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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [libgfortran/] [m4/] [matmull.m4] - Blame information for rev 820

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1 733 jeremybenn
`/* Implementation of the MATMUL intrinsic
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   Copyright 2002, 2005, 2006, 2007, 2009 Free Software Foundation, Inc.
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   Contributed by Paul Brook <paul@nowt.org>
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This file is part of the GNU Fortran 95 runtime library (libgfortran).
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Libgfortran is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public
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License as published by the Free Software Foundation; either
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version 3 of the License, or (at your option) any later version.
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Libgfortran is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
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GNU General Public License for more details.
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Under Section 7 of GPL version 3, you are granted additional
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permissions described in the GCC Runtime Library Exception, version
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3.1, as published by the Free Software Foundation.
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You should have received a copy of the GNU General Public License and
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a copy of the GCC Runtime Library Exception along with this program;
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see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see
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<http://www.gnu.org/licenses/>.  */
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#include "libgfortran.h"
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#include <stdlib.h>
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#include <assert.h>'
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include(iparm.m4)dnl
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`#if defined (HAVE_'rtype_name`)
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/* Dimensions: retarray(x,y) a(x, count) b(count,y).
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   Either a or b can be rank 1.  In this case x or y is 1.  */
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extern void matmul_'rtype_code` ('rtype` * const restrict,
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        gfc_array_l1 * const restrict, gfc_array_l1 * const restrict);
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export_proto(matmul_'rtype_code`);
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void
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matmul_'rtype_code` ('rtype` * const restrict retarray,
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        gfc_array_l1 * const restrict a, gfc_array_l1 * const restrict b)
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{
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  const GFC_LOGICAL_1 * restrict abase;
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  const GFC_LOGICAL_1 * restrict bbase;
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  'rtype_name` * restrict dest;
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  index_type rxstride;
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  index_type rystride;
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  index_type xcount;
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  index_type ycount;
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  index_type xstride;
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  index_type ystride;
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  index_type x;
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  index_type y;
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  int a_kind;
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  int b_kind;
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  const GFC_LOGICAL_1 * restrict pa;
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  const GFC_LOGICAL_1 * restrict pb;
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  index_type astride;
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  index_type bstride;
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  index_type count;
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  index_type n;
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  assert (GFC_DESCRIPTOR_RANK (a) == 2
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          || GFC_DESCRIPTOR_RANK (b) == 2);
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  if (retarray->data == NULL)
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    {
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      if (GFC_DESCRIPTOR_RANK (a) == 1)
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        {
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          GFC_DIMENSION_SET(retarray->dim[0], 0,
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                            GFC_DESCRIPTOR_EXTENT(b,1) - 1, 1);
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        }
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      else if (GFC_DESCRIPTOR_RANK (b) == 1)
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        {
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          GFC_DIMENSION_SET(retarray->dim[0], 0,
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                            GFC_DESCRIPTOR_EXTENT(a,0) - 1, 1);
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        }
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      else
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        {
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          GFC_DIMENSION_SET(retarray->dim[0], 0,
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                            GFC_DESCRIPTOR_EXTENT(a,0) - 1, 1);
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          GFC_DIMENSION_SET(retarray->dim[1], 0,
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                            GFC_DESCRIPTOR_EXTENT(b,1) - 1,
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                            GFC_DESCRIPTOR_EXTENT(retarray,0));
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        }
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      retarray->data
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        = internal_malloc_size (sizeof ('rtype_name`) * size0 ((array_t *) retarray));
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      retarray->offset = 0;
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    }
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    else if (unlikely (compile_options.bounds_check))
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      {
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        index_type ret_extent, arg_extent;
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        if (GFC_DESCRIPTOR_RANK (a) == 1)
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          {
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            arg_extent = GFC_DESCRIPTOR_EXTENT(b,1);
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            ret_extent = GFC_DESCRIPTOR_EXTENT(retarray,0);
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            if (arg_extent != ret_extent)
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              runtime_error ("Incorrect extent in return array in"
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                             " MATMUL intrinsic: is %ld, should be %ld",
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                             (long int) ret_extent, (long int) arg_extent);
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          }
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        else if (GFC_DESCRIPTOR_RANK (b) == 1)
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          {
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            arg_extent = GFC_DESCRIPTOR_EXTENT(a,0);
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            ret_extent = GFC_DESCRIPTOR_EXTENT(retarray,0);
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            if (arg_extent != ret_extent)
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              runtime_error ("Incorrect extent in return array in"
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                             " MATMUL intrinsic: is %ld, should be %ld",
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                             (long int) ret_extent, (long int) arg_extent);
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          }
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        else
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          {
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            arg_extent = GFC_DESCRIPTOR_EXTENT(a,0);
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            ret_extent = GFC_DESCRIPTOR_EXTENT(retarray,0);
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            if (arg_extent != ret_extent)
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              runtime_error ("Incorrect extent in return array in"
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                             " MATMUL intrinsic for dimension 1:"
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                             " is %ld, should be %ld",
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                             (long int) ret_extent, (long int) arg_extent);
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            arg_extent = GFC_DESCRIPTOR_EXTENT(b,1);
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            ret_extent = GFC_DESCRIPTOR_EXTENT(retarray,1);
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            if (arg_extent != ret_extent)
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              runtime_error ("Incorrect extent in return array in"
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                             " MATMUL intrinsic for dimension 2:"
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                             " is %ld, should be %ld",
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                             (long int) ret_extent, (long int) arg_extent);
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          }
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      }
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  abase = a->data;
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  a_kind = GFC_DESCRIPTOR_SIZE (a);
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  if (a_kind == 1 || a_kind == 2 || a_kind == 4 || a_kind == 8
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#ifdef HAVE_GFC_LOGICAL_16
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     || a_kind == 16
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#endif
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     )
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    abase = GFOR_POINTER_TO_L1 (abase, a_kind);
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  else
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    internal_error (NULL, "Funny sized logical array");
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  bbase = b->data;
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  b_kind = GFC_DESCRIPTOR_SIZE (b);
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  if (b_kind == 1 || b_kind == 2 || b_kind == 4 || b_kind == 8
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#ifdef HAVE_GFC_LOGICAL_16
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     || b_kind == 16
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#endif
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     )
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    bbase = GFOR_POINTER_TO_L1 (bbase, b_kind);
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  else
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    internal_error (NULL, "Funny sized logical array");
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  dest = retarray->data;
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'
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sinclude(`matmul_asm_'rtype_code`.m4')dnl
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`
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  if (GFC_DESCRIPTOR_RANK (retarray) == 1)
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    {
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      rxstride = GFC_DESCRIPTOR_STRIDE(retarray,0);
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      rystride = rxstride;
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    }
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  else
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    {
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      rxstride = GFC_DESCRIPTOR_STRIDE(retarray,0);
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      rystride = GFC_DESCRIPTOR_STRIDE(retarray,1);
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    }
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  /* If we have rank 1 parameters, zero the absent stride, and set the size to
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     one.  */
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  if (GFC_DESCRIPTOR_RANK (a) == 1)
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    {
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      astride = GFC_DESCRIPTOR_STRIDE_BYTES(a,0);
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      count = GFC_DESCRIPTOR_EXTENT(a,0);
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      xstride = 0;
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      rxstride = 0;
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      xcount = 1;
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    }
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  else
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    {
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      astride = GFC_DESCRIPTOR_STRIDE_BYTES(a,1);
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      count = GFC_DESCRIPTOR_EXTENT(a,1);
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      xstride = GFC_DESCRIPTOR_STRIDE_BYTES(a,0);
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      xcount = GFC_DESCRIPTOR_EXTENT(a,0);
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    }
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  if (GFC_DESCRIPTOR_RANK (b) == 1)
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    {
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      bstride = GFC_DESCRIPTOR_STRIDE_BYTES(b,0);
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      assert(count == GFC_DESCRIPTOR_EXTENT(b,0));
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      ystride = 0;
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      rystride = 0;
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      ycount = 1;
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    }
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  else
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    {
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      bstride = GFC_DESCRIPTOR_STRIDE_BYTES(b,0);
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      assert(count == GFC_DESCRIPTOR_EXTENT(b,0));
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      ystride = GFC_DESCRIPTOR_STRIDE_BYTES(b,1);
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      ycount = GFC_DESCRIPTOR_EXTENT(b,1);
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    }
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  for (y = 0; y < ycount; y++)
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    {
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      for (x = 0; x < xcount; x++)
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        {
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          /* Do the summation for this element.  For real and integer types
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             this is the same as DOT_PRODUCT.  For complex types we use do
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             a*b, not conjg(a)*b.  */
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          pa = abase;
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          pb = bbase;
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          *dest = 0;
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220
          for (n = 0; n < count; n++)
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            {
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              if (*pa && *pb)
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                {
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                  *dest = 1;
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                  break;
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                }
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              pa += astride;
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              pb += bstride;
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            }
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          dest += rxstride;
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          abase += xstride;
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        }
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      abase -= xstride * xcount;
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      bbase += ystride;
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      dest += rystride - (rxstride * xcount);
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    }
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}
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#endif
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