/* ========================================================================== */
/* === umfpack_qsymbolic ==================================================== */
/* ========================================================================== */
/* -------------------------------------------------------------------------- */
/* Copyright (c) 2005-2012 by Timothy A. Davis, http://www.suitesparse.com. */
/* All Rights Reserved. See ../Doc/License.txt for License. */
/* -------------------------------------------------------------------------- */
int umfpack_di_qsymbolic
(
int n_row,
int n_col,
const int Ap [ ],
const int Ai [ ],
const double Ax [ ],
const int Qinit [ ],
void **Symbolic,
const double Control [UMFPACK_CONTROL],
double Info [UMFPACK_INFO]
) ;
SuiteSparse_long umfpack_dl_qsymbolic
(
SuiteSparse_long n_row,
SuiteSparse_long n_col,
const SuiteSparse_long Ap [ ],
const SuiteSparse_long Ai [ ],
const double Ax [ ],
const SuiteSparse_long Qinit [ ],
void **Symbolic,
const double Control [UMFPACK_CONTROL],
double Info [UMFPACK_INFO]
) ;
int umfpack_zi_qsymbolic
(
int n_row,
int n_col,
const int Ap [ ],
const int Ai [ ],
const double Ax [ ], const double Az [ ],
const int Qinit [ ],
void **Symbolic,
const double Control [UMFPACK_CONTROL],
double Info [UMFPACK_INFO]
) ;
SuiteSparse_long umfpack_zl_qsymbolic
(
SuiteSparse_long n_row,
SuiteSparse_long n_col,
const SuiteSparse_long Ap [ ],
const SuiteSparse_long Ai [ ],
const double Ax [ ], const double Az [ ],
const SuiteSparse_long Qinit [ ],
void **Symbolic,
const double Control [UMFPACK_CONTROL],
double Info [UMFPACK_INFO]
) ;
int umfpack_di_fsymbolic
(
int n_row,
int n_col,
const int Ap [ ],
const int Ai [ ],
const double Ax [ ],
int (*user_ordering) ( int, int, int, int *, int *, int *, void *, double *),
void *user_params,
void **Symbolic,
const double Control [UMFPACK_CONTROL],
double Info [UMFPACK_INFO]
) ;
SuiteSparse_long umfpack_dl_fsymbolic
(
SuiteSparse_long n_row,
SuiteSparse_long n_col,
const SuiteSparse_long Ap [ ],
const SuiteSparse_long Ai [ ],
const double Ax [ ],
int (*user_ordering) (SuiteSparse_long, SuiteSparse_long, SuiteSparse_long,
SuiteSparse_long *, SuiteSparse_long *, SuiteSparse_long *, void *,
double *),
void *user_params,
void **Symbolic,
const double Control [UMFPACK_CONTROL],
double Info [UMFPACK_INFO]
) ;
int umfpack_zi_fsymbolic
(
int n_row,
int n_col,
const int Ap [ ],
const int Ai [ ],
const double Ax [ ], const double Az [ ],
int (*user_ordering) (int, int, int, int *, int *, int *, void *, double *),
void *user_params,
void **Symbolic,
const double Control [UMFPACK_CONTROL],
double Info [UMFPACK_INFO]
) ;
SuiteSparse_long umfpack_zl_fsymbolic
(
SuiteSparse_long n_row,
SuiteSparse_long n_col,
const SuiteSparse_long Ap [ ],
const SuiteSparse_long Ai [ ],
const double Ax [ ], const double Az [ ],
int (*user_ordering) (SuiteSparse_long, SuiteSparse_long, SuiteSparse_long,
SuiteSparse_long *, SuiteSparse_long *, SuiteSparse_long *, void *,
double *),
void *user_params,
void **Symbolic,
const double Control [UMFPACK_CONTROL],
double Info [UMFPACK_INFO]
) ;
/*
double int Syntax:
#include "umfpack.h"
void *Symbolic ;
int n_row, n_col, *Ap, *Ai, *Qinit, status ;
double Control [UMFPACK_CONTROL], Info [UMFPACK_INFO], *Ax ;
status = umfpack_di_qsymbolic (n_row, n_col, Ap, Ai, Ax, Qinit,
&Symbolic, Control, Info) ;
double SuiteSparse_long Syntax:
#include "umfpack.h"
void *Symbolic ;
SuiteSparse_long n_row, n_col, *Ap, *Ai, *Qinit, status ;
double Control [UMFPACK_CONTROL], Info [UMFPACK_INFO], *Ax ;
status = umfpack_dl_qsymbolic (n_row, n_col, Ap, Ai, Ax, Qinit,
&Symbolic, Control, Info) ;
complex int Syntax:
#include "umfpack.h"
void *Symbolic ;
int n_row, n_col, *Ap, *Ai, *Qinit, status ;
double Control [UMFPACK_CONTROL], Info [UMFPACK_INFO], *Ax, *Az ;
status = umfpack_zi_qsymbolic (n_row, n_col, Ap, Ai, Ax, Az, Qinit,
&Symbolic, Control, Info) ;
complex SuiteSparse_long Syntax:
#include "umfpack.h"
void *Symbolic ;
SuiteSparse_long n_row, n_col, *Ap, *Ai, *Qinit, status ;
double Control [UMFPACK_CONTROL], Info [UMFPACK_INFO], *Ax, *Az ;
status = umfpack_zl_qsymbolic (n_row, n_col, Ap, Ai, Ax, Az, Qinit,
&Symbolic, Control, Info) ;
packed complex Syntax:
Same as above, except Az is NULL.
Purpose:
Given the nonzero pattern of a sparse matrix A in column-oriented form, and
a sparsity preserving column pre-ordering Qinit, umfpack_*_qsymbolic
performs the symbolic factorization of A*Qinit (or A (:,Qinit) in MATLAB
notation). This is identical to umfpack_*_symbolic, except that neither
COLAMD nor AMD are called and the user input column order Qinit is used
instead. Note that in general, the Qinit passed to umfpack_*_qsymbolic
can differ from the final Q found in umfpack_*_numeric. The unsymmetric
strategy will perform a column etree postordering done in
umfpack_*_qsymbolic and sparsity-preserving modifications are made within
each frontal matrix during umfpack_*_numeric. The symmetric
strategy will preserve Qinit, unless the matrix is structurally singular.
See umfpack_*_symbolic for more information. Note that Ax and Ax are
optional. The may be NULL.
*** WARNING *** A poor choice of Qinit can easily cause umfpack_*_numeric
to use a huge amount of memory and do a lot of work. The "default" symbolic
analysis method is umfpack_*_symbolic, not this routine. If you use this
routine, the performance of UMFPACK is your responsibility; UMFPACK will
not try to second-guess a poor choice of Qinit.
Returns:
The value of Info [UMFPACK_STATUS]; see umfpack_*_symbolic.
Also returns UMFPACK_ERROR_invalid_permuation if Qinit is not a valid
permutation vector.
Arguments:
All arguments are the same as umfpack_*_symbolic, except for the following:
Int Qinit [n_col] ; Input argument, not modified.
The user's fill-reducing initial column pre-ordering. This must be a
permutation of 0..n_col-1. If Qinit [k] = j, then column j is the kth
column of the matrix A (:,Qinit) to be factorized. If Qinit is an
(Int *) NULL pointer, then COLAMD or AMD are called instead.
double Control [UMFPACK_CONTROL] ; Input argument, not modified.
If Qinit is not NULL, then only two strategies are recognized:
the unsymmetric strategy and the symmetric strategy.
If Control [UMFPACK_STRATEGY] is UMFPACK_STRATEGY_SYMMETRIC,
then the symmetric strategy is used. Otherwise the unsymmetric
strategy is used.
The umfpack_*_fsymbolic functions are identical to their umfpack_*_qsymbolic
functions, except that Qinit is replaced with a pointer to an ordering
function (user_ordering), and a pointer to an extra input that is passed
to the user_ordering (user_params). The arguments have the following syntax:
int (*user_ordering) // TRUE if OK, FALSE otherwise
(
// inputs, not modified on output
int, // nrow
int, // ncol
int, // sym: if TRUE and nrow==ncol do A+A', else do A'A
int *, // Ap, size ncol+1
int *, // Ai, size nz
// output
int *, // size ncol, fill-reducing permutation
// input/output
void *, // user_params (ignored by UMFPACK)
double * // user_info[0..2], optional output for symmetric case.
// user_info[0]: max column count for L=chol(A+A')
// user_info[1]: nnz (L)
// user_info[2]: flop count for chol(A+A'), if A real
),
void *user_params, // passed to user_ordering function
*/