159 DOUBLE PRECISION FUNCTION zla_gbrcond_c( TRANS, N, KL, KU, AB,
160 $ LDAB, AFB, LDAFB, IPIV,
161 $ C, CAPPLY, INFO, WORK,
171 INTEGER N, KL, KU, KD, KE, LDAB, LDAFB, INFO
175 COMPLEX*16 AB( ldab, * ), AFB( ldafb, * ), WORK( * )
176 DOUBLE PRECISION C( * ), RWORK( * )
184 DOUBLE PRECISION AINVNM, ANORM, TMP
201 DOUBLE PRECISION CABS1
204 cabs1( zdum ) = abs( dble( zdum ) ) + abs( dimag( zdum ) )
210 notrans = lsame( trans,
'N' )
211 IF ( .NOT. notrans .AND. .NOT. lsame( trans,
'T' ) .AND. .NOT.
212 $ lsame( trans,
'C' ) )
THEN 214 ELSE IF( n.LT.0 )
THEN 216 ELSE IF( kl.LT.0 .OR. kl.GT.n-1 )
THEN 218 ELSE IF( ku.LT.0 .OR. ku.GT.n-1 )
THEN 220 ELSE IF( ldab.LT.kl+ku+1 )
THEN 222 ELSE IF( ldafb.LT.2*kl+ku+1 )
THEN 226 CALL xerbla(
'ZLA_GBRCOND_C', -info )
239 DO j = max( i-kl, 1 ), min( i+ku, n )
240 tmp = tmp + cabs1( ab( kd+i-j, j ) ) / c( j )
243 DO j = max( i-kl, 1 ), min( i+ku, n )
244 tmp = tmp + cabs1( ab( kd+i-j, j ) )
248 anorm = max( anorm, tmp )
254 DO j = max( i-kl, 1 ), min( i+ku, n )
255 tmp = tmp + cabs1( ab( ke-i+j, i ) ) / c( j )
258 DO j = max( i-kl, 1 ), min( i+ku, n )
259 tmp = tmp + cabs1( ab( ke-i+j, i ) )
263 anorm = max( anorm, tmp )
272 ELSE IF( anorm .EQ. 0.0d+0 )
THEN 282 CALL zlacn2( n, work( n+1 ), work, ainvnm, kase, isave )
289 work( i ) = work( i ) * rwork( i )
293 CALL zgbtrs(
'No transpose', n, kl, ku, 1, afb, ldafb,
294 $ ipiv, work, n, info )
296 CALL zgbtrs(
'Conjugate transpose', n, kl, ku, 1, afb,
297 $ ldafb, ipiv, work, n, info )
304 work( i ) = work( i ) * c( i )
313 work( i ) = work( i ) * c( i )
318 CALL zgbtrs(
'Conjugate transpose', n, kl, ku, 1, afb,
319 $ ldafb, ipiv, work, n, info )
321 CALL zgbtrs(
'No transpose', n, kl, ku, 1, afb, ldafb,
322 $ ipiv, work, n, info )
328 work( i ) = work( i ) * rwork( i )
336 IF( ainvnm .NE. 0.0d+0 )
subroutine xerbla(SRNAME, INFO)
XERBLA
double precision function zla_gbrcond_c(TRANS, N, KL, KU, AB, LDAB, AFB, LDAFB, IPIV, C, CAPPLY, INFO, WORK, RWORK)
ZLA_GBRCOND_C computes the infinity norm condition number of op(A)*inv(diag(c)) for general banded ma...
subroutine zgbtrs(TRANS, N, KL, KU, NRHS, AB, LDAB, IPIV, B, LDB, INFO)
ZGBTRS
subroutine zlacn2(N, V, X, EST, KASE, ISAVE)
ZLACN2 estimates the 1-norm of a square matrix, using reverse communication for evaluating matrix-vec...