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OpenBLAS/lapack-netlib/SRC/zspr.f

zspr.f 8.3 kB
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added lapack 3.7.0 with latest patches from git
8 years ago
Update LAPACK/LAPACKE to Reference-LAPACK 3.10.1
3 years ago
added lapack 3.7.0 with latest patches from git
8 years ago
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  1. *> \brief \b ZSPR performs the symmetrical rank-1 update of a complex symmetric packed matrix.

  2. *

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

  4. *

  5. * Online html documentation available at

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

  7. *

  8. *> \htmlonly

  9. *> Download ZSPR + dependencies

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

  11. *> [TGZ]</a>

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

  13. *> [ZIP]</a>

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

  15. *> [TXT]</a>

  16. *> \endhtmlonly

  17. *

  18. *  Definition:

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

  20. *

  21. *       SUBROUTINE ZSPR( UPLO, N, ALPHA, X, INCX, AP )

  22. *

  23. *       .. Scalar Arguments ..

  24. *       CHARACTER          UPLO

  25. *       INTEGER            INCX, N

  26. *       COMPLEX*16         ALPHA

  27. *       ..

  28. *       .. Array Arguments ..

  29. *       COMPLEX*16         AP( * ), X( * )

  30. *       ..

  31. *

  32. *

  33. *> \par Purpose:

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

  35. *>

  36. *> \verbatim

  37. *>

  38. *> ZSPR    performs the symmetric rank 1 operation

  39. *>

  40. *>    A := alpha*x*x**H + A,

  41. *>

  42. *> where alpha is a complex scalar, x is an n element vector and A is an

  43. *> n by n symmetric matrix, supplied in packed form.

  44. *> \endverbatim

  45. *

  46. *  Arguments:

  47. *  ==========

  48. *

  49. *> \param[in] UPLO

  50. *> \verbatim

  51. *>          UPLO is CHARACTER*1

  52. *>           On entry, UPLO specifies whether the upper or lower

  53. *>           triangular part of the matrix A is supplied in the packed

  54. *>           array AP as follows:

  55. *>

  56. *>              UPLO = 'U' or 'u'   The upper triangular part of A is

  57. *>                                  supplied in AP.

  58. *>

  59. *>              UPLO = 'L' or 'l'   The lower triangular part of A is

  60. *>                                  supplied in AP.

  61. *>

  62. *>           Unchanged on exit.

  63. *> \endverbatim

  64. *>

  65. *> \param[in] N

  66. *> \verbatim

  67. *>          N is INTEGER

  68. *>           On entry, N specifies the order of the matrix A.

  69. *>           N must be at least zero.

  70. *>           Unchanged on exit.

  71. *> \endverbatim

  72. *>

  73. *> \param[in] ALPHA

  74. *> \verbatim

  75. *>          ALPHA is COMPLEX*16

  76. *>           On entry, ALPHA specifies the scalar alpha.

  77. *>           Unchanged on exit.

  78. *> \endverbatim

  79. *>

  80. *> \param[in] X

  81. *> \verbatim

  82. *>          X is COMPLEX*16 array, dimension at least

  83. *>           ( 1 + ( N - 1 )*abs( INCX ) ).

  84. *>           Before entry, the incremented array X must contain the N-

  85. *>           element vector x.

  86. *>           Unchanged on exit.

  87. *> \endverbatim

  88. *>

  89. *> \param[in] INCX

  90. *> \verbatim

  91. *>          INCX is INTEGER

  92. *>           On entry, INCX specifies the increment for the elements of

  93. *>           X. INCX must not be zero.

  94. *>           Unchanged on exit.

  95. *> \endverbatim

  96. *>

  97. *> \param[in,out] AP

  98. *> \verbatim

  99. *>          AP is COMPLEX*16 array, dimension at least

  100. *>           ( ( N*( N + 1 ) )/2 ).

  101. *>           Before entry, with  UPLO = 'U' or 'u', the array AP must

  102. *>           contain the upper triangular part of the symmetric matrix

  103. *>           packed sequentially, column by column, so that AP( 1 )

  104. *>           contains a( 1, 1 ), AP( 2 ) and AP( 3 ) contain a( 1, 2 )

  105. *>           and a( 2, 2 ) respectively, and so on. On exit, the array

  106. *>           AP is overwritten by the upper triangular part of the

  107. *>           updated matrix.

  108. *>           Before entry, with UPLO = 'L' or 'l', the array AP must

  109. *>           contain the lower triangular part of the symmetric matrix

  110. *>           packed sequentially, column by column, so that AP( 1 )

  111. *>           contains a( 1, 1 ), AP( 2 ) and AP( 3 ) contain a( 2, 1 )

  112. *>           and a( 3, 1 ) respectively, and so on. On exit, the array

  113. *>           AP is overwritten by the lower triangular part of the

  114. *>           updated matrix.

  115. *>           Note that the imaginary parts of the diagonal elements need

  116. *>           not be set, they are assumed to be zero, and on exit they

  117. *>           are set to zero.

  118. *> \endverbatim

  119. *

  120. *  Authors:

  121. *  ========

  122. *

  123. *> \author Univ. of Tennessee

  124. *> \author Univ. of California Berkeley

  125. *> \author Univ. of Colorado Denver

  126. *> \author NAG Ltd.

  127. *

  128. *> \ingroup complex16OTHERauxiliary

  129. *

  130. *  =====================================================================

  131.       SUBROUTINE ZSPR( UPLO, N, ALPHA, X, INCX, AP )

  132. *

  133. *  -- LAPACK auxiliary routine --

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

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

  136. *

  137. *     .. Scalar Arguments ..

  138.       CHARACTER          UPLO

  139.       INTEGER            INCX, N

  140.       COMPLEX*16         ALPHA

  141. *     ..

  142. *     .. Array Arguments ..

  143.       COMPLEX*16         AP( * ), X( * )

  144. *     ..

  145. *

  146. * =====================================================================

  147. *

  148. *     .. Parameters ..

  149.       COMPLEX*16         ZERO

  150.       PARAMETER          ( ZERO = ( 0.0D+0, 0.0D+0 ) )

  151. *     ..

  152. *     .. Local Scalars ..

  153.       INTEGER            I, INFO, IX, J, JX, K, KK, KX

  154.       COMPLEX*16         TEMP

  155. *     ..

  156. *     .. External Functions ..

  157.       LOGICAL            LSAME

  158.       EXTERNAL           LSAME

  159. *     ..

  160. *     .. External Subroutines ..

  161.       EXTERNAL           XERBLA

  162. *     ..

  163. *     .. Executable Statements ..

  164. *

  165. *     Test the input parameters.

  166. *

  167.       INFO = 0

  168.       IF( .NOT.LSAME( UPLO, 'U' ) .AND. .NOT.LSAME( UPLO, 'L' ) ) THEN

  169.          INFO = 1

  170.       ELSE IF( N.LT.0 ) THEN

  171.          INFO = 2

  172.       ELSE IF( INCX.EQ.0 ) THEN

  173.          INFO = 5

  174.       END IF

  175.       IF( INFO.NE.0 ) THEN

  176.          CALL XERBLA( 'ZSPR  ', INFO )

  177.          RETURN

  178.       END IF

  179. *

  180. *     Quick return if possible.

  181. *

  182.       IF( ( N.EQ.0 ) .OR. ( ALPHA.EQ.ZERO ) )

  183.      $   RETURN

  184. *

  185. *     Set the start point in X if the increment is not unity.

  186. *

  187.       IF( INCX.LE.0 ) THEN

  188.          KX = 1 - ( N-1 )*INCX

  189.       ELSE IF( INCX.NE.1 ) THEN

  190.          KX = 1

  191.       END IF

  192. *

  193. *     Start the operations. In this version the elements of the array AP

  194. *     are accessed sequentially with one pass through AP.

  195. *

  196.       KK = 1

  197.       IF( LSAME( UPLO, 'U' ) ) THEN

  198. *

  199. *        Form  A  when upper triangle is stored in AP.

  200. *

  201.          IF( INCX.EQ.1 ) THEN

  202.             DO 20 J = 1, N

  203.                IF( X( J ).NE.ZERO ) THEN

  204.                   TEMP = ALPHA*X( J )

  205.                   K = KK

  206.                   DO 10 I = 1, J - 1

  207.                      AP( K ) = AP( K ) + X( I )*TEMP

  208.                      K = K + 1

  209.    10             CONTINUE

  210.                   AP( KK+J-1 ) = AP( KK+J-1 ) + X( J )*TEMP

  211.                ELSE

  212.                   AP( KK+J-1 ) = AP( KK+J-1 )

  213.                END IF

  214.                KK = KK + J

  215.    20       CONTINUE

  216.          ELSE

  217.             JX = KX

  218.             DO 40 J = 1, N

  219.                IF( X( JX ).NE.ZERO ) THEN

  220.                   TEMP = ALPHA*X( JX )

  221.                   IX = KX

  222.                   DO 30 K = KK, KK + J - 2

  223.                      AP( K ) = AP( K ) + X( IX )*TEMP

  224.                      IX = IX + INCX

  225.    30             CONTINUE

  226.                   AP( KK+J-1 ) = AP( KK+J-1 ) + X( JX )*TEMP

  227.                ELSE

  228.                   AP( KK+J-1 ) = AP( KK+J-1 )

  229.                END IF

  230.                JX = JX + INCX

  231.                KK = KK + J

  232.    40       CONTINUE

  233.          END IF

  234.       ELSE

  235. *

  236. *        Form  A  when lower triangle is stored in AP.

  237. *

  238.          IF( INCX.EQ.1 ) THEN

  239.             DO 60 J = 1, N

  240.                IF( X( J ).NE.ZERO ) THEN

  241.                   TEMP = ALPHA*X( J )

  242.                   AP( KK ) = AP( KK ) + TEMP*X( J )

  243.                   K = KK + 1

  244.                   DO 50 I = J + 1, N

  245.                      AP( K ) = AP( K ) + X( I )*TEMP

  246.                      K = K + 1

  247.    50             CONTINUE

  248.                ELSE

  249.                   AP( KK ) = AP( KK )

  250.                END IF

  251.                KK = KK + N - J + 1

  252.    60       CONTINUE

  253.          ELSE

  254.             JX = KX

  255.             DO 80 J = 1, N

  256.                IF( X( JX ).NE.ZERO ) THEN

  257.                   TEMP = ALPHA*X( JX )

  258.                   AP( KK ) = AP( KK ) + TEMP*X( JX )

  259.                   IX = JX

  260.                   DO 70 K = KK + 1, KK + N - J

  261.                      IX = IX + INCX

  262.                      AP( K ) = AP( K ) + X( IX )*TEMP

  263.    70             CONTINUE

  264.                ELSE

  265.                   AP( KK ) = AP( KK )

  266.                END IF

  267.                JX = JX + INCX

  268.                KK = KK + N - J + 1

  269.    80       CONTINUE

  270.          END IF

  271.       END IF

  272. *

  273.       RETURN

  274. *

  275. *     End of ZSPR

  276. *

  277.       END

OpenBLAS is an optimized BLAS library based on GotoBLAS2 1.13 BSD version.