complex function clatm3	(	integer	M,
		integer	N,
		integer	I,
		integer	J,
		integer	ISUB,
		integer	JSUB,
		integer	KL,
		integer	KU,
		integer	IDIST,
		integer, dimension( 4 )	ISEED,
		complex, dimension( * )	D,
		integer	IGRADE,
		complex, dimension( * )	DL,
		complex, dimension( * )	DR,
		integer	IPVTNG,
		integer, dimension( * )	IWORK,
		real	SPARSE
	)

CLATM3

Purpose:

    CLATM3 returns the (ISUB,JSUB) entry of a random matrix of
    dimension (M, N) described by the other parameters. (ISUB,JSUB)
    is the final position of the (I,J) entry after pivoting
    according to IPVTNG and IWORK. CLATM3 is called by the
    CLATMR routine in order to build random test matrices. No error
    checking on parameters is done, because this routine is called in
    a tight loop by CLATMR which has already checked the parameters.

    Use of CLATM3 differs from CLATM2 in the order in which the random
    number generator is called to fill in random matrix entries.
    With CLATM2, the generator is called to fill in the pivoted matrix
    columnwise. With CLATM3, the generator is called to fill in the
    matrix columnwise, after which it is pivoted. Thus, CLATM3 can
    be used to construct random matrices which differ only in their
    order of rows and/or columns. CLATM2 is used to construct band
    matrices while avoiding calling the random number generator for
    entries outside the band (and therefore generating random numbers
    in different orders for different pivot orders).

    The matrix whose (ISUB,JSUB) entry is returned is constructed as
    follows (this routine only computes one entry):

      If ISUB is outside (1..M) or JSUB is outside (1..N), return zero
         (this is convenient for generating matrices in band format).

      Generate a matrix A with random entries of distribution IDIST.

      Set the diagonal to D.

      Grade the matrix, if desired, from the left (by DL) and/or
         from the right (by DR or DL) as specified by IGRADE.

      Permute, if desired, the rows and/or columns as specified by
         IPVTNG and IWORK.

      Band the matrix to have lower bandwidth KL and upper
         bandwidth KU.

      Set random entries to zero as specified by SPARSE.

Parameters

[in]	M	M is INTEGER Number of rows of matrix. Not modified.
[in]	N	N is INTEGER Number of columns of matrix. Not modified.
[in]	I	I is INTEGER Row of unpivoted entry to be returned. Not modified.
[in]	J	J is INTEGER Column of unpivoted entry to be returned. Not modified.
[in,out]	ISUB	ISUB is INTEGER Row of pivoted entry to be returned. Changed on exit.
[in,out]	JSUB	JSUB is INTEGER Column of pivoted entry to be returned. Changed on exit.
[in]	KL	KL is INTEGER Lower bandwidth. Not modified.
[in]	KU	KU is INTEGER Upper bandwidth. Not modified.
[in]	IDIST	IDIST is INTEGER On entry, IDIST specifies the type of distribution to be used to generate a random matrix . 1 => real and imaginary parts each UNIFORM( 0, 1 ) 2 => real and imaginary parts each UNIFORM( -1, 1 ) 3 => real and imaginary parts each NORMAL( 0, 1 ) 4 => complex number uniform in DISK( 0 , 1 ) Not modified.
[in,out]	ISEED	ISEED is INTEGER array of dimension ( 4 ) Seed for random number generator. Changed on exit.
[in]	D	D is COMPLEX array of dimension ( MIN( I , J ) ) Diagonal entries of matrix. Not modified.
[in]	IGRADE	IGRADE is INTEGER Specifies grading of matrix as follows: 0 => no grading 1 => matrix premultiplied by diag( DL ) 2 => matrix postmultiplied by diag( DR ) 3 => matrix premultiplied by diag( DL ) and postmultiplied by diag( DR ) 4 => matrix premultiplied by diag( DL ) and postmultiplied by inv( diag( DL ) ) 5 => matrix premultiplied by diag( DL ) and postmultiplied by diag( CONJG(DL) ) 6 => matrix premultiplied by diag( DL ) and postmultiplied by diag( DL ) Not modified.
[in]	DL	DL is COMPLEX array ( I or J, as appropriate ) Left scale factors for grading matrix. Not modified.
[in]	DR	DR is COMPLEX array ( I or J, as appropriate ) Right scale factors for grading matrix. Not modified.
[in]	IPVTNG	IPVTNG is INTEGER On entry specifies pivoting permutations as follows: 0 => none. 1 => row pivoting. 2 => column pivoting. 3 => full pivoting, i.e., on both sides. Not modified.
[in]	IWORK	IWORK is INTEGER array ( I or J, as appropriate ) This array specifies the permutation used. The row (or column) originally in position K is in position IWORK( K ) after pivoting. This differs from IWORK for CLATM2. Not modified.
[in]	SPARSE	SPARSE is REAL between 0. and 1. On entry specifies the sparsity of the matrix if sparse matix is to be generated. SPARSE should lie between 0 and 1. A uniform ( 0, 1 ) random number x is generated and compared to SPARSE; if x is larger the matrix entry is unchanged and if x is smaller the entry is set to zero. Thus on the average a fraction SPARSE of the entries will be set to zero. Not modified.

Author

Univ. of Tennessee

Univ. of California Berkeley

Univ. of Colorado Denver

NAG Ltd.

Date

June 2016

Definition at line 231 of file clatm3.f.

*
*  -- LAPACK auxiliary routine (version 3.6.1) --
*  -- LAPACK is a software package provided by Univ. of Tennessee,    --
*  -- Univ. of California Berkeley, Univ. of Colorado Denver and NAG Ltd..--
*     June 2016
*
*     .. Scalar Arguments ..
*
      INTEGER            i, idist, igrade, ipvtng, isub, j, jsub, kl,
     $                   ku, m, n
      REAL               sparse
*     ..
*
*     .. Array Arguments ..
*
      INTEGER            iseed( 4 ), iwork( * )
      COMPLEX            d( * ), dl( * ), dr( * )
*     ..
*
*  =====================================================================
*
*     .. Parameters ..
*
      REAL               zero
      parameter                ( zero = 0.0e0 )
      COMPLEX            czero
      parameter                ( czero = ( 0.0e0, 0.0e0 ) )
*     ..
*
*     .. Local Scalars ..
*
      COMPLEX            ctemp
*     ..
*
*     .. External Functions ..
*
      REAL               slaran
      COMPLEX            clarnd
      EXTERNAL           slaran, clarnd
*     ..
*
*     .. Intrinsic Functions ..
*
      INTRINSIC          conjg
*     ..
*
*-----------------------------------------------------------------------
*
*     .. Executable Statements ..
*
*
*     Check for I and J in range
*
      IF( i.LT.1 .OR. i.GT.m .OR. j.LT.1 .OR. j.GT.n ) THEN
         isub = i
         jsub = j
         clatm3 = czero
         RETURN
      END IF
*
*     Compute subscripts depending on IPVTNG
*
      IF( ipvtng.EQ.0 ) THEN
         isub = i
         jsub = j
      ELSE IF( ipvtng.EQ.1 ) THEN
         isub = iwork( i )
         jsub = j
      ELSE IF( ipvtng.EQ.2 ) THEN
         isub = i
         jsub = iwork( j )
      ELSE IF( ipvtng.EQ.3 ) THEN
         isub = iwork( i )
         jsub = iwork( j )
      END IF
*
*     Check for banding
*
      IF( jsub.GT.isub+ku .OR. jsub.LT.isub-kl ) THEN
         clatm3 = czero
         RETURN
      END IF
*
*     Check for sparsity
*
      IF( sparse.GT.zero ) THEN
         IF( slaran( iseed ).LT.sparse ) THEN
            clatm3 = czero
            RETURN
         END IF
      END IF
*
*     Compute entry and grade it according to IGRADE
*
      IF( i.EQ.j ) THEN
         ctemp = d( i )
      ELSE
         ctemp = clarnd( idist, iseed )
      END IF
      IF( igrade.EQ.1 ) THEN
         ctemp = ctemp*dl( i )
      ELSE IF( igrade.EQ.2 ) THEN
         ctemp = ctemp*dr( j )
      ELSE IF( igrade.EQ.3 ) THEN
         ctemp = ctemp*dl( i )*dr( j )
      ELSE IF( igrade.EQ.4 .AND. i.NE.j ) THEN
         ctemp = ctemp*dl( i ) / dl( j )
      ELSE IF( igrade.EQ.5 ) THEN
         ctemp = ctemp*dl( i )*conjg( dl( j ) )
      ELSE IF( igrade.EQ.6 ) THEN
         ctemp = ctemp*dl( i )*dl( j )
      END IF
      clatm3 = ctemp
      RETURN
*
*     End of CLATM3
*