/* * Cppcheck - A tool for static C/C++ code analysis * Copyright (C) 2007-2018 Cppcheck team. * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ //--------------------------------------------------------------------------- #ifndef valueflowH #define valueflowH //--------------------------------------------------------------------------- #include "config.h" #include #include #include class ErrorLogger; class Settings; class SymbolDatabase; class Token; class TokenList; class Variable; namespace ValueFlow { class CPPCHECKLIB Value { public: typedef std::pair ErrorPathItem; typedef std::list ErrorPath; explicit Value(long long val = 0) : valueType(INT), intvalue(val), tokvalue(nullptr), floatValue(0.0), moveKind(NonMovedVariable), varvalue(val), condition(nullptr), varId(0U), conditional(false), defaultArg(false), lifetimeKind(Object), valueKind(ValueKind::Possible) {} Value(const Token *c, long long val); bool operator==(const Value &rhs) const { if (valueType != rhs.valueType) return false; switch (valueType) { case INT: if (intvalue != rhs.intvalue) return false; break; case TOK: if (tokvalue != rhs.tokvalue) return false; break; case FLOAT: // TODO: Write some better comparison if (floatValue > rhs.floatValue || floatValue < rhs.floatValue) return false; break; case MOVED: if (moveKind != rhs.moveKind) return false; break; case UNINIT: break; case CONTAINER_SIZE: if (intvalue != rhs.intvalue) return false; break; case LIFETIME: if (tokvalue != rhs.tokvalue) return false; }; return varvalue == rhs.varvalue && condition == rhs.condition && varId == rhs.varId && conditional == rhs.conditional && defaultArg == rhs.defaultArg && valueKind == rhs.valueKind; } std::string infoString() const; enum ValueType { INT, TOK, FLOAT, MOVED, UNINIT, CONTAINER_SIZE, LIFETIME } valueType; bool isIntValue() const { return valueType == INT; } bool isTokValue() const { return valueType == TOK; } bool isFloatValue() const { return valueType == FLOAT; } bool isMovedValue() const { return valueType == MOVED; } bool isUninitValue() const { return valueType == UNINIT; } bool isContainerSizeValue() const { return valueType == CONTAINER_SIZE; } bool isLifetimeValue() const { return valueType == LIFETIME; } /** int value */ long long intvalue; /** token value - the token that has the value. this is used for pointer aliases, strings, etc. */ const Token *tokvalue; /** float value */ double floatValue; /** kind of moved */ enum MoveKind {NonMovedVariable, MovedVariable, ForwardedVariable} moveKind; /** For calculated values - variable value that calculated value depends on */ long long varvalue; /** Condition that this value depends on */ const Token *condition; ErrorPath errorPath; /** For calculated values - varId that calculated value depends on */ unsigned int varId; /** Conditional value */ bool conditional; /** Is this value passed as default parameter to the function? */ bool defaultArg; enum LifetimeKind {Object, Lambda, Iterator} lifetimeKind; static const char * toString(MoveKind moveKind) { switch (moveKind) { case NonMovedVariable: return "NonMovedVariable"; case MovedVariable: return "MovedVariable"; case ForwardedVariable: return "ForwardedVariable"; } return ""; } /** How known is this value */ enum class ValueKind { /** This value is possible, other unlisted values may also be possible */ Possible, /** Only listed values are possible */ Known, /** Inconclusive */ Inconclusive } valueKind; void setKnown() { valueKind = ValueKind::Known; } bool isKnown() const { return valueKind == ValueKind::Known; } void setPossible() { valueKind = ValueKind::Possible; } bool isPossible() const { return valueKind == ValueKind::Possible; } void setInconclusive(bool inconclusive = true) { if (inconclusive) valueKind = ValueKind::Inconclusive; } bool isInconclusive() const { return valueKind == ValueKind::Inconclusive; } void changeKnownToPossible() { if (isKnown()) valueKind = ValueKind::Possible; } bool errorSeverity() const { return !condition && !defaultArg; } }; /// Constant folding of expression. This can be used before the full ValueFlow has been executed (ValueFlow::setValues). const ValueFlow::Value * valueFlowConstantFoldAST(const Token *expr, const Settings *settings); /// Perform valueflow analysis. void setValues(TokenList *tokenlist, SymbolDatabase* symboldatabase, ErrorLogger *errorLogger, const Settings *settings); std::string eitherTheConditionIsRedundant(const Token *condition); } const Variable *getLifetimeVariable(const Token *tok, ValueFlow::Value::ErrorPath &errorPath); #endif // valueflowH