+// This file is part of Eigen, a lightweight C++ template library

+// for linear algebra.

+//

+// Copyright (C) 2012 Désiré Nuentsa-Wakam <desire.nuentsa_wakam@inria.fr>

+// Copyright (C) 2012 Gael Guennebaud <gael.guennebaud@inria.fr>

+//

+// This Source Code Form is subject to the terms of the Mozilla

+// Public License v. 2.0. If a copy of the MPL was not distributed

+// with this file, You can obtain one at http://mozilla.org/MPL/2.0/.

+

+#ifndef SPARSELU_KERNEL_BMOD_H

+#define SPARSELU_KERNEL_BMOD_H

+

+namespace Eigen {

+namespace internal {

+

+/**

+ * \brief Performs numeric block updates from a given supernode to a single column

+ *

+ * \param segsize Size of the segment (and blocks ) to use for updates

+ * \param[in,out] dense Packed values of the original matrix

+ * \param tempv temporary vector to use for updates

+ * \param lusup array containing the supernodes

+ * \param lda Leading dimension in the supernode

+ * \param nrow Number of rows in the rectangular part of the supernode

+ * \param lsub compressed row subscripts of supernodes

+ * \param lptr pointer to the first column of the current supernode in lsub

+ * \param no_zeros Number of nonzeros elements before the diagonal part of the supernode

+ * \return 0 on success

+ */

+template <int SegSizeAtCompileTime> struct LU_kernel_bmod

+{

+ template <typename BlockScalarVector, typename ScalarVector, typename IndexVector, typename Index>

+ static EIGEN_DONT_INLINE void run(const int segsize, BlockScalarVector& dense, ScalarVector& tempv, ScalarVector& lusup, Index& luptr, const Index lda,

+ const Index nrow, IndexVector& lsub, const Index lptr, const Index no_zeros);

+};

+

+template <int SegSizeAtCompileTime>

+template <typename BlockScalarVector, typename ScalarVector, typename IndexVector, typename Index>

+EIGEN_DONT_INLINE void LU_kernel_bmod<SegSizeAtCompileTime>::run(const int segsize, BlockScalarVector& dense, ScalarVector& tempv, ScalarVector& lusup, Index& luptr, const Index lda,

+ const Index nrow, IndexVector& lsub, const Index lptr, const Index no_zeros)

+{

+ typedef typename ScalarVector::Scalar Scalar;

+ // First, copy U[*,j] segment from dense(*) to tempv(*)

+ // The result of triangular solve is in tempv[*];

+ // The result of matric-vector update is in dense[*]

+ Index isub = lptr + no_zeros;

+ int i;

+ Index irow;

+ for (i = 0; i < ((SegSizeAtCompileTime==Dynamic)?segsize:SegSizeAtCompileTime); i++)

+ {

+ irow = lsub(isub);

+ tempv(i) = dense(irow);

+ ++isub;

+ }

+ // Dense triangular solve -- start effective triangle

+ luptr += lda * no_zeros + no_zeros;

+ // Form Eigen matrix and vector

+ Map<Matrix<Scalar,SegSizeAtCompileTime,SegSizeAtCompileTime, ColMajor>, 0, OuterStride<> > A( &(lusup.data()[luptr]), segsize, segsize, OuterStride<>(lda) );

+ Map<Matrix<Scalar,SegSizeAtCompileTime,1> > u(tempv.data(), segsize);

+

+ u = A.template triangularView<UnitLower>().solve(u);

+

+ // Dense matrix-vector product y <-- B*x

+ luptr += segsize;

+ const Index PacketSize = internal::packet_traits<Scalar>::size;

+ Index ldl = internal::first_multiple(nrow, PacketSize);

+ Map<Matrix<Scalar,Dynamic,SegSizeAtCompileTime, ColMajor>, 0, OuterStride<> > B( &(lusup.data()[luptr]), nrow, segsize, OuterStride<>(lda) );

+ Index aligned_offset = internal::first_aligned(tempv.data()+segsize, PacketSize);

+ Index aligned_with_B_offset = (PacketSize-internal::first_aligned(B.data(), PacketSize))%PacketSize;

+ Map<Matrix<Scalar,Dynamic,1>, 0, OuterStride<> > l(tempv.data()+segsize+aligned_offset+aligned_with_B_offset, nrow, OuterStride<>(ldl) );

+

+ l.setZero();

+ internal::sparselu_gemm<Scalar>(l.rows(), l.cols(), B.cols(), B.data(), B.outerStride(), u.data(), u.outerStride(), l.data(), l.outerStride());

+

+ // Scatter tempv[] into SPA dense[] as a temporary storage

+ isub = lptr + no_zeros;

+ for (i = 0; i < ((SegSizeAtCompileTime==Dynamic)?segsize:SegSizeAtCompileTime); i++)

+ {

+ irow = lsub(isub++);

+ dense(irow) = tempv(i);

+ }

+

+ // Scatter l into SPA dense[]

+ for (i = 0; i < nrow; i++)

+ {

+ irow = lsub(isub++);

+ dense(irow) -= l(i);

+ }

+}

+

+template <> struct LU_kernel_bmod<1>

+{

+ template <typename BlockScalarVector, typename ScalarVector, typename IndexVector, typename Index>

+ static EIGEN_DONT_INLINE void run(const int /*segsize*/, BlockScalarVector& dense, ScalarVector& /*tempv*/, ScalarVector& lusup, Index& luptr,

+ const Index lda, const Index nrow, IndexVector& lsub, const Index lptr, const Index no_zeros);

+};

+

+

+template <typename BlockScalarVector, typename ScalarVector, typename IndexVector, typename Index>

+EIGEN_DONT_INLINE void LU_kernel_bmod<1>::run(const int /*segsize*/, BlockScalarVector& dense, ScalarVector& /*tempv*/, ScalarVector& lusup, Index& luptr,

+ const Index lda, const Index nrow, IndexVector& lsub, const Index lptr, const Index no_zeros)

+{

+ typedef typename ScalarVector::Scalar Scalar;

+ Scalar f = dense(lsub(lptr + no_zeros));

+ luptr += lda * no_zeros + no_zeros + 1;

+ const Scalar* a(lusup.data() + luptr);

+ const /*typename IndexVector::Scalar*/Index* irow(lsub.data()+lptr + no_zeros + 1);

+ Index i = 0;

+ for (; i+1 < nrow; i+=2)

+ {

+ Index i0 = *(irow++);

+ Index i1 = *(irow++);

+ Scalar a0 = *(a++);

+ Scalar a1 = *(a++);

+ Scalar d0 = dense.coeff(i0);

+ Scalar d1 = dense.coeff(i1);

+ d0 -= f*a0;

+ d1 -= f*a1;

+ dense.coeffRef(i0) = d0;

+ dense.coeffRef(i1) = d1;

+ }

+ if(i<nrow)

+ dense.coeffRef(*(irow++)) -= f * *(a++);

+}

+

+} // end namespace internal

+

+} // end namespace Eigen

+#endif // SPARSELU_KERNEL_BMOD_H