A generic Opposite Floating Point Expression. More...

#include <Opposite_Floating_Point_Expression_defs.hh>

Inheritance diagram for Parma_Polyhedra_Library::Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format >:

Collaboration diagram for Parma_Polyhedra_Library::Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format >:

Public Types
typedef Floating_Point_Expression< FP_Interval_Type, FP_Format >::FP_Linear_Form	FP_Linear_Form
	Alias for the Linear_Form<FP_Interval_Type> from Floating_Point_Expression. More...

typedef Floating_Point_Expression< FP_Interval_Type, FP_Format >::FP_Interval_Abstract_Store	FP_Interval_Abstract_Store
	Alias for the std::map<dimension_type, FP_Interval_Type> from Floating_Point_Expression. More...

typedef Floating_Point_Expression< FP_Interval_Type, FP_Format >::FP_Linear_Form_Abstract_Store	FP_Linear_Form_Abstract_Store
	Alias for the std::map<dimension_type, FP_Linear_Form> from Floating_Point_Expression. More...

typedef Floating_Point_Expression< FP_Interval_Type, FP_Format >::boundary_type	boundary_type
	Alias for the FP_Interval_Type::boundary_type from Floating_Point_Expression. More...

typedef Floating_Point_Expression< FP_Interval_Type, FP_Format >::info_type	info_type
	Alias for the FP_Interval_Type::info_type from Floating_Point_Expression. More...

Public Types inherited from Parma_Polyhedra_Library::Floating_Point_Expression< FP_Interval_Type, FP_Format >
typedef Linear_Form< FP_Interval_Type >	FP_Linear_Form
	Alias for a linear form with template argument `FP_Interval_Type`. More...

typedef Box< FP_Interval_Type >	FP_Interval_Abstract_Store
	Alias for a map that associates a variable index to an interval. More...

typedef std::map< dimension_type, FP_Linear_Form >	FP_Linear_Form_Abstract_Store
	Alias for a map that associates a variable index to a linear form. More...

typedef FP_Interval_Type::boundary_type	boundary_type
	The floating point format used by the analyzer. More...

typedef FP_Interval_Type::info_type	info_type
	The interval policy used by `FP_Interval_Type`. More...

Public Member Functions
bool	linearize (const FP_Interval_Abstract_Store &int_store, const FP_Linear_Form_Abstract_Store &lf_store, FP_Linear_Form &result) const
	Linearizes the expression in a given astract store. More...

void	m_swap (Opposite_Floating_Point_Expression &y)
	Swaps `*this` with `y`. More...

Constructors and Destructor
	Opposite_Floating_Point_Expression (Floating_Point_Expression< FP_Interval_Type, FP_Format > *const op)
	Constructor with one parameter: builds the opposite floating point expression $\ominus$ `op`. More...

	~Opposite_Floating_Point_Expression ()
	Destructor. More...

Public Member Functions inherited from Parma_Polyhedra_Library::Floating_Point_Expression< FP_Interval_Type, FP_Format >
virtual	~Floating_Point_Expression ()
	Destructor. More...

Private Member Functions
	Opposite_Floating_Point_Expression (const Opposite_Floating_Point_Expression &y)
	Inhibited copy constructor. More...

Opposite_Floating_Point_Expression &	operator= (const Opposite_Floating_Point_Expression &y)
	Inhibited assignment operator. More...

Private Attributes
Floating_Point_Expression< FP_Interval_Type, FP_Format > *	operand
	Pointer to the operand. More...

Related Functions
(Note that these are not member functions.)
template<typename FP_Interval_Type , typename FP_Format >
void	swap (Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format > &x, Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format > &y)
	Swaps `x` with `y`. More...

template<typename FP_Interval_Type , typename FP_Format >
void	swap (Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format > &x, Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format > &y)

Additional Inherited Members
Static Public Member Functions inherited from Parma_Polyhedra_Library::Floating_Point_Expression< FP_Interval_Type, FP_Format >
static bool	overflows (const FP_Linear_Form &lf)
	Verifies if a given linear form overflows. More...

static void	relative_error (const FP_Linear_Form &lf, FP_Linear_Form &result)
	Computes the relative error of a given linear form. More...

static void	intervalize (const FP_Linear_Form &lf, const FP_Interval_Abstract_Store &store, FP_Interval_Type &result)
	Makes `result` become an interval that overapproximates all the possible values of `lf` in the interval abstract store `store`. More...

Static Public Attributes inherited from Parma_Polyhedra_Library::Floating_Point_Expression< FP_Interval_Type, FP_Format >
static FP_Interval_Type	absolute_error = compute_absolute_error()
	Absolute error. More...

Detailed Description

template<typename FP_Interval_Type, typename FP_Format>
class Parma_Polyhedra_Library::Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format >

A generic Opposite Floating Point Expression.

Template type parameters

The class template type parameter FP_Interval_Type represents the type of the intervals used in the abstract domain.
The class template type parameter FP_Format represents the floating point format used in the concrete domain.

Linearization of opposite floating-point expressions

Let $i + \sum_{v \in \cV}i_{v}v$ be an interval linear form and let $\adlf$ be a sound unary operator on linear forms such that:

$\adlf \left(i + \sum_{v \in \cV}i_{v}v\right) = \left(\adifp i\right) + \sum_{v \in \cV}\left(\adifp i_{v} \right)v,$

Given a floating point expression $\ominus e$ and a composite abstract store $\left \llbracket \rho^{\#}, \rho^{\#}_l \right \rrbracket$ , we construct the interval linear form $\linexprenv{\ominus e}{\rho^{\#}}{\rho^{\#}_l}$ as follows:

$\linexprenv{\ominus e}{\rho^{\#}}{\rho^{\#}_l} = \adlf \left( \linexprenv{e}{\rho^{\#}}{\rho^{\#}_l} \right).$

Definition at line 81 of file Opposite_Floating_Point_Expression_defs.hh.

Member Typedef Documentation

template<typename FP_Interval_Type, typename FP_Format>

typedef Floating_Point_Expression<FP_Interval_Type, FP_Format>::boundary_type Parma_Polyhedra_Library::Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format >::boundary_type

Alias for the FP_Interval_Type::boundary_type from Floating_Point_Expression.

Definition at line 116 of file Opposite_Floating_Point_Expression_defs.hh.

template<typename FP_Interval_Type, typename FP_Format>

typedef Floating_Point_Expression<FP_Interval_Type, FP_Format>:: FP_Interval_Abstract_Store Parma_Polyhedra_Library::Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format >::FP_Interval_Abstract_Store

Alias for the std::map<dimension_type, FP_Interval_Type> from Floating_Point_Expression.

Definition at line 100 of file Opposite_Floating_Point_Expression_defs.hh.

template<typename FP_Interval_Type, typename FP_Format>

typedef Floating_Point_Expression<FP_Interval_Type, FP_Format>:: FP_Linear_Form Parma_Polyhedra_Library::Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format >::FP_Linear_Form

Alias for the Linear_Form<FP_Interval_Type> from Floating_Point_Expression.

Definition at line 92 of file Opposite_Floating_Point_Expression_defs.hh.

template<typename FP_Interval_Type, typename FP_Format>

typedef Floating_Point_Expression<FP_Interval_Type, FP_Format>:: FP_Linear_Form_Abstract_Store Parma_Polyhedra_Library::Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format >::FP_Linear_Form_Abstract_Store

Alias for the std::map<dimension_type, FP_Linear_Form> from Floating_Point_Expression.

Definition at line 108 of file Opposite_Floating_Point_Expression_defs.hh.

template<typename FP_Interval_Type, typename FP_Format>

typedef Floating_Point_Expression<FP_Interval_Type, FP_Format>::info_type Parma_Polyhedra_Library::Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format >::info_type

Alias for the FP_Interval_Type::info_type from Floating_Point_Expression.

Definition at line 122 of file Opposite_Floating_Point_Expression_defs.hh.

Constructor & Destructor Documentation

template<typename FP_Interval_Type , typename FP_Format >

Parma_Polyhedra_Library::Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format >::Opposite_Floating_Point_Expression ( Floating_Point_Expression< FP_Interval_Type, FP_Format > *const op )

inlineexplicit

Constructor with one parameter: builds the opposite floating point expression $\ominus$ op.

Definition at line 34 of file Opposite_Floating_Point_Expression_inlines.hh.

   : operand(op)
 {
   assert(op != 0);
 }

template<typename FP_Interval_Type , typename FP_Format >

Parma_Polyhedra_Library::Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format >::~Opposite_Floating_Point_Expression ( )

inline

Destructor.

Definition at line 44 of file Opposite_Floating_Point_Expression_inlines.hh.

                                       {
   delete operand;
 }

template<typename FP_Interval_Type, typename FP_Format>

Parma_Polyhedra_Library::Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format >::Opposite_Floating_Point_Expression ( const Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format > & y )

private

Inhibited copy constructor.

Member Function Documentation

template<typename FP_Interval_Type , typename FP_Format >

bool Parma_Polyhedra_Library::Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format >::linearize	(	const FP_Interval_Abstract_Store &	int_store,
		const FP_Linear_Form_Abstract_Store &	lf_store,
		FP_Linear_Form &	result
	)		const

inlinevirtual

Linearizes the expression in a given astract store.

Makes result become the linearization of *this in the given composite abstract store.

Parameters

int_store	The interval abstract store.
lf_store	The linear form abstract store.
result	The modified linear form.

Returns: true if the linearization succeeded, false otherwise.

Note that all variables occuring in the expression represented by operand MUST have an associated value in int_store. If this precondition is not met, calling the method causes an undefined behavior.

See the class description for a detailed explanation of how result is computed.

Implements Parma_Polyhedra_Library::Floating_Point_Expression< FP_Interval_Type, FP_Format >.

Definition at line 59 of file Opposite_Floating_Point_Expression_inlines.hh.

References Parma_Polyhedra_Library::Linear_Form< C >::negate().

                                           {
   if (!operand->linearize(int_store, lf_store, result)) {
     return false;
   }
 
   result.negate();
   return true;
 }

template<typename FP_Interval_Type , typename FP_Format >

void Parma_Polyhedra_Library::Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format >::m_swap ( Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format > & y )

inline

Swaps *this with y.

Definition at line 51 of file Opposite_Floating_Point_Expression_inlines.hh.

References Parma_Polyhedra_Library::Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format >::operand, and Parma_Polyhedra_Library::swap().

Referenced by Parma_Polyhedra_Library::Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format >::swap().

                                               {
   using std::swap;
   swap(operand, y.operand);
 }

template<typename FP_Interval_Type, typename FP_Format>

Opposite_Floating_Point_Expression& Parma_Polyhedra_Library::Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format >::operator= ( const Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format > & y )

private

Inhibited assignment operator.

Friends And Related Function Documentation

template<typename FP_Interval_Type , typename FP_Format >

void swap	(	Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format > &	x,
		Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format > &	y
	)

template<typename FP_Interval_Type , typename FP_Format >

void swap	(	Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format > &	x,
		Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format > &	y
	)

References Parma_Polyhedra_Library::Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format >::m_swap().

                                                                          {
   x.m_swap(y);
 }

Member Data Documentation

template<typename FP_Interval_Type, typename FP_Format>

Floating_Point_Expression<FP_Interval_Type, FP_Format>* Parma_Polyhedra_Library::Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format >::operand

private

Pointer to the operand.

Definition at line 185 of file Opposite_Floating_Point_Expression_defs.hh.

Referenced by Parma_Polyhedra_Library::Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format >::m_swap().

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

Public Types

Public Member Functions

Private Member Functions

Private Attributes

Related Functions

Additional Inherited Members

Detailed Description

template<typename FP_Interval_Type, typename FP_Format> class Parma_Polyhedra_Library::Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format >

Member Typedef Documentation

Constructor & Destructor Documentation

Member Function Documentation

Friends And Related Function Documentation

Member Data Documentation

template<typename FP_Interval_Type, typename FP_Format>
class Parma_Polyhedra_Library::Opposite_Floating_Point_Expression< FP_Interval_Type, FP_Format >