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OpenBLAS/lapack-netlib/SRC/DEPRECATED/dlatzm.f

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  1. *> \brief \b DLATZM

  2. *

  3. *  =========== DOCUMENTATION ===========

  4. *

  5. * Online html documentation available at

  6. *            http://www.netlib.org/lapack/explore-html/

  7. *

  8. *> \htmlonly

  9. *> Download DLATZM + dependencies

  10. *> <a href="http://www.netlib.org/cgi-bin/netlibfiles.tgz?format=tgz&filename=/lapack/lapack_routine/dlatzm.f">

  11. *> [TGZ]</a>

  12. *> <a href="http://www.netlib.org/cgi-bin/netlibfiles.zip?format=zip&filename=/lapack/lapack_routine/dlatzm.f">

  13. *> [ZIP]</a>

  14. *> <a href="http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dlatzm.f">

  15. *> [TXT]</a>

  16. *> \endhtmlonly

  17. *

  18. *  Definition:

  19. *  ===========

  20. *

  21. *       SUBROUTINE DLATZM( SIDE, M, N, V, INCV, TAU, C1, C2, LDC, WORK )

  22. *

  23. *       .. Scalar Arguments ..

  24. *       CHARACTER          SIDE

  25. *       INTEGER            INCV, LDC, M, N

  26. *       DOUBLE PRECISION   TAU

  27. *       ..

  28. *       .. Array Arguments ..

  29. *       DOUBLE PRECISION   C1( LDC, * ), C2( LDC, * ), V( * ), WORK( * )

  30. *       ..

  31. *

  32. *

  33. *> \par Purpose:

  34. *  =============

  35. *>

  36. *> \verbatim

  37. *>

  38. *> This routine is deprecated and has been replaced by routine DORMRZ.

  39. *>

  40. *> DLATZM applies a Householder matrix generated by DTZRQF to a matrix.

  41. *>

  42. *> Let P = I - tau*u*u**T,   u = ( 1 ),

  43. *>                               ( v )

  44. *> where v is an (m-1) vector if SIDE = 'L', or a (n-1) vector if

  45. *> SIDE = 'R'.

  46. *>

  47. *> If SIDE equals 'L', let

  48. *>        C = [ C1 ] 1

  49. *>            [ C2 ] m-1

  50. *>              n

  51. *> Then C is overwritten by P*C.

  52. *>

  53. *> If SIDE equals 'R', let

  54. *>        C = [ C1, C2 ] m

  55. *>               1  n-1

  56. *> Then C is overwritten by C*P.

  57. *> \endverbatim

  58. *

  59. *  Arguments:

  60. *  ==========

  61. *

  62. *> \param[in] SIDE

  63. *> \verbatim

  64. *>          SIDE is CHARACTER*1

  65. *>          = 'L': form P * C

  66. *>          = 'R': form C * P

  67. *> \endverbatim

  68. *>

  69. *> \param[in] M

  70. *> \verbatim

  71. *>          M is INTEGER

  72. *>          The number of rows of the matrix C.

  73. *> \endverbatim

  74. *>

  75. *> \param[in] N

  76. *> \verbatim

  77. *>          N is INTEGER

  78. *>          The number of columns of the matrix C.

  79. *> \endverbatim

  80. *>

  81. *> \param[in] V

  82. *> \verbatim

  83. *>          V is DOUBLE PRECISION array, dimension

  84. *>                  (1 + (M-1)*abs(INCV)) if SIDE = 'L'

  85. *>                  (1 + (N-1)*abs(INCV)) if SIDE = 'R'

  86. *>          The vector v in the representation of P. V is not used

  87. *>          if TAU = 0.

  88. *> \endverbatim

  89. *>

  90. *> \param[in] INCV

  91. *> \verbatim

  92. *>          INCV is INTEGER

  93. *>          The increment between elements of v. INCV <> 0

  94. *> \endverbatim

  95. *>

  96. *> \param[in] TAU

  97. *> \verbatim

  98. *>          TAU is DOUBLE PRECISION

  99. *>          The value tau in the representation of P.

  100. *> \endverbatim

  101. *>

  102. *> \param[in,out] C1

  103. *> \verbatim

  104. *>          C1 is DOUBLE PRECISION array, dimension

  105. *>                         (LDC,N) if SIDE = 'L'

  106. *>                         (M,1)   if SIDE = 'R'

  107. *>          On entry, the n-vector C1 if SIDE = 'L', or the m-vector C1

  108. *>          if SIDE = 'R'.

  109. *>

  110. *>          On exit, the first row of P*C if SIDE = 'L', or the first

  111. *>          column of C*P if SIDE = 'R'.

  112. *> \endverbatim

  113. *>

  114. *> \param[in,out] C2

  115. *> \verbatim

  116. *>          C2 is DOUBLE PRECISION array, dimension

  117. *>                         (LDC, N)   if SIDE = 'L'

  118. *>                         (LDC, N-1) if SIDE = 'R'

  119. *>          On entry, the (m - 1) x n matrix C2 if SIDE = 'L', or the

  120. *>          m x (n - 1) matrix C2 if SIDE = 'R'.

  121. *>

  122. *>          On exit, rows 2:m of P*C if SIDE = 'L', or columns 2:m of C*P

  123. *>          if SIDE = 'R'.

  124. *> \endverbatim

  125. *>

  126. *> \param[in] LDC

  127. *> \verbatim

  128. *>          LDC is INTEGER

  129. *>          The leading dimension of the arrays C1 and C2. LDC >= (1,M).

  130. *> \endverbatim

  131. *>

  132. *> \param[out] WORK

  133. *> \verbatim

  134. *>          WORK is DOUBLE PRECISION array, dimension

  135. *>                      (N) if SIDE = 'L'

  136. *>                      (M) if SIDE = 'R'

  137. *> \endverbatim

  138. *

  139. *  Authors:

  140. *  ========

  141. *

  142. *> \author Univ. of Tennessee

  143. *> \author Univ. of California Berkeley

  144. *> \author Univ. of Colorado Denver

  145. *> \author NAG Ltd.

  146. *

  147. *> \ingroup doubleOTHERcomputational

  148. *

  149. *  =====================================================================

  150.       SUBROUTINE DLATZM( SIDE, M, N, V, INCV, TAU, C1, C2, LDC, WORK )

  151. *

  152. *  -- LAPACK computational routine --

  153. *  -- LAPACK is a software package provided by Univ. of Tennessee,    --

  154. *  -- Univ. of California Berkeley, Univ. of Colorado Denver and NAG Ltd..--

  155. *

  156. *     .. Scalar Arguments ..

  157.       CHARACTER          SIDE

  158.       INTEGER            INCV, LDC, M, N

  159.       DOUBLE PRECISION   TAU

  160. *     ..

  161. *     .. Array Arguments ..

  162.       DOUBLE PRECISION   C1( LDC, * ), C2( LDC, * ), V( * ), WORK( * )

  163. *     ..

  164. *

  165. *  =====================================================================

  166. *

  167. *     .. Parameters ..

  168.       DOUBLE PRECISION   ONE, ZERO

  169.       PARAMETER          ( ONE = 1.0D+0, ZERO = 0.0D+0 )

  170. *     ..

  171. *     .. External Subroutines ..

  172.       EXTERNAL           DAXPY, DCOPY, DGEMV, DGER

  173. *     ..

  174. *     .. External Functions ..

  175.       LOGICAL            LSAME

  176.       EXTERNAL           LSAME

  177. *     ..

  178. *     .. Intrinsic Functions ..

  179.       INTRINSIC          MIN

  180. *     ..

  181. *     .. Executable Statements ..

  182. *

  183.       IF( ( MIN( M, N ).EQ.0 ) .OR. ( TAU.EQ.ZERO ) )

  184.      $   RETURN

  185. *

  186.       IF( LSAME( SIDE, 'L' ) ) THEN

  187. *

  188. *        w :=  (C1 + v**T * C2)**T

  189. *

  190.          CALL DCOPY( N, C1, LDC, WORK, 1 )

  191.          CALL DGEMV( 'Transpose', M-1, N, ONE, C2, LDC, V, INCV, ONE,

  192.      $               WORK, 1 )

  193. *

  194. *        [ C1 ] := [ C1 ] - tau* [ 1 ] * w**T

  195. *        [ C2 ]    [ C2 ]        [ v ]

  196. *

  197.          CALL DAXPY( N, -TAU, WORK, 1, C1, LDC )

  198.          CALL DGER( M-1, N, -TAU, V, INCV, WORK, 1, C2, LDC )

  199. *

  200.       ELSE IF( LSAME( SIDE, 'R' ) ) THEN

  201. *

  202. *        w := C1 + C2 * v

  203. *

  204.          CALL DCOPY( M, C1, 1, WORK, 1 )

  205.          CALL DGEMV( 'No transpose', M, N-1, ONE, C2, LDC, V, INCV, ONE,

  206.      $               WORK, 1 )

  207. *

  208. *        [ C1, C2 ] := [ C1, C2 ] - tau* w * [ 1 , v**T]

  209. *

  210.          CALL DAXPY( M, -TAU, WORK, 1, C1, 1 )

  211.          CALL DGER( M, N-1, -TAU, WORK, 1, V, INCV, C2, LDC )

  212.       END IF

  213. *

  214.       RETURN

  215. *

  216. *     End of DLATZM

  217. *

  218.       END