Ryan Savitski
2014 Eurobot fork
Dependencies: mbed-rtos mbed QEI
tvmet/xpr/MMProductTransposed.h
- Committer:
- madcowswe
- Date:
- 2013-04-06
- Revision:
- 15:9c5aaeda36dc
File content as of revision 15:9c5aaeda36dc:
/*
* Tiny Vector Matrix Library
* Dense Vector Matrix Libary of Tiny size using Expression Templates
*
* Copyright (C) 2001 - 2007 Olaf Petzold <opetzold@users.sourceforge.net>
*
* This library 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 2.1 of the License, or (at your option) any later version.
*
* This library 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 this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
* $Id: MMProductTransposed.h,v 1.20 2007-06-23 15:58:59 opetzold Exp $
*/
#ifndef TVMET_XPR_MMPRODUCT_TRANSPOSED_H
#define TVMET_XPR_MMPRODUCT_TRANSPOSED_H
#include <tvmet/meta/Gemm.h>
#include <tvmet/loop/Gemm.h>
namespace tvmet {
/**
* \class XprMMProductTransposed MMProductTransposed.h "tvmet/xpr/MMProductTransposed.h"
* \brief Expression for transpose(matrix-matrix product).
* Using formula:
* \f[
* (M_1\,M_2)^T
* \f]
* \note The Rows2 has to be equal to Cols1.
* The result is a (Cols2 x Rows1) matrix.
*/
template<class E1, std::size_t Rows1, std::size_t Cols1,
class E2, std::size_t Cols2>
class XprMMProductTransposed
: public TvmetBase< XprMMProductTransposed<E1, Rows1, Cols1, E2, Cols2> >
{
private:
XprMMProductTransposed();
XprMMProductTransposed& operator=(const XprMMProductTransposed&);
public:
typedef typename PromoteTraits<
typename E1::value_type,
typename E2::value_type
>::value_type value_type;
public:
/** Complexity counter. */
enum {
ops_lhs = E1::ops,
ops_rhs = E2::ops,
M = Rows1 * Cols1 * Cols2,
N = Rows1 * (Cols1-1) * Cols2,
ops_plus = M * NumericTraits<value_type>::ops_plus,
ops_muls = N * NumericTraits<value_type>::ops_muls,
ops = ops_plus + ops_muls,
use_meta = Cols2*Rows1 < TVMET_COMPLEXITY_MM_TRIGGER ? true : false
};
public:
/** Constructor. */
explicit XprMMProductTransposed(const E1& lhs, const E2& rhs)
: m_lhs(lhs), m_rhs(rhs) { }
/** Copy Constructor. Not explicit! */
#if defined(TVMET_OPTIMIZE_XPR_MANUAL_CCTOR)
XprMMProductTransposed(const XprMMProductTransposed& e)
: m_lhs(e.m_lhs), m_rhs(e.m_rhs)
{ }
#endif
private:
/** Wrapper for meta gemm. */
static inline
value_type do_gemm(dispatch<true>, const E1& lhs, const E2& rhs, std::size_t i, std::size_t j) {
return meta::gemm<Rows1, Cols1,
Cols2,
0>::prod(lhs, rhs, i, j);
}
/** Wrapper for loop gemm. */
static inline
value_type do_gemm(dispatch<false>, const E1& lhs, const E2& rhs, std::size_t i, std::size_t j) {
return loop::gemm<Rows1, Cols1, Cols2>::prod(lhs, rhs, i, j);
}
public:
/** index operator for arrays/matrices */
value_type operator()(std::size_t i, std::size_t j) const {
TVMET_RT_CONDITION((i < Cols2) && (j < Rows1), "XprMMProductTransposed Bounce Violation")
return do_gemm(dispatch<use_meta>(), m_lhs, m_rhs, j, i);
}
public: // debugging Xpr parse tree
void print_xpr(std::ostream& os, std::size_t l=0) const {
os << IndentLevel(l++)
<< "XprMMProductTransposed["
<< (use_meta ? "M" : "L") << ", O=" << ops
<< ", (O1=" << ops_lhs << ", O2=" << ops_rhs << ")]<"
<< std::endl;
m_lhs.print_xpr(os, l);
os << IndentLevel(l)
<< "R1=" << Rows1 << ", C1=" << Cols1 << ",\n";
m_rhs.print_xpr(os, l);
os << IndentLevel(l)
<< "C2=" << Cols2 << ",\n"
<< IndentLevel(l)
<< "\n"
<< IndentLevel(--l)
<< ">," << std::endl;
}
private:
const E1 m_lhs;
const E2 m_rhs;
};
} // namespace tvmet
#endif // TVMET_XPR_MMPRODUCT_TRANSPOSED_H
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