5095283b2f
* m4/ifunction_logical.m4: Add casts to get rid of warnings. * generated/all_l1.c: Regenerate. * generated/all_l2.c: Regenerate. * generated/all_l4.c: Regenerate. * generated/all_l8.c: Regenerate. * generated/all_l16.c: Regenerate. * generated/any_l1.c: Regenerate. * generated/any_l2.c: Regenerate. * generated/any_l4.c: Regenerate. * generated/any_l8.c: Regenerate. * generated/any_l16.c: Regenerate. * generated/count_1_l.c: Regenerate. * generated/count_2_l.c: Regenerate. * generated/count_4_l.c: Regenerate. * generated/count_8_l.c: Regenerate. * generated/count_16_l.c: Regenerate. From-SVN: r132619
206 lines
5.7 KiB
Plaintext
206 lines
5.7 KiB
Plaintext
dnl Support macro file for intrinsic functions.
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dnl Contains the generic sections of the array functions.
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dnl This file is part of the GNU Fortran 95 Runtime Library (libgfortran)
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dnl Distributed under the GNU GPL with exception. See COPYING for details.
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dnl
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dnl Pass the implementation for a single section as the parameter to
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dnl {MASK_}ARRAY_FUNCTION.
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dnl The variables base, delta, and len describe the input section.
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dnl For masked section the mask is described by mbase and mdelta.
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dnl These should not be modified. The result should be stored in *dest.
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dnl The names count, extent, sstride, dstride, base, dest, rank, dim
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dnl retarray, array, pdim and mstride should not be used.
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dnl The variable n is declared as index_type and may be used.
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dnl Other variable declarations may be placed at the start of the code,
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dnl The types of the array parameter and the return value are
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dnl atype_name and rtype_name respectively.
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dnl Execution should be allowed to continue to the end of the block.
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dnl You should not return or break from the inner loop of the implementation.
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dnl Care should also be taken to avoid using the names defined in iparm.m4
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define(START_ARRAY_FUNCTION,
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`
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extern void name`'rtype_qual`_'atype_code (rtype * const restrict,
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gfc_array_l1 * const restrict, const index_type * const restrict);
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export_proto(name`'rtype_qual`_'atype_code);
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void
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name`'rtype_qual`_'atype_code (rtype * const restrict retarray,
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gfc_array_l1 * 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_LOGICAL_1 * restrict base;
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rtype_name * 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 src_kind;
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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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src_kind = GFC_DESCRIPTOR_SIZE (array);
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len = array->dim[dim].ubound + 1 - array->dim[dim].lbound;
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delta = array->dim[dim].stride * src_kind;
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for (n = 0; n < dim; n++)
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{
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sstride[n] = array->dim[n].stride * src_kind;
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extent[n] = array->dim[n].ubound + 1 - array->dim[n].lbound;
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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] = array->dim[n + 1].stride * src_kind;
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extent[n] =
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array->dim[n + 1].ubound + 1 - array->dim[n + 1].lbound;
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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;
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for (n = 0; n < rank; n++)
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{
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retarray->dim[n].lbound = 0;
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retarray->dim[n].ubound = extent[n]-1;
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if (n == 0)
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retarray->dim[n].stride = 1;
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else
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retarray->dim[n].stride = retarray->dim[n-1].stride * extent[n-1];
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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 (rtype_name) * retarray->dim[rank-1].stride
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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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retarray->dim[0].lbound = 0;
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retarray->dim[0].ubound = -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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" u_name 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 (compile_options.bounds_check)
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{
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for (n=0; n < rank; n++)
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{
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index_type ret_extent;
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ret_extent = retarray->dim[n].ubound + 1
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- retarray->dim[n].lbound;
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if (extent[n] != ret_extent)
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runtime_error ("Incorrect extent in return value of"
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" u_name intrinsic in dimension %d:"
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" is %ld, should be %ld", n + 1,
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(long int) ret_extent, (long int) extent[n]);
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}
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}
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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] = retarray->dim[n].stride;
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if (extent[n] <= 0)
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len = 0;
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}
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base = array->data;
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if (src_kind == 1 || src_kind == 2 || src_kind == 4 || src_kind == 8
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#ifdef HAVE_GFC_LOGICAL_16
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|| src_kind == 16
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#endif
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)
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{
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if (base)
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base = GFOR_POINTER_TO_L1 (base, src_kind);
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}
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else
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internal_error (NULL, "Funny sized logical array in u_name intrinsic");
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dest = retarray->data;
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while (base)
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{
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const GFC_LOGICAL_1 * restrict src;
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rtype_name result;
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src = base;
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{
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')dnl
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define(START_ARRAY_BLOCK,
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` if (len <= 0)
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*dest = '$1`;
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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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')dnl
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define(FINISH_ARRAY_FUNCTION,
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` }
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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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base = NULL;
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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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}')dnl
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define(ARRAY_FUNCTION,
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`START_ARRAY_FUNCTION
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$2
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START_ARRAY_BLOCK($1)
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$3
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FINISH_ARRAY_FUNCTION')dnl
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