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#include "cs_mex.h"
/* cs_symperm: symmetric permutation of a symmetric sparse matrix. */
void mexFunction
(
int nargout,
mxArray *pargout [ ],
int nargin,
const mxArray *pargin [ ]
)
{
CS_INT ignore, n, *P, *Pinv ;
if (nargout > 1 || nargin != 2)
{
mexErrMsgTxt ("Usage: C = cs_symperm(A,p)") ;
}
if (mxIsComplex (pargin [0]))
{
#ifndef NCOMPLEX
cs_cl Amatrix, *A, *C, *D ;
A = cs_cl_mex_get_sparse (&Amatrix, 1, pargin [0]) ;
n = A->n ;
P = cs_dl_mex_get_int (n, pargin [1], &ignore, 1) ; /* get P */
Pinv = cs_cl_pinv (P, n) ; /* P=Pinv' */
C = cs_cl_symperm (A, Pinv, 1) ; /* C = A(p,p) */
D = cs_cl_transpose (C, 1) ; /* sort C */
cs_cl_spfree (C) ;
C = cs_cl_transpose (D, 1) ;
cs_cl_spfree (D) ;
pargout [0] = cs_cl_mex_put_sparse (&C) ; /* return C */
cs_free (P) ;
cs_free (Pinv) ;
#else
mexErrMsgTxt ("complex matrices not supported") ;
#endif
}
else
{
cs_dl Amatrix, *A, *C, *D ;
A = cs_dl_mex_get_sparse (&Amatrix, 1, 1, pargin [0]) ;
n = A->n ;
P = cs_dl_mex_get_int (n, pargin [1], &ignore, 1) ; /* get P */
Pinv = cs_dl_pinv (P, n) ; /* P=Pinv' */
C = cs_dl_symperm (A, Pinv, 1) ; /* C = A(p,p) */
D = cs_dl_transpose (C, 1) ; /* sort C */
cs_dl_spfree (C) ;
C = cs_dl_transpose (D, 1) ;
cs_dl_spfree (D) ;
pargout [0] = cs_dl_mex_put_sparse (&C) ; /* return C */
cs_free (P) ;
cs_free (Pinv) ;
}
}
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