DenseLinAlgPack_MatVecCompare.hpp

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#ifndef MAT_VEC_COMPARE_H
#define MAT_VEC_COMPARE_H

#include <limits>
#if defined(_GNU_GXX)
#include <cmath>
#else
#include <math.h>
#endif

#include "DenseLinAlgPack_Types.hpp"
#include "TestingHelperPack_update_success.hpp"

namespace DenseLinAlgPack {

using TestingHelperPack::update_success;

/* * @name DVectorSlice and DMatrixSlice comparison functions.
  *
  * These functions compare the elements of two DVectorSlice or DMatrixSlice
  * objects.  If any of the corresponding elements does not obey
  * abs(ele1 - ele2) < sqrt(eps) then the functions return false, otherwise
  * they return true.  An exact test (bits) is not performed to allow for some round-off
  * error to occur and still equate.
  */
// @{

const value_type sqrt_eps
#if defined(_GNU_GXX)
  = std::sqrt(std::numeric_limits<value_type>::epsilon());
#elif defined(_CPQ_CXX)
  = ::sqrt(std::numeric_limits<value_type>::epsilon());
#else
  = ::sqrt(std::numeric_limits<value_type>::epsilon());
#endif

bool comp(const DVectorSlice& vs1, const DVectorSlice& vs2);

bool comp(const DVectorSlice& vs, value_type alpha);

bool comp(const DMatrixSlice& gms1, BLAS_Cpp::Transp trans1
  , const DMatrixSlice& gms2, BLAS_Cpp::Transp trans2);

//bool comp(const DMatrixSlice& gms1, const DMatrixSlice& gms2);

inline
bool comp(const DMatrixSlice& gms1, const DMatrixSlice& gms2)
{
  return comp(gms1, BLAS_Cpp::no_trans, gms2, BLAS_Cpp::no_trans);
}

bool comp(const DMatrixSlice& gms1, value_type alpha);

bool comp(const DMatrixSliceTriEle& tri_gms1, const DMatrixSliceTriEle& tri_gms2);

bool comp(const DMatrixSliceTriEle& tri_gms1, value_type alpha);

bool comp_less(const DVectorSlice& vs, value_type alpha);

// @}

} // end namespace DenseLinAlgPack

// ////////////////////////////////////
// Inline definitions

//inline
//bool DenseLinAlgPack::comp(const DMatrixSlice& gms1, const DMatrixSlice& gms2)
//{
//  return comp(gms1, BLAS_Cpp::no_trans, gms2, BLAS_Cpp::no_trans);
//}


#endif  // MAT_VEC_COMPARE_H