C++ main module for gpm Package  1.0
Public Member Functions | Static Public Member Functions | Static Public Attributes | Protected Member Functions | List of all members
MATH_AndOperator Class Reference

This class describes an and (&&) operator. More...

#include <MATH_AndOperator.h>

Inheritance diagram for MATH_AndOperator:
Inheritance graph
[legend]
Collaboration diagram for MATH_AndOperator:
Collaboration graph
[legend]

Public Member Functions

virtual SP::MATH_NodeExpression newInstance () const
 create a node expression More...
 
virtual int evaluate (const tFlag &action, MATH_Environment &symbols, MATH_Variable &var) const
 void evaluate the expression More...
 
int getLastFreeChildIndex () const
 
int getPriority () const
 return the priority of the operator More...
 
virtual MATH_ChildExpressioninsertInTree (MATH_Expression *tree, MATH_Environment &symbols, tString &expr)
 insert the node This in tree & erase the This corresponding character in expr More...
 
virtual tString toString () const
 return the string representation of the class More...
 
const tStringgetName () const
 set the operator name More...
 
virtual tBoolean addArgument (SP::MATH_ChildExpression operand)
 add the argument in the node. If the max number of arguments is reach, try to copu the node in order to add the argument in the new node. More...
 
virtual tBoolean addArgument (MATH_ChildExpression *operand)
 add the argument If the max number of arguments is reach, try to copu the node in order to add the argument in the new node. More...
 
virtual const MATH_RootExpressiongetRootNode () const
 return the root node of the node More...
 
int evaluate (MATH_Environment &symbols, MATH_Variable &value) const
 void evaluate the algebric expression More...
 
void setArgumentsNumber (const int &n)
 set the arguments number More...
 
tBoolean setArgument (const int &index, SP::MATH_ChildExpression org)
 set the argument at index More...
 
tBoolean setArgument (const int &index, MATH_ChildExpression *arg)
 set an argument at index More...
 
void resetArgument (const int &index)
 reset the argument at index More...
 
void resetArguments ()
 reset all the arguments More...
 
SPC::MATH_ChildExpression getArgument (const int &i) const
 get argument at index i for reading More...
 
SP::MATH_ChildExpression getArgument (const int &i)
 get argument at index i for writing More...
 
int getArgumentsNumber () const
 get the arguments number More...
 
void getSharedPointer (SP::CORE_Object &p)
 get the shared pointer of this class into p More...
 
void getSharedPointer (SPC::CORE_Object &p) const
 get the shared pointer of this class into p More...
 
tString getClassName () const
 return the class name of the object More...
 
tString getIdentityString () const
 return the identity string of the object of the form className_at_address More...
 
tString getPointerAddress () const
 return the identity string of the object More...
 
template<class T >
tBoolean isInstanceOf () const
 return true if the object is an instance of T More...
 
virtual void print ()
 print the class More...
 
virtual ostream & print (ostream &out) const
 print the class More...
 
virtual void print (const tString &message)
 print the class More...
 
virtual void print (const tInteger &str)
 print More...
 
virtual void print (const tRelativeInteger &str)
 print More...
 
virtual void print (const tReal &str)
 print More...
 
virtual void print (const int &str)
 print More...
 
void setParent (SP::MATH_ParentExpression parent, const int &argIndex)
 set the parent More...
 
void resetParent ()
 reset the parent of the child More...
 
SP::MATH_ParentExpression getParent (int &index)
 get the parent More...
 
SPC::MATH_ParentExpression getParent (int &index) const
 get the parent More...
 
SP::MATH_ParentExpression getParent ()
 get the parent More...
 
SPC::MATH_ParentExpression getParent () const
 get the parent More...
 

Static Public Member Functions

static SP::MATH_AndOperator New ()
 create a node expression More...
 
static tString getClassName (const tString &identityString)
 return the class name of the object using only the identity string More...
 
template<class T >
static tString getTypeName ()
 get type name More...
 
static tBoolean is64Architecture ()
 return true if the machine is a 64 bits machine More...
 
static tBoolean is32Architecture ()
 return true if the machine is a 32 bits machine More...
 
static tString pointer2String (const void *obj)
 return the string represantation of a pointer More...
 
static void setOutput (ostream &out)
 set output More...
 
static ostream & getOutput ()
 get output More...
 
static void printObjectsInMemory ()
 print object in memory More...
 
static ostream & print (ostream &out, const tString &message)
 print the class More...
 
static void outputPrint (const tString &message)
 

Static Public Attributes

static const tFlag ALGEBRIC =0
 
static const tFlag ALGEBRIC =0
 
static const tFlag IS_INSIDE =1
 
static const tFlag IS_INSIDE =1
 
static const tFlag COMPUTE_BOUNDS =2
 
static const tFlag COMPUTE_BOUNDS =2
 
static const int SUCCESS =0
 
static const int SUCCESS =0
 
static const int FAIL =-1
 
static const int FAIL =-1
 
static const int TYPE_MISMATCHED =-2
 
static const int TYPE_MISMATCHED =-2
 
static const int SIZE_MISMATCHED =-3
 
static const int SIZE_MISMATCHED =-3
 
static const int OUT_OF_BOUNDS =-4
 
static const int OUT_OF_BOUNDS =-4
 
static const int NULL_OPERAND =-5
 
static const int NULL_OPERAND =-5
 
static tBoolean mIsMemoryTesting =false
 indicator to store all classes created and deleted only for debuging version More...
 

Protected Member Functions

 MATH_AndOperator (void)
 create More...
 
virtual ~MATH_AndOperator (void)
 destroy More...
 
void setPriority (const int &p)
 set the priority of the operator More...
 
void setName (const tString &n)
 set the operator name More...
 
void setThis (SP::CORE_Object p)
 set this weak shared pointer called toDoAfterThis setting method More...
 
virtual void setType (tString type)
 set the type of the object More...
 
virtual void toDoAfterThisSetting ()
 method called after setThis() method this method can oly be called once. More...
 

Detailed Description

This class describes an and (&&) operator.

Author
Stéphane Despréaux
Version
1.0

Constructor & Destructor Documentation

MATH_AndOperator::MATH_AndOperator ( void  )
protected

create

References MATH_Operator::setName(), and MATH_BinaryOperator::setPriority().

Referenced by New().

Here is the call graph for this function:

Here is the caller graph for this function:

MATH_AndOperator::~MATH_AndOperator ( void  )
protectedvirtual

destroy

Member Function Documentation

tBoolean MATH_NodeExpression::addArgument ( SP::MATH_ChildExpression  operand)
virtualinherited

add the argument in the node. If the max number of arguments is reach, try to copu the node in order to add the argument in the new node.

Returns
true if the argument added

Reimplemented from MATH_ParentExpression.

References MATH_ParentExpression::getArgument(), MATH_ParentExpression::getArgumentsNumber(), MATH_NodeExpression::newInstance(), null, and MATH_ParentExpression::setArgument().

Here is the call graph for this function:

virtual tBoolean MATH_NodeExpression::addArgument ( MATH_ChildExpression operand)
inlinevirtualinherited

add the argument If the max number of arguments is reach, try to copu the node in order to add the argument in the new node.

Returns
true if the argument added

Reimplemented from MATH_ParentExpression.

References MATH_ParentExpression::addArgument().

Here is the call graph for this function:

int MATH_AndOperator::evaluate ( const tFlag action,
MATH_Environment symbols,
MATH_Variable var 
) const
virtual

void evaluate the expression

Parameters
actionaction of the evaluation:
symbolsvalues of symbols
valuesreturn values
sizenumber of returned values
typetype of values
  • REAL
  • BOOLEAN
  • STRING
  • SET
Returns
the code error:
  • NAN
  • TYPE_MISMATCHED
  • SIZE_MISMATCHED
  • SUCCESS
  • FAIL

Reimplemented from MATH_NodeExpression.

References MATH_Expression::ALGEBRIC, MATH_ParentExpression::getArgument(), MATH_Variable::getSize(), MATH_Variable::getStartIndex(), MATH_Variable::isBoolean(), null, MATH_Expression::NULL_OPERAND, MATH_Variable::setFirstIndex(), MATH_Variable::setSize(), MATH_Variable::toBoolean(), and MATH_Expression::TYPE_MISMATCHED.

Here is the call graph for this function:

int MATH_Expression::evaluate ( MATH_Environment symbols,
MATH_Variable value 
) const
inlineinherited

void evaluate the algebric expression

Parameters
symbolsalgebric values of symbol
Returns
the value of the evaluation.

References MATH_Expression::evaluate().

Here is the call graph for this function:

SPC::MATH_ChildExpression MATH_ParentExpression::getArgument ( const int &  i) const
inlineinherited
SP::MATH_ChildExpression MATH_ParentExpression::getArgument ( const int &  i)
inlineinherited

get argument at index i for writing

Parameters
iindex of the argument
Returns
the argument at index i for writing
int MATH_ParentExpression::getArgumentsNumber ( ) const
inlineinherited

get the arguments number

Referenced by MATH_NodeExpression::addArgument(), MATH_ParentExpression::addArgument(), and MATH_ParentExpression::setArgument().

Here is the caller graph for this function:

static tString CORE_Object::getClassName ( const tString identityString)
inlinestaticinherited

return the class name of the object using only the identity string

Referenced by CORE_Object::printObjectsInMemory().

Here is the caller graph for this function:

tString CORE_Object::getClassName ( ) const
inherited

return the class name of the object

Returns
the class name of the object

References tString.

Referenced by CORE_Object::getIdentityString().

Here is the caller graph for this function:

tString CORE_Object::getIdentityString ( ) const
inlineinherited

return the identity string of the object of the form className_at_address

Returns
the identity string of the object

References CORE_Object::getClassName(), CORE_Object::pointer2String(), and tString.

Referenced by CORE_Object::toString().

Here is the call graph for this function:

Here is the caller graph for this function:

int MATH_BinaryOperator::getLastFreeChildIndex ( ) const
inlineinherited

get the last free index

References MATH_ParentExpression::getArgument(), and null.

Here is the call graph for this function:

const tString& MATH_Operator::getName ( ) const
inlineinherited

set the operator name

Referenced by MATH_BinaryOperator::insertInTree(), MATH_UnaryOperator::insertInTree(), MATH_BinaryOperator::toString(), and MATH_UnaryOperator::toString().

Here is the caller graph for this function:

static ostream& CORE_Object::getOutput ( )
inlinestaticinherited

get output

SP::MATH_ParentExpression MATH_ChildExpression::getParent ( int &  index)
inlineinherited

get the parent

Parameters
indexindex of the child this in parent.
Returns
the parent
SPC::MATH_ParentExpression MATH_ChildExpression::getParent ( int &  index) const
inlineinherited

get the parent

Parameters
indexindex of the child this in parent.
Returns
the parent
SP::MATH_ParentExpression MATH_ChildExpression::getParent ( )
inlineinherited
SPC::MATH_ParentExpression MATH_ChildExpression::getParent ( ) const
inlineinherited

get the parent

Returns
the parent

References MATH_ChildExpression::getParent().

Here is the call graph for this function:

tString CORE_Object::getPointerAddress ( ) const
inlineinherited

return the identity string of the object

Returns
the identity string of the object

References CORE_Object::pointer2String().

Here is the call graph for this function:

int MATH_BinaryOperator::getPriority ( ) const
inlineinherited

return the priority of the operator

virtual const MATH_RootExpression* MATH_NodeExpression::getRootNode ( ) const
inlinevirtualinherited

return the root node of the node

Reimplemented from MATH_ChildExpression.

References MATH_ChildExpression::getRootNode().

Here is the call graph for this function:

void CORE_Object::getSharedPointer ( SP::CORE_Object &  p)
inlineinherited
void CORE_Object::getSharedPointer ( SPC::CORE_Object &  p) const
inlineinherited

get the shared pointer of this class into p

template<class T >
static tString CORE_Object::getTypeName ( )
inlinestaticinherited

get type name

References tString.

MATH_ChildExpression * MATH_BinaryOperator::insertInTree ( MATH_Expression tree,
MATH_Environment symbols,
tString expr 
)
virtualinherited

insert the node This in tree & erase the This corresponding character in expr

Parameters
treeNode: the tree node access of the tree to insert the node This
expr: the expression string
Returns
the current node of the tree where This is added or
null if failed

Insert the node in the tree form treeNode if

RootUnary OperatorBinary OperatorBegin BlockEnd Block leaf node
falsefalse false false true true

Implements MATH_ChildExpression.

References MATH_Operator::getName(), MATH_BeginBlock::isClosed(), CORE_Object::isInstanceOf(), null, and MATH_BeginBlock::remove().

Here is the call graph for this function:

static tBoolean CORE_Object::is32Architecture ( )
inlinestaticinherited

return true if the machine is a 32 bits machine

References CORE_Object::is64Architecture().

Here is the call graph for this function:

tBoolean CORE_Object::is64Architecture ( )
staticinherited

return true if the machine is a 64 bits machine

Referenced by CORE_Object::is32Architecture().

Here is the caller graph for this function:

template<class T >
tBoolean CORE_Object::isInstanceOf ( ) const
inlineinherited

return true if the object is an instance of T

References null.

Referenced by MATH_BinaryOperator::insertInTree(), MATH_UnaryOperator::insertInTree(), and MATH_EndBlock::insertInTree().

Here is the caller graph for this function:

static SP::MATH_AndOperator MATH_AndOperator::New ( )
inlinestatic

create a node expression

References MATH_AndOperator().

Referenced by MATH_ExpressionClassFactory::initNodesLists(), and newInstance().

Here is the call graph for this function:

Here is the caller graph for this function:

virtual SP::MATH_NodeExpression MATH_AndOperator::newInstance ( ) const
inlinevirtual

create a node expression

Implements MATH_NodeExpression.

References New().

Here is the call graph for this function:

void CORE_Object::outputPrint ( const tString message)
staticinherited

print on output

References null, and CORE_Object::print().

Referenced by CORE_Exception::CORE_Exception().

Here is the call graph for this function:

Here is the caller graph for this function:

tString CORE_Object::pointer2String ( const void *  obj)
staticinherited

return the string represantation of a pointer

References tString.

Referenced by CORE_Object::CORE_Object(), CORE_Object::getIdentityString(), CORE_Object::getPointerAddress(), and CORE_Object::~CORE_Object().

Here is the caller graph for this function:

virtual void CORE_Object::print ( )
inlinevirtualinherited

print the class

References CORE_Object::toString().

Referenced by CORE_Object::outputPrint(), CORE_Out::print(), CORE_Object::print(), CORE_Out::printInt(), CORE_Out::println(), CORE_Out::printReal(), CORE_Out::printString(), and CORE_Out::setAction().

Here is the call graph for this function:

Here is the caller graph for this function:

virtual ostream& CORE_Object::print ( ostream &  out) const
inlinevirtualinherited

print the class

References CORE_Object::print(), and CORE_Object::toString().

Here is the call graph for this function:

void CORE_Object::print ( const tString message)
virtualinherited

print the class

Reimplemented in CORE_Out.

References null, and CORE_Object::print().

Here is the call graph for this function:

void CORE_Object::print ( const tInteger str)
virtualinherited

print

References null.

void CORE_Object::print ( const tRelativeInteger str)
virtualinherited

print

References null.

void CORE_Object::print ( const tReal str)
virtualinherited

print

References null.

void CORE_Object::print ( const int &  str)
virtualinherited

print

References null.

static ostream& CORE_Object::print ( ostream &  out,
const tString message 
)
inlinestaticinherited

print the class

void CORE_Object::printObjectsInMemory ( )
staticinherited

print object in memory

References CORE_Object::getClassName(), CORE_Object::getSharedPointer(), and CORE_Object::mIsMemoryTesting.

Referenced by main().

Here is the call graph for this function:

Here is the caller graph for this function:

void MATH_ParentExpression::resetArgument ( const int &  index)
inherited

reset the argument at index

References null.

Referenced by MATH_ParentExpression::resetArguments().

Here is the caller graph for this function:

void MATH_ParentExpression::resetArguments ( )
inlineinherited

reset all the arguments

References MATH_ParentExpression::resetArgument().

Referenced by MATH_RootExpression::parse().

Here is the call graph for this function:

Here is the caller graph for this function:

void MATH_ChildExpression::resetParent ( )
inherited

reset the parent of the child

References MATH_ChildExpression::getParent(), and null.

Referenced by MATH_ChildExpression::setParent().

Here is the call graph for this function:

Here is the caller graph for this function:

tBoolean MATH_ParentExpression::setArgument ( const int &  index,
SP::MATH_ChildExpression  org 
)
inherited

set the argument at index

Parameters
indexindex of the argument to set
argvalue of the argument
Returns
true if the setting succeeds

References MATH_ParentExpression::getArgumentsNumber(), and null.

Referenced by MATH_NodeExpression::addArgument(), MATH_ParentExpression::addArgument(), MATH_UnaryOperator::insertInTree(), MATH_BeginBlock::remove(), and MATH_ParentExpression::setArgument().

Here is the call graph for this function:

Here is the caller graph for this function:

tBoolean MATH_ParentExpression::setArgument ( const int &  index,
MATH_ChildExpression arg 
)
inlineinherited

set an argument at index

Parameters
indexindex of the argument to set
argvalue of the argument
Returns
true if the setting succeeds.

References CORE_Object::getSharedPointer(), null, and MATH_ParentExpression::setArgument().

Here is the call graph for this function:

void MATH_ParentExpression::setArgumentsNumber ( const int &  n)
inlineinherited
void MATH_Operator::setName ( const tString n)
inlineprotectedinherited
static void CORE_Object::setOutput ( ostream &  out)
inlinestaticinherited

set output

void MATH_ChildExpression::setParent ( SP::MATH_ParentExpression  parent,
const int &  argIndex 
)
inherited

set the parent

Parameters
parentparent of the child
argIndexoperand index of the child in the parent children list

References MATH_ChildExpression::getParent(), and MATH_ChildExpression::resetParent().

Here is the call graph for this function:

void MATH_BinaryOperator::setPriority ( const int &  p)
inlineprotectedinherited
void CORE_Object::setThis ( SP::CORE_Object  p)
inlineprotectedinherited

set this weak shared pointer called toDoAfterThis setting method

References CORE_Object::toDoAfterThisSetting().

Here is the call graph for this function:

virtual void CORE_Object::setType ( tString  type)
inlineprotectedvirtualinherited
virtual void CORE_Object::toDoAfterThisSetting ( )
inlineprotectedvirtualinherited
tString MATH_BinaryOperator::toString ( ) const
virtualinherited

return the string representation of the class

Reimplemented from MATH_ParentExpression.

References MATH_ParentExpression::getArgument(), MATH_Operator::getName(), null, and tString.

Here is the call graph for this function:

Member Data Documentation

const tFlag MATH_Expression::ALGEBRIC =0
staticinherited
const tFlag MATH_Expression::ALGEBRIC =0
staticinherited
const tFlag MATH_Expression::COMPUTE_BOUNDS =2
staticinherited
const tFlag MATH_Expression::COMPUTE_BOUNDS =2
staticinherited
const int MATH_Expression::FAIL =-1
staticinherited
const int MATH_Expression::FAIL =-1
staticinherited
const tFlag MATH_Expression::IS_INSIDE =1
staticinherited
const tFlag MATH_Expression::IS_INSIDE =1
staticinherited
tBoolean CORE_Object::mIsMemoryTesting =false
staticinherited

indicator to store all classes created and deleted only for debuging version

Referenced by CORE_Object::CORE_Object(), main(), CORE_Object::printObjectsInMemory(), and CORE_Object::~CORE_Object().

const int MATH_Expression::NULL_OPERAND =-5
staticinherited
const int MATH_Expression::NULL_OPERAND =-5
staticinherited
const int MATH_Expression::OUT_OF_BOUNDS =-4
staticinherited
const int MATH_Expression::OUT_OF_BOUNDS =-4
staticinherited
const int MATH_Expression::SIZE_MISMATCHED =-3
staticinherited
const int MATH_Expression::SIZE_MISMATCHED =-3
staticinherited
const int MATH_Expression::SUCCESS =0
staticinherited
const int MATH_Expression::SUCCESS =0
staticinherited
const int MATH_Expression::TYPE_MISMATCHED =-2
staticinherited
const int MATH_Expression::TYPE_MISMATCHED =-2
staticinherited

The documentation for this class was generated from the following files: