godbyk/OSVR-Core/SparseLUImpl_8h_source.html

 // 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>
 //
 // 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_IMPL_H
 #define SPARSELU_IMPL_H

 namespace Eigen {
 namespace internal {

 template <typename Scalar, typename Index>
 class SparseLUImpl
 {
   public:
     typedef Matrix<Scalar,Dynamic,1> ScalarVector;
     typedef Matrix<Scalar,Dynamic,Dynamic,ColMajor> ScalarMatrix;
     typedef Map<ScalarMatrix, 0,  OuterStride<> > MappedMatrixBlock;
     typedef Matrix<Index,Dynamic,1> IndexVector;
     typedef typename ScalarVector::RealScalar RealScalar;
     typedef Ref<Matrix<Scalar,Dynamic,1> > BlockScalarVector;
     typedef Ref<Matrix<Index,Dynamic,1> > BlockIndexVector;
     typedef LU_GlobalLU_t<IndexVector, ScalarVector> GlobalLU_t;
     typedef SparseMatrix<Scalar,ColMajor,Index> MatrixType;

   protected:
      template <typename VectorType>
      Index expand(VectorType& vec, Index& length, Index nbElts, Index keep_prev, Index& num_expansions);
      Index memInit(Index m, Index n, Index annz, Index lwork, Index fillratio, Index panel_size,  GlobalLU_t& glu);
      template <typename VectorType>
      Index memXpand(VectorType& vec, Index& maxlen, Index nbElts, MemType memtype, Index& num_expansions);
      void heap_relax_snode (const Index n, IndexVector& et, const Index relax_columns, IndexVector& descendants, IndexVector& relax_end);
      void relax_snode (const Index n, IndexVector& et, const Index relax_columns, IndexVector& descendants, IndexVector& relax_end);
      Index snode_dfs(const Index jcol, const Index kcol,const MatrixType& mat,  IndexVector& xprune, IndexVector& marker, GlobalLU_t& glu);
      Index snode_bmod (const Index jcol, const Index fsupc, ScalarVector& dense, GlobalLU_t& glu);
      Index pivotL(const Index jcol, const RealScalar& diagpivotthresh, IndexVector& perm_r, IndexVector& iperm_c, Index& pivrow, GlobalLU_t& glu);
      template <typename Traits>
      void dfs_kernel(const Index jj, IndexVector& perm_r,
                     Index& nseg, IndexVector& panel_lsub, IndexVector& segrep,
                     Ref<IndexVector> repfnz_col, IndexVector& xprune, Ref<IndexVector> marker, IndexVector& parent,
                     IndexVector& xplore, GlobalLU_t& glu, Index& nextl_col, Index krow, Traits& traits);
      void panel_dfs(const Index m, const Index w, const Index jcol, MatrixType& A, IndexVector& perm_r, Index& nseg, ScalarVector& dense, IndexVector& panel_lsub, IndexVector& segrep, IndexVector& repfnz, IndexVector& xprune, IndexVector& marker, IndexVector& parent, IndexVector& xplore, GlobalLU_t& glu);

      void panel_bmod(const Index m, const Index w, const Index jcol, const Index nseg, ScalarVector& dense, ScalarVector& tempv, IndexVector& segrep, IndexVector& repfnz, GlobalLU_t& glu);
      Index column_dfs(const Index m, const Index jcol, IndexVector& perm_r, Index maxsuper, Index& nseg,  BlockIndexVector lsub_col, IndexVector& segrep, BlockIndexVector repfnz, IndexVector& xprune, IndexVector& marker, IndexVector& parent, IndexVector& xplore, GlobalLU_t& glu);
      Index column_bmod(const Index jcol, const Index nseg, BlockScalarVector dense, ScalarVector& tempv, BlockIndexVector segrep, BlockIndexVector repfnz, Index fpanelc, GlobalLU_t& glu);
      Index copy_to_ucol(const Index jcol, const Index nseg, IndexVector& segrep, BlockIndexVector repfnz ,IndexVector& perm_r, BlockScalarVector dense, GlobalLU_t& glu);
      void pruneL(const Index jcol, const IndexVector& perm_r, const Index pivrow, const Index nseg, const IndexVector& segrep, BlockIndexVector repfnz, IndexVector& xprune, GlobalLU_t& glu);
      void countnz(const Index n, Index& nnzL, Index& nnzU, GlobalLU_t& glu);
      void fixupL(const Index n, const IndexVector& perm_r, GlobalLU_t& glu);

      template<typename , typename >
      friend struct column_dfs_traits;
 };

 } // end namespace internal
 } // namespace Eigen

 #endif
Eigen::internal::SparseLUImpl::column_bmod
Index column_bmod(const Index jcol, const Index nseg, BlockScalarVector dense, ScalarVector &tempv, BlockIndexVector segrep, BlockIndexVector repfnz, Index fpanelc, GlobalLU_t &glu)
Performs numeric block updates (sup-col) in topological order.
Definition: SparseLU_column_bmod.h:53

Eigen::SparseMatrix< Scalar, ColMajor, Index >

Eigen::Map
A matrix or vector expression mapping an existing array of data.
Definition: Map.h:104

Eigen::internal::SparseLUImpl::copy_to_ucol
Index copy_to_ucol(const Index jcol, const Index nseg, IndexVector &segrep, BlockIndexVector repfnz, IndexVector &perm_r, BlockScalarVector dense, GlobalLU_t &glu)
Performs numeric block updates (sup-col) in topological order.
Definition: SparseLU_copy_to_ucol.h:50

Eigen
iterative scaling algorithm to equilibrate rows and column norms in matrices
Definition: TestIMU_Common.h:87

Eigen::internal::SparseLUImpl::fixupL
void fixupL(const Index n, const IndexVector &perm_r, GlobalLU_t &glu)
Fix up the data storage lsub for L-subscripts.
Definition: SparseLU_Utils.h:52

osvr::typepack::length
size< coerce_list< Ts... >> length
Synonym for typepack::size.
Definition: Size.h:59

VectorType
Definition: FFTW.cpp:65

Eigen::internal::SparseLUImpl::column_dfs
Index column_dfs(const Index m, const Index jcol, IndexVector &perm_r, Index maxsuper, Index &nseg, BlockIndexVector lsub_col, IndexVector &segrep, BlockIndexVector repfnz, IndexVector &xprune, IndexVector &marker, IndexVector &parent, IndexVector &xplore, GlobalLU_t &glu)
Performs a symbolic factorization on column jcol and decide the supernode boundary.
Definition: SparseLU_column_dfs.h:93

Eigen::internal::SparseLUImpl::panel_bmod
void panel_bmod(const Index m, const Index w, const Index jcol, const Index nseg, ScalarVector &dense, ScalarVector &tempv, IndexVector &segrep, IndexVector &repfnz, GlobalLU_t &glu)
Performs numeric block updates (sup-panel) in topological order.
Definition: SparseLU_panel_bmod.h:56

Eigen::internal::SparseLUImpl::pruneL
void pruneL(const Index jcol, const IndexVector &perm_r, const Index pivrow, const Index nseg, const IndexVector &segrep, BlockIndexVector repfnz, IndexVector &xprune, GlobalLU_t &glu)
Prunes the L-structure.
Definition: SparseLU_pruneL.h:53

Eigen::internal::LU_GlobalLU_t
Definition: SparseLU_Structs.h:77

Eigen::internal::column_dfs_traits
Definition: SparseLU_column_dfs.h:39

Eigen::internal::SparseLUImpl::memXpand
Index memXpand(VectorType &vec, Index &maxlen, Index nbElts, MemType memtype, Index &num_expansions)
Expand the existing storage.
Definition: SparseLU_Memory.h:210

Eigen::internal::SparseLUImpl::relax_snode
void relax_snode(const Index n, IndexVector &et, const Index relax_columns, IndexVector &descendants, IndexVector &relax_end)
Identify the initial relaxed supernodes.
Definition: SparseLU_relax_snode.h:47

Eigen::Ref
A matrix or vector expression mapping an existing expressions.
Definition: Ref.h:17

Eigen::internal::SparseLUImpl
Base class for sparseLU.
Definition: SparseLUImpl.h:20

internal
Definition: BandTriangularSolver.h:13

Eigen::internal::SparseLUImpl::panel_dfs
void panel_dfs(const Index m, const Index w, const Index jcol, MatrixType &A, IndexVector &perm_r, Index &nseg, ScalarVector &dense, IndexVector &panel_lsub, IndexVector &segrep, IndexVector &repfnz, IndexVector &xprune, IndexVector &marker, IndexVector &parent, IndexVector &xplore, GlobalLU_t &glu)
Performs a symbolic factorization on a panel of columns [jcol, jcol+w)
Definition: SparseLU_panel_dfs.h:219

Eigen::internal::SparseLUImpl::pivotL
Index pivotL(const Index jcol, const RealScalar &diagpivotthresh, IndexVector &perm_r, IndexVector &iperm_c, Index &pivrow, GlobalLU_t &glu)
Performs the numerical pivotin on the current column of L, and the CDIV operation.
Definition: SparseLU_pivotL.h:60

Eigen::internal::SparseLUImpl::countnz
void countnz(const Index n, Index &nnzL, Index &nnzU, GlobalLU_t &glu)
Count Nonzero elements in the factors.
Definition: SparseLU_Utils.h:21

Eigen::Matrix< Scalar, Dynamic, 1 >

Eigen::internal::SparseLUImpl::expand
Index expand(VectorType &vec, Index &length, Index nbElts, Index keep_prev, Index &num_expansions)
Expand the existing storage to accomodate more fill-ins.
Definition: SparseLU_Memory.h:64

Eigen::internal::traits
Definition: ForwardDeclarations.h:17

Eigen::internal::SparseLUImpl::memInit
Index memInit(Index m, Index n, Index annz, Index lwork, Index fillratio, Index panel_size, GlobalLU_t &glu)
Allocate various working space for the numerical factorization phase.
Definition: SparseLU_Memory.h:152

Eigen::internal::SparseLUImpl::heap_relax_snode
void heap_relax_snode(const Index n, IndexVector &et, const Index relax_columns, IndexVector &descendants, IndexVector &relax_end)
Identify the initial relaxed supernodes.
Definition: SparseLU_heap_relax_snode.h:46