class HCL_RestrictedBiLinearOp_d : public HCL_LinearOp_d class HCL_RestrictedBiLinearOp_d : public HCL_LinearOp_d HCL_RestrictedBiLinearOp_d creates one of the three linear operators related to a bilinear operator
 | HCL_RestrictedBiLinearOp_d ( const HCL_BiLinearOp_d * t, int of, const HCL_Vector_d & v ) Usual constructor; needs a pointer to the underlying bilinear operator, a flag indicating which restricted operator is to be represented (1, 2, or 3), and the fixed vector |
| virtual HCL_VectorSpace_d& | Domain () const Domain space access |
| virtual HCL_VectorSpace_d& | Range () const Range space access |
| virtual void | Image ( const HCL_Vector_d & x, HCL_Vector_d & y ) const Image compute the action of the operator on x, giving y. |
| virtual void | AdjImage ( const HCL_Vector_d & y, HCL_Vector_d & x ) const AdjImage computes the action of the adjoint on y, giving x |
| virtual void | InvImage (const HCL_Vector_d & y, HCL_Vector_d & x) const InvImage computes the action of the inverse on y, giving x |
| virtual void | InvAdjImage (const HCL_Vector_d & x, HCL_Vector_d & y) const InvAdjImage computes the action of the inverse adjoint on x, giving y |
| virtual ostream& | Write ( ostream & str ) const Write invokes the Write method of the underlying bilinear operator |
int CheckAdj(int Display = 1, double tol = 1000 )
virtual void NormalImage( const HCL_Vector_d & x, HCL_Vector_d & z ) const
int CheckNormal( int display = 1, double tol = 100 )
virtual void ImageAdd(const HCL_Vector_d & x, const HCL_Vector_d & z, HCL_Vector_d & y, double a=1.0, double b=1.0) const
virtual void AdjImageAdd(const HCL_Vector_d & x, const HCL_Vector_d & z, HCL_Vector_d & y, double a=1.0, double b=1.0) const
virtual void NormalImageAdd(const HCL_Vector_d & x, const HCL_Vector_d & z, HCL_Vector_d & y, double a=1.0, double b=1.0) const
virtual void InvImageAdd(const HCL_Vector_d & x, const HCL_Vector_d & z, HCL_Vector_d & y, double a=1.0, double b=1.0) const
virtual void InvAdjImageAdd(const HCL_Vector_d & x, const HCL_Vector_d & z, HCL_Vector_d & y, double a=1.0, double b=1.0) const
virtual void ImageAdd(const HCL_Vector_d & x, HCL_Vector_d & y, double a=1.0, double b=1.0) const
virtual void AdjImageAdd(const HCL_Vector_d & x, HCL_Vector_d & y, double a=1.0, double b=1.0) const
virtual void NormalImageAdd(const HCL_Vector_d & x, HCL_Vector_d & y, double a=1.0, double b=1.0) const
virtual void InvImageAdd(const HCL_Vector_d & x, HCL_Vector_d & y, double a=1.0, double b=1.0) const
virtual void InvAdjImageAdd(const HCL_Vector_d & x, HCL_Vector_d & y, double a=1.0, double b=1.0) const
void IncCount() const
void DecCount() const
int Count() const
HCL_RestrictedBiLinearOp_d creates one of the three linear operators related to a bilinear operator. Supposeis a bilinear operator represented by an instance of HCL_BiLinearOp_d. The three related operators are
Note that to define
, a fixed x in X is required; similarly y in Y defines
, and z in Z defines
. Note also that the fourth natural operator,
turns out to be the adjoint of
This class is concrete: all of its methods are implemented.
HCL_RestrictedBiLinearOp_d( const HCL_BiLinearOp_d * t, int of, const HCL_Vector_d & v )
virtual HCL_VectorSpace_d& Domain() const
virtual HCL_VectorSpace_d& Range() const
virtual void Image( const HCL_Vector_d & x, HCL_Vector_d & y ) const
virtual void AdjImage( const HCL_Vector_d & y, HCL_Vector_d & x ) const
virtual void InvImage(const HCL_Vector_d & y, HCL_Vector_d & x) const
virtual void InvAdjImage(const HCL_Vector_d & x, HCL_Vector_d & y) const
virtual ostream& Write( ostream & str ) const
alphabetic index hierarchy of classes
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