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/* -- translated by f2c (version 19940927).
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You must link the resulting object file with the libraries:
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-lf2c -lm (in that order)
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*/
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#include "f2c.h"
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/* Double Complex */ VOID zlatm3_(doublecomplex * ret_val, integer *m,
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7d535a |
integer *n, integer *i, integer *j, integer *isub, integer *jsub,
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7d535a |
integer *kl, integer *ku, integer *idist, integer *iseed,
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doublecomplex *d, integer *igrade, doublecomplex *dl, doublecomplex *
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dr, integer *ipvtng, integer *iwork, doublereal *sparse)
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{
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/* System generated locals */
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integer i__1, i__2;
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doublecomplex z__1, z__2, z__3;
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/* Builtin functions */
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void z_div(doublecomplex *, doublecomplex *, doublecomplex *), d_cnjg(
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doublecomplex *, doublecomplex *);
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|
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/* Local variables */
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static doublecomplex ctemp;
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extern doublereal dlaran_(integer *);
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extern /* Double Complex */ VOID zlarnd_(doublecomplex *, integer *,
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integer *);
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|
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/* -- LAPACK auxiliary test routine (version 2.0) --
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7d535a |
Univ. of Tennessee, Univ. of California Berkeley, NAG Ltd.,
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7d535a |
Courant Institute, Argonne National Lab, and Rice University
|
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7d535a |
February 29, 1992
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|
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Purpose
|
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=======
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7d535a |
|
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ZLATM3 returns the (ISUB,JSUB) entry of a random matrix of
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dimension (M, N) described by the other paramters. (ISUB,JSUB)
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is the final position of the (I,J) entry after pivoting
|
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according to IPVTNG and IWORK. ZLATM3 is called by the
|
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7d535a |
ZLATMR routine in order to build random test matrices. No error
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7d535a |
checking on parameters is done, because this routine is called in
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7d535a |
|
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a tight loop by ZLATMR which has already checked the parameters.
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Use of ZLATM3 differs from CLATM2 in the order in which the random
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number generator is called to fill in random matrix entries.
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With ZLATM2, the generator is called to fill in the pivoted matrix
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columnwise. With ZLATM3, the generator is called to fill in the
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matrix columnwise, after which it is pivoted. Thus, ZLATM3 can
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be used to construct random matrices which differ only in their
|
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order of rows and/or columns. ZLATM2 is used to construct band
|
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matrices while avoiding calling the random number generator for
|
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entries outside the band (and therefore generating random numbers
|
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in different orders for different pivot orders).
|
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The matrix whose (ISUB,JSUB) entry is returned is constructed as
|
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follows (this routine only computes one entry):
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If ISUB is outside (1..M) or JSUB is outside (1..N), return zero
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(this is convenient for generating matrices in band format).
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Generate a matrix A with random entries of distribution IDIST.
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Set the diagonal to D.
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Grade the matrix, if desired, from the left (by DL) and/or
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from the right (by DR or DL) as specified by IGRADE.
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Permute, if desired, the rows and/or columns as specified by
|
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IPVTNG and IWORK.
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7d535a |
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Band the matrix to have lower bandwidth KL and upper
|
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bandwidth KU.
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Set random entries to zero as specified by SPARSE.
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|
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Arguments
|
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=========
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M - INTEGER
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Number of rows of matrix. Not modified.
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N - INTEGER
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Number of columns of matrix. Not modified.
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I - INTEGER
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Row of unpivoted entry to be returned. Not modified.
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J - INTEGER
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Column of unpivoted entry to be returned. Not modified.
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ISUB - INTEGER
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Row of pivoted entry to be returned. Changed on exit.
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JSUB - INTEGER
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Column of pivoted entry to be returned. Changed on exit.
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KL - INTEGER
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Lower bandwidth. Not modified.
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KU - INTEGER
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Upper bandwidth. Not modified.
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IDIST - INTEGER
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On entry, IDIST specifies the type of distribution to be
|
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used to generate a random matrix .
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1 => real and imaginary parts each UNIFORM( 0, 1 )
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2 => real and imaginary parts each UNIFORM( -1, 1 )
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3 => real and imaginary parts each NORMAL( 0, 1 )
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4 => complex number uniform in DISK( 0 , 1 )
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Not modified.
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ISEED - INTEGER array of dimension ( 4 )
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Seed for random number generator.
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Changed on exit.
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D - COMPLEX*16 array of dimension ( MIN( I , J ) )
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Diagonal entries of matrix. Not modified.
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IGRADE - INTEGER
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Specifies grading of matrix as follows:
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0 => no grading
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1 => matrix premultiplied by diag( DL )
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2 => matrix postmultiplied by diag( DR )
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3 => matrix premultiplied by diag( DL ) and
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postmultiplied by diag( DR )
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4 => matrix premultiplied by diag( DL ) and
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postmultiplied by inv( diag( DL ) )
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5 => matrix premultiplied by diag( DL ) and
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postmultiplied by diag( CONJG(DL) )
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6 => matrix premultiplied by diag( DL ) and
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postmultiplied by diag( DL )
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Not modified.
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DL - COMPLEX*16 array ( I or J, as appropriate )
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Left scale factors for grading matrix. Not modified.
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DR - COMPLEX*16 array ( I or J, as appropriate )
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Right scale factors for grading matrix. Not modified.
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IPVTNG - INTEGER
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On entry specifies pivoting permutations as follows:
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0 => none.
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1 => row pivoting.
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2 => column pivoting.
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3 => full pivoting, i.e., on both sides.
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Not modified.
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kusano |
7d535a |
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kusano |
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IWORK - INTEGER array ( I or J, as appropriate )
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kusano |
7d535a |
This array specifies the permutation used. The
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7d535a |
row (or column) originally in position K is in
|
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7d535a |
position IWORK( K ) after pivoting.
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This differs from IWORK for ZLATM2. Not modified.
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SPARSE - DOUBLE PRECISION between 0. and 1.
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7d535a |
On entry specifies the sparsity of the matrix
|
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if sparse matix is to be generated.
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SPARSE should lie between 0 and 1.
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A uniform ( 0, 1 ) random number x is generated and
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compared to SPARSE; if x is larger the matrix entry
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is unchanged and if x is smaller the entry is set
|
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7d535a |
to zero. Thus on the average a fraction SPARSE of the
|
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7d535a |
entries will be set to zero.
|
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Not modified.
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7d535a |
|
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kusano |
7d535a |
=====================================================================
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-----------------------------------------------------------------------
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7d535a |
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kusano |
7d535a |
|
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kusano |
7d535a |
Check for I and J in range
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7d535a |
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kusano |
7d535a |
Parameter adjustments */
|
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7d535a |
--iwork;
|
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kusano |
7d535a |
--dr;
|
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7d535a |
--dl;
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7d535a |
--d;
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--iseed;
|
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kusano |
7d535a |
|
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kusano |
7d535a |
/* Function Body */
|
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kusano |
7d535a |
if (*i < 1 || *i > *m || *j < 1 || *j > *n) {
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kusano |
7d535a |
*isub = *i;
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kusano |
7d535a |
*jsub = *j;
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kusano |
7d535a |
ret_val->r = 0., ret_val->i = 0.;
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kusano |
7d535a |
return ;
|
|
kusano |
7d535a |
}
|
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kusano |
7d535a |
|
|
kusano |
7d535a |
/* Compute subscripts depending on IPVTNG */
|
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kusano |
7d535a |
|
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kusano |
7d535a |
if (*ipvtng == 0) {
|
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7d535a |
*isub = *i;
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kusano |
7d535a |
*jsub = *j;
|
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kusano |
7d535a |
} else if (*ipvtng == 1) {
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7d535a |
*isub = iwork[*i];
|
|
kusano |
7d535a |
*jsub = *j;
|
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kusano |
7d535a |
} else if (*ipvtng == 2) {
|
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kusano |
7d535a |
*isub = *i;
|
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kusano |
7d535a |
*jsub = iwork[*j];
|
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kusano |
7d535a |
} else if (*ipvtng == 3) {
|
|
kusano |
7d535a |
*isub = iwork[*i];
|
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kusano |
7d535a |
*jsub = iwork[*j];
|
|
kusano |
7d535a |
}
|
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kusano |
7d535a |
|
|
kusano |
7d535a |
/* Check for banding */
|
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kusano |
7d535a |
|
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kusano |
7d535a |
if (*jsub > *isub + *ku || *jsub < *isub - *kl) {
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kusano |
7d535a |
ret_val->r = 0., ret_val->i = 0.;
|
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kusano |
7d535a |
return ;
|
|
kusano |
7d535a |
}
|
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kusano |
7d535a |
|
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kusano |
7d535a |
/* Check for sparsity */
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kusano |
7d535a |
|
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kusano |
7d535a |
if (*sparse > 0.) {
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kusano |
7d535a |
if (dlaran_(&iseed[1]) < *sparse) {
|
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kusano |
7d535a |
ret_val->r = 0., ret_val->i = 0.;
|
|
kusano |
7d535a |
return ;
|
|
kusano |
7d535a |
}
|
|
kusano |
7d535a |
}
|
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kusano |
7d535a |
|
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kusano |
7d535a |
/* Compute entry and grade it according to IGRADE */
|
|
kusano |
7d535a |
|
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kusano |
7d535a |
if (*i == *j) {
|
|
kusano |
7d535a |
i__1 = *i;
|
|
kusano |
7d535a |
ctemp.r = d[i__1].r, ctemp.i = d[i__1].i;
|
|
kusano |
7d535a |
} else {
|
|
kusano |
7d535a |
zlarnd_(&z__1, idist, &iseed[1]);
|
|
kusano |
7d535a |
ctemp.r = z__1.r, ctemp.i = z__1.i;
|
|
kusano |
7d535a |
}
|
|
kusano |
7d535a |
if (*igrade == 1) {
|
|
kusano |
7d535a |
i__1 = *i;
|
|
kusano |
7d535a |
z__1.r = ctemp.r * dl[i__1].r - ctemp.i * dl[i__1].i, z__1.i =
|
|
kusano |
7d535a |
ctemp.r * dl[i__1].i + ctemp.i * dl[i__1].r;
|
|
kusano |
7d535a |
ctemp.r = z__1.r, ctemp.i = z__1.i;
|
|
kusano |
7d535a |
} else if (*igrade == 2) {
|
|
kusano |
7d535a |
i__1 = *j;
|
|
kusano |
7d535a |
z__1.r = ctemp.r * dr[i__1].r - ctemp.i * dr[i__1].i, z__1.i =
|
|
kusano |
7d535a |
ctemp.r * dr[i__1].i + ctemp.i * dr[i__1].r;
|
|
kusano |
7d535a |
ctemp.r = z__1.r, ctemp.i = z__1.i;
|
|
kusano |
7d535a |
} else if (*igrade == 3) {
|
|
kusano |
7d535a |
i__1 = *i;
|
|
kusano |
7d535a |
z__2.r = ctemp.r * dl[i__1].r - ctemp.i * dl[i__1].i, z__2.i =
|
|
kusano |
7d535a |
ctemp.r * dl[i__1].i + ctemp.i * dl[i__1].r;
|
|
kusano |
7d535a |
i__2 = *j;
|
|
kusano |
7d535a |
z__1.r = z__2.r * dr[i__2].r - z__2.i * dr[i__2].i, z__1.i = z__2.r *
|
|
kusano |
7d535a |
dr[i__2].i + z__2.i * dr[i__2].r;
|
|
kusano |
7d535a |
ctemp.r = z__1.r, ctemp.i = z__1.i;
|
|
kusano |
7d535a |
} else if (*igrade == 4 && *i != *j) {
|
|
kusano |
7d535a |
i__1 = *i;
|
|
kusano |
7d535a |
z__2.r = ctemp.r * dl[i__1].r - ctemp.i * dl[i__1].i, z__2.i =
|
|
kusano |
7d535a |
ctemp.r * dl[i__1].i + ctemp.i * dl[i__1].r;
|
|
kusano |
7d535a |
z_div(&z__1, &z__2, &dl[*j]);
|
|
kusano |
7d535a |
ctemp.r = z__1.r, ctemp.i = z__1.i;
|
|
kusano |
7d535a |
} else if (*igrade == 5) {
|
|
kusano |
7d535a |
i__1 = *i;
|
|
kusano |
7d535a |
z__2.r = ctemp.r * dl[i__1].r - ctemp.i * dl[i__1].i, z__2.i =
|
|
kusano |
7d535a |
ctemp.r * dl[i__1].i + ctemp.i * dl[i__1].r;
|
|
kusano |
7d535a |
d_cnjg(&z__3, &dl[*j]);
|
|
kusano |
7d535a |
z__1.r = z__2.r * z__3.r - z__2.i * z__3.i, z__1.i = z__2.r * z__3.i
|
|
kusano |
7d535a |
+ z__2.i * z__3.r;
|
|
kusano |
7d535a |
ctemp.r = z__1.r, ctemp.i = z__1.i;
|
|
kusano |
7d535a |
} else if (*igrade == 6) {
|
|
kusano |
7d535a |
i__1 = *i;
|
|
kusano |
7d535a |
z__2.r = ctemp.r * dl[i__1].r - ctemp.i * dl[i__1].i, z__2.i =
|
|
kusano |
7d535a |
ctemp.r * dl[i__1].i + ctemp.i * dl[i__1].r;
|
|
kusano |
7d535a |
i__2 = *j;
|
|
kusano |
7d535a |
z__1.r = z__2.r * dl[i__2].r - z__2.i * dl[i__2].i, z__1.i = z__2.r *
|
|
kusano |
7d535a |
dl[i__2].i + z__2.i * dl[i__2].r;
|
|
kusano |
7d535a |
ctemp.r = z__1.r, ctemp.i = z__1.i;
|
|
kusano |
7d535a |
}
|
|
kusano |
7d535a |
ret_val->r = ctemp.r, ret_val->i = ctemp.i;
|
|
kusano |
7d535a |
return ;
|
|
kusano |
7d535a |
|
|
kusano |
7d535a |
/* End of ZLATM3 */
|
|
kusano |
7d535a |
|
|
kusano |
7d535a |
} /* zlatm3_ */
|
|
kusano |
7d535a |
|