116 SUBROUTINE ssptrs( UPLO, N, NRHS, AP, IPIV, B, LDB, INFO )
125 INTEGER INFO, LDB, N, NRHS
129 REAL AP( * ), B( ldb, * )
136 parameter( one = 1.0e+0 )
141 REAL AK, AKM1, AKM1K, BK, BKM1, DENOM
156 upper = lsame( uplo,
'U' )
157 IF( .NOT.upper .AND. .NOT.lsame( uplo,
'L' ) )
THEN
159 ELSE IF( n.LT.0 )
THEN
161 ELSE IF( nrhs.LT.0 )
THEN
163 ELSE IF( ldb.LT.max( 1, n ) )
THEN
167 CALL
xerbla(
'SSPTRS', -info )
173 IF( n.EQ.0 .OR. nrhs.EQ.0 )
186 kc = n*( n+1 ) / 2 + 1
195 IF( ipiv( k ).GT.0 )
THEN
203 $ CALL
sswap( nrhs, b( k, 1 ), ldb, b( kp, 1 ), ldb )
208 CALL
sger( k-1, nrhs, -one, ap( kc ), 1, b( k, 1 ), ldb,
213 CALL
sscal( nrhs, one / ap( kc+k-1 ), b( k, 1 ), ldb )
223 $ CALL
sswap( nrhs, b( k-1, 1 ), ldb, b( kp, 1 ), ldb )
228 CALL
sger( k-2, nrhs, -one, ap( kc ), 1, b( k, 1 ), ldb,
230 CALL
sger( k-2, nrhs, -one, ap( kc-( k-1 ) ), 1,
231 $ b( k-1, 1 ), ldb, b( 1, 1 ), ldb )
236 akm1 = ap( kc-1 ) / akm1k
237 ak = ap( kc+k-1 ) / akm1k
238 denom = akm1*ak - one
240 bkm1 = b( k-1, j ) / akm1k
241 bk = b( k, j ) / akm1k
242 b( k-1, j ) = ( ak*bkm1-bk ) / denom
243 b( k, j ) = ( akm1*bk-bkm1 ) / denom
266 IF( ipiv( k ).GT.0 )
THEN
273 CALL
sgemv(
'Transpose', k-1, nrhs, -one, b, ldb, ap( kc ),
274 $ 1, one, b( k, 1 ), ldb )
280 $ CALL
sswap( nrhs, b( k, 1 ), ldb, b( kp, 1 ), ldb )
290 CALL
sgemv(
'Transpose', k-1, nrhs, -one, b, ldb, ap( kc ),
291 $ 1, one, b( k, 1 ), ldb )
292 CALL
sgemv(
'Transpose', k-1, nrhs, -one, b, ldb,
293 $ ap( kc+k ), 1, one, b( k+1, 1 ), ldb )
299 $ CALL
sswap( nrhs, b( k, 1 ), ldb, b( kp, 1 ), ldb )
325 IF( ipiv( k ).GT.0 )
THEN
333 $ CALL
sswap( nrhs, b( k, 1 ), ldb, b( kp, 1 ), ldb )
339 $ CALL
sger( n-k, nrhs, -one, ap( kc+1 ), 1, b( k, 1 ),
340 $ ldb, b( k+1, 1 ), ldb )
344 CALL
sscal( nrhs, one / ap( kc ), b( k, 1 ), ldb )
355 $ CALL
sswap( nrhs, b( k+1, 1 ), ldb, b( kp, 1 ), ldb )
361 CALL
sger( n-k-1, nrhs, -one, ap( kc+2 ), 1, b( k, 1 ),
362 $ ldb, b( k+2, 1 ), ldb )
363 CALL
sger( n-k-1, nrhs, -one, ap( kc+n-k+2 ), 1,
364 $ b( k+1, 1 ), ldb, b( k+2, 1 ), ldb )
370 akm1 = ap( kc ) / akm1k
371 ak = ap( kc+n-k+1 ) / akm1k
372 denom = akm1*ak - one
374 bkm1 = b( k, j ) / akm1k
375 bk = b( k+1, j ) / akm1k
376 b( k, j ) = ( ak*bkm1-bk ) / denom
377 b( k+1, j ) = ( akm1*bk-bkm1 ) / denom
379 kc = kc + 2*( n-k ) + 1
392 kc = n*( n+1 ) / 2 + 1
401 IF( ipiv( k ).GT.0 )
THEN
409 $ CALL
sgemv(
'Transpose', n-k, nrhs, -one, b( k+1, 1 ),
410 $ ldb, ap( kc+1 ), 1, one, b( k, 1 ), ldb )
416 $ CALL
sswap( nrhs, b( k, 1 ), ldb, b( kp, 1 ), ldb )
426 CALL
sgemv(
'Transpose', n-k, nrhs, -one, b( k+1, 1 ),
427 $ ldb, ap( kc+1 ), 1, one, b( k, 1 ), ldb )
428 CALL
sgemv(
'Transpose', n-k, nrhs, -one, b( k+1, 1 ),
429 $ ldb, ap( kc-( n-k ) ), 1, one, b( k-1, 1 ),
437 $ CALL
sswap( nrhs, b( k, 1 ), ldb, b( kp, 1 ), ldb )
subroutine sswap(N, SX, INCX, SY, INCY)
SSWAP
subroutine xerbla(SRNAME, INFO)
XERBLA
subroutine sgemv(TRANS, M, N, ALPHA, A, LDA, X, INCX, BETA, Y, INCY)
SGEMV
subroutine sger(M, N, ALPHA, X, INCX, Y, INCY, A, LDA)
SGER
subroutine ssptrs(UPLO, N, NRHS, AP, IPIV, B, LDB, INFO)
SSPTRS
subroutine sscal(N, SA, SX, INCX)
SSCAL