/usr/include/blitz/meta/matvec.h is in libblitz0-dev 1:0.10-3.3.
This file is owned by root:root, with mode 0o644.
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/***************************************************************************
* blitz/tiny/matvec.h TinyMatrix/TinyVector product metaprogram
*
* $Id$
*
* Copyright (C) 1997-2011 Todd Veldhuizen <tveldhui@acm.org>
*
* This file is a part of Blitz.
*
* Blitz is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License
* as published by the Free Software Foundation, either version 3
* of the License, or (at your option) any later version.
*
* Blitz is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with Blitz. If not, see <http://www.gnu.org/licenses/>.
*
* Suggestions: blitz-devel@lists.sourceforge.net
* Bugs: blitz-support@lists.sourceforge.net
*
* For more information, please see the Blitz++ Home Page:
* https://sourceforge.net/projects/blitz/
*
***************************************************************************/
#ifndef BZ_META_MATVEC_H
#define BZ_META_MATVEC_H
#ifndef BZ_BLITZ_H
#include <blitz/blitz.h>
#endif
#ifndef BZ_VECEXPRWRAP_H
#include <blitz/vecexprwrap.h>
#endif
#ifndef BZ_METAPROG_H
#include <blitz/meta/metaprog.h>
#endif
BZ_NAMESPACE(blitz)
// Forward declarations
template<int N_rows, int N_columns, int N_rowStride, int N_colStride,
int N_vecStride, int J>
class _bz_meta_matrixVectorProduct2;
template<typename T_numtype1, typename T_numtype2, int N_rows, int N_columns,
int N_rowStride, int N_colStride, int N_vecStride>
class _bz_tinyMatrixVectorProduct {
public:
typedef BZ_PROMOTE(T_numtype1, T_numtype2) T_numtype;
_bz_tinyMatrixVectorProduct(const _bz_tinyMatrixVectorProduct<T_numtype1,
T_numtype2, N_rows, N_columns, N_rowStride, N_colStride,
N_vecStride>& z)
: matrix_(z.matrix_), vector_(z.vector_)
{ }
_bz_tinyMatrixVectorProduct(const T_numtype1* matrix,
const T_numtype2* vector)
: matrix_(matrix), vector_(vector)
{ }
T_numtype operator[](unsigned i) const
{
return _bz_meta_matrixVectorProduct2<N_rows, N_columns, N_rowStride,
N_colStride, N_vecStride, 0>::f(matrix_, vector_, i);
}
T_numtype operator()(unsigned i) const
{
return _bz_meta_matrixVectorProduct2<N_rows, N_columns, N_rowStride,
N_colStride, N_vecStride, 0>::f(matrix_, vector_, i);
}
static const int
_bz_staticLengthCount = 1,
_bz_dynamicLengthCount = 0,
_bz_staticLength = N_rows;
#ifdef BZ_HAVE_COSTS
static const int
_bz_costPerEval = 2 * N_columns * costs::memoryAccess
+ (N_columns-1) * costs::add;
#endif
unsigned _bz_suggestLength() const
{
return N_rows;
}
bool _bz_hasFastAccess() const
{ return true; }
T_numtype _bz_fastAccess(unsigned i) const
{
return _bz_meta_matrixVectorProduct2<N_rows, N_columns, N_rowStride,
N_colStride, N_vecStride, 0>::f(matrix_, vector_, i);
}
unsigned length(unsigned recommendedLength) const
{ return N_rows; }
const T_numtype1* matrix() const
{ return matrix_; }
const T_numtype2* vector() const
{ return vector_; }
protected:
const T_numtype1* matrix_;
const T_numtype2* vector_;
};
template<typename T_numtype1, typename T_numtype2, int N_rows, int N_columns>
inline _bz_VecExpr<_bz_tinyMatrixVectorProduct<T_numtype1, T_numtype2,
N_rows, N_columns, N_columns, 1, 1> >
product(const TinyMatrix<T_numtype1, N_rows, N_columns>& matrix,
const TinyVector<T_numtype2, N_columns>& vector)
{
typedef _bz_tinyMatrixVectorProduct<T_numtype1, T_numtype2, N_rows,
N_columns, N_columns, 1, 1> T_expr;
return _bz_VecExpr<T_expr>(T_expr(matrix.data(), vector.data()));
}
// Template metaprogram for matrix-vector multiplication
template<int N_rows, int N_columns, int N_rowStride, int N_colStride,
int N_vecStride, int J>
class _bz_meta_matrixVectorProduct2 {
public:
static const int go = J < (N_columns-1) ? 1 : 0;
template<typename T_numtype1, typename T_numtype2>
static inline BZ_PROMOTE(T_numtype1, T_numtype2)
f(const T_numtype1* matrix, const T_numtype2* vector, int i)
{
return matrix[i * N_rowStride + J * N_colStride]
* vector[J * N_vecStride]
+ _bz_meta_matrixVectorProduct2<N_rows * go, N_columns * go,
N_rowStride * go, N_colStride * go, N_vecStride * go, (J+1)*go>
::f(matrix, vector, i);
}
};
template<>
class _bz_meta_matrixVectorProduct2<0,0,0,0,0,0> {
public:
static inline _bz_meta_nullOperand f(const void*, const void*, int)
{ return _bz_meta_nullOperand(); }
};
template<int N_rows, int N_columns, int N_rowStride, int N_colStride,
int N_vecStride, int I>
class _bz_meta_matrixVectorProduct {
public:
static const int go = I < (N_rows - 1) ? 1 : 0;
template<typename T_numtype1, typename T_numtype2, typename T_numtype3>
static inline void f(TinyVector<T_numtype3, N_rows>& result,
const T_numtype1* matrix, const T_numtype2* vector)
{
result[I] = _bz_meta_matrixVectorProduct2<N_rows, N_columns,
N_rowStride, N_colStride, N_vecStride, 0>::f(matrix,vector, I);
_bz_meta_matrixVectorProduct<N_rows * go, N_columns * go,
N_rowStride * go, N_colStride * go, N_vecStride * go, (I+1)*go>
::f(result, matrix, vector);
}
};
template<>
class _bz_meta_matrixVectorProduct<0,0,0,0,0,0> {
public:
static inline void f(const _bz_tinyBase&, const void*, const void*)
{ }
};
BZ_NAMESPACE_END
#endif // BZ_META_MATVEC_H
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