the look up table
_variableList[tok1->varId()] = var1;
}
}
}
}
}
}
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}
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void SymbolDatabase::createSymbolDatabaseSetScopePointers()
{
// Set scope pointers
for (std::list<Scope>::iterator it = scopeList.begin(); it != scopeList.end(); ++it) {
Token* start = const_cast<Token*>(it->classStart);
Token* end = const_cast<Token*>(it->classEnd);
if (it->type == Scope::eGlobal) {
start = const_cast<Token*>(_tokenizer->list.front());
end = const_cast<Token*>(_tokenizer->list.back());
}
assert(start && end);
end->scope(&*it);
for (Token* tok = start; tok != end; tok = tok->next()) {
if (start != end && tok->str() == "{") {
bool isEndOfScope = false;
for (std::list<Scope*>::const_iterator innerScope = it->nestedList.begin(); innerScope != it->nestedList.end(); ++innerScope) {
if (tok == (*innerScope)->classStart) { // Is begin of inner scope
tok = tok->link();
if (tok->next() == end || !tok->next()) {
isEndOfScope = true;
break;
}
tok = tok->next();
break;
}
}
if (isEndOfScope)
break;
}
tok->scope(&*it);
}
}
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}
void SymbolDatabase::createSymbolDatabaseSetFunctionPointers(bool firstPass)
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{
if (firstPass) {
// Set function definition and declaration pointers
for (std::list<Scope>::iterator it = scopeList.begin(); it != scopeList.end(); ++it) {
for (std::list<Function>::const_iterator func = it->functionList.begin(); func != it->functionList.end(); ++func) {
if (func->tokenDef)
const_cast<Token *>(func->tokenDef)->function(&*func);
if (func->token)
const_cast<Token *>(func->token)->function(&*func);
}
}
}
// Set function call pointers
for (const Token* tok = _tokenizer->list.front(); tok != _tokenizer->list.back(); tok = tok->next()) {
if (!tok->function() && tok->varId() == 0 && Token::Match(tok, "%name% (") && !isReservedName(tok->str())) {
const Function *function = findFunction(tok);
if (function)
const_cast<Token *>(tok)->function(function);
}
}
// Set C++ 11 delegate constructor function call pointers
for (std::list<Scope>::iterator it = scopeList.begin(); it != scopeList.end(); ++it) {
for (std::list<Function>::const_iterator func = it->functionList.begin(); func != it->functionList.end(); ++func) {
// look for initializer list
if (func->type == Function::eConstructor && func->functionScope && func->functionScope->functionOf && func->arg) {
const Token * tok = func->arg->link()->next();
if (tok->str() == "noexcept") {
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const Token * closingParenTok = tok->linkAt(1);
if (!closingParenTok || !closingParenTok->next()) {
continue;
}
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tok = closingParenTok->next();
}
if (tok->str() != ":") {
continue;
}
tok = tok->next();
while (tok && tok != func->functionScope->classStart) {
if (Token::Match(tok, "%name% {|(")) {
if (tok->str() == func->tokenDef->str()) {
const Function *function = func->functionScope->functionOf->findFunction(tok);
if (function)
const_cast<Token *>(tok)->function(function);
break;
}
tok = tok->linkAt(1);
}
tok = tok->next();
}
}
}
}
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}
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void SymbolDatabase::createSymbolDatabaseSetTypePointers()
{
// Set type pointers
for (const Token* tok = _tokenizer->list.front(); tok != _tokenizer->list.back(); tok = tok->next()) {
if (!tok->isName() || tok->varId() || tok->function() || tok->type() || tok->enumerator())
continue;
const Type *type = findVariableType(tok->scope(), tok);
if (type)
const_cast<Token *>(tok)->type(type);
}
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}
void SymbolDatabase::fixVarId(VarIdMap & varIds, const Token * vartok, Token * membertok, const Variable * membervar)
{
VarIdMap::iterator varId = varIds.find(vartok->varId());
if (varId == varIds.end()) {
MemberIdMap memberId;
if (membertok->varId() == 0) {
memberId[membervar->nameToken()->varId()] = const_cast<Tokenizer *>(_tokenizer)->newVarId();
_variableList.push_back(membervar);
} else
_variableList[membertok->varId()] = membervar;
varIds.insert(std::make_pair(vartok->varId(), memberId));
varId = varIds.find(vartok->varId());
}
MemberIdMap::iterator memberId = varId->second.find(membervar->nameToken()->varId());
if (memberId == varId->second.end()) {
if (membertok->varId() == 0) {
varId->second.insert(std::make_pair(membervar->nameToken()->varId(), const_cast<Tokenizer *>(_tokenizer)->newVarId()));
_variableList.push_back(membervar);
memberId = varId->second.find(membervar->nameToken()->varId());
} else
_variableList[membertok->varId()] = membervar;
}
if (membertok->varId() == 0)
membertok->varId(memberId->second);
}
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void SymbolDatabase::createSymbolDatabaseSetVariablePointers()
{
VarIdMap varIds;
// Set variable pointers
for (const Token* tok = _tokenizer->list.front(); tok != _tokenizer->list.back(); tok = tok->next()) {
if (tok->varId())
const_cast<Token *>(tok)->variable(getVariableFromVarId(tok->varId()));
// Set Token::variable pointer for array member variable
// Since it doesn't point at a fixed location it doesn't have varid
if (tok->variable() != nullptr &&
(tok->variable()->typeScope() || (tok->valueType() && tok->valueType()->type == ValueType::CONTAINER)) &&
Token::Match(tok, "%name% [|.")) {
Token *tok2 = tok->next();
// Locate "]"
while (tok2 && tok2->str() == "[")
tok2 = tok2->link()->next();
Token *membertok = nullptr;
if (Token::Match(tok2, ". %name%"))
membertok = tok2->next();
else if (Token::Match(tok2, ") . %name%") && tok->strAt(-1) == "(")
membertok = tok2->tokAt(2);
if (membertok) {
const Variable *var = tok->variable();
if (var && var->typeScope()) {
const Variable *membervar = var->typeScope()->getVariable(membertok->str());
if (membervar) {
membertok->variable(membervar);
if (membertok->varId() == 0 || _variableList[membertok->varId()] == nullptr)
fixVarId(varIds, tok, const_cast<Token *>(membertok), membervar);
}
} else if (var && tok->valueType() && tok->valueType()->type == ValueType::CONTAINER) {
if (Token::Match(var->typeStartToken(), "std :: %type% < %type% *| *| >")) {
const Type * type = var->typeStartToken()->tokAt(4)->type();
if (type && type->classScope && type->classScope->definedType) {
const Variable *membervar = type->classScope->getVariable(membertok->str());
if (membervar) {
membertok->variable(membervar);
if (membertok->varId() == 0 || _variableList[membertok->varId()] == nullptr)
fixVarId(varIds, tok, const_cast<Token *>(membertok), membervar);
}
}
}
}
}
}
// check for function returning record type
// func(...).var
// func(...)[...].var
else if (tok->function() && tok->next()->str() == "(" &&
(Token::Match(tok->next()->link(), ") . %name% !!(") ||
(Token::Match(tok->next()->link(), ") [") && Token::Match(tok->next()->link()->next()->link(), "] . %name% !!(")))) {
const Type *type = tok->function()->retType;
if (type) {
Token *membertok;
if (tok->next()->link()->next()->str() == ".")
membertok = tok->next()->link()->next()->next();
else
membertok = tok->next()->link()->next()->link()->next()->next();
const Variable *membervar = membertok->variable();
if (!membervar) {
if (type->classScope) {
membervar = type->classScope->getVariable(membertok->str());
if (membervar) {
membertok->variable(membervar);
if (membertok->varId() == 0 || _variableList[membertok->varId()] == nullptr) {
if (tok->function()->retDef)
fixVarId(varIds, tok->function()->retDef, const_cast<Token *>(membertok), membervar);
}
}
}
}
}
}
}
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}
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void SymbolDatabase::createSymbolDatabaseEnums()
{
// fill in enumerators in enum
for (std::list<Scope>::iterator it = scopeList.begin(); it != scopeList.end(); ++it) {
if (it->type != Scope::eEnum)
continue;
// add enumerators to enumerator tokens
for (std::size_t i = 0, end = it->enumeratorList.size(); i < end; ++i)
const_cast<Token *>(it->enumeratorList[i].name)->enumerator(&it->enumeratorList[i]);
}
// fill in enumerator values
for (std::list<Scope>::iterator it = scopeList.begin(); it != scopeList.end(); ++it) {
if (it->type != Scope::eEnum)
continue;
MathLib::bigint value = 0;
for (std::size_t i = 0, end = it->enumeratorList.size(); i < end; ++i) {
Enumerator & enumerator = it->enumeratorList[i];
// look for initialization tokens that can be converted to enumerators and convert them
if (enumerator.start) {
if (!enumerator.end)
_tokenizer->syntaxError(enumerator.start);
for (const Token * tok3 = enumerator.start; tok3 && tok3 != enumerator.end->next(); tok3 = tok3->next()) {
if (tok3->tokType() == Token::eName) {
const Enumerator * e = findEnumerator(tok3);
if (e)
const_cast<Token *>(tok3)->enumerator(e);
}
}
// look for possible constant folding expressions
// rhs of operator:
const Token *rhs = enumerator.start->previous()->astOperand2();
// constant folding of expression:
ValueFlow::valueFlowConstantFoldAST(rhs, _settings);
// get constant folded value:
if (rhs && rhs->values().size() == 1U && rhs->values().front().isKnown()) {
enumerator.value = rhs->values().front().intvalue;
enumerator.value_known = true;
value = enumerator.value + 1;
}
}
// not initialized so use default value
else {
enumerator.value = value++;
enumerator.value_known = true;
}
}
}
// find enumerators
for (const Token* tok = _tokenizer->list.front(); tok != _tokenizer->list.back(); tok = tok->next()) {
if (tok->tokType() != Token::eName)
continue;
const Enumerator * enumerator = findEnumerator(tok);
if (enumerator)
const_cast<Token *>(tok)->enumerator(enumerator);
}
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}
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void SymbolDatabase::createSymbolDatabaseUnknownArrayDimensions()
{
// set all unknown array dimensions
for (std::size_t i = 1; i <= _tokenizer->varIdCount(); i++) {
// check each array variable
if (_variableList[i] && _variableList[i]->isArray()) {
// check each array dimension
const std::vector<Dimension>& dimensions = _variableList[i]->dimensions();
for (std::size_t j = 0; j < dimensions.size(); j++) {
Dimension &dimension = const_cast<Dimension &>(dimensions[j]);
if (dimension.num == 0) {
dimension.known = false;
// check for a single token dimension
if (dimension.start && (dimension.start == dimension.end)) {
// check for an enumerator
if (dimension.start->enumerator()) {
if (dimension.start->enumerator()->value_known) {
dimension.num = dimension.start->enumerator()->value;
dimension.known = true;
}
}
// check for a variable
else if (dimension.start->varId()) {
// get maximum size from type
// find where this type is defined
const Variable *var = getVariableFromVarId(dimension.start->varId());
// make sure it is in the database
if (!var)
break;
// get type token
const Token *index_type = var->typeEndToken();
if (index_type->str() == "char") {
if (index_type->isUnsigned())
dimension.num = UCHAR_MAX + 1;
else if (index_type->isSigned())
dimension.num = SCHAR_MAX + 1;
else
dimension.num = CHAR_MAX + 1;
} else if (index_type->str() == "short") {
if (index_type->isUnsigned())
dimension.num = USHRT_MAX + 1;
else
dimension.num = SHRT_MAX + 1;
}
// checkScope assumes size is signed int so we limit the following sizes to INT_MAX
else if (index_type->str() == "int") {
if (index_type->isUnsigned())
dimension.num = UINT_MAX + 1ULL;
else
dimension.num = INT_MAX + 1ULL;
} else if (index_type->str() == "long") {
if (index_type->isUnsigned()) {
if (index_type->isLong())
dimension.num = ULLONG_MAX; // should be ULLONG_MAX + 1ULL
else
dimension.num = ULONG_MAX; // should be ULONG_MAX + 1ULL
} else {
if (index_type->isLong())
dimension.num = LLONG_MAX; // should be LLONG_MAX + 1LL
else
dimension.num = LONG_MAX; // should be LONG_MAX + 1LL
}
}
}
}
// check for qualified enumerator
else if (dimension.start) {
// rhs of [
const Token *rhs = dimension.start->previous()->astOperand2();
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// constant folding of expression:
ValueFlow::valueFlowConstantFoldAST(rhs, _settings);
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// get constant folded value:
if (rhs && rhs->values().size() == 1U && rhs->values().front().isKnown()) {
dimension.num = rhs->values().front().intvalue;
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dimension.known = true;
}
}
}
}
}
}
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}
SymbolDatabase::~SymbolDatabase()
{
// Clear scope, type, function and variable pointers
for (const Token* tok = _tokenizer->list.front(); tok; tok = tok->next()) {
const_cast<Token *>(tok)->scope(nullptr);
const_cast<Token *>(tok)->type(nullptr);
const_cast<Token *>(tok)->function(nullptr);
const_cast<Token *>(tok)->variable(nullptr);
const_cast<Token *>(tok)->enumerator(nullptr);
const_cast<Token *>(tok)->setValueType(nullptr);
}
}
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bool SymbolDatabase::isFunction(const Token *tok, const Scope* outerScope, const Token **funcStart, const Token **argStart, const Token** declEnd) const
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{
if (tok->varId())
return false;
// function returning function pointer? '... ( ... %name% ( ... ))( ... ) {'
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if (tok->str() == "(" && tok->strAt(1) != "*" &&
tok->link()->previous()->str() == ")") {
const Token* tok2 = tok->link()->next();
if (tok2 && tok2->str() == "(" && Token::Match(tok2->link()->next(), "{|;|const|=")) {
const Token* argStartTok = tok->link()->previous()->link();
*funcStart = argStartTok->previous();
*argStart = argStartTok;
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*declEnd = Token::findmatch(tok2->link()->next(), "{|;");
return true;
}
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}
// regular function?
else if (Token::Match(tok, "%name% (") && !isReservedName(tok->str()) && tok->previous() &&
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(Token::Match(tok->previous(), "%name%|>|&|*|::|~") || // Either a return type or scope qualifier in front of tok
outerScope->isClassOrStructOrUnion())) { // or a ctor/dtor
const Token* tok1 = tok->previous();
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const Token* tok2 = tok->next()->link()->next();
// skip over destructor "~"
if (tok1->str() == "~")
tok1 = tok1->previous();
// skip over qualification
while (Token::simpleMatch(tok1, "::")) {
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tok1 = tok1->previous();
if (Token::Match(tok1, "%name%"))
tok1 = tok1->previous();
else if (tok1 && tok1->str() == ">" && tok1->link() && Token::Match(tok1->link()->previous(), "%name%"))
tok1 = tok1->link()->tokAt(-2);
}
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// skip over const, noexcept, throw and override specifiers
while (Token::Match(tok2, "const|noexcept|throw|override")) {
tok2 = tok2->next();
if (tok2 && tok2->str() == "(")
tok2 = tok2->link()->next();
}
if (tok2 && tok2->str() == ".") {
for (tok2 = tok2->next(); tok2; tok2 = tok2->next()) {
if (Token::Match(tok2, ";|{|="))
break;
if (tok2->link() && Token::Match(tok2, "<|[|("))
tok2 = tok2->link();
}
}
// done if constructor or destructor
if (!Token::Match(tok1, "{|}|;|public:|protected:|private:") && tok1) {
// skip over pointers and references
while (Token::Match(tok1, "[*&]"))
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tok1 = tok1->previous();
// skip over template
if (tok1 && tok1->str() == ">") {
if (tok1->link())
tok1 = tok1->link()->previous();
else
return false;
}
// function can't have number or variable as return type
if (tok1 && (tok1->isNumber() || tok1->varId()))
return false;
// skip over return type
if (Token::Match(tok1, "%name%")) {
if (tok1->str() == "return")
return false;
tok1 = tok1->previous();
}
// skip over qualification
while (Token::simpleMatch(tok1, "::")) {
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tok1 = tok1->previous();
if (Token::Match(tok1, "%name%"))
tok1 = tok1->previous();
}
// skip over modifiers and other stuff
while (Token::Match(tok1, "const|static|extern|template|virtual|struct|class|enum|%name%")) {
// friend type func(); is not a function
if (isCPP() && tok1->str() == "friend" && tok2->str() == ";")
return false;
tok1 = tok1->previous();
}
// should be at a sequence point if this is a function
if (!Token::Match(tok1, ">|{|}|;|public:|protected:|private:") && tok1)
return false;
}
if (tok2 &&
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(Token::Match(tok2, ";|{|=") ||
(tok2->isUpperCaseName() && Token::Match(tok2, "%name% ;|{")) ||
(tok2->isUpperCaseName() && Token::Match(tok2, "%name% (") && tok2->next()->link()->strAt(1) == "{") ||
Token::Match(tok2, ": ::| %name% (|::|<|{") ||
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Token::Match(tok2, "&|&&| ;|{") ||
Token::Match(tok2, "= delete|default ;"))) {
*funcStart = tok;
*argStart = tok->next();
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*declEnd = Token::findmatch(tok2, "{|;");
return true;
}
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}
// UNKNOWN_MACRO(a,b) { ... }
else if (outerScope->type == Scope::eGlobal &&
Token::Match(tok, "%name% (") &&
tok->isUpperCaseName() &&
Token::simpleMatch(tok->linkAt(1), ") {") &&
(!tok->previous() || Token::Match(tok->previous(), "[;{}]"))) {
*funcStart = tok;
*argStart = tok->next();
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*declEnd = tok->linkAt(1)->next();
return true;
}
// template constructor?
else if (Token::Match(tok, "%name% <") && Token::simpleMatch(tok->next()->link(), "> (")) {
const Token* tok2 = tok->next()->link()->next()->link();
if (Token::Match(tok2, ") const| ;|{|=") ||
Token::Match(tok2, ") : ::| %name% (|::|<|{") ||
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Token::Match(tok2, ") const| noexcept {|;|(")) {
*funcStart = tok;
*argStart = tok2->link();
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*declEnd = Token::findmatch(tok2->next(), "{|;");
return true;
}
}
// regular C function with missing return or invalid C++ ?
else if (Token::Match(tok, "%name% (") && !isReservedName(tok->str()) &&
Token::simpleMatch(tok->linkAt(1), ") {") &&
(!tok->previous() || Token::Match(tok->previous(), ";|}"))) {
if (_tokenizer->isC()) {
debugMessage(tok, "SymbolDatabase::isFunction found C function '" + tok->str() + "' without a return type.");
*funcStart = tok;
*argStart = tok->next();
*declEnd = tok->linkAt(1)->next();
return true;
}
_tokenizer->syntaxError(tok);
}
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return false;
}
void SymbolDatabase::validateExecutableScopes() const
{
const std::size_t functions = functionScopes.size();
for (std::size_t i = 0; i < functions; ++i) {
const Scope* const scope = functionScopes[i];
const Function* const function = scope->function;
if (scope->isExecutable() && !function) {
const std::list<const Token*> callstack(1, scope->classDef);
const std::string msg = std::string("Executable scope '") + scope->classDef->str() + "' with unknown function.";
const ErrorLogger::ErrorMessage errmsg(callstack, &_tokenizer->list, Severity::debug,
"symbolDatabaseWarning",
msg,
false);
_errorLogger->reportErr(errmsg);
}
}
}
namespace {
const Function* getFunctionForArgumentvariable(const Variable * const var, const std::vector<const Scope *>& functionScopes)
{
const std::size_t functions = functionScopes.size();
for (std::size_t i = 0; i < functions; ++i) {
const Scope* const scope = functionScopes[i];
const Function* const function = scope->function;
if (function) {
for (std::size_t arg=0; arg < function->argCount(); ++arg) {
if (var==function->getArgumentVar(arg))
return function;
}
}
}
return nullptr;
}
}
void SymbolDatabase::validateVariables() const
{
for (std::vector<const Variable *>::const_iterator iter = _variableList.begin(); iter!=_variableList.end(); ++iter) {
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const Variable * const var = *iter;
if (var) {
if (!var->scope()) {
const Function* function = getFunctionForArgumentvariable(var, functionScopes);
if (!var->isArgument() || (function && function->hasBody())) {
throw InternalError(var->nameToken(), "Analysis failed (variable without scope). If the code is valid then please report this failure.", InternalError::INTERNAL);
//std::cout << "!!!Variable found without scope: " << var->nameToken()->str() << std::endl;
}
}
}
}
}
void SymbolDatabase::validate() const
{
if (_settings->debugwarnings) {
validateExecutableScopes();
}
//validateVariables();
}
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bool Variable::isPointerArray() const
{
return isArray() && nameToken() && nameToken()->previous() && (nameToken()->previous()->str() == "*");
}
const Token * Variable::declEndToken() const
{
Token const * declEnd = typeStartToken();
while (declEnd && !Token::Match(declEnd, "[;,)={]")) {
if (declEnd->link() && Token::Match(declEnd,"(|["))
declEnd = declEnd->link();
declEnd = declEnd->next();
}
return declEnd;
}
void Variable::evaluate(const Library* lib)
{
if (_name)
setFlag(fIsArray, arrayDimensions(lib));
const Token* tok = _start;
while (tok && tok->previous() && tok->previous()->isName())
tok = tok->previous();
const Token* end = _end;
if (end)
end = end->next();
while (tok != end) {
if (tok->str() == "static")
setFlag(fIsStatic, true);
else if (tok->str() == "extern")
setFlag(fIsExtern, true);
else if (tok->str() == "volatile")
setFlag(fIsVolatile, true);
else if (tok->str() == "mutable")
setFlag(fIsMutable, true);
else if (tok->str() == "const")
setFlag(fIsConst, true);
else if (tok->str() == "*") {
setFlag(fIsPointer, !isArray() || Token::Match(tok->previous(), "( * %name% )"));
setFlag(fIsConst, false); // Points to const, isn't necessarily const itself
} else if (tok->str() == "&") {
if (isReference())
setFlag(fIsRValueRef, true);
setFlag(fIsReference, true);
} else if (tok->str() == "&&") { // Before simplification, && isn't split up
setFlag(fIsRValueRef, true);
setFlag(fIsReference, true); // Set also fIsReference
}
if (tok->str() == "<" && tok->link())
tok = tok->link();
else
tok = tok->next();
}
while (Token::Match(_start, "static|const %any%"))
_start = _start->next();
while (_end && _end->previous() && _end->str() == "const")
_end = _end->previous();
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if (_start) {
std::string strtype = _start->str();
for (const Token *typeToken = _start; Token::Match(typeToken, "%type% :: %type%"); typeToken = typeToken->tokAt(2))
strtype += "::" + typeToken->strAt(2);
setFlag(fIsClass, !lib->podtype(strtype) && !_start->isStandardType() && !isPointer() && !isReference());
setFlag(fIsStlType, Token::simpleMatch(_start, "std ::"));
setFlag(fIsStlString, isStlType() && (Token::Match(_start->tokAt(2), "string|wstring|u16string|u32string !!::") || (Token::simpleMatch(_start->tokAt(2), "basic_string <") && !Token::simpleMatch(_start->linkAt(3), "> ::"))));
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}
if (_access == Argument) {
tok = _name;
if (!tok) {
// Argument without name
tok = _end;
// back up to start of array dimensions
while (tok && tok->str() == "]")
tok = tok->link()->previous();
// add array dimensions if present
if (tok && tok->next()->str() == "[")
setFlag(fIsArray, arrayDimensions(lib));
}
if (!tok)
return;
tok = tok->next();
while (tok->str() == "[")
tok = tok->link();
setFlag(fHasDefault, tok->str() == "=");
}
// check for C++11 member initialization
if (_scope && _scope->isClassOrStruct()) {
// type var = x or
// type var = {x}
// type var = x; gets simplified to: type var ; var = x ;
Token const * declEnd = declEndToken();
if ((Token::Match(declEnd, "; %name% =") && declEnd->strAt(1) == _name->str()) ||
Token::Match(declEnd, "=|{"))
setFlag(fHasDefault, true);
}
if (_start) {
if (Token::Match(_start, "float|double"))
setFlag(fIsFloatType, true);
}
}
bool Function::argsMatch(const Scope *scope, const Token *first, const Token *second, const std::string &path, unsigned int depth)
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{
const bool isCPP = scope->check->isCPP();
if (!isCPP) // C does not support overloads
return true;
// skip "struct"
if (first->str() == "struct" || first->str() == "enum")
first = first->next();
if (second->str() == "struct" || second->str() == "enum")
second = second->next();
// skip const on type passed by value
if (Token::Match(first, "const %type% %name%|,|)"))
first = first->next();
if (Token::Match(second, "const %type% %name%|,|)"))
second = second->next();
while (first->str() == second->str() &&
first->isLong() == second->isLong() &&
first->isUnsigned() == second->isUnsigned()) {
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// at end of argument list
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if (first->str() == ")") {
return true;
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}
// skip default value assignment
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else if (first->next()->str() == "=") {
first = first->nextArgument();
if (first)
first = first->tokAt(-2);
if (second->next()->str() == "=") {
second = second->nextArgument();
if (second)
second = second->tokAt(-2);
if (!first || !second) { // End of argument list (first or second)
return !first && !second;
}
} else if (!first) { // End of argument list (first)
return !second->nextArgument(); // End of argument list (second)
}
} else if (second->next()->str() == "=") {
second = second->nextArgument();
if (second)
second = second->tokAt(-2);
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if (!second) { // End of argument list (second)
return false;
}
}
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// definition missing variable name
else if ((first->next()->str() == "," && second->next()->str() != ",") ||
(first->next()->str() == ")" && second->next()->str() != ")")) {
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second = second->next();
// skip default value assignment
if (second->next()->str() == "=") {
do {
second = second->next();
} while (!Token::Match(second->next(), ",|)"));
}
} else if (first->next()->str() == "[" && second->next()->str() != "[")
second = second->next();
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// function missing variable name
else if ((second->next()->str() == "," && first->next()->str() != ",") ||
(second->next()->str() == ")" && first->next()->str() != ")")) {
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first = first->next();
// skip default value assignment
if (first->next()->str() == "=") {
do {
first = first->next();
} while (!Token::Match(first->next(), ",|)"));
}
} else if (second->next()->str() == "[" && first->next()->str() != "[")
first = first->next();
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// argument list has different number of arguments
else if (second->str() == ")")
break;
// ckeck for type * x == type x[]
else if (Token::Match(first->next(), "* %name%| ,|)|=") &&
Token::Match(second->next(), "%name%| [ ] ,|)")) {
do {
first = first->next();
} while (!Token::Match(first->next(), ",|)"));
do {
second = second->next();
} while (!Token::Match(second->next(), ",|)"));
}
// const after *
else if (first->next()->str() == "*" && first->strAt(2) != "const" &&
second->next()->str() == "*" && second->strAt(2) == "const") {
first = first->next();
second = second->tokAt(2);
}
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// variable names are different
else if ((Token::Match(first->next(), "%name% ,|)|=|[") &&
Token::Match(second->next(), "%name% ,|)|[")) &&
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(first->next()->str() != second->next()->str())) {
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// skip variable names
first = first->next();
second = second->next();
// skip default value assignment
if (first->next()->str() == "=") {
do {
first = first->next();
} while (!Token::Match(first->next(), ",|)"));
}
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}
// variable with class path
else if (depth && Token::Match(first->next(), "%name%")) {
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std::string param = path + first->next()->str();
if (Token::simpleMatch(second->next(), param.c_str())) {
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second = second->tokAt(int(depth) * 2);
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} else if (depth > 1) {
std::string short_path = path;
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// remove last " :: "
short_path.resize(short_path.size() - 4);
// remove last name
std::string::size_type lastSpace = short_path.find_last_of(' ');
if (lastSpace != std::string::npos)
short_path.resize(lastSpace+1);
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param = short_path + first->next()->str();
if (Token::simpleMatch(second->next(), param.c_str())) {
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second = second->tokAt((int(depth) - 1) * 2);
}
}
}
// nested or base class variable
else if (depth == 0 && Token::Match(first->next(), "%name%") &&
Token::Match(second->next(), "%name% :: %name%") &&
((second->next()->str() == scope->className) ||
(scope->definedType && scope->definedType->isDerivedFrom(second->next()->str()))) &&
(first->next()->str() == second->strAt(3))) {
second = second->tokAt(2);
}
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first = first->next();
second = second->next();
// skip "struct"
if (first->str() == "struct" || first->str() == "enum")
first = first->next();
if (second->str() == "struct" || second->str() == "enum")
second = second->next();
// skip const on type passed by value
if (Token::Match(first, "const %type% %name%|,|)") &&
!Token::Match(first, "const %type% %name%| ["))
first = first->next();
if (Token::Match(second, "const %type% %name%|,|)") &&
!Token::Match(second, "const %type% %name%| ["))
second = second->next();
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}
return false;
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}
const Token * Function::constructorMemberInitialization() const
{
if (!isConstructor() || !functionScope || !functionScope->classStart)
return nullptr;
if (Token::Match(token, "%name% (") && Token::simpleMatch(token->linkAt(1), ") :"))
return token->linkAt(1)->next();
return nullptr;
}
Function* SymbolDatabase::addGlobalFunction(Scope*& scope, const Token*& tok, const Token *argStart, const Token* funcStart)
{
Function* function = nullptr;
for (std::multimap<std::string, const Function *>::iterator i = scope->functionMap.find(tok->str()); i != scope->functionMap.end() && i->first == tok->str(); ++i) {
if (Function::argsMatch(scope, i->second->argDef->next(), argStart->next(), emptyString, 0)) {
function = const_cast<Function *>(i->second);
break;
}
}
if (!function)
function = addGlobalFunctionDecl(scope, tok, argStart, funcStart);
function->arg = argStart;
function->token = funcStart;
function->hasBody(true);
addNewFunction(&scope, &tok);
if (scope) {
scope->function = function;
function->functionScope = scope;
return function;
}
return nullptr;
}
Function* SymbolDatabase::addGlobalFunctionDecl(Scope*& scope, const Token *tok, const Token *argStart, const Token* funcStart)
{
Function function;
// save the function definition argument start '('
function.argDef = argStart;
// save the access type
function.access = Public;
// save the function name location
function.tokenDef = funcStart;
function.isInline(false);
function.hasBody(false);
function.type = Function::eFunction;
function.nestedIn = scope;
const Token *tok1 = tok;
// look for end of previous statement
while (tok1->previous() && !Token::Match(tok1->previous(), ";|}|{"))
tok1 = tok1->previous();
// find the return type
while (Token::Match(tok1, "static|extern|const")) {
if (tok1->str() == "static")
function.isStaticLocal(true);
else if (tok1->str() == "extern")
function.isExtern(true);
tok1 = tok1->next();
}
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if (function.argDef->link()->strAt(1) == ".")
function.retDef = function.argDef->link()->tokAt(2);
else if (tok1)
function.retDef = tok1;
scope->addFunction(function);
return &scope->functionList.back();
}
void SymbolDatabase::addClassFunction(Scope **scope, const Token **tok, const Token *argStart)
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{
const bool destructor((*tok)->previous()->str() == "~");
const bool has_const(argStart->link()->strAt(1) == "const");
const bool lval(argStart->link()->strAt(has_const ? 2 : 1) == "&");
const bool rval(argStart->link()->strAt(has_const ? 2 : 1) == "&&");
const Token *tok1;
// skip class/struct name
if (destructor)
tok1 = (*tok)->tokAt(-3);
else if ((*tok)->strAt(-2) == ">" && (*tok)->linkAt(-2))
tok1 = (*tok)->linkAt(-2)->previous();
else
tok1 = (*tok)->tokAt(-2);
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// syntax error?
if (!tok1)
return;
int count = 0;
std::string path;
unsigned int path_length = 0;
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// back up to head of path
while (tok1 && tok1->previous() && tok1->previous()->str() == "::" &&
tok1->tokAt(-2) && (tok1->tokAt(-2)->isName() || (tok1->strAt(-2) == ">" && tok1->linkAt(-2)))) {
if (tok1->strAt(-2) == ">") {
tok1 = tok1->tokAt(-2);
const Token * tok2 = tok1->previous();
path = ":: " + path;
if (tok2) {
do {
path = tok1->str() + " " + path;
tok1 = tok1->previous();
count++;
path_length++;
} while (tok1 != tok2);
}
} else {
path = tok1->str() + " :: " + path;
tok1 = tok1->tokAt(-2);
count++;
path_length++;
}
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}
if (tok1 && count) {
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path = tok1->str() + " :: " + path;
path_length++;
}
std::list<Scope>::iterator it1;
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// search for match
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for (it1 = scopeList.begin(); it1 != scopeList.end(); ++it1) {
Scope *scope1 = &(*it1);
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bool match = false;
// check in namespace if using found
if (*scope == scope1 && !scope1->usingList.empty()) {
std::list<Scope::UsingInfo>::const_iterator it2;
for (it2 = scope1->usingList.begin(); it2 != scope1->usingList.end(); ++it2) {
if (it2->scope) {
Function * func = findFunctionInScope(tok1, it2->scope);
if (func) {
if (!func->hasBody()) {
func->hasBody(true);
func->token = *tok;
func->arg = argStart;
addNewFunction(scope, tok);
if (*scope) {
(*scope)->functionOf = func->nestedIn;
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(*scope)->function = func;
(*scope)->function->functionScope = *scope;
}
return;
}
}
}
}
}
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if (scope1->className == tok1->str() && (scope1->type != Scope::eFunction)) {
// do the scopes match (same scope) or do their names match (multiple namespaces)
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if ((*scope == scope1->nestedIn) || (*scope &&
(*scope)->className == scope1->nestedIn->className &&
!(*scope)->className.empty() &&
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(*scope)->type == scope1->nestedIn->type)) {
// nested scopes => check that they match
{
const Scope *s1 = *scope;
const Scope *s2 = scope1->nestedIn;
while (s1 && s2) {
if (s1->className != s2->className)
break;
s1 = s1->nestedIn;
s2 = s2->nestedIn;
}
// Not matching scopes
if (s1 || s2)
continue;
}
Scope *scope2 = scope1;
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while (scope2 && count > 0) {
count--;
tok1 = tok1->tokAt(2);
scope2 = scope2->findInNestedList(tok1->str());
}
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if (count == 0 && scope2) {
match = true;
scope1 = scope2;
}
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}
}
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if (match) {
for (std::multimap<std::string, const Function *>::iterator it = scope1->functionMap.find((*tok)->str()); it != scope1->functionMap.end() && it->first == (*tok)->str(); ++it) {
Function * func = const_cast<Function *>(it->second);
if (!func->hasBody()) {
if (Function::argsMatch(scope1, func->argDef, (*tok)->next(), path, path_length)) {
if (func->type == Function::eDestructor && destructor) {
func->hasBody(true);
} else if (func->type != Function::eDestructor && !destructor) {
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// normal function?
if ((*tok)->next()->link()) {
const bool hasConstKeyword = (*tok)->next()->link()->next()->str() == "const";
if ((func->isConst() == hasConstKeyword) &&
(func->hasLvalRefQualifier() == lval) &&
(func->hasRvalRefQualifier() == rval)) {
func->hasBody(true);
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}
}
}
if (func->hasBody()) {
func->token = *tok;
func->arg = argStart;
addNewFunction(scope, tok);
if (*scope) {
(*scope)->functionOf = scope1;
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(*scope)->function = func;
(*scope)->function->functionScope = *scope;
}
return;
}
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}
}
}
}
}
// class function of unknown class
addNewFunction(scope, tok);
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}
void SymbolDatabase::addNewFunction(Scope **scope, const Token **tok)
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{
const Token *tok1 = *tok;
scopeList.push_back(Scope(this, tok1, *scope));
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Scope *newScope = &scopeList.back();
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// find start of function '{'
bool foundInitList = false;
while (tok1 && tok1->str() != "{" && tok1->str() != ";") {
if (tok1->link() && Token::Match(tok1, "(|<")) {
tok1 = tok1->link();
} else if (foundInitList &&
Token::Match(tok1, "%name%|> {") &&
Token::Match(tok1->linkAt(1), "} ,|{")) {
tok1 = tok1->linkAt(1);
} else {
if (tok1->str() == ":")
foundInitList = true;
tok1 = tok1->next();
}
}
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if (tok1 && tok1->str() == "{") {
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newScope->classStart = tok1;
newScope->classEnd = tok1->link();
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// syntax error?
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if (!newScope->classEnd) {
scopeList.pop_back();
while (tok1->next())
tok1 = tok1->next();
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*scope = nullptr;
*tok = tok1;
return;
}
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(*scope)->nestedList.push_back(newScope);
*scope = newScope;
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*tok = tok1;
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} else {
scopeList.pop_back();
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*scope = nullptr;
*tok = nullptr;
}
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}
const Token *Type::initBaseInfo(const Token *tok, const Token *tok1)
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{
// goto initial '{'
const Token *tok2 = tok1;
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while (tok2 && tok2->str() != "{") {
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// skip unsupported templates
if (tok2->str() == "<")
tok2 = tok2->link();
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// check for base classes
else if (Token::Match(tok2, ":|,")) {
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tok2 = tok2->next();
// check for invalid code
if (!tok2 || !tok2->next())
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return nullptr;
Type::BaseInfo base;
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if (tok2->str() == "virtual") {
base.isVirtual = true;
tok2 = tok2->next();
}
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if (tok2->str() == "public") {
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base.access = Public;
tok2 = tok2->next();
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} else if (tok2->str() == "protected") {
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base.access = Protected;
tok2 = tok2->next();
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} else if (tok2->str() == "private") {
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base.access = Private;
tok2 = tok2->next();
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} else {
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if (tok->str() == "class")
base.access = Private;
else if (tok->str() == "struct")
base.access = Public;
}
if (!tok2)
return nullptr;
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if (tok2->str() == "virtual") {
base.isVirtual = true;
tok2 = tok2->next();
}
if (!tok2)
return nullptr;
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base.nameTok = tok2;
// handle global namespace
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if (tok2->str() == "::") {
tok2 = tok2->next();
}
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// handle derived base classes
while (Token::Match(tok2, "%name% ::")) {
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tok2 = tok2->tokAt(2);
}
if (!tok2)
return nullptr;
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base.name = tok2->str();
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tok2 = tok2->next();
// add unhandled templates
if (tok2 && tok2->link() && tok2->str() == "<") {
for (const Token* const end = tok2->link()->next(); tok2 != end; tok2 = tok2->next()) {
base.name += tok2->str();
}
}
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// save pattern for base class name
derivedFrom.push_back(base);
} else
tok2 = tok2->next();
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}
return tok2;
}
const std::string& Type::name() const
{
const Token* next = classDef->next();
if (classScope && classScope->enumClass && isEnumType())
return next->strAt(1);
else if (next->isName())
return next->str();
return emptyString;
}
void SymbolDatabase::debugMessage(const Token *tok, const std::string &msg) const
{
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if (tok && _settings->debugwarnings) {
const std::list<const Token*> locationList(1, tok);
const ErrorLogger::ErrorMessage errmsg(locationList, &_tokenizer->list,
Severity::debug,
"debug",
msg,
false);
if (_errorLogger)
_errorLogger->reportErr(errmsg);
}
}
const Function* Type::getFunction(const std::string& funcName) const
{
if (classScope) {
std::multimap<std::string, const Function *>::const_iterator it = classScope->functionMap.find(funcName);
if (it != classScope->functionMap.end())
return it->second;
}
for (std::size_t i = 0; i < derivedFrom.size(); i++) {
if (derivedFrom[i].type) {
const Function* const func = derivedFrom[i].type->getFunction(funcName);
if (func)
return func;
}
}
return nullptr;
}
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bool Type::hasCircularDependencies(std::set<BaseInfo>* ancestors) const
{
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std::set<BaseInfo> knownAncestors;
if (!ancestors) {
ancestors=&knownAncestors;
}
for (std::vector<BaseInfo>::const_iterator parent=derivedFrom.begin(); parent!=derivedFrom.end(); ++parent) {
if (!parent->type)
continue;
else if (this==parent->type)
return true;
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else if (ancestors->find(*parent)!=ancestors->end())
return true;
else {
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ancestors->insert(*parent);
if (parent->type->hasCircularDependencies(ancestors))
return true;
}
}
return false;
}
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bool Type::findDependency(const Type* ancestor) const
{
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if (this==ancestor)
return true;
for (std::vector<BaseInfo>::const_iterator parent=derivedFrom.begin(); parent!=derivedFrom.end(); ++parent) {
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if (parent->type && parent->type->findDependency(ancestor))
return true;
}
return false;
}
bool Type::isDerivedFrom(const std::string & ancestor) const
{
for (std::vector<BaseInfo>::const_iterator parent=derivedFrom.begin(); parent!=derivedFrom.end(); ++parent) {
if (parent->name == ancestor)
return true;
if (parent->type && parent->type->isDerivedFrom(ancestor))
return true;
}
return false;
}
bool Variable::arrayDimensions(const Library* lib)
{
const Library::Container* container = lib->detectContainer(_start);
if (container && container->arrayLike_indexOp && container->size_templateArgNo > 0) {
const Token* tok = Token::findsimplematch(_start, "<");
if (tok) {
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Dimension dimension_;
tok = tok->next();
for (int i = 0; i < container->size_templateArgNo && tok; i++) {
tok = tok->nextTemplateArgument();
}
if (tok) {
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dimension_.start = tok;
dimension_.end = Token::findmatch(tok, ",|>");
if (dimension_.end)
dimension_.end = dimension_.end->previous();
if (dimension_.start == dimension_.end) {
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dimension_.num = MathLib::toLongNumber(dimension_.start->str());
dimension_.known = true;
}
}
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assert((dimension_.start == nullptr) == (dimension_.end == nullptr));
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_dimensions.push_back(dimension_);
return true;
}
}
const Token *dim = _name;
if (!dim) {
// Argument without name
dim = _end;
// back up to start of array dimensions
while (dim && dim->str() == "]")
dim = dim->link()->previous();
}
if (dim)
dim = dim->next();
if (dim && dim->str() == ")")
dim = dim->next();
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bool arr = false;
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while (dim && dim->next() && dim->str() == "[") {
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Dimension dimension_;
// check for empty array dimension []
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if (dim->next()->str() != "]") {
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dimension_.start = dim->next();
dimension_.end = dim->link()->previous();
if (dimension_.start == dimension_.end && dimension_.start->isNumber()) {
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dimension_.num = MathLib::toLongNumber(dimension_.start->str());
dimension_.known = true;
}
}
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assert((dimension_.start == nullptr) == (dimension_.end == nullptr));
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_dimensions.push_back(dimension_);
dim = dim->link()->next();
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arr = true;
}
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return arr;
}
void Variable::setFlags(const ValueType &valuetype)
{
if (valuetype.constness)
setFlag(fIsConst,true);
if (valuetype.pointer)
setFlag(fIsPointer,true);
}
static std::ostream & operator << (std::ostream & s, Scope::ScopeType type)
{
s << (type == Scope::eGlobal ? "Global" :
type == Scope::eClass ? "Class" :
type == Scope::eStruct ? "Struct" :
type == Scope::eUnion ? "Union" :
type == Scope::eNamespace ? "Namespace" :
type == Scope::eFunction ? "Function" :
type == Scope::eIf ? "If" :
type == Scope::eElse ? "Else" :
type == Scope::eFor ? "For" :
type == Scope::eWhile ? "While" :
type == Scope::eDo ? "Do" :
type == Scope::eSwitch ? "Switch" :
type == Scope::eTry ? "Try" :
type == Scope::eCatch ? "Catch" :
type == Scope::eUnconditional ? "Unconditional" :
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type == Scope::eLambda ? "Lambda" :
type == Scope::eEnum ? "Enum" :
"Unknown");
return s;
}
static std::string accessControlToString(const AccessControl& access)
{
switch (access) {
case Public:
return "Public";
case Protected:
return "Protected";
case Private:
return "Private";
case Global:
return "Global";
case Namespace:
return "Namespace";
case Argument:
return "Argument";
case Local:
return "Local";
case Throw:
return "Throw";
}
return "Unknown";
}
static std::string tokenToString(const Token* tok, const Tokenizer* tokenizer)
{
std::ostringstream oss;
if (tok) {
oss << tok->str() << " ";
oss << tokenizer->list.fileLine(tok) << " ";
}
oss << tok;
return oss.str();
}
static std::string scopeToString(const Scope* scope, const Tokenizer* tokenizer)
{
std::ostringstream oss;
if (scope) {
oss << scope->type << " ";
if (scope->classDef)
oss << tokenizer->list.fileLine(scope->classDef) << " ";
}
oss << scope;
return oss.str();
}
static std::string tokenType(const Token * tok)
{
std::ostringstream oss;
if (tok) {
if (tok->isUnsigned())
oss << "unsigned ";
else if (tok->isSigned())
oss << "signed ";
if (tok->isComplex())
oss << "_Complex ";
if (tok->isLong())
oss << "long ";
oss << tok->str();
}
return oss.str();
}
void SymbolDatabase::printVariable(const Variable *var, const char *indent) const
{
std::cout << indent << "_name: " << tokenToString(var->nameToken(), _tokenizer) << std::endl;
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if (var->nameToken()) {
std::cout << indent << " declarationId: " << var->declarationId() << std::endl;
}
std::cout << indent << "_start: " << tokenToString(var->typeStartToken(), _tokenizer) << std::endl;
std::cout << indent << "_end: " << tokenToString(var->typeEndToken(), _tokenizer) << std::endl;
const Token * autoTok = nullptr;
std::cout << indent << " ";
for (const Token * tok = var->typeStartToken(); tok != var->typeEndToken()->next(); tok = tok->next()) {
std::cout << " " << tokenType(tok);
if (tok->str() == "auto")
autoTok = tok;
}
std::cout << std::endl;
if (autoTok) {
const ValueType * valueType = autoTok->valueType();
std::cout << indent << " auto valueType: " << valueType << std::endl;
if (var->typeStartToken()->valueType()) {
std::cout << indent << " " << valueType->str() << std::endl;
}
}
std::cout << indent << "_index: " << var->index() << std::endl;
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std::cout << indent << "_access: " <<
(var->isPublic() ? "Public" :
var->isProtected() ? "Protected" :
var->isPrivate() ? "Private" :
var->isGlobal() ? "Global" :
var->isNamespace() ? "Namespace" :
var->isArgument() ? "Argument" :
var->isLocal() ? "Local" :
var->isThrow() ? "Throw" :
"Unknown") << std::endl;
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std::cout << indent << "_flags: " << std::endl;
std::cout << indent << " isMutable: " << var->isMutable() << std::endl;
std::cout << indent << " isStatic: " << var->isStatic() << std::endl;
std::cout << indent << " isExtern: " << var->isExtern() << std::endl;
std::cout << indent << " isLocal: " << var->isLocal() << std::endl;
std::cout << indent << " isConst: " << var->isConst() << std::endl;
std::cout << indent << " isClass: " << var->isClass() << std::endl;
std::cout << indent << " isArray: " << var->isArray() << std::endl;
std::cout << indent << " isPointer: " << var->isPointer() << std::endl;
std::cout << indent << " isReference: " << var->isReference() << std::endl;
std::cout << indent << " isRValueRef: " << var->isRValueReference() << std::endl;
std::cout << indent << " hasDefault: " << var->hasDefault() << std::endl;
std::cout << indent << " isStlType: " << var->isStlType() << std::endl;
std::cout << indent << "_type: ";
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if (var->type()) {
std::cout << var->type()->type() << " " << var->type()->name();
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std::cout << " " << _tokenizer->list.fileLine(var->type()->classDef);
std::cout << " " << var->type() << std::endl;
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} else
std::cout << "none" << std::endl;
if (var->nameToken()) {
const ValueType * valueType = var->nameToken()->valueType();
std::cout << indent << "valueType: " << valueType << std::endl;
if (valueType) {
std::cout << indent << " " << valueType->str() << std::endl;
}
}
std::cout << indent << "_scope: " << scopeToString(var->scope(), _tokenizer) << std::endl;
std::cout << indent << "_dimensions:";
for (std::size_t i = 0; i < var->dimensions().size(); i++) {
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std::cout << " " << var->dimension(i);
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if (!var->dimensions()[i].known)
std::cout << "?";
}
std::cout << std::endl;
}
void SymbolDatabase::printOut(const char *title) const
{
std::cout << std::setiosflags(std::ios::boolalpha);
if (title)
std::cout << "\n### " << title << " ###\n";
for (std::list<Scope>::const_iterator scope = scopeList.begin(); scope != scopeList.end(); ++scope) {
std::cout << "Scope: " << &*scope << " " << scope->type << std::endl;
std::cout << " className: " << scope->className << std::endl;
std::cout << " classDef: " << tokenToString(scope->classDef, _tokenizer) << std::endl;
std::cout << " classStart: " << tokenToString(scope->classStart, _tokenizer) << std::endl;
std::cout << " classEnd: " << tokenToString(scope->classEnd, _tokenizer) << std::endl;
std::list<Function>::const_iterator func;
// find the function body if not implemented inline
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for (func = scope->functionList.begin(); func != scope->functionList.end(); ++func) {
std::cout << " Function: " << &*func << std::endl;
std::cout << " name: " << tokenToString(func->tokenDef, _tokenizer) << std::endl;
std::cout << " type: " << (func->type == Function::eConstructor? "Constructor" :
func->type == Function::eCopyConstructor ? "CopyConstructor" :
func->type == Function::eMoveConstructor ? "MoveConstructor" :
func->type == Function::eOperatorEqual ? "OperatorEqual" :
func->type == Function::eDestructor ? "Destructor" :
func->type == Function::eFunction ? "Function" :
"Unknown") << std::endl;
std::cout << " access: " << (func->access == Public ? "Public" :
func->access == Protected ? "Protected" :
func->access == Private ? "Private" :
"Unknown") << std::endl;
std::cout << " hasBody: " << func->hasBody() << std::endl;
std::cout << " isInline: " << func->isInline() << std::endl;
std::cout << " isConst: " << func->isConst() << std::endl;
std::cout << " isVirtual: " << func->isVirtual() << std::endl;
std::cout << " isPure: " << func->isPure() << std::endl;
std::cout << " isStatic: " << func->isStatic() << std::endl;
std::cout << " isStaticLocal: " << func->isStaticLocal() << std::endl;
std::cout << " isExtern: " << func->isExtern() << std::endl;
std::cout << " isFriend: " << func->isFriend() << std::endl;
std::cout << " isExplicit: " << func->isExplicit() << std::endl;
std::cout << " isDefault: " << func->isDefault() << std::endl;
std::cout << " isDelete: " << func->isDelete() << std::endl;
std::cout << " isNoExcept: " << func->isNoExcept() << std::endl;
std::cout << " isThrow: " << func->isThrow() << std::endl;
std::cout << " isOperator: " << func->isOperator() << std::endl;
std::cout << " hasLvalRefQual: " << func->hasLvalRefQualifier() << std::endl;
std::cout << " hasRvalRefQual: " << func->hasRvalRefQualifier() << std::endl;
std::cout << " isVariadic: " << func->isVariadic() << std::endl;
std::cout << " attributes:";
if (func->isAttributeConst())
std::cout << " const ";
if (func->isAttributePure())
std::cout << " pure ";
if (func->isAttributeNoreturn())
std::cout << " noreturn ";
if (func->isAttributeNothrow())
std::cout << " nothrow ";
if (func->isAttributeConstructor())
std::cout << " constructor ";
if (func->isAttributeDestructor())
std::cout << " destructor ";
std::cout << std::endl;
std::cout << " noexceptArg: " << (func->noexceptArg ? func->noexceptArg->str() : "none") << std::endl;
std::cout << " throwArg: " << (func->throwArg ? func->throwArg->str() : "none") << std::endl;
std::cout << " tokenDef: " << tokenToString(func->tokenDef, _tokenizer) << std::endl;
std::cout << " argDef: " << tokenToString(func->argDef, _tokenizer) << std::endl;
if (!func->isConstructor() && !func->isDestructor())
std::cout << " retDef: " << tokenToString(func->retDef, _tokenizer) << std::endl;
if (func->retDef) {
std::cout << " ";
for (const Token * tok = func->retDef; tok && tok != func->tokenDef && !Token::Match(tok, "{|;"); tok = tok->next())
std::cout << " " << tokenType(tok);
std::cout << std::endl;
}
std::cout << " retType: " << func->retType << std::endl;
if (func->tokenDef->next()->valueType()) {
const ValueType * valueType = func->tokenDef->next()->valueType();
std::cout << " valueType: " << valueType << std::endl;
if (valueType) {
std::cout << " " << valueType->str() << std::endl;
}
}
if (func->hasBody()) {
std::cout << " token: " << tokenToString(func->token, _tokenizer) << std::endl;
std::cout << " arg: " << tokenToString(func->arg, _tokenizer) << std::endl;
}
std::cout << " nestedIn: " << scopeToString(func->nestedIn, _tokenizer) << std::endl;
std::cout << " functionScope: " << scopeToString(func->functionScope, _tokenizer) << std::endl;
std::list<Variable>::const_iterator var;
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for (var = func->argumentList.begin(); var != func->argumentList.end(); ++var) {
std::cout << " Variable: " << &*var << std::endl;
printVariable(&*var, " ");
}
}
std::list<Variable>::const_iterator var;
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for (var = scope->varlist.begin(); var != scope->varlist.end(); ++var) {
std::cout << " Variable: " << &*var << std::endl;
printVariable(&*var, " ");
}
if (scope->type == Scope::eEnum) {
std::cout << " enumType: ";
if (scope->enumType)
scope->enumType->stringify(std::cout, false, true, false);
else
std::cout << "int";
std::cout << std::endl;
std::cout << " enumClass: " << scope->enumClass << std::endl;
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for (std::vector<Enumerator>::const_iterator enumerator = scope->enumeratorList.begin(); enumerator != scope->enumeratorList.end(); ++enumerator) {
std::cout << " Enumerator: " << enumerator->name->str() << " = ";
if (enumerator->value_known) {
std::cout << enumerator->value;
}
if (enumerator->start) {
const Token * tok = enumerator->start;
std::cout << (enumerator->value_known ? " " : "") << "[" << tok->str();
while (tok && tok != enumerator->end) {
if (tok->next())
std::cout << " " << tok->next()->str();
tok = tok->next();
}
std::cout << "]";
}
std::cout << std::endl;
}
}
std::cout << " nestedIn: " << scope->nestedIn;
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if (scope->nestedIn) {
std::cout << " " << scope->nestedIn->type << " "
<< scope->nestedIn->className;
}
std::cout << std::endl;
std::cout << " definedType: " << scope->definedType << std::endl;
std::cout << " nestedList[" << scope->nestedList.size() << "] = (";
std::list<Scope *>::const_iterator nsi;
std::size_t count = scope->nestedList.size();
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for (nsi = scope->nestedList.begin(); nsi != scope->nestedList.end(); ++nsi) {
std::cout << " " << (*nsi) << " " << (*nsi)->type << " " << (*nsi)->className;
if (count-- > 1)
std::cout << ",";
}
std::cout << " )" << std::endl;
std::list<Scope::UsingInfo>::const_iterator use;
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for (use = scope->usingList.begin(); use != scope->usingList.end(); ++use) {
std::cout << " using: " << use->scope << " " << use->start->strAt(2);
const Token *tok1 = use->start->tokAt(3);
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while (tok1 && tok1->str() == "::") {
std::cout << "::" << tok1->strAt(1);
tok1 = tok1->tokAt(2);
}
std::cout << " " << _tokenizer->list.fileLine(use->start) << std::endl;
}
std::cout << " functionOf: " << scopeToString(scope->functionOf, _tokenizer) << std::endl;
std::cout << " function: " << scope->function;
if (scope->function)
std::cout << " " << scope->function->name();
std::cout << std::endl;
}
for (std::list<Type>::const_iterator type = typeList.begin(); type != typeList.end(); ++type) {
std::cout << "Type: " << &(*type) << std::endl;
std::cout << " name: " << type->name() << std::endl;
std::cout << " classDef: " << tokenToString(type->classDef, _tokenizer) << std::endl;
std::cout << " classScope: " << type->classScope << std::endl;
std::cout << " enclosingScope: " << type->enclosingScope << std::endl;
std::cout << " needInitialization: " << (type->needInitialization == Type::Unknown ? "Unknown" :
type->needInitialization == Type::True ? "True" :
type->needInitialization == Type::False ? "False" :
"Invalid") << std::endl;
std::cout << " derivedFrom[" << type->derivedFrom.size() << "] = (";
std::size_t count = type->derivedFrom.size();
for (std::size_t i = 0; i < type->derivedFrom.size(); ++i) {
if (type->derivedFrom[i].isVirtual)
std::cout << "Virtual ";
std::cout << (type->derivedFrom[i].access == Public ? " Public" :
type->derivedFrom[i].access == Protected ? " Protected" :
type->derivedFrom[i].access == Private ? " Private" :
" Unknown");
if (type->derivedFrom[i].type)
std::cout << " " << type->derivedFrom[i].type;
else
std::cout << " Unknown";
std::cout << " " << type->derivedFrom[i].name;
if (count-- > 1)
std::cout << ",";
}
std::cout << " )" << std::endl;
std::cout << " friendList[" << type->friendList.size() << "] = (";
std::list<Type::FriendInfo>::const_iterator fii;
count = type->friendList.size();
for (fii = type->friendList.begin(); fii != type->friendList.end(); ++fii) {
if (fii->type)
std::cout << fii->type;
else
std::cout << " Unknown";
std::cout << " " << fii->name;
if (count-- > 1)
std::cout << ",";
}
std::cout << " )" << std::endl;
}
for (std::size_t i = 1; i < _variableList.size(); i++) {
std::cout << "_variableList[" << i << "]: " << _variableList[i];
if (_variableList[i]) {
std::cout << " " << _variableList[i]->name() << " "
<< _tokenizer->list.fileLine(_variableList[i]->nameToken());
}
std::cout << std::endl;
}
std::cout << std::resetiosflags(std::ios::boolalpha);
}
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void SymbolDatabase::printXml(std::ostream &out) const
{
out << std::setiosflags(std::ios::boolalpha);
// Scopes..
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out << " <scopes>" << std::endl;
for (std::list<Scope>::const_iterator scope = scopeList.begin(); scope != scopeList.end(); ++scope) {
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out << " <scope";
out << " id=\"" << &*scope << "\"";
out << " type=\"" << scope->type << "\"";
if (!scope->className.empty())
out << " className=\"" << ErrorLogger::toxml(scope->className) << "\"";
if (scope->classStart)
out << " classStart=\"" << scope->classStart << '\"';
if (scope->classEnd)
out << " classEnd=\"" << scope->classEnd << '\"';
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if (scope->nestedIn)
out << " nestedIn=\"" << scope->nestedIn << "\"";
if (scope->function)
out << " function=\"" << scope->function << "\"";
if (scope->functionList.empty() && scope->varlist.empty())
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out << "/>" << std::endl;
else {
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out << '>' << std::endl;
if (!scope->functionList.empty()) {
out << " <functionList>" << std::endl;
for (std::list<Function>::const_iterator function = scope->functionList.begin(); function != scope->functionList.end(); ++function) {
out << " <function id=\"" << &*function << "\" tokenDef=\"" << function->tokenDef << "\" name=\"" << ErrorLogger::toxml(function->name()) << '\"';
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if (function->argCount() == 0U)
out << "/>" << std::endl;
else {
out << ">" << std::endl;
for (unsigned int argnr = 0; argnr < function->argCount(); ++argnr) {
const Variable *arg = function->getArgumentVar(argnr);
out << " <arg nr=\"" << argnr+1 << "\" variable=\"" << arg << "\"/>" << std::endl;
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}
out << " </function>" << std::endl;
}
}
out << " </functionList>" << std::endl;
}
if (!scope->varlist.empty()) {
out << " <varlist>" << std::endl;
for (std::list<Variable>::const_iterator var = scope->varlist.begin(); var != scope->varlist.end(); ++var)
out << " <var id=\"" << &*var << "\"/>" << std::endl;
out << " </varlist>" << std::endl;
}
out << " </scope>" << std::endl;
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}
}
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out << " </scopes>" << std::endl;
// Variables..
out << " <variables>" << std::endl;
for (unsigned int i = 1U; i < _variableList.size(); i++) {
const Variable *var = _variableList[i];
if (!var)
continue;
out << " <var id=\"" << var << '\"';
out << " nameToken=\"" << var->nameToken() << '\"';
out << " typeStartToken=\"" << var->typeStartToken() << '\"';
out << " typeEndToken=\"" << var->typeEndToken() << '\"';
out << " isArgument=\"" << var->isArgument() << '\"';
out << " isArray=\"" << var->isArray() << '\"';
out << " isClass=\"" << var->isClass() << '\"';
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out << " isExtern=\"" << var->isExtern() << '\"';
out << " isLocal=\"" << var->isLocal() << '\"';
out << " isPointer=\"" << var->isPointer() << '\"';
out << " isReference=\"" << var->isReference() << '\"';
out << " isStatic=\"" << var->isStatic() << '\"';
out << " access=\"" << accessControlToString(var->_access) << '\"';
out << "/>" << std::endl;
}
out << " </variables>" << std::endl;
out << std::resetiosflags(std::ios::boolalpha);
}
//---------------------------------------------------------------------------
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static const Type* findVariableTypeIncludingUsedNamespaces(const SymbolDatabase* symbolDatabase, const Scope* scope, const Token* typeTok)
{
const Type* argType = symbolDatabase->findVariableType(scope, typeTok);
if (argType)
return argType;
// look for variable type in any using namespace in this scope or above
while (scope) {
for (std::list<Scope::UsingInfo>::const_iterator ui = scope->usingList.begin();
ui != scope->usingList.end(); ++ui) {
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if (ui->scope) {
argType = symbolDatabase->findVariableType(ui->scope, typeTok);
if (argType)
return argType;
}
}
scope = scope->nestedIn;
}
return nullptr;
}
//---------------------------------------------------------------------------
void Function::addArguments(const SymbolDatabase *symbolDatabase, const Scope *scope)
{
// check for non-empty argument list "( ... )"
const Token * start = arg ? arg : argDef;
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if (!(start && start->link() != start->next() && !Token::simpleMatch(start, "( void )")))
return;
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unsigned int count = 0;
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for (const Token* tok = start->next(); tok; tok = tok->next()) {
if (Token::Match(tok, ",|)"))
return; // Syntax error
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const Token* startTok = tok;
const Token* endTok = nullptr;
const Token* nameTok = nullptr;
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do {
if (tok->varId() != 0) {
nameTok = tok;
endTok = tok->previous();
} else if (tok->str() == "[") {
// skip array dimension(s)
tok = tok->link();
while (tok->next()->str() == "[")
tok = tok->next()->link();
} else if (tok->str() == "<") {
tok = tok->link();
if (!tok) // something is wrong so just bail out
return;
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}
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tok = tok->next();
if (!tok) // something is wrong so just bail
return;
} while (tok->str() != "," && tok->str() != ")" && tok->str() != "=");
const Token *typeTok = startTok;
// skip over stuff to get to type
while (Token::Match(typeTok, "const|enum|struct|::"))
typeTok = typeTok->next();
// skip over qualification
while (Token::Match(typeTok, "%type% ::"))
typeTok = typeTok->tokAt(2);
// check for argument with no name or missing varid
if (!endTok) {
if (tok->previous()->isName() && tok->strAt(-1) != "const") {
if (tok->previous() != typeTok) {
nameTok = tok->previous();
endTok = nameTok->previous();
if (hasBody())
symbolDatabase->debugMessage(nameTok, "Function::addArguments found argument \'" + nameTok->str() + "\' with varid 0.");
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} else
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endTok = typeTok;
} else
endTok = tok->previous();
}
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const ::Type *argType = nullptr;
if (!typeTok->isStandardType()) {
argType = findVariableTypeIncludingUsedNamespaces(symbolDatabase, scope, typeTok);
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// save type
const_cast<Token *>(typeTok)->type(argType);
}
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// skip default values
if (tok->str() == "=") {
do {
if (tok->link() && Token::Match(tok, "[{[(<]"))
tok = tok->link();
tok = tok->next();
} while (tok->str() != "," && tok->str() != ")");
}
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// skip over stuff before type
while (Token::Match(startTok, "enum|struct|const"))
startTok = startTok->next();
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argumentList.push_back(Variable(nameTok, startTok, endTok, count++, Argument, argType, functionScope, &symbolDatabase->_settings->library));
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if (tok->str() == ")") {
// check for a variadic function
if (Token::simpleMatch(startTok, ". . ."))
isVariadic(true);
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break;
}
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}
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// count default arguments
for (const Token* tok = argDef->next(); tok && tok != argDef->link(); tok = tok->next()) {
if (tok->str() == "=")
initArgCount++;
}
}
bool Function::isImplicitlyVirtual(bool defaultVal) const
{
if (isVirtual())
return true;
else if (access == Private || access == Public || access == Protected) {
bool safe = true;
bool hasVirt = isImplicitlyVirtual_rec(nestedIn->definedType, safe);
if (hasVirt)
return true;
else if (safe)
return false;
else
return defaultVal;
} else
return false;
}
bool Function::isImplicitlyVirtual_rec(const ::Type* baseType, bool& safe) const
{
// check each base class
for (std::size_t i = 0; i < baseType->derivedFrom.size(); ++i) {
const ::Type* derivedFromType = baseType->derivedFrom[i].type;
// check if base class exists in database
if (derivedFromType && derivedFromType->classScope) {
const Scope *parent = derivedFromType->classScope;
// check if function defined in base class
for (std::multimap<std::string, const Function *>::const_iterator it = parent->functionMap.find(tokenDef->str()); it != parent->functionMap.end() && it->first == tokenDef->str(); ++it) {
const Function * func = it->second;
if (func->isVirtual()) { // Base is virtual and of same name
const Token *temp1 = func->tokenDef->previous();
const Token *temp2 = tokenDef->previous();
bool returnMatch = true;
// check for matching return parameters
while (temp1->str() != "virtual") {
if (temp1->str() != temp2->str() &&
!(temp1->str() == derivedFromType->name() &&
temp2->str() == baseType->name())) {
returnMatch = false;
break;
}
temp1 = temp1->previous();
temp2 = temp2->previous();
}
// check for matching function parameters
if (returnMatch && argsMatch(baseType->classScope, func->argDef, argDef, emptyString, 0)) {
return true;
}
}
}
if (!derivedFromType->derivedFrom.empty() && !derivedFromType->hasCircularDependencies()) {
// avoid endless recursion, see #5289 Crash: Stack overflow in isImplicitlyVirtual_rec when checking SVN and
// #5590 with a loop within the class hierarchie.
if (isImplicitlyVirtual_rec(derivedFromType, safe)) {
return true;
}
}
} else {
// unable to find base class so assume it has no virtual function
safe = false;
return false;
}
}
return false;
}
const Variable* Function::getArgumentVar(std::size_t num) const
{
for (std::list<Variable>::const_iterator i = argumentList.begin(); i != argumentList.end(); ++i) {
if (i->index() == num)
return (&*i);
else if (i->index() > num)
return nullptr;
}
return nullptr;
}
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//---------------------------------------------------------------------------
Scope::Scope(const SymbolDatabase *check_, const Token *classDef_, const Scope *nestedIn_, ScopeType type_, const Token *start_) :
check(check_),
classDef(classDef_),
classStart(start_),
classEnd(start_->link()),
nestedIn(nestedIn_),
numConstructors(0),
numCopyOrMoveConstructors(0),
type(type_),
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definedType(nullptr),
functionOf(nullptr),
function(nullptr),
enumType(nullptr),
enumClass(false)
{
}
Scope::Scope(const SymbolDatabase *check_, const Token *classDef_, const Scope *nestedIn_) :
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check(check_),
classDef(classDef_),
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classStart(nullptr),
classEnd(nullptr),
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nestedIn(nestedIn_),
numConstructors(0),
numCopyOrMoveConstructors(0),
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definedType(nullptr),
functionOf(nullptr),
function(nullptr),
enumType(nullptr),
enumClass(false)
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{
const Token *nameTok = classDef;
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if (!classDef) {
type = Scope::eGlobal;
} else if (classDef->str() == "class" && check && check->isCPP()) {
type = Scope::eClass;
nameTok = nameTok->next();
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} else if (classDef->str() == "struct") {
type = Scope::eStruct;
nameTok = nameTok->next();
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} else if (classDef->str() == "union") {
type = Scope::eUnion;
nameTok = nameTok->next();
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} else if (classDef->str() == "namespace") {
type = Scope::eNamespace;
nameTok = nameTok->next();
} else if (classDef->str() == "enum") {
type = Scope::eEnum;
nameTok = nameTok->next();
if (nameTok->str() == "class") {
enumClass = true;
nameTok = nameTok->next();
}
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} else {
type = Scope::eFunction;
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}
// skip over qualification if present
if (nameTok && nameTok->str() == "::")
nameTok = nameTok->next();
while (Token::Match(nameTok, "%type% ::"))
nameTok = nameTok->tokAt(2);
if (nameTok && ((type == Scope::eEnum && Token::Match(nameTok, ":|{")) || nameTok->str() != "{")) // anonymous and unnamed structs/unions don't have a name
className = nameTok->str();
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}
bool Scope::hasDefaultConstructor() const
{
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if (numConstructors) {
std::list<Function>::const_iterator func;
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for (func = functionList.begin(); func != functionList.end(); ++func) {
if (func->type == Function::eConstructor && func->argCount() == 0)
return true;
}
}
return false;
}
AccessControl Scope::defaultAccess() const
{
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switch (type) {
case eGlobal:
return Global;
case eClass:
return Private;
case eStruct:
return Public;
case eUnion:
return Public;
case eNamespace:
return Namespace;
default:
return Local;
}
}
// Get variable list..
void Scope::getVariableList(const Library* lib)
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{
const Token *start;
if (classStart)
start = classStart->next();
// global scope
else if (className.empty())
start = check->_tokenizer->tokens();
// forward declaration
else
return;
AccessControl varaccess = defaultAccess();
for (const Token *tok = start; tok && tok != classEnd; tok = tok->next()) {
// syntax error?
if (tok->next() == nullptr)
break;
// Is it a function?
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else if (tok->str() == "{") {
tok = tok->link();
continue;
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}
// Is it a nested class or structure?
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else if (Token::Match(tok, "class|struct|union|namespace %type% :|{")) {
tok = tok->tokAt(2);
while (tok && tok->str() != "{")
tok = tok->next();
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if (tok) {
// skip implementation
tok = tok->link();
continue;
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} else
break;
} else if (Token::Match(tok, "struct|union {")) {
if (Token::Match(tok->next()->link(), "} %name% ;|[")) {
tok = tok->next()->link()->tokAt(2);
continue;
} else if (Token::simpleMatch(tok->next()->link(), "} ;")) {
tok = tok->next();
continue;
}
}
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// Borland C++: Skip all variables in the __published section.
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// These are automatically initialized.
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else if (tok->str() == "__published:") {
for (; tok; tok = tok->next()) {
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if (tok->str() == "{")
tok = tok->link();
if (Token::Match(tok->next(), "private:|protected:|public:"))
break;
}
if (tok)
continue;
else
break;
}
// "private:" "public:" "protected:" etc
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else if (tok->str() == "public:") {
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varaccess = Public;
continue;
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} else if (tok->str() == "protected:") {
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varaccess = Protected;
continue;
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} else if (tok->str() == "private:") {
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varaccess = Private;
continue;
}
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// Is it a forward declaration?
else if (Token::Match(tok, "class|struct|union %name% ;")) {
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tok = tok->tokAt(2);
continue;
}
// Borland C++: Ignore properties..
else if (tok->str() == "__property")
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continue;
// skip return, goto and delete
else if (Token::Match(tok, "return|delete|goto")) {
while (tok->next() &&
tok->next()->str() != ";" &&
tok->next()->str() != "}" /* ticket #4994 */) {
tok = tok->next();
}
continue;
}
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// Search for start of statement..
else if (tok->previous() && !Token::Match(tok->previous(), ";|{|}|public:|protected:|private:"))
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continue;
else if (tok->str() == ";")
continue;
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tok = checkVariable(tok, varaccess, lib);
if (!tok)
break;
}
}
const Token *Scope::checkVariable(const Token *tok, AccessControl varaccess, const Library* lib)
{
// Is it a throw..?
if (Token::Match(tok, "throw %any% (") &&
Token::simpleMatch(tok->linkAt(2), ") ;")) {
return tok->linkAt(2);
} else if ((Token::Match(tok, "throw %any% :: %any% (") &&
Token::simpleMatch(tok->linkAt(4), ") ;"))) {
return tok->linkAt(4);
}
// friend?
if (Token::Match(tok, "friend %type%") && tok->next()->varId() == 0) {
const Token *next = Token::findmatch(tok->tokAt(2), ";|{");
if (next && next->str() == "{")
next = next->link();
return next;
}
// skip const|static|mutable|extern
while (Token::Match(tok, "const|static|mutable|extern")) {
tok = tok->next();
}
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// the start of the type tokens does not include the above modifiers
const Token *typestart = tok;
if (Token::Match(tok, "class|struct|union|enum")) {
tok = tok->next();
}
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// This is the start of a statement
const Token *vartok = nullptr;
const Token *typetok = nullptr;
if (tok && isVariableDeclaration(tok, vartok, typetok)) {
// If the vartok was set in the if-blocks above, create a entry for this variable..
tok = vartok->next();
while (Token::Match(tok, "[|{"))
tok = tok->link()->next();
if (vartok->varId() == 0) {
if (!vartok->isBoolean())
check->debugMessage(vartok, "Scope::checkVariable found variable \'" + vartok->str() + "\' with varid 0.");
return tok;
}
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const Type *vType = nullptr;
if (typetok) {
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vType = findVariableTypeIncludingUsedNamespaces(check, this, typetok);
const_cast<Token *>(typetok)->type(vType);
}
// skip "enum" or "struct"
if (Token::Match(typestart, "enum|struct"))
typestart = typestart->next();
addVariable(vartok, typestart, vartok->previous(), varaccess, vType, this, lib);
}
return tok;
}
const Variable *Scope::getVariable(const std::string &varname) const
{
std::list<Variable>::const_iterator iter;
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for (iter = varlist.begin(); iter != varlist.end(); ++iter) {
if (iter->name() == varname)
return &*iter;
}
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return nullptr;
}
static const Token* skipScopeIdentifiers(const Token* tok)
{
if (tok && tok->str() == "::") {
tok = tok->next();
}
while (Token::Match(tok, "%type% ::")) {
tok = tok->tokAt(2);
}
return tok;
}
static const Token* skipPointers(const Token* tok)
{
while (Token::Match(tok, "*|&|&&") || (Token::Match(tok, "( [*&]") && Token::Match(tok->link()->next(), "(|["))) {
tok = tok->next();
if (tok->strAt(-1) == "(" && Token::Match(tok, "%type% ::"))
tok = tok->tokAt(2);
}
return tok;
}
bool Scope::isVariableDeclaration(const Token* const tok, const Token*& vartok, const Token*& typetok) const
{
if (check && check->_tokenizer->isCPP() && Token::Match(tok, "throw|new"))
return false;
const Token* localTypeTok = skipScopeIdentifiers(tok);
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const Token* localVarTok = nullptr;
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if (Token::Match(localTypeTok, "%type% <")) {
if (Token::Match(tok, "const_cast|dynamic_cast|reinterpret_cast|static_cast <"))
return false;
const Token* closeTok = localTypeTok->next()->link();
if (closeTok) {
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localVarTok = skipPointers(closeTok->next());
if (Token::Match(localVarTok, ":: %type% %name% [;=({]")) {
if (localVarTok->strAt(3) != "(" ||
Token::Match(localVarTok->linkAt(3), "[)}] ;")) {
localTypeTok = localVarTok->next();
localVarTok = localVarTok->tokAt(2);
}
}
}
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} else if (Token::Match(localTypeTok, "%type%")) {
localVarTok = skipPointers(localTypeTok->strAt(1)=="const"?localTypeTok->tokAt(2):localTypeTok->next());
2011-01-18 10:51:57 +01:00
}
if (!localVarTok)
return false;
if (localVarTok->str() == "const")
localVarTok = localVarTok->next();
if (Token::Match(localVarTok, "%name% ;|=") || (localVarTok && localVarTok->varId() && localVarTok->strAt(1) == ":")) {
vartok = localVarTok;
typetok = localTypeTok;
} else if (Token::Match(localVarTok, "%name% )|[") && localVarTok->str() != "operator") {
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vartok = localVarTok;
typetok = localTypeTok;
} else if (localVarTok && localVarTok->varId() && Token::Match(localVarTok, "%name% (|{") &&
Token::Match(localVarTok->next()->link(), ")|} ;")) {
vartok = localVarTok;
typetok = localTypeTok;
} else if (type == eCatch &&
Token::Match(localVarTok, "%name% )")) {
vartok = localVarTok;
typetok = localTypeTok;
}
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return nullptr != vartok;
}
const Token * Scope::addEnum(const Token * tok, bool isCpp)
{
const Token * tok2 = tok->next();
// skip over class if present
if (isCpp && tok2->str() == "class")
tok2 = tok2->next();
// skip over name
tok2 = tok2->next();
// save type if present
if (tok2->str() == ":") {
tok2 = tok2->next();
enumType = tok2;
tok2 = tok2->next();
}
// add enumerators
if (tok2->str() == "{") {
const Token * end = tok2->link();
tok2 = tok2->next();
while (Token::Match(tok2, "%name% =|,|}") ||
(Token::Match(tok2, "%name% (") && Token::Match(tok2->linkAt(1), ") ,|}"))) {
Enumerator enumerator(this);
// save enumerator name
enumerator.name = tok2;
// skip over name
tok2 = tok2->next();
if (tok2->str() == "=") {
// skip over "="
tok2 = tok2->next();
if (tok2->str() == "}")
return nullptr;
enumerator.start = tok2;
while (!Token::Match(tok2, ",|}")) {
if (tok2->link())
tok2 = tok2->link();
enumerator.end = tok2;
tok2 = tok2->next();
}
} else if (tok2->str() == "(") {
// skip over unknown macro
tok2 = tok2->link()->next();
}
if (tok2->str() == ",") {
enumeratorList.push_back(enumerator);
tok2 = tok2->next();
} else if (tok2->str() == "}") {
enumeratorList.push_back(enumerator);
break;
}
}
if (tok2 == end) {
tok2 = tok2->next();
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if (tok2 && tok2->str() != ";")
tok2 = nullptr;
} else
tok2 = nullptr;
} else
tok2 = nullptr;
return tok2;
}
const Enumerator * SymbolDatabase::findEnumerator(const Token * tok) const
{
const Scope * scope = tok->scope();
// check for qualified name
if (tok->strAt(-1) == "::") {
// find first scope
const Token *tok1 = tok;
while (Token::Match(tok1->tokAt(-2), "%name% ::"))
tok1 = tok1->tokAt(-2);
if (tok1->strAt(-1) == "::")
scope = &scopeList.front();
else {
// FIXME search base class here
// find first scope
while (scope && scope->nestedIn) {
const Scope * temp = scope->nestedIn->findRecordInNestedList(tok1->str());
if (temp) {
scope = temp;
break;
}
scope = scope->nestedIn;
}
}
if (scope) {
tok1 = tok1->tokAt(2);
while (scope && Token::Match(tok1, "%name% ::")) {
scope = scope->findRecordInNestedList(tok1->str());
tok1 = tok1->tokAt(2);
}
if (scope) {
const Enumerator * enumerator = scope->findEnumerator(tok->str());
if (enumerator) // enum class
return enumerator;
// enum
else {
for (std::list<Scope *>::const_iterator it = scope->nestedList.begin(), end = scope->nestedList.end(); it != end; ++it) {
enumerator = (*it)->findEnumerator(tok->str());
if (enumerator)
return enumerator;
}
}
}
}
} else {
const Enumerator * enumerator = scope->findEnumerator(tok->str());
if (enumerator)
return enumerator;
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for (std::list<Scope *>::const_iterator s = scope->nestedList.begin(); s != scope->nestedList.end(); ++s) {
enumerator = (*s)->findEnumerator(tok->str());
if (enumerator)
return enumerator;
}
if (scope->definedType) {
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const std::vector<Type::BaseInfo> & derivedFrom = scope->definedType->derivedFrom;
for (size_t i = 0, end = derivedFrom.size(); i < end; ++i) {
const Type *derivedFromType = derivedFrom[i].type;
if (derivedFromType && derivedFromType ->classScope) {
enumerator = derivedFromType->classScope->findEnumerator(tok->str());
if (enumerator)
return enumerator;
}
}
}
while (scope->nestedIn) {
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if (scope->type == Scope::eFunction && scope->functionOf)
scope = scope->functionOf;
else
scope = scope->nestedIn;
enumerator = scope->findEnumerator(tok->str());
if (enumerator)
return enumerator;
for (std::list<Scope*>::const_iterator s = scope->nestedList.begin(); s != scope->nestedList.end(); ++s) {
enumerator = (*s)->findEnumerator(tok->str());
if (enumerator)
return enumerator;
}
}
}
return nullptr;
}
//---------------------------------------------------------------------------
const Type* SymbolDatabase::findVariableTypeInBase(const Scope* scope, const Token* typeTok) const
{
if (scope && scope->definedType && !scope->definedType->derivedFrom.empty()) {
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const std::vector<Type::BaseInfo> &derivedFrom = scope->definedType->derivedFrom;
for (std::size_t i = 0; i < derivedFrom.size(); ++i) {
const Type *base = derivedFrom[i].type;
if (base && base->classScope) {
const Type * type = base->classScope->findType(typeTok->str());
if (type)
return type;
type = findVariableTypeInBase(base->classScope, typeTok);
if (type)
return type;
}
}
}
return nullptr;
}
//---------------------------------------------------------------------------
const Type* SymbolDatabase::findVariableType(const Scope *start, const Token *typeTok) const
{
const Scope *scope = start;
// check if type does not have a namespace
if (typeTok->strAt(-1) != "::" && typeTok->strAt(1) != "::") {
while (scope) {
// look for type in this scope
const Type * type = scope->findType(typeTok->str());
if (type)
return type;
// look for type in base classes if possible
if (scope->isClassOrStruct()) {
type = findVariableTypeInBase(scope, typeTok);
if (type)
return type;
}
// check if in member function class to see if it's present in class
if (scope->type == Scope::eFunction && scope->functionOf) {
const Scope *scope1 = scope->functionOf;
type = scope1->findType(typeTok->str());
if (type)
return type;
type = findVariableTypeInBase(scope1, typeTok);
if (type)
return type;
}
scope = scope->nestedIn;
}
}
// check for a qualified name and use it when given
else if (typeTok->strAt(-1) == "::") {
// check if type is not part of qualification
if (typeTok->strAt(1) == "::")
return nullptr;
// find start of qualified function name
const Token *tok1 = typeTok;
while (Token::Match(tok1->tokAt(-2), "%type% ::"))
tok1 = tok1->tokAt(-2);
// check for global scope
if (tok1->strAt(-1) == "::") {
scope = &scopeList.front();
scope = scope->findRecordInNestedList(tok1->str());
}
// find start of qualification
else {
while (scope) {
if (scope->className == tok1->str())
break;
else {
const Scope *scope1 = scope->findRecordInNestedList(tok1->str());
if (scope1) {
scope = scope1;
break;
} else
scope = scope->nestedIn;
}
}
}
if (scope) {
// follow qualification
while (scope && Token::Match(tok1, "%type% ::")) {
tok1 = tok1->tokAt(2);
const Scope * temp = scope->findRecordInNestedList(tok1->str());
if (!temp) {
// look in base classes
const Type * type = findVariableTypeInBase(scope, tok1);
if (type)
return type;
}
scope = temp;
}
if (scope && scope->definedType)
return scope->definedType;
2010-11-13 08:08:45 +01:00
}
}
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return nullptr;
2010-11-13 08:08:45 +01:00
}
bool Scope::hasInlineOrLambdaFunction() const
{
for (std::list<Scope*>::const_iterator it = nestedList.begin(); it != nestedList.end(); ++it) {
const Scope *s = *it;
// Inline function
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if (s->type == Scope::eUnconditional && Token::simpleMatch(s->classStart->previous(), ") {"))
return true;
// Lambda function
if (s->type == Scope::eLambda)
return true;
}
return false;
}
void Scope::findFunctionInBase(const std::string & name, size_t args, std::vector<const Function *> & matches) const
{
if (isClassOrStruct() && definedType && !definedType->derivedFrom.empty()) {
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const std::vector<Type::BaseInfo> &derivedFrom = definedType->derivedFrom;
for (std::size_t i = 0; i < derivedFrom.size(); ++i) {
const Type *base = derivedFrom[i].type;
if (base && base->classScope) {
if (base->classScope == this) // Ticket #5120, #5125: Recursive class; tok should have been found already
continue;
for (std::multimap<std::string, const Function *>::const_iterator it = base->classScope->functionMap.find(name); it != base->classScope->functionMap.end() && it->first == name; ++it) {
const Function *func = it->second;
if (args == func->argCount() || (args < func->argCount() && args >= func->minArgCount())) {
matches.push_back(func);
}
}
base->classScope->findFunctionInBase(name, args, matches);
}
}
}
}
//---------------------------------------------------------------------------
static void checkVariableCallMatch(const Variable* callarg, const Variable* funcarg, size_t& same, size_t& fallback1, size_t& fallback2)
{
if (callarg) {
bool ptrequals = callarg->isArrayOrPointer() == funcarg->isArrayOrPointer();
bool constEquals = !callarg->isArrayOrPointer() || ((callarg->typeStartToken()->strAt(-1) == "const") == (funcarg->typeStartToken()->strAt(-1) == "const"));
if (ptrequals && constEquals &&
callarg->typeStartToken()->str() == funcarg->typeStartToken()->str() &&
callarg->typeStartToken()->isUnsigned() == funcarg->typeStartToken()->isUnsigned() &&
callarg->typeStartToken()->isLong() == funcarg->typeStartToken()->isLong()) {
same++;
} else if (callarg->isArrayOrPointer()) {
if (ptrequals && constEquals && funcarg->typeStartToken()->str() == "void")
fallback1++;
else if (constEquals && funcarg->isStlStringType() && Token::Match(callarg->typeStartToken(), "char|wchar_t"))
fallback2++;
} else if (ptrequals) {
bool takesInt = Token::Match(funcarg->typeStartToken(), "char|short|int|long");
bool takesFloat = Token::Match(funcarg->typeStartToken(), "float|double");
bool passesInt = Token::Match(callarg->typeStartToken(), "char|short|int|long");
bool passesFloat = Token::Match(callarg->typeStartToken(), "float|double");
if ((takesInt && passesInt) || (takesFloat && passesFloat))
fallback1++;
else if ((takesInt && passesFloat) || (takesFloat && passesInt))
fallback2++;
}
}
}
const Function* Scope::findFunction(const Token *tok, bool requireConst) const
{
// make sure this is a function call
const Token *end = tok->linkAt(1);
if (!end)
return nullptr;
std::vector<const Token *> arguments;
// find all the arguments for this function call
for (const Token *arg = tok->tokAt(2); arg && arg != end; arg = arg->nextArgument()) {
arguments.push_back(arg);
}
std::vector<const Function *> matches;
// find all the possible functions that could match
const std::size_t args = arguments.size();
for (std::multimap<std::string, const Function *>::const_iterator it = functionMap.find(tok->str()); it != functionMap.cend() && it->first == tok->str(); ++it) {
const Function *func = it->second;
if (args == func->argCount() ||
(func->isVariadic() && args >= (func->argCount() - 1)) ||
(args < func->argCount() && args >= func->minArgCount())) {
matches.push_back(func);
}
}
// check in base classes
findFunctionInBase(tok->str(), args, matches);
const Function* fallback1Func = nullptr;
const Function* fallback2Func = nullptr;
// check each function against the arguments in the function call for a match
for (std::size_t i = 0; i < matches.size();) {
bool erased = false;
bool constFallback = false;
const Function * func = matches[i];
size_t same = 0;
if (!requireConst || !func->isConst()) {
// get the function this call is in
const Scope * scope = tok->scope();
// check if this function is a member function
if (scope && scope->functionOf && scope->functionOf->isClassOrStruct() && scope->function) {
// check if isConst mismatches
if (scope->function->isConst() != func->isConst()) {
if (scope->function->isConst()) {
if (!erased)
++i;
continue;
}
constFallback = true;
}
}
}
size_t fallback1 = 0;
size_t fallback2 = 0;
for (std::size_t j = 0; j < args; ++j) {
// don't check variadic arguments
if (func->isVariadic() && j > (func->argCount() - 1)) {
break;
}
const Variable *funcarg = func->getArgumentVar(j);
// check for a match with a variable
if (Token::Match(arguments[j], "%var% ,|)")) {
const Variable * callarg = check->getVariableFromVarId(arguments[j]->varId());
checkVariableCallMatch(callarg, funcarg, same, fallback1, fallback2);
}
// check for a match with address of a variable
else if (Token::Match(arguments[j], "& %var% ,|)")) {
const Variable * callarg = check->getVariableFromVarId(arguments[j]->next()->varId());
if (callarg) {
bool funcargptr = (funcarg->typeEndToken()->str() == "*");
if (funcargptr &&
(callarg->typeStartToken()->str() == funcarg->typeStartToken()->str() &&
callarg->typeStartToken()->isUnsigned() == funcarg->typeStartToken()->isUnsigned() &&
callarg->typeStartToken()->isLong() == funcarg->typeStartToken()->isLong())) {
same++;
} else if (funcargptr && funcarg->typeStartToken()->str() == "void") {
fallback1++;
} else {
// can't match so remove this function from possible matches
matches.erase(matches.begin() + i);
erased = true;
break;
}
}
}
// check for a match with a numeric literal
else if (Token::Match(arguments[j], "%num% ,|)")) {
if (MathLib::isInt(arguments[j]->str()) && (!funcarg->isPointer() || MathLib::isNullValue(arguments[j]->str()))) {
bool exactMatch = false;
if (arguments[j]->str().find("ll") != std::string::npos ||
arguments[j]->str().find("LL") != std::string::npos) {
if (arguments[j]->str().find('u') != std::string::npos ||
arguments[j]->str().find('U') != std::string::npos) {
if (funcarg->typeStartToken()->isLong() &&
funcarg->typeStartToken()->isUnsigned() &&
funcarg->typeStartToken()->str() == "long") {
exactMatch = true;
}
} else {
if (funcarg->typeStartToken()->isLong() &&
!funcarg->typeStartToken()->isUnsigned() &&
funcarg->typeStartToken()->str() == "long") {
exactMatch = true;
}
}
} else if (arguments[j]->str().find('l') != std::string::npos ||
arguments[j]->str().find('L') != std::string::npos) {
if (arguments[j]->str().find('u') != std::string::npos ||
arguments[j]->str().find('U') != std::string::npos) {
if (!funcarg->typeStartToken()->isLong() &&
funcarg->typeStartToken()->isUnsigned() &&
funcarg->typeStartToken()->str() == "long") {
exactMatch = true;
}
} else {
if (!funcarg->typeStartToken()->isLong() &&
!funcarg->typeStartToken()->isUnsigned() &&
funcarg->typeStartToken()->str() == "long") {
exactMatch = true;
}
}
} else if (arguments[j]->str().find('u') != std::string::npos ||
arguments[j]->str().find('U') != std::string::npos) {
if (funcarg->typeStartToken()->isUnsigned() &&
funcarg->typeStartToken()->str() == "int") {
exactMatch = true;
} else if (Token::Match(funcarg->typeStartToken(), "char|short")) {
exactMatch = true;
}
} else {
if (Token::Match(funcarg->typeStartToken(), "wchar_t|char|short|int|long")) {
exactMatch = true;
}
}
if (exactMatch)
if (funcarg->isPointer())
fallback2++;
else
same++;
else {
if (funcarg->isPointer() || Token::Match(funcarg->typeStartToken(), "wchar_t|char|short|int|long"))
fallback1++;
else if (Token::Match(funcarg->typeStartToken(), "float|double"))
fallback2++;
}
} else if (!funcarg->isPointer()) {
bool exactMatch = false;
if (arguments[j]->str().find('f') != std::string::npos ||
arguments[j]->str().find('F') != std::string::npos) {
if (funcarg->typeStartToken()->str() == "float") {
exactMatch = true;
}
} else if (arguments[j]->str().find('l') != std::string::npos ||
arguments[j]->str().find('L') != std::string::npos) {
if (funcarg->typeStartToken()->isLong() &&
funcarg->typeStartToken()->str() == "double") {
exactMatch = true;
}
} else {
if (!funcarg->typeStartToken()->isLong() &&
funcarg->typeStartToken()->str() == "double") {
exactMatch = true;
}
}
if (exactMatch)
same++;
else {
if (Token::Match(funcarg->typeStartToken(), "float|double"))
fallback1++;
else if (Token::Match(funcarg->typeStartToken(), "wchar_t|char|short|int|long"))
fallback2++;
}
}
}
// check for a match with a string literal
else if (Token::Match(arguments[j], "%str% ,|)")) {
if (funcarg->typeStartToken() != funcarg->typeEndToken() &&
((!arguments[j]->isLong() && Token::simpleMatch(funcarg->typeStartToken(), "char *")) ||
(arguments[j]->isLong() && Token::simpleMatch(funcarg->typeStartToken(), "wchar_t *"))))
same++;
else if (Token::simpleMatch(funcarg->typeStartToken(), "void *"))
fallback1++;
else if (funcarg->isStlStringType())
fallback2++;
}
// check for a match with a char literal
else if (!funcarg->isArrayOrPointer() && Token::Match(arguments[j], "%char% ,|)")) {
if (arguments[j]->isLong() && funcarg->typeStartToken()->str() == "wchar_t")
same++;
else if (!arguments[j]->isLong() && funcarg->typeStartToken()->str() == "char")
same++;
else if (Token::Match(funcarg->typeStartToken(), "wchar_t|char|short|int|long"))
fallback1++;
}
// check for a match with a boolean literal
else if (!funcarg->isArrayOrPointer() && Token::Match(arguments[j], "%bool% ,|)")) {
2017-03-04 11:13:28 +01:00
if (Token::Match(funcarg->typeStartToken(), "bool|_Bool"))
same++;
else if (Token::Match(funcarg->typeStartToken(), "wchar_t|char|short|int|long"))
fallback1++;
}
// check for a match with nullptr
else if (funcarg->isPointer() && Token::Match(arguments[j], "nullptr|NULL ,|)")) {
same++;
}
// check that function argument type is not mismatching
else if (funcarg->isReference() && arguments[j]->str() == "&") {
// can't match so remove this function from possible matches
matches.erase(matches.begin() + i);
erased = true;
break;
}
// Try to evaluate the apparently more complex expression
else {
const Token* argtok = arguments[j];
while (argtok->astParent() && argtok->astParent() != tok->next() && argtok->astParent()->str() != ",") {
argtok = argtok->astParent();
}
if (argtok && argtok->valueType() && !funcarg->isArrayOrPointer()) { // TODO: Pointers
if (argtok->valueType()->type == ValueType::BOOL) {
if (funcarg->typeStartToken()->str() == "bool")
same++;
else if (Token::Match(funcarg->typeStartToken(), "wchar_t|char|short|int|long"))
fallback1++;
} else if (argtok->valueType()->isIntegral()) {
if (Token::Match(funcarg->typeStartToken(), "wchar_t|char|short|int|long"))
same++;
else if (Token::Match(funcarg->typeStartToken(), "float|double"))
fallback1++;
} else if (argtok->valueType()->isFloat()) {
if (Token::Match(funcarg->typeStartToken(), "float|double"))
same++;
else if (Token::Match(funcarg->typeStartToken(), "wchar_t|char|short|int|long"))
fallback1++;
}
} else {
while (Token::Match(argtok, ".|::"))
argtok = argtok->astOperand2();
if (argtok) {
const Variable * callarg = check->getVariableFromVarId(argtok->varId());
checkVariableCallMatch(callarg, funcarg, same, fallback1, fallback2);
}
}
}
}
size_t hasToBe = func->isVariadic() ? (func->argCount() - 1) : args;
// check if all arguments matched
if (same == hasToBe) {
if (constFallback)
fallback1Func = func;
else
return func;
}
else if (!fallback1Func) {
if (same + fallback1 == hasToBe)
fallback1Func = func;
else if (!fallback2Func && same + fallback2 + fallback1 == hasToBe)
fallback2Func = func;
}
if (!erased)
++i;
}
// Fallback cases
if (fallback1Func)
return fallback1Func;
if (fallback2Func)
return fallback2Func;
// Only one candidate left
if (matches.size() == 1)
return matches[0];
return nullptr;
}
//---------------------------------------------------------------------------
const Function* SymbolDatabase::findFunction(const Token *tok) const
{
// find the scope this function is in
const Scope *currScope = tok->scope();
while (currScope && currScope->isExecutable()) {
if (currScope->functionOf)
currScope = currScope->functionOf;
else
currScope = currScope->nestedIn;
}
// check for a qualified name and use it when given
if (tok->strAt(-1) == "::") {
// find start of qualified function name
const Token *tok1 = tok;
while (Token::Match(tok1->tokAt(-2), "%type% ::"))
tok1 = tok1->tokAt(-2);
// check for global scope
if (tok1->strAt(-1) == "::") {
currScope = &scopeList.front();
currScope = currScope->findRecordInNestedList(tok1->str());
}
// find start of qualification
else {
while (currScope) {
if (currScope->className == tok1->str())
break;
else {
const Scope *scope = currScope->findRecordInNestedList(tok1->str());
if (scope) {
currScope = scope;
break;
} else
currScope = currScope->nestedIn;
}
}
}
if (currScope) {
while (currScope && !Token::Match(tok1, "%type% :: %any% (")) {
tok1 = tok1->tokAt(2);
currScope = currScope->findRecordInNestedList(tok1->str());
}
tok1 = tok1->tokAt(2);
if (currScope && tok1)
return currScope->findFunction(tok1);
}
}
// check for member function
else if (Token::Match(tok->tokAt(-2), "!!this .")) {
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const Token *tok1 = tok->tokAt(-2);
if (Token::Match(tok1, "%var% .")) {
const Variable *var = getVariableFromVarId(tok1->varId());
if (var && var->typeScope())
return var->typeScope()->findFunction(tok, var->isConst());
}
}
// check in enclosing scopes
else {
while (currScope) {
const Function *func = currScope->findFunction(tok);
if (func)
return func;
currScope = currScope->nestedIn;
}
}
return nullptr;
}
//---------------------------------------------------------------------------
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const Scope *SymbolDatabase::findScopeByName(const std::string& name) const
{
for (std::list<Scope>::const_iterator it = scopeList.begin(); it != scopeList.end(); ++it) {
if (it->className == name)
return &*it;
}
return nullptr;
}
//---------------------------------------------------------------------------
Scope *Scope::findInNestedList(const std::string & name)
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{
std::list<Scope *>::iterator it;
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for (it = nestedList.begin(); it != nestedList.end(); ++it) {
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if ((*it)->className == name)
return (*it);
}
return nullptr;
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}
//---------------------------------------------------------------------------
const Scope *Scope::findRecordInNestedList(const std::string & name) const
{
std::list<Scope *>::const_iterator it;
for (it = nestedList.begin(); it != nestedList.end(); ++it) {
if ((*it)->className == name && (*it)->type != eFunction)
return (*it);
}
return nullptr;
}
//---------------------------------------------------------------------------
const Type* Scope::findType(const std::string & name) const
{
std::list<Type*>::const_iterator it;
for (it = definedTypes.begin(); it != definedTypes.end(); ++it) {
if ((*it)->name() == name)
return (*it);
}
return nullptr;
}
//---------------------------------------------------------------------------
Scope *Scope::findInNestedListRecursive(const std::string & name)
{
std::list<Scope *>::iterator it;
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for (it = nestedList.begin(); it != nestedList.end(); ++it) {
if ((*it)->className == name)
return (*it);
}
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for (it = nestedList.begin(); it != nestedList.end(); ++it) {
Scope *child = (*it)->findInNestedListRecursive(name);
if (child)
return child;
}
return nullptr;
}
//---------------------------------------------------------------------------
const Function *Scope::getDestructor() const
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{
std::list<Function>::const_iterator it;
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for (it = functionList.begin(); it != functionList.end(); ++it) {
if (it->type == Function::eDestructor)
return &(*it);
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}
return nullptr;
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}
//---------------------------------------------------------------------------
bool SymbolDatabase::isCPP() const
{
return _tokenizer->isCPP();
}
//---------------------------------------------------------------------------
const Scope *SymbolDatabase::findScope(const Token *tok, const Scope *startScope) const
{
const Scope *scope = nullptr;
// absolute path
if (tok->str() == "::") {
tok = tok->next();
scope = &scopeList.front();
}
// relative path
else if (tok->isName()) {
scope = startScope;
}
while (scope && tok && tok->isName()) {
if (tok->strAt(1) == "::") {
scope = scope->findRecordInNestedList(tok->str());
tok = tok->tokAt(2);
} else
return scope->findRecordInNestedList(tok->str());
}
// not a valid path
return nullptr;
}
//---------------------------------------------------------------------------
const Type* SymbolDatabase::findType(const Token *startTok, const Scope *startScope) const
{
// skip over struct or union
if (Token::Match(startTok, "struct|union"))
startTok = startTok->next();
// type same as scope
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if (startTok->str() == startScope->className && startScope->isClassOrStruct() && startTok->strAt(1) != "::")
return startScope->definedType;
const Scope* start_scope = startScope;
// absolute path - directly start in global scope
if (startTok->str() == "::") {
startTok = startTok->next();
start_scope = &scopeList.front();
}
const Token* tok = startTok;
const Scope* scope = start_scope;
while (scope && tok && tok->isName()) {
if (tok->strAt(1) == "::") {
scope = scope->findRecordInNestedList(tok->str());
if (scope) {
tok = tok->tokAt(2);
} else {
start_scope = start_scope->nestedIn;
if (!start_scope)
break;
scope = start_scope;
tok = startTok;
}
} else {
const Type * type = scope->findType(tok->str());
if (type)
return type;
else
break;
}
}
// check using namespaces
while (startScope) {
for (std::list<Scope::UsingInfo>::const_iterator it = startScope->usingList.begin();
it != startScope->usingList.end(); ++it) {
tok = startTok;
scope = it->scope;
start_scope = startScope;
while (scope && tok && tok->isName()) {
if (tok->strAt(1) == "::") {
scope = scope->findRecordInNestedList(tok->str());
if (scope) {
tok = tok->tokAt(2);
} else {
start_scope = start_scope->nestedIn;
if (!start_scope)
break;
scope = start_scope;
tok = startTok;
}
} else {
const Type * type = scope->findType(tok->str());
if (type)
return type;
else
break;
}
}
}
startScope = startScope->nestedIn;
}
// not a valid path
return nullptr;
}
//---------------------------------------------------------------------------
const Type* SymbolDatabase::findTypeInNested(const Token *startTok, const Scope *startScope) const
{
// skip over struct or union
if (Token::Match(startTok, "struct|union|enum"))
startTok = startTok->next();
// type same as scope
if (startTok->str() == startScope->className && startScope->isClassOrStruct())
return startScope->definedType;
bool hasPath = false;
// absolute path - directly start in global scope
if (startTok->str() == "::") {
hasPath = true;
startTok = startTok->next();
startScope = &scopeList.front();
}
const Token* tok = startTok;
const Scope* scope = startScope;
while (scope && tok && tok->isName()) {
if (tok->strAt(1) == "::") {
hasPath = true;
scope = scope->findRecordInNestedList(tok->str());
if (scope) {
tok = tok->tokAt(2);
} else {
startScope = startScope->nestedIn;
if (!startScope)
break;
scope = startScope;
tok = startTok;
}
} else {
const Type * type = scope->findType(tok->str());
if (hasPath || type)
return type;
else {
scope = scope->nestedIn;
if (!scope)
break;
}
}
}
// not a valid path
return nullptr;
}
//---------------------------------------------------------------------------
const Scope * SymbolDatabase::findNamespace(const Token * tok, const Scope * scope) const
{
const Scope * s = findScope(tok, scope);
if (s)
return s;
else if (scope->nestedIn)
return findNamespace(tok, scope->nestedIn);
return nullptr;
}
//---------------------------------------------------------------------------
Function * SymbolDatabase::findFunctionInScope(const Token *func, const Scope *ns)
{
const Function * function = nullptr;
const bool destructor = func->strAt(-1) == "~";
for (std::multimap<std::string, const Function *>::const_iterator it = ns->functionMap.find(func->str());
it != ns->functionMap.end() && it->first == func->str(); ++it) {
if (Function::argsMatch(ns, func->tokAt(2), it->second->argDef->next(), emptyString, 0) &&
it->second->isDestructor() == destructor) {
function = it->second;
break;
}
}
if (!function) {
const Scope * scope = ns->findRecordInNestedList(func->str());
if (scope && func->strAt(1) == "::") {
func = func->tokAt(2);
if (func->str() == "~")
func = func->next();
function = findFunctionInScope(func, scope);
}
}
return const_cast<Function *>(function);
}
//---------------------------------------------------------------------------
namespace {
const std::set<std::string> c_keywords = make_container< std::set<std::string> >() <<
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"_Bool" << "auto" << "break" << "case" << "char" << "const" << "continue" << "default" << "do" <<
"double" << "else" << "enum" << "extern" << "float" << "for" << "goto" << "if" << "inline" <<
"int" << "long" << "register" << "restrict" << "return" << "short" << "signed" << "sizeof" <<
"static" << "struct" << "switch" << "typedef" << "union" << "unsigned" << "void" << "volatile" <<
"while";
const std::set<std::string> cpp_keywords = make_container< std::set<std::string> >() <<
c_keywords <<
"alignas" << "alignof" << "and" << "and_eq" << "asm" << "auto" << "bitand" << "bitor" << "bool" <<
"break" << "case" << "catch" << "char" << "class" << "compl" <<
"concept" << "const" << "constexpr" << "const_cast" << "continue" << "decltype" << "default" <<
"delete" << "do" << "double" << "dynamic_cast" << "else" << "enum" << "explicit" << "export" <<
"extern" << "false" << "float" << "for" << "friend" << "goto" << "if" << "inline" << "int" << "long" <<
"mutable" << "namespace" << "new" << "noexcept" << "not" << "not_eq" << "nullptr" << "operator" <<
"or" << "or_eq" << "private" << "protected" << "public" << "register" << "reinterpret_cast" <<
"requires" << "return" << "short" << "signed" << "sizeof" << "static" << "static_assert" <<
"static_cast" << "struct" << "switch" << "template" << "this" << "thread_local" << "throw" <<
"true" << "try" << "typedef" << "typeid" << "typename" << "union" << "unsigned" << "using" <<
"virtual" << "void" << "volatile" << "wchar_t" << "while" << "xor" << "xor_eq";
}
bool SymbolDatabase::isReservedName(const std::string& iName) const
{
if (isCPP())
return cpp_keywords.find(iName) != cpp_keywords.cend();
else
return c_keywords.find(iName) != c_keywords.cend();
}
unsigned int SymbolDatabase::sizeOfType(const Token *type) const
{
unsigned int size = _tokenizer->sizeOfType(type);
if (size == 0 && type->type() && type->type()->isEnumType() && type->type()->classScope) {
size = _settings->sizeof_int;
const Token * enum_type = type->type()->classScope->enumType;
if (enum_type)
size = _tokenizer->sizeOfType(enum_type);
}
return size;
}
static const Token * parsedecl(const Token *type, ValueType * const valuetype, ValueType::Sign defaultSignedness, const Settings* settings);
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void SymbolDatabase::setValueType(Token *tok, const Variable &var)
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{
ValueType valuetype;
valuetype.pointer = var.dimensions().size();
valuetype.typeScope = var.typeScope();
if (parsedecl(var.typeStartToken(), &valuetype, defaultSignedness, _settings))
setValueType(tok, valuetype);
}
void SymbolDatabase::setValueType(Token *tok, const Enumerator &enumerator)
{
ValueType valuetype;
valuetype.typeScope = enumerator.scope;
const Token * type = enumerator.scope->enumType;
if (type) {
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valuetype.type = ValueType::typeFromString(type->str(), type->isLong());
if (valuetype.type == ValueType::Type::UNKNOWN_TYPE && type->isStandardType())
valuetype.fromLibraryType(type->str(), _settings);
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if (valuetype.isIntegral()) {
if (type->isSigned())
valuetype.sign = ValueType::Sign::SIGNED;
else if (type->isUnsigned())
valuetype.sign = ValueType::Sign::UNSIGNED;
else if (valuetype.type == ValueType::Type::CHAR)
valuetype.sign = defaultSignedness;
else
valuetype.sign = ValueType::Sign::SIGNED;
}
setValueType(tok, valuetype);
} else {
valuetype.sign = ValueType::SIGNED;
valuetype.type = ValueType::INT;
setValueType(tok, valuetype);
}
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}
static void setAutoTokenProperties(Token * const autoTok)
{
const ValueType *valuetype = autoTok->valueType();
if (valuetype->isIntegral() || valuetype->isFloat())
autoTok->isStandardType(true);
}
void SymbolDatabase::setValueType(Token *tok, const ValueType &valuetype)
{
tok->setValueType(new ValueType(valuetype));
Token *parent = const_cast<Token *>(tok->astParent());
if (!parent || parent->valueType())
return;
if (!parent->astOperand1())
return;
const ValueType *vt1 = parent->astOperand1() ? parent->astOperand1()->valueType() : nullptr;
const ValueType *vt2 = parent->astOperand2() ? parent->astOperand2()->valueType() : nullptr;
if (vt1 && Token::Match(parent, "<<|>>")) {
if (!cpp || (vt2 && vt2->isIntegral()))
setValueType(parent, *vt1);
return;
}
if (parent->isAssignmentOp()) {
if (vt1)
setValueType(parent, *vt1);
else if (cpp && ((Token::Match(parent->tokAt(-3), "%var% ; %var% =") && parent->strAt(-3) == parent->strAt(-1)) ||
Token::Match(parent->tokAt(-1), "%var% ="))) {
Token *var1Tok = parent->strAt(-2) == ";" ? parent->tokAt(-3) : parent->tokAt(-1);
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Token *autoTok = nullptr;
if (Token::Match(var1Tok->tokAt(-2), ";|{|}|(|const auto"))
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autoTok = var1Tok->previous();
else if (Token::Match(var1Tok->tokAt(-3), ";|{|}|(|const auto *"))
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autoTok = var1Tok->tokAt(-2);
if (autoTok) {
ValueType vt(*vt2);
if (autoTok->strAt(1) == "*" && vt.pointer)
vt.pointer--;
if (autoTok->strAt(-1) == "const")
vt.constness |= 1;
setValueType(autoTok, vt);
setAutoTokenProperties(autoTok);
setValueType(var1Tok, *vt2);
setValueType(parent->previous(), *vt2);
Variable *var = const_cast<Variable *>(parent->previous()->variable());
if (var) {
var->setFlags(*vt2);
if (vt2->typeScope && vt2->typeScope->definedType) {
var->type(vt2->typeScope->definedType);
if (autoTok->valueType()->pointer == 0)
autoTok->type(vt2->typeScope->definedType);
}
}
}
}
return;
}
if (parent->str() == "[" && (!cpp || parent->astOperand1() == tok) && valuetype.pointer > 0U && !Token::Match(parent->previous(), "[{,]")) {
const Token *op1 = parent->astOperand1();
while (op1 && op1->str() == "[")
op1 = op1->astOperand1();
ValueType vt(valuetype);
// the "[" is a dereference unless this is a variable declaration
if (!(op1 && op1->variable() && op1->variable()->nameToken() == op1))
vt.pointer -= 1U;
setValueType(parent, vt);
return;
}
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if (Token::Match(parent->previous(), "%name% (") && parent->astOperand1() == tok && valuetype.pointer > 0U) {
ValueType vt(valuetype);
vt.pointer -= 1U;
setValueType(parent, vt);
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return;
}
if (parent->str() == "*" && !parent->astOperand2() && valuetype.pointer > 0U) {
ValueType vt(valuetype);
vt.pointer -= 1U;
setValueType(parent, vt);
return;
}
if (parent->str() == "&" && !parent->astOperand2()) {
ValueType vt(valuetype);
vt.pointer += 1U;
setValueType(parent, vt);
return;
}
if ((parent->str() == "." || parent->str() == "::") &&
parent->astOperand2() && parent->astOperand2()->isName()) {
const Variable* var = parent->astOperand2()->variable();
if (!var && valuetype.typeScope && vt1) {
const std::string &name = parent->astOperand2()->str();
const Scope *typeScope = vt1->typeScope;
if (!typeScope)
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return;
for (std::list<Variable>::const_iterator it = typeScope->varlist.begin(); it != typeScope->varlist.end(); ++it) {
if (it->nameToken()->str() == name) {
var = &*it;
break;
}
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}
}
if (var)
setValueType(parent, *var);
return;
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}
// range for loop, auto
if (vt2 &&
parent->str() == ":" &&
Token::Match(parent->astParent(), "( const| auto *|&| %var% :") &&
!parent->previous()->valueType() &&
Token::simpleMatch(parent->astParent()->astOperand1(), "for")) {
const bool isconst = Token::simpleMatch(parent->astParent()->next(), "const");
Token * const autoToken = const_cast<Token *>(parent->astParent()->tokAt(isconst ? 2 : 1));
if (vt2->pointer) {
ValueType autovt(*vt2);
autovt.pointer--;
autovt.constness = 0;
setValueType(autoToken, autovt);
setAutoTokenProperties(autoToken);
ValueType varvt(*vt2);
varvt.pointer--;
if (isconst)
varvt.constness |= 1;
setValueType(parent->previous(), varvt);
Variable *var = const_cast<Variable *>(parent->previous()->variable());
if (var) {
var->setFlags(varvt);
if (vt2->typeScope && vt2->typeScope->definedType) {
var->type(vt2->typeScope->definedType);
autoToken->type(vt2->typeScope->definedType);
}
}
} else if (vt2->container) {
// TODO: Determine exact type of RHS
const Token *typeStart = parent->astOperand2();
while (typeStart) {
if (typeStart->variable())
typeStart = typeStart->variable()->typeStartToken();
else if (typeStart->str() == "(" && typeStart->previous() && typeStart->previous()->function())
typeStart = typeStart->previous()->function()->retDef;
else
break;
}
// TODO: Get type better
if (Token::Match(typeStart, "std :: %type% < %type% *| *| >")) {
ValueType autovt;
if (parsedecl(typeStart->tokAt(4), &autovt, defaultSignedness, _settings)) {
setValueType(autoToken, autovt);
setAutoTokenProperties(autoToken);
ValueType varvt(autovt);
if (isconst)
varvt.constness |= 1;
setValueType(parent->previous(), varvt);
Variable * var = const_cast<Variable *>(parent->previous()->variable());
if (var) {
var->setFlags(varvt);
const Type * type = typeStart->tokAt(4)->type();
if (type && type->classScope && type->classScope->definedType) {
autoToken->type(type->classScope->definedType);
var->type(type->classScope->definedType);
}
}
}
}
}
}
if (!vt1)
return;
if (parent->astOperand2() && !vt2)
return;
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bool ternary = parent->str() == ":" && parent->astParent() && parent->astParent()->str() == "?";
if (ternary) {
if (vt2 && vt1->pointer == vt2->pointer && vt1->type == vt2->type && vt1->sign == vt2->sign)
setValueType(parent, *vt2);
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parent = const_cast<Token*>(parent->astParent());
}
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if (ternary || parent->isArithmeticalOp() || parent->tokType() == Token::eIncDecOp) {
if (vt1->pointer != 0U && vt2 && vt2->pointer == 0U) {
setValueType(parent, *vt1);
return;
}
if (vt1->pointer == 0U && vt2 && vt2->pointer != 0U) {
setValueType(parent, *vt2);
return;
}
if (vt1->pointer != 0U) {
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if (ternary || parent->tokType() == Token::eIncDecOp) // result is pointer
setValueType(parent, *vt1);
else // result is pointer diff
setValueType(parent, ValueType(ValueType::Sign::SIGNED, ValueType::Type::INT, 0U, 0U, "ptrdiff_t"));
return;
}
if (vt1->type == ValueType::Type::LONGDOUBLE || (vt2 && vt2->type == ValueType::Type::LONGDOUBLE)) {
setValueType(parent, ValueType(ValueType::Sign::UNKNOWN_SIGN, ValueType::Type::LONGDOUBLE, 0U));
return;
}
if (vt1->type == ValueType::Type::DOUBLE || (vt2 && vt2->type == ValueType::Type::DOUBLE)) {
setValueType(parent, ValueType(ValueType::Sign::UNKNOWN_SIGN, ValueType::Type::DOUBLE, 0U));
return;
}
if (vt1->type == ValueType::Type::FLOAT || (vt2 && vt2->type == ValueType::Type::FLOAT)) {
setValueType(parent, ValueType(ValueType::Sign::UNKNOWN_SIGN, ValueType::Type::FLOAT, 0U));
return;
}
// iterator +/- integral = iterator
if (vt1->type == ValueType::Type::ITERATOR && vt2 && vt2->isIntegral() &&
(parent->str() == "+" || parent->str() == "-")) {
setValueType(parent, *vt1);
return;
}
}
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if (vt1->isIntegral() && vt1->pointer == 0U &&
(!vt2 || (vt2->isIntegral() && vt2->pointer == 0U)) &&
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(ternary || parent->isArithmeticalOp() || parent->tokType() == Token::eBitOp || parent->tokType() == Token::eIncDecOp || parent->isAssignmentOp())) {
ValueType vt;
if (!vt2 || vt1->type > vt2->type) {
vt.type = vt1->type;
vt.sign = vt1->sign;
vt.originalTypeName = vt1->originalTypeName;
} else if (vt1->type == vt2->type) {
vt.type = vt1->type;
if (vt1->sign == ValueType::Sign::UNSIGNED || vt2->sign == ValueType::Sign::UNSIGNED)
vt.sign = ValueType::Sign::UNSIGNED;
else if (vt1->sign == ValueType::Sign::UNKNOWN_SIGN || vt2->sign == ValueType::Sign::UNKNOWN_SIGN)
vt.sign = ValueType::Sign::UNKNOWN_SIGN;
else
vt.sign = ValueType::Sign::SIGNED;
vt.originalTypeName = (vt1->originalTypeName.empty() ? vt2 : vt1)->originalTypeName;
} else {
vt.type = vt2->type;
vt.sign = vt2->sign;
vt.originalTypeName = vt2->originalTypeName;
}
if (vt.type < ValueType::Type::INT) {
vt.type = ValueType::Type::INT;
vt.sign = ValueType::Sign::SIGNED;
vt.originalTypeName.clear();
}
setValueType(parent, vt);
return;
}
}
static const Token * parsedecl(const Token *type, ValueType * const valuetype, ValueType::Sign defaultSignedness, const Settings* settings)
{
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const unsigned int pointer0 = valuetype->pointer;
while (Token::Match(type->previous(), "%name%"))
type = type->previous();
valuetype->sign = ValueType::Sign::UNKNOWN_SIGN;
if (!valuetype->typeScope)
valuetype->type = ValueType::Type::UNKNOWN_TYPE;
else if (valuetype->typeScope->type == Scope::eEnum) {
const Token * enum_type = valuetype->typeScope->enumType;
if (enum_type) {
if (enum_type->isSigned())
valuetype->sign = ValueType::Sign::SIGNED;
else if (enum_type->isUnsigned())
valuetype->sign = ValueType::Sign::UNSIGNED;
else
valuetype->sign = defaultSignedness;
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ValueType::Type t = ValueType::typeFromString(enum_type->str(), enum_type->isLong());
if (t != ValueType::Type::UNKNOWN_TYPE)
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valuetype->type = t;
else if (enum_type->isStandardType())
valuetype->fromLibraryType(enum_type->str(), settings);
} else
valuetype->type = ValueType::Type::INT;
} else
valuetype->type = ValueType::Type::RECORD;
while (Token::Match(type, "%name%|*|&|::") && !type->variable()) {
if (type->isSigned())
valuetype->sign = ValueType::Sign::SIGNED;
else if (type->isUnsigned())
valuetype->sign = ValueType::Sign::UNSIGNED;
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if (type->str() == "const")
valuetype->constness |= (1 << (valuetype->pointer - pointer0));
else if (const Library::Container *container = settings->library.detectContainer(type)) {
valuetype->type = ValueType::Type::CONTAINER;
valuetype->container = container;
while (Token::Match(type, "%name%|::|<")) {
if (type->str() == "<" && type->link())
type = type->link();
type = type->next();
}
continue;
} else if (Token::Match(type, "%name% :: %name%")) {
std::string typestr;
const Token *end = type;
while (Token::Match(end, "%name% :: %name%")) {
typestr += end->str() + "::";
end = end->tokAt(2);
}
typestr += end->str();
if (valuetype->fromLibraryType(typestr, settings))
type = end;
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} else if (ValueType::Type::UNKNOWN_TYPE != ValueType::typeFromString(type->str(), type->isLong()))
valuetype->type = ValueType::typeFromString(type->str(), type->isLong());
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else if (type->str() == "auto") {
const ValueType *vt = type->valueType();
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if (!vt)
return nullptr;
valuetype->type = vt->type;
valuetype->pointer = vt->pointer;
if (vt->sign != ValueType::Sign::UNKNOWN_SIGN)
valuetype->sign = vt->sign;
valuetype->constness = vt->constness;
while (Token::Match(type, "%name%|*|&|::") && !type->variable())
type = type->next();
break;
} else if (!valuetype->typeScope && (type->str() == "struct" || type->str() == "enum"))
valuetype->type = type->str() == "struct" ? ValueType::Type::RECORD : ValueType::Type::NONSTD;
else if (!valuetype->typeScope && type->type() && type->type()->classScope) {
valuetype->type = ValueType::Type::RECORD;
valuetype->typeScope = type->type()->classScope;
} else if (type->isName() && valuetype->sign != ValueType::Sign::UNKNOWN_SIGN && valuetype->pointer == 0U)
return nullptr;
else if (type->str() == "*")
valuetype->pointer++;
else if (type->isStandardType())
valuetype->fromLibraryType(type->str(), settings);
if (!type->originalName().empty())
valuetype->originalTypeName = type->originalName();
type = type->next();
}
// Set signedness for integral types..
if (valuetype->isIntegral() && valuetype->sign == ValueType::Sign::UNKNOWN_SIGN) {
if (valuetype->type == ValueType::Type::CHAR)
valuetype->sign = defaultSignedness;
else if (valuetype->type >= ValueType::Type::SHORT)
valuetype->sign = ValueType::Sign::SIGNED;
}
return (type && (valuetype->type != ValueType::Type::UNKNOWN_TYPE || valuetype->pointer > 0)) ? type : nullptr;
}
static const Scope *getClassScope(const Token *tok)
{
return tok && tok->valueType() && tok->valueType()->typeScope && tok->valueType()->typeScope->isClassOrStruct() ?
tok->valueType()->typeScope :
nullptr;
}
static const Function *getOperatorFunction(const Token * const tok)
{
const std::string functionName("operator" + tok->str());
std::multimap<std::string, const Function *>::const_iterator it;
const Scope *classScope;
classScope = getClassScope(tok->astOperand1());
if (classScope) {
it = classScope->functionMap.find(functionName);
if (it != classScope->functionMap.end())
return it->second;
}
classScope = getClassScope(tok->astOperand2());
if (classScope) {
it = classScope->functionMap.find(functionName);
if (it != classScope->functionMap.end())
return it->second;
}
return nullptr;
}
void SymbolDatabase::setValueTypeInTokenList()
{
Token * tokens = const_cast<Tokenizer *>(_tokenizer)->list.front();
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for (Token *tok = tokens; tok; tok = tok->next())
tok->setValueType(nullptr);
for (Token *tok = tokens; tok; tok = tok->next()) {
if (tok->isNumber()) {
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if (MathLib::isFloat(tok->str())) {
ValueType::Type type = ValueType::Type::DOUBLE;
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const char suffix = tok->str().back();
if (suffix == 'f' || suffix == 'F')
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type = ValueType::Type::FLOAT;
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else if (suffix == 'L' || suffix == 'l')
type = ValueType::Type::LONGDOUBLE;
setValueType(tok, ValueType(ValueType::Sign::UNKNOWN_SIGN, type, 0U));
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} else if (MathLib::isInt(tok->str())) {
bool unsignedSuffix = (tok->str().find_last_of("uU") != std::string::npos);
ValueType::Sign sign = unsignedSuffix ? ValueType::Sign::UNSIGNED : ValueType::Sign::SIGNED;
ValueType::Type type;
const MathLib::bigint value = MathLib::toLongNumber(tok->str());
if (_settings->platformType == cppcheck::Platform::Unspecified)
type = ValueType::Type::INT;
else if (_settings->isIntValue(unsignedSuffix ? (value >> 1) : value))
type = ValueType::Type::INT;
else if (_settings->isLongValue(unsignedSuffix ? (value >> 1) : value))
type = ValueType::Type::LONG;
else
type = ValueType::Type::LONGLONG;
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if (MathLib::isIntHex(tok->str()))
sign = ValueType::Sign::UNSIGNED;
for (std::size_t pos = tok->str().size() - 1U; pos > 0U; --pos) {
const char suffix = tok->str()[pos];
if (suffix == 'u' || suffix == 'U')
sign = ValueType::Sign::UNSIGNED;
else if (suffix == 'l' || suffix == 'L')
type = (type == ValueType::Type::INT) ? ValueType::Type::LONG : ValueType::Type::LONGLONG;
else if (pos > 2U && suffix == '4' && tok->str()[pos - 1] == '6' && tok->str()[pos - 2] == 'i') {
type = ValueType::Type::LONGLONG;
pos -= 2;
} else break;
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}
setValueType(tok, ValueType(sign, type, 0U));
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}
} else if (tok->isComparisonOp() || tok->tokType() == Token::eLogicalOp) {
if (cpp && tok->isComparisonOp() && (getClassScope(tok->astOperand1()) || getClassScope(tok->astOperand2()))) {
const Function *function = getOperatorFunction(tok);
if (function) {
ValueType vt;
parsedecl(function->retDef, &vt, defaultSignedness, _settings);
setValueType(tok, vt);
continue;
}
}
setValueType(tok, ValueType(ValueType::Sign::UNKNOWN_SIGN, ValueType::Type::BOOL, 0U));
} else if (tok->tokType() == Token::eChar)
setValueType(tok, ValueType(ValueType::Sign::UNKNOWN_SIGN, ValueType::Type::CHAR, 0U));
else if (tok->tokType() == Token::eString) {
ValueType valuetype(ValueType::Sign::UNKNOWN_SIGN, ValueType::Type::CHAR, 1U, 1U);
if (tok->isLong()) {
valuetype.originalTypeName = "wchar_t";
valuetype.type = ValueType::Type::SHORT;
}
setValueType(tok, valuetype);
} else if (tok->str() == "(") {
// cast
if (!tok->astOperand2() && Token::Match(tok, "( %name%")) {
ValueType valuetype;
if (Token::simpleMatch(parsedecl(tok->next(), &valuetype, defaultSignedness, _settings), ")"))
setValueType(tok, valuetype);
}
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// C++ cast
if (tok->astOperand2() && Token::Match(tok->astOperand1(), "static_cast|const_cast|dynamic_cast|reinterpret_cast < %name%") && tok->astOperand1()->linkAt(1)) {
ValueType valuetype;
if (Token::simpleMatch(parsedecl(tok->astOperand1()->tokAt(2), &valuetype, defaultSignedness, _settings), ">"))
setValueType(tok, valuetype);
}
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// function
else if (tok->previous() && tok->previous()->function() && tok->previous()->function()->retDef) {
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ValueType valuetype;
if (parsedecl(tok->previous()->function()->retDef, &valuetype, defaultSignedness, _settings))
setValueType(tok, valuetype);
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}
else if (Token::simpleMatch(tok->previous(), "sizeof (")) {
// TODO: use specified size_t type
ValueType valuetype(ValueType::Sign::UNSIGNED, ValueType::Type::LONG, 0U);
valuetype.originalTypeName = "size_t";
setValueType(tok, valuetype);
if (Token::Match(tok, "( %type% %type%| *| *| )")) {
ValueType vt;
if (parsedecl(tok->next(), &vt, defaultSignedness, _settings)) {
setValueType(tok->next(), vt);
}
}
}
// library function
else if (tok->previous()) {
const std::string& typestr(_settings->library.returnValueType(tok->previous()));
if (typestr.empty() || typestr == "iterator") {
if (Token::simpleMatch(tok->astOperand1(), ".") &&
tok->astOperand1()->astOperand1() &&
tok->astOperand1()->astOperand2() &&
tok->astOperand1()->astOperand1()->valueType() &&
tok->astOperand1()->astOperand1()->valueType()->container) {
const Library::Container *cont = tok->astOperand1()->astOperand1()->valueType()->container;
std::map<std::string, Library::Container::Function>::const_iterator it = cont->functions.find(tok->astOperand1()->astOperand2()->str());
if (it != cont->functions.end()) {
if (it->second.yield == Library::Container::Yield::START_ITERATOR ||
it->second.yield == Library::Container::Yield::END_ITERATOR ||
it->second.yield == Library::Container::Yield::ITERATOR) {
ValueType vt;
vt.type = ValueType::Type::ITERATOR;
vt.container = cont;
setValueType(tok, vt);
}
}
}
continue;
}
TokenList tokenList(_settings);
std::istringstream istr(typestr+";");
if (tokenList.createTokens(istr)) {
ValueType vt;
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assert(tokenList.front());
tokenList.simplifyStdType();
if (parsedecl(tokenList.front(), &vt, defaultSignedness, _settings)) {
setValueType(tok, vt);
}
}
}
} else if (tok->variable()) {
setValueType(tok, *tok->variable());
} else if (tok->enumerator()) {
setValueType(tok, *tok->enumerator());
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} else if (cpp && tok->str() == "new") {
const Token *typeTok = tok->next();
if (Token::Match(typeTok, "( std| ::| nothrow )"))
typeTok = typeTok->link()->next();
if (const Library::Container *c = _settings->library.detectContainer(typeTok)) {
ValueType vt;
vt.pointer = 1;
vt.container = c;
vt.type = ValueType::Type::CONTAINER;
setValueType(tok, vt);
continue;
}
std::string typestr;
while (Token::Match(typeTok, "%name% :: %name%")) {
typestr += typeTok->str() + "::";
typeTok = typeTok->tokAt(2);
}
if (!Token::Match(typeTok, "%type% ;|[|("))
continue;
typestr += typeTok->str();
ValueType vt;
vt.pointer = 1;
if (typeTok->type() && typeTok->type()->classScope) {
vt.type = ValueType::Type::RECORD;
vt.typeScope = typeTok->type()->classScope;
} else {
vt.type = ValueType::typeFromString(typestr, typeTok->isLong());
if (vt.type == ValueType::Type::UNKNOWN_TYPE)
vt.fromLibraryType(typestr, _settings);
if (vt.type == ValueType::Type::UNKNOWN_TYPE)
continue;
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if (typeTok->isUnsigned())
vt.sign = ValueType::Sign::UNSIGNED;
else if (typeTok->isSigned())
vt.sign = ValueType::Sign::SIGNED;
if (vt.sign == ValueType::Sign::UNKNOWN_SIGN && vt.isIntegral())
vt.sign = (vt.type == ValueType::Type::CHAR) ? defaultSignedness : ValueType::Sign::SIGNED;
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}
setValueType(tok, vt);
}
}
// Update functions with new type information.
createSymbolDatabaseSetFunctionPointers(false);
// Update auto variables with new type information.
createSymbolDatabaseSetVariablePointers();
}
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ValueType ValueType::parseDecl(const Token *type, const Settings *settings)
{
ValueType vt;
parsedecl(type, &vt, settings->defaultSign == 'u' ? Sign::UNSIGNED : Sign::SIGNED, settings);
return vt;
}
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ValueType::Type ValueType::typeFromString(const std::string &typestr, bool longType)
{
if (typestr == "void")
return ValueType::Type::VOID;
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if (typestr == "bool" || typestr == "_Bool")
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return ValueType::Type::BOOL;
if (typestr== "char")
return ValueType::Type::CHAR;
if (typestr == "short")
return ValueType::Type::SHORT;
if (typestr == "int")
return ValueType::Type::INT;
if (typestr == "long")
return longType ? ValueType::Type::LONGLONG : ValueType::Type::LONG;
if (typestr == "float")
return ValueType::Type::FLOAT;
if (typestr == "double")
return longType ? ValueType::Type::LONGDOUBLE : ValueType::Type::DOUBLE;
return ValueType::Type::UNKNOWN_TYPE;
}
bool ValueType::fromLibraryType(const std::string &typestr, const Settings *settings)
{
const Library::PodType* podtype = settings->library.podtype(typestr);
if (podtype && (podtype->sign == 's' || podtype->sign == 'u')) {
if (podtype->size == 1)
type = ValueType::Type::CHAR;
else if (podtype->size == settings->sizeof_int)
type = ValueType::Type::INT;
else if (podtype->size == settings->sizeof_short)
type = ValueType::Type::SHORT;
else if (podtype->size == settings->sizeof_long)
type = ValueType::Type::LONG;
else if (podtype->size == settings->sizeof_long_long)
type = ValueType::Type::LONGLONG;
else
type = ValueType::Type::UNKNOWN_INT;
sign = (podtype->sign == 'u') ? ValueType::UNSIGNED : ValueType::SIGNED;
return true;
}
const Library::PlatformType *platformType = settings->library.platform_type(typestr, settings->platformString());
if (platformType) {
if (platformType->_type == "char")
type = ValueType::Type::CHAR;
else if (platformType->_type == "short")
type = ValueType::Type::SHORT;
else if (platformType->_type == "int")
type = platformType->_long ? ValueType::Type::LONG : ValueType::Type::INT;
else if (platformType->_type == "long")
type = platformType->_long ? ValueType::Type::LONGLONG : ValueType::Type::LONG;
if (platformType->_signed)
sign = ValueType::SIGNED;
else if (platformType->_unsigned)
sign = ValueType::UNSIGNED;
if (platformType->_pointer)
pointer = 1;
if (platformType->_ptr_ptr)
pointer = 2;
if (platformType->_const_ptr)
constness = 1;
return true;
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} else if (!podtype && (typestr == "size_t" || typestr == "std::size_t")) {
originalTypeName = "size_t";
sign = ValueType::UNSIGNED;
if (settings->sizeof_size_t == settings->sizeof_long)
type = ValueType::Type::LONG;
else if (settings->sizeof_size_t == settings->sizeof_long_long)
type = ValueType::Type::LONGLONG;
else if (settings->sizeof_size_t == settings->sizeof_int)
type = ValueType::Type::INT;
else
type = ValueType::Type::UNKNOWN_INT;
return true;
}
return false;
}
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std::string ValueType::dump() const
{
std::ostringstream ret;
switch (type) {
case UNKNOWN_TYPE:
return "";
case NONSTD:
ret << "valueType-type=\"nonstd\"";
break;
case RECORD:
ret << "valueType-type=\"record\"";
break;
case CONTAINER:
ret << "valueType-type=\"container\"";
break;
case ITERATOR:
ret << "valueType-type=\"iterator\"";
break;
case VOID:
ret << "valueType-type=\"void\"";
break;
case BOOL:
ret << "valueType-type=\"bool\"";
break;
case CHAR:
ret << "valueType-type=\"char\"";
break;
case SHORT:
ret << "valueType-type=\"short\"";
break;
case INT:
ret << "valueType-type=\"int\"";
break;
case LONG:
ret << "valueType-type=\"long\"";
break;
case LONGLONG:
ret << "valueType-type=\"long long\"";
break;
case UNKNOWN_INT:
ret << "valueType-type=\"unknown int\"";
break;
case FLOAT:
ret << "valueType-type=\"float\"";
break;
case DOUBLE:
ret << "valueType-type=\"double\"";
break;
case LONGDOUBLE:
ret << "valueType-type=\"long double\"";
break;
};
switch (sign) {
case Sign::UNKNOWN_SIGN:
break;
case Sign::SIGNED:
ret << " valueType-sign=\"signed\"";
break;
case Sign::UNSIGNED:
ret << " valueType-sign=\"unsigned\"";
break;
};
if (pointer > 0)
ret << " valueType-pointer=\"" << pointer << '\"';
if (constness > 0)
ret << " valueType-constness=\"" << constness << '\"';
if (typeScope)
ret << " valueType-typeScope=\"" << typeScope << '\"';
if (!originalTypeName.empty())
ret << " valueType-originalTypeName=\"" << originalTypeName << '\"';
return ret.str();
}
std::string ValueType::str() const
{
std::string ret;
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if (constness & 1)
ret = " const";
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if (type == VOID)
ret += " void";
else if (isIntegral()) {
if (sign == SIGNED)
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ret += " signed";
else if (sign == UNSIGNED)
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ret += " unsigned";
if (type == BOOL)
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ret += " bool";
else if (type == CHAR)
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ret += " char";
else if (type == SHORT)
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ret += " short";
else if (type == INT)
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ret += " int";
else if (type == LONG)
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ret += " long";
else if (type == LONGLONG)
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ret += " long long";
else if (type == UNKNOWN_INT)
ret += " unknown_int";
} else if (type == FLOAT)
ret += " float";
else if (type == DOUBLE)
ret += " double";
else if (type == LONGDOUBLE)
ret += " long double";
else if ((type == ValueType::Type::NONSTD || type == ValueType::Type::RECORD) && typeScope) {
std::string className(typeScope->className);
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const Scope *scope = typeScope->nestedIn;
while (scope && scope->type != Scope::eGlobal) {
if (scope->type == Scope::eClass || scope->type == Scope::eStruct || scope->type == Scope::eNamespace)
className = scope->className + "::" + className;
scope = scope->nestedIn;
}
ret += ' ' + className;
} else if (type == ValueType::Type::CONTAINER && container) {
ret += " container(" + container->startPattern + ')';
} else if (type == ValueType::Type::ITERATOR && container) {
ret += " iterator(" + container->startPattern + ')';
}
for (unsigned int p = 0; p < pointer; p++) {
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ret += " *";
if (constness & (2 << p))
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ret += " const";
}
return ret.empty() ? ret : ret.substr(1);
}