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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [libgfortran/] [runtime/] [in_unpack_generic.c] - Rev 867
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/* Generic helper function for repacking arrays. Copyright 2003, 2004, 2005, 2007, 2009, 2010 Free Software Foundation, Inc. Contributed by Paul Brook <paul@nowt.org> This file is part of the GNU Fortran 95 runtime library (libgfortran). Libgfortran is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. Libgfortran is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. Under Section 7 of GPL version 3, you are granted additional permissions described in the GCC Runtime Library Exception, version 3.1, as published by the Free Software Foundation. You should have received a copy of the GNU General Public License and a copy of the GCC Runtime Library Exception along with this program; see the files COPYING3 and COPYING.RUNTIME respectively. If not, see <http://www.gnu.org/licenses/>. */ #include "libgfortran.h" #include <stdlib.h> #include <assert.h> #include <string.h> extern void internal_unpack (gfc_array_char *, const void *); export_proto(internal_unpack); void internal_unpack (gfc_array_char * d, const void * s) { index_type count[GFC_MAX_DIMENSIONS]; index_type extent[GFC_MAX_DIMENSIONS]; index_type stride[GFC_MAX_DIMENSIONS]; index_type stride0; index_type dim; index_type dsize; char *dest; const char *src; int n; int size; int type_size; dest = d->data; /* This check may be redundant, but do it anyway. */ if (s == dest || !s) return; type_size = GFC_DTYPE_TYPE_SIZE (d); switch (type_size) { case GFC_DTYPE_INTEGER_1: case GFC_DTYPE_LOGICAL_1: case GFC_DTYPE_DERIVED_1: internal_unpack_1 ((gfc_array_i1 *) d, (const GFC_INTEGER_1 *) s); return; case GFC_DTYPE_INTEGER_2: case GFC_DTYPE_LOGICAL_2: internal_unpack_2 ((gfc_array_i2 *) d, (const GFC_INTEGER_2 *) s); return; case GFC_DTYPE_INTEGER_4: case GFC_DTYPE_LOGICAL_4: internal_unpack_4 ((gfc_array_i4 *) d, (const GFC_INTEGER_4 *) s); return; case GFC_DTYPE_INTEGER_8: case GFC_DTYPE_LOGICAL_8: internal_unpack_8 ((gfc_array_i8 *) d, (const GFC_INTEGER_8 *) s); return; #if defined (HAVE_GFC_INTEGER_16) case GFC_DTYPE_INTEGER_16: case GFC_DTYPE_LOGICAL_16: internal_unpack_16 ((gfc_array_i16 *) d, (const GFC_INTEGER_16 *) s); return; #endif case GFC_DTYPE_REAL_4: internal_unpack_r4 ((gfc_array_r4 *) d, (const GFC_REAL_4 *) s); return; case GFC_DTYPE_REAL_8: internal_unpack_r8 ((gfc_array_r8 *) d, (const GFC_REAL_8 *) s); return; /* FIXME: This here is a hack, which will have to be removed when the array descriptor is reworked. Currently, we don't store the kind value for the type, but only the size. Because on targets with __float128, we have sizeof(logn double) == sizeof(__float128), we cannot discriminate here and have to fall back to the generic handling (which is suboptimal). */ #if !defined(GFC_REAL_16_IS_FLOAT128) # if defined(HAVE_GFC_REAL_10) case GFC_DTYPE_REAL_10: internal_unpack_r10 ((gfc_array_r10 *) d, (const GFC_REAL_10 *) s); return; # endif # if defined(HAVE_GFC_REAL_16) case GFC_DTYPE_REAL_16: internal_unpack_r16 ((gfc_array_r16 *) d, (const GFC_REAL_16 *) s); return; # endif #endif case GFC_DTYPE_COMPLEX_4: internal_unpack_c4 ((gfc_array_c4 *)d, (const GFC_COMPLEX_4 *)s); return; case GFC_DTYPE_COMPLEX_8: internal_unpack_c8 ((gfc_array_c8 *)d, (const GFC_COMPLEX_8 *)s); return; /* FIXME: This here is a hack, which will have to be removed when the array descriptor is reworked. Currently, we don't store the kind value for the type, but only the size. Because on targets with __float128, we have sizeof(logn double) == sizeof(__float128), we cannot discriminate here and have to fall back to the generic handling (which is suboptimal). */ #if !defined(GFC_REAL_16_IS_FLOAT128) # if defined(HAVE_GFC_COMPLEX_10) case GFC_DTYPE_COMPLEX_10: internal_unpack_c10 ((gfc_array_c10 *) d, (const GFC_COMPLEX_10 *) s); return; # endif # if defined(HAVE_GFC_COMPLEX_16) case GFC_DTYPE_COMPLEX_16: internal_unpack_c16 ((gfc_array_c16 *) d, (const GFC_COMPLEX_16 *) s); return; # endif #endif case GFC_DTYPE_DERIVED_2: if (GFC_UNALIGNED_2(d->data) || GFC_UNALIGNED_2(s)) break; else { internal_unpack_2 ((gfc_array_i2 *) d, (const GFC_INTEGER_2 *) s); return; } case GFC_DTYPE_DERIVED_4: if (GFC_UNALIGNED_4(d->data) || GFC_UNALIGNED_4(s)) break; else { internal_unpack_4 ((gfc_array_i4 *) d, (const GFC_INTEGER_4 *) s); return; } case GFC_DTYPE_DERIVED_8: if (GFC_UNALIGNED_8(d->data) || GFC_UNALIGNED_8(s)) break; else { internal_unpack_8 ((gfc_array_i8 *) d, (const GFC_INTEGER_8 *) s); return; } #ifdef HAVE_GFC_INTEGER_16 case GFC_DTYPE_DERIVED_16: if (GFC_UNALIGNED_16(d->data) || GFC_UNALIGNED_16(s)) break; else { internal_unpack_16 ((gfc_array_i16 *) d, (const GFC_INTEGER_16 *) s); return; } #endif default: break; } size = GFC_DESCRIPTOR_SIZE (d); dim = GFC_DESCRIPTOR_RANK (d); dsize = 1; for (n = 0; n < dim; n++) { count[n] = 0; stride[n] = GFC_DESCRIPTOR_STRIDE(d,n); extent[n] = GFC_DESCRIPTOR_EXTENT(d,n); if (extent[n] <= 0) return; if (dsize == stride[n]) dsize *= extent[n]; else dsize = 0; } src = s; if (dsize != 0) { memcpy (dest, src, dsize * size); return; } stride0 = stride[0] * size; while (dest) { /* Copy the data. */ memcpy (dest, src, size); /* Advance to the next element. */ src += size; dest += stride0; count[0]++; /* Advance to the next source element. */ n = 0; while (count[n] == extent[n]) { /* When we get to the end of a dimension, reset it and increment the next dimension. */ count[n] = 0; /* We could precalculate these products, but this is a less frequently used path so probably not worth it. */ dest -= stride[n] * extent[n] * size; n++; if (n == dim) { dest = NULL; break; } else { count[n]++; dest += stride[n] * size; } } } }
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