SExpressionIndirect Class Reference

#include <extvar.hpp>

Inheritance diagram for SExpressionIndirect:

[legend]Collaboration diagram for SExpressionIndirect:

[legend]List of all members.

Detailed Description

Abstract indirect variable SETF agent.

For internal use only.

It's purpose in fact is to provide Value() and Addr() methods

Definition at line 45 of file extvar.hpp.

Public Member Functions

virtual SReference Value () const =0

Converts whatever variable value to SReference.

virtual void Setf (const SReference &val)=0

Perform SETF on the variable.

virtual void * Addr () const =0

Get the address of the variable (for TextRepresentation()).

virtual SString TextRepresentation () const

Text representation of the S-expression.

const IntelibTypeId & TermType () const

Actual S-expression type.

bool IsChangeable () const

Can it be changed during the lifetime of the object?

virtual SExpression * Clone () const

Clone a changeable object.

virtual bool SpecificEql (const SExpression *) const

Are the two objects EQL (while not EQ).

Static Public Attributes

static IntelibTypeId TypeId

Identifier for the set of all possible S-expressions.

Protected Member Functions

~SExpressionIndirect ()

bool CanDie ()

Is it OK to delete the object now?

Constructor & Destructor Documentation

SExpressionIndirect::~SExpressionIndirect ( ) [protected]

Definition at line 57 of file extvar.hpp.

Member Function Documentation

virtual SReference SExpressionIndirect::Value ( ) const [pure virtual]

Converts whatever variable value to SReference.

Implemented in SExpressionIndirectTemplate< Tt >.

virtual void* SExpressionIndirect::Addr ( ) const [pure virtual]

Get the address of the variable (for TextRepresentation()).

Implemented in SExpressionIndirectTemplate< Tt >.

virtual SString SExpressionIndirect::TextRepresentation ( ) const [virtual]

Text representation of the S-expression.
Returns the text string which represents the given S-expression as for real Lisp (for example, (25 36 49))
Implements SExpression.

const IntelibTypeId& SExpression::TermType ( ) const [inherited]

Actual S-expression type.

Definition at line 195 of file sexpress.hpp.
Referenced by SReference::DynamicCastGetPtr(), SchReference::IsEql(), LReference::IsEql(), SReference::SimpleCastGetPtr(), SchReference::TextRepresentation(), and LReference::TextRepresentation().

bool SExpression::IsChangeable ( ) const [inherited]

Can it be changed during the lifetime of the object?

Definition at line 198 of file sexpress.hpp.
References IntelibTypeId::IsChangeable().

virtual SExpression* SExpression::Clone ( ) const [virtual, inherited]

Clone a changeable object.
The method should return the pointer created with new
Note:
It can (and should) return null pointer for non-changeables

Warning:
This method will hang your program being called for a looped data structure, including looped lists, a hash table which references a list in which it is a member, etc.
If you create a changeable S-expression, you MUST make sure this method duplicates your object in such a way that nothing is shared between the old and new objects, that is, changing the new object can not in any way change the old object.

Reimplemented in SExpressionBacklink, SExpressionCons, SExpressionHashTable, SExpressionRawBuffer, and SExpressionVector.
Definition at line 214 of file sexpress.hpp.

virtual bool SExpression::SpecificEql ( const SExpression * ) const [virtual, inherited]

Are the two objects EQL (while not EQ).
This function is overriden by those SExpressions able to be EQL while being not EQ.
Warning:
It is not demanded that this function return true if it's arguments are the same SExpression (that is, they're EQ). It is only called by the EQL predicate implementation when it has been checked that the operands are not the same object.

Reimplemented in SExpressionInt, SExpressionFloat, SExpressionChar, and SExpressionString.
Definition at line 235 of file sexpress.hpp.
Referenced by SchReference::IsEql(), and LReference::IsEql().

bool GarbageSafe::CanDie ( ) [protected, inherited]

Is it OK to delete the object now?
Our children have no access to the private attribute RefCount and should never need it except when checking if the destruction is not an error. This solves the problem.
Definition at line 53 of file refcount.hpp.

Member Data Documentation

IntelibTypeId SExpressionSetfAgent::TypeId [static, inherited]

Identifier for the set of all possible S-expressions.

Note:
It never can be the value of term_type_id because SExpression is an abstract class. SExpression::TypeId is used for unification, to identify the whole world of S-expressions.
IntelibTypeId::IsSubtypeOf(SExpression::TypeId) is true for all objects of IntelibTypeId class. Guess why.

Reimplemented from SExpression.
Referenced by SExpressionSetfAgent::SExpressionSetfAgent().

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

extvar.hpp

Generated on Tue Dec 18 00:41:18 2007 for InteLib by

1.4.1


Public Member Functions
virtual SReference	Value () const =0
	Converts whatever variable value to SReference.
virtual void	Setf (const SReference &val)=0
	Perform SETF on the variable.
virtual void *	Addr () const =0
	Get the address of the variable (for TextRepresentation()).
virtual SString	TextRepresentation () const
	Text representation of the S-expression.
const IntelibTypeId &	TermType () const
	Actual S-expression type.
bool	IsChangeable () const
	Can it be changed during the lifetime of the object?
virtual SExpression *	Clone () const
	Clone a changeable object.
virtual bool	SpecificEql (const SExpression *) const
	Are the two objects EQL (while not EQ).
Static Public Attributes
static IntelibTypeId	TypeId
	Identifier for the set of all possible S-expressions.
Protected Member Functions
	~SExpressionIndirect ()
bool	CanDie ()
	Is it OK to delete the object now?