1 /*
2  Copyright (c) 2011, Intel Corporation. All rights reserved.
3 
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5  are permitted provided that the following conditions are met:
6 
7  * Redistributions of source code must retain the above copyright notice, this
8    list of conditions and the following disclaimer.
9  * Redistributions in binary form must reproduce the above copyright notice,
10    this list of conditions and the following disclaimer in the documentation
11    and/or other materials provided with the distribution.
12  * Neither the name of Intel Corporation nor the names of its contributors may
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14    specific prior written permission.
15 
16  THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
17  ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
18  WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
19  DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR
20  ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
21  (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
22  LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
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26 
27  ********************************************************************************
28  *   Content : Eigen bindings to BLAS F77
29  *   General matrix-matrix product functionality based on ?GEMM.
30  ********************************************************************************
31 */
32 
33 #ifndef EIGEN_GENERAL_MATRIX_MATRIX_BLAS_H
34 #define EIGEN_GENERAL_MATRIX_MATRIX_BLAS_H
35 
36 namespace Eigen {
37 
38 namespace internal {
39 
40 /**********************************************************************
41 * This file implements general matrix-matrix multiplication using BLAS
42 * gemm function via partial specialization of
43 * general_matrix_matrix_product::run(..) method for float, double,
44 * std::complex<float> and std::complex<double> types
45 **********************************************************************/
46 
47 // gemm specialization
48 
49 #define GEMM_SPECIALIZATION(EIGTYPE, EIGPREFIX, BLASTYPE, BLASPREFIX) \
50 template< \
51   typename Index, \
52   int LhsStorageOrder, bool ConjugateLhs, \
53   int RhsStorageOrder, bool ConjugateRhs> \
54 struct general_matrix_matrix_product<Index,EIGTYPE,LhsStorageOrder,ConjugateLhs,EIGTYPE,RhsStorageOrder,ConjugateRhs,ColMajor> \
55 { \
56 typedef gebp_traits<EIGTYPE,EIGTYPE> Traits; \
57 \
58 static void run(Index rows, Index cols, Index depth, \
59   const EIGTYPE* _lhs, Index lhsStride, \
60   const EIGTYPE* _rhs, Index rhsStride, \
61   EIGTYPE* res, Index resStride, \
62   EIGTYPE alpha, \
63   level3_blocking<EIGTYPE, EIGTYPE>& /*blocking*/, \
64   GemmParallelInfo<Index>* /*info = 0*/) \
65 { \
66   using std::conj; \
67 \
68   char transa, transb; \
69   BlasIndex m, n, k, lda, ldb, ldc; \
70   const EIGTYPE *a, *b; \
71   EIGTYPE beta(1); \
72   MatrixX##EIGPREFIX a_tmp, b_tmp; \
73 \
74 /* Set transpose options */ \
75   transa = (LhsStorageOrder==RowMajor) ? ((ConjugateLhs) ? 'C' : 'T') : 'N'; \
76   transb = (RhsStorageOrder==RowMajor) ? ((ConjugateRhs) ? 'C' : 'T') : 'N'; \
77 \
78 /* Set m, n, k */ \
79   m = convert_index<BlasIndex>(rows);  \
80   n = convert_index<BlasIndex>(cols);  \
81   k = convert_index<BlasIndex>(depth); \
82 \
83 /* Set lda, ldb, ldc */ \
84   lda = convert_index<BlasIndex>(lhsStride); \
85   ldb = convert_index<BlasIndex>(rhsStride); \
86   ldc = convert_index<BlasIndex>(resStride); \
87 \
88 /* Set a, b, c */ \
89   if ((LhsStorageOrder==ColMajor) && (ConjugateLhs)) { \
90     Map<const MatrixX##EIGPREFIX, 0, OuterStride<> > lhs(_lhs,m,k,OuterStride<>(lhsStride)); \
91     a_tmp = lhs.conjugate(); \
92     a = a_tmp.data(); \
93     lda = convert_index<BlasIndex>(a_tmp.outerStride()); \
94   } else a = _lhs; \
95 \
96   if ((RhsStorageOrder==ColMajor) && (ConjugateRhs)) { \
97     Map<const MatrixX##EIGPREFIX, 0, OuterStride<> > rhs(_rhs,k,n,OuterStride<>(rhsStride)); \
98     b_tmp = rhs.conjugate(); \
99     b = b_tmp.data(); \
100     ldb = convert_index<BlasIndex>(b_tmp.outerStride()); \
101   } else b = _rhs; \
102 \
103   BLASPREFIX##gemm_(&transa, &transb, &m, &n, &k, &numext::real_ref(alpha), (const BLASTYPE*)a, &lda, (const BLASTYPE*)b, &ldb, &numext::real_ref(beta), (BLASTYPE*)res, &ldc); \
104 }};
105 
106 GEMM_SPECIALIZATION(double,   d,  double, d)
107 GEMM_SPECIALIZATION(float,    f,  float,  s)
108 GEMM_SPECIALIZATION(dcomplex, cd, double, z)
109 GEMM_SPECIALIZATION(scomplex, cf, float,  c)
110 
111 } // end namespase internal
112 
113 } // end namespace Eigen
114 
115 #endif // EIGEN_GENERAL_MATRIX_MATRIX_BLAS_H
116