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00010 #ifndef EIGEN_CONSERVATIVESPARSESPARSEPRODUCT_H
00011 #define EIGEN_CONSERVATIVESPARSESPARSEPRODUCT_H
00012
00013 namespace Eigen {
00014
00015 namespace internal {
00016
00017 template<typename Lhs, typename Rhs, typename ResultType>
00018 static void conservative_sparse_sparse_product_impl(const Lhs& lhs, const Rhs& rhs, ResultType& res)
00019 {
00020 typedef typename remove_all<Lhs>::type::Scalar Scalar;
00021 typedef typename remove_all<Lhs>::type::Index Index;
00022
00023
00024 Index rows = lhs.innerSize();
00025 Index cols = rhs.outerSize();
00026 eigen_assert(lhs.outerSize() == rhs.innerSize());
00027
00028 std::vector<bool> mask(rows,false);
00029 Matrix<Scalar,Dynamic,1> values(rows);
00030 Matrix<Index,Dynamic,1> indices(rows);
00031
00032
00033
00034
00035
00036
00037
00038 Index estimated_nnz_prod = lhs.nonZeros() + rhs.nonZeros();
00039
00040 res.setZero();
00041 res.reserve(Index(estimated_nnz_prod));
00042
00043 for (Index j=0; j<cols; ++j)
00044 {
00045
00046 res.startVec(j);
00047 Index nnz = 0;
00048 for (typename Rhs::InnerIterator rhsIt(rhs, j); rhsIt; ++rhsIt)
00049 {
00050 Scalar y = rhsIt.value();
00051 Index k = rhsIt.index();
00052 for (typename Lhs::InnerIterator lhsIt(lhs, k); lhsIt; ++lhsIt)
00053 {
00054 Index i = lhsIt.index();
00055 Scalar x = lhsIt.value();
00056 if(!mask[i])
00057 {
00058 mask[i] = true;
00059 values[i] = x * y;
00060 indices[nnz] = i;
00061 ++nnz;
00062 }
00063 else
00064 values[i] += x * y;
00065 }
00066 }
00067
00068
00069 for(int k=0; k<nnz; ++k)
00070 {
00071 int i = indices[k];
00072 res.insertBackByOuterInnerUnordered(j,i) = values[i];
00073 mask[i] = false;
00074 }
00075
00076 #if 0
00077
00078
00079 int t200 = rows/(log2(200)*1.39);
00080 int t = (rows*100)/139;
00081
00082
00083
00084
00085
00086
00087
00088
00089
00090 if(true)
00091 {
00092 if(nnz>1) std::sort(indices.data(),indices.data()+nnz);
00093 for(int k=0; k<nnz; ++k)
00094 {
00095 int i = indices[k];
00096 res.insertBackByOuterInner(j,i) = values[i];
00097 mask[i] = false;
00098 }
00099 }
00100 else
00101 {
00102
00103 for(int i=0; i<rows; ++i)
00104 {
00105 if(mask[i])
00106 {
00107 mask[i] = false;
00108 res.insertBackByOuterInner(j,i) = values[i];
00109 }
00110 }
00111 }
00112 #endif
00113
00114 }
00115 res.finalize();
00116 }
00117
00118
00119 }
00120
00121 namespace internal {
00122
00123 template<typename Lhs, typename Rhs, typename ResultType,
00124 int LhsStorageOrder = (traits<Lhs>::Flags&RowMajorBit) ? RowMajor : ColMajor,
00125 int RhsStorageOrder = (traits<Rhs>::Flags&RowMajorBit) ? RowMajor : ColMajor,
00126 int ResStorageOrder = (traits<ResultType>::Flags&RowMajorBit) ? RowMajor : ColMajor>
00127 struct conservative_sparse_sparse_product_selector;
00128
00129 template<typename Lhs, typename Rhs, typename ResultType>
00130 struct conservative_sparse_sparse_product_selector<Lhs,Rhs,ResultType,ColMajor,ColMajor,ColMajor>
00131 {
00132 typedef typename remove_all<Lhs>::type LhsCleaned;
00133 typedef typename LhsCleaned::Scalar Scalar;
00134
00135 static void run(const Lhs& lhs, const Rhs& rhs, ResultType& res)
00136 {
00137 typedef SparseMatrix<typename ResultType::Scalar,RowMajor> RowMajorMatrix;
00138 typedef SparseMatrix<typename ResultType::Scalar,ColMajor> ColMajorMatrix;
00139 ColMajorMatrix resCol(lhs.rows(),rhs.cols());
00140 internal::conservative_sparse_sparse_product_impl<Lhs,Rhs,ColMajorMatrix>(lhs, rhs, resCol);
00141
00142 RowMajorMatrix resRow(resCol);
00143 res = resRow;
00144 }
00145 };
00146
00147 template<typename Lhs, typename Rhs, typename ResultType>
00148 struct conservative_sparse_sparse_product_selector<Lhs,Rhs,ResultType,RowMajor,ColMajor,ColMajor>
00149 {
00150 static void run(const Lhs& lhs, const Rhs& rhs, ResultType& res)
00151 {
00152 typedef SparseMatrix<typename ResultType::Scalar,RowMajor> RowMajorMatrix;
00153 RowMajorMatrix rhsRow = rhs;
00154 RowMajorMatrix resRow(lhs.rows(), rhs.cols());
00155 internal::conservative_sparse_sparse_product_impl<RowMajorMatrix,Lhs,RowMajorMatrix>(rhsRow, lhs, resRow);
00156 res = resRow;
00157 }
00158 };
00159
00160 template<typename Lhs, typename Rhs, typename ResultType>
00161 struct conservative_sparse_sparse_product_selector<Lhs,Rhs,ResultType,ColMajor,RowMajor,ColMajor>
00162 {
00163 static void run(const Lhs& lhs, const Rhs& rhs, ResultType& res)
00164 {
00165 typedef SparseMatrix<typename ResultType::Scalar,RowMajor> RowMajorMatrix;
00166 RowMajorMatrix lhsRow = lhs;
00167 RowMajorMatrix resRow(lhs.rows(), rhs.cols());
00168 internal::conservative_sparse_sparse_product_impl<Rhs,RowMajorMatrix,RowMajorMatrix>(rhs, lhsRow, resRow);
00169 res = resRow;
00170 }
00171 };
00172
00173 template<typename Lhs, typename Rhs, typename ResultType>
00174 struct conservative_sparse_sparse_product_selector<Lhs,Rhs,ResultType,RowMajor,RowMajor,ColMajor>
00175 {
00176 static void run(const Lhs& lhs, const Rhs& rhs, ResultType& res)
00177 {
00178 typedef SparseMatrix<typename ResultType::Scalar,RowMajor> RowMajorMatrix;
00179 RowMajorMatrix resRow(lhs.rows(), rhs.cols());
00180 internal::conservative_sparse_sparse_product_impl<Rhs,Lhs,RowMajorMatrix>(rhs, lhs, resRow);
00181 res = resRow;
00182 }
00183 };
00184
00185
00186 template<typename Lhs, typename Rhs, typename ResultType>
00187 struct conservative_sparse_sparse_product_selector<Lhs,Rhs,ResultType,ColMajor,ColMajor,RowMajor>
00188 {
00189 typedef typename traits<typename remove_all<Lhs>::type>::Scalar Scalar;
00190
00191 static void run(const Lhs& lhs, const Rhs& rhs, ResultType& res)
00192 {
00193 typedef SparseMatrix<typename ResultType::Scalar,ColMajor> ColMajorMatrix;
00194 ColMajorMatrix resCol(lhs.rows(), rhs.cols());
00195 internal::conservative_sparse_sparse_product_impl<Lhs,Rhs,ColMajorMatrix>(lhs, rhs, resCol);
00196 res = resCol;
00197 }
00198 };
00199
00200 template<typename Lhs, typename Rhs, typename ResultType>
00201 struct conservative_sparse_sparse_product_selector<Lhs,Rhs,ResultType,RowMajor,ColMajor,RowMajor>
00202 {
00203 static void run(const Lhs& lhs, const Rhs& rhs, ResultType& res)
00204 {
00205 typedef SparseMatrix<typename ResultType::Scalar,ColMajor> ColMajorMatrix;
00206 ColMajorMatrix lhsCol = lhs;
00207 ColMajorMatrix resCol(lhs.rows(), rhs.cols());
00208 internal::conservative_sparse_sparse_product_impl<ColMajorMatrix,Rhs,ColMajorMatrix>(lhsCol, rhs, resCol);
00209 res = resCol;
00210 }
00211 };
00212
00213 template<typename Lhs, typename Rhs, typename ResultType>
00214 struct conservative_sparse_sparse_product_selector<Lhs,Rhs,ResultType,ColMajor,RowMajor,RowMajor>
00215 {
00216 static void run(const Lhs& lhs, const Rhs& rhs, ResultType& res)
00217 {
00218 typedef SparseMatrix<typename ResultType::Scalar,ColMajor> ColMajorMatrix;
00219 ColMajorMatrix rhsCol = rhs;
00220 ColMajorMatrix resCol(lhs.rows(), rhs.cols());
00221 internal::conservative_sparse_sparse_product_impl<Lhs,ColMajorMatrix,ColMajorMatrix>(lhs, rhsCol, resCol);
00222 res = resCol;
00223 }
00224 };
00225
00226 template<typename Lhs, typename Rhs, typename ResultType>
00227 struct conservative_sparse_sparse_product_selector<Lhs,Rhs,ResultType,RowMajor,RowMajor,RowMajor>
00228 {
00229 static void run(const Lhs& lhs, const Rhs& rhs, ResultType& res)
00230 {
00231 typedef SparseMatrix<typename ResultType::Scalar,RowMajor> RowMajorMatrix;
00232 typedef SparseMatrix<typename ResultType::Scalar,ColMajor> ColMajorMatrix;
00233 RowMajorMatrix resRow(lhs.rows(),rhs.cols());
00234 internal::conservative_sparse_sparse_product_impl<Rhs,Lhs,RowMajorMatrix>(rhs, lhs, resRow);
00235
00236 ColMajorMatrix resCol(resRow);
00237 res = resCol;
00238 }
00239 };
00240
00241 }
00242
00243 }
00244
00245 #endif // EIGEN_CONSERVATIVESPARSESPARSEPRODUCT_H