LAPACK 3.3.1
Linear Algebra PACKage

zlarf.f

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00001       SUBROUTINE ZLARF( SIDE, M, N, V, INCV, TAU, C, LDC, WORK )
00002       IMPLICIT NONE
00003 *
00004 *  -- LAPACK auxiliary routine (version 3.3.1) --
00005 *  -- LAPACK is a software package provided by Univ. of Tennessee,    --
00006 *  -- Univ. of California Berkeley, Univ. of Colorado Denver and NAG Ltd..--
00007 *  -- April 2011                                                      --
00008 *
00009 *     .. Scalar Arguments ..
00010       CHARACTER          SIDE
00011       INTEGER            INCV, LDC, M, N
00012       COMPLEX*16         TAU
00013 *     ..
00014 *     .. Array Arguments ..
00015       COMPLEX*16         C( LDC, * ), V( * ), WORK( * )
00016 *     ..
00017 *
00018 *  Purpose
00019 *  =======
00020 *
00021 *  ZLARF applies a complex elementary reflector H to a complex M-by-N
00022 *  matrix C, from either the left or the right. H is represented in the
00023 *  form
00024 *
00025 *        H = I - tau * v * v**H
00026 *
00027 *  where tau is a complex scalar and v is a complex vector.
00028 *
00029 *  If tau = 0, then H is taken to be the unit matrix.
00030 *
00031 *  To apply H**H, supply conjg(tau) instead
00032 *  tau.
00033 *
00034 *  Arguments
00035 *  =========
00036 *
00037 *  SIDE    (input) CHARACTER*1
00038 *          = 'L': form  H * C
00039 *          = 'R': form  C * H
00040 *
00041 *  M       (input) INTEGER
00042 *          The number of rows of the matrix C.
00043 *
00044 *  N       (input) INTEGER
00045 *          The number of columns of the matrix C.
00046 *
00047 *  V       (input) COMPLEX*16 array, dimension
00048 *                     (1 + (M-1)*abs(INCV)) if SIDE = 'L'
00049 *                  or (1 + (N-1)*abs(INCV)) if SIDE = 'R'
00050 *          The vector v in the representation of H. V is not used if
00051 *          TAU = 0.
00052 *
00053 *  INCV    (input) INTEGER
00054 *          The increment between elements of v. INCV <> 0.
00055 *
00056 *  TAU     (input) COMPLEX*16
00057 *          The value tau in the representation of H.
00058 *
00059 *  C       (input/output) COMPLEX*16 array, dimension (LDC,N)
00060 *          On entry, the M-by-N matrix C.
00061 *          On exit, C is overwritten by the matrix H * C if SIDE = 'L',
00062 *          or C * H if SIDE = 'R'.
00063 *
00064 *  LDC     (input) INTEGER
00065 *          The leading dimension of the array C. LDC >= max(1,M).
00066 *
00067 *  WORK    (workspace) COMPLEX*16 array, dimension
00068 *                         (N) if SIDE = 'L'
00069 *                      or (M) if SIDE = 'R'
00070 *
00071 *  =====================================================================
00072 *
00073 *     .. Parameters ..
00074       COMPLEX*16         ONE, ZERO
00075       PARAMETER          ( ONE = ( 1.0D+0, 0.0D+0 ),
00076      $                   ZERO = ( 0.0D+0, 0.0D+0 ) )
00077 *     ..
00078 *     .. Local Scalars ..
00079       LOGICAL            APPLYLEFT
00080       INTEGER            I, LASTV, LASTC
00081 *     ..
00082 *     .. External Subroutines ..
00083       EXTERNAL           ZGEMV, ZGERC
00084 *     ..
00085 *     .. External Functions ..
00086       LOGICAL            LSAME
00087       INTEGER            ILAZLR, ILAZLC
00088       EXTERNAL           LSAME, ILAZLR, ILAZLC
00089 *     ..
00090 *     .. Executable Statements ..
00091 *
00092       APPLYLEFT = LSAME( SIDE, 'L' )
00093       LASTV = 0
00094       LASTC = 0
00095       IF( TAU.NE.ZERO ) THEN
00096 !     Set up variables for scanning V.  LASTV begins pointing to the end
00097 !     of V.
00098          IF( APPLYLEFT ) THEN
00099             LASTV = M
00100          ELSE
00101             LASTV = N
00102          END IF
00103          IF( INCV.GT.0 ) THEN
00104             I = 1 + (LASTV-1) * INCV
00105          ELSE
00106             I = 1
00107          END IF
00108 !     Look for the last non-zero row in V.
00109          DO WHILE( LASTV.GT.0 .AND. V( I ).EQ.ZERO )
00110             LASTV = LASTV - 1
00111             I = I - INCV
00112          END DO
00113          IF( APPLYLEFT ) THEN
00114 !     Scan for the last non-zero column in C(1:lastv,:).
00115             LASTC = ILAZLC(LASTV, N, C, LDC)
00116          ELSE
00117 !     Scan for the last non-zero row in C(:,1:lastv).
00118             LASTC = ILAZLR(M, LASTV, C, LDC)
00119          END IF
00120       END IF
00121 !     Note that lastc.eq.0 renders the BLAS operations null; no special
00122 !     case is needed at this level.
00123       IF( APPLYLEFT ) THEN
00124 *
00125 *        Form  H * C
00126 *
00127          IF( LASTV.GT.0 ) THEN
00128 *
00129 *           w(1:lastc,1) := C(1:lastv,1:lastc)**H * v(1:lastv,1)
00130 *
00131             CALL ZGEMV( 'Conjugate transpose', LASTV, LASTC, ONE,
00132      $           C, LDC, V, INCV, ZERO, WORK, 1 )
00133 *
00134 *           C(1:lastv,1:lastc) := C(...) - v(1:lastv,1) * w(1:lastc,1)**H
00135 *
00136             CALL ZGERC( LASTV, LASTC, -TAU, V, INCV, WORK, 1, C, LDC )
00137          END IF
00138       ELSE
00139 *
00140 *        Form  C * H
00141 *
00142          IF( LASTV.GT.0 ) THEN
00143 *
00144 *           w(1:lastc,1) := C(1:lastc,1:lastv) * v(1:lastv,1)
00145 *
00146             CALL ZGEMV( 'No transpose', LASTC, LASTV, ONE, C, LDC,
00147      $           V, INCV, ZERO, WORK, 1 )
00148 *
00149 *           C(1:lastc,1:lastv) := C(...) - w(1:lastc,1) * v(1:lastv,1)**H
00150 *
00151             CALL ZGERC( LASTC, LASTV, -TAU, WORK, 1, V, INCV, C, LDC )
00152          END IF
00153       END IF
00154       RETURN
00155 *
00156 *     End of ZLARF
00157 *
00158       END
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