escript  Revision_
Namespaces | Functions
DataVectorOps.cpp File Reference
#include "DataVectorOps.h"
#include "DataTypes.h"
#include <sstream>

Namespaces

 escript
 

Functions

void escript::matMult (const DataTypes::RealVectorType &left, const DataTypes::ShapeType &leftShape, DataTypes::RealVectorType::size_type leftOffset, const DataTypes::RealVectorType &right, const DataTypes::ShapeType &rightShape, DataTypes::RealVectorType::size_type rightOffset, DataTypes::RealVectorType &result, const DataTypes::ShapeType &resultShape)
 Perform a matrix multiply of the given views. More...
 
DataTypes::ShapeType escript::determineResultShape (const DataTypes::ShapeType &left, const DataTypes::ShapeType &right)
 Determine the shape of the result array for a matrix multiplication of the given views. More...
 
void escript::matrixInverseError (int err)
 throws an appropriate exception based on failure of matrix_inverse. More...
 
int escript::matrix_inverse (const DataTypes::RealVectorType &in, const DataTypes::ShapeType &inShape, DataTypes::RealVectorType::size_type inOffset, DataTypes::RealVectorType &out, const DataTypes::ShapeType &outShape, DataTypes::RealVectorType::size_type outOffset, int count, LapackInverseHelper &helper)
 computes the inverses of square (up to 3x3) matricies More...
 
template<>
void escript::binaryOpVectorTagged (DataTypes::RealVectorType &res, const typename DataTypes::RealVectorType::size_type samplesToProcess, const typename DataTypes::RealVectorType::size_type DPPSample, const typename DataTypes::RealVectorType::size_type DPSize, const DataTypes::RealVectorType &left, const bool leftscalar, const DataTypes::RealVectorType &right, const bool rightscalar, const bool lefttagged, const DataTagged &tagsource, escript::ES_optype operation)
 
template<>
void escript::binaryOpVectorRightScalar (DataTypes::RealVectorType &res, typename DataTypes::RealVectorType::size_type resOffset, const typename DataTypes::RealVectorType::size_type samplesToProcess, const typename DataTypes::RealVectorType::size_type sampleSize, const DataTypes::RealVectorType &left, typename DataTypes::RealVectorType::size_type leftOffset, const DataTypes::real_t *right, const bool rightreset, escript::ES_optype operation, bool singleleftsample)
 
template<>
void escript::binaryOpVectorLeftScalar (DataTypes::RealVectorType &res, typename DataTypes::RealVectorType::size_type resOffset, const typename DataTypes::RealVectorType::size_type samplesToProcess, const typename DataTypes::RealVectorType::size_type sampleSize, const DataTypes::real_t *left, const bool leftreset, const DataTypes::RealVectorType &right, typename DataTypes::RealVectorType::size_type rightOffset, escript::ES_optype operation, bool singlerightsample)
 
template<>
void escript::binaryOpVector (DataTypes::RealVectorType &res, typename DataTypes::RealVectorType::size_type resOffset, const typename DataTypes::RealVectorType::size_type samplesToProcess, const typename DataTypes::RealVectorType::size_type sampleSize, const DataTypes::RealVectorType &left, typename DataTypes::RealVectorType::size_type leftOffset, const bool leftreset, const DataTypes::RealVectorType &right, typename DataTypes::RealVectorType::size_type rightOffset, const bool rightreset, escript::ES_optype operation)
 
void escript::hermitian (const DataTypes::CplxVectorType &in, const DataTypes::ShapeType &inShape, DataTypes::CplxVectorType::size_type inOffset, DataTypes::CplxVectorType &ev, const DataTypes::ShapeType &evShape, DataTypes::CplxVectorType::size_type evOffset)
 computes an hermitian matrix from your square matrix A: (A + adjoint(A)) / 2 More...
 
void escript::antihermitian (const DataTypes::CplxVectorType &in, const DataTypes::ShapeType &inShape, typename DataTypes::CplxVectorType::size_type inOffset, DataTypes::CplxVectorType &ev, const DataTypes::ShapeType &evShape, typename DataTypes::CplxVectorType::size_type evOffset)
 computes a antihermitian matrix from your square matrix A: (A - adjoint(A)) / 2 More...