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/*
* Cppcheck - A tool for static C / C + + code analysis
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* Copyright ( C ) 2007 - 2020 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/>.
*/
//---------------------------------------------------------------------------
# ifndef exprengineH
# define exprengineH
//---------------------------------------------------------------------------
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# include "config.h"
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# include "errortypes.h"
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# include <functional>
# include <map>
# include <memory>
# include <string>
# include <vector>
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# include <cstdint>
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class ErrorLogger ;
class Tokenizer ;
class Scope ;
class Settings ;
class Token ;
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class Variable ;
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# if defined(__GNUC__) && defined (__SIZEOF_INT128__)
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typedef __int128_t int128_t ;
# else
typedef long long int128_t ;
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# ifdef _MSC_VER
# pragma message(__FILE__ "(" _CRT_STRINGIZE(__LINE__) ")" ": warning: TODO No 128-bit integer type is available => Limited analysis of large integers...")
# else
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# warning TODO No 128-bit integer type is available => Limited analysis of large integers
# endif
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# endif
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namespace ExprEngine {
std : : string str ( int128_t ) ;
// TODO we need to handle floats, containers, pointers, aliases and structs and stuff
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enum class ValueType {
UninitValue ,
IntRange ,
FloatRange ,
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ConditionalValue ,
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ArrayValue ,
StringLiteralValue ,
StructValue ,
AddressOfValue ,
BinOpResult ,
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IntegerTruncation ,
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FunctionCallArgumentValues ,
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BailoutValue
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} ;
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class Value ;
typedef std : : shared_ptr < Value > ValuePtr ;
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class DataBase {
public :
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explicit DataBase ( const std : : string & currentFunction , const Settings * settings )
: currentFunction ( currentFunction )
, settings ( settings ) {
}
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virtual std : : string getNewSymbolName ( ) = 0 ;
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const std : : string currentFunction ;
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const Settings * const settings ;
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virtual bool isC ( ) const = 0 ;
virtual bool isCPP ( ) const = 0 ;
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virtual void reportError ( const Token * tok ,
Severity : : SeverityType severity ,
const char id [ ] ,
const std : : string & text ,
CWE cwe ,
bool inconclusive ,
bool incomplete = false ,
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const std : : string & functionName = std : : string ( ) ) = 0 ;
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ErrorPath errorPath ;
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} ;
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class Value {
public :
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Value ( const std : : string & name , const ValueType type ) : name ( name ) , type ( type ) { }
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virtual ~ Value ( ) { }
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virtual std : : string getRange ( ) const {
return name ;
}
virtual std : : string getSymbolicExpression ( ) const {
return name ;
}
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virtual bool isEqual ( DataBase * dataBase , int value ) const {
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( void ) dataBase ;
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( void ) value ;
return false ;
}
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virtual bool isGreaterThan ( DataBase * dataBase , int value ) const {
( void ) dataBase ;
( void ) value ;
return false ;
}
virtual bool isLessThan ( DataBase * dataBase , int value ) const {
( void ) dataBase ;
( void ) value ;
return false ;
}
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virtual bool isUninit ( ) const {
return false ;
}
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const std : : string name ;
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ValueType type ;
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} ;
class UninitValue : public Value {
public :
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UninitValue ( ) : Value ( " ? " , ValueType : : UninitValue ) { }
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bool isEqual ( DataBase * dataBase , int value ) const OVERRIDE {
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( void ) dataBase ;
( void ) value ;
return true ;
}
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bool isUninit ( ) const OVERRIDE {
return true ;
}
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} ;
class IntRange : public Value {
public :
IntRange ( const std : : string & name , int128_t minValue , int128_t maxValue )
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: Value ( name , ValueType : : IntRange )
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, minValue ( minValue )
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, maxValue ( maxValue )
, loopScope ( nullptr ) {
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}
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std : : string getRange ( ) const OVERRIDE {
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if ( minValue = = maxValue )
return str ( minValue ) ;
return str ( minValue ) + " : " + str ( maxValue ) ;
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}
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bool isEqual ( DataBase * dataBase , int value ) const OVERRIDE ;
bool isGreaterThan ( DataBase * dataBase , int value ) const OVERRIDE ;
bool isLessThan ( DataBase * dataBase , int value ) const OVERRIDE ;
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int128_t minValue ;
int128_t maxValue ;
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const Scope * loopScope ;
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} ;
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class FloatRange : public Value {
public :
FloatRange ( const std : : string & name , long double minValue , long double maxValue )
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: Value ( name , ValueType : : FloatRange )
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, minValue ( minValue )
, maxValue ( maxValue ) {
}
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std : : string getRange ( ) const OVERRIDE {
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return std : : to_string ( minValue ) + " : " + std : : to_string ( maxValue ) ;
}
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bool isEqual ( DataBase * dataBase , int value ) const OVERRIDE ;
bool isGreaterThan ( DataBase * dataBase , int value ) const OVERRIDE ;
bool isLessThan ( DataBase * dataBase , int value ) const OVERRIDE ;
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long double minValue ;
long double maxValue ;
} ;
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class ConditionalValue : public Value {
public :
typedef std : : vector < std : : pair < ValuePtr , ValuePtr > > Vector ;
ConditionalValue ( const std : : string & name , const Vector & values ) : Value ( name , ValueType : : ConditionalValue ) , values ( values ) { }
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std : : string getSymbolicExpression ( ) const OVERRIDE ;
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Vector values ;
} ;
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// Array or pointer
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class ArrayValue : public Value {
public :
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enum { MAXSIZE = 0x7fffffff } ;
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ArrayValue ( const std : : string & name , ValuePtr size , ValuePtr value , bool pointer , bool nullPointer , bool uninitPointer ) ;
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ArrayValue ( DataBase * data , const Variable * var ) ;
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ArrayValue ( const std : : string & name , const ArrayValue & arrayValue ) ;
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std : : string getRange ( ) const OVERRIDE ;
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std : : string getSymbolicExpression ( ) const OVERRIDE ;
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void assign ( ValuePtr index , ValuePtr value ) ;
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void clear ( ) ;
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ConditionalValue : : Vector read ( ValuePtr index ) const ;
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bool pointer ;
bool nullPointer ;
bool uninitPointer ;
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struct IndexAndValue {
ValuePtr index ;
ValuePtr value ;
} ;
std : : vector < IndexAndValue > data ;
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std : : vector < ValuePtr > size ;
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} ;
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class StringLiteralValue : public Value {
public :
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StringLiteralValue ( const std : : string & name , const std : : string & s ) : Value ( name , ValueType : : StringLiteralValue ) , string ( s ) { }
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std : : string getRange ( ) const OVERRIDE {
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return " \" " + string + " \" " ;
}
int size ( ) const {
return string . size ( ) ;
}
const std : : string string ;
} ;
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class StructValue : public Value {
public :
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explicit StructValue ( const std : : string & name ) : Value ( name , ValueType : : StructValue ) { }
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std : : string getSymbolicExpression ( ) const OVERRIDE ;
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std : : string getRange ( ) const OVERRIDE {
return getSymbolicExpression ( ) ;
}
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ValuePtr getValueOfMember ( const std : : string & n ) const {
auto it = member . find ( n ) ;
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return ( it = = member . end ( ) ) ? ValuePtr ( ) : it - > second ;
}
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std : : string getUninitStructMember ( ) const {
for ( auto memberNameValue : member ) {
if ( memberNameValue . second & & memberNameValue . second - > isUninit ( ) )
return memberNameValue . first ;
}
return std : : string ( ) ;
}
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std : : map < std : : string , ValuePtr > member ;
} ;
class AddressOfValue : public Value {
public :
AddressOfValue ( const std : : string & name , int varId )
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: Value ( name , ValueType : : AddressOfValue )
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, varId ( varId )
{ }
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std : : string getRange ( ) const OVERRIDE {
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return " &@ " + std : : to_string ( varId ) ;
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}
int varId ;
} ;
class BinOpResult : public Value {
public :
BinOpResult ( const std : : string & binop , ValuePtr op1 , ValuePtr op2 )
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: Value ( getName ( binop , op1 , op2 ) , ValueType : : BinOpResult )
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, binop ( binop )
, op1 ( op1 )
, op2 ( op2 ) {
}
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bool isEqual ( DataBase * dataBase , int value ) const OVERRIDE ;
bool isGreaterThan ( DataBase * dataBase , int value ) const OVERRIDE ;
virtual bool isLessThan ( DataBase * dataBase , int value ) const OVERRIDE ;
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bool isTrue ( DataBase * dataBase ) const ;
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std : : string getExpr ( DataBase * dataBase ) const ;
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std : : string binop ;
ValuePtr op1 ;
ValuePtr op2 ;
private :
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std : : string getName ( const std : : string & binop , ValuePtr op1 , ValuePtr op2 ) const {
std : : string name1 = op1 ? op1 - > name : std : : string ( " null " ) ;
std : : string name2 = op2 ? op2 - > name : std : : string ( " null " ) ;
return " ( " + name1 + " ) " + binop + " ( " + name2 + " ) " ;
}
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} ;
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class IntegerTruncation : public Value {
public :
IntegerTruncation ( const std : : string & name , ValuePtr inputValue , int bits , char sign )
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: Value ( name , ValueType : : IntegerTruncation )
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, inputValue ( inputValue )
, bits ( bits )
, sign ( sign ) {
}
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std : : string getSymbolicExpression ( ) const OVERRIDE ;
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ExprEngine : : ValuePtr inputValue ;
int bits ;
char sign ;
} ;
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class FunctionCallArgumentValues : public Value {
public :
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explicit FunctionCallArgumentValues ( const std : : vector < ExprEngine : : ValuePtr > & argValues )
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: Value ( " argValues " , ValueType : : FunctionCallArgumentValues )
, argValues ( argValues )
{ }
const std : : vector < ExprEngine : : ValuePtr > argValues ;
} ;
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class BailoutValue : public Value {
public :
BailoutValue ( ) : Value ( " bailout " , ValueType : : BailoutValue ) { }
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bool isEqual ( DataBase * /*dataBase*/ , int /*value*/ ) const OVERRIDE {
return true ;
}
bool isUninit ( ) const OVERRIDE {
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return true ;
}
} ;
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typedef std : : function < void ( const Token * , const ExprEngine : : Value & , ExprEngine : : DataBase * ) > Callback ;
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/** Execute all functions */
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void CPPCHECKLIB executeAllFunctions ( ErrorLogger * errorLogger , const Tokenizer * tokenizer , const Settings * settings , const std : : vector < Callback > & callbacks , std : : ostream & report ) ;
void executeFunction ( const Scope * functionScope , ErrorLogger * errorLogger , const Tokenizer * tokenizer , const Settings * settings , const std : : vector < Callback > & callbacks , std : : ostream & report ) ;
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void runChecks ( ErrorLogger * errorLogger , const Tokenizer * tokenizer , const Settings * settings ) ;
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void dump ( ExprEngine : : ValuePtr val ) ;
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}
# endif // exprengineH