217 SUBROUTINE ztfttr( TRANSR, UPLO, N, ARF, A, LDA, INFO )
225 CHARACTER TRANSR, UPLO
229 COMPLEX*16 A( 0: lda-1, 0: * ), ARF( 0: * )
237 LOGICAL LOWER, NISODD, NORMALTRANSR
238 INTEGER N1, N2, K, NT, NX2, NP1X2
249 INTRINSIC dconjg, max, mod
256 normaltransr = lsame( transr,
'N' )
257 lower = lsame( uplo,
'L' )
258 IF( .NOT.normaltransr .AND. .NOT.lsame( transr,
'C' ) )
THEN
260 ELSE IF( .NOT.lower .AND. .NOT.lsame( uplo,
'U' ) )
THEN
262 ELSE IF( n.LT.0 )
THEN
264 ELSE IF( lda.LT.max( 1, n ) )
THEN
268 CALL xerbla(
'ZTFTTR', -info )
276 IF( normaltransr )
THEN
279 a( 0, 0 ) = dconjg( arf( 0 ) )
303 IF( mod( n, 2 ).EQ.0 )
THEN
318 IF( normaltransr )
THEN
331 a( n2+j, i ) = dconjg( arf( ij ) )
335 a( i, j ) = arf( ij )
349 a( i, j ) = arf( ij )
352 DO l = j - n1, n1 - 1
353 a( j-n1, l ) = dconjg( arf( ij ) )
374 a( j, i ) = dconjg( arf( ij ) )
378 a( i, n1+j ) = arf( ij )
384 a( j, i ) = dconjg( arf( ij ) )
398 a( j, i ) = dconjg( arf( ij ) )
404 a( i, j ) = arf( ij )
408 a( n2+j, l ) = dconjg( arf( ij ) )
421 IF( normaltransr )
THEN
434 a( k+j, i ) = dconjg( arf( ij ) )
438 a( i, j ) = arf( ij )
452 a( i, j ) = arf( ij )
456 a( j-k, l ) = dconjg( arf( ij ) )
477 a( i, j ) = arf( ij )
482 a( j, i ) = dconjg( arf( ij ) )
485 DO i = k + 1 + j, n - 1
486 a( i, k+1+j ) = arf( ij )
492 a( j, i ) = dconjg( arf( ij ) )
506 a( j, i ) = dconjg( arf( ij ) )
512 a( i, j ) = arf( ij )
515 DO l = k + 1 + j, n - 1
516 a( k+1+j, l ) = dconjg( arf( ij ) )
524 a( i, j ) = arf( ij )
subroutine xerbla(SRNAME, INFO)
XERBLA
subroutine ztfttr(TRANSR, UPLO, N, ARF, A, LDA, INFO)
ZTFTTR copies a triangular matrix from the rectangular full packed format (TF) to the standard full f...