CXML

sfft_grp, dfft_grp, cfft_grp, zfft_grp 


FORMAT

  Real transform: status = {S,D}FFT_GRP (input_format, output_format,
  direction, in, out, n, grp_size, lda, stride, grp_stride)

  Complex transform in complex data format: status = {C,Z}FFT_GRP
  (input_format, output_format, direction, in, out, n, grp_size, lda, stride,
  grp_stride)

  Complex transform real data format: status = {C,Z}FFT_GRP (input_format,
  output_format, direction, in_real, in_imag, out_real, out_imag, n,
  grp_size, lda, stride, grp_stride)

Arguments

  input_format, output_format
                      character*(*)
                      Identifies the data type of the input and the format to
                      be used to store the data, regardless of the data type.
                      For example, a complex sequence can be stored in real
                      format.

                      The character 'R' specifies the format as real; the
                      character 'C' specifies the format as complex. As
                      convenient, use either upper- or lowercase characters,
                      and either spell out or abbreviate the word.

                      The following table shows the valid values:

  Subprogram   Input Format   Output Format   Direction

  {S,D}        'R'            'C'             'F'

               'C'            'R'             'B'

               'R'            'R'             'F' or 'B'

  {C,Z}        'R'            'R'             'F' or 'B'

               'C'            'C'             'F' or 'B'

       For complex transforms, the type of data determines what other
       arguments are needed. When both the input and output data are real,
       the complex functions store the data as separate arrays for imaginary
       and real data so additional arguments are needed.

  direction           character*(*)
                      Specifies the operation as either the forward or
                      inverse transform. Use 'F' or 'f' to specify forward
                      transform. Use 'B' or 'b' to specify the inverse
                      transform.

  in, out             real*4 | real*8 | complex*8 | complex*16
                      Both arguments are two-dimensional arrays.  The IN
                      array contains the data to be transformed.  The OUT
                      array contains the transformed data. The IN and OUT
                      arrays can be the same array.

  in_real, in_imag, out_real, out_imag
                      real*4 | real*8
                      Use these arguments when performing a complex transform
                      on real data format and storing the result in a real
                      data format.

  n                   integer*4
                      Specifies the number of elements in the column within
                      each one-dimensional data array; n > 0. For SFFT_GRP
                      and DFFT_GRP, n must be even.

  grp_size            integer*4
                      Specifies the number of one-dimensional data arrays;
                      grp_size > 0.

  lda                 integer*4
                      Specifies the number of rows in two-dimensional data
                      arrays; lda >= grp_size. Using lda = grp_size + {3 or
                      5} can sometimes achieve better performance by avoiding
                      cache thrashing.

  stride              integer*4
                      Specifies the distance between columns of active data
                      arrays; stride >= 1. stride permits columns of IN and
                      OUT arrays to be skipped when they are not part of the
                      group.

  grp_stride          integer*4
                      Specifies the distance between consecutive elements in
                      a row in the IN and OUT arrays; grp_stride >= 1.
                      grp_stride permits rows of IN and OUT arrays to be
                      skipped when they are not part of the group.

Description

  The _FFT_GRP computes the fast forward or inverse Fourier transform on a
  group of one-dimensional data arrays. The transform is performed on the
  first row of elements of one-dimensional data arrays within the group. Data
  array can be skipped by setting the stride parameter. The transform then
  goes to the next row of elements. Similarly, rows of elements can be
  skipped by setting the grp_stride parameter. _FFT_GRP contrasts with the
  _FFT in that _FFT performs a transform on each element of a data array
  before going to the next data array. Although _FFT_GRP gives the same
  result as _FFT, _FFT_GRP is more efficient at completing the transform.

Return Values

  0                  DXML_SUCCESS()

  4 (real transforms only)
                     DXML_ILL_N_IS_ODD()

  8                  DXML_ILL_N_RANGE()

  12                 DXML_INS_RES()

  13                 DXML_BAD_STRIDE()

  15                 DXML_BAD_DIRECTION_STRING()

  16                 DXML_BAD_FORMAT_STRING()

  18 (real transforms only)
                     DXML_BAD_FORMAT_FOR_DIRECTION()

Example

  INCLUDE 'CXMLDEF.FOR'
  INTEGER*4 N,GRP_SIZE
  REAL*8 A(100,514),B(100,514)
  N=512
  LDA=100
  GRP_SIZE=100
  STATUS=DFFT_GRP('R','C','F',A,B,N,GRP_SIZE,LDA,1,1)

  This FORTRAN code computes a set of 100 FFT of size 512. The results of the
  transforms are stored in B in complex format. Note that the second
  dimension of A and B is 514 to hold the extra complex values (see the
  section on data storage).

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