NAME
sc::SCElementOp -
Objects of class SCElementOp are used to perform operations on the
elements of matrices.
SYNOPSIS
#include <elemop.h>
Inherits sc::SavableState.
Inherited by sc::BlockedSCElementOp, sc::OneBodyIntOp,
sc::SCElementAccumulateDiagSCMatrix, sc::SCElementAccumulateSCMatrix,
sc::SCElementAccumulateSCVector, sc::SCElementAccumulateSymmSCMatrix,
sc::SCElementAssign, sc::SCElementDot, sc::SCElementInvert,
sc::SCElementKNorm, sc::SCElementMaxAbs, sc::SCElementMinAbs,
sc::SCElementRandomize, sc::SCElementScale, sc::SCElementScaleDiagonal,
sc::SCElementShiftDiagonal, sc::SCElementSquareRoot, and
sc::SCElementSumAbs.
Public Member Functions
SCElementOp (StateIn &s)
virtual int has_collect ()
If duplicates of the SCElementOp exist (that is, there is more than
one node), then if has_collect returns nonzero then collect is
called with a MessageGrp reference after all of the blocks have
been processed.
virtual void defer_collect (int)
virtual void collect (const Ref< MessageGrp > &)
virtual void collect (const Ref< SCElementOp > &)
Multithreaded use of cloneable SCElementOp objects requires that
data from cloned objects be collected.
virtual int has_side_effects ()
By default this returns nonzero.
virtual bool threadsafe ()
Returns true if this SCElementOp is threadsafe.
virtual bool cloneable ()
Returns true if this SCElementOp supports the cloneable member.
virtual Ref< SCElementOp > clone ()
Returns a clone of this object.
virtual void process (SCMatrixBlockIter &)=0
This is the fallback routine to process blocks and is called by
process_spec members that are not overridden.
void process_base (SCMatrixBlock *block)
Lazy matrix implementors can call this member when the type of
block specialization is unknown.
virtual void process_spec_rect (SCMatrixRectBlock *)
Matrices should call these members when the type of block is known.
virtual void process_spec_ltri (SCMatrixLTriBlock *)
virtual void process_spec_diag (SCMatrixDiagBlock *)
virtual void process_spec_vsimp (SCVectorSimpleBlock *)
virtual void process_spec_rectsub (SCMatrixRectSubBlock *)
virtual void process_spec_ltrisub (SCMatrixLTriSubBlock *)
virtual void process_spec_diagsub (SCMatrixDiagSubBlock *)
virtual void process_spec_vsimpsub (SCVectorSimpleSubBlock *)
Detailed Description
Objects of class SCElementOp are used to perform operations on the
elements of matrices.
When the SCElementOp object is given to the element_op member of a
matrix, each block the matrix is passed to one of the process,
process_base, or process_base members.
Member Function Documentation
virtual Ref<SCElementOp> sc::SCElementOp::clone () [virtual]
Returns a clone of this object. This is needed for multithreaded use of
SCElementOp objects that are not thread safe. The default implemenation
throws an exception.
Reimplemented in sc::OneBodyIntOp.
virtual bool sc::SCElementOp::cloneable () [virtual]
Returns true if this SCElementOp supports the cloneable member. The
default implmentation returns false.
Reimplemented in sc::OneBodyIntOp.
virtual void sc::SCElementOp::collect (const Ref< SCElementOp > &)
[virtual]
Multithreaded use of cloneable SCElementOp objects requires that data
from cloned objects be collected. The default implementation will throw
an exception.
Reimplemented in sc::SCElementInvert, sc::SCElementMaxAbs,
sc::SCElementMinAbs, sc::SCElementSumAbs, and sc::SCElementKNorm.
virtual int sc::SCElementOp::has_collect () [virtual]
If duplicates of the SCElementOp exist (that is, there is more than one
node), then if has_collect returns nonzero then collect is called with
a MessageGrp reference after all of the blocks have been processed. The
default return value of has_collect is 0 and collect’s default action
is do nothing. If defer_collect member is called with nonzero, collect
will do nothing (this is only used by the blocked matrices).
Reimplemented in sc::SCElementInvert, sc::SCElementMaxAbs,
sc::SCElementMinAbs, sc::SCElementSumAbs, and sc::SCElementKNorm.
virtual int sc::SCElementOp::has_side_effects () [virtual]
By default this returns nonzero. If the ElementOp specialization will
change any elements of the matrix, then this must be overridden to
return nonzero.
Reimplemented in sc::OneBodyIntOp, sc::LevelShift, sc::SCElementScale,
sc::SCElementRandomize, sc::SCElementAssign, sc::SCElementSquareRoot,
sc::SCElementInvert, sc::SCElementScaleDiagonal,
sc::SCElementShiftDiagonal, sc::SCElementDot,
sc::SCElementAccumulateSCMatrix, sc::SCElementAccumulateSymmSCMatrix,
sc::SCElementAccumulateDiagSCMatrix, and
sc::SCElementAccumulateSCVector.
virtual void sc::SCElementOp::process (SCMatrixBlockIter &) [pure virtual]
This is the fallback routine to process blocks and is called by
process_spec members that are not overridden.
Implemented in sc::OneBodyIntOp, sc::LevelShift, sc::ALevelShift,
sc::BLevelShift, sc::SCElementScale, sc::SCElementRandomize,
sc::SCElementAssign, sc::SCElementSquareRoot, sc::SCElementInvert,
sc::SCElementScaleDiagonal, sc::SCElementShiftDiagonal,
sc::SCElementMaxAbs, sc::SCElementMinAbs, sc::SCElementSumAbs,
sc::SCElementKNorm, sc::SCElementDot, sc::SCElementAccumulateSCMatrix,
sc::SCElementAccumulateSymmSCMatrix,
sc::SCElementAccumulateDiagSCMatrix, and
sc::SCElementAccumulateSCVector.
void sc::SCElementOp::process_base (SCMatrixBlock * block)
Lazy matrix implementors can call this member when the type of block
specialization is unknown. However, this will attempt to dynamic_cast
block to a block specialization and will thus be less efficient.
virtual void sc::SCElementOp::process_spec_rect (SCMatrixRectBlock *)
[virtual]
Matrices should call these members when the type of block is known.
ElementOp specializations should override these when efficiency is
important, since these give the most efficient access to the elements
of the block.
Reimplemented in sc::OneBodyIntOp.
virtual bool sc::SCElementOp::threadsafe () [virtual]
Returns true if this SCElementOp is threadsafe. The default
implementation returns false.
Author
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