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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [libgfortran/] [generated/] [norm2_r8.c] - Blame information for rev 866

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1 733 jeremybenn
/* Implementation of the NORM2 intrinsic
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   Copyright 2010 Free Software Foundation, Inc.
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   Contributed by Tobias Burnus  <burnus@net-b.de>
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This file is part of the GNU Fortran 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 <math.h>
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#include <assert.h>
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#if defined (HAVE_GFC_REAL_8) && defined (HAVE_GFC_REAL_8) && defined (HAVE_SQRT) && defined (HAVE_FABS)
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#define MATHFUNC(funcname) funcname
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extern void norm2_r8 (gfc_array_r8 * const restrict,
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        gfc_array_r8 * const restrict, const index_type * const restrict);
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export_proto(norm2_r8);
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void
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norm2_r8 (gfc_array_r8 * const restrict retarray,
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        gfc_array_r8 * const restrict array,
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        const index_type * const restrict pdim)
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{
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  index_type count[GFC_MAX_DIMENSIONS];
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  index_type extent[GFC_MAX_DIMENSIONS];
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  index_type sstride[GFC_MAX_DIMENSIONS];
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  index_type dstride[GFC_MAX_DIMENSIONS];
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  const GFC_REAL_8 * restrict base;
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  GFC_REAL_8 * restrict dest;
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  index_type rank;
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  index_type n;
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  index_type len;
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  index_type delta;
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  index_type dim;
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  int continue_loop;
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  /* Make dim zero based to avoid confusion.  */
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  dim = (*pdim) - 1;
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  rank = GFC_DESCRIPTOR_RANK (array) - 1;
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  len = GFC_DESCRIPTOR_EXTENT(array,dim);
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  if (len < 0)
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    len = 0;
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  delta = GFC_DESCRIPTOR_STRIDE(array,dim);
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  for (n = 0; n < dim; n++)
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    {
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      sstride[n] = GFC_DESCRIPTOR_STRIDE(array,n);
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      extent[n] = GFC_DESCRIPTOR_EXTENT(array,n);
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      if (extent[n] < 0)
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        extent[n] = 0;
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    }
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  for (n = dim; n < rank; n++)
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    {
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      sstride[n] = GFC_DESCRIPTOR_STRIDE(array, n + 1);
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      extent[n] = GFC_DESCRIPTOR_EXTENT(array, n + 1);
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      if (extent[n] < 0)
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        extent[n] = 0;
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    }
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  if (retarray->data == NULL)
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    {
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      size_t alloc_size, str;
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      for (n = 0; n < rank; n++)
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        {
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          if (n == 0)
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            str = 1;
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          else
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            str = GFC_DESCRIPTOR_STRIDE(retarray,n-1) * extent[n-1];
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          GFC_DIMENSION_SET(retarray->dim[n], 0, extent[n] - 1, str);
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        }
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      retarray->offset = 0;
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      retarray->dtype = (array->dtype & ~GFC_DTYPE_RANK_MASK) | rank;
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      alloc_size = sizeof (GFC_REAL_8) * GFC_DESCRIPTOR_STRIDE(retarray,rank-1)
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                   * extent[rank-1];
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      if (alloc_size == 0)
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        {
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          /* Make sure we have a zero-sized array.  */
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          GFC_DIMENSION_SET(retarray->dim[0], 0, -1, 1);
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          return;
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        }
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      else
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        retarray->data = internal_malloc_size (alloc_size);
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    }
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  else
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    {
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      if (rank != GFC_DESCRIPTOR_RANK (retarray))
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        runtime_error ("rank of return array incorrect in"
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                       " NORM intrinsic: is %ld, should be %ld",
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                       (long int) (GFC_DESCRIPTOR_RANK (retarray)),
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                       (long int) rank);
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      if (unlikely (compile_options.bounds_check))
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        bounds_ifunction_return ((array_t *) retarray, extent,
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                                 "return value", "NORM");
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    }
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  for (n = 0; n < rank; n++)
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    {
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      count[n] = 0;
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      dstride[n] = GFC_DESCRIPTOR_STRIDE(retarray,n);
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      if (extent[n] <= 0)
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        return;
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    }
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  base = array->data;
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  dest = retarray->data;
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  continue_loop = 1;
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  while (continue_loop)
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    {
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      const GFC_REAL_8 * restrict src;
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      GFC_REAL_8 result;
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      src = base;
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      {
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        GFC_REAL_8 scale;
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        result = 0;
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        scale = 1;
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        if (len <= 0)
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          *dest = 0;
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        else
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          {
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            for (n = 0; n < len; n++, src += delta)
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              {
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          if (*src != 0)
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            {
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              GFC_REAL_8 absX, val;
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              absX = MATHFUNC(fabs) (*src);
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              if (scale < absX)
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                {
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                  val = scale / absX;
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                  result = 1 + result * val * val;
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                  scale = absX;
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                }
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              else
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                {
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                  val = absX / scale;
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                  result += val * val;
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                }
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            }
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              }
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            result = scale * MATHFUNC(sqrt) (result);
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            *dest = result;
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          }
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      }
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      /* Advance to the next element.  */
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      count[0]++;
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      base += sstride[0];
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      dest += dstride[0];
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      n = 0;
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      while (count[n] == extent[n])
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        {
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          /* When we get to the end of a dimension, reset it and increment
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             the next dimension.  */
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          count[n] = 0;
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          /* We could precalculate these products, but this is a less
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             frequently used path so probably not worth it.  */
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          base -= sstride[n] * extent[n];
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          dest -= dstride[n] * extent[n];
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          n++;
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          if (n == rank)
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            {
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              /* Break out of the look.  */
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              continue_loop = 0;
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              break;
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            }
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          else
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            {
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              count[n]++;
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              base += sstride[n];
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              dest += dstride[n];
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            }
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        }
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    }
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}
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#endif

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