MFEM
v4.5.1
Finite element discretization library
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Go to the source code of this file.
Namespaces | |
mfem | |
Functions | |
void | mfem::SparseMatrixFunction (SparseMatrix &S, double(*f)(double)) |
Applies f() to each element of the matrix (after it is finalized). More... | |
SparseMatrix * | mfem::Transpose (const SparseMatrix &A) |
Transpose of a sparse matrix. A must be finalized. More... | |
SparseMatrix * | mfem::TransposeAbstractSparseMatrix (const AbstractSparseMatrix &A, int useActualWidth) |
Transpose of a sparse matrix. A does not need to be a CSR matrix. More... | |
SparseMatrix * | mfem::Mult (const SparseMatrix &A, const SparseMatrix &B, SparseMatrix *OAB=NULL) |
Matrix product A.B. More... | |
SparseMatrix * | mfem::TransposeMult (const SparseMatrix &A, const SparseMatrix &B) |
C = A^T B. More... | |
SparseMatrix * | mfem::MultAbstractSparseMatrix (const AbstractSparseMatrix &A, const AbstractSparseMatrix &B) |
Matrix product of sparse matrices. A and B do not need to be CSR matrices. More... | |
DenseMatrix * | mfem::Mult (const SparseMatrix &A, DenseMatrix &B) |
Matrix product A.B. More... | |
DenseMatrix * | mfem::RAP (const SparseMatrix &A, DenseMatrix &P) |
RAP matrix product (with R=P^T) More... | |
DenseMatrix * | mfem::RAP (DenseMatrix &A, const SparseMatrix &P) |
RAP matrix product (with R=P^T) More... | |
SparseMatrix * | mfem::RAP (const SparseMatrix &A, const SparseMatrix &R, SparseMatrix *ORAP) |
SparseMatrix * | mfem::RAP (const SparseMatrix &Rt, const SparseMatrix &A, const SparseMatrix &P) |
General RAP with given R^T, A and P. More... | |
SparseMatrix * | mfem::Mult_AtDA (const SparseMatrix &A, const Vector &D, SparseMatrix *OAtDA=NULL) |
Matrix multiplication A^t D A. All matrices must be finalized. More... | |
SparseMatrix * | mfem::Add (double a, const SparseMatrix &A, double b, const SparseMatrix &B) |
Matrix addition result = a*A + b*B. More... | |
SparseMatrix * | mfem::Add (const SparseMatrix &A, const SparseMatrix &B) |
Matrix addition result = A + B. More... | |
SparseMatrix * | mfem::Add (Array< SparseMatrix * > &Ai) |
Matrix addition result = sum_i A_i. More... | |
void | mfem::Add (const SparseMatrix &A, double alpha, DenseMatrix &B) |
B += alpha * A. More... | |
DenseMatrix * | mfem::OuterProduct (const DenseMatrix &A, const DenseMatrix &B) |
Produces a block matrix with blocks A_{ij}*B. More... | |
SparseMatrix * | mfem::OuterProduct (const DenseMatrix &A, const SparseMatrix &B) |
Produces a block matrix with blocks A_{ij}*B. More... | |
SparseMatrix * | mfem::OuterProduct (const SparseMatrix &A, const DenseMatrix &B) |
Produces a block matrix with blocks A_{ij}*B. More... | |
SparseMatrix * | mfem::OuterProduct (const SparseMatrix &A, const SparseMatrix &B) |
Produces a block matrix with blocks A_{ij}*B. More... | |