GeneralMatrixMatrixTriangular.h
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1 // This file is part of Eigen, a lightweight C++ template library
2 // for linear algebra.
3 //
4 // Copyright (C) 2009-2010 Gael Guennebaud <gael.guennebaud@inria.fr>
5 //
6 // This Source Code Form is subject to the terms of the Mozilla
7 // Public License v. 2.0. If a copy of the MPL was not distributed
8 // with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
9 
10 #ifndef EIGEN_GENERAL_MATRIX_MATRIX_TRIANGULAR_H
11 #define EIGEN_GENERAL_MATRIX_MATRIX_TRIANGULAR_H
12 
13 namespace Eigen {
14 
15 template<typename Scalar, typename Index, int StorageOrder, int UpLo, bool ConjLhs, bool ConjRhs>
17 
18 namespace internal {
19 
20 /**********************************************************************
21 * This file implements a general A * B product while
22 * evaluating only one triangular part of the product.
23 * This is a more general version of self adjoint product (C += A A^T)
24 * as the level 3 SYRK Blas routine.
25 **********************************************************************/
26 
27 // forward declarations (defined at the end of this file)
28 template<typename LhsScalar, typename RhsScalar, typename Index, int mr, int nr, bool ConjLhs, bool ConjRhs, int ResInnerStride, int UpLo>
29 struct tribb_kernel;
30 
31 /* Optimized matrix-matrix product evaluating only one triangular half */
32 template <typename Index,
33  typename LhsScalar, int LhsStorageOrder, bool ConjugateLhs,
34  typename RhsScalar, int RhsStorageOrder, bool ConjugateRhs,
35  int ResStorageOrder, int ResInnerStride, int UpLo, int Version = Specialized>
37 
38 // as usual if the result is row major => we transpose the product
39 template <typename Index, typename LhsScalar, int LhsStorageOrder, bool ConjugateLhs,
40  typename RhsScalar, int RhsStorageOrder, bool ConjugateRhs,
41  int ResInnerStride, int UpLo, int Version>
42 struct general_matrix_matrix_triangular_product<Index,LhsScalar,LhsStorageOrder,ConjugateLhs,RhsScalar,RhsStorageOrder,ConjugateRhs,RowMajor,ResInnerStride,UpLo,Version>
43 {
45  static EIGEN_STRONG_INLINE void run(Index size, Index depth,const LhsScalar* lhs, Index lhsStride,
46  const RhsScalar* rhs, Index rhsStride, ResScalar* res, Index resIncr, Index resStride,
48  {
50  RhsScalar, RhsStorageOrder==RowMajor ? ColMajor : RowMajor, ConjugateRhs,
51  LhsScalar, LhsStorageOrder==RowMajor ? ColMajor : RowMajor, ConjugateLhs,
52  ColMajor, ResInnerStride, UpLo==Lower?Upper:Lower>
53  ::run(size,depth,rhs,rhsStride,lhs,lhsStride,res,resIncr,resStride,alpha,blocking);
54  }
55 };
56 
57 template <typename Index, typename LhsScalar, int LhsStorageOrder, bool ConjugateLhs,
58  typename RhsScalar, int RhsStorageOrder, bool ConjugateRhs,
59  int ResInnerStride, int UpLo, int Version>
60 struct general_matrix_matrix_triangular_product<Index,LhsScalar,LhsStorageOrder,ConjugateLhs,RhsScalar,RhsStorageOrder,ConjugateRhs,ColMajor,ResInnerStride,UpLo,Version>
61 {
63  static EIGEN_STRONG_INLINE void run(Index size, Index depth,const LhsScalar* _lhs, Index lhsStride,
64  const RhsScalar* _rhs, Index rhsStride,
65  ResScalar* _res, Index resIncr, Index resStride,
67  {
68  typedef gebp_traits<LhsScalar,RhsScalar> Traits;
69 
73  LhsMapper lhs(_lhs,lhsStride);
74  RhsMapper rhs(_rhs,rhsStride);
75  ResMapper res(_res, resStride, resIncr);
76 
77  Index kc = blocking.kc();
78  Index mc = (std::min)(size,blocking.mc());
79 
80  // !!! mc must be a multiple of nr:
81  if(mc > Traits::nr)
82  mc = (mc/Traits::nr)*Traits::nr;
83 
84  std::size_t sizeA = kc*mc;
85  std::size_t sizeB = kc*size;
86 
87  ei_declare_aligned_stack_constructed_variable(LhsScalar, blockA, sizeA, blocking.blockA());
88  ei_declare_aligned_stack_constructed_variable(RhsScalar, blockB, sizeB, blocking.blockB());
89 
94 
95  for(Index k2=0; k2<depth; k2+=kc)
96  {
97  const Index actual_kc = (std::min)(k2+kc,depth)-k2;
98 
99  // note that the actual rhs is the transpose/adjoint of mat
100  pack_rhs(blockB, rhs.getSubMapper(k2,0), actual_kc, size);
101 
102  for(Index i2=0; i2<size; i2+=mc)
103  {
104  const Index actual_mc = (std::min)(i2+mc,size)-i2;
105 
106  pack_lhs(blockA, lhs.getSubMapper(i2, k2), actual_kc, actual_mc);
107 
108  // the selected actual_mc * size panel of res is split into three different part:
109  // 1 - before the diagonal => processed with gebp or skipped
110  // 2 - the actual_mc x actual_mc symmetric block => processed with a special kernel
111  // 3 - after the diagonal => processed with gebp or skipped
112  if (UpLo==Lower)
113  gebp(res.getSubMapper(i2, 0), blockA, blockB, actual_mc, actual_kc,
114  (std::min)(size,i2), alpha, -1, -1, 0, 0);
115 
116  sybb(_res+resStride*i2 + resIncr*i2, resIncr, resStride, blockA, blockB + actual_kc*i2, actual_mc, actual_kc, alpha);
117 
118  if (UpLo==Upper)
119  {
120  Index j2 = i2+actual_mc;
121  gebp(res.getSubMapper(i2, j2), blockA, blockB+actual_kc*j2, actual_mc,
122  actual_kc, (std::max)(Index(0), size-j2), alpha, -1, -1, 0, 0);
123  }
124  }
125  }
126  }
127 };
128 
129 // Optimized packed Block * packed Block product kernel evaluating only one given triangular part
130 // This kernel is built on top of the gebp kernel:
131 // - the current destination block is processed per panel of actual_mc x BlockSize
132 // where BlockSize is set to the minimal value allowing gebp to be as fast as possible
133 // - then, as usual, each panel is split into three parts along the diagonal,
134 // the sub blocks above and below the diagonal are processed as usual,
135 // while the triangular block overlapping the diagonal is evaluated into a
136 // small temporary buffer which is then accumulated into the result using a
137 // triangular traversal.
138 template<typename LhsScalar, typename RhsScalar, typename Index, int mr, int nr, bool ConjLhs, bool ConjRhs, int ResInnerStride, int UpLo>
139 struct tribb_kernel
140 {
142  typedef typename Traits::ResScalar ResScalar;
143 
144  enum {
146  };
147  void operator()(ResScalar* _res, Index resIncr, Index resStride, const LhsScalar* blockA, const RhsScalar* blockB, Index size, Index depth, const ResScalar& alpha)
148  {
151  ResMapper res(_res, resStride, resIncr);
154 
156 
157  // let's process the block per panel of actual_mc x BlockSize,
158  // again, each is split into three parts, etc.
159  for (Index j=0; j<size; j+=BlockSize)
160  {
161  Index actualBlockSize = std::min<Index>(BlockSize,size - j);
162  const RhsScalar* actual_b = blockB+j*depth;
163 
164  if(UpLo==Upper)
165  gebp_kernel1(res.getSubMapper(0, j), blockA, actual_b, j, depth, actualBlockSize, alpha,
166  -1, -1, 0, 0);
167 
168  // selfadjoint micro block
169  {
170  Index i = j;
171  buffer.setZero();
172  // 1 - apply the kernel on the temporary buffer
173  gebp_kernel2(BufferMapper(buffer.data(), BlockSize), blockA+depth*i, actual_b, actualBlockSize, depth, actualBlockSize, alpha,
174  -1, -1, 0, 0);
175 
176  // 2 - triangular accumulation
177  for(Index j1=0; j1<actualBlockSize; ++j1)
178  {
179  typename ResMapper::LinearMapper r = res.getLinearMapper(i,j+j1);
180  for(Index i1=UpLo==Lower ? j1 : 0;
181  UpLo==Lower ? i1<actualBlockSize : i1<=j1; ++i1)
182  r(i1) += buffer(i1,j1);
183  }
184  }
185 
186  if(UpLo==Lower)
187  {
188  Index i = j+actualBlockSize;
189  gebp_kernel1(res.getSubMapper(i, j), blockA+depth*i, actual_b, size-i,
190  depth, actualBlockSize, alpha, -1, -1, 0, 0);
191  }
192  }
193  }
194 };
195 
196 } // end namespace internal
197 
198 // high level API
199 
200 template<typename MatrixType, typename ProductType, int UpLo, bool IsOuterProduct>
202 
203 
204 template<typename MatrixType, typename ProductType, int UpLo>
206 {
207  static void run(MatrixType& mat, const ProductType& prod, const typename MatrixType::Scalar& alpha, bool beta)
208  {
209  typedef typename MatrixType::Scalar Scalar;
210 
212  typedef internal::blas_traits<Lhs> LhsBlasTraits;
213  typedef typename LhsBlasTraits::DirectLinearAccessType ActualLhs;
214  typedef typename internal::remove_all<ActualLhs>::type _ActualLhs;
215  typename internal::add_const_on_value_type<ActualLhs>::type actualLhs = LhsBlasTraits::extract(prod.lhs());
216 
218  typedef internal::blas_traits<Rhs> RhsBlasTraits;
219  typedef typename RhsBlasTraits::DirectLinearAccessType ActualRhs;
220  typedef typename internal::remove_all<ActualRhs>::type _ActualRhs;
221  typename internal::add_const_on_value_type<ActualRhs>::type actualRhs = RhsBlasTraits::extract(prod.rhs());
222 
223  Scalar actualAlpha = alpha * LhsBlasTraits::extractScalarFactor(prod.lhs().derived()) * RhsBlasTraits::extractScalarFactor(prod.rhs().derived());
224 
225  if(!beta)
226  mat.template triangularView<UpLo>().setZero();
227 
228  enum {
230  UseLhsDirectly = _ActualLhs::InnerStrideAtCompileTime==1,
231  UseRhsDirectly = _ActualRhs::InnerStrideAtCompileTime==1
232  };
233 
235  ei_declare_aligned_stack_constructed_variable(Scalar, actualLhsPtr, actualLhs.size(),
236  (UseLhsDirectly ? const_cast<Scalar*>(actualLhs.data()) : static_lhs.data()));
237  if(!UseLhsDirectly) Map<typename _ActualLhs::PlainObject>(actualLhsPtr, actualLhs.size()) = actualLhs;
238 
240  ei_declare_aligned_stack_constructed_variable(Scalar, actualRhsPtr, actualRhs.size(),
241  (UseRhsDirectly ? const_cast<Scalar*>(actualRhs.data()) : static_rhs.data()));
242  if(!UseRhsDirectly) Map<typename _ActualRhs::PlainObject>(actualRhsPtr, actualRhs.size()) = actualRhs;
243 
244 
245  selfadjoint_rank1_update<Scalar,Index,StorageOrder,UpLo,
246  LhsBlasTraits::NeedToConjugate && NumTraits<Scalar>::IsComplex,
247  RhsBlasTraits::NeedToConjugate && NumTraits<Scalar>::IsComplex>
248  ::run(actualLhs.size(), mat.data(), mat.outerStride(), actualLhsPtr, actualRhsPtr, actualAlpha);
249  }
250 };
251 
252 template<typename MatrixType, typename ProductType, int UpLo>
254 {
255  static void run(MatrixType& mat, const ProductType& prod, const typename MatrixType::Scalar& alpha, bool beta)
256  {
258  typedef internal::blas_traits<Lhs> LhsBlasTraits;
259  typedef typename LhsBlasTraits::DirectLinearAccessType ActualLhs;
260  typedef typename internal::remove_all<ActualLhs>::type _ActualLhs;
261  typename internal::add_const_on_value_type<ActualLhs>::type actualLhs = LhsBlasTraits::extract(prod.lhs());
262 
264  typedef internal::blas_traits<Rhs> RhsBlasTraits;
265  typedef typename RhsBlasTraits::DirectLinearAccessType ActualRhs;
266  typedef typename internal::remove_all<ActualRhs>::type _ActualRhs;
267  typename internal::add_const_on_value_type<ActualRhs>::type actualRhs = RhsBlasTraits::extract(prod.rhs());
268 
269  typename ProductType::Scalar actualAlpha = alpha * LhsBlasTraits::extractScalarFactor(prod.lhs().derived()) * RhsBlasTraits::extractScalarFactor(prod.rhs().derived());
270 
271  if(!beta)
272  mat.template triangularView<UpLo>().setZero();
273 
274  enum {
275  IsRowMajor = (internal::traits<MatrixType>::Flags&RowMajorBit) ? 1 : 0,
276  LhsIsRowMajor = _ActualLhs::Flags&RowMajorBit ? 1 : 0,
277  RhsIsRowMajor = _ActualRhs::Flags&RowMajorBit ? 1 : 0,
278  SkipDiag = (UpLo&(UnitDiag|ZeroDiag))!=0
279  };
280 
281  Index size = mat.cols();
282  if(SkipDiag)
283  size--;
284  Index depth = actualLhs.cols();
285 
286  typedef internal::gemm_blocking_space<IsRowMajor ? RowMajor : ColMajor,typename Lhs::Scalar,typename Rhs::Scalar,
287  MatrixType::MaxColsAtCompileTime, MatrixType::MaxColsAtCompileTime, _ActualRhs::MaxColsAtCompileTime> BlockingType;
288 
289  BlockingType blocking(size, size, depth, 1, false);
290 
292  typename Lhs::Scalar, LhsIsRowMajor ? RowMajor : ColMajor, LhsBlasTraits::NeedToConjugate,
293  typename Rhs::Scalar, RhsIsRowMajor ? RowMajor : ColMajor, RhsBlasTraits::NeedToConjugate,
294  IsRowMajor ? RowMajor : ColMajor, MatrixType::InnerStrideAtCompileTime, UpLo&(Lower|Upper)>
295  ::run(size, depth,
296  &actualLhs.coeffRef(SkipDiag&&(UpLo&Lower)==Lower ? 1 : 0,0), actualLhs.outerStride(),
297  &actualRhs.coeffRef(0,SkipDiag&&(UpLo&Upper)==Upper ? 1 : 0), actualRhs.outerStride(),
298  mat.data() + (SkipDiag ? (bool(IsRowMajor) != ((UpLo&Lower)==Lower) ? mat.innerStride() : mat.outerStride() ) : 0),
299  mat.innerStride(), mat.outerStride(), actualAlpha, blocking);
300  }
301 };
302 
303 template<typename MatrixType, unsigned int UpLo>
304 template<typename ProductType>
305 EIGEN_DEVICE_FUNC TriangularView<MatrixType,UpLo>& TriangularViewImpl<MatrixType,UpLo,Dense>::_assignProduct(const ProductType& prod, const Scalar& alpha, bool beta)
306 {
307  EIGEN_STATIC_ASSERT((UpLo&UnitDiag)==0, WRITING_TO_TRIANGULAR_PART_WITH_UNIT_DIAGONAL_IS_NOT_SUPPORTED);
308  eigen_assert(derived().nestedExpression().rows() == prod.rows() && derived().cols() == prod.cols());
309 
310  general_product_to_triangular_selector<MatrixType, ProductType, UpLo, internal::traits<ProductType>::InnerSize==1>::run(derived().nestedExpression().const_cast_derived(), prod, alpha, beta);
311 
312  return derived();
313 }
314 
315 } // end namespace Eigen
316 
317 #endif // EIGEN_GENERAL_MATRIX_MATRIX_TRIANGULAR_H
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Index mc() const
Definition: GeneralMatrixMatrix.h:270
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@ Lhs
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Namespace containing all symbols from the Eigen library.
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