diff options
-rw-r--r-- | bfd/ChangeLog | 15 | ||||
-rw-r--r-- | bfd/ecoff.c | 39 | ||||
-rw-r--r-- | bfd/ecofflink.c | 16 | ||||
-rw-r--r-- | bfd/elf32-arm.c | 592 | ||||
-rw-r--r-- | bfd/elf64-alpha.c | 107 | ||||
-rw-r--r-- | gas/ChangeLog | 24 | ||||
-rw-r--r-- | gas/config/obj-aout.h | 4 | ||||
-rw-r--r-- | gas/config/obj-elf.c | 2 | ||||
-rw-r--r-- | gas/config/tc-alpha.c | 45 | ||||
-rw-r--r-- | gas/config/tc-arc.c | 15 | ||||
-rw-r--r-- | gas/config/tc-arm.c | 2745 | ||||
-rw-r--r-- | gas/ecoff.c | 8 | ||||
-rw-r--r-- | ld/ChangeLog | 6 | ||||
-rw-r--r-- | ld/emultempl/armelf.em | 7 | ||||
-rw-r--r-- | opcodes/ChangeLog | 9 | ||||
-rw-r--r-- | opcodes/arc-dis.c | 6 | ||||
-rw-r--r-- | opcodes/arc-ext.c | 6 | ||||
-rw-r--r-- | opcodes/arm-dis.c | 2 |
18 files changed, 1878 insertions, 1770 deletions
diff --git a/bfd/ChangeLog b/bfd/ChangeLog index fb20d07..34cb253 100644 --- a/bfd/ChangeLog +++ b/bfd/ChangeLog @@ -1,3 +1,18 @@ +2009-09-25 Martin Thuresson <martint@google.com> + + Update soruces to make alpha and arm targets compile cleanly with + -Wc++-compat: + * ecoff.c: Add casts. + * ecofflink.c: Add casts. + * elf64-alpha.c: Add casts. + (struct alpha_elf_got_entry, struct alpha_elf_reloc_entry): Move + to top level. + (SKIP_HOWTO): Use enum name. + * elf32-arm.c: Add casts. + (elf32_arm_vxworks_bed): Update code to avoid multiple + declarations. + (struct map_stub): Move to top level. + 2009-09-24 H.J. Lu <hongjiu.lu@intel.com> PR ld/10630 diff --git a/bfd/ecoff.c b/bfd/ecoff.c index cb5d82f..48ce98c 100644 --- a/bfd/ecoff.c +++ b/bfd/ecoff.c @@ -89,7 +89,7 @@ _bfd_ecoff_mkobject (bfd *abfd) { bfd_size_type amt = sizeof (ecoff_data_type); - abfd->tdata.ecoff_obj_data = bfd_zalloc (abfd, amt); + abfd->tdata.ecoff_obj_data = (struct ecoff_tdata *) bfd_zalloc (abfd, amt); if (abfd->tdata.ecoff_obj_data == NULL) return FALSE; @@ -193,7 +193,7 @@ _bfd_ecoff_new_section_hook (bfd *abfd, asection *section) bfd_boolean _bfd_ecoff_set_arch_mach_hook (bfd *abfd, void * filehdr) { - struct internal_filehdr *internal_f = filehdr; + struct internal_filehdr *internal_f = (struct internal_filehdr *) filehdr; enum bfd_architecture arch; unsigned long mach; @@ -366,7 +366,7 @@ _bfd_ecoff_styp_to_sec_flags (bfd *abfd ATTRIBUTE_UNUSED, asection *section ATTRIBUTE_UNUSED, flagword * flags_ptr) { - struct internal_scnhdr *internal_s = hdr; + struct internal_scnhdr *internal_s = (struct internal_scnhdr *) hdr; long styp_flags = internal_s->s_flags; flagword sec_flags = 0; @@ -614,7 +614,7 @@ _bfd_ecoff_slurp_symbolic_info (bfd *abfd, the symbols, so we swap them here. */ amt = internal_symhdr->ifdMax; amt *= sizeof (struct fdr); - debug->fdr = bfd_alloc (abfd, amt); + debug->fdr = (FDR *) bfd_alloc (abfd, amt); if (debug->fdr == NULL) return FALSE; external_fdr_size = backend->debug_swap.external_fdr_size; @@ -882,7 +882,7 @@ _bfd_ecoff_slurp_symbol_table (bfd *abfd) internal_size = bfd_get_symcount (abfd); internal_size *= sizeof (ecoff_symbol_type); - internal = bfd_alloc (abfd, internal_size); + internal = (ecoff_symbol_type *) bfd_alloc (abfd, internal_size); if (internal == NULL) return FALSE; @@ -1580,11 +1580,11 @@ ecoff_slurp_reloc_table (bfd *abfd, amt = section->reloc_count; amt *= sizeof (arelent); - internal_relocs = bfd_alloc (abfd, amt); + internal_relocs = (arelent *) bfd_alloc (abfd, amt); external_reloc_size = backend->external_reloc_size; amt = external_reloc_size * section->reloc_count; - external_relocs = bfd_alloc (abfd, amt); + external_relocs = (char *) bfd_alloc (abfd, amt); if (internal_relocs == NULL || external_relocs == NULL) return FALSE; if (bfd_seek (abfd, section->rel_filepos, SEEK_SET) != 0) @@ -1730,7 +1730,8 @@ _bfd_ecoff_find_nearest_line (bfd *abfd, { bfd_size_type amt = sizeof (struct ecoff_find_line); - ecoff_data (abfd)->find_line_info = bfd_zalloc (abfd, amt); + ecoff_data (abfd)->find_line_info = + (struct ecoff_find_line *) bfd_zalloc (abfd, amt); if (ecoff_data (abfd)->find_line_info == NULL) return FALSE; } @@ -1955,7 +1956,7 @@ ecoff_compute_section_file_positions (bfd *abfd) /* Sort the sections by VMA. */ amt = abfd->section_count; amt *= sizeof (asection *); - sorted_hdrs = bfd_malloc (amt); + sorted_hdrs = (asection **) bfd_malloc (amt); if (sorted_hdrs == NULL) return FALSE; for (current = abfd->sections, i = 0; @@ -2908,7 +2909,7 @@ _bfd_ecoff_slurp_armap (bfd *abfd) parsed_size = mapdata->parsed_size; bfd_release (abfd, (void *) mapdata); - raw_armap = bfd_alloc (abfd, parsed_size); + raw_armap = (char *) bfd_alloc (abfd, parsed_size); if (raw_armap == NULL) return FALSE; @@ -2975,7 +2976,7 @@ _bfd_ecoff_slurp_armap (bfd *abfd) amt = ardata->symdef_count; amt *= sizeof (struct symdef); - symdef_ptr = bfd_alloc (abfd, amt); + symdef_ptr = (struct symdef *) bfd_alloc (abfd, amt); if (!symdef_ptr) return FALSE; @@ -3091,7 +3092,7 @@ _bfd_ecoff_write_armap (bfd *abfd, if (bfd_bwrite ((void *) temp, (bfd_size_type) 4, abfd) != 4) return FALSE; - hashtable = bfd_zalloc (abfd, symdefsize); + hashtable = (bfd_byte *) bfd_zalloc (abfd, symdefsize); if (!hashtable) return FALSE; @@ -3211,7 +3212,7 @@ _bfd_ecoff_bfd_link_hash_table_create (bfd *abfd) struct ecoff_link_hash_table *ret; bfd_size_type amt = sizeof (struct ecoff_link_hash_table); - ret = bfd_malloc (amt); + ret = (struct ecoff_link_hash_table *) bfd_malloc (amt); if (ret == NULL) return NULL; if (!_bfd_link_hash_table_init (&ret->root, abfd, @@ -3269,7 +3270,7 @@ ecoff_link_add_externals (bfd *abfd, amt = ext_count; amt *= sizeof (struct bfd_link_hash_entry *); - sym_hash = bfd_alloc (abfd, amt); + sym_hash = (struct bfd_link_hash_entry **) bfd_alloc (abfd, amt); if (!sym_hash) return FALSE; ecoff_data (abfd)->sym_hashes = (struct ecoff_link_hash_entry **) sym_hash; @@ -3483,7 +3484,7 @@ ecoff_link_add_object_symbols (bfd *abfd, struct bfd_link_info *info) || bfd_bread (external_ext, esize, abfd) != esize) goto error_return; - ssext = bfd_malloc ((bfd_size_type) symhdr->issExtMax); + ssext = (char *) bfd_malloc ((bfd_size_type) symhdr->issExtMax); if (ssext == NULL && symhdr->issExtMax != 0) goto error_return; @@ -3549,7 +3550,7 @@ ecoff_link_check_archive_element (bfd *abfd, || bfd_bread (external_ext, esize, abfd) != esize) goto error_return; - ssext = bfd_malloc ((bfd_size_type) symhdr->issExtMax); + ssext = (char *) bfd_malloc ((bfd_size_type) symhdr->issExtMax); if (ssext == NULL && symhdr->issExtMax != 0) goto error_return; @@ -3838,7 +3839,7 @@ ecoff_final_link_debug_accumulate (bfd *output_bfd, else \ { \ bfd_size_type amt = (bfd_size_type) size * symhdr->count; \ - debug->ptr = bfd_malloc (amt); \ + debug->ptr = (type) bfd_malloc (amt); \ if (debug->ptr == NULL) \ { \ ret = FALSE; \ @@ -4083,7 +4084,7 @@ ecoff_reloc_link_order (bfd *output_bfd, bfd_byte *buf; size = bfd_get_reloc_size (rel.howto); - buf = bfd_zmalloc (size); + buf = (bfd_byte *) bfd_zmalloc (size); if (buf == NULL) return FALSE; rstat = _bfd_relocate_contents (rel.howto, output_bfd, @@ -4192,7 +4193,7 @@ ecoff_reloc_link_order (bfd *output_bfd, /* Get some memory and swap out the reloc. */ external_reloc_size = ecoff_backend (output_bfd)->external_reloc_size; - rbuf = bfd_malloc (external_reloc_size); + rbuf = (bfd_byte *) bfd_malloc (external_reloc_size); if (rbuf == NULL) return FALSE; diff --git a/bfd/ecofflink.c b/bfd/ecofflink.c index 072c97a..25b67fa 100644 --- a/bfd/ecofflink.c +++ b/bfd/ecofflink.c @@ -1,6 +1,6 @@ /* Routines to link ECOFF debugging information. Copyright 1993, 1994, 1995, 1996, 1997, 1999, 2000, 2001, 2002, 2003, - 2004, 2005, 2006, 2007, 2008 Free Software Foundation, Inc. + 2004, 2005, 2006, 2007, 2008, 2009 Free Software Foundation, Inc. Written by Ian Lance Taylor, Cygnus Support, <ian@cygnus.com>. This file is part of BFD, the Binary File Descriptor library. @@ -1084,8 +1084,8 @@ ecoff_add_string (ainfo, info, debug, fdr, string) len = strlen (string); if (info->relocatable) { - if (!add_memory_shuffle (ainfo, &ainfo->ss, &ainfo->ss_end, (PTR) string, - len + 1)) + if (!add_memory_shuffle (ainfo, &ainfo->ss, &ainfo->ss_end, + (bfd_byte *) string, len + 1)) return -1; ret = symhdr->issMax; symhdr->issMax += len + 1; @@ -1207,7 +1207,7 @@ bfd_ecoff_debug_accumulate_other (handle, output_bfd, output_debug, } (*swap_sym_out) (output_bfd, &internal_sym, external_sym); add_memory_shuffle (ainfo, &ainfo->sym, &ainfo->sym_end, - external_sym, + (bfd_byte *) external_sym, (unsigned long) output_swap->external_sym_size); ++fdr.csym; ++output_symhdr->isymMax; @@ -1228,7 +1228,7 @@ bfd_ecoff_debug_accumulate_other (handle, output_bfd, output_debug, } (*output_swap->swap_fdr_out) (output_bfd, &fdr, external_fdr); add_memory_shuffle (ainfo, &ainfo->fdr, &ainfo->fdr_end, - external_fdr, + (bfd_byte *) external_fdr, (unsigned long) output_swap->external_fdr_size); ++output_symhdr->ifdMax; @@ -1338,8 +1338,8 @@ bfd_ecoff_debug_one_external (abfd, debug, swap, name, esym) - (char *) debug->external_ext) < (symhdr->iextMax + 1) * external_ext_size) { - char *external_ext = debug->external_ext; - char *external_ext_end = debug->external_ext_end; + char *external_ext = (char *) debug->external_ext; + char *external_ext_end = (char *) debug->external_ext_end; if (! ecoff_add_bytes ((char **) &external_ext, (char **) &external_ext_end, (symhdr->iextMax + 1) * (size_t) external_ext_size)) @@ -1503,7 +1503,7 @@ ecoff_write_symhdr (abfd, debug, swap, where) SET (cbExtOffset, iextMax, swap->external_ext_size); #undef SET - buff = (PTR) bfd_malloc (swap->external_hdr_size); + buff = (char *) bfd_malloc (swap->external_hdr_size); if (buff == NULL && swap->external_hdr_size != 0) goto error_return; diff --git a/bfd/elf32-arm.c b/bfd/elf32-arm.c index 157024c..b449ee8 100644 --- a/bfd/elf32-arm.c +++ b/bfd/elf32-arm.c @@ -61,8 +61,6 @@ #define ARM_ELF_ABI_VERSION 0 #define ARM_ELF_OS_ABI_VERSION ELFOSABI_ARM -static struct elf_backend_data elf32_arm_vxworks_bed; - static bfd_boolean elf32_arm_write_section (bfd *output_bfd, struct bfd_link_info *link_info, asection *sec, @@ -2523,6 +2521,17 @@ struct elf32_arm_link_hash_entry ((struct elf32_arm_stub_hash_entry *) \ bfd_hash_lookup ((table), (string), (create), (copy))) +/* Array to keep track of which stub sections have been created, and + information on stub grouping. */ +struct map_stub +{ + /* This is the section to which stubs in the group will be + attached. */ + asection *link_sec; + /* The stub section. */ + asection *stub_sec; +}; + /* ARM ELF linker hash table. */ struct elf32_arm_link_hash_table { @@ -2638,14 +2647,7 @@ struct elf32_arm_link_hash_table /* Array to keep track of which stub sections have been created, and information on stub grouping. */ - struct map_stub - { - /* This is the section to which stubs in the group will be - attached. */ - asection *link_sec; - /* The stub section. */ - asection *stub_sec; - } *stub_group; + struct map_stub *stub_group; /* Assorted information used by elf32_arm_size_stubs. */ unsigned int bfd_count; @@ -2666,7 +2668,8 @@ elf32_arm_link_hash_newfunc (struct bfd_hash_entry * entry, /* Allocate the structure if it has not already been allocated by a subclass. */ if (ret == NULL) - ret = bfd_hash_allocate (table, sizeof (struct elf32_arm_link_hash_entry)); + ret = (struct elf32_arm_link_hash_entry *) + bfd_hash_allocate (table, sizeof (struct elf32_arm_link_hash_entry)); if (ret == NULL) return (struct bfd_hash_entry *) ret; @@ -2700,8 +2703,8 @@ stub_hash_newfunc (struct bfd_hash_entry *entry, subclass. */ if (entry == NULL) { - entry = bfd_hash_allocate (table, - sizeof (struct elf32_arm_stub_hash_entry)); + entry = (struct bfd_hash_entry *) + bfd_hash_allocate (table, sizeof (struct elf32_arm_stub_hash_entry)); if (entry == NULL) return entry; } @@ -2882,7 +2885,7 @@ elf32_arm_link_hash_table_create (bfd *abfd) struct elf32_arm_link_hash_table *ret; bfd_size_type amt = sizeof (struct elf32_arm_link_hash_table); - ret = bfd_malloc (amt); + ret = (struct elf32_arm_link_hash_table *) bfd_malloc (amt); if (ret == NULL) return NULL; @@ -3248,7 +3251,7 @@ elf32_arm_stub_name (const asection *input_section, if (hash) { len = 8 + 1 + strlen (hash->root.root.root.string) + 1 + 8 + 1; - stub_name = bfd_malloc (len); + stub_name = (char *) bfd_malloc (len); if (stub_name != NULL) sprintf (stub_name, "%08x_%s+%x", input_section->id & 0xffffffff, @@ -3258,7 +3261,7 @@ elf32_arm_stub_name (const asection *input_section, else { len = 8 + 1 + 8 + 1 + 8 + 1 + 8 + 1; - stub_name = bfd_malloc (len); + stub_name = (char *) bfd_malloc (len); if (stub_name != NULL) sprintf (stub_name, "%08x_%x:%x+%x", input_section->id & 0xffffffff, @@ -3343,7 +3346,7 @@ elf32_arm_create_or_find_stub_sec (asection **link_sec_p, asection *section, namelen = strlen (link_sec->name); len = namelen + sizeof (STUB_SUFFIX); - s_name = bfd_alloc (htab->stub_bfd, len); + s_name = (char *) bfd_alloc (htab->stub_bfd, len); if (s_name == NULL) return NULL; @@ -3725,7 +3728,7 @@ elf32_arm_setup_section_lists (bfd *output_bfd, htab->bfd_count = bfd_count; amt = sizeof (struct map_stub) * (top_id + 1); - htab->stub_group = bfd_zmalloc (amt); + htab->stub_group = (struct map_stub *) bfd_zmalloc (amt); if (htab->stub_group == NULL) return -1; @@ -3742,7 +3745,7 @@ elf32_arm_setup_section_lists (bfd *output_bfd, htab->top_index = top_index; amt = sizeof (asection *) * (top_index + 1); - input_list = bfd_malloc (amt); + input_list = (asection **) bfd_malloc (amt); htab->input_list = input_list; if (input_list == NULL) return -1; @@ -3899,7 +3902,8 @@ group_sections (struct elf32_arm_link_hash_table *htab, static int a8_reloc_compare (const void *a, const void *b) { - const struct a8_erratum_reloc *ra = a, *rb = b; + const struct a8_erratum_reloc *ra = (const struct a8_erratum_reloc *) a; + const struct a8_erratum_reloc *rb = (const struct a8_erratum_reloc *) b; if (ra->from < rb->from) return -1; @@ -4024,9 +4028,10 @@ cortex_a8_erratum_scan (bfd *input_bfd, struct a8_erratum_reloc key, *found; key.from = base_vma + i; - found = bsearch (&key, a8_relocs, num_a8_relocs, - sizeof (struct a8_erratum_reloc), - &a8_reloc_compare); + found = (struct a8_erratum_reloc *) + bsearch (&key, a8_relocs, num_a8_relocs, + sizeof (struct a8_erratum_reloc), + &a8_reloc_compare); if (found) { @@ -4143,9 +4148,10 @@ cortex_a8_erratum_scan (bfd *input_bfd, if (num_a8_fixes == a8_fix_table_size) { a8_fix_table_size *= 2; - a8_fixes = bfd_realloc (a8_fixes, - sizeof (struct a8_erratum_fix) - * a8_fix_table_size); + a8_fixes = (struct a8_erratum_fix *) + bfd_realloc (a8_fixes, + sizeof (struct a8_erratum_fix) + * a8_fix_table_size); } if (num_a8_fixes < prev_num_a8_fixes) @@ -4166,7 +4172,7 @@ cortex_a8_erratum_scan (bfd *input_bfd, if (!stub_name) { - stub_name = bfd_malloc (8 + 1 + 8 + 1); + stub_name = (char *) bfd_malloc (8 + 1 + 8 + 1); if (stub_name != NULL) sprintf (stub_name, "%x:%x", section->id, i); } @@ -4225,10 +4231,10 @@ elf32_arm_size_stubs (bfd *output_bfd, if (htab->fix_cortex_a8) { - a8_fixes = bfd_zmalloc (sizeof (struct a8_erratum_fix) - * a8_fix_table_size); - a8_relocs = bfd_zmalloc (sizeof (struct a8_erratum_reloc) - * a8_reloc_table_size); + a8_fixes = (struct a8_erratum_fix *) + bfd_zmalloc (sizeof (struct a8_erratum_fix) * a8_fix_table_size); + a8_relocs = (struct a8_erratum_reloc *) + bfd_zmalloc (sizeof (struct a8_erratum_reloc) * a8_reloc_table_size); } /* Propagate mach to stub bfd, because it may not have been @@ -4539,8 +4545,8 @@ elf32_arm_size_stubs (bfd *output_bfd, if (sym_name == NULL) sym_name = "unnamed"; - stub_entry->output_name - = bfd_alloc (htab->stub_bfd, + stub_entry->output_name = (char *) + bfd_alloc (htab->stub_bfd, sizeof (THUMB2ARM_GLUE_ENTRY_NAME) + strlen (sym_name)); if (stub_entry->output_name == NULL) @@ -4591,9 +4597,10 @@ elf32_arm_size_stubs (bfd *output_bfd, if (num_a8_relocs == a8_reloc_table_size) { a8_reloc_table_size *= 2; - a8_relocs = bfd_realloc (a8_relocs, - sizeof (struct a8_erratum_reloc) - * a8_reloc_table_size); + a8_relocs = (struct a8_erratum_reloc *) + bfd_realloc (a8_relocs, + sizeof (struct a8_erratum_reloc) + * a8_reloc_table_size); } a8_relocs[num_a8_relocs].from = from; @@ -4757,7 +4764,7 @@ elf32_arm_build_stubs (struct bfd_link_info *info) /* Allocate memory to hold the linker stubs. */ size = stub_sec->size; - stub_sec->contents = bfd_zalloc (htab->stub_bfd, size); + stub_sec->contents = (unsigned char *) bfd_zalloc (htab->stub_bfd, size); if (stub_sec->contents == NULL && size != 0) return FALSE; stub_sec->size = 0; @@ -4790,8 +4797,8 @@ find_thumb_glue (struct bfd_link_info *link_info, /* We need a pointer to the armelf specific hash table. */ hash_table = elf32_arm_hash_table (link_info); - tmp_name = bfd_malloc ((bfd_size_type) strlen (name) - + strlen (THUMB2ARM_GLUE_ENTRY_NAME) + 1); + tmp_name = (char *) bfd_malloc ((bfd_size_type) strlen (name) + + strlen (THUMB2ARM_GLUE_ENTRY_NAME) + 1); BFD_ASSERT (tmp_name); @@ -4824,8 +4831,8 @@ find_arm_glue (struct bfd_link_info *link_info, /* We need a pointer to the elfarm specific hash table. */ hash_table = elf32_arm_hash_table (link_info); - tmp_name = bfd_malloc ((bfd_size_type) strlen (name) - + strlen (ARM2THUMB_GLUE_ENTRY_NAME) + 1); + tmp_name = (char *) bfd_malloc ((bfd_size_type) strlen (name) + + strlen (ARM2THUMB_GLUE_ENTRY_NAME) + 1); BFD_ASSERT (tmp_name); @@ -4935,7 +4942,7 @@ arm_allocate_glue_section_space (bfd * abfd, bfd_size_type size, const char * na s = bfd_get_section_by_name (abfd, name); BFD_ASSERT (s != NULL); - contents = bfd_alloc (abfd, size); + contents = (bfd_byte *) bfd_alloc (abfd, size); BFD_ASSERT (s->size == size); s->contents = contents; @@ -4994,7 +5001,8 @@ record_arm_to_thumb_glue (struct bfd_link_info * link_info, BFD_ASSERT (s != NULL); - tmp_name = bfd_malloc ((bfd_size_type) strlen (name) + strlen (ARM2THUMB_GLUE_ENTRY_NAME) + 1); + tmp_name = (char *) bfd_malloc ((bfd_size_type) strlen (name) + + strlen (ARM2THUMB_GLUE_ENTRY_NAME) + 1); BFD_ASSERT (tmp_name); @@ -5071,7 +5079,8 @@ record_arm_bx_glue (struct bfd_link_info * link_info, int reg) BFD_ASSERT (s != NULL); /* Add symbol for veneer. */ - tmp_name = bfd_malloc ((bfd_size_type) strlen (ARM_BX_GLUE_ENTRY_NAME) + 1); + tmp_name = (char *) + bfd_malloc ((bfd_size_type) strlen (ARM_BX_GLUE_ENTRY_NAME) + 1); BFD_ASSERT (tmp_name); @@ -5108,7 +5117,8 @@ elf32_arm_section_map_add (asection *sec, char type, bfd_vma vma) if (sec_data->map == NULL) { - sec_data->map = bfd_malloc (sizeof (elf32_arm_section_map)); + sec_data->map = (elf32_arm_section_map *) + bfd_malloc (sizeof (elf32_arm_section_map)); sec_data->mapcount = 0; sec_data->mapsize = 1; } @@ -5118,8 +5128,9 @@ elf32_arm_section_map_add (asection *sec, char type, bfd_vma vma) if (sec_data->mapcount > sec_data->mapsize) { sec_data->mapsize *= 2; - sec_data->map = bfd_realloc_or_free (sec_data->map, sec_data->mapsize - * sizeof (elf32_arm_section_map)); + sec_data->map = (elf32_arm_section_map *) + bfd_realloc_or_free (sec_data->map, sec_data->mapsize + * sizeof (elf32_arm_section_map)); } if (sec_data->map) @@ -5162,8 +5173,8 @@ record_vfp11_erratum_veneer (struct bfd_link_info *link_info, BFD_ASSERT (s != NULL); - tmp_name = bfd_malloc ((bfd_size_type) strlen - (VFP11_ERRATUM_VENEER_ENTRY_NAME) + 10); + tmp_name = (char *) bfd_malloc ((bfd_size_type) strlen + (VFP11_ERRATUM_VENEER_ENTRY_NAME) + 10); BFD_ASSERT (tmp_name); @@ -5187,7 +5198,8 @@ record_vfp11_erratum_veneer (struct bfd_link_info *link_info, /* Link veneer back to calling location. */ errcount = ++(sec_data->erratumcount); - newerr = bfd_zmalloc (sizeof (elf32_vfp11_erratum_list)); + newerr = (elf32_vfp11_erratum_list *) + bfd_zmalloc (sizeof (elf32_vfp11_erratum_list)); newerr->type = VFP11_ERRATUM_ARM_VENEER; newerr->vma = -1; @@ -6033,8 +6045,8 @@ bfd_elf32_arm_vfp11_erratum_scan (bfd *abfd, struct bfd_link_info *link_info) if (state == 3) { - elf32_vfp11_erratum_list *newerr - = bfd_zmalloc (sizeof (elf32_vfp11_erratum_list)); + elf32_vfp11_erratum_list *newerr =(elf32_vfp11_erratum_list *) + bfd_zmalloc (sizeof (elf32_vfp11_erratum_list)); int errcount; errcount = ++(elf32_arm_section_data (sec)->erratumcount); @@ -6102,8 +6114,8 @@ bfd_elf32_arm_vfp11_fix_veneer_locations (bfd *abfd, globals = elf32_arm_hash_table (link_info); - tmp_name = bfd_malloc ((bfd_size_type) strlen - (VFP11_ERRATUM_VENEER_ENTRY_NAME) + 10); + tmp_name = (char *) bfd_malloc ((bfd_size_type) strlen + (VFP11_ERRATUM_VENEER_ENTRY_NAME) + 10); for (sec = abfd->sections; sec != NULL; sec = sec->next) { @@ -8092,7 +8104,7 @@ elf32_arm_final_link_relocate (reloc_howto_type * howto, (_("%B(%A+0x%lx): R_ARM_TLS_LE32 relocation not permitted in shared object"), input_bfd, input_section, (long) rel->r_offset, howto->name); - return FALSE; + return (bfd_reloc_status_type) FALSE; } else value = tpoff (info, value); @@ -9042,7 +9054,8 @@ add_unwind_table_edit (arm_unwind_table_edit **head, asection *linked_section, unsigned int index) { - arm_unwind_table_edit *new_edit = xmalloc (sizeof (arm_unwind_table_edit)); + arm_unwind_table_edit *new_edit = (arm_unwind_table_edit *) + xmalloc (sizeof (arm_unwind_table_edit)); new_edit->type = type; new_edit->linked_section = linked_section; @@ -9539,7 +9552,7 @@ set_secondary_compatible_arch (bfd *abfd, int arch) /* Note: the tag and its argument below are uleb128 values, though currently-defined values fit in one byte for each. */ if (!attr->s) - attr->s = bfd_alloc (abfd, 3); + attr->s = (char *) bfd_alloc (abfd, 3); attr->s[0] = Tag_CPU_arch; attr->s[1] = arch; attr->s[2] = '\0'; @@ -10195,225 +10208,7 @@ elf32_arm_versions_compatible (unsigned iver, unsigned over) object file when linking. */ static bfd_boolean -elf32_arm_merge_private_bfd_data (bfd * ibfd, bfd * obfd) -{ - flagword out_flags; - flagword in_flags; - bfd_boolean flags_compatible = TRUE; - asection *sec; - - /* Check if we have the same endianess. */ - if (! _bfd_generic_verify_endian_match (ibfd, obfd)) - return FALSE; - - if (! is_arm_elf (ibfd) || ! is_arm_elf (obfd)) - return TRUE; - - if (!elf32_arm_merge_eabi_attributes (ibfd, obfd)) - return FALSE; - - /* The input BFD must have had its flags initialised. */ - /* The following seems bogus to me -- The flags are initialized in - the assembler but I don't think an elf_flags_init field is - written into the object. */ - /* BFD_ASSERT (elf_flags_init (ibfd)); */ - - in_flags = elf_elfheader (ibfd)->e_flags; - out_flags = elf_elfheader (obfd)->e_flags; - - /* In theory there is no reason why we couldn't handle this. However - in practice it isn't even close to working and there is no real - reason to want it. */ - if (EF_ARM_EABI_VERSION (in_flags) >= EF_ARM_EABI_VER4 - && !(ibfd->flags & DYNAMIC) - && (in_flags & EF_ARM_BE8)) - { - _bfd_error_handler (_("error: %B is already in final BE8 format"), - ibfd); - return FALSE; - } - - if (!elf_flags_init (obfd)) - { - /* If the input is the default architecture and had the default - flags then do not bother setting the flags for the output - architecture, instead allow future merges to do this. If no - future merges ever set these flags then they will retain their - uninitialised values, which surprise surprise, correspond - to the default values. */ - if (bfd_get_arch_info (ibfd)->the_default - && elf_elfheader (ibfd)->e_flags == 0) - return TRUE; - - elf_flags_init (obfd) = TRUE; - elf_elfheader (obfd)->e_flags = in_flags; - - if (bfd_get_arch (obfd) == bfd_get_arch (ibfd) - && bfd_get_arch_info (obfd)->the_default) - return bfd_set_arch_mach (obfd, bfd_get_arch (ibfd), bfd_get_mach (ibfd)); - - return TRUE; - } - - /* Determine what should happen if the input ARM architecture - does not match the output ARM architecture. */ - if (! bfd_arm_merge_machines (ibfd, obfd)) - return FALSE; - - /* Identical flags must be compatible. */ - if (in_flags == out_flags) - return TRUE; - - /* Check to see if the input BFD actually contains any sections. If - not, its flags may not have been initialised either, but it - cannot actually cause any incompatiblity. Do not short-circuit - dynamic objects; their section list may be emptied by - elf_link_add_object_symbols. - - Also check to see if there are no code sections in the input. - In this case there is no need to check for code specific flags. - XXX - do we need to worry about floating-point format compatability - in data sections ? */ - if (!(ibfd->flags & DYNAMIC)) - { - bfd_boolean null_input_bfd = TRUE; - bfd_boolean only_data_sections = TRUE; - - for (sec = ibfd->sections; sec != NULL; sec = sec->next) - { - /* Ignore synthetic glue sections. */ - if (strcmp (sec->name, ".glue_7") - && strcmp (sec->name, ".glue_7t")) - { - if ((bfd_get_section_flags (ibfd, sec) - & (SEC_LOAD | SEC_CODE | SEC_HAS_CONTENTS)) - == (SEC_LOAD | SEC_CODE | SEC_HAS_CONTENTS)) - only_data_sections = FALSE; - - null_input_bfd = FALSE; - break; - } - } - - if (null_input_bfd || only_data_sections) - return TRUE; - } - - /* Complain about various flag mismatches. */ - if (!elf32_arm_versions_compatible (EF_ARM_EABI_VERSION (in_flags), - EF_ARM_EABI_VERSION (out_flags))) - { - _bfd_error_handler - (_("error: Source object %B has EABI version %d, but target %B has EABI version %d"), - ibfd, obfd, - (in_flags & EF_ARM_EABIMASK) >> 24, - (out_flags & EF_ARM_EABIMASK) >> 24); - return FALSE; - } - - /* Not sure what needs to be checked for EABI versions >= 1. */ - /* VxWorks libraries do not use these flags. */ - if (get_elf_backend_data (obfd) != &elf32_arm_vxworks_bed - && get_elf_backend_data (ibfd) != &elf32_arm_vxworks_bed - && EF_ARM_EABI_VERSION (in_flags) == EF_ARM_EABI_UNKNOWN) - { - if ((in_flags & EF_ARM_APCS_26) != (out_flags & EF_ARM_APCS_26)) - { - _bfd_error_handler - (_("error: %B is compiled for APCS-%d, whereas target %B uses APCS-%d"), - ibfd, obfd, - in_flags & EF_ARM_APCS_26 ? 26 : 32, - out_flags & EF_ARM_APCS_26 ? 26 : 32); - flags_compatible = FALSE; - } - - if ((in_flags & EF_ARM_APCS_FLOAT) != (out_flags & EF_ARM_APCS_FLOAT)) - { - if (in_flags & EF_ARM_APCS_FLOAT) - _bfd_error_handler - (_("error: %B passes floats in float registers, whereas %B passes them in integer registers"), - ibfd, obfd); - else - _bfd_error_handler - (_("error: %B passes floats in integer registers, whereas %B passes them in float registers"), - ibfd, obfd); - - flags_compatible = FALSE; - } - - if ((in_flags & EF_ARM_VFP_FLOAT) != (out_flags & EF_ARM_VFP_FLOAT)) - { - if (in_flags & EF_ARM_VFP_FLOAT) - _bfd_error_handler - (_("error: %B uses VFP instructions, whereas %B does not"), - ibfd, obfd); - else - _bfd_error_handler - (_("error: %B uses FPA instructions, whereas %B does not"), - ibfd, obfd); - - flags_compatible = FALSE; - } - - if ((in_flags & EF_ARM_MAVERICK_FLOAT) != (out_flags & EF_ARM_MAVERICK_FLOAT)) - { - if (in_flags & EF_ARM_MAVERICK_FLOAT) - _bfd_error_handler - (_("error: %B uses Maverick instructions, whereas %B does not"), - ibfd, obfd); - else - _bfd_error_handler - (_("error: %B does not use Maverick instructions, whereas %B does"), - ibfd, obfd); - - flags_compatible = FALSE; - } - -#ifdef EF_ARM_SOFT_FLOAT - if ((in_flags & EF_ARM_SOFT_FLOAT) != (out_flags & EF_ARM_SOFT_FLOAT)) - { - /* We can allow interworking between code that is VFP format - layout, and uses either soft float or integer regs for - passing floating point arguments and results. We already - know that the APCS_FLOAT flags match; similarly for VFP - flags. */ - if ((in_flags & EF_ARM_APCS_FLOAT) != 0 - || (in_flags & EF_ARM_VFP_FLOAT) == 0) - { - if (in_flags & EF_ARM_SOFT_FLOAT) - _bfd_error_handler - (_("error: %B uses software FP, whereas %B uses hardware FP"), - ibfd, obfd); - else - _bfd_error_handler - (_("error: %B uses hardware FP, whereas %B uses software FP"), - ibfd, obfd); - - flags_compatible = FALSE; - } - } -#endif - - /* Interworking mismatch is only a warning. */ - if ((in_flags & EF_ARM_INTERWORK) != (out_flags & EF_ARM_INTERWORK)) - { - if (in_flags & EF_ARM_INTERWORK) - { - _bfd_error_handler - (_("Warning: %B supports interworking, whereas %B does not"), - ibfd, obfd); - } - else - { - _bfd_error_handler - (_("Warning: %B does not support interworking, whereas %B does"), - ibfd, obfd); - } - } - } - - return flags_compatible; -} +elf32_arm_merge_private_bfd_data (bfd * ibfd, bfd * obfd); /* Display the flags field. */ @@ -10838,7 +10633,8 @@ elf32_arm_check_relocs (bfd *abfd, struct bfd_link_info *info, size = symtab_hdr->sh_info; size *= (sizeof (bfd_signed_vma) + sizeof (char)); - local_got_refcounts = bfd_zalloc (abfd, size); + local_got_refcounts = (bfd_signed_vma *) + bfd_zalloc (abfd, size); if (local_got_refcounts == NULL) return FALSE; elf_local_got_refcounts (abfd) = local_got_refcounts; @@ -11037,7 +10833,8 @@ elf32_arm_check_relocs (bfd *abfd, struct bfd_link_info *info, { bfd_size_type amt = sizeof *p; - p = bfd_alloc (htab->root.dynobj, amt); + p = (struct elf32_arm_relocs_copied *) + bfd_alloc (htab->root.dynobj, amt); if (p == NULL) return FALSE; p->next = *head; @@ -11811,7 +11608,8 @@ elf32_arm_size_dynamic_sections (bfd * output_bfd ATTRIBUTE_UNUSED, { struct elf32_arm_relocs_copied *p; - for (p = elf_section_data (s)->local_dynrel; p != NULL; p = p->next) + for (p = (struct elf32_arm_relocs_copied *) + elf_section_data (s)->local_dynrel; p != NULL; p = p->next) { if (!bfd_is_abs_section (p->section) && bfd_is_abs_section (p->section->output_section)) @@ -11965,7 +11763,7 @@ elf32_arm_size_dynamic_sections (bfd * output_bfd ATTRIBUTE_UNUSED, continue; /* Allocate memory for the section contents. */ - s->contents = bfd_zalloc (dynobj, s->size); + s->contents = (unsigned char *) bfd_zalloc (dynobj, s->size); if (s->contents == NULL) return FALSE; } @@ -12760,7 +12558,7 @@ record_section_with_arm_elf_section_data (asection * sec) { struct section_list * entry; - entry = bfd_malloc (sizeof (* entry)); + entry = (struct section_list *) bfd_malloc (sizeof (* entry)); if (entry == NULL) return; entry->sec = sec; @@ -13224,7 +13022,7 @@ elf32_arm_new_section_hook (bfd *abfd, asection *sec) _arm_elf_section_data *sdata; bfd_size_type amt = sizeof (*sdata); - sdata = bfd_zalloc (abfd, amt); + sdata = (_arm_elf_section_data *) bfd_zalloc (abfd, amt); if (sdata == NULL) return FALSE; sec->used_by_bfd = sdata; @@ -13516,7 +13314,7 @@ elf32_arm_write_section (bfd *output_bfd, size (before we merged duplicate entries and inserted EXIDX_CANTUNWIND markers) was sec->rawsize. (This isn't the case if we perform no edits, then rawsize will be zero and we should use size). */ - bfd_byte *edited_contents = bfd_malloc (sec->size); + bfd_byte *edited_contents = (bfd_byte *) bfd_malloc (sec->size); unsigned int input_size = sec->rawsize ? sec->rawsize : sec->size; unsigned int in_index, out_index; bfd_vma add_to_offsets = 0; @@ -13789,7 +13587,8 @@ elf32_arm_modify_segment_map (bfd *abfd, m = m->next; if (!m) { - m = bfd_zalloc (abfd, sizeof (struct elf_segment_map)); + m = (struct elf_segment_map *) + bfd_zalloc (abfd, sizeof (struct elf_segment_map)); if (m == NULL) return FALSE; m->p_type = PT_ARM_EXIDX; @@ -14001,6 +13800,231 @@ elf32_arm_vxworks_final_write_processing (bfd *abfd, bfd_boolean linker) #include "elf32-target.h" +/* Merge backend specific data from an object file to the output + object file when linking. */ + +static bfd_boolean +elf32_arm_merge_private_bfd_data (bfd * ibfd, bfd * obfd) +{ + flagword out_flags; + flagword in_flags; + bfd_boolean flags_compatible = TRUE; + asection *sec; + + /* Check if we have the same endianess. */ + if (! _bfd_generic_verify_endian_match (ibfd, obfd)) + return FALSE; + + if (! is_arm_elf (ibfd) || ! is_arm_elf (obfd)) + return TRUE; + + if (!elf32_arm_merge_eabi_attributes (ibfd, obfd)) + return FALSE; + + /* The input BFD must have had its flags initialised. */ + /* The following seems bogus to me -- The flags are initialized in + the assembler but I don't think an elf_flags_init field is + written into the object. */ + /* BFD_ASSERT (elf_flags_init (ibfd)); */ + + in_flags = elf_elfheader (ibfd)->e_flags; + out_flags = elf_elfheader (obfd)->e_flags; + + /* In theory there is no reason why we couldn't handle this. However + in practice it isn't even close to working and there is no real + reason to want it. */ + if (EF_ARM_EABI_VERSION (in_flags) >= EF_ARM_EABI_VER4 + && !(ibfd->flags & DYNAMIC) + && (in_flags & EF_ARM_BE8)) + { + _bfd_error_handler (_("error: %B is already in final BE8 format"), + ibfd); + return FALSE; + } + + if (!elf_flags_init (obfd)) + { + /* If the input is the default architecture and had the default + flags then do not bother setting the flags for the output + architecture, instead allow future merges to do this. If no + future merges ever set these flags then they will retain their + uninitialised values, which surprise surprise, correspond + to the default values. */ + if (bfd_get_arch_info (ibfd)->the_default + && elf_elfheader (ibfd)->e_flags == 0) + return TRUE; + + elf_flags_init (obfd) = TRUE; + elf_elfheader (obfd)->e_flags = in_flags; + + if (bfd_get_arch (obfd) == bfd_get_arch (ibfd) + && bfd_get_arch_info (obfd)->the_default) + return bfd_set_arch_mach (obfd, bfd_get_arch (ibfd), bfd_get_mach (ibfd)); + + return TRUE; + } + + /* Determine what should happen if the input ARM architecture + does not match the output ARM architecture. */ + if (! bfd_arm_merge_machines (ibfd, obfd)) + return FALSE; + + /* Identical flags must be compatible. */ + if (in_flags == out_flags) + return TRUE; + + /* Check to see if the input BFD actually contains any sections. If + not, its flags may not have been initialised either, but it + cannot actually cause any incompatiblity. Do not short-circuit + dynamic objects; their section list may be emptied by + elf_link_add_object_symbols. + + Also check to see if there are no code sections in the input. + In this case there is no need to check for code specific flags. + XXX - do we need to worry about floating-point format compatability + in data sections ? */ + if (!(ibfd->flags & DYNAMIC)) + { + bfd_boolean null_input_bfd = TRUE; + bfd_boolean only_data_sections = TRUE; + + for (sec = ibfd->sections; sec != NULL; sec = sec->next) + { + /* Ignore synthetic glue sections. */ + if (strcmp (sec->name, ".glue_7") + && strcmp (sec->name, ".glue_7t")) + { + if ((bfd_get_section_flags (ibfd, sec) + & (SEC_LOAD | SEC_CODE | SEC_HAS_CONTENTS)) + == (SEC_LOAD | SEC_CODE | SEC_HAS_CONTENTS)) + only_data_sections = FALSE; + + null_input_bfd = FALSE; + break; + } + } + + if (null_input_bfd || only_data_sections) + return TRUE; + } + + /* Complain about various flag mismatches. */ + if (!elf32_arm_versions_compatible (EF_ARM_EABI_VERSION (in_flags), + EF_ARM_EABI_VERSION (out_flags))) + { + _bfd_error_handler + (_("error: Source object %B has EABI version %d, but target %B has EABI version %d"), + ibfd, obfd, + (in_flags & EF_ARM_EABIMASK) >> 24, + (out_flags & EF_ARM_EABIMASK) >> 24); + return FALSE; + } + + /* Not sure what needs to be checked for EABI versions >= 1. */ + /* VxWorks libraries do not use these flags. */ + if (get_elf_backend_data (obfd) != &elf32_arm_vxworks_bed + && get_elf_backend_data (ibfd) != &elf32_arm_vxworks_bed + && EF_ARM_EABI_VERSION (in_flags) == EF_ARM_EABI_UNKNOWN) + { + if ((in_flags & EF_ARM_APCS_26) != (out_flags & EF_ARM_APCS_26)) + { + _bfd_error_handler + (_("error: %B is compiled for APCS-%d, whereas target %B uses APCS-%d"), + ibfd, obfd, + in_flags & EF_ARM_APCS_26 ? 26 : 32, + out_flags & EF_ARM_APCS_26 ? 26 : 32); + flags_compatible = FALSE; + } + + if ((in_flags & EF_ARM_APCS_FLOAT) != (out_flags & EF_ARM_APCS_FLOAT)) + { + if (in_flags & EF_ARM_APCS_FLOAT) + _bfd_error_handler + (_("error: %B passes floats in float registers, whereas %B passes them in integer registers"), + ibfd, obfd); + else + _bfd_error_handler + (_("error: %B passes floats in integer registers, whereas %B passes them in float registers"), + ibfd, obfd); + + flags_compatible = FALSE; + } + + if ((in_flags & EF_ARM_VFP_FLOAT) != (out_flags & EF_ARM_VFP_FLOAT)) + { + if (in_flags & EF_ARM_VFP_FLOAT) + _bfd_error_handler + (_("error: %B uses VFP instructions, whereas %B does not"), + ibfd, obfd); + else + _bfd_error_handler + (_("error: %B uses FPA instructions, whereas %B does not"), + ibfd, obfd); + + flags_compatible = FALSE; + } + + if ((in_flags & EF_ARM_MAVERICK_FLOAT) != (out_flags & EF_ARM_MAVERICK_FLOAT)) + { + if (in_flags & EF_ARM_MAVERICK_FLOAT) + _bfd_error_handler + (_("error: %B uses Maverick instructions, whereas %B does not"), + ibfd, obfd); + else + _bfd_error_handler + (_("error: %B does not use Maverick instructions, whereas %B does"), + ibfd, obfd); + + flags_compatible = FALSE; + } + +#ifdef EF_ARM_SOFT_FLOAT + if ((in_flags & EF_ARM_SOFT_FLOAT) != (out_flags & EF_ARM_SOFT_FLOAT)) + { + /* We can allow interworking between code that is VFP format + layout, and uses either soft float or integer regs for + passing floating point arguments and results. We already + know that the APCS_FLOAT flags match; similarly for VFP + flags. */ + if ((in_flags & EF_ARM_APCS_FLOAT) != 0 + || (in_flags & EF_ARM_VFP_FLOAT) == 0) + { + if (in_flags & EF_ARM_SOFT_FLOAT) + _bfd_error_handler + (_("error: %B uses software FP, whereas %B uses hardware FP"), + ibfd, obfd); + else + _bfd_error_handler + (_("error: %B uses hardware FP, whereas %B uses software FP"), + ibfd, obfd); + + flags_compatible = FALSE; + } + } +#endif + + /* Interworking mismatch is only a warning. */ + if ((in_flags & EF_ARM_INTERWORK) != (out_flags & EF_ARM_INTERWORK)) + { + if (in_flags & EF_ARM_INTERWORK) + { + _bfd_error_handler + (_("Warning: %B supports interworking, whereas %B does not"), + ibfd, obfd); + } + else + { + _bfd_error_handler + (_("Warning: %B does not support interworking, whereas %B does"), + ibfd, obfd); + } + } + } + + return flags_compatible; +} + + /* Symbian OS Targets. */ #undef TARGET_LITTLE_SYM diff --git a/bfd/elf64-alpha.c b/bfd/elf64-alpha.c index c22b4fd..501e2ef 100644 --- a/bfd/elf64-alpha.c +++ b/bfd/elf64-alpha.c @@ -1,6 +1,6 @@ /* Alpha specific support for 64-bit ELF Copyright 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, - 2006, 2007, 2008 Free Software Foundation, Inc. + 2006, 2007, 2008, 2009 Free Software Foundation, Inc. Contributed by Richard Henderson <rth@tamu.edu>. This file is part of BFD, the Binary File Descriptor library. @@ -103,6 +103,57 @@ bfd_boolean elf64_alpha_use_secureplt = FALSE; #define ELF_DYNAMIC_INTERPRETER "/usr/lib/ld.so" + +/* Used to implement multiple .got subsections. */ +struct alpha_elf_got_entry +{ + struct alpha_elf_got_entry *next; + + /* Which .got subsection? */ + bfd *gotobj; + + /* The addend in effect for this entry. */ + bfd_vma addend; + + /* The .got offset for this entry. */ + int got_offset; + + /* The .plt offset for this entry. */ + int plt_offset; + + /* How many references to this entry? */ + int use_count; + + /* The relocation type of this entry. */ + unsigned char reloc_type; + + /* How a LITERAL is used. */ + unsigned char flags; + + /* Have we initialized the dynamic relocation for this entry? */ + unsigned char reloc_done; + + /* Have we adjusted this entry for SEC_MERGE? */ + unsigned char reloc_xlated; +}; + +struct alpha_elf_reloc_entry +{ + struct alpha_elf_reloc_entry *next; + + /* Which .reloc section? */ + asection *srel; + + /* What kind of relocation? */ + unsigned int rtype; + + /* Is this against read-only section? */ + unsigned int reltext : 1; + + /* How many did we find? */ + unsigned long count; +}; + struct alpha_elf_link_hash_entry { struct elf_link_hash_entry root; @@ -125,56 +176,11 @@ struct alpha_elf_link_hash_entry #define ALPHA_ELF_LINK_HASH_TLS_IE 0x80 /* Used to implement multiple .got subsections. */ - struct alpha_elf_got_entry - { - struct alpha_elf_got_entry *next; - - /* Which .got subsection? */ - bfd *gotobj; - - /* The addend in effect for this entry. */ - bfd_vma addend; - - /* The .got offset for this entry. */ - int got_offset; - - /* The .plt offset for this entry. */ - int plt_offset; - - /* How many references to this entry? */ - int use_count; - - /* The relocation type of this entry. */ - unsigned char reloc_type; - - /* How a LITERAL is used. */ - unsigned char flags; - - /* Have we initialized the dynamic relocation for this entry? */ - unsigned char reloc_done; - - /* Have we adjusted this entry for SEC_MERGE? */ - unsigned char reloc_xlated; - } *got_entries; + struct alpha_elf_got_entry *got_entries; /* Used to count non-got, non-plt relocations for delayed sizing of relocation sections. */ - struct alpha_elf_reloc_entry - { - struct alpha_elf_reloc_entry *next; - - /* Which .reloc section? */ - asection *srel; - - /* What kind of relocation? */ - unsigned int rtype; - - /* Is this against read-only section? */ - unsigned int reltext : 1; - - /* How many did we find? */ - unsigned long count; - } *reloc_entries; + struct alpha_elf_reloc_entry *reloc_entries; }; /* Alpha ELF linker hash table. */ @@ -458,8 +464,9 @@ elf64_alpha_reloc_gpdisp (bfd *abfd, arelent *reloc_entry, from smaller values. Start with zero, widen, *then* decrement. */ #define MINUS_ONE (((bfd_vma)0) - 1) + #define SKIP_HOWTO(N) \ - HOWTO(N, 0, 0, 0, 0, 0, 0, elf64_alpha_reloc_bad, 0, 0, 0, 0, 0) + HOWTO(N, 0, 0, 0, 0, 0, complain_overflow_dont, elf64_alpha_reloc_bad, 0, 0, 0, 0, 0) static reloc_howto_type elf64_alpha_howto_table[] = { @@ -5062,7 +5069,7 @@ elf64_alpha_final_link (bfd *abfd, struct bfd_link_info *info) interesting information, try to find the symbol in the linker global hash table and save the information for the output external symbols. */ - eraw_src = input_debug.external_ext; + eraw_src = (char *) input_debug.external_ext; eraw_end = (eraw_src + (input_debug.symbolic_header.iextMax * input_swap->external_ext_size)); diff --git a/gas/ChangeLog b/gas/ChangeLog index 55bc5a6..4183f56 100644 --- a/gas/ChangeLog +++ b/gas/ChangeLog @@ -1,9 +1,27 @@ +2009-09-25 Martin Thuresson <martint@google.com> + + Update soruces to make alpha, arc and arm targets compile cleanly + with -Wc++-compat: + * config/tc-alpha.c: Add casts. + (extended_bfd_reloc_code_real_type): New type. Used to avoid + enumeration conversion warnings. + (struct alpha_fixup, void assemble_insn, assemble_insn) + (assemble_tokens): Use new type. + * ecoff.c: Add casts. (mark_stabs): Use enumeration names. + * config/obj-elf.c: Add cast + * config/tc-arc.c: Add casts. + * config/obj-aout.h (text_section,data_section,bss_section): + Make extern. + * config/obj-elf.c: Add cast. + * config/tc-arm.c: Add casts. + (X, TxCE, TxCE, TxC3, TxC3w, TxCM_, TxCM, TUE, TUF, CE, CL, cCE) + (cCL, C3E, xCM_, nUF, nCE_tag): Change input format to avoid the + need for keywords as arguments. + 2009-09-25 Nick Hudson <nick.hudson@gmx.co.uk> * doc/c-mips.texi: Fix the singlefloat and doublefloat kindex - entries. - -2009-09-24 H.J. Lu <hongjiu.lu@intel.com> + entries2009-09-24 H.J. Lu <hongjiu.lu@intel.com> * config/tc-i386.c (build_vex_prefix): Check vex == 2 instead of vex256. diff --git a/gas/config/obj-aout.h b/gas/config/obj-aout.h index 6dc7eb0..c4184d8 100644 --- a/gas/config/obj-aout.h +++ b/gas/config/obj-aout.h @@ -1,6 +1,6 @@ /* obj-aout.h, a.out object file format for gas, the assembler. Copyright 1989, 1990, 1991, 1992, 1993, 1994, 1995, 1996, 1998, 2000, - 2002, 2003, 2005, 2007 Free Software Foundation, Inc. + 2002, 2003, 2005, 2007, 2009 Free Software Foundation, Inc. This file is part of GAS, the GNU Assembler. @@ -53,7 +53,7 @@ typedef struct nlist obj_symbol_type; /* Symbol table entry. */ #define S_GET_DESC(S) \ (aout_symbol (symbol_get_bfdsym (S))->desc) -asection *text_section, *data_section, *bss_section; +extern asection *text_section, *data_section, *bss_section; #define obj_frob_symbol(S,PUNT) obj_aout_frob_symbol (S, &PUNT) #define obj_frob_file_before_fix() obj_aout_frob_file_before_fix () diff --git a/gas/config/obj-elf.c b/gas/config/obj-elf.c index d477b4e..dfe7ce3 100644 --- a/gas/config/obj-elf.c +++ b/gas/config/obj-elf.c @@ -2054,7 +2054,7 @@ build_group_lists (bfd *abfd ATTRIBUTE_UNUSED, asection *sec, void *inf) list->num_group += 1; /* Add index to hash. */ - idx_ptr = xmalloc (sizeof (unsigned int)); + idx_ptr = (unsigned int *) xmalloc (sizeof (unsigned int)); *idx_ptr = i; hash_insert (list->indexes, group_name, idx_ptr); } diff --git a/gas/config/tc-alpha.c b/gas/config/tc-alpha.c index 35d3812..45144af 100644 --- a/gas/config/tc-alpha.c +++ b/gas/config/tc-alpha.c @@ -75,10 +75,15 @@ #define MAX_INSN_FIXUPS 2 #define MAX_INSN_ARGS 5 +/* Used since new relocation types are introduced in this + file (DUMMY_RELOC_LITUSE_*) */ +typedef int extended_bfd_reloc_code_real_type; + struct alpha_fixup { expressionS exp; - bfd_reloc_code_real_type reloc; + /* bfd_reloc_code_real_type reloc; */ + extended_bfd_reloc_code_real_type reloc; #ifdef OBJ_EVAX symbolS *xtrasym, *procsym; #endif @@ -444,7 +449,7 @@ static const struct alpha_reloc_op_tag const char *name; /* String to lookup. */ size_t length; /* Size of the string. */ operatorT op; /* Which operator to use. */ - bfd_reloc_code_real_type reloc; /* Relocation before frob. */ + extended_bfd_reloc_code_real_type reloc; unsigned int require_seq : 1; /* Require a sequence number. */ unsigned int allow_seq : 1; /* Allow a sequence number. */ } @@ -565,7 +570,7 @@ static const char * const mskXh_op[] = { NULL, "mskwh", "msklh", "mskqh" }; static const char * const stX_op[] = { "stb", "stw", "stl", "stq" }; static const char * const ldXu_op[] = { "ldbu", "ldwu", NULL, NULL }; -static void assemble_insn (const struct alpha_opcode *, const expressionS *, int, struct alpha_insn *, bfd_reloc_code_real_type); +static void assemble_insn (const struct alpha_opcode *, const expressionS *, int, struct alpha_insn *, extended_bfd_reloc_code_real_type); static void emit_insn (struct alpha_insn *); static void assemble_tokens (const char *, const expressionS *, int, int); #ifdef OBJ_EVAX @@ -587,7 +592,8 @@ get_alpha_reloc_tag (long sequence) size_t len = strlen (buffer); const char *errmsg; - info = xcalloc (sizeof (struct alpha_reloc_tag) + len, 1); + info = (struct alpha_reloc_tag *) + xcalloc (sizeof (struct alpha_reloc_tag) + len, 1); info->segment = now_seg; info->sequence = sequence; @@ -1764,8 +1770,9 @@ emit_insn (struct alpha_insn *insn) } else { - reloc_howto_type *reloc_howto - = bfd_reloc_type_lookup (stdoutput, fixup->reloc); + reloc_howto_type *reloc_howto = + bfd_reloc_type_lookup (stdoutput, + (bfd_reloc_code_real_type) fixup->reloc); gas_assert (reloc_howto); size = bfd_get_reloc_size (reloc_howto); @@ -1787,7 +1794,7 @@ emit_insn (struct alpha_insn *insn) } fixP = fix_new_exp (frag_now, f - frag_now->fr_literal, size, - &fixup->exp, pcrel, fixup->reloc); + &fixup->exp, pcrel, (bfd_reloc_code_real_type) fixup->reloc); /* Turn off complaints that the addend is too large for some fixups, and copy in the sequence number for the explicit relocations. */ @@ -2002,7 +2009,7 @@ assemble_insn (const struct alpha_opcode *opcode, const expressionS *tok, int ntok, struct alpha_insn *insn, - bfd_reloc_code_real_type reloc) + extended_bfd_reloc_code_real_type reloc) { const struct alpha_operand *reloc_operand = NULL; const expressionS *reloc_exp = NULL; @@ -2125,7 +2132,8 @@ assemble_insn (const struct alpha_opcode *opcode, else if (reloc < BFD_RELOC_UNUSED && reloc > 0) { reloc_howto_type *reloc_howto - = bfd_reloc_type_lookup (stdoutput, reloc); + = bfd_reloc_type_lookup (stdoutput, + (bfd_reloc_code_real_type) reloc); if (reloc_operand == NULL || reloc_howto->bitsize != reloc_operand->bits) { @@ -2168,7 +2176,7 @@ emit_ir_load (const expressionS *tok, basereg = tok[2].X_add_number; lituse = load_expression (tok[0].X_add_number, &tok[1], - &basereg, &newtok[1], opname); + &basereg, &newtok[1], (const char *) opname); if (basereg == alpha_gp_register && (symlen > 4 && strcmp (&symname [symlen - 4], "..lk") == 0)) @@ -2215,7 +2223,7 @@ emit_loadstore (const expressionS *tok, as_bad (_("macro requires $at register while noat in effect")); lituse = load_expression (AXP_REG_AT, &tok[1], - &basereg, &newtok[1], opname); + &basereg, &newtok[1], (const char *) opname); } else { @@ -3290,7 +3298,7 @@ assemble_tokens (const char *opname, const struct alpha_opcode *opcode; const struct alpha_macro *macro; int cpumatch = 1; - bfd_reloc_code_real_type reloc = BFD_RELOC_UNUSED; + extended_bfd_reloc_code_real_type reloc = BFD_RELOC_UNUSED; #ifdef RELOC_OP_P /* If a user-specified relocation is present, this is not a macro. */ @@ -3723,7 +3731,8 @@ s_alpha_ent (int dummy ATTRIBUTE_UNUSED) sym = symbol_find_or_make (name); symbol_get_bfdsym (sym)->flags |= BSF_FUNCTION; - cur_frame_data = calloc (1, sizeof (*cur_frame_data)); + cur_frame_data = (struct alpha_elf_frame_data *) + calloc (1, sizeof (*cur_frame_data)); cur_frame_data->func_sym = sym; /* Provide sensible defaults. */ @@ -3779,7 +3788,7 @@ s_alpha_end (int dummy ATTRIBUTE_UNUSED) if (sym && cur_frame_data) { OBJ_SYMFIELD_TYPE *obj = symbol_get_obj (sym); - expressionS *exp = xmalloc (sizeof (expressionS)); + expressionS *exp = (expressionS *) xmalloc (sizeof (expressionS)); obj->size = exp; exp->X_op = O_subtract; @@ -3947,7 +3956,7 @@ s_alpha_file (int ignore ATTRIBUTE_UNUSED) discard_rest_of_line (); len = input_line_pointer - start; - first_file_directive = xmalloc (len + 1); + first_file_directive = (char *) xmalloc (len + 1); memcpy (first_file_directive, start, len); first_file_directive[len] = '\0'; @@ -5425,7 +5434,7 @@ md_begin (void) if ((slash = strchr (name, '/')) != NULL) { - char *p = xmalloc (strlen (name)); + char *p = (char *) xmalloc (strlen (name)); memcpy (p, name, slash - name); strcpy (p + (slash - name), slash + 1); @@ -6207,8 +6216,8 @@ tc_gen_reloc (asection *sec ATTRIBUTE_UNUSED, { arelent *reloc; - reloc = xmalloc (sizeof (* reloc)); - reloc->sym_ptr_ptr = xmalloc (sizeof (asymbol *)); + reloc = (arelent *) xmalloc (sizeof (* reloc)); + reloc->sym_ptr_ptr = (asymbol **) xmalloc (sizeof (asymbol *)); *reloc->sym_ptr_ptr = symbol_get_bfdsym (fixp->fx_addsy); reloc->address = fixp->fx_frag->fr_address + fixp->fx_where; diff --git a/gas/config/tc-arc.c b/gas/config/tc-arc.c index 1348f5d..b5d073e 100644 --- a/gas/config/tc-arc.c +++ b/gas/config/tc-arc.c @@ -540,7 +540,8 @@ arc_extoper (int opertype) return; } - ext_oper = xmalloc (sizeof (struct arc_ext_operand_value)); + ext_oper = (struct arc_ext_operand_value *) + xmalloc (sizeof (struct arc_ext_operand_value)); if (opertype) { @@ -802,7 +803,7 @@ arc_extinst (int ignore ATTRIBUTE_UNUSED) strcat (syntax, "%F"); strcat (syntax, "%S%L"); - ext_op = xmalloc (sizeof (struct arc_opcode)); + ext_op = (struct arc_opcode *) xmalloc (sizeof (struct arc_opcode)); ext_op->syntax = xstrdup (syntax); ext_op->mask = I (-1) | ((0x3 == opcode) ? C (-1) : 0); @@ -1196,7 +1197,8 @@ arc_cons_fix_new (fragS *frag, /* This may be a special ARC reloc (eg: %st()). */ reloc_type = get_arc_exp_reloc_type (1, BFD_RELOC_32, exp, &exptmp); - fix_new_exp (frag, where, nbytes, &exptmp, 0, reloc_type); + fix_new_exp (frag, where, nbytes, &exptmp, 0, + (enum bfd_reloc_code_real) reloc_type); } else { @@ -1350,8 +1352,8 @@ tc_gen_reloc (asection *section ATTRIBUTE_UNUSED, { arelent *reloc; - reloc = xmalloc (sizeof (arelent)); - reloc->sym_ptr_ptr = xmalloc (sizeof (asymbol *)); + reloc = (arelent *) xmalloc (sizeof (arelent)); + reloc->sym_ptr_ptr = (asymbol **) xmalloc (sizeof (asymbol *)); *reloc->sym_ptr_ptr = symbol_get_bfdsym (fixP->fx_addsy); reloc->address = fixP->fx_frag->fr_address + fixP->fx_where; @@ -1568,7 +1570,8 @@ md_assemble (char *str) if ((suf = get_ext_suffix (s))) ext_suffix_p = 1; else - suf = hash_find (arc_suffix_hash, s); + suf = (const struct arc_operand_value *) + hash_find (arc_suffix_hash, s); if (!suf) { /* This can happen in "blle foo" and we're currently using diff --git a/gas/config/tc-arm.c b/gas/config/tc-arm.c index c1b4086..1ffc273 100644 --- a/gas/config/tc-arm.c +++ b/gas/config/tc-arm.c @@ -1367,7 +1367,7 @@ parse_typed_reg_or_scalar (char **ccp, enum arm_reg_type type, || reg->type == REG_TYPE_NQ)) || (type == REG_TYPE_MMXWC && (reg->type == REG_TYPE_MMXWCG))) - type = reg->type; + type = (enum arm_reg_type) reg->type; if (type != reg->type) return FAIL; @@ -1661,7 +1661,7 @@ parse_vfp_reg_list (char **ccp, unsigned int *pbase, enum reg_list_els etype) char *str = *ccp; int base_reg; int new_base; - enum arm_reg_type regtype = 0; + enum arm_reg_type regtype = (enum arm_reg_type) 0; int max_regs = 0; int count = 0; int warned = 0; @@ -2036,7 +2036,8 @@ parse_reloc (char **str) if (*q != ')') return -1; - if ((r = hash_find_n (arm_reloc_hsh, p, q - p)) == NULL) + if ((r = (struct reloc_entry *) + hash_find_n (arm_reloc_hsh, p, q - p)) == NULL) return -1; *str = q + 1; @@ -2093,7 +2094,8 @@ insert_neon_reg_alias (char *str, int number, int type, if (atype) { - reg->neon = xmalloc (sizeof (struct neon_typed_alias)); + reg->neon = (struct neon_typed_alias *) + xmalloc (sizeof (struct neon_typed_alias)); *reg->neon = *atype; } } @@ -2122,7 +2124,7 @@ create_register_alias (char * newname, char *p) if (*oldname == '\0') return FALSE; - old = hash_find (arm_reg_hsh, oldname); + old = (struct reg_entry *) hash_find (arm_reg_hsh, oldname); if (!old) { as_warn (_("unknown register '%s' -- .req ignored"), oldname); @@ -2139,7 +2141,7 @@ create_register_alias (char * newname, char *p) nlen = strlen (newname); #endif - nbuf = alloca (nlen + 1); + nbuf = (char *) alloca (nlen + 1); memcpy (nbuf, newname, nlen); nbuf[nlen] = '\0'; @@ -2291,7 +2293,7 @@ create_neon_reg_alias (char *newname, char *p) } namelen = nameend - newname; - namebuf = alloca (namelen + 1); + namebuf = (char *) alloca (namelen + 1); strncpy (namebuf, newname, namelen); namebuf[namelen] = '\0'; @@ -2364,7 +2366,8 @@ s_unreq (int a ATTRIBUTE_UNUSED) as_bad (_("invalid syntax for .unreq directive")); else { - struct reg_entry *reg = hash_find (arm_reg_hsh, name); + struct reg_entry *reg = (struct reg_entry *) hash_find (arm_reg_hsh, + name); if (!reg) as_bad (_("unknown register alias '%s'"), name); @@ -2389,7 +2392,7 @@ s_unreq (int a ATTRIBUTE_UNUSED) nbuf = strdup (name); for (p = nbuf; *p; p++) *p = TOUPPER (*p); - reg = hash_find (arm_reg_hsh, nbuf); + reg = (struct reg_entry *) hash_find (arm_reg_hsh, nbuf); if (reg) { hash_delete (arm_reg_hsh, nbuf, FALSE); @@ -2401,7 +2404,7 @@ s_unreq (int a ATTRIBUTE_UNUSED) for (p = nbuf; *p; p++) *p = TOLOWER (*p); - reg = hash_find (arm_reg_hsh, nbuf); + reg = (struct reg_entry *) hash_find (arm_reg_hsh, nbuf); if (reg) { hash_delete (arm_reg_hsh, nbuf, FALSE); @@ -2762,7 +2765,7 @@ s_thumb_set (int equiv) if (listing & LISTING_SYMBOLS) { extern struct list_info_struct * listing_tail; - fragS * dummy_frag = xmalloc (sizeof (fragS)); + fragS * dummy_frag = (fragS * ) xmalloc (sizeof (fragS)); memset (dummy_frag, 0, sizeof (fragS)); dummy_frag->fr_type = rs_fill; @@ -2931,7 +2934,7 @@ find_or_make_literal_pool (void) if (pool == NULL) { /* Create a new pool. */ - pool = xmalloc (sizeof (* pool)); + pool = (literal_pool *) xmalloc (sizeof (* pool)); if (! pool) return NULL; @@ -3025,7 +3028,7 @@ symbol_locate (symbolS * symbolP, name_length = strlen (name) + 1; /* +1 for \0. */ obstack_grow (¬es, name, name_length); - preserved_copy_of_name = obstack_finish (¬es); + preserved_copy_of_name = (char *) obstack_finish (¬es); #ifdef tc_canonicalize_symbol_name preserved_copy_of_name = @@ -3159,7 +3162,9 @@ s_arm_elf_cons (int nbytes) emit_expr (&exp, (unsigned int) nbytes); else { - reloc_howto_type *howto = bfd_reloc_type_lookup (stdoutput, reloc); + reloc_howto_type *howto = (reloc_howto_type *) + bfd_reloc_type_lookup (stdoutput, + (bfd_reloc_code_real_type) reloc); int size = bfd_get_reloc_size (howto); if (reloc == BFD_RELOC_ARM_PLT32) @@ -3180,7 +3185,7 @@ s_arm_elf_cons (int nbytes) XXX Surely there is a cleaner way to do this. */ char *p = input_line_pointer; int offset; - char *save_buf = alloca (input_line_pointer - base); + char *save_buf = (char *) alloca (input_line_pointer - base); memcpy (save_buf, base, input_line_pointer - base); memmove (base + (input_line_pointer - before_reloc), base, before_reloc - base); @@ -3192,7 +3197,7 @@ s_arm_elf_cons (int nbytes) offset = nbytes - size; p = frag_more ((int) nbytes); fix_new_exp (frag_now, p - frag_now->fr_literal + offset, - size, &exp, 0, reloc); + size, &exp, 0, (enum bfd_reloc_code_real) reloc); } } } @@ -4623,7 +4628,8 @@ parse_shift (char **str, int i, enum parse_shift_mode mode) return FAIL; } - shift_name = hash_find_n (arm_shift_hsh, *str, p - *str); + shift_name = (const struct asm_shift_name *) hash_find_n (arm_shift_hsh, *str, + p - *str); if (shift_name == NULL) { @@ -4906,7 +4912,7 @@ parse_shifter_operand_group_reloc (char **str, int i) return PARSE_OPERAND_FAIL_NO_BACKTRACK; /* Record the relocation type (always the ALU variant here). */ - inst.reloc.type = entry->alu_code; + inst.reloc.type = (bfd_reloc_code_real_type) entry->alu_code; gas_assert (inst.reloc.type != 0); return PARSE_OPERAND_SUCCESS; @@ -5054,15 +5060,15 @@ parse_address_main (char **str, int i, int group_relocations, switch (group_type) { case GROUP_LDR: - inst.reloc.type = entry->ldr_code; + inst.reloc.type = (bfd_reloc_code_real_type) entry->ldr_code; break; case GROUP_LDRS: - inst.reloc.type = entry->ldrs_code; + inst.reloc.type = (bfd_reloc_code_real_type) entry->ldrs_code; break; case GROUP_LDC: - inst.reloc.type = entry->ldc_code; + inst.reloc.type = (bfd_reloc_code_real_type) entry->ldc_code; break; default: @@ -5168,7 +5174,7 @@ parse_address_main (char **str, int i, int group_relocations, static int parse_address (char **str, int i) { - return parse_address_main (str, i, 0, 0) == PARSE_OPERAND_SUCCESS + return parse_address_main (str, i, 0, GROUP_LDR) == PARSE_OPERAND_SUCCESS ? SUCCESS : FAIL; } @@ -5244,7 +5250,8 @@ parse_psr (char **str) p++; while (ISALNUM (*p) || *p == '_'); - psr = hash_find_n (arm_v7m_psr_hsh, start, p - start); + psr = (const struct asm_psr *) hash_find_n (arm_v7m_psr_hsh, start, + p - start); if (!psr) return FAIL; @@ -5263,7 +5270,8 @@ parse_psr (char **str) p++; while (ISALNUM (*p) || *p == '_'); - psr = hash_find_n (arm_psr_hsh, start, p - start); + psr = (const struct asm_psr *) hash_find_n (arm_psr_hsh, start, + p - start); if (!psr) goto error; @@ -5404,7 +5412,7 @@ parse_cond (char **str) n++; } - c = hash_find_n (arm_cond_hsh, cond, n); + c = (const struct asm_cond *) hash_find_n (arm_cond_hsh, cond, n); if (!c) { inst.error = _("condition required"); @@ -5427,7 +5435,8 @@ parse_barrier (char **str) while (ISALPHA (*q)) q++; - o = hash_find_n (arm_barrier_opt_hsh, p, q - p); + o = (const struct asm_barrier_opt *) hash_find_n (arm_barrier_opt_hsh, p, + q - p); if (!o) return FAIL; @@ -6789,7 +6798,7 @@ encode_arm_cp_address (int i, int wb_ok, int unind_ok, int reloc_override) } if (reloc_override) - inst.reloc.type = reloc_override; + inst.reloc.type = (bfd_reloc_code_real_type) reloc_override; else if ((inst.reloc.type < BFD_RELOC_ARM_ALU_PC_G0_NC || inst.reloc.type > BFD_RELOC_ARM_LDC_SB_G2) && inst.reloc.type != BFD_RELOC_ARM_LDR_PC_G0) @@ -7094,7 +7103,7 @@ encode_branch (int default_reloc) } else { - inst.reloc.type = default_reloc; + inst.reloc.type = (bfd_reloc_code_real_type) default_reloc; } inst.reloc.pc_rel = 1; } @@ -8717,88 +8726,88 @@ encode_thumb32_addr_mode (int i, bfd_boolean is_t, bfd_boolean is_d) holds variant (1). Also contains several pseudo-instructions used during relaxation. */ #define T16_32_TAB \ - X(adc, 4140, eb400000), \ - X(adcs, 4140, eb500000), \ - X(add, 1c00, eb000000), \ - X(adds, 1c00, eb100000), \ - X(addi, 0000, f1000000), \ - X(addis, 0000, f1100000), \ - X(add_pc,000f, f20f0000), \ - X(add_sp,000d, f10d0000), \ - X(adr, 000f, f20f0000), \ - X(and, 4000, ea000000), \ - X(ands, 4000, ea100000), \ - X(asr, 1000, fa40f000), \ - X(asrs, 1000, fa50f000), \ - X(b, e000, f000b000), \ - X(bcond, d000, f0008000), \ - X(bic, 4380, ea200000), \ - X(bics, 4380, ea300000), \ - X(cmn, 42c0, eb100f00), \ - X(cmp, 2800, ebb00f00), \ - X(cpsie, b660, f3af8400), \ - X(cpsid, b670, f3af8600), \ - X(cpy, 4600, ea4f0000), \ - X(dec_sp,80dd, f1ad0d00), \ - X(eor, 4040, ea800000), \ - X(eors, 4040, ea900000), \ - X(inc_sp,00dd, f10d0d00), \ - X(ldmia, c800, e8900000), \ - X(ldr, 6800, f8500000), \ - X(ldrb, 7800, f8100000), \ - X(ldrh, 8800, f8300000), \ - X(ldrsb, 5600, f9100000), \ - X(ldrsh, 5e00, f9300000), \ - X(ldr_pc,4800, f85f0000), \ - X(ldr_pc2,4800, f85f0000), \ - X(ldr_sp,9800, f85d0000), \ - X(lsl, 0000, fa00f000), \ - X(lsls, 0000, fa10f000), \ - X(lsr, 0800, fa20f000), \ - X(lsrs, 0800, fa30f000), \ - X(mov, 2000, ea4f0000), \ - X(movs, 2000, ea5f0000), \ - X(mul, 4340, fb00f000), \ - X(muls, 4340, ffffffff), /* no 32b muls */ \ - X(mvn, 43c0, ea6f0000), \ - X(mvns, 43c0, ea7f0000), \ - X(neg, 4240, f1c00000), /* rsb #0 */ \ - X(negs, 4240, f1d00000), /* rsbs #0 */ \ - X(orr, 4300, ea400000), \ - X(orrs, 4300, ea500000), \ - X(pop, bc00, e8bd0000), /* ldmia sp!,... */ \ - X(push, b400, e92d0000), /* stmdb sp!,... */ \ - X(rev, ba00, fa90f080), \ - X(rev16, ba40, fa90f090), \ - X(revsh, bac0, fa90f0b0), \ - X(ror, 41c0, fa60f000), \ - X(rors, 41c0, fa70f000), \ - X(sbc, 4180, eb600000), \ - X(sbcs, 4180, eb700000), \ - X(stmia, c000, e8800000), \ - X(str, 6000, f8400000), \ - X(strb, 7000, f8000000), \ - X(strh, 8000, f8200000), \ - X(str_sp,9000, f84d0000), \ - X(sub, 1e00, eba00000), \ - X(subs, 1e00, ebb00000), \ - X(subi, 8000, f1a00000), \ - X(subis, 8000, f1b00000), \ - X(sxtb, b240, fa4ff080), \ - X(sxth, b200, fa0ff080), \ - X(tst, 4200, ea100f00), \ - X(uxtb, b2c0, fa5ff080), \ - X(uxth, b280, fa1ff080), \ - X(nop, bf00, f3af8000), \ - X(yield, bf10, f3af8001), \ - X(wfe, bf20, f3af8002), \ - X(wfi, bf30, f3af8003), \ - X(sev, bf40, f3af8004), + X(_adc, 4140, eb400000), \ + X(_adcs, 4140, eb500000), \ + X(_add, 1c00, eb000000), \ + X(_adds, 1c00, eb100000), \ + X(_addi, 0000, f1000000), \ + X(_addis, 0000, f1100000), \ + X(_add_pc,000f, f20f0000), \ + X(_add_sp,000d, f10d0000), \ + X(_adr, 000f, f20f0000), \ + X(_and, 4000, ea000000), \ + X(_ands, 4000, ea100000), \ + X(_asr, 1000, fa40f000), \ + X(_asrs, 1000, fa50f000), \ + X(_b, e000, f000b000), \ + X(_bcond, d000, f0008000), \ + X(_bic, 4380, ea200000), \ + X(_bics, 4380, ea300000), \ + X(_cmn, 42c0, eb100f00), \ + X(_cmp, 2800, ebb00f00), \ + X(_cpsie, b660, f3af8400), \ + X(_cpsid, b670, f3af8600), \ + X(_cpy, 4600, ea4f0000), \ + X(_dec_sp,80dd, f1ad0d00), \ + X(_eor, 4040, ea800000), \ + X(_eors, 4040, ea900000), \ + X(_inc_sp,00dd, f10d0d00), \ + X(_ldmia, c800, e8900000), \ + X(_ldr, 6800, f8500000), \ + X(_ldrb, 7800, f8100000), \ + X(_ldrh, 8800, f8300000), \ + X(_ldrsb, 5600, f9100000), \ + X(_ldrsh, 5e00, f9300000), \ + X(_ldr_pc,4800, f85f0000), \ + X(_ldr_pc2,4800, f85f0000), \ + X(_ldr_sp,9800, f85d0000), \ + X(_lsl, 0000, fa00f000), \ + X(_lsls, 0000, fa10f000), \ + X(_lsr, 0800, fa20f000), \ + X(_lsrs, 0800, fa30f000), \ + X(_mov, 2000, ea4f0000), \ + X(_movs, 2000, ea5f0000), \ + X(_mul, 4340, fb00f000), \ + X(_muls, 4340, ffffffff), /* no 32b muls */ \ + X(_mvn, 43c0, ea6f0000), \ + X(_mvns, 43c0, ea7f0000), \ + X(_neg, 4240, f1c00000), /* rsb #0 */ \ + X(_negs, 4240, f1d00000), /* rsbs #0 */ \ + X(_orr, 4300, ea400000), \ + X(_orrs, 4300, ea500000), \ + X(_pop, bc00, e8bd0000), /* ldmia sp!,... */ \ + X(_push, b400, e92d0000), /* stmdb sp!,... */ \ + X(_rev, ba00, fa90f080), \ + X(_rev16, ba40, fa90f090), \ + X(_revsh, bac0, fa90f0b0), \ + X(_ror, 41c0, fa60f000), \ + X(_rors, 41c0, fa70f000), \ + X(_sbc, 4180, eb600000), \ + X(_sbcs, 4180, eb700000), \ + X(_stmia, c000, e8800000), \ + X(_str, 6000, f8400000), \ + X(_strb, 7000, f8000000), \ + X(_strh, 8000, f8200000), \ + X(_str_sp,9000, f84d0000), \ + X(_sub, 1e00, eba00000), \ + X(_subs, 1e00, ebb00000), \ + X(_subi, 8000, f1a00000), \ + X(_subis, 8000, f1b00000), \ + X(_sxtb, b240, fa4ff080), \ + X(_sxth, b200, fa0ff080), \ + X(_tst, 4200, ea100f00), \ + X(_uxtb, b2c0, fa5ff080), \ + X(_uxth, b280, fa1ff080), \ + X(_nop, bf00, f3af8000), \ + X(_yield, bf10, f3af8001), \ + X(_wfe, bf20, f3af8002), \ + X(_wfi, bf30, f3af8003), \ + X(_sev, bf40, f3af8004), /* To catch errors in encoding functions, the codes are all offset by 0xF800, putting them in one of the 32-bit prefix ranges, ergo undefined as 16-bit instructions. */ -#define X(a,b,c) T_MNEM_##a +#define X(a,b,c) T_MNEM##a enum t16_32_codes { T16_32_OFFSET = 0xF7FF, T16_32_TAB }; #undef X @@ -11569,7 +11578,7 @@ neon_select_shape (enum neon_shape shape, ...) va_start (ap, shape); - for (; shape != NS_NULL; shape = va_arg (ap, int)) + for (; shape != NS_NULL; shape = (enum neon_shape) va_arg (ap, int)) { unsigned j; int matches = 1; @@ -11822,7 +11831,8 @@ modify_types_allowed (unsigned allowed, unsigned mods) for (i = 1; i <= N_MAX_NONSPECIAL; i <<= 1) { - if (el_type_of_type_chk (&type, &size, allowed & i) == SUCCESS) + if (el_type_of_type_chk (&type, &size, + (enum neon_type_mask) (allowed & i)) == SUCCESS) { neon_modify_type_size (mods, &type, &size); destmask |= type_chk_of_el_type (type, size); @@ -12037,7 +12047,7 @@ do_vfp_nsyn_opcode (const char *opname) { const struct asm_opcode *opcode; - opcode = hash_find (arm_ops_hsh, opname); + opcode = (const struct asm_opcode *) hash_find (arm_ops_hsh, opname); if (!opcode) abort (); @@ -12776,7 +12786,7 @@ do_neon_logic (void) enum neon_shape rs = neon_select_shape (NS_DI, NS_QI, NS_NULL); struct neon_type_el et = neon_check_type (2, rs, N_I8 | N_I16 | N_I32 | N_I64 | N_F32 | N_KEY, N_EQK); - enum neon_opc opcode = inst.instruction & 0x0fffffff; + enum neon_opc opcode = (enum neon_opc) inst.instruction & 0x0fffffff; unsigned immbits; int cmode; @@ -14727,12 +14737,13 @@ fix_new_arm (fragS * frag, case O_symbol: case O_add: case O_subtract: - new_fix = fix_new_exp (frag, where, size, exp, pc_rel, reloc); + new_fix = fix_new_exp (frag, where, size, exp, pc_rel, + (enum bfd_reloc_code_real) reloc); break; default: - new_fix = fix_new (frag, where, size, make_expr_symbol (exp), 0, - pc_rel, reloc); + new_fix = (fixS *) fix_new (frag, where, size, make_expr_symbol (exp), 0, + pc_rel, (enum bfd_reloc_code_real) reloc); break; } @@ -14989,7 +15000,8 @@ opcode_lookup (char **str) *str = end; /* Look for unaffixed or special-case affixed mnemonic. */ - opcode = hash_find_n (arm_ops_hsh, base, end - base); + opcode = (const struct asm_opcode *) hash_find_n (arm_ops_hsh, base, + end - base); if (opcode) { /* step U */ @@ -15002,7 +15014,7 @@ opcode_lookup (char **str) if (warn_on_deprecated && unified_syntax) as_warn (_("conditional infixes are deprecated in unified syntax")); affix = base + (opcode->tag - OT_odd_infix_0); - cond = hash_find_n (arm_cond_hsh, affix, 2); + cond = (const struct asm_cond *) hash_find_n (arm_cond_hsh, affix, 2); gas_assert (cond); inst.cond = cond->value; @@ -15016,8 +15028,9 @@ opcode_lookup (char **str) /* Look for suffixed mnemonic. */ affix = end - 2; - cond = hash_find_n (arm_cond_hsh, affix, 2); - opcode = hash_find_n (arm_ops_hsh, base, affix - base); + cond = (const struct asm_cond *) hash_find_n (arm_cond_hsh, affix, 2); + opcode = (const struct asm_opcode *) hash_find_n (arm_ops_hsh, base, + affix - base); if (opcode && cond) { /* step CE */ @@ -15064,13 +15077,14 @@ opcode_lookup (char **str) /* Look for infixed mnemonic in the usual position. */ affix = base + 3; - cond = hash_find_n (arm_cond_hsh, affix, 2); + cond = (const struct asm_cond *) hash_find_n (arm_cond_hsh, affix, 2); if (!cond) return NULL; memcpy (save, affix, 2); memmove (affix, affix + 2, (end - affix) - 2); - opcode = hash_find_n (arm_ops_hsh, base, (end - base) - 2); + opcode = (const struct asm_opcode *) hash_find_n (arm_ops_hsh, base, + (end - base) - 2); memmove (affix + 2, affix, (end - affix) - 2); memcpy (affix, save, 2); @@ -15986,7 +16000,7 @@ static struct asm_barrier_opt barrier_opt_names[] = /* The normal sort of mnemonic; has a Thumb variant; takes a conditional suffix. */ #define TxCE(mnem, op, top, nops, ops, ae, te) \ - { #mnem, OPS##nops ops, OT_csuffix, 0x##op, top, ARM_VARIANT, \ + { mnem, OPS##nops ops, OT_csuffix, 0x##op, top, ARM_VARIANT, \ THUMB_VARIANT, do_##ae, do_##te } /* Two variants of the above - TCE for a numeric Thumb opcode, tCE for @@ -15994,29 +16008,29 @@ static struct asm_barrier_opt barrier_opt_names[] = #define TCE(mnem, aop, top, nops, ops, ae, te) \ TxCE (mnem, aop, 0x##top, nops, ops, ae, te) #define tCE(mnem, aop, top, nops, ops, ae, te) \ - TxCE (mnem, aop, T_MNEM_##top, nops, ops, ae, te) + TxCE (mnem, aop, T_MNEM##top, nops, ops, ae, te) /* Second most common sort of mnemonic: has a Thumb variant, takes a conditional infix after the third character. */ #define TxC3(mnem, op, top, nops, ops, ae, te) \ - { #mnem, OPS##nops ops, OT_cinfix3, 0x##op, top, ARM_VARIANT, \ + { mnem, OPS##nops ops, OT_cinfix3, 0x##op, top, ARM_VARIANT, \ THUMB_VARIANT, do_##ae, do_##te } #define TxC3w(mnem, op, top, nops, ops, ae, te) \ - { #mnem, OPS##nops ops, OT_cinfix3_deprecated, 0x##op, top, ARM_VARIANT, \ + { mnem, OPS##nops ops, OT_cinfix3_deprecated, 0x##op, top, ARM_VARIANT, \ THUMB_VARIANT, do_##ae, do_##te } #define TC3(mnem, aop, top, nops, ops, ae, te) \ TxC3 (mnem, aop, 0x##top, nops, ops, ae, te) #define TC3w(mnem, aop, top, nops, ops, ae, te) \ TxC3w (mnem, aop, 0x##top, nops, ops, ae, te) #define tC3(mnem, aop, top, nops, ops, ae, te) \ - TxC3 (mnem, aop, T_MNEM_##top, nops, ops, ae, te) + TxC3 (mnem, aop, T_MNEM##top, nops, ops, ae, te) #define tC3w(mnem, aop, top, nops, ops, ae, te) \ - TxC3w (mnem, aop, T_MNEM_##top, nops, ops, ae, te) + TxC3w (mnem, aop, T_MNEM##top, nops, ops, ae, te) /* Mnemonic with a conditional infix in an unusual place. Each and every variant has to appear in the condition table. */ #define TxCM_(m1, m2, m3, op, top, nops, ops, ae, te) \ - { #m1 #m2 #m3, OPS##nops ops, sizeof (#m2) == 1 ? OT_odd_infix_unc : OT_odd_infix_0 + sizeof (#m1) - 1, \ + { m1 #m2 m3, OPS##nops ops, sizeof (#m2) == 1 ? OT_odd_infix_unc : OT_odd_infix_0 + sizeof (m1) - 1, \ 0x##op, top, ARM_VARIANT, THUMB_VARIANT, do_##ae, do_##te } #define TxCM(m1, m2, op, top, nops, ops, ae, te) \ @@ -16043,24 +16057,24 @@ static struct asm_barrier_opt barrier_opt_names[] = #define TCM(m1,m2, aop, top, nops, ops, ae, te) \ TxCM (m1,m2, aop, 0x##top, nops, ops, ae, te) #define tCM(m1,m2, aop, top, nops, ops, ae, te) \ - TxCM (m1,m2, aop, T_MNEM_##top, nops, ops, ae, te) + TxCM (m1,m2, aop, T_MNEM##top, nops, ops, ae, te) /* Mnemonic that cannot be conditionalized. The ARM condition-code field is still 0xE. Many of the Thumb variants can be executed conditionally, so this is checked separately. */ #define TUE(mnem, op, top, nops, ops, ae, te) \ - { #mnem, OPS##nops ops, OT_unconditional, 0x##op, 0x##top, ARM_VARIANT, \ + { mnem, OPS##nops ops, OT_unconditional, 0x##op, 0x##top, ARM_VARIANT, \ THUMB_VARIANT, do_##ae, do_##te } /* Mnemonic that cannot be conditionalized, and bears 0xF in its ARM condition code field. */ #define TUF(mnem, op, top, nops, ops, ae, te) \ - { #mnem, OPS##nops ops, OT_unconditionalF, 0x##op, 0x##top, ARM_VARIANT, \ + { mnem, OPS##nops ops, OT_unconditionalF, 0x##op, 0x##top, ARM_VARIANT, \ THUMB_VARIANT, do_##ae, do_##te } /* ARM-only variants of all the above. */ #define CE(mnem, op, nops, ops, ae) \ - { #mnem, OPS##nops ops, OT_csuffix, 0x##op, 0x0, ARM_VARIANT, 0, do_##ae, NULL } + { mnem, OPS##nops ops, OT_csuffix, 0x##op, 0x0, ARM_VARIANT, 0, do_##ae, NULL } #define C3(mnem, op, nops, ops, ae) \ { #mnem, OPS##nops ops, OT_cinfix3, 0x##op, 0x0, ARM_VARIANT, 0, do_##ae, NULL } @@ -16068,29 +16082,29 @@ static struct asm_barrier_opt barrier_opt_names[] = /* Legacy mnemonics that always have conditional infix after the third character. */ #define CL(mnem, op, nops, ops, ae) \ - { #mnem, OPS##nops ops, OT_cinfix3_legacy, \ + { mnem, OPS##nops ops, OT_cinfix3_legacy, \ 0x##op, 0x0, ARM_VARIANT, 0, do_##ae, NULL } /* Coprocessor instructions. Isomorphic between Arm and Thumb-2. */ #define cCE(mnem, op, nops, ops, ae) \ - { #mnem, OPS##nops ops, OT_csuffix, 0x##op, 0xe##op, ARM_VARIANT, ARM_VARIANT, do_##ae, do_##ae } + { mnem, OPS##nops ops, OT_csuffix, 0x##op, 0xe##op, ARM_VARIANT, ARM_VARIANT, do_##ae, do_##ae } /* Legacy coprocessor instructions where conditional infix and conditional suffix are ambiguous. For consistency this includes all FPA instructions, not just the potentially ambiguous ones. */ #define cCL(mnem, op, nops, ops, ae) \ - { #mnem, OPS##nops ops, OT_cinfix3_legacy, \ + { mnem, OPS##nops ops, OT_cinfix3_legacy, \ 0x##op, 0xe##op, ARM_VARIANT, ARM_VARIANT, do_##ae, do_##ae } /* Coprocessor, takes either a suffix or a position-3 infix (for an FPA corner case). */ #define C3E(mnem, op, nops, ops, ae) \ - { #mnem, OPS##nops ops, OT_csuf_or_in3, \ + { mnem, OPS##nops ops, OT_csuf_or_in3, \ 0x##op, 0xe##op, ARM_VARIANT, ARM_VARIANT, do_##ae, do_##ae } #define xCM_(m1, m2, m3, op, nops, ops, ae) \ - { #m1 #m2 #m3, OPS##nops ops, \ - sizeof (#m2) == 1 ? OT_odd_infix_unc : OT_odd_infix_0 + sizeof (#m1) - 1, \ + { m1 #m2 m3, OPS##nops ops, \ + sizeof (#m2) == 1 ? OT_odd_infix_unc : OT_odd_infix_0 + sizeof (m1) - 1, \ 0x##op, 0x0, ARM_VARIANT, 0, do_##ae, NULL } #define CM(m1, m2, op, nops, ops, ae) \ @@ -16130,7 +16144,7 @@ static struct asm_barrier_opt barrier_opt_names[] = /* Neon data processing, version which indirects through neon_enc_tab for the various overloaded versions of opcodes. */ #define nUF(mnem, op, nops, ops, enc) \ - { #mnem, OPS##nops ops, OT_unconditionalF, N_MNEM_##op, N_MNEM_##op, \ + { #mnem, OPS##nops ops, OT_unconditionalF, N_MNEM##op, N_MNEM##op, \ ARM_VARIANT, THUMB_VARIANT, do_##enc, do_##enc } /* Neon insn with conditional suffix for the ARM version, non-overloaded @@ -16147,7 +16161,7 @@ static struct asm_barrier_opt barrier_opt_names[] = /* Neon insn with conditional suffix for the ARM version, overloaded types. */ #define nCE_tag(mnem, op, nops, ops, enc, tag) \ - { #mnem, OPS##nops ops, tag, N_MNEM_##op, N_MNEM_##op, \ + { #mnem, OPS##nops ops, tag, N_MNEM##op, N_MNEM##op, \ ARM_VARIANT, THUMB_VARIANT, do_##enc, do_##enc } #define nCE(mnem, op, nops, ops, enc) \ @@ -16165,107 +16179,107 @@ static const struct asm_opcode insns[] = { #define ARM_VARIANT &arm_ext_v1 /* Core ARM Instructions. */ #define THUMB_VARIANT &arm_ext_v4t - tCE(and, 0000000, and, 3, (RR, oRR, SH), arit, t_arit3c), - tC3(ands, 0100000, ands, 3, (RR, oRR, SH), arit, t_arit3c), - tCE(eor, 0200000, eor, 3, (RR, oRR, SH), arit, t_arit3c), - tC3(eors, 0300000, eors, 3, (RR, oRR, SH), arit, t_arit3c), - tCE(sub, 0400000, sub, 3, (RR, oRR, SH), arit, t_add_sub), - tC3(subs, 0500000, subs, 3, (RR, oRR, SH), arit, t_add_sub), - tCE(add, 0800000, add, 3, (RR, oRR, SHG), arit, t_add_sub), - tC3(adds, 0900000, adds, 3, (RR, oRR, SHG), arit, t_add_sub), - tCE(adc, 0a00000, adc, 3, (RR, oRR, SH), arit, t_arit3c), - tC3(adcs, 0b00000, adcs, 3, (RR, oRR, SH), arit, t_arit3c), - tCE(sbc, 0c00000, sbc, 3, (RR, oRR, SH), arit, t_arit3), - tC3(sbcs, 0d00000, sbcs, 3, (RR, oRR, SH), arit, t_arit3), - tCE(orr, 1800000, orr, 3, (RR, oRR, SH), arit, t_arit3c), - tC3(orrs, 1900000, orrs, 3, (RR, oRR, SH), arit, t_arit3c), - tCE(bic, 1c00000, bic, 3, (RR, oRR, SH), arit, t_arit3), - tC3(bics, 1d00000, bics, 3, (RR, oRR, SH), arit, t_arit3), + tCE("and", 0000000, _and, 3, (RR, oRR, SH), arit, t_arit3c), + tC3("ands", 0100000, _ands, 3, (RR, oRR, SH), arit, t_arit3c), + tCE("eor", 0200000, _eor, 3, (RR, oRR, SH), arit, t_arit3c), + tC3("eors", 0300000, _eors, 3, (RR, oRR, SH), arit, t_arit3c), + tCE("sub", 0400000, _sub, 3, (RR, oRR, SH), arit, t_add_sub), + tC3("subs", 0500000, _subs, 3, (RR, oRR, SH), arit, t_add_sub), + tCE("add", 0800000, _add, 3, (RR, oRR, SHG), arit, t_add_sub), + tC3("adds", 0900000, _adds, 3, (RR, oRR, SHG), arit, t_add_sub), + tCE("adc", 0a00000, _adc, 3, (RR, oRR, SH), arit, t_arit3c), + tC3("adcs", 0b00000, _adcs, 3, (RR, oRR, SH), arit, t_arit3c), + tCE("sbc", 0c00000, _sbc, 3, (RR, oRR, SH), arit, t_arit3), + tC3("sbcs", 0d00000, _sbcs, 3, (RR, oRR, SH), arit, t_arit3), + tCE("orr", 1800000, _orr, 3, (RR, oRR, SH), arit, t_arit3c), + tC3("orrs", 1900000, _orrs, 3, (RR, oRR, SH), arit, t_arit3c), + tCE("bic", 1c00000, _bic, 3, (RR, oRR, SH), arit, t_arit3), + tC3("bics", 1d00000, _bics, 3, (RR, oRR, SH), arit, t_arit3), /* The p-variants of tst/cmp/cmn/teq (below) are the pre-V6 mechanism for setting PSR flag bits. They are obsolete in V6 and do not have Thumb equivalents. */ - tCE(tst, 1100000, tst, 2, (RR, SH), cmp, t_mvn_tst), - tC3w(tsts, 1100000, tst, 2, (RR, SH), cmp, t_mvn_tst), - CL(tstp, 110f000, 2, (RR, SH), cmp), - tCE(cmp, 1500000, cmp, 2, (RR, SH), cmp, t_mov_cmp), - tC3w(cmps, 1500000, cmp, 2, (RR, SH), cmp, t_mov_cmp), - CL(cmpp, 150f000, 2, (RR, SH), cmp), - tCE(cmn, 1700000, cmn, 2, (RR, SH), cmp, t_mvn_tst), - tC3w(cmns, 1700000, cmn, 2, (RR, SH), cmp, t_mvn_tst), - CL(cmnp, 170f000, 2, (RR, SH), cmp), - - tCE(mov, 1a00000, mov, 2, (RR, SH), mov, t_mov_cmp), - tC3(movs, 1b00000, movs, 2, (RR, SH), mov, t_mov_cmp), - tCE(mvn, 1e00000, mvn, 2, (RR, SH), mov, t_mvn_tst), - tC3(mvns, 1f00000, mvns, 2, (RR, SH), mov, t_mvn_tst), - - tCE(ldr, 4100000, ldr, 2, (RR, ADDRGLDR),ldst, t_ldst), - tC3(ldrb, 4500000, ldrb, 2, (RR, ADDRGLDR),ldst, t_ldst), - tCE(str, 4000000, str, 2, (RR, ADDRGLDR),ldst, t_ldst), - tC3(strb, 4400000, strb, 2, (RR, ADDRGLDR),ldst, t_ldst), - - tCE(stm, 8800000, stmia, 2, (RRw, REGLST), ldmstm, t_ldmstm), - tC3(stmia, 8800000, stmia, 2, (RRw, REGLST), ldmstm, t_ldmstm), - tC3(stmea, 8800000, stmia, 2, (RRw, REGLST), ldmstm, t_ldmstm), - tCE(ldm, 8900000, ldmia, 2, (RRw, REGLST), ldmstm, t_ldmstm), - tC3(ldmia, 8900000, ldmia, 2, (RRw, REGLST), ldmstm, t_ldmstm), - tC3(ldmfd, 8900000, ldmia, 2, (RRw, REGLST), ldmstm, t_ldmstm), - - TCE(swi, f000000, df00, 1, (EXPi), swi, t_swi), - TCE(svc, f000000, df00, 1, (EXPi), swi, t_swi), - tCE(b, a000000, b, 1, (EXPr), branch, t_branch), - TCE(bl, b000000, f000f800, 1, (EXPr), bl, t_branch23), + tCE("tst", 1100000, _tst, 2, (RR, SH), cmp, t_mvn_tst), + tC3w("tsts", 1100000, _tst, 2, (RR, SH), cmp, t_mvn_tst), + CL("tstp", 110f000, 2, (RR, SH), cmp), + tCE("cmp", 1500000, _cmp, 2, (RR, SH), cmp, t_mov_cmp), + tC3w("cmps", 1500000, _cmp, 2, (RR, SH), cmp, t_mov_cmp), + CL("cmpp", 150f000, 2, (RR, SH), cmp), + tCE("cmn", 1700000, _cmn, 2, (RR, SH), cmp, t_mvn_tst), + tC3w("cmns", 1700000, _cmn, 2, (RR, SH), cmp, t_mvn_tst), + CL("cmnp", 170f000, 2, (RR, SH), cmp), + + tCE("mov", 1a00000, _mov, 2, (RR, SH), mov, t_mov_cmp), + tC3("movs", 1b00000, _movs, 2, (RR, SH), mov, t_mov_cmp), + tCE("mvn", 1e00000, _mvn, 2, (RR, SH), mov, t_mvn_tst), + tC3("mvns", 1f00000, _mvns, 2, (RR, SH), mov, t_mvn_tst), + + tCE("ldr", 4100000, _ldr, 2, (RR, ADDRGLDR),ldst, t_ldst), + tC3("ldrb", 4500000, _ldrb, 2, (RR, ADDRGLDR),ldst, t_ldst), + tCE("str", 4000000, _str, 2, (RR, ADDRGLDR),ldst, t_ldst), + tC3("strb", 4400000, _strb, 2, (RR, ADDRGLDR),ldst, t_ldst), + + tCE("stm", 8800000, _stmia, 2, (RRw, REGLST), ldmstm, t_ldmstm), + tC3("stmia", 8800000, _stmia, 2, (RRw, REGLST), ldmstm, t_ldmstm), + tC3("stmea", 8800000, _stmia, 2, (RRw, REGLST), ldmstm, t_ldmstm), + tCE("ldm", 8900000, _ldmia, 2, (RRw, REGLST), ldmstm, t_ldmstm), + tC3("ldmia", 8900000, _ldmia, 2, (RRw, REGLST), ldmstm, t_ldmstm), + tC3("ldmfd", 8900000, _ldmia, 2, (RRw, REGLST), ldmstm, t_ldmstm), + + TCE("swi", f000000, df00, 1, (EXPi), swi, t_swi), + TCE("svc", f000000, df00, 1, (EXPi), swi, t_swi), + tCE("b", a000000, _b, 1, (EXPr), branch, t_branch), + TCE("bl", b000000, f000f800, 1, (EXPr), bl, t_branch23), /* Pseudo ops. */ - tCE(adr, 28f0000, adr, 2, (RR, EXP), adr, t_adr), + tCE("adr", 28f0000, _adr, 2, (RR, EXP), adr, t_adr), C3(adrl, 28f0000, 2, (RR, EXP), adrl), - tCE(nop, 1a00000, nop, 1, (oI255c), nop, t_nop), + tCE("nop", 1a00000, _nop, 1, (oI255c), nop, t_nop), /* Thumb-compatibility pseudo ops. */ - tCE(lsl, 1a00000, lsl, 3, (RR, oRR, SH), shift, t_shift), - tC3(lsls, 1b00000, lsls, 3, (RR, oRR, SH), shift, t_shift), - tCE(lsr, 1a00020, lsr, 3, (RR, oRR, SH), shift, t_shift), - tC3(lsrs, 1b00020, lsrs, 3, (RR, oRR, SH), shift, t_shift), - tCE(asr, 1a00040, asr, 3, (RR, oRR, SH), shift, t_shift), - tC3(asrs, 1b00040, asrs, 3, (RR, oRR, SH), shift, t_shift), - tCE(ror, 1a00060, ror, 3, (RR, oRR, SH), shift, t_shift), - tC3(rors, 1b00060, rors, 3, (RR, oRR, SH), shift, t_shift), - tCE(neg, 2600000, neg, 2, (RR, RR), rd_rn, t_neg), - tC3(negs, 2700000, negs, 2, (RR, RR), rd_rn, t_neg), - tCE(push, 92d0000, push, 1, (REGLST), push_pop, t_push_pop), - tCE(pop, 8bd0000, pop, 1, (REGLST), push_pop, t_push_pop), + tCE("lsl", 1a00000, _lsl, 3, (RR, oRR, SH), shift, t_shift), + tC3("lsls", 1b00000, _lsls, 3, (RR, oRR, SH), shift, t_shift), + tCE("lsr", 1a00020, _lsr, 3, (RR, oRR, SH), shift, t_shift), + tC3("lsrs", 1b00020, _lsrs, 3, (RR, oRR, SH), shift, t_shift), + tCE("asr", 1a00040, _asr, 3, (RR, oRR, SH), shift, t_shift), + tC3("asrs", 1b00040, _asrs, 3, (RR, oRR, SH), shift, t_shift), + tCE("ror", 1a00060, _ror, 3, (RR, oRR, SH), shift, t_shift), + tC3("rors", 1b00060, _rors, 3, (RR, oRR, SH), shift, t_shift), + tCE("neg", 2600000, _neg, 2, (RR, RR), rd_rn, t_neg), + tC3("negs", 2700000, _negs, 2, (RR, RR), rd_rn, t_neg), + tCE("push", 92d0000, _push, 1, (REGLST), push_pop, t_push_pop), + tCE("pop", 8bd0000, _pop, 1, (REGLST), push_pop, t_push_pop), /* These may simplify to neg. */ - TCE(rsb, 0600000, ebc00000, 3, (RR, oRR, SH), arit, t_rsb), - TC3(rsbs, 0700000, ebd00000, 3, (RR, oRR, SH), arit, t_rsb), + TCE("rsb", 0600000, ebc00000, 3, (RR, oRR, SH), arit, t_rsb), + TC3("rsbs", 0700000, ebd00000, 3, (RR, oRR, SH), arit, t_rsb), #undef THUMB_VARIANT #define THUMB_VARIANT & arm_ext_v6 - TCE(cpy, 1a00000, 4600, 2, (RR, RR), rd_rm, t_cpy), + TCE("cpy", 1a00000, 4600, 2, (RR, RR), rd_rm, t_cpy), /* V1 instructions with no Thumb analogue prior to V6T2. */ #undef THUMB_VARIANT #define THUMB_VARIANT & arm_ext_v6t2 - TCE(teq, 1300000, ea900f00, 2, (RR, SH), cmp, t_mvn_tst), - TC3w(teqs, 1300000, ea900f00, 2, (RR, SH), cmp, t_mvn_tst), - CL(teqp, 130f000, 2, (RR, SH), cmp), + TCE("teq", 1300000, ea900f00, 2, (RR, SH), cmp, t_mvn_tst), + TC3w("teqs", 1300000, ea900f00, 2, (RR, SH), cmp, t_mvn_tst), + CL("teqp", 130f000, 2, (RR, SH), cmp), - TC3(ldrt, 4300000, f8500e00, 2, (RR, ADDR), ldstt, t_ldstt), - TC3(ldrbt, 4700000, f8100e00, 2, (RR, ADDR), ldstt, t_ldstt), - TC3(strt, 4200000, f8400e00, 2, (RR, ADDR), ldstt, t_ldstt), - TC3(strbt, 4600000, f8000e00, 2, (RR, ADDR), ldstt, t_ldstt), + TC3("ldrt", 4300000, f8500e00, 2, (RR, ADDR), ldstt, t_ldstt), + TC3("ldrbt", 4700000, f8100e00, 2, (RR, ADDR), ldstt, t_ldstt), + TC3("strt", 4200000, f8400e00, 2, (RR, ADDR), ldstt, t_ldstt), + TC3("strbt", 4600000, f8000e00, 2, (RR, ADDR), ldstt, t_ldstt), - TC3(stmdb, 9000000, e9000000, 2, (RRw, REGLST), ldmstm, t_ldmstm), - TC3(stmfd, 9000000, e9000000, 2, (RRw, REGLST), ldmstm, t_ldmstm), + TC3("stmdb", 9000000, e9000000, 2, (RRw, REGLST), ldmstm, t_ldmstm), + TC3("stmfd", 9000000, e9000000, 2, (RRw, REGLST), ldmstm, t_ldmstm), - TC3(ldmdb, 9100000, e9100000, 2, (RRw, REGLST), ldmstm, t_ldmstm), - TC3(ldmea, 9100000, e9100000, 2, (RRw, REGLST), ldmstm, t_ldmstm), + TC3("ldmdb", 9100000, e9100000, 2, (RRw, REGLST), ldmstm, t_ldmstm), + TC3("ldmea", 9100000, e9100000, 2, (RRw, REGLST), ldmstm, t_ldmstm), /* V1 instructions with no Thumb analogue at all. */ - CE(rsc, 0e00000, 3, (RR, oRR, SH), arit), + CE("rsc", 0e00000, 3, (RR, oRR, SH), arit), C3(rscs, 0f00000, 3, (RR, oRR, SH), arit), C3(stmib, 9800000, 2, (RRw, REGLST), ldmstm), @@ -16282,28 +16296,28 @@ static const struct asm_opcode insns[] = #undef THUMB_VARIANT #define THUMB_VARIANT & arm_ext_v4t - tCE(mul, 0000090, mul, 3, (RRnpc, RRnpc, oRR), mul, t_mul), - tC3(muls, 0100090, muls, 3, (RRnpc, RRnpc, oRR), mul, t_mul), + tCE("mul", 0000090, _mul, 3, (RRnpc, RRnpc, oRR), mul, t_mul), + tC3("muls", 0100090, _muls, 3, (RRnpc, RRnpc, oRR), mul, t_mul), #undef THUMB_VARIANT #define THUMB_VARIANT & arm_ext_v6t2 - TCE(mla, 0200090, fb000000, 4, (RRnpc, RRnpc, RRnpc, RRnpc), mlas, t_mla), + TCE("mla", 0200090, fb000000, 4, (RRnpc, RRnpc, RRnpc, RRnpc), mlas, t_mla), C3(mlas, 0300090, 4, (RRnpc, RRnpc, RRnpc, RRnpc), mlas), /* Generic coprocessor instructions. */ - TCE(cdp, e000000, ee000000, 6, (RCP, I15b, RCN, RCN, RCN, oI7b), cdp, cdp), - TCE(ldc, c100000, ec100000, 3, (RCP, RCN, ADDRGLDC), lstc, lstc), - TC3(ldcl, c500000, ec500000, 3, (RCP, RCN, ADDRGLDC), lstc, lstc), - TCE(stc, c000000, ec000000, 3, (RCP, RCN, ADDRGLDC), lstc, lstc), - TC3(stcl, c400000, ec400000, 3, (RCP, RCN, ADDRGLDC), lstc, lstc), - TCE(mcr, e000010, ee000010, 6, (RCP, I7b, RR, RCN, RCN, oI7b), co_reg, co_reg), - TCE(mrc, e100010, ee100010, 6, (RCP, I7b, RR, RCN, RCN, oI7b), co_reg, co_reg), + TCE("cdp", e000000, ee000000, 6, (RCP, I15b, RCN, RCN, RCN, oI7b), cdp, cdp), + TCE("ldc", c100000, ec100000, 3, (RCP, RCN, ADDRGLDC), lstc, lstc), + TC3("ldcl", c500000, ec500000, 3, (RCP, RCN, ADDRGLDC), lstc, lstc), + TCE("stc", c000000, ec000000, 3, (RCP, RCN, ADDRGLDC), lstc, lstc), + TC3("stcl", c400000, ec400000, 3, (RCP, RCN, ADDRGLDC), lstc, lstc), + TCE("mcr", e000010, ee000010, 6, (RCP, I7b, RR, RCN, RCN, oI7b), co_reg, co_reg), + TCE("mrc", e100010, ee100010, 6, (RCP, I7b, RR, RCN, RCN, oI7b), co_reg, co_reg), #undef ARM_VARIANT #define ARM_VARIANT & arm_ext_v2s /* ARM 3 - swp instructions. */ - CE(swp, 1000090, 3, (RRnpc, RRnpc, RRnpcb), rd_rm_rn), + CE("swp", 1000090, 3, (RRnpc, RRnpc, RRnpcb), rd_rm_rn), C3(swpb, 1400090, 3, (RRnpc, RRnpc, RRnpcb), rd_rm_rn), #undef ARM_VARIANT @@ -16311,34 +16325,34 @@ static const struct asm_opcode insns[] = #undef THUMB_VARIANT #define THUMB_VARIANT & arm_ext_msr - TCE(mrs, 10f0000, f3ef8000, 2, (APSR_RR, RVC_PSR), mrs, t_mrs), - TCE(msr, 120f000, f3808000, 2, (RVC_PSR, RR_EXi), msr, t_msr), + TCE("mrs", 10f0000, f3ef8000, 2, (APSR_RR, RVC_PSR), mrs, t_mrs), + TCE("msr", 120f000, f3808000, 2, (RVC_PSR, RR_EXi), msr, t_msr), #undef ARM_VARIANT #define ARM_VARIANT & arm_ext_v3m /* ARM 7M long multiplies. */ #undef THUMB_VARIANT #define THUMB_VARIANT & arm_ext_v6t2 - TCE(smull, 0c00090, fb800000, 4, (RRnpc, RRnpc, RRnpc, RRnpc), mull, t_mull), - CM(smull,s, 0d00090, 4, (RRnpc, RRnpc, RRnpc, RRnpc), mull), - TCE(umull, 0800090, fba00000, 4, (RRnpc, RRnpc, RRnpc, RRnpc), mull, t_mull), - CM(umull,s, 0900090, 4, (RRnpc, RRnpc, RRnpc, RRnpc), mull), - TCE(smlal, 0e00090, fbc00000, 4, (RRnpc, RRnpc, RRnpc, RRnpc), mull, t_mull), - CM(smlal,s, 0f00090, 4, (RRnpc, RRnpc, RRnpc, RRnpc), mull), - TCE(umlal, 0a00090, fbe00000, 4, (RRnpc, RRnpc, RRnpc, RRnpc), mull, t_mull), - CM(umlal,s, 0b00090, 4, (RRnpc, RRnpc, RRnpc, RRnpc), mull), + TCE("smull", 0c00090, fb800000, 4, (RRnpc, RRnpc, RRnpc, RRnpc), mull, t_mull), + CM("smull","s", 0d00090, 4, (RRnpc, RRnpc, RRnpc, RRnpc), mull), + TCE("umull", 0800090, fba00000, 4, (RRnpc, RRnpc, RRnpc, RRnpc), mull, t_mull), + CM("umull","s", 0900090, 4, (RRnpc, RRnpc, RRnpc, RRnpc), mull), + TCE("smlal", 0e00090, fbc00000, 4, (RRnpc, RRnpc, RRnpc, RRnpc), mull, t_mull), + CM("smlal","s", 0f00090, 4, (RRnpc, RRnpc, RRnpc, RRnpc), mull), + TCE("umlal", 0a00090, fbe00000, 4, (RRnpc, RRnpc, RRnpc, RRnpc), mull, t_mull), + CM("umlal","s", 0b00090, 4, (RRnpc, RRnpc, RRnpc, RRnpc), mull), #undef ARM_VARIANT #define ARM_VARIANT & arm_ext_v4 /* ARM Architecture 4. */ #undef THUMB_VARIANT #define THUMB_VARIANT & arm_ext_v4t - tC3(ldrh, 01000b0, ldrh, 2, (RR, ADDRGLDRS), ldstv4, t_ldst), - tC3(strh, 00000b0, strh, 2, (RR, ADDRGLDRS), ldstv4, t_ldst), - tC3(ldrsh, 01000f0, ldrsh, 2, (RR, ADDRGLDRS), ldstv4, t_ldst), - tC3(ldrsb, 01000d0, ldrsb, 2, (RR, ADDRGLDRS), ldstv4, t_ldst), - tCM(ld,sh, 01000f0, ldrsh, 2, (RR, ADDRGLDRS), ldstv4, t_ldst), - tCM(ld,sb, 01000d0, ldrsb, 2, (RR, ADDRGLDRS), ldstv4, t_ldst), + tC3("ldrh", 01000b0, _ldrh, 2, (RR, ADDRGLDRS), ldstv4, t_ldst), + tC3("strh", 00000b0, _strh, 2, (RR, ADDRGLDRS), ldstv4, t_ldst), + tC3("ldrsh", 01000f0, _ldrsh, 2, (RR, ADDRGLDRS), ldstv4, t_ldst), + tC3("ldrsb", 01000d0, _ldrsb, 2, (RR, ADDRGLDRS), ldstv4, t_ldst), + tCM("ld","sh", 01000f0, _ldrsh, 2, (RR, ADDRGLDRS), ldstv4, t_ldst), + tCM("ld","sb", 01000d0, _ldrsb, 2, (RR, ADDRGLDRS), ldstv4, t_ldst), #undef ARM_VARIANT #define ARM_VARIANT & arm_ext_v4t_5 @@ -16346,7 +16360,7 @@ static const struct asm_opcode insns[] = /* ARM Architecture 4T. */ /* Note: bx (and blx) are required on V5, even if the processor does not support Thumb. */ - TCE(bx, 12fff10, 4700, 1, (RR), bx, t_bx), + TCE("bx", 12fff10, 4700, 1, (RR), bx, t_bx), #undef ARM_VARIANT #define ARM_VARIANT & arm_ext_v5 /* ARM Architecture 5T. */ @@ -16355,254 +16369,254 @@ static const struct asm_opcode insns[] = /* Note: blx has 2 variants; the .value coded here is for BLX(2). Only this variant has conditional execution. */ - TCE(blx, 12fff30, 4780, 1, (RR_EXr), blx, t_blx), - TUE(bkpt, 1200070, be00, 1, (oIffffb), bkpt, t_bkpt), + TCE("blx", 12fff30, 4780, 1, (RR_EXr), blx, t_blx), + TUE("bkpt", 1200070, be00, 1, (oIffffb), bkpt, t_bkpt), #undef THUMB_VARIANT #define THUMB_VARIANT & arm_ext_v6t2 - TCE(clz, 16f0f10, fab0f080, 2, (RRnpc, RRnpc), rd_rm, t_clz), - TUF(ldc2, c100000, fc100000, 3, (RCP, RCN, ADDRGLDC), lstc, lstc), - TUF(ldc2l, c500000, fc500000, 3, (RCP, RCN, ADDRGLDC), lstc, lstc), - TUF(stc2, c000000, fc000000, 3, (RCP, RCN, ADDRGLDC), lstc, lstc), - TUF(stc2l, c400000, fc400000, 3, (RCP, RCN, ADDRGLDC), lstc, lstc), - TUF(cdp2, e000000, fe000000, 6, (RCP, I15b, RCN, RCN, RCN, oI7b), cdp, cdp), - TUF(mcr2, e000010, fe000010, 6, (RCP, I7b, RR, RCN, RCN, oI7b), co_reg, co_reg), - TUF(mrc2, e100010, fe100010, 6, (RCP, I7b, RR, RCN, RCN, oI7b), co_reg, co_reg), + TCE("clz", 16f0f10, fab0f080, 2, (RRnpc, RRnpc), rd_rm, t_clz), + TUF("ldc2", c100000, fc100000, 3, (RCP, RCN, ADDRGLDC), lstc, lstc), + TUF("ldc2l", c500000, fc500000, 3, (RCP, RCN, ADDRGLDC), lstc, lstc), + TUF("stc2", c000000, fc000000, 3, (RCP, RCN, ADDRGLDC), lstc, lstc), + TUF("stc2l", c400000, fc400000, 3, (RCP, RCN, ADDRGLDC), lstc, lstc), + TUF("cdp2", e000000, fe000000, 6, (RCP, I15b, RCN, RCN, RCN, oI7b), cdp, cdp), + TUF("mcr2", e000010, fe000010, 6, (RCP, I7b, RR, RCN, RCN, oI7b), co_reg, co_reg), + TUF("mrc2", e100010, fe100010, 6, (RCP, I7b, RR, RCN, RCN, oI7b), co_reg, co_reg), #undef ARM_VARIANT #define ARM_VARIANT & arm_ext_v5exp /* ARM Architecture 5TExP. */ - TCE(smlabb, 1000080, fb100000, 4, (RRnpc, RRnpc, RRnpc, RRnpc), smla, t_mla), - TCE(smlatb, 10000a0, fb100020, 4, (RRnpc, RRnpc, RRnpc, RRnpc), smla, t_mla), - TCE(smlabt, 10000c0, fb100010, 4, (RRnpc, RRnpc, RRnpc, RRnpc), smla, t_mla), - TCE(smlatt, 10000e0, fb100030, 4, (RRnpc, RRnpc, RRnpc, RRnpc), smla, t_mla), + TCE("smlabb", 1000080, fb100000, 4, (RRnpc, RRnpc, RRnpc, RRnpc), smla, t_mla), + TCE("smlatb", 10000a0, fb100020, 4, (RRnpc, RRnpc, RRnpc, RRnpc), smla, t_mla), + TCE("smlabt", 10000c0, fb100010, 4, (RRnpc, RRnpc, RRnpc, RRnpc), smla, t_mla), + TCE("smlatt", 10000e0, fb100030, 4, (RRnpc, RRnpc, RRnpc, RRnpc), smla, t_mla), - TCE(smlawb, 1200080, fb300000, 4, (RRnpc, RRnpc, RRnpc, RRnpc), smla, t_mla), - TCE(smlawt, 12000c0, fb300010, 4, (RRnpc, RRnpc, RRnpc, RRnpc), smla, t_mla), + TCE("smlawb", 1200080, fb300000, 4, (RRnpc, RRnpc, RRnpc, RRnpc), smla, t_mla), + TCE("smlawt", 12000c0, fb300010, 4, (RRnpc, RRnpc, RRnpc, RRnpc), smla, t_mla), - TCE(smlalbb, 1400080, fbc00080, 4, (RRnpc, RRnpc, RRnpc, RRnpc), smlal, t_mlal), - TCE(smlaltb, 14000a0, fbc000a0, 4, (RRnpc, RRnpc, RRnpc, RRnpc), smlal, t_mlal), - TCE(smlalbt, 14000c0, fbc00090, 4, (RRnpc, RRnpc, RRnpc, RRnpc), smlal, t_mlal), - TCE(smlaltt, 14000e0, fbc000b0, 4, (RRnpc, RRnpc, RRnpc, RRnpc), smlal, t_mlal), + TCE("smlalbb", 1400080, fbc00080, 4, (RRnpc, RRnpc, RRnpc, RRnpc), smlal, t_mlal), + TCE("smlaltb", 14000a0, fbc000a0, 4, (RRnpc, RRnpc, RRnpc, RRnpc), smlal, t_mlal), + TCE("smlalbt", 14000c0, fbc00090, 4, (RRnpc, RRnpc, RRnpc, RRnpc), smlal, t_mlal), + TCE("smlaltt", 14000e0, fbc000b0, 4, (RRnpc, RRnpc, RRnpc, RRnpc), smlal, t_mlal), - TCE(smulbb, 1600080, fb10f000, 3, (RRnpc, RRnpc, RRnpc), smul, t_simd), - TCE(smultb, 16000a0, fb10f020, 3, (RRnpc, RRnpc, RRnpc), smul, t_simd), - TCE(smulbt, 16000c0, fb10f010, 3, (RRnpc, RRnpc, RRnpc), smul, t_simd), - TCE(smultt, 16000e0, fb10f030, 3, (RRnpc, RRnpc, RRnpc), smul, t_simd), + TCE("smulbb", 1600080, fb10f000, 3, (RRnpc, RRnpc, RRnpc), smul, t_simd), + TCE("smultb", 16000a0, fb10f020, 3, (RRnpc, RRnpc, RRnpc), smul, t_simd), + TCE("smulbt", 16000c0, fb10f010, 3, (RRnpc, RRnpc, RRnpc), smul, t_simd), + TCE("smultt", 16000e0, fb10f030, 3, (RRnpc, RRnpc, RRnpc), smul, t_simd), - TCE(smulwb, 12000a0, fb30f000, 3, (RRnpc, RRnpc, RRnpc), smul, t_simd), - TCE(smulwt, 12000e0, fb30f010, 3, (RRnpc, RRnpc, RRnpc), smul, t_simd), + TCE("smulwb", 12000a0, fb30f000, 3, (RRnpc, RRnpc, RRnpc), smul, t_simd), + TCE("smulwt", 12000e0, fb30f010, 3, (RRnpc, RRnpc, RRnpc), smul, t_simd), - TCE(qadd, 1000050, fa80f080, 3, (RRnpc, RRnpc, RRnpc), rd_rm_rn, t_simd), - TCE(qdadd, 1400050, fa80f090, 3, (RRnpc, RRnpc, RRnpc), rd_rm_rn, t_simd), - TCE(qsub, 1200050, fa80f0a0, 3, (RRnpc, RRnpc, RRnpc), rd_rm_rn, t_simd), - TCE(qdsub, 1600050, fa80f0b0, 3, (RRnpc, RRnpc, RRnpc), rd_rm_rn, t_simd), + TCE("qadd", 1000050, fa80f080, 3, (RRnpc, RRnpc, RRnpc), rd_rm_rn, t_simd), + TCE("qdadd", 1400050, fa80f090, 3, (RRnpc, RRnpc, RRnpc), rd_rm_rn, t_simd), + TCE("qsub", 1200050, fa80f0a0, 3, (RRnpc, RRnpc, RRnpc), rd_rm_rn, t_simd), + TCE("qdsub", 1600050, fa80f0b0, 3, (RRnpc, RRnpc, RRnpc), rd_rm_rn, t_simd), #undef ARM_VARIANT #define ARM_VARIANT & arm_ext_v5e /* ARM Architecture 5TE. */ - TUF(pld, 450f000, f810f000, 1, (ADDR), pld, t_pld), - TC3(ldrd, 00000d0, e8500000, 3, (RRnpc, oRRnpc, ADDRGLDRS), ldrd, t_ldstd), - TC3(strd, 00000f0, e8400000, 3, (RRnpc, oRRnpc, ADDRGLDRS), ldrd, t_ldstd), + TUF("pld", 450f000, f810f000, 1, (ADDR), pld, t_pld), + TC3("ldrd", 00000d0, e8500000, 3, (RRnpc, oRRnpc, ADDRGLDRS), ldrd, t_ldstd), + TC3("strd", 00000f0, e8400000, 3, (RRnpc, oRRnpc, ADDRGLDRS), ldrd, t_ldstd), - TCE(mcrr, c400000, ec400000, 5, (RCP, I15b, RRnpc, RRnpc, RCN), co_reg2c, co_reg2c), - TCE(mrrc, c500000, ec500000, 5, (RCP, I15b, RRnpc, RRnpc, RCN), co_reg2c, co_reg2c), + TCE("mcrr", c400000, ec400000, 5, (RCP, I15b, RRnpc, RRnpc, RCN), co_reg2c, co_reg2c), + TCE("mrrc", c500000, ec500000, 5, (RCP, I15b, RRnpc, RRnpc, RCN), co_reg2c, co_reg2c), #undef ARM_VARIANT #define ARM_VARIANT & arm_ext_v5j /* ARM Architecture 5TEJ. */ - TCE(bxj, 12fff20, f3c08f00, 1, (RR), bxj, t_bxj), + TCE("bxj", 12fff20, f3c08f00, 1, (RR), bxj, t_bxj), #undef ARM_VARIANT #define ARM_VARIANT & arm_ext_v6 /* ARM V6. */ #undef THUMB_VARIANT #define THUMB_VARIANT & arm_ext_v6 - TUF(cpsie, 1080000, b660, 2, (CPSF, oI31b), cpsi, t_cpsi), - TUF(cpsid, 10c0000, b670, 2, (CPSF, oI31b), cpsi, t_cpsi), - tCE(rev, 6bf0f30, rev, 2, (RRnpc, RRnpc), rd_rm, t_rev), - tCE(rev16, 6bf0fb0, rev16, 2, (RRnpc, RRnpc), rd_rm, t_rev), - tCE(revsh, 6ff0fb0, revsh, 2, (RRnpc, RRnpc), rd_rm, t_rev), - tCE(sxth, 6bf0070, sxth, 3, (RRnpc, RRnpc, oROR), sxth, t_sxth), - tCE(uxth, 6ff0070, uxth, 3, (RRnpc, RRnpc, oROR), sxth, t_sxth), - tCE(sxtb, 6af0070, sxtb, 3, (RRnpc, RRnpc, oROR), sxth, t_sxth), - tCE(uxtb, 6ef0070, uxtb, 3, (RRnpc, RRnpc, oROR), sxth, t_sxth), - TUF(setend, 1010000, b650, 1, (ENDI), setend, t_setend), + TUF("cpsie", 1080000, b660, 2, (CPSF, oI31b), cpsi, t_cpsi), + TUF("cpsid", 10c0000, b670, 2, (CPSF, oI31b), cpsi, t_cpsi), + tCE("rev", 6bf0f30, _rev, 2, (RRnpc, RRnpc), rd_rm, t_rev), + tCE("rev16", 6bf0fb0, _rev16, 2, (RRnpc, RRnpc), rd_rm, t_rev), + tCE("revsh", 6ff0fb0, _revsh, 2, (RRnpc, RRnpc), rd_rm, t_rev), + tCE("sxth", 6bf0070, _sxth, 3, (RRnpc, RRnpc, oROR), sxth, t_sxth), + tCE("uxth", 6ff0070, _uxth, 3, (RRnpc, RRnpc, oROR), sxth, t_sxth), + tCE("sxtb", 6af0070, _sxtb, 3, (RRnpc, RRnpc, oROR), sxth, t_sxth), + tCE("uxtb", 6ef0070, _uxtb, 3, (RRnpc, RRnpc, oROR), sxth, t_sxth), + TUF("setend", 1010000, b650, 1, (ENDI), setend, t_setend), #undef THUMB_VARIANT #define THUMB_VARIANT & arm_ext_v6t2 - TCE(ldrex, 1900f9f, e8500f00, 2, (RRnpc, ADDR), ldrex, t_ldrex), - TCE(strex, 1800f90, e8400000, 3, (RRnpc, RRnpc, ADDR), strex, t_strex), - TUF(mcrr2, c400000, fc400000, 5, (RCP, I15b, RRnpc, RRnpc, RCN), co_reg2c, co_reg2c), - TUF(mrrc2, c500000, fc500000, 5, (RCP, I15b, RRnpc, RRnpc, RCN), co_reg2c, co_reg2c), + TCE("ldrex", 1900f9f, e8500f00, 2, (RRnpc, ADDR), ldrex, t_ldrex), + TCE("strex", 1800f90, e8400000, 3, (RRnpc, RRnpc, ADDR), strex, t_strex), + TUF("mcrr2", c400000, fc400000, 5, (RCP, I15b, RRnpc, RRnpc, RCN), co_reg2c, co_reg2c), + TUF("mrrc2", c500000, fc500000, 5, (RCP, I15b, RRnpc, RRnpc, RCN), co_reg2c, co_reg2c), - TCE(ssat, 6a00010, f3000000, 4, (RRnpc, I32, RRnpc, oSHllar),ssat, t_ssat), - TCE(usat, 6e00010, f3800000, 4, (RRnpc, I31, RRnpc, oSHllar),usat, t_usat), + TCE("ssat", 6a00010, f3000000, 4, (RRnpc, I32, RRnpc, oSHllar),ssat, t_ssat), + TCE("usat", 6e00010, f3800000, 4, (RRnpc, I31, RRnpc, oSHllar),usat, t_usat), /* ARM V6 not included in V7M (eg. integer SIMD). */ #undef THUMB_VARIANT #define THUMB_VARIANT & arm_ext_v6_notm - TUF(cps, 1020000, f3af8100, 1, (I31b), imm0, t_cps), - TCE(pkhbt, 6800010, eac00000, 4, (RRnpc, RRnpc, RRnpc, oSHll), pkhbt, t_pkhbt), - TCE(pkhtb, 6800050, eac00020, 4, (RRnpc, RRnpc, RRnpc, oSHar), pkhtb, t_pkhtb), - TCE(qadd16, 6200f10, fa90f010, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(qadd8, 6200f90, fa80f010, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(qasx, 6200f30, faa0f010, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TUF("cps", 1020000, f3af8100, 1, (I31b), imm0, t_cps), + TCE("pkhbt", 6800010, eac00000, 4, (RRnpc, RRnpc, RRnpc, oSHll), pkhbt, t_pkhbt), + TCE("pkhtb", 6800050, eac00020, 4, (RRnpc, RRnpc, RRnpc, oSHar), pkhtb, t_pkhtb), + TCE("qadd16", 6200f10, fa90f010, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("qadd8", 6200f90, fa80f010, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("qasx", 6200f30, faa0f010, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), /* Old name for QASX. */ - TCE(qaddsubx, 6200f30, faa0f010, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(qsax, 6200f50, fae0f010, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("qaddsubx", 6200f30, faa0f010, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("qsax", 6200f50, fae0f010, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), /* Old name for QSAX. */ - TCE(qsubaddx, 6200f50, fae0f010, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(qsub16, 6200f70, fad0f010, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(qsub8, 6200ff0, fac0f010, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(sadd16, 6100f10, fa90f000, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(sadd8, 6100f90, fa80f000, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(sasx, 6100f30, faa0f000, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("qsubaddx", 6200f50, fae0f010, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("qsub16", 6200f70, fad0f010, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("qsub8", 6200ff0, fac0f010, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("sadd16", 6100f10, fa90f000, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("sadd8", 6100f90, fa80f000, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("sasx", 6100f30, faa0f000, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), /* Old name for SASX. */ - TCE(saddsubx, 6100f30, faa0f000, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(shadd16, 6300f10, fa90f020, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(shadd8, 6300f90, fa80f020, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(shasx, 6300f30, faa0f020, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("saddsubx", 6100f30, faa0f000, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("shadd16", 6300f10, fa90f020, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("shadd8", 6300f90, fa80f020, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("shasx", 6300f30, faa0f020, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), /* Old name for SHASX. */ - TCE(shaddsubx, 6300f30, faa0f020, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(shsax, 6300f50, fae0f020, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("shaddsubx", 6300f30, faa0f020, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("shsax", 6300f50, fae0f020, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), /* Old name for SHSAX. */ - TCE(shsubaddx, 6300f50, fae0f020, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(shsub16, 6300f70, fad0f020, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(shsub8, 6300ff0, fac0f020, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(ssax, 6100f50, fae0f000, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("shsubaddx", 6300f50, fae0f020, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("shsub16", 6300f70, fad0f020, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("shsub8", 6300ff0, fac0f020, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("ssax", 6100f50, fae0f000, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), /* Old name for SSAX. */ - TCE(ssubaddx, 6100f50, fae0f000, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(ssub16, 6100f70, fad0f000, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(ssub8, 6100ff0, fac0f000, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(uadd16, 6500f10, fa90f040, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(uadd8, 6500f90, fa80f040, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(uasx, 6500f30, faa0f040, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("ssubaddx", 6100f50, fae0f000, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("ssub16", 6100f70, fad0f000, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("ssub8", 6100ff0, fac0f000, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("uadd16", 6500f10, fa90f040, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("uadd8", 6500f90, fa80f040, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("uasx", 6500f30, faa0f040, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), /* Old name for UASX. */ - TCE(uaddsubx, 6500f30, faa0f040, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(uhadd16, 6700f10, fa90f060, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(uhadd8, 6700f90, fa80f060, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(uhasx, 6700f30, faa0f060, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("uaddsubx", 6500f30, faa0f040, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("uhadd16", 6700f10, fa90f060, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("uhadd8", 6700f90, fa80f060, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("uhasx", 6700f30, faa0f060, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), /* Old name for UHASX. */ - TCE(uhaddsubx, 6700f30, faa0f060, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(uhsax, 6700f50, fae0f060, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("uhaddsubx", 6700f30, faa0f060, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("uhsax", 6700f50, fae0f060, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), /* Old name for UHSAX. */ - TCE(uhsubaddx, 6700f50, fae0f060, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(uhsub16, 6700f70, fad0f060, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(uhsub8, 6700ff0, fac0f060, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(uqadd16, 6600f10, fa90f050, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(uqadd8, 6600f90, fa80f050, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(uqasx, 6600f30, faa0f050, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("uhsubaddx", 6700f50, fae0f060, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("uhsub16", 6700f70, fad0f060, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("uhsub8", 6700ff0, fac0f060, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("uqadd16", 6600f10, fa90f050, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("uqadd8", 6600f90, fa80f050, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("uqasx", 6600f30, faa0f050, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), /* Old name for UQASX. */ - TCE(uqaddsubx, 6600f30, faa0f050, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(uqsax, 6600f50, fae0f050, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("uqaddsubx", 6600f30, faa0f050, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("uqsax", 6600f50, fae0f050, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), /* Old name for UQSAX. */ - TCE(uqsubaddx, 6600f50, fae0f050, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(uqsub16, 6600f70, fad0f050, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(uqsub8, 6600ff0, fac0f050, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(usub16, 6500f70, fad0f040, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(usax, 6500f50, fae0f040, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("uqsubaddx", 6600f50, fae0f050, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("uqsub16", 6600f70, fad0f050, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("uqsub8", 6600ff0, fac0f050, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("usub16", 6500f70, fad0f040, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("usax", 6500f50, fae0f040, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), /* Old name for USAX. */ - TCE(usubaddx, 6500f50, fae0f040, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(usub8, 6500ff0, fac0f040, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TUF(rfeia, 8900a00, e990c000, 1, (RRw), rfe, rfe), + TCE("usubaddx", 6500f50, fae0f040, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("usub8", 6500ff0, fac0f040, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TUF("rfeia", 8900a00, e990c000, 1, (RRw), rfe, rfe), UF(rfeib, 9900a00, 1, (RRw), rfe), UF(rfeda, 8100a00, 1, (RRw), rfe), - TUF(rfedb, 9100a00, e810c000, 1, (RRw), rfe, rfe), - TUF(rfefd, 8900a00, e990c000, 1, (RRw), rfe, rfe), + TUF("rfedb", 9100a00, e810c000, 1, (RRw), rfe, rfe), + TUF("rfefd", 8900a00, e990c000, 1, (RRw), rfe, rfe), UF(rfefa, 9900a00, 1, (RRw), rfe), UF(rfeea, 8100a00, 1, (RRw), rfe), - TUF(rfeed, 9100a00, e810c000, 1, (RRw), rfe, rfe), - TCE(sxtah, 6b00070, fa00f080, 4, (RRnpc, RRnpc, RRnpc, oROR), sxtah, t_sxtah), - TCE(sxtab16, 6800070, fa20f080, 4, (RRnpc, RRnpc, RRnpc, oROR), sxtah, t_sxtah), - TCE(sxtab, 6a00070, fa40f080, 4, (RRnpc, RRnpc, RRnpc, oROR), sxtah, t_sxtah), - TCE(sxtb16, 68f0070, fa2ff080, 3, (RRnpc, RRnpc, oROR), sxth, t_sxth), - TCE(uxtah, 6f00070, fa10f080, 4, (RRnpc, RRnpc, RRnpc, oROR), sxtah, t_sxtah), - TCE(uxtab16, 6c00070, fa30f080, 4, (RRnpc, RRnpc, RRnpc, oROR), sxtah, t_sxtah), - TCE(uxtab, 6e00070, fa50f080, 4, (RRnpc, RRnpc, RRnpc, oROR), sxtah, t_sxtah), - TCE(uxtb16, 6cf0070, fa3ff080, 3, (RRnpc, RRnpc, oROR), sxth, t_sxth), - TCE(sel, 6800fb0, faa0f080, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), - TCE(smlad, 7000010, fb200000, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smla, t_mla), - TCE(smladx, 7000030, fb200010, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smla, t_mla), - TCE(smlald, 7400010, fbc000c0, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smlal,t_mlal), - TCE(smlaldx, 7400030, fbc000d0, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smlal,t_mlal), - TCE(smlsd, 7000050, fb400000, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smla, t_mla), - TCE(smlsdx, 7000070, fb400010, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smla, t_mla), - TCE(smlsld, 7400050, fbd000c0, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smlal,t_mlal), - TCE(smlsldx, 7400070, fbd000d0, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smlal,t_mlal), - TCE(smmla, 7500010, fb500000, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smla, t_mla), - TCE(smmlar, 7500030, fb500010, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smla, t_mla), - TCE(smmls, 75000d0, fb600000, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smla, t_mla), - TCE(smmlsr, 75000f0, fb600010, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smla, t_mla), - TCE(smmul, 750f010, fb50f000, 3, (RRnpc, RRnpc, RRnpc), smul, t_simd), - TCE(smmulr, 750f030, fb50f010, 3, (RRnpc, RRnpc, RRnpc), smul, t_simd), - TCE(smuad, 700f010, fb20f000, 3, (RRnpc, RRnpc, RRnpc), smul, t_simd), - TCE(smuadx, 700f030, fb20f010, 3, (RRnpc, RRnpc, RRnpc), smul, t_simd), - TCE(smusd, 700f050, fb40f000, 3, (RRnpc, RRnpc, RRnpc), smul, t_simd), - TCE(smusdx, 700f070, fb40f010, 3, (RRnpc, RRnpc, RRnpc), smul, t_simd), - TUF(srsia, 8c00500, e980c000, 2, (oRRw, I31w), srs, srs), + TUF("rfeed", 9100a00, e810c000, 1, (RRw), rfe, rfe), + TCE("sxtah", 6b00070, fa00f080, 4, (RRnpc, RRnpc, RRnpc, oROR), sxtah, t_sxtah), + TCE("sxtab16", 6800070, fa20f080, 4, (RRnpc, RRnpc, RRnpc, oROR), sxtah, t_sxtah), + TCE("sxtab", 6a00070, fa40f080, 4, (RRnpc, RRnpc, RRnpc, oROR), sxtah, t_sxtah), + TCE("sxtb16", 68f0070, fa2ff080, 3, (RRnpc, RRnpc, oROR), sxth, t_sxth), + TCE("uxtah", 6f00070, fa10f080, 4, (RRnpc, RRnpc, RRnpc, oROR), sxtah, t_sxtah), + TCE("uxtab16", 6c00070, fa30f080, 4, (RRnpc, RRnpc, RRnpc, oROR), sxtah, t_sxtah), + TCE("uxtab", 6e00070, fa50f080, 4, (RRnpc, RRnpc, RRnpc, oROR), sxtah, t_sxtah), + TCE("uxtb16", 6cf0070, fa3ff080, 3, (RRnpc, RRnpc, oROR), sxth, t_sxth), + TCE("sel", 6800fb0, faa0f080, 3, (RRnpc, RRnpc, RRnpc), rd_rn_rm, t_simd), + TCE("smlad", 7000010, fb200000, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smla, t_mla), + TCE("smladx", 7000030, fb200010, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smla, t_mla), + TCE("smlald", 7400010, fbc000c0, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smlal,t_mlal), + TCE("smlaldx", 7400030, fbc000d0, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smlal,t_mlal), + TCE("smlsd", 7000050, fb400000, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smla, t_mla), + TCE("smlsdx", 7000070, fb400010, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smla, t_mla), + TCE("smlsld", 7400050, fbd000c0, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smlal,t_mlal), + TCE("smlsldx", 7400070, fbd000d0, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smlal,t_mlal), + TCE("smmla", 7500010, fb500000, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smla, t_mla), + TCE("smmlar", 7500030, fb500010, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smla, t_mla), + TCE("smmls", 75000d0, fb600000, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smla, t_mla), + TCE("smmlsr", 75000f0, fb600010, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smla, t_mla), + TCE("smmul", 750f010, fb50f000, 3, (RRnpc, RRnpc, RRnpc), smul, t_simd), + TCE("smmulr", 750f030, fb50f010, 3, (RRnpc, RRnpc, RRnpc), smul, t_simd), + TCE("smuad", 700f010, fb20f000, 3, (RRnpc, RRnpc, RRnpc), smul, t_simd), + TCE("smuadx", 700f030, fb20f010, 3, (RRnpc, RRnpc, RRnpc), smul, t_simd), + TCE("smusd", 700f050, fb40f000, 3, (RRnpc, RRnpc, RRnpc), smul, t_simd), + TCE("smusdx", 700f070, fb40f010, 3, (RRnpc, RRnpc, RRnpc), smul, t_simd), + TUF("srsia", 8c00500, e980c000, 2, (oRRw, I31w), srs, srs), UF(srsib, 9c00500, 2, (oRRw, I31w), srs), UF(srsda, 8400500, 2, (oRRw, I31w), srs), - TUF(srsdb, 9400500, e800c000, 2, (oRRw, I31w), srs, srs), - TCE(ssat16, 6a00f30, f3200000, 3, (RRnpc, I16, RRnpc), ssat16, t_ssat16), - TCE(umaal, 0400090, fbe00060, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smlal, t_mlal), - TCE(usad8, 780f010, fb70f000, 3, (RRnpc, RRnpc, RRnpc), smul, t_simd), - TCE(usada8, 7800010, fb700000, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smla, t_mla), - TCE(usat16, 6e00f30, f3a00000, 3, (RRnpc, I15, RRnpc), usat16, t_usat16), + TUF("srsdb", 9400500, e800c000, 2, (oRRw, I31w), srs, srs), + TCE("ssat16", 6a00f30, f3200000, 3, (RRnpc, I16, RRnpc), ssat16, t_ssat16), + TCE("umaal", 0400090, fbe00060, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smlal, t_mlal), + TCE("usad8", 780f010, fb70f000, 3, (RRnpc, RRnpc, RRnpc), smul, t_simd), + TCE("usada8", 7800010, fb700000, 4, (RRnpc, RRnpc, RRnpc, RRnpc),smla, t_mla), + TCE("usat16", 6e00f30, f3a00000, 3, (RRnpc, I15, RRnpc), usat16, t_usat16), #undef ARM_VARIANT #define ARM_VARIANT & arm_ext_v6k #undef THUMB_VARIANT #define THUMB_VARIANT & arm_ext_v6k - tCE(yield, 320f001, yield, 0, (), noargs, t_hint), - tCE(wfe, 320f002, wfe, 0, (), noargs, t_hint), - tCE(wfi, 320f003, wfi, 0, (), noargs, t_hint), - tCE(sev, 320f004, sev, 0, (), noargs, t_hint), + tCE("yield", 320f001, _yield, 0, (), noargs, t_hint), + tCE("wfe", 320f002, _wfe, 0, (), noargs, t_hint), + tCE("wfi", 320f003, _wfi, 0, (), noargs, t_hint), + tCE("sev", 320f004, _sev, 0, (), noargs, t_hint), #undef THUMB_VARIANT #define THUMB_VARIANT & arm_ext_v6_notm - TCE(ldrexd, 1b00f9f, e8d0007f, 3, (RRnpc, oRRnpc, RRnpcb), ldrexd, t_ldrexd), - TCE(strexd, 1a00f90, e8c00070, 4, (RRnpc, RRnpc, oRRnpc, RRnpcb), strexd, t_strexd), + TCE("ldrexd", 1b00f9f, e8d0007f, 3, (RRnpc, oRRnpc, RRnpcb), ldrexd, t_ldrexd), + TCE("strexd", 1a00f90, e8c00070, 4, (RRnpc, RRnpc, oRRnpc, RRnpcb), strexd, t_strexd), #undef THUMB_VARIANT #define THUMB_VARIANT & arm_ext_v6t2 - TCE(ldrexb, 1d00f9f, e8d00f4f, 2, (RRnpc, RRnpcb), rd_rn, rd_rn), - TCE(ldrexh, 1f00f9f, e8d00f5f, 2, (RRnpc, RRnpcb), rd_rn, rd_rn), - TCE(strexb, 1c00f90, e8c00f40, 3, (RRnpc, RRnpc, ADDR), strex, rm_rd_rn), - TCE(strexh, 1e00f90, e8c00f50, 3, (RRnpc, RRnpc, ADDR), strex, rm_rd_rn), - TUF(clrex, 57ff01f, f3bf8f2f, 0, (), noargs, noargs), + TCE("ldrexb", 1d00f9f, e8d00f4f, 2, (RRnpc, RRnpcb), rd_rn, rd_rn), + TCE("ldrexh", 1f00f9f, e8d00f5f, 2, (RRnpc, RRnpcb), rd_rn, rd_rn), + TCE("strexb", 1c00f90, e8c00f40, 3, (RRnpc, RRnpc, ADDR), strex, rm_rd_rn), + TCE("strexh", 1e00f90, e8c00f50, 3, (RRnpc, RRnpc, ADDR), strex, rm_rd_rn), + TUF("clrex", 57ff01f, f3bf8f2f, 0, (), noargs, noargs), #undef ARM_VARIANT #define ARM_VARIANT & arm_ext_v6z - TCE(smc, 1600070, f7f08000, 1, (EXPi), smc, t_smc), + TCE("smc", 1600070, f7f08000, 1, (EXPi), smc, t_smc), #undef ARM_VARIANT #define ARM_VARIANT & arm_ext_v6t2 - TCE(bfc, 7c0001f, f36f0000, 3, (RRnpc, I31, I32), bfc, t_bfc), - TCE(bfi, 7c00010, f3600000, 4, (RRnpc, RRnpc_I0, I31, I32), bfi, t_bfi), - TCE(sbfx, 7a00050, f3400000, 4, (RR, RR, I31, I32), bfx, t_bfx), - TCE(ubfx, 7e00050, f3c00000, 4, (RR, RR, I31, I32), bfx, t_bfx), + TCE("bfc", 7c0001f, f36f0000, 3, (RRnpc, I31, I32), bfc, t_bfc), + TCE("bfi", 7c00010, f3600000, 4, (RRnpc, RRnpc_I0, I31, I32), bfi, t_bfi), + TCE("sbfx", 7a00050, f3400000, 4, (RR, RR, I31, I32), bfx, t_bfx), + TCE("ubfx", 7e00050, f3c00000, 4, (RR, RR, I31, I32), bfx, t_bfx), - TCE(mls, 0600090, fb000010, 4, (RRnpc, RRnpc, RRnpc, RRnpc), mlas, t_mla), - TCE(movw, 3000000, f2400000, 2, (RRnpc, HALF), mov16, t_mov16), - TCE(movt, 3400000, f2c00000, 2, (RRnpc, HALF), mov16, t_mov16), - TCE(rbit, 6ff0f30, fa90f0a0, 2, (RR, RR), rd_rm, t_rbit), + TCE("mls", 0600090, fb000010, 4, (RRnpc, RRnpc, RRnpc, RRnpc), mlas, t_mla), + TCE("movw", 3000000, f2400000, 2, (RRnpc, HALF), mov16, t_mov16), + TCE("movt", 3400000, f2c00000, 2, (RRnpc, HALF), mov16, t_mov16), + TCE("rbit", 6ff0f30, fa90f0a0, 2, (RR, RR), rd_rm, t_rbit), - TC3(ldrht, 03000b0, f8300e00, 2, (RR, ADDR), ldsttv4, t_ldstt), - TC3(ldrsht, 03000f0, f9300e00, 2, (RR, ADDR), ldsttv4, t_ldstt), - TC3(ldrsbt, 03000d0, f9100e00, 2, (RR, ADDR), ldsttv4, t_ldstt), - TC3(strht, 02000b0, f8200e00, 2, (RR, ADDR), ldsttv4, t_ldstt), + TC3("ldrht", 03000b0, f8300e00, 2, (RR, ADDR), ldsttv4, t_ldstt), + TC3("ldrsht", 03000f0, f9300e00, 2, (RR, ADDR), ldsttv4, t_ldstt), + TC3("ldrsbt", 03000d0, f9100e00, 2, (RR, ADDR), ldsttv4, t_ldstt), + TC3("strht", 02000b0, f8200e00, 2, (RR, ADDR), ldsttv4, t_ldstt), - UT(cbnz, b900, 2, (RR, EXP), t_cbz), - UT(cbz, b100, 2, (RR, EXP), t_cbz), + UT("cbnz", b900, 2, (RR, EXP), t_cbz), + UT("cbz", b100, 2, (RR, EXP), t_cbz), /* ARM does not really have an IT instruction, so always allow it. The opcode is copied from Thumb in order to allow warnings in @@ -16610,42 +16624,42 @@ static const struct asm_opcode insns[] = #undef ARM_VARIANT #define ARM_VARIANT & arm_ext_v1 - TUE(it, bf08, bf08, 1, (COND), it, t_it), - TUE(itt, bf0c, bf0c, 1, (COND), it, t_it), - TUE(ite, bf04, bf04, 1, (COND), it, t_it), - TUE(ittt, bf0e, bf0e, 1, (COND), it, t_it), - TUE(itet, bf06, bf06, 1, (COND), it, t_it), - TUE(itte, bf0a, bf0a, 1, (COND), it, t_it), - TUE(itee, bf02, bf02, 1, (COND), it, t_it), - TUE(itttt, bf0f, bf0f, 1, (COND), it, t_it), - TUE(itett, bf07, bf07, 1, (COND), it, t_it), - TUE(ittet, bf0b, bf0b, 1, (COND), it, t_it), - TUE(iteet, bf03, bf03, 1, (COND), it, t_it), - TUE(ittte, bf0d, bf0d, 1, (COND), it, t_it), - TUE(itete, bf05, bf05, 1, (COND), it, t_it), - TUE(ittee, bf09, bf09, 1, (COND), it, t_it), - TUE(iteee, bf01, bf01, 1, (COND), it, t_it), + TUE("it", bf08, bf08, 1, (COND), it, t_it), + TUE("itt", bf0c, bf0c, 1, (COND), it, t_it), + TUE("ite", bf04, bf04, 1, (COND), it, t_it), + TUE("ittt", bf0e, bf0e, 1, (COND), it, t_it), + TUE("itet", bf06, bf06, 1, (COND), it, t_it), + TUE("itte", bf0a, bf0a, 1, (COND), it, t_it), + TUE("itee", bf02, bf02, 1, (COND), it, t_it), + TUE("itttt", bf0f, bf0f, 1, (COND), it, t_it), + TUE("itett", bf07, bf07, 1, (COND), it, t_it), + TUE("ittet", bf0b, bf0b, 1, (COND), it, t_it), + TUE("iteet", bf03, bf03, 1, (COND), it, t_it), + TUE("ittte", bf0d, bf0d, 1, (COND), it, t_it), + TUE("itete", bf05, bf05, 1, (COND), it, t_it), + TUE("ittee", bf09, bf09, 1, (COND), it, t_it), + TUE("iteee", bf01, bf01, 1, (COND), it, t_it), /* ARM/Thumb-2 instructions with no Thumb-1 equivalent. */ - TC3(rrx, 01a00060, ea4f0030, 2, (RR, RR), rd_rm, t_rrx), - TC3(rrxs, 01b00060, ea5f0030, 2, (RR, RR), rd_rm, t_rrx), + TC3("rrx", 01a00060, ea4f0030, 2, (RR, RR), rd_rm, t_rrx), + TC3("rrxs", 01b00060, ea5f0030, 2, (RR, RR), rd_rm, t_rrx), /* Thumb2 only instructions. */ #undef ARM_VARIANT #define ARM_VARIANT NULL - TCE(addw, 0, f2000000, 3, (RR, RR, EXPi), 0, t_add_sub_w), - TCE(subw, 0, f2a00000, 3, (RR, RR, EXPi), 0, t_add_sub_w), - TCE(orn, 0, ea600000, 3, (RR, oRR, SH), 0, t_orn), - TCE(orns, 0, ea700000, 3, (RR, oRR, SH), 0, t_orn), - TCE(tbb, 0, e8d0f000, 1, (TB), 0, t_tb), - TCE(tbh, 0, e8d0f010, 1, (TB), 0, t_tb), + TCE("addw", 0, f2000000, 3, (RR, RR, EXPi), 0, t_add_sub_w), + TCE("subw", 0, f2a00000, 3, (RR, RR, EXPi), 0, t_add_sub_w), + TCE("orn", 0, ea600000, 3, (RR, oRR, SH), 0, t_orn), + TCE("orns", 0, ea700000, 3, (RR, oRR, SH), 0, t_orn), + TCE("tbb", 0, e8d0f000, 1, (TB), 0, t_tb), + TCE("tbh", 0, e8d0f010, 1, (TB), 0, t_tb), /* Thumb-2 hardware division instructions (R and M profiles only). */ #undef THUMB_VARIANT #define THUMB_VARIANT & arm_ext_div - TCE(sdiv, 0, fb90f0f0, 3, (RR, oRR, RR), 0, t_div), - TCE(udiv, 0, fbb0f0f0, 3, (RR, oRR, RR), 0, t_div), + TCE("sdiv", 0, fb90f0f0, 3, (RR, oRR, RR), 0, t_div), + TCE("udiv", 0, fbb0f0f0, 3, (RR, oRR, RR), 0, t_div), /* ARM V6M/V7 instructions. */ #undef ARM_VARIANT @@ -16653,9 +16667,9 @@ static const struct asm_opcode insns[] = #undef THUMB_VARIANT #define THUMB_VARIANT & arm_ext_barrier - TUF(dmb, 57ff050, f3bf8f50, 1, (oBARRIER), barrier, t_barrier), - TUF(dsb, 57ff040, f3bf8f40, 1, (oBARRIER), barrier, t_barrier), - TUF(isb, 57ff060, f3bf8f60, 1, (oBARRIER), barrier, t_barrier), + TUF("dmb", 57ff050, f3bf8f50, 1, (oBARRIER), barrier, t_barrier), + TUF("dsb", 57ff040, f3bf8f40, 1, (oBARRIER), barrier, t_barrier), + TUF("isb", 57ff060, f3bf8f60, 1, (oBARRIER), barrier, t_barrier), /* ARM V7 instructions. */ #undef ARM_VARIANT @@ -16663,570 +16677,570 @@ static const struct asm_opcode insns[] = #undef THUMB_VARIANT #define THUMB_VARIANT & arm_ext_v7 - TUF(pli, 450f000, f910f000, 1, (ADDR), pli, t_pld), - TCE(dbg, 320f0f0, f3af80f0, 1, (I15), dbg, t_dbg), + TUF("pli", 450f000, f910f000, 1, (ADDR), pli, t_pld), + TCE("dbg", 320f0f0, f3af80f0, 1, (I15), dbg, t_dbg), #undef ARM_VARIANT #define ARM_VARIANT & fpu_fpa_ext_v1 /* Core FPA instruction set (V1). */ - cCE(wfs, e200110, 1, (RR), rd), - cCE(rfs, e300110, 1, (RR), rd), - cCE(wfc, e400110, 1, (RR), rd), - cCE(rfc, e500110, 1, (RR), rd), - - cCL(ldfs, c100100, 2, (RF, ADDRGLDC), rd_cpaddr), - cCL(ldfd, c108100, 2, (RF, ADDRGLDC), rd_cpaddr), - cCL(ldfe, c500100, 2, (RF, ADDRGLDC), rd_cpaddr), - cCL(ldfp, c508100, 2, (RF, ADDRGLDC), rd_cpaddr), - - cCL(stfs, c000100, 2, (RF, ADDRGLDC), rd_cpaddr), - cCL(stfd, c008100, 2, (RF, ADDRGLDC), rd_cpaddr), - cCL(stfe, c400100, 2, (RF, ADDRGLDC), rd_cpaddr), - cCL(stfp, c408100, 2, (RF, ADDRGLDC), rd_cpaddr), - - cCL(mvfs, e008100, 2, (RF, RF_IF), rd_rm), - cCL(mvfsp, e008120, 2, (RF, RF_IF), rd_rm), - cCL(mvfsm, e008140, 2, (RF, RF_IF), rd_rm), - cCL(mvfsz, e008160, 2, (RF, RF_IF), rd_rm), - cCL(mvfd, e008180, 2, (RF, RF_IF), rd_rm), - cCL(mvfdp, e0081a0, 2, (RF, RF_IF), rd_rm), - cCL(mvfdm, e0081c0, 2, (RF, RF_IF), rd_rm), - cCL(mvfdz, e0081e0, 2, (RF, RF_IF), rd_rm), - cCL(mvfe, e088100, 2, (RF, RF_IF), rd_rm), - cCL(mvfep, e088120, 2, (RF, RF_IF), rd_rm), - cCL(mvfem, e088140, 2, (RF, RF_IF), rd_rm), - cCL(mvfez, e088160, 2, (RF, RF_IF), rd_rm), - - cCL(mnfs, e108100, 2, (RF, RF_IF), rd_rm), - cCL(mnfsp, e108120, 2, (RF, RF_IF), rd_rm), - cCL(mnfsm, e108140, 2, (RF, RF_IF), rd_rm), - cCL(mnfsz, e108160, 2, (RF, RF_IF), rd_rm), - cCL(mnfd, e108180, 2, (RF, RF_IF), rd_rm), - cCL(mnfdp, e1081a0, 2, (RF, RF_IF), rd_rm), - cCL(mnfdm, e1081c0, 2, (RF, RF_IF), rd_rm), - cCL(mnfdz, e1081e0, 2, (RF, RF_IF), rd_rm), - cCL(mnfe, e188100, 2, (RF, RF_IF), rd_rm), - cCL(mnfep, e188120, 2, (RF, RF_IF), rd_rm), - cCL(mnfem, e188140, 2, (RF, RF_IF), rd_rm), - cCL(mnfez, e188160, 2, (RF, RF_IF), rd_rm), - - cCL(abss, e208100, 2, (RF, RF_IF), rd_rm), - cCL(abssp, e208120, 2, (RF, RF_IF), rd_rm), - cCL(abssm, e208140, 2, (RF, RF_IF), rd_rm), - cCL(abssz, e208160, 2, (RF, RF_IF), rd_rm), - cCL(absd, e208180, 2, (RF, RF_IF), rd_rm), - cCL(absdp, e2081a0, 2, (RF, RF_IF), rd_rm), - cCL(absdm, e2081c0, 2, (RF, RF_IF), rd_rm), - cCL(absdz, e2081e0, 2, (RF, RF_IF), rd_rm), - cCL(abse, e288100, 2, (RF, RF_IF), rd_rm), - cCL(absep, e288120, 2, (RF, RF_IF), rd_rm), - cCL(absem, e288140, 2, (RF, RF_IF), rd_rm), - cCL(absez, e288160, 2, (RF, RF_IF), rd_rm), - - cCL(rnds, e308100, 2, (RF, RF_IF), rd_rm), - cCL(rndsp, e308120, 2, (RF, RF_IF), rd_rm), - cCL(rndsm, e308140, 2, (RF, RF_IF), rd_rm), - cCL(rndsz, e308160, 2, (RF, RF_IF), rd_rm), - cCL(rndd, e308180, 2, (RF, RF_IF), rd_rm), - cCL(rnddp, e3081a0, 2, (RF, RF_IF), rd_rm), - cCL(rnddm, e3081c0, 2, (RF, RF_IF), rd_rm), - cCL(rnddz, e3081e0, 2, (RF, RF_IF), rd_rm), - cCL(rnde, e388100, 2, (RF, RF_IF), rd_rm), - cCL(rndep, e388120, 2, (RF, RF_IF), rd_rm), - cCL(rndem, e388140, 2, (RF, RF_IF), rd_rm), - cCL(rndez, e388160, 2, (RF, RF_IF), rd_rm), - - cCL(sqts, e408100, 2, (RF, RF_IF), rd_rm), - cCL(sqtsp, e408120, 2, (RF, RF_IF), rd_rm), - cCL(sqtsm, e408140, 2, (RF, RF_IF), rd_rm), - cCL(sqtsz, e408160, 2, (RF, RF_IF), rd_rm), - cCL(sqtd, e408180, 2, (RF, RF_IF), rd_rm), - cCL(sqtdp, e4081a0, 2, (RF, RF_IF), rd_rm), - cCL(sqtdm, e4081c0, 2, (RF, RF_IF), rd_rm), - cCL(sqtdz, e4081e0, 2, (RF, RF_IF), rd_rm), - cCL(sqte, e488100, 2, (RF, RF_IF), rd_rm), - cCL(sqtep, e488120, 2, (RF, RF_IF), rd_rm), - cCL(sqtem, e488140, 2, (RF, RF_IF), rd_rm), - cCL(sqtez, e488160, 2, (RF, RF_IF), rd_rm), - - cCL(logs, e508100, 2, (RF, RF_IF), rd_rm), - cCL(logsp, e508120, 2, (RF, RF_IF), rd_rm), - cCL(logsm, e508140, 2, (RF, RF_IF), rd_rm), - cCL(logsz, e508160, 2, (RF, RF_IF), rd_rm), - cCL(logd, e508180, 2, (RF, RF_IF), rd_rm), - cCL(logdp, e5081a0, 2, (RF, RF_IF), rd_rm), - cCL(logdm, e5081c0, 2, (RF, RF_IF), rd_rm), - cCL(logdz, e5081e0, 2, (RF, RF_IF), rd_rm), - cCL(loge, e588100, 2, (RF, RF_IF), rd_rm), - cCL(logep, e588120, 2, (RF, RF_IF), rd_rm), - cCL(logem, e588140, 2, (RF, RF_IF), rd_rm), - cCL(logez, e588160, 2, (RF, RF_IF), rd_rm), - - cCL(lgns, e608100, 2, (RF, RF_IF), rd_rm), - cCL(lgnsp, e608120, 2, (RF, RF_IF), rd_rm), - cCL(lgnsm, e608140, 2, (RF, RF_IF), rd_rm), - cCL(lgnsz, e608160, 2, (RF, RF_IF), rd_rm), - cCL(lgnd, e608180, 2, (RF, RF_IF), rd_rm), - cCL(lgndp, e6081a0, 2, (RF, RF_IF), rd_rm), - cCL(lgndm, e6081c0, 2, (RF, RF_IF), rd_rm), - cCL(lgndz, e6081e0, 2, (RF, RF_IF), rd_rm), - cCL(lgne, e688100, 2, (RF, RF_IF), rd_rm), - cCL(lgnep, e688120, 2, (RF, RF_IF), rd_rm), - cCL(lgnem, e688140, 2, (RF, RF_IF), rd_rm), - cCL(lgnez, e688160, 2, (RF, RF_IF), rd_rm), - - cCL(exps, e708100, 2, (RF, RF_IF), rd_rm), - cCL(expsp, e708120, 2, (RF, RF_IF), rd_rm), - cCL(expsm, e708140, 2, (RF, RF_IF), rd_rm), - cCL(expsz, e708160, 2, (RF, RF_IF), rd_rm), - cCL(expd, e708180, 2, (RF, RF_IF), rd_rm), - cCL(expdp, e7081a0, 2, (RF, RF_IF), rd_rm), - cCL(expdm, e7081c0, 2, (RF, RF_IF), rd_rm), - cCL(expdz, e7081e0, 2, (RF, RF_IF), rd_rm), - cCL(expe, e788100, 2, (RF, RF_IF), rd_rm), - cCL(expep, e788120, 2, (RF, RF_IF), rd_rm), - cCL(expem, e788140, 2, (RF, RF_IF), rd_rm), - cCL(expdz, e788160, 2, (RF, RF_IF), rd_rm), - - cCL(sins, e808100, 2, (RF, RF_IF), rd_rm), - cCL(sinsp, e808120, 2, (RF, RF_IF), rd_rm), - cCL(sinsm, e808140, 2, (RF, RF_IF), rd_rm), - cCL(sinsz, e808160, 2, (RF, RF_IF), rd_rm), - cCL(sind, e808180, 2, (RF, RF_IF), rd_rm), - cCL(sindp, e8081a0, 2, (RF, RF_IF), rd_rm), - cCL(sindm, e8081c0, 2, (RF, RF_IF), rd_rm), - cCL(sindz, e8081e0, 2, (RF, RF_IF), rd_rm), - cCL(sine, e888100, 2, (RF, RF_IF), rd_rm), - cCL(sinep, e888120, 2, (RF, RF_IF), rd_rm), - cCL(sinem, e888140, 2, (RF, RF_IF), rd_rm), - cCL(sinez, e888160, 2, (RF, RF_IF), rd_rm), - - cCL(coss, e908100, 2, (RF, RF_IF), rd_rm), - cCL(cossp, e908120, 2, (RF, RF_IF), rd_rm), - cCL(cossm, e908140, 2, (RF, RF_IF), rd_rm), - cCL(cossz, e908160, 2, (RF, RF_IF), rd_rm), - cCL(cosd, e908180, 2, (RF, RF_IF), rd_rm), - cCL(cosdp, e9081a0, 2, (RF, RF_IF), rd_rm), - cCL(cosdm, e9081c0, 2, (RF, RF_IF), rd_rm), - cCL(cosdz, e9081e0, 2, (RF, RF_IF), rd_rm), - cCL(cose, e988100, 2, (RF, RF_IF), rd_rm), - cCL(cosep, e988120, 2, (RF, RF_IF), rd_rm), - cCL(cosem, e988140, 2, (RF, RF_IF), rd_rm), - cCL(cosez, e988160, 2, (RF, RF_IF), rd_rm), - - cCL(tans, ea08100, 2, (RF, RF_IF), rd_rm), - cCL(tansp, ea08120, 2, (RF, RF_IF), rd_rm), - cCL(tansm, ea08140, 2, (RF, RF_IF), rd_rm), - cCL(tansz, ea08160, 2, (RF, RF_IF), rd_rm), - cCL(tand, ea08180, 2, (RF, RF_IF), rd_rm), - cCL(tandp, ea081a0, 2, (RF, RF_IF), rd_rm), - cCL(tandm, ea081c0, 2, (RF, RF_IF), rd_rm), - cCL(tandz, ea081e0, 2, (RF, RF_IF), rd_rm), - cCL(tane, ea88100, 2, (RF, RF_IF), rd_rm), - cCL(tanep, ea88120, 2, (RF, RF_IF), rd_rm), - cCL(tanem, ea88140, 2, (RF, RF_IF), rd_rm), - cCL(tanez, ea88160, 2, (RF, RF_IF), rd_rm), - - cCL(asns, eb08100, 2, (RF, RF_IF), rd_rm), - cCL(asnsp, eb08120, 2, (RF, RF_IF), rd_rm), - cCL(asnsm, eb08140, 2, (RF, RF_IF), rd_rm), - cCL(asnsz, eb08160, 2, (RF, RF_IF), rd_rm), - cCL(asnd, eb08180, 2, (RF, RF_IF), rd_rm), - cCL(asndp, eb081a0, 2, (RF, RF_IF), rd_rm), - cCL(asndm, eb081c0, 2, (RF, RF_IF), rd_rm), - cCL(asndz, eb081e0, 2, (RF, RF_IF), rd_rm), - cCL(asne, eb88100, 2, (RF, RF_IF), rd_rm), - cCL(asnep, eb88120, 2, (RF, RF_IF), rd_rm), - cCL(asnem, eb88140, 2, (RF, RF_IF), rd_rm), - cCL(asnez, eb88160, 2, (RF, RF_IF), rd_rm), - - cCL(acss, ec08100, 2, (RF, RF_IF), rd_rm), - cCL(acssp, ec08120, 2, (RF, RF_IF), rd_rm), - cCL(acssm, ec08140, 2, (RF, RF_IF), rd_rm), - cCL(acssz, ec08160, 2, (RF, RF_IF), rd_rm), - cCL(acsd, ec08180, 2, (RF, RF_IF), rd_rm), - cCL(acsdp, ec081a0, 2, (RF, RF_IF), rd_rm), - cCL(acsdm, ec081c0, 2, (RF, RF_IF), rd_rm), - cCL(acsdz, ec081e0, 2, (RF, RF_IF), rd_rm), - cCL(acse, ec88100, 2, (RF, RF_IF), rd_rm), - cCL(acsep, ec88120, 2, (RF, RF_IF), rd_rm), - cCL(acsem, ec88140, 2, (RF, RF_IF), rd_rm), - cCL(acsez, ec88160, 2, (RF, RF_IF), rd_rm), - - cCL(atns, ed08100, 2, (RF, RF_IF), rd_rm), - cCL(atnsp, ed08120, 2, (RF, RF_IF), rd_rm), - cCL(atnsm, ed08140, 2, (RF, RF_IF), rd_rm), - cCL(atnsz, ed08160, 2, (RF, RF_IF), rd_rm), - cCL(atnd, ed08180, 2, (RF, RF_IF), rd_rm), - cCL(atndp, ed081a0, 2, (RF, RF_IF), rd_rm), - cCL(atndm, ed081c0, 2, (RF, RF_IF), rd_rm), - cCL(atndz, ed081e0, 2, (RF, RF_IF), rd_rm), - cCL(atne, ed88100, 2, (RF, RF_IF), rd_rm), - cCL(atnep, ed88120, 2, (RF, RF_IF), rd_rm), - cCL(atnem, ed88140, 2, (RF, RF_IF), rd_rm), - cCL(atnez, ed88160, 2, (RF, RF_IF), rd_rm), - - cCL(urds, ee08100, 2, (RF, RF_IF), rd_rm), - cCL(urdsp, ee08120, 2, (RF, RF_IF), rd_rm), - cCL(urdsm, ee08140, 2, (RF, RF_IF), rd_rm), - cCL(urdsz, ee08160, 2, (RF, RF_IF), rd_rm), - cCL(urdd, ee08180, 2, (RF, RF_IF), rd_rm), - cCL(urddp, ee081a0, 2, (RF, RF_IF), rd_rm), - cCL(urddm, ee081c0, 2, (RF, RF_IF), rd_rm), - cCL(urddz, ee081e0, 2, (RF, RF_IF), rd_rm), - cCL(urde, ee88100, 2, (RF, RF_IF), rd_rm), - cCL(urdep, ee88120, 2, (RF, RF_IF), rd_rm), - cCL(urdem, ee88140, 2, (RF, RF_IF), rd_rm), - cCL(urdez, ee88160, 2, (RF, RF_IF), rd_rm), - - cCL(nrms, ef08100, 2, (RF, RF_IF), rd_rm), - cCL(nrmsp, ef08120, 2, (RF, RF_IF), rd_rm), - cCL(nrmsm, ef08140, 2, (RF, RF_IF), rd_rm), - cCL(nrmsz, ef08160, 2, (RF, RF_IF), rd_rm), - cCL(nrmd, ef08180, 2, (RF, RF_IF), rd_rm), - cCL(nrmdp, ef081a0, 2, (RF, RF_IF), rd_rm), - cCL(nrmdm, ef081c0, 2, (RF, RF_IF), rd_rm), - cCL(nrmdz, ef081e0, 2, (RF, RF_IF), rd_rm), - cCL(nrme, ef88100, 2, (RF, RF_IF), rd_rm), - cCL(nrmep, ef88120, 2, (RF, RF_IF), rd_rm), - cCL(nrmem, ef88140, 2, (RF, RF_IF), rd_rm), - cCL(nrmez, ef88160, 2, (RF, RF_IF), rd_rm), - - cCL(adfs, e000100, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(adfsp, e000120, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(adfsm, e000140, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(adfsz, e000160, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(adfd, e000180, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(adfdp, e0001a0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(adfdm, e0001c0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(adfdz, e0001e0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(adfe, e080100, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(adfep, e080120, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(adfem, e080140, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(adfez, e080160, 3, (RF, RF, RF_IF), rd_rn_rm), - - cCL(sufs, e200100, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(sufsp, e200120, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(sufsm, e200140, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(sufsz, e200160, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(sufd, e200180, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(sufdp, e2001a0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(sufdm, e2001c0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(sufdz, e2001e0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(sufe, e280100, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(sufep, e280120, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(sufem, e280140, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(sufez, e280160, 3, (RF, RF, RF_IF), rd_rn_rm), - - cCL(rsfs, e300100, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rsfsp, e300120, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rsfsm, e300140, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rsfsz, e300160, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rsfd, e300180, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rsfdp, e3001a0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rsfdm, e3001c0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rsfdz, e3001e0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rsfe, e380100, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rsfep, e380120, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rsfem, e380140, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rsfez, e380160, 3, (RF, RF, RF_IF), rd_rn_rm), - - cCL(mufs, e100100, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(mufsp, e100120, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(mufsm, e100140, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(mufsz, e100160, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(mufd, e100180, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(mufdp, e1001a0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(mufdm, e1001c0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(mufdz, e1001e0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(mufe, e180100, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(mufep, e180120, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(mufem, e180140, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(mufez, e180160, 3, (RF, RF, RF_IF), rd_rn_rm), - - cCL(dvfs, e400100, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(dvfsp, e400120, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(dvfsm, e400140, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(dvfsz, e400160, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(dvfd, e400180, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(dvfdp, e4001a0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(dvfdm, e4001c0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(dvfdz, e4001e0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(dvfe, e480100, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(dvfep, e480120, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(dvfem, e480140, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(dvfez, e480160, 3, (RF, RF, RF_IF), rd_rn_rm), - - cCL(rdfs, e500100, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rdfsp, e500120, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rdfsm, e500140, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rdfsz, e500160, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rdfd, e500180, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rdfdp, e5001a0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rdfdm, e5001c0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rdfdz, e5001e0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rdfe, e580100, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rdfep, e580120, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rdfem, e580140, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rdfez, e580160, 3, (RF, RF, RF_IF), rd_rn_rm), - - cCL(pows, e600100, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(powsp, e600120, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(powsm, e600140, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(powsz, e600160, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(powd, e600180, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(powdp, e6001a0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(powdm, e6001c0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(powdz, e6001e0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(powe, e680100, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(powep, e680120, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(powem, e680140, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(powez, e680160, 3, (RF, RF, RF_IF), rd_rn_rm), - - cCL(rpws, e700100, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rpwsp, e700120, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rpwsm, e700140, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rpwsz, e700160, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rpwd, e700180, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rpwdp, e7001a0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rpwdm, e7001c0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rpwdz, e7001e0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rpwe, e780100, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rpwep, e780120, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rpwem, e780140, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rpwez, e780160, 3, (RF, RF, RF_IF), rd_rn_rm), - - cCL(rmfs, e800100, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rmfsp, e800120, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rmfsm, e800140, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rmfsz, e800160, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rmfd, e800180, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rmfdp, e8001a0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rmfdm, e8001c0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rmfdz, e8001e0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rmfe, e880100, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rmfep, e880120, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rmfem, e880140, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(rmfez, e880160, 3, (RF, RF, RF_IF), rd_rn_rm), - - cCL(fmls, e900100, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(fmlsp, e900120, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(fmlsm, e900140, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(fmlsz, e900160, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(fmld, e900180, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(fmldp, e9001a0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(fmldm, e9001c0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(fmldz, e9001e0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(fmle, e980100, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(fmlep, e980120, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(fmlem, e980140, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(fmlez, e980160, 3, (RF, RF, RF_IF), rd_rn_rm), - - cCL(fdvs, ea00100, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(fdvsp, ea00120, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(fdvsm, ea00140, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(fdvsz, ea00160, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(fdvd, ea00180, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(fdvdp, ea001a0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(fdvdm, ea001c0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(fdvdz, ea001e0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(fdve, ea80100, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(fdvep, ea80120, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(fdvem, ea80140, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(fdvez, ea80160, 3, (RF, RF, RF_IF), rd_rn_rm), - - cCL(frds, eb00100, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(frdsp, eb00120, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(frdsm, eb00140, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(frdsz, eb00160, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(frdd, eb00180, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(frddp, eb001a0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(frddm, eb001c0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(frddz, eb001e0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(frde, eb80100, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(frdep, eb80120, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(frdem, eb80140, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(frdez, eb80160, 3, (RF, RF, RF_IF), rd_rn_rm), - - cCL(pols, ec00100, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(polsp, ec00120, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(polsm, ec00140, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(polsz, ec00160, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(pold, ec00180, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(poldp, ec001a0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(poldm, ec001c0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(poldz, ec001e0, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(pole, ec80100, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(polep, ec80120, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(polem, ec80140, 3, (RF, RF, RF_IF), rd_rn_rm), - cCL(polez, ec80160, 3, (RF, RF, RF_IF), rd_rn_rm), - - cCE(cmf, e90f110, 2, (RF, RF_IF), fpa_cmp), - C3E(cmfe, ed0f110, 2, (RF, RF_IF), fpa_cmp), - cCE(cnf, eb0f110, 2, (RF, RF_IF), fpa_cmp), - C3E(cnfe, ef0f110, 2, (RF, RF_IF), fpa_cmp), - - cCL(flts, e000110, 2, (RF, RR), rn_rd), - cCL(fltsp, e000130, 2, (RF, RR), rn_rd), - cCL(fltsm, e000150, 2, (RF, RR), rn_rd), - cCL(fltsz, e000170, 2, (RF, RR), rn_rd), - cCL(fltd, e000190, 2, (RF, RR), rn_rd), - cCL(fltdp, e0001b0, 2, (RF, RR), rn_rd), - cCL(fltdm, e0001d0, 2, (RF, RR), rn_rd), - cCL(fltdz, e0001f0, 2, (RF, RR), rn_rd), - cCL(flte, e080110, 2, (RF, RR), rn_rd), - cCL(fltep, e080130, 2, (RF, RR), rn_rd), - cCL(fltem, e080150, 2, (RF, RR), rn_rd), - cCL(fltez, e080170, 2, (RF, RR), rn_rd), + cCE("wfs", e200110, 1, (RR), rd), + cCE("rfs", e300110, 1, (RR), rd), + cCE("wfc", e400110, 1, (RR), rd), + cCE("rfc", e500110, 1, (RR), rd), + + cCL("ldfs", c100100, 2, (RF, ADDRGLDC), rd_cpaddr), + cCL("ldfd", c108100, 2, (RF, ADDRGLDC), rd_cpaddr), + cCL("ldfe", c500100, 2, (RF, ADDRGLDC), rd_cpaddr), + cCL("ldfp", c508100, 2, (RF, ADDRGLDC), rd_cpaddr), + + cCL("stfs", c000100, 2, (RF, ADDRGLDC), rd_cpaddr), + cCL("stfd", c008100, 2, (RF, ADDRGLDC), rd_cpaddr), + cCL("stfe", c400100, 2, (RF, ADDRGLDC), rd_cpaddr), + cCL("stfp", c408100, 2, (RF, ADDRGLDC), rd_cpaddr), + + cCL("mvfs", e008100, 2, (RF, RF_IF), rd_rm), + cCL("mvfsp", e008120, 2, (RF, RF_IF), rd_rm), + cCL("mvfsm", e008140, 2, (RF, RF_IF), rd_rm), + cCL("mvfsz", e008160, 2, (RF, RF_IF), rd_rm), + cCL("mvfd", e008180, 2, (RF, RF_IF), rd_rm), + cCL("mvfdp", e0081a0, 2, (RF, RF_IF), rd_rm), + cCL("mvfdm", e0081c0, 2, (RF, RF_IF), rd_rm), + cCL("mvfdz", e0081e0, 2, (RF, RF_IF), rd_rm), + cCL("mvfe", e088100, 2, (RF, RF_IF), rd_rm), + cCL("mvfep", e088120, 2, (RF, RF_IF), rd_rm), + cCL("mvfem", e088140, 2, (RF, RF_IF), rd_rm), + cCL("mvfez", e088160, 2, (RF, RF_IF), rd_rm), + + cCL("mnfs", e108100, 2, (RF, RF_IF), rd_rm), + cCL("mnfsp", e108120, 2, (RF, RF_IF), rd_rm), + cCL("mnfsm", e108140, 2, (RF, RF_IF), rd_rm), + cCL("mnfsz", e108160, 2, (RF, RF_IF), rd_rm), + cCL("mnfd", e108180, 2, (RF, RF_IF), rd_rm), + cCL("mnfdp", e1081a0, 2, (RF, RF_IF), rd_rm), + cCL("mnfdm", e1081c0, 2, (RF, RF_IF), rd_rm), + cCL("mnfdz", e1081e0, 2, (RF, RF_IF), rd_rm), + cCL("mnfe", e188100, 2, (RF, RF_IF), rd_rm), + cCL("mnfep", e188120, 2, (RF, RF_IF), rd_rm), + cCL("mnfem", e188140, 2, (RF, RF_IF), rd_rm), + cCL("mnfez", e188160, 2, (RF, RF_IF), rd_rm), + + cCL("abss", e208100, 2, (RF, RF_IF), rd_rm), + cCL("abssp", e208120, 2, (RF, RF_IF), rd_rm), + cCL("abssm", e208140, 2, (RF, RF_IF), rd_rm), + cCL("abssz", e208160, 2, (RF, RF_IF), rd_rm), + cCL("absd", e208180, 2, (RF, RF_IF), rd_rm), + cCL("absdp", e2081a0, 2, (RF, RF_IF), rd_rm), + cCL("absdm", e2081c0, 2, (RF, RF_IF), rd_rm), + cCL("absdz", e2081e0, 2, (RF, RF_IF), rd_rm), + cCL("abse", e288100, 2, (RF, RF_IF), rd_rm), + cCL("absep", e288120, 2, (RF, RF_IF), rd_rm), + cCL("absem", e288140, 2, (RF, RF_IF), rd_rm), + cCL("absez", e288160, 2, (RF, RF_IF), rd_rm), + + cCL("rnds", e308100, 2, (RF, RF_IF), rd_rm), + cCL("rndsp", e308120, 2, (RF, RF_IF), rd_rm), + cCL("rndsm", e308140, 2, (RF, RF_IF), rd_rm), + cCL("rndsz", e308160, 2, (RF, RF_IF), rd_rm), + cCL("rndd", e308180, 2, (RF, RF_IF), rd_rm), + cCL("rnddp", e3081a0, 2, (RF, RF_IF), rd_rm), + cCL("rnddm", e3081c0, 2, (RF, RF_IF), rd_rm), + cCL("rnddz", e3081e0, 2, (RF, RF_IF), rd_rm), + cCL("rnde", e388100, 2, (RF, RF_IF), rd_rm), + cCL("rndep", e388120, 2, (RF, RF_IF), rd_rm), + cCL("rndem", e388140, 2, (RF, RF_IF), rd_rm), + cCL("rndez", e388160, 2, (RF, RF_IF), rd_rm), + + cCL("sqts", e408100, 2, (RF, RF_IF), rd_rm), + cCL("sqtsp", e408120, 2, (RF, RF_IF), rd_rm), + cCL("sqtsm", e408140, 2, (RF, RF_IF), rd_rm), + cCL("sqtsz", e408160, 2, (RF, RF_IF), rd_rm), + cCL("sqtd", e408180, 2, (RF, RF_IF), rd_rm), + cCL("sqtdp", e4081a0, 2, (RF, RF_IF), rd_rm), + cCL("sqtdm", e4081c0, 2, (RF, RF_IF), rd_rm), + cCL("sqtdz", e4081e0, 2, (RF, RF_IF), rd_rm), + cCL("sqte", e488100, 2, (RF, RF_IF), rd_rm), + cCL("sqtep", e488120, 2, (RF, RF_IF), rd_rm), + cCL("sqtem", e488140, 2, (RF, RF_IF), rd_rm), + cCL("sqtez", e488160, 2, (RF, RF_IF), rd_rm), + + cCL("logs", e508100, 2, (RF, RF_IF), rd_rm), + cCL("logsp", e508120, 2, (RF, RF_IF), rd_rm), + cCL("logsm", e508140, 2, (RF, RF_IF), rd_rm), + cCL("logsz", e508160, 2, (RF, RF_IF), rd_rm), + cCL("logd", e508180, 2, (RF, RF_IF), rd_rm), + cCL("logdp", e5081a0, 2, (RF, RF_IF), rd_rm), + cCL("logdm", e5081c0, 2, (RF, RF_IF), rd_rm), + cCL("logdz", e5081e0, 2, (RF, RF_IF), rd_rm), + cCL("loge", e588100, 2, (RF, RF_IF), rd_rm), + cCL("logep", e588120, 2, (RF, RF_IF), rd_rm), + cCL("logem", e588140, 2, (RF, RF_IF), rd_rm), + cCL("logez", e588160, 2, (RF, RF_IF), rd_rm), + + cCL("lgns", e608100, 2, (RF, RF_IF), rd_rm), + cCL("lgnsp", e608120, 2, (RF, RF_IF), rd_rm), + cCL("lgnsm", e608140, 2, (RF, RF_IF), rd_rm), + cCL("lgnsz", e608160, 2, (RF, RF_IF), rd_rm), + cCL("lgnd", e608180, 2, (RF, RF_IF), rd_rm), + cCL("lgndp", e6081a0, 2, (RF, RF_IF), rd_rm), + cCL("lgndm", e6081c0, 2, (RF, RF_IF), rd_rm), + cCL("lgndz", e6081e0, 2, (RF, RF_IF), rd_rm), + cCL("lgne", e688100, 2, (RF, RF_IF), rd_rm), + cCL("lgnep", e688120, 2, (RF, RF_IF), rd_rm), + cCL("lgnem", e688140, 2, (RF, RF_IF), rd_rm), + cCL("lgnez", e688160, 2, (RF, RF_IF), rd_rm), + + cCL("exps", e708100, 2, (RF, RF_IF), rd_rm), + cCL("expsp", e708120, 2, (RF, RF_IF), rd_rm), + cCL("expsm", e708140, 2, (RF, RF_IF), rd_rm), + cCL("expsz", e708160, 2, (RF, RF_IF), rd_rm), + cCL("expd", e708180, 2, (RF, RF_IF), rd_rm), + cCL("expdp", e7081a0, 2, (RF, RF_IF), rd_rm), + cCL("expdm", e7081c0, 2, (RF, RF_IF), rd_rm), + cCL("expdz", e7081e0, 2, (RF, RF_IF), rd_rm), + cCL("expe", e788100, 2, (RF, RF_IF), rd_rm), + cCL("expep", e788120, 2, (RF, RF_IF), rd_rm), + cCL("expem", e788140, 2, (RF, RF_IF), rd_rm), + cCL("expdz", e788160, 2, (RF, RF_IF), rd_rm), + + cCL("sins", e808100, 2, (RF, RF_IF), rd_rm), + cCL("sinsp", e808120, 2, (RF, RF_IF), rd_rm), + cCL("sinsm", e808140, 2, (RF, RF_IF), rd_rm), + cCL("sinsz", e808160, 2, (RF, RF_IF), rd_rm), + cCL("sind", e808180, 2, (RF, RF_IF), rd_rm), + cCL("sindp", e8081a0, 2, (RF, RF_IF), rd_rm), + cCL("sindm", e8081c0, 2, (RF, RF_IF), rd_rm), + cCL("sindz", e8081e0, 2, (RF, RF_IF), rd_rm), + cCL("sine", e888100, 2, (RF, RF_IF), rd_rm), + cCL("sinep", e888120, 2, (RF, RF_IF), rd_rm), + cCL("sinem", e888140, 2, (RF, RF_IF), rd_rm), + cCL("sinez", e888160, 2, (RF, RF_IF), rd_rm), + + cCL("coss", e908100, 2, (RF, RF_IF), rd_rm), + cCL("cossp", e908120, 2, (RF, RF_IF), rd_rm), + cCL("cossm", e908140, 2, (RF, RF_IF), rd_rm), + cCL("cossz", e908160, 2, (RF, RF_IF), rd_rm), + cCL("cosd", e908180, 2, (RF, RF_IF), rd_rm), + cCL("cosdp", e9081a0, 2, (RF, RF_IF), rd_rm), + cCL("cosdm", e9081c0, 2, (RF, RF_IF), rd_rm), + cCL("cosdz", e9081e0, 2, (RF, RF_IF), rd_rm), + cCL("cose", e988100, 2, (RF, RF_IF), rd_rm), + cCL("cosep", e988120, 2, (RF, RF_IF), rd_rm), + cCL("cosem", e988140, 2, (RF, RF_IF), rd_rm), + cCL("cosez", e988160, 2, (RF, RF_IF), rd_rm), + + cCL("tans", ea08100, 2, (RF, RF_IF), rd_rm), + cCL("tansp", ea08120, 2, (RF, RF_IF), rd_rm), + cCL("tansm", ea08140, 2, (RF, RF_IF), rd_rm), + cCL("tansz", ea08160, 2, (RF, RF_IF), rd_rm), + cCL("tand", ea08180, 2, (RF, RF_IF), rd_rm), + cCL("tandp", ea081a0, 2, (RF, RF_IF), rd_rm), + cCL("tandm", ea081c0, 2, (RF, RF_IF), rd_rm), + cCL("tandz", ea081e0, 2, (RF, RF_IF), rd_rm), + cCL("tane", ea88100, 2, (RF, RF_IF), rd_rm), + cCL("tanep", ea88120, 2, (RF, RF_IF), rd_rm), + cCL("tanem", ea88140, 2, (RF, RF_IF), rd_rm), + cCL("tanez", ea88160, 2, (RF, RF_IF), rd_rm), + + cCL("asns", eb08100, 2, (RF, RF_IF), rd_rm), + cCL("asnsp", eb08120, 2, (RF, RF_IF), rd_rm), + cCL("asnsm", eb08140, 2, (RF, RF_IF), rd_rm), + cCL("asnsz", eb08160, 2, (RF, RF_IF), rd_rm), + cCL("asnd", eb08180, 2, (RF, RF_IF), rd_rm), + cCL("asndp", eb081a0, 2, (RF, RF_IF), rd_rm), + cCL("asndm", eb081c0, 2, (RF, RF_IF), rd_rm), + cCL("asndz", eb081e0, 2, (RF, RF_IF), rd_rm), + cCL("asne", eb88100, 2, (RF, RF_IF), rd_rm), + cCL("asnep", eb88120, 2, (RF, RF_IF), rd_rm), + cCL("asnem", eb88140, 2, (RF, RF_IF), rd_rm), + cCL("asnez", eb88160, 2, (RF, RF_IF), rd_rm), + + cCL("acss", ec08100, 2, (RF, RF_IF), rd_rm), + cCL("acssp", ec08120, 2, (RF, RF_IF), rd_rm), + cCL("acssm", ec08140, 2, (RF, RF_IF), rd_rm), + cCL("acssz", ec08160, 2, (RF, RF_IF), rd_rm), + cCL("acsd", ec08180, 2, (RF, RF_IF), rd_rm), + cCL("acsdp", ec081a0, 2, (RF, RF_IF), rd_rm), + cCL("acsdm", ec081c0, 2, (RF, RF_IF), rd_rm), + cCL("acsdz", ec081e0, 2, (RF, RF_IF), rd_rm), + cCL("acse", ec88100, 2, (RF, RF_IF), rd_rm), + cCL("acsep", ec88120, 2, (RF, RF_IF), rd_rm), + cCL("acsem", ec88140, 2, (RF, RF_IF), rd_rm), + cCL("acsez", ec88160, 2, (RF, RF_IF), rd_rm), + + cCL("atns", ed08100, 2, (RF, RF_IF), rd_rm), + cCL("atnsp", ed08120, 2, (RF, RF_IF), rd_rm), + cCL("atnsm", ed08140, 2, (RF, RF_IF), rd_rm), + cCL("atnsz", ed08160, 2, (RF, RF_IF), rd_rm), + cCL("atnd", ed08180, 2, (RF, RF_IF), rd_rm), + cCL("atndp", ed081a0, 2, (RF, RF_IF), rd_rm), + cCL("atndm", ed081c0, 2, (RF, RF_IF), rd_rm), + cCL("atndz", ed081e0, 2, (RF, RF_IF), rd_rm), + cCL("atne", ed88100, 2, (RF, RF_IF), rd_rm), + cCL("atnep", ed88120, 2, (RF, RF_IF), rd_rm), + cCL("atnem", ed88140, 2, (RF, RF_IF), rd_rm), + cCL("atnez", ed88160, 2, (RF, RF_IF), rd_rm), + + cCL("urds", ee08100, 2, (RF, RF_IF), rd_rm), + cCL("urdsp", ee08120, 2, (RF, RF_IF), rd_rm), + cCL("urdsm", ee08140, 2, (RF, RF_IF), rd_rm), + cCL("urdsz", ee08160, 2, (RF, RF_IF), rd_rm), + cCL("urdd", ee08180, 2, (RF, RF_IF), rd_rm), + cCL("urddp", ee081a0, 2, (RF, RF_IF), rd_rm), + cCL("urddm", ee081c0, 2, (RF, RF_IF), rd_rm), + cCL("urddz", ee081e0, 2, (RF, RF_IF), rd_rm), + cCL("urde", ee88100, 2, (RF, RF_IF), rd_rm), + cCL("urdep", ee88120, 2, (RF, RF_IF), rd_rm), + cCL("urdem", ee88140, 2, (RF, RF_IF), rd_rm), + cCL("urdez", ee88160, 2, (RF, RF_IF), rd_rm), + + cCL("nrms", ef08100, 2, (RF, RF_IF), rd_rm), + cCL("nrmsp", ef08120, 2, (RF, RF_IF), rd_rm), + cCL("nrmsm", ef08140, 2, (RF, RF_IF), rd_rm), + cCL("nrmsz", ef08160, 2, (RF, RF_IF), rd_rm), + cCL("nrmd", ef08180, 2, (RF, RF_IF), rd_rm), + cCL("nrmdp", ef081a0, 2, (RF, RF_IF), rd_rm), + cCL("nrmdm", ef081c0, 2, (RF, RF_IF), rd_rm), + cCL("nrmdz", ef081e0, 2, (RF, RF_IF), rd_rm), + cCL("nrme", ef88100, 2, (RF, RF_IF), rd_rm), + cCL("nrmep", ef88120, 2, (RF, RF_IF), rd_rm), + cCL("nrmem", ef88140, 2, (RF, RF_IF), rd_rm), + cCL("nrmez", ef88160, 2, (RF, RF_IF), rd_rm), + + cCL("adfs", e000100, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("adfsp", e000120, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("adfsm", e000140, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("adfsz", e000160, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("adfd", e000180, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("adfdp", e0001a0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("adfdm", e0001c0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("adfdz", e0001e0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("adfe", e080100, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("adfep", e080120, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("adfem", e080140, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("adfez", e080160, 3, (RF, RF, RF_IF), rd_rn_rm), + + cCL("sufs", e200100, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("sufsp", e200120, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("sufsm", e200140, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("sufsz", e200160, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("sufd", e200180, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("sufdp", e2001a0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("sufdm", e2001c0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("sufdz", e2001e0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("sufe", e280100, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("sufep", e280120, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("sufem", e280140, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("sufez", e280160, 3, (RF, RF, RF_IF), rd_rn_rm), + + cCL("rsfs", e300100, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rsfsp", e300120, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rsfsm", e300140, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rsfsz", e300160, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rsfd", e300180, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rsfdp", e3001a0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rsfdm", e3001c0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rsfdz", e3001e0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rsfe", e380100, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rsfep", e380120, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rsfem", e380140, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rsfez", e380160, 3, (RF, RF, RF_IF), rd_rn_rm), + + cCL("mufs", e100100, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("mufsp", e100120, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("mufsm", e100140, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("mufsz", e100160, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("mufd", e100180, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("mufdp", e1001a0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("mufdm", e1001c0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("mufdz", e1001e0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("mufe", e180100, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("mufep", e180120, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("mufem", e180140, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("mufez", e180160, 3, (RF, RF, RF_IF), rd_rn_rm), + + cCL("dvfs", e400100, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("dvfsp", e400120, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("dvfsm", e400140, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("dvfsz", e400160, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("dvfd", e400180, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("dvfdp", e4001a0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("dvfdm", e4001c0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("dvfdz", e4001e0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("dvfe", e480100, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("dvfep", e480120, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("dvfem", e480140, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("dvfez", e480160, 3, (RF, RF, RF_IF), rd_rn_rm), + + cCL("rdfs", e500100, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rdfsp", e500120, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rdfsm", e500140, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rdfsz", e500160, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rdfd", e500180, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rdfdp", e5001a0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rdfdm", e5001c0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rdfdz", e5001e0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rdfe", e580100, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rdfep", e580120, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rdfem", e580140, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rdfez", e580160, 3, (RF, RF, RF_IF), rd_rn_rm), + + cCL("pows", e600100, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("powsp", e600120, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("powsm", e600140, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("powsz", e600160, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("powd", e600180, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("powdp", e6001a0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("powdm", e6001c0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("powdz", e6001e0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("powe", e680100, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("powep", e680120, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("powem", e680140, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("powez", e680160, 3, (RF, RF, RF_IF), rd_rn_rm), + + cCL("rpws", e700100, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rpwsp", e700120, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rpwsm", e700140, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rpwsz", e700160, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rpwd", e700180, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rpwdp", e7001a0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rpwdm", e7001c0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rpwdz", e7001e0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rpwe", e780100, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rpwep", e780120, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rpwem", e780140, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rpwez", e780160, 3, (RF, RF, RF_IF), rd_rn_rm), + + cCL("rmfs", e800100, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rmfsp", e800120, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rmfsm", e800140, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rmfsz", e800160, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rmfd", e800180, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rmfdp", e8001a0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rmfdm", e8001c0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rmfdz", e8001e0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rmfe", e880100, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rmfep", e880120, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rmfem", e880140, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("rmfez", e880160, 3, (RF, RF, RF_IF), rd_rn_rm), + + cCL("fmls", e900100, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("fmlsp", e900120, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("fmlsm", e900140, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("fmlsz", e900160, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("fmld", e900180, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("fmldp", e9001a0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("fmldm", e9001c0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("fmldz", e9001e0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("fmle", e980100, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("fmlep", e980120, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("fmlem", e980140, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("fmlez", e980160, 3, (RF, RF, RF_IF), rd_rn_rm), + + cCL("fdvs", ea00100, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("fdvsp", ea00120, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("fdvsm", ea00140, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("fdvsz", ea00160, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("fdvd", ea00180, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("fdvdp", ea001a0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("fdvdm", ea001c0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("fdvdz", ea001e0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("fdve", ea80100, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("fdvep", ea80120, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("fdvem", ea80140, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("fdvez", ea80160, 3, (RF, RF, RF_IF), rd_rn_rm), + + cCL("frds", eb00100, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("frdsp", eb00120, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("frdsm", eb00140, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("frdsz", eb00160, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("frdd", eb00180, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("frddp", eb001a0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("frddm", eb001c0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("frddz", eb001e0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("frde", eb80100, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("frdep", eb80120, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("frdem", eb80140, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("frdez", eb80160, 3, (RF, RF, RF_IF), rd_rn_rm), + + cCL("pols", ec00100, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("polsp", ec00120, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("polsm", ec00140, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("polsz", ec00160, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("pold", ec00180, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("poldp", ec001a0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("poldm", ec001c0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("poldz", ec001e0, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("pole", ec80100, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("polep", ec80120, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("polem", ec80140, 3, (RF, RF, RF_IF), rd_rn_rm), + cCL("polez", ec80160, 3, (RF, RF, RF_IF), rd_rn_rm), + + cCE("cmf", e90f110, 2, (RF, RF_IF), fpa_cmp), + C3E("cmfe", ed0f110, 2, (RF, RF_IF), fpa_cmp), + cCE("cnf", eb0f110, 2, (RF, RF_IF), fpa_cmp), + C3E("cnfe", ef0f110, 2, (RF, RF_IF), fpa_cmp), + + cCL("flts", e000110, 2, (RF, RR), rn_rd), + cCL("fltsp", e000130, 2, (RF, RR), rn_rd), + cCL("fltsm", e000150, 2, (RF, RR), rn_rd), + cCL("fltsz", e000170, 2, (RF, RR), rn_rd), + cCL("fltd", e000190, 2, (RF, RR), rn_rd), + cCL("fltdp", e0001b0, 2, (RF, RR), rn_rd), + cCL("fltdm", e0001d0, 2, (RF, RR), rn_rd), + cCL("fltdz", e0001f0, 2, (RF, RR), rn_rd), + cCL("flte", e080110, 2, (RF, RR), rn_rd), + cCL("fltep", e080130, 2, (RF, RR), rn_rd), + cCL("fltem", e080150, 2, (RF, RR), rn_rd), + cCL("fltez", e080170, 2, (RF, RR), rn_rd), /* The implementation of the FIX instruction is broken on some assemblers, in that it accepts a precision specifier as well as a rounding specifier, despite the fact that this is meaningless. To be more compatible, we accept it as well, though of course it does not set any bits. */ - cCE(fix, e100110, 2, (RR, RF), rd_rm), - cCL(fixp, e100130, 2, (RR, RF), rd_rm), - cCL(fixm, e100150, 2, (RR, RF), rd_rm), - cCL(fixz, e100170, 2, (RR, RF), rd_rm), - cCL(fixsp, e100130, 2, (RR, RF), rd_rm), - cCL(fixsm, e100150, 2, (RR, RF), rd_rm), - cCL(fixsz, e100170, 2, (RR, RF), rd_rm), - cCL(fixdp, e100130, 2, (RR, RF), rd_rm), - cCL(fixdm, e100150, 2, (RR, RF), rd_rm), - cCL(fixdz, e100170, 2, (RR, RF), rd_rm), - cCL(fixep, e100130, 2, (RR, RF), rd_rm), - cCL(fixem, e100150, 2, (RR, RF), rd_rm), - cCL(fixez, e100170, 2, (RR, RF), rd_rm), + cCE("fix", e100110, 2, (RR, RF), rd_rm), + cCL("fixp", e100130, 2, (RR, RF), rd_rm), + cCL("fixm", e100150, 2, (RR, RF), rd_rm), + cCL("fixz", e100170, 2, (RR, RF), rd_rm), + cCL("fixsp", e100130, 2, (RR, RF), rd_rm), + cCL("fixsm", e100150, 2, (RR, RF), rd_rm), + cCL("fixsz", e100170, 2, (RR, RF), rd_rm), + cCL("fixdp", e100130, 2, (RR, RF), rd_rm), + cCL("fixdm", e100150, 2, (RR, RF), rd_rm), + cCL("fixdz", e100170, 2, (RR, RF), rd_rm), + cCL("fixep", e100130, 2, (RR, RF), rd_rm), + cCL("fixem", e100150, 2, (RR, RF), rd_rm), + cCL("fixez", e100170, 2, (RR, RF), rd_rm), /* Instructions that were new with the real FPA, call them V2. */ #undef ARM_VARIANT #define ARM_VARIANT & fpu_fpa_ext_v2 - cCE(lfm, c100200, 3, (RF, I4b, ADDR), fpa_ldmstm), - cCL(lfmfd, c900200, 3, (RF, I4b, ADDR), fpa_ldmstm), - cCL(lfmea, d100200, 3, (RF, I4b, ADDR), fpa_ldmstm), - cCE(sfm, c000200, 3, (RF, I4b, ADDR), fpa_ldmstm), - cCL(sfmfd, d000200, 3, (RF, I4b, ADDR), fpa_ldmstm), - cCL(sfmea, c800200, 3, (RF, I4b, ADDR), fpa_ldmstm), + cCE("lfm", c100200, 3, (RF, I4b, ADDR), fpa_ldmstm), + cCL("lfmfd", c900200, 3, (RF, I4b, ADDR), fpa_ldmstm), + cCL("lfmea", d100200, 3, (RF, I4b, ADDR), fpa_ldmstm), + cCE("sfm", c000200, 3, (RF, I4b, ADDR), fpa_ldmstm), + cCL("sfmfd", d000200, 3, (RF, I4b, ADDR), fpa_ldmstm), + cCL("sfmea", c800200, 3, (RF, I4b, ADDR), fpa_ldmstm), #undef ARM_VARIANT #define ARM_VARIANT & fpu_vfp_ext_v1xd /* VFP V1xD (single precision). */ /* Moves and type conversions. */ - cCE(fcpys, eb00a40, 2, (RVS, RVS), vfp_sp_monadic), - cCE(fmrs, e100a10, 2, (RR, RVS), vfp_reg_from_sp), - cCE(fmsr, e000a10, 2, (RVS, RR), vfp_sp_from_reg), - cCE(fmstat, ef1fa10, 0, (), noargs), - cCE(fsitos, eb80ac0, 2, (RVS, RVS), vfp_sp_monadic), - cCE(fuitos, eb80a40, 2, (RVS, RVS), vfp_sp_monadic), - cCE(ftosis, ebd0a40, 2, (RVS, RVS), vfp_sp_monadic), - cCE(ftosizs, ebd0ac0, 2, (RVS, RVS), vfp_sp_monadic), - cCE(ftouis, ebc0a40, 2, (RVS, RVS), vfp_sp_monadic), - cCE(ftouizs, ebc0ac0, 2, (RVS, RVS), vfp_sp_monadic), - cCE(fmrx, ef00a10, 2, (RR, RVC), rd_rn), - cCE(fmxr, ee00a10, 2, (RVC, RR), rn_rd), + cCE("fcpys", eb00a40, 2, (RVS, RVS), vfp_sp_monadic), + cCE("fmrs", e100a10, 2, (RR, RVS), vfp_reg_from_sp), + cCE("fmsr", e000a10, 2, (RVS, RR), vfp_sp_from_reg), + cCE("fmstat", ef1fa10, 0, (), noargs), + cCE("fsitos", eb80ac0, 2, (RVS, RVS), vfp_sp_monadic), + cCE("fuitos", eb80a40, 2, (RVS, RVS), vfp_sp_monadic), + cCE("ftosis", ebd0a40, 2, (RVS, RVS), vfp_sp_monadic), + cCE("ftosizs", ebd0ac0, 2, (RVS, RVS), vfp_sp_monadic), + cCE("ftouis", ebc0a40, 2, (RVS, RVS), vfp_sp_monadic), + cCE("ftouizs", ebc0ac0, 2, (RVS, RVS), vfp_sp_monadic), + cCE("fmrx", ef00a10, 2, (RR, RVC), rd_rn), + cCE("fmxr", ee00a10, 2, (RVC, RR), rn_rd), /* Memory operations. */ - cCE(flds, d100a00, 2, (RVS, ADDRGLDC), vfp_sp_ldst), - cCE(fsts, d000a00, 2, (RVS, ADDRGLDC), vfp_sp_ldst), - cCE(fldmias, c900a00, 2, (RRw, VRSLST), vfp_sp_ldstmia), - cCE(fldmfds, c900a00, 2, (RRw, VRSLST), vfp_sp_ldstmia), - cCE(fldmdbs, d300a00, 2, (RRw, VRSLST), vfp_sp_ldstmdb), - cCE(fldmeas, d300a00, 2, (RRw, VRSLST), vfp_sp_ldstmdb), - cCE(fldmiax, c900b00, 2, (RRw, VRDLST), vfp_xp_ldstmia), - cCE(fldmfdx, c900b00, 2, (RRw, VRDLST), vfp_xp_ldstmia), - cCE(fldmdbx, d300b00, 2, (RRw, VRDLST), vfp_xp_ldstmdb), - cCE(fldmeax, d300b00, 2, (RRw, VRDLST), vfp_xp_ldstmdb), - cCE(fstmias, c800a00, 2, (RRw, VRSLST), vfp_sp_ldstmia), - cCE(fstmeas, c800a00, 2, (RRw, VRSLST), vfp_sp_ldstmia), - cCE(fstmdbs, d200a00, 2, (RRw, VRSLST), vfp_sp_ldstmdb), - cCE(fstmfds, d200a00, 2, (RRw, VRSLST), vfp_sp_ldstmdb), - cCE(fstmiax, c800b00, 2, (RRw, VRDLST), vfp_xp_ldstmia), - cCE(fstmeax, c800b00, 2, (RRw, VRDLST), vfp_xp_ldstmia), - cCE(fstmdbx, d200b00, 2, (RRw, VRDLST), vfp_xp_ldstmdb), - cCE(fstmfdx, d200b00, 2, (RRw, VRDLST), vfp_xp_ldstmdb), + cCE("flds", d100a00, 2, (RVS, ADDRGLDC), vfp_sp_ldst), + cCE("fsts", d000a00, 2, (RVS, ADDRGLDC), vfp_sp_ldst), + cCE("fldmias", c900a00, 2, (RRw, VRSLST), vfp_sp_ldstmia), + cCE("fldmfds", c900a00, 2, (RRw, VRSLST), vfp_sp_ldstmia), + cCE("fldmdbs", d300a00, 2, (RRw, VRSLST), vfp_sp_ldstmdb), + cCE("fldmeas", d300a00, 2, (RRw, VRSLST), vfp_sp_ldstmdb), + cCE("fldmiax", c900b00, 2, (RRw, VRDLST), vfp_xp_ldstmia), + cCE("fldmfdx", c900b00, 2, (RRw, VRDLST), vfp_xp_ldstmia), + cCE("fldmdbx", d300b00, 2, (RRw, VRDLST), vfp_xp_ldstmdb), + cCE("fldmeax", d300b00, 2, (RRw, VRDLST), vfp_xp_ldstmdb), + cCE("fstmias", c800a00, 2, (RRw, VRSLST), vfp_sp_ldstmia), + cCE("fstmeas", c800a00, 2, (RRw, VRSLST), vfp_sp_ldstmia), + cCE("fstmdbs", d200a00, 2, (RRw, VRSLST), vfp_sp_ldstmdb), + cCE("fstmfds", d200a00, 2, (RRw, VRSLST), vfp_sp_ldstmdb), + cCE("fstmiax", c800b00, 2, (RRw, VRDLST), vfp_xp_ldstmia), + cCE("fstmeax", c800b00, 2, (RRw, VRDLST), vfp_xp_ldstmia), + cCE("fstmdbx", d200b00, 2, (RRw, VRDLST), vfp_xp_ldstmdb), + cCE("fstmfdx", d200b00, 2, (RRw, VRDLST), vfp_xp_ldstmdb), /* Monadic operations. */ - cCE(fabss, eb00ac0, 2, (RVS, RVS), vfp_sp_monadic), - cCE(fnegs, eb10a40, 2, (RVS, RVS), vfp_sp_monadic), - cCE(fsqrts, eb10ac0, 2, (RVS, RVS), vfp_sp_monadic), + cCE("fabss", eb00ac0, 2, (RVS, RVS), vfp_sp_monadic), + cCE("fnegs", eb10a40, 2, (RVS, RVS), vfp_sp_monadic), + cCE("fsqrts", eb10ac0, 2, (RVS, RVS), vfp_sp_monadic), /* Dyadic operations. */ - cCE(fadds, e300a00, 3, (RVS, RVS, RVS), vfp_sp_dyadic), - cCE(fsubs, e300a40, 3, (RVS, RVS, RVS), vfp_sp_dyadic), - cCE(fmuls, e200a00, 3, (RVS, RVS, RVS), vfp_sp_dyadic), - cCE(fdivs, e800a00, 3, (RVS, RVS, RVS), vfp_sp_dyadic), - cCE(fmacs, e000a00, 3, (RVS, RVS, RVS), vfp_sp_dyadic), - cCE(fmscs, e100a00, 3, (RVS, RVS, RVS), vfp_sp_dyadic), - cCE(fnmuls, e200a40, 3, (RVS, RVS, RVS), vfp_sp_dyadic), - cCE(fnmacs, e000a40, 3, (RVS, RVS, RVS), vfp_sp_dyadic), - cCE(fnmscs, e100a40, 3, (RVS, RVS, RVS), vfp_sp_dyadic), + cCE("fadds", e300a00, 3, (RVS, RVS, RVS), vfp_sp_dyadic), + cCE("fsubs", e300a40, 3, (RVS, RVS, RVS), vfp_sp_dyadic), + cCE("fmuls", e200a00, 3, (RVS, RVS, RVS), vfp_sp_dyadic), + cCE("fdivs", e800a00, 3, (RVS, RVS, RVS), vfp_sp_dyadic), + cCE("fmacs", e000a00, 3, (RVS, RVS, RVS), vfp_sp_dyadic), + cCE("fmscs", e100a00, 3, (RVS, RVS, RVS), vfp_sp_dyadic), + cCE("fnmuls", e200a40, 3, (RVS, RVS, RVS), vfp_sp_dyadic), + cCE("fnmacs", e000a40, 3, (RVS, RVS, RVS), vfp_sp_dyadic), + cCE("fnmscs", e100a40, 3, (RVS, RVS, RVS), vfp_sp_dyadic), /* Comparisons. */ - cCE(fcmps, eb40a40, 2, (RVS, RVS), vfp_sp_monadic), - cCE(fcmpzs, eb50a40, 1, (RVS), vfp_sp_compare_z), - cCE(fcmpes, eb40ac0, 2, (RVS, RVS), vfp_sp_monadic), - cCE(fcmpezs, eb50ac0, 1, (RVS), vfp_sp_compare_z), + cCE("fcmps", eb40a40, 2, (RVS, RVS), vfp_sp_monadic), + cCE("fcmpzs", eb50a40, 1, (RVS), vfp_sp_compare_z), + cCE("fcmpes", eb40ac0, 2, (RVS, RVS), vfp_sp_monadic), + cCE("fcmpezs", eb50ac0, 1, (RVS), vfp_sp_compare_z), #undef ARM_VARIANT #define ARM_VARIANT & fpu_vfp_ext_v1 /* VFP V1 (Double precision). */ /* Moves and type conversions. */ - cCE(fcpyd, eb00b40, 2, (RVD, RVD), vfp_dp_rd_rm), - cCE(fcvtds, eb70ac0, 2, (RVD, RVS), vfp_dp_sp_cvt), - cCE(fcvtsd, eb70bc0, 2, (RVS, RVD), vfp_sp_dp_cvt), - cCE(fmdhr, e200b10, 2, (RVD, RR), vfp_dp_rn_rd), - cCE(fmdlr, e000b10, 2, (RVD, RR), vfp_dp_rn_rd), - cCE(fmrdh, e300b10, 2, (RR, RVD), vfp_dp_rd_rn), - cCE(fmrdl, e100b10, 2, (RR, RVD), vfp_dp_rd_rn), - cCE(fsitod, eb80bc0, 2, (RVD, RVS), vfp_dp_sp_cvt), - cCE(fuitod, eb80b40, 2, (RVD, RVS), vfp_dp_sp_cvt), - cCE(ftosid, ebd0b40, 2, (RVS, RVD), vfp_sp_dp_cvt), - cCE(ftosizd, ebd0bc0, 2, (RVS, RVD), vfp_sp_dp_cvt), - cCE(ftouid, ebc0b40, 2, (RVS, RVD), vfp_sp_dp_cvt), - cCE(ftouizd, ebc0bc0, 2, (RVS, RVD), vfp_sp_dp_cvt), + cCE("fcpyd", eb00b40, 2, (RVD, RVD), vfp_dp_rd_rm), + cCE("fcvtds", eb70ac0, 2, (RVD, RVS), vfp_dp_sp_cvt), + cCE("fcvtsd", eb70bc0, 2, (RVS, RVD), vfp_sp_dp_cvt), + cCE("fmdhr", e200b10, 2, (RVD, RR), vfp_dp_rn_rd), + cCE("fmdlr", e000b10, 2, (RVD, RR), vfp_dp_rn_rd), + cCE("fmrdh", e300b10, 2, (RR, RVD), vfp_dp_rd_rn), + cCE("fmrdl", e100b10, 2, (RR, RVD), vfp_dp_rd_rn), + cCE("fsitod", eb80bc0, 2, (RVD, RVS), vfp_dp_sp_cvt), + cCE("fuitod", eb80b40, 2, (RVD, RVS), vfp_dp_sp_cvt), + cCE("ftosid", ebd0b40, 2, (RVS, RVD), vfp_sp_dp_cvt), + cCE("ftosizd", ebd0bc0, 2, (RVS, RVD), vfp_sp_dp_cvt), + cCE("ftouid", ebc0b40, 2, (RVS, RVD), vfp_sp_dp_cvt), + cCE("ftouizd", ebc0bc0, 2, (RVS, RVD), vfp_sp_dp_cvt), /* Memory operations. */ - cCE(fldd, d100b00, 2, (RVD, ADDRGLDC), vfp_dp_ldst), - cCE(fstd, d000b00, 2, (RVD, ADDRGLDC), vfp_dp_ldst), - cCE(fldmiad, c900b00, 2, (RRw, VRDLST), vfp_dp_ldstmia), - cCE(fldmfdd, c900b00, 2, (RRw, VRDLST), vfp_dp_ldstmia), - cCE(fldmdbd, d300b00, 2, (RRw, VRDLST), vfp_dp_ldstmdb), - cCE(fldmead, d300b00, 2, (RRw, VRDLST), vfp_dp_ldstmdb), - cCE(fstmiad, c800b00, 2, (RRw, VRDLST), vfp_dp_ldstmia), - cCE(fstmead, c800b00, 2, (RRw, VRDLST), vfp_dp_ldstmia), - cCE(fstmdbd, d200b00, 2, (RRw, VRDLST), vfp_dp_ldstmdb), - cCE(fstmfdd, d200b00, 2, (RRw, VRDLST), vfp_dp_ldstmdb), + cCE("fldd", d100b00, 2, (RVD, ADDRGLDC), vfp_dp_ldst), + cCE("fstd", d000b00, 2, (RVD, ADDRGLDC), vfp_dp_ldst), + cCE("fldmiad", c900b00, 2, (RRw, VRDLST), vfp_dp_ldstmia), + cCE("fldmfdd", c900b00, 2, (RRw, VRDLST), vfp_dp_ldstmia), + cCE("fldmdbd", d300b00, 2, (RRw, VRDLST), vfp_dp_ldstmdb), + cCE("fldmead", d300b00, 2, (RRw, VRDLST), vfp_dp_ldstmdb), + cCE("fstmiad", c800b00, 2, (RRw, VRDLST), vfp_dp_ldstmia), + cCE("fstmead", c800b00, 2, (RRw, VRDLST), vfp_dp_ldstmia), + cCE("fstmdbd", d200b00, 2, (RRw, VRDLST), vfp_dp_ldstmdb), + cCE("fstmfdd", d200b00, 2, (RRw, VRDLST), vfp_dp_ldstmdb), /* Monadic operations. */ - cCE(fabsd, eb00bc0, 2, (RVD, RVD), vfp_dp_rd_rm), - cCE(fnegd, eb10b40, 2, (RVD, RVD), vfp_dp_rd_rm), - cCE(fsqrtd, eb10bc0, 2, (RVD, RVD), vfp_dp_rd_rm), + cCE("fabsd", eb00bc0, 2, (RVD, RVD), vfp_dp_rd_rm), + cCE("fnegd", eb10b40, 2, (RVD, RVD), vfp_dp_rd_rm), + cCE("fsqrtd", eb10bc0, 2, (RVD, RVD), vfp_dp_rd_rm), /* Dyadic operations. */ - cCE(faddd, e300b00, 3, (RVD, RVD, RVD), vfp_dp_rd_rn_rm), - cCE(fsubd, e300b40, 3, (RVD, RVD, RVD), vfp_dp_rd_rn_rm), - cCE(fmuld, e200b00, 3, (RVD, RVD, RVD), vfp_dp_rd_rn_rm), - cCE(fdivd, e800b00, 3, (RVD, RVD, RVD), vfp_dp_rd_rn_rm), - cCE(fmacd, e000b00, 3, (RVD, RVD, RVD), vfp_dp_rd_rn_rm), - cCE(fmscd, e100b00, 3, (RVD, RVD, RVD), vfp_dp_rd_rn_rm), - cCE(fnmuld, e200b40, 3, (RVD, RVD, RVD), vfp_dp_rd_rn_rm), - cCE(fnmacd, e000b40, 3, (RVD, RVD, RVD), vfp_dp_rd_rn_rm), - cCE(fnmscd, e100b40, 3, (RVD, RVD, RVD), vfp_dp_rd_rn_rm), + cCE("faddd", e300b00, 3, (RVD, RVD, RVD), vfp_dp_rd_rn_rm), + cCE("fsubd", e300b40, 3, (RVD, RVD, RVD), vfp_dp_rd_rn_rm), + cCE("fmuld", e200b00, 3, (RVD, RVD, RVD), vfp_dp_rd_rn_rm), + cCE("fdivd", e800b00, 3, (RVD, RVD, RVD), vfp_dp_rd_rn_rm), + cCE("fmacd", e000b00, 3, (RVD, RVD, RVD), vfp_dp_rd_rn_rm), + cCE("fmscd", e100b00, 3, (RVD, RVD, RVD), vfp_dp_rd_rn_rm), + cCE("fnmuld", e200b40, 3, (RVD, RVD, RVD), vfp_dp_rd_rn_rm), + cCE("fnmacd", e000b40, 3, (RVD, RVD, RVD), vfp_dp_rd_rn_rm), + cCE("fnmscd", e100b40, 3, (RVD, RVD, RVD), vfp_dp_rd_rn_rm), /* Comparisons. */ - cCE(fcmpd, eb40b40, 2, (RVD, RVD), vfp_dp_rd_rm), - cCE(fcmpzd, eb50b40, 1, (RVD), vfp_dp_rd), - cCE(fcmped, eb40bc0, 2, (RVD, RVD), vfp_dp_rd_rm), - cCE(fcmpezd, eb50bc0, 1, (RVD), vfp_dp_rd), + cCE("fcmpd", eb40b40, 2, (RVD, RVD), vfp_dp_rd_rm), + cCE("fcmpzd", eb50b40, 1, (RVD), vfp_dp_rd), + cCE("fcmped", eb40bc0, 2, (RVD, RVD), vfp_dp_rd_rm), + cCE("fcmpezd", eb50bc0, 1, (RVD), vfp_dp_rd), #undef ARM_VARIANT #define ARM_VARIANT & fpu_vfp_ext_v2 - cCE(fmsrr, c400a10, 3, (VRSLST, RR, RR), vfp_sp2_from_reg2), - cCE(fmrrs, c500a10, 3, (RR, RR, VRSLST), vfp_reg2_from_sp2), - cCE(fmdrr, c400b10, 3, (RVD, RR, RR), vfp_dp_rm_rd_rn), - cCE(fmrrd, c500b10, 3, (RR, RR, RVD), vfp_dp_rd_rn_rm), + cCE("fmsrr", c400a10, 3, (VRSLST, RR, RR), vfp_sp2_from_reg2), + cCE("fmrrs", c500a10, 3, (RR, RR, VRSLST), vfp_reg2_from_sp2), + cCE("fmdrr", c400b10, 3, (RVD, RR, RR), vfp_dp_rm_rd_rn), + cCE("fmrrd", c500b10, 3, (RR, RR, RVD), vfp_dp_rd_rn_rm), /* Instructions which may belong to either the Neon or VFP instruction sets. Individual encoder functions perform additional architecture checks. */ @@ -17238,22 +17252,22 @@ static const struct asm_opcode insns[] = /* These mnemonics are unique to VFP. */ NCE(vsqrt, 0, 2, (RVSD, RVSD), vfp_nsyn_sqrt), NCE(vdiv, 0, 3, (RVSD, RVSD, RVSD), vfp_nsyn_div), - nCE(vnmul, vnmul, 3, (RVSD, RVSD, RVSD), vfp_nsyn_nmul), - nCE(vnmla, vnmla, 3, (RVSD, RVSD, RVSD), vfp_nsyn_nmul), - nCE(vnmls, vnmls, 3, (RVSD, RVSD, RVSD), vfp_nsyn_nmul), - nCE(vcmp, vcmp, 2, (RVSD, RVSD_I0), vfp_nsyn_cmp), - nCE(vcmpe, vcmpe, 2, (RVSD, RVSD_I0), vfp_nsyn_cmp), + nCE(vnmul, _vnmul, 3, (RVSD, RVSD, RVSD), vfp_nsyn_nmul), + nCE(vnmla, _vnmla, 3, (RVSD, RVSD, RVSD), vfp_nsyn_nmul), + nCE(vnmls, _vnmls, 3, (RVSD, RVSD, RVSD), vfp_nsyn_nmul), + nCE(vcmp, _vcmp, 2, (RVSD, RVSD_I0), vfp_nsyn_cmp), + nCE(vcmpe, _vcmpe, 2, (RVSD, RVSD_I0), vfp_nsyn_cmp), NCE(vpush, 0, 1, (VRSDLST), vfp_nsyn_push), NCE(vpop, 0, 1, (VRSDLST), vfp_nsyn_pop), NCE(vcvtz, 0, 2, (RVSD, RVSD), vfp_nsyn_cvtz), /* Mnemonics shared by Neon and VFP. */ - nCEF(vmul, vmul, 3, (RNSDQ, oRNSDQ, RNSDQ_RNSC), neon_mul), - nCEF(vmla, vmla, 3, (RNSDQ, oRNSDQ, RNSDQ_RNSC), neon_mac_maybe_scalar), - nCEF(vmls, vmls, 3, (RNSDQ, oRNSDQ, RNSDQ_RNSC), neon_mac_maybe_scalar), + nCEF(vmul, _vmul, 3, (RNSDQ, oRNSDQ, RNSDQ_RNSC), neon_mul), + nCEF(vmla, _vmla, 3, (RNSDQ, oRNSDQ, RNSDQ_RNSC), neon_mac_maybe_scalar), + nCEF(vmls, _vmls, 3, (RNSDQ, oRNSDQ, RNSDQ_RNSC), neon_mac_maybe_scalar), - nCEF(vadd, vadd, 3, (RNSDQ, oRNSDQ, RNSDQ), neon_addsub_if_i), - nCEF(vsub, vsub, 3, (RNSDQ, oRNSDQ, RNSDQ), neon_addsub_if_i), + nCEF(vadd, _vadd, 3, (RNSDQ, oRNSDQ, RNSDQ), neon_addsub_if_i), + nCEF(vsub, _vsub, 3, (RNSDQ, oRNSDQ, RNSDQ), neon_addsub_if_i), NCEF(vabs, 1b10300, 2, (RNSDQ, RNSDQ), neon_abs_neg), NCEF(vneg, 1b10380, 2, (RNSDQ, RNSDQ), neon_abs_neg), @@ -17267,9 +17281,9 @@ static const struct asm_opcode insns[] = NCE(vldr, d100b00, 2, (RVSD, ADDRGLDC), neon_ldr_str), NCE(vstr, d000b00, 2, (RVSD, ADDRGLDC), neon_ldr_str), - nCEF(vcvt, vcvt, 3, (RNSDQ, RNSDQ, oI32b), neon_cvt), - nCEF(vcvtb, vcvt, 2, (RVS, RVS), neon_cvtb), - nCEF(vcvtt, vcvt, 2, (RVS, RVS), neon_cvtt), + nCEF(vcvt, _vcvt, 3, (RNSDQ, RNSDQ, oI32b), neon_cvt), + nCEF(vcvtb, _vcvt, 2, (RVS, RVS), neon_cvtb), + nCEF(vcvtt, _vcvt, 2, (RVS, RVS), neon_cvtt), /* NOTE: All VMOV encoding is special-cased! */ @@ -17303,21 +17317,21 @@ static const struct asm_opcode insns[] = /* If not immediate, fall back to neon_dyadic_i64_su. shl_imm should accept I8 I16 I32 I64, qshl_imm should accept S8 S16 S32 S64 U8 U16 U32 U64. */ - nUF(vshl, vshl, 3, (RNDQ, oRNDQ, RNDQ_I63b), neon_shl_imm), - nUF(vshlq, vshl, 3, (RNQ, oRNQ, RNDQ_I63b), neon_shl_imm), - nUF(vqshl, vqshl, 3, (RNDQ, oRNDQ, RNDQ_I63b), neon_qshl_imm), - nUF(vqshlq, vqshl, 3, (RNQ, oRNQ, RNDQ_I63b), neon_qshl_imm), + nUF(vshl, _vshl, 3, (RNDQ, oRNDQ, RNDQ_I63b), neon_shl_imm), + nUF(vshlq, _vshl, 3, (RNQ, oRNQ, RNDQ_I63b), neon_shl_imm), + nUF(vqshl, _vqshl, 3, (RNDQ, oRNDQ, RNDQ_I63b), neon_qshl_imm), + nUF(vqshlq, _vqshl, 3, (RNQ, oRNQ, RNDQ_I63b), neon_qshl_imm), /* Logic ops, types optional & ignored. */ - nUF(vand, vand, 2, (RNDQ, NILO), neon_logic), - nUF(vandq, vand, 2, (RNQ, NILO), neon_logic), - nUF(vbic, vbic, 2, (RNDQ, NILO), neon_logic), - nUF(vbicq, vbic, 2, (RNQ, NILO), neon_logic), - nUF(vorr, vorr, 2, (RNDQ, NILO), neon_logic), - nUF(vorrq, vorr, 2, (RNQ, NILO), neon_logic), - nUF(vorn, vorn, 2, (RNDQ, NILO), neon_logic), - nUF(vornq, vorn, 2, (RNQ, NILO), neon_logic), - nUF(veor, veor, 3, (RNDQ, oRNDQ, RNDQ), neon_logic), - nUF(veorq, veor, 3, (RNQ, oRNQ, RNQ), neon_logic), + nUF(vand, _vand, 2, (RNDQ, NILO), neon_logic), + nUF(vandq, _vand, 2, (RNQ, NILO), neon_logic), + nUF(vbic, _vbic, 2, (RNDQ, NILO), neon_logic), + nUF(vbicq, _vbic, 2, (RNQ, NILO), neon_logic), + nUF(vorr, _vorr, 2, (RNDQ, NILO), neon_logic), + nUF(vorrq, _vorr, 2, (RNQ, NILO), neon_logic), + nUF(vorn, _vorn, 2, (RNDQ, NILO), neon_logic), + nUF(vornq, _vorn, 2, (RNQ, NILO), neon_logic), + nUF(veor, _veor, 3, (RNDQ, oRNDQ, RNDQ), neon_logic), + nUF(veorq, _veor, 3, (RNQ, oRNQ, RNQ), neon_logic), /* Bitfield ops, untyped. */ NUF(vbsl, 1100110, 3, (RNDQ, RNDQ, RNDQ), neon_bitfield), NUF(vbslq, 1100110, 3, (RNQ, RNQ, RNQ), neon_bitfield), @@ -17326,45 +17340,45 @@ static const struct asm_opcode insns[] = NUF(vbif, 1300110, 3, (RNDQ, RNDQ, RNDQ), neon_bitfield), NUF(vbifq, 1300110, 3, (RNQ, RNQ, RNQ), neon_bitfield), /* Int and float variants, types S8 S16 S32 U8 U16 U32 F32. */ - nUF(vabd, vabd, 3, (RNDQ, oRNDQ, RNDQ), neon_dyadic_if_su), - nUF(vabdq, vabd, 3, (RNQ, oRNQ, RNQ), neon_dyadic_if_su), - nUF(vmax, vmax, 3, (RNDQ, oRNDQ, RNDQ), neon_dyadic_if_su), - nUF(vmaxq, vmax, 3, (RNQ, oRNQ, RNQ), neon_dyadic_if_su), - nUF(vmin, vmin, 3, (RNDQ, oRNDQ, RNDQ), neon_dyadic_if_su), - nUF(vminq, vmin, 3, (RNQ, oRNQ, RNQ), neon_dyadic_if_su), + nUF(vabd, _vabd, 3, (RNDQ, oRNDQ, RNDQ), neon_dyadic_if_su), + nUF(vabdq, _vabd, 3, (RNQ, oRNQ, RNQ), neon_dyadic_if_su), + nUF(vmax, _vmax, 3, (RNDQ, oRNDQ, RNDQ), neon_dyadic_if_su), + nUF(vmaxq, _vmax, 3, (RNQ, oRNQ, RNQ), neon_dyadic_if_su), + nUF(vmin, _vmin, 3, (RNDQ, oRNDQ, RNDQ), neon_dyadic_if_su), + nUF(vminq, _vmin, 3, (RNQ, oRNQ, RNQ), neon_dyadic_if_su), /* Comparisons. Types S8 S16 S32 U8 U16 U32 F32. Non-immediate versions fall back to neon_dyadic_if_su. */ - nUF(vcge, vcge, 3, (RNDQ, oRNDQ, RNDQ_I0), neon_cmp), - nUF(vcgeq, vcge, 3, (RNQ, oRNQ, RNDQ_I0), neon_cmp), - nUF(vcgt, vcgt, 3, (RNDQ, oRNDQ, RNDQ_I0), neon_cmp), - nUF(vcgtq, vcgt, 3, (RNQ, oRNQ, RNDQ_I0), neon_cmp), - nUF(vclt, vclt, 3, (RNDQ, oRNDQ, RNDQ_I0), neon_cmp_inv), - nUF(vcltq, vclt, 3, (RNQ, oRNQ, RNDQ_I0), neon_cmp_inv), - nUF(vcle, vcle, 3, (RNDQ, oRNDQ, RNDQ_I0), neon_cmp_inv), - nUF(vcleq, vcle, 3, (RNQ, oRNQ, RNDQ_I0), neon_cmp_inv), + nUF(vcge, _vcge, 3, (RNDQ, oRNDQ, RNDQ_I0), neon_cmp), + nUF(vcgeq, _vcge, 3, (RNQ, oRNQ, RNDQ_I0), neon_cmp), + nUF(vcgt, _vcgt, 3, (RNDQ, oRNDQ, RNDQ_I0), neon_cmp), + nUF(vcgtq, _vcgt, 3, (RNQ, oRNQ, RNDQ_I0), neon_cmp), + nUF(vclt, _vclt, 3, (RNDQ, oRNDQ, RNDQ_I0), neon_cmp_inv), + nUF(vcltq, _vclt, 3, (RNQ, oRNQ, RNDQ_I0), neon_cmp_inv), + nUF(vcle, _vcle, 3, (RNDQ, oRNDQ, RNDQ_I0), neon_cmp_inv), + nUF(vcleq, _vcle, 3, (RNQ, oRNQ, RNDQ_I0), neon_cmp_inv), /* Comparison. Type I8 I16 I32 F32. */ - nUF(vceq, vceq, 3, (RNDQ, oRNDQ, RNDQ_I0), neon_ceq), - nUF(vceqq, vceq, 3, (RNQ, oRNQ, RNDQ_I0), neon_ceq), + nUF(vceq, _vceq, 3, (RNDQ, oRNDQ, RNDQ_I0), neon_ceq), + nUF(vceqq, _vceq, 3, (RNQ, oRNQ, RNDQ_I0), neon_ceq), /* As above, D registers only. */ - nUF(vpmax, vpmax, 3, (RND, oRND, RND), neon_dyadic_if_su_d), - nUF(vpmin, vpmin, 3, (RND, oRND, RND), neon_dyadic_if_su_d), + nUF(vpmax, _vpmax, 3, (RND, oRND, RND), neon_dyadic_if_su_d), + nUF(vpmin, _vpmin, 3, (RND, oRND, RND), neon_dyadic_if_su_d), /* Int and float variants, signedness unimportant. */ - nUF(vmlaq, vmla, 3, (RNQ, oRNQ, RNDQ_RNSC), neon_mac_maybe_scalar), - nUF(vmlsq, vmls, 3, (RNQ, oRNQ, RNDQ_RNSC), neon_mac_maybe_scalar), - nUF(vpadd, vpadd, 3, (RND, oRND, RND), neon_dyadic_if_i_d), + nUF(vmlaq, _vmla, 3, (RNQ, oRNQ, RNDQ_RNSC), neon_mac_maybe_scalar), + nUF(vmlsq, _vmls, 3, (RNQ, oRNQ, RNDQ_RNSC), neon_mac_maybe_scalar), + nUF(vpadd, _vpadd, 3, (RND, oRND, RND), neon_dyadic_if_i_d), /* Add/sub take types I8 I16 I32 I64 F32. */ - nUF(vaddq, vadd, 3, (RNQ, oRNQ, RNQ), neon_addsub_if_i), - nUF(vsubq, vsub, 3, (RNQ, oRNQ, RNQ), neon_addsub_if_i), + nUF(vaddq, _vadd, 3, (RNQ, oRNQ, RNQ), neon_addsub_if_i), + nUF(vsubq, _vsub, 3, (RNQ, oRNQ, RNQ), neon_addsub_if_i), /* vtst takes sizes 8, 16, 32. */ NUF(vtst, 0000810, 3, (RNDQ, oRNDQ, RNDQ), neon_tst), NUF(vtstq, 0000810, 3, (RNQ, oRNQ, RNQ), neon_tst), /* VMUL takes I8 I16 I32 F32 P8. */ - nUF(vmulq, vmul, 3, (RNQ, oRNQ, RNDQ_RNSC), neon_mul), + nUF(vmulq, _vmul, 3, (RNQ, oRNQ, RNDQ_RNSC), neon_mul), /* VQD{R}MULH takes S16 S32. */ - nUF(vqdmulh, vqdmulh, 3, (RNDQ, oRNDQ, RNDQ_RNSC), neon_qdmulh), - nUF(vqdmulhq, vqdmulh, 3, (RNQ, oRNQ, RNDQ_RNSC), neon_qdmulh), - nUF(vqrdmulh, vqrdmulh, 3, (RNDQ, oRNDQ, RNDQ_RNSC), neon_qdmulh), - nUF(vqrdmulhq, vqrdmulh, 3, (RNQ, oRNQ, RNDQ_RNSC), neon_qdmulh), + nUF(vqdmulh, _vqdmulh, 3, (RNDQ, oRNDQ, RNDQ_RNSC), neon_qdmulh), + nUF(vqdmulhq, _vqdmulh, 3, (RNQ, oRNQ, RNDQ_RNSC), neon_qdmulh), + nUF(vqrdmulh, _vqrdmulh, 3, (RNDQ, oRNDQ, RNDQ_RNSC), neon_qdmulh), + nUF(vqrdmulhq, _vqrdmulh, 3, (RNQ, oRNQ, RNDQ_RNSC), neon_qdmulh), NUF(vacge, 0000e10, 3, (RNDQ, oRNDQ, RNDQ), neon_fcmp_absolute), NUF(vacgeq, 0000e10, 3, (RNQ, oRNQ, RNQ), neon_fcmp_absolute), NUF(vacgt, 0200e10, 3, (RNDQ, oRNDQ, RNDQ), neon_fcmp_absolute), @@ -17412,12 +17426,12 @@ static const struct asm_opcode insns[] = NUF(vshrn, 0800810, 3, (RND, RNQ, I32z), neon_rshift_narrow), NUF(vrshrn, 0800850, 3, (RND, RNQ, I32z), neon_rshift_narrow), /* Special case. Types S8 S16 S32 U8 U16 U32. Handles max shift variant. */ - nUF(vshll, vshll, 3, (RNQ, RND, I32), neon_shll), + nUF(vshll, _vshll, 3, (RNQ, RND, I32), neon_shll), /* CVT with optional immediate for fixed-point variant. */ - nUF(vcvtq, vcvt, 3, (RNQ, RNQ, oI32b), neon_cvt), + nUF(vcvtq, _vcvt, 3, (RNQ, RNQ, oI32b), neon_cvt), - nUF(vmvn, vmvn, 2, (RNDQ, RNDQ_IMVNb), neon_mvn), - nUF(vmvnq, vmvn, 2, (RNQ, RNDQ_IMVNb), neon_mvn), + nUF(vmvn, _vmvn, 2, (RNDQ, RNDQ_IMVNb), neon_mvn), + nUF(vmvnq, _vmvn, 2, (RNQ, RNDQ_IMVNb), neon_mvn), /* Data processing, three registers of different lengths. */ /* Dyadic, long insns. Types S8 S16 S32 U8 U16 U32. */ @@ -17427,8 +17441,8 @@ static const struct asm_opcode insns[] = NUF(vsubl, 0800200, 3, (RNQ, RND, RND), neon_dyadic_long), /* If not scalar, fall back to neon_dyadic_long. Vector types as above, scalar types S16 S32 U16 U32. */ - nUF(vmlal, vmlal, 3, (RNQ, RND, RND_RNSC), neon_mac_maybe_scalar_long), - nUF(vmlsl, vmlsl, 3, (RNQ, RND, RND_RNSC), neon_mac_maybe_scalar_long), + nUF(vmlal, _vmlal, 3, (RNQ, RND, RND_RNSC), neon_mac_maybe_scalar_long), + nUF(vmlsl, _vmlsl, 3, (RNQ, RND, RND_RNSC), neon_mac_maybe_scalar_long), /* Dyadic, widening insns. Types S8 S16 S32 U8 U16 U32. */ NUF(vaddw, 0800100, 3, (RNQ, oRNQ, RND), neon_dyadic_wide), NUF(vsubw, 0800300, 3, (RNQ, oRNQ, RND), neon_dyadic_wide), @@ -17438,12 +17452,12 @@ static const struct asm_opcode insns[] = NUF(vsubhn, 0800600, 3, (RND, RNQ, RNQ), neon_dyadic_narrow), NUF(vrsubhn, 1800600, 3, (RND, RNQ, RNQ), neon_dyadic_narrow), /* Saturating doubling multiplies. Types S16 S32. */ - nUF(vqdmlal, vqdmlal, 3, (RNQ, RND, RND_RNSC), neon_mul_sat_scalar_long), - nUF(vqdmlsl, vqdmlsl, 3, (RNQ, RND, RND_RNSC), neon_mul_sat_scalar_long), - nUF(vqdmull, vqdmull, 3, (RNQ, RND, RND_RNSC), neon_mul_sat_scalar_long), + nUF(vqdmlal, _vqdmlal, 3, (RNQ, RND, RND_RNSC), neon_mul_sat_scalar_long), + nUF(vqdmlsl, _vqdmlsl, 3, (RNQ, RND, RND_RNSC), neon_mul_sat_scalar_long), + nUF(vqdmull, _vqdmull, 3, (RNQ, RND, RND_RNSC), neon_mul_sat_scalar_long), /* VMULL. Vector types S8 S16 S32 U8 U16 U32 P8, scalar types S16 S32 U16 U32. */ - nUF(vmull, vmull, 3, (RNQ, RND, RND_RNSC), neon_vmull), + nUF(vmull, _vmull, 3, (RNQ, RND, RND_RNSC), neon_vmull), /* Extract. Size 8. */ NUF(vext, 0b00000, 4, (RNDQ, oRNDQ, RNDQ, I15), neon_ext), @@ -17458,16 +17472,16 @@ static const struct asm_opcode insns[] = NUF(vrev16, 1b00100, 2, (RNDQ, RNDQ), neon_rev), NUF(vrev16q, 1b00100, 2, (RNQ, RNQ), neon_rev), /* Vector replicate. Sizes 8 16 32. */ - nCE(vdup, vdup, 2, (RNDQ, RR_RNSC), neon_dup), - nCE(vdupq, vdup, 2, (RNQ, RR_RNSC), neon_dup), + nCE(vdup, _vdup, 2, (RNDQ, RR_RNSC), neon_dup), + nCE(vdupq, _vdup, 2, (RNQ, RR_RNSC), neon_dup), /* VMOVL. Types S8 S16 S32 U8 U16 U32. */ NUF(vmovl, 0800a10, 2, (RNQ, RND), neon_movl), /* VMOVN. Types I16 I32 I64. */ - nUF(vmovn, vmovn, 2, (RND, RNQ), neon_movn), + nUF(vmovn, _vmovn, 2, (RND, RNQ), neon_movn), /* VQMOVN. Types S16 S32 S64 U16 U32 U64. */ - nUF(vqmovn, vqmovn, 2, (RND, RNQ), neon_qmovn), + nUF(vqmovn, _vqmovn, 2, (RND, RNQ), neon_qmovn), /* VQMOVUN. Types S16 S32 S64. */ - nUF(vqmovun, vqmovun, 2, (RND, RNQ), neon_qmovun), + nUF(vqmovun, _vqmovun, 2, (RND, RNQ), neon_qmovun), /* VZIP / VUZP. Sizes 8 16 32. */ NUF(vzip, 1b20180, 2, (RNDQ, RNDQ), neon_zip_uzp), NUF(vzipq, 1b20180, 2, (RNQ, RNQ), neon_zip_uzp), @@ -17501,8 +17515,8 @@ static const struct asm_opcode insns[] = NUF(vswp, 1b20000, 2, (RNDQ, RNDQ), neon_swp), NUF(vswpq, 1b20000, 2, (RNQ, RNQ), neon_swp), /* VTRN. Sizes 8 16 32. */ - nUF(vtrn, vtrn, 2, (RNDQ, RNDQ), neon_trn), - nUF(vtrnq, vtrn, 2, (RNQ, RNQ), neon_trn), + nUF(vtrn, _vtrn, 2, (RNDQ, RNDQ), neon_trn), + nUF(vtrnq, _vtrn, 2, (RNQ, RNQ), neon_trn), /* Table lookup. Size 8. */ NUF(vtbl, 1b00800, 3, (RND, NRDLST, RND), neon_tbl_tbx), @@ -17514,358 +17528,358 @@ static const struct asm_opcode insns[] = #define ARM_VARIANT & fpu_vfp_v3_or_neon_ext /* Neon element/structure load/store. */ - nUF(vld1, vld1, 2, (NSTRLST, ADDR), neon_ldx_stx), - nUF(vst1, vst1, 2, (NSTRLST, ADDR), neon_ldx_stx), - nUF(vld2, vld2, 2, (NSTRLST, ADDR), neon_ldx_stx), - nUF(vst2, vst2, 2, (NSTRLST, ADDR), neon_ldx_stx), - nUF(vld3, vld3, 2, (NSTRLST, ADDR), neon_ldx_stx), - nUF(vst3, vst3, 2, (NSTRLST, ADDR), neon_ldx_stx), - nUF(vld4, vld4, 2, (NSTRLST, ADDR), neon_ldx_stx), - nUF(vst4, vst4, 2, (NSTRLST, ADDR), neon_ldx_stx), + nUF(vld1, _vld1, 2, (NSTRLST, ADDR), neon_ldx_stx), + nUF(vst1, _vst1, 2, (NSTRLST, ADDR), neon_ldx_stx), + nUF(vld2, _vld2, 2, (NSTRLST, ADDR), neon_ldx_stx), + nUF(vst2, _vst2, 2, (NSTRLST, ADDR), neon_ldx_stx), + nUF(vld3, _vld3, 2, (NSTRLST, ADDR), neon_ldx_stx), + nUF(vst3, _vst3, 2, (NSTRLST, ADDR), neon_ldx_stx), + nUF(vld4, _vld4, 2, (NSTRLST, ADDR), neon_ldx_stx), + nUF(vst4, _vst4, 2, (NSTRLST, ADDR), neon_ldx_stx), #undef THUMB_VARIANT #define THUMB_VARIANT & fpu_vfp_ext_v3 #undef ARM_VARIANT #define ARM_VARIANT & fpu_vfp_ext_v3 - cCE(fconsts, eb00a00, 2, (RVS, I255), vfp_sp_const), - cCE(fconstd, eb00b00, 2, (RVD, I255), vfp_dp_const), - cCE(fshtos, eba0a40, 2, (RVS, I16z), vfp_sp_conv_16), - cCE(fshtod, eba0b40, 2, (RVD, I16z), vfp_dp_conv_16), - cCE(fsltos, eba0ac0, 2, (RVS, I32), vfp_sp_conv_32), - cCE(fsltod, eba0bc0, 2, (RVD, I32), vfp_dp_conv_32), - cCE(fuhtos, ebb0a40, 2, (RVS, I16z), vfp_sp_conv_16), - cCE(fuhtod, ebb0b40, 2, (RVD, I16z), vfp_dp_conv_16), - cCE(fultos, ebb0ac0, 2, (RVS, I32), vfp_sp_conv_32), - cCE(fultod, ebb0bc0, 2, (RVD, I32), vfp_dp_conv_32), - cCE(ftoshs, ebe0a40, 2, (RVS, I16z), vfp_sp_conv_16), - cCE(ftoshd, ebe0b40, 2, (RVD, I16z), vfp_dp_conv_16), - cCE(ftosls, ebe0ac0, 2, (RVS, I32), vfp_sp_conv_32), - cCE(ftosld, ebe0bc0, 2, (RVD, I32), vfp_dp_conv_32), - cCE(ftouhs, ebf0a40, 2, (RVS, I16z), vfp_sp_conv_16), - cCE(ftouhd, ebf0b40, 2, (RVD, I16z), vfp_dp_conv_16), - cCE(ftouls, ebf0ac0, 2, (RVS, I32), vfp_sp_conv_32), - cCE(ftould, ebf0bc0, 2, (RVD, I32), vfp_dp_conv_32), + cCE("fconsts", eb00a00, 2, (RVS, I255), vfp_sp_const), + cCE("fconstd", eb00b00, 2, (RVD, I255), vfp_dp_const), + cCE("fshtos", eba0a40, 2, (RVS, I16z), vfp_sp_conv_16), + cCE("fshtod", eba0b40, 2, (RVD, I16z), vfp_dp_conv_16), + cCE("fsltos", eba0ac0, 2, (RVS, I32), vfp_sp_conv_32), + cCE("fsltod", eba0bc0, 2, (RVD, I32), vfp_dp_conv_32), + cCE("fuhtos", ebb0a40, 2, (RVS, I16z), vfp_sp_conv_16), + cCE("fuhtod", ebb0b40, 2, (RVD, I16z), vfp_dp_conv_16), + cCE("fultos", ebb0ac0, 2, (RVS, I32), vfp_sp_conv_32), + cCE("fultod", ebb0bc0, 2, (RVD, I32), vfp_dp_conv_32), + cCE("ftoshs", ebe0a40, 2, (RVS, I16z), vfp_sp_conv_16), + cCE("ftoshd", ebe0b40, 2, (RVD, I16z), vfp_dp_conv_16), + cCE("ftosls", ebe0ac0, 2, (RVS, I32), vfp_sp_conv_32), + cCE("ftosld", ebe0bc0, 2, (RVD, I32), vfp_dp_conv_32), + cCE("ftouhs", ebf0a40, 2, (RVS, I16z), vfp_sp_conv_16), + cCE("ftouhd", ebf0b40, 2, (RVD, I16z), vfp_dp_conv_16), + cCE("ftouls", ebf0ac0, 2, (RVS, I32), vfp_sp_conv_32), + cCE("ftould", ebf0bc0, 2, (RVD, I32), vfp_dp_conv_32), #undef THUMB_VARIANT #undef ARM_VARIANT #define ARM_VARIANT & arm_cext_xscale /* Intel XScale extensions. */ - cCE(mia, e200010, 3, (RXA, RRnpc, RRnpc), xsc_mia), - cCE(miaph, e280010, 3, (RXA, RRnpc, RRnpc), xsc_mia), - cCE(miabb, e2c0010, 3, (RXA, RRnpc, RRnpc), xsc_mia), - cCE(miabt, e2d0010, 3, (RXA, RRnpc, RRnpc), xsc_mia), - cCE(miatb, e2e0010, 3, (RXA, RRnpc, RRnpc), xsc_mia), - cCE(miatt, e2f0010, 3, (RXA, RRnpc, RRnpc), xsc_mia), - cCE(mar, c400000, 3, (RXA, RRnpc, RRnpc), xsc_mar), - cCE(mra, c500000, 3, (RRnpc, RRnpc, RXA), xsc_mra), + cCE("mia", e200010, 3, (RXA, RRnpc, RRnpc), xsc_mia), + cCE("miaph", e280010, 3, (RXA, RRnpc, RRnpc), xsc_mia), + cCE("miabb", e2c0010, 3, (RXA, RRnpc, RRnpc), xsc_mia), + cCE("miabt", e2d0010, 3, (RXA, RRnpc, RRnpc), xsc_mia), + cCE("miatb", e2e0010, 3, (RXA, RRnpc, RRnpc), xsc_mia), + cCE("miatt", e2f0010, 3, (RXA, RRnpc, RRnpc), xsc_mia), + cCE("mar", c400000, 3, (RXA, RRnpc, RRnpc), xsc_mar), + cCE("mra", c500000, 3, (RRnpc, RRnpc, RXA), xsc_mra), #undef ARM_VARIANT #define ARM_VARIANT & arm_cext_iwmmxt /* Intel Wireless MMX technology. */ - cCE(tandcb, e13f130, 1, (RR), iwmmxt_tandorc), - cCE(tandch, e53f130, 1, (RR), iwmmxt_tandorc), - cCE(tandcw, e93f130, 1, (RR), iwmmxt_tandorc), - cCE(tbcstb, e400010, 2, (RIWR, RR), rn_rd), - cCE(tbcsth, e400050, 2, (RIWR, RR), rn_rd), - cCE(tbcstw, e400090, 2, (RIWR, RR), rn_rd), - cCE(textrcb, e130170, 2, (RR, I7), iwmmxt_textrc), - cCE(textrch, e530170, 2, (RR, I7), iwmmxt_textrc), - cCE(textrcw, e930170, 2, (RR, I7), iwmmxt_textrc), - cCE(textrmub, e100070, 3, (RR, RIWR, I7), iwmmxt_textrm), - cCE(textrmuh, e500070, 3, (RR, RIWR, I7), iwmmxt_textrm), - cCE(textrmuw, e900070, 3, (RR, RIWR, I7), iwmmxt_textrm), - cCE(textrmsb, e100078, 3, (RR, RIWR, I7), iwmmxt_textrm), - cCE(textrmsh, e500078, 3, (RR, RIWR, I7), iwmmxt_textrm), - cCE(textrmsw, e900078, 3, (RR, RIWR, I7), iwmmxt_textrm), - cCE(tinsrb, e600010, 3, (RIWR, RR, I7), iwmmxt_tinsr), - cCE(tinsrh, e600050, 3, (RIWR, RR, I7), iwmmxt_tinsr), - cCE(tinsrw, e600090, 3, (RIWR, RR, I7), iwmmxt_tinsr), - cCE(tmcr, e000110, 2, (RIWC_RIWG, RR), rn_rd), - cCE(tmcrr, c400000, 3, (RIWR, RR, RR), rm_rd_rn), - cCE(tmia, e200010, 3, (RIWR, RR, RR), iwmmxt_tmia), - cCE(tmiaph, e280010, 3, (RIWR, RR, RR), iwmmxt_tmia), - cCE(tmiabb, e2c0010, 3, (RIWR, RR, RR), iwmmxt_tmia), - cCE(tmiabt, e2d0010, 3, (RIWR, RR, RR), iwmmxt_tmia), - cCE(tmiatb, e2e0010, 3, (RIWR, RR, RR), iwmmxt_tmia), - cCE(tmiatt, e2f0010, 3, (RIWR, RR, RR), iwmmxt_tmia), - cCE(tmovmskb, e100030, 2, (RR, RIWR), rd_rn), - cCE(tmovmskh, e500030, 2, (RR, RIWR), rd_rn), - cCE(tmovmskw, e900030, 2, (RR, RIWR), rd_rn), - cCE(tmrc, e100110, 2, (RR, RIWC_RIWG), rd_rn), - cCE(tmrrc, c500000, 3, (RR, RR, RIWR), rd_rn_rm), - cCE(torcb, e13f150, 1, (RR), iwmmxt_tandorc), - cCE(torch, e53f150, 1, (RR), iwmmxt_tandorc), - cCE(torcw, e93f150, 1, (RR), iwmmxt_tandorc), - cCE(waccb, e0001c0, 2, (RIWR, RIWR), rd_rn), - cCE(wacch, e4001c0, 2, (RIWR, RIWR), rd_rn), - cCE(waccw, e8001c0, 2, (RIWR, RIWR), rd_rn), - cCE(waddbss, e300180, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(waddb, e000180, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(waddbus, e100180, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(waddhss, e700180, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(waddh, e400180, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(waddhus, e500180, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(waddwss, eb00180, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(waddw, e800180, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(waddwus, e900180, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(waligni, e000020, 4, (RIWR, RIWR, RIWR, I7), iwmmxt_waligni), - cCE(walignr0, e800020, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(walignr1, e900020, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(walignr2, ea00020, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(walignr3, eb00020, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wand, e200000, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wandn, e300000, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wavg2b, e800000, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wavg2br, e900000, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wavg2h, ec00000, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wavg2hr, ed00000, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wcmpeqb, e000060, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wcmpeqh, e400060, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wcmpeqw, e800060, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wcmpgtub, e100060, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wcmpgtuh, e500060, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wcmpgtuw, e900060, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wcmpgtsb, e300060, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wcmpgtsh, e700060, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wcmpgtsw, eb00060, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wldrb, c100000, 2, (RIWR, ADDR), iwmmxt_wldstbh), - cCE(wldrh, c500000, 2, (RIWR, ADDR), iwmmxt_wldstbh), - cCE(wldrw, c100100, 2, (RIWR_RIWC, ADDR), iwmmxt_wldstw), - cCE(wldrd, c500100, 2, (RIWR, ADDR), iwmmxt_wldstd), - cCE(wmacs, e600100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmacsz, e700100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmacu, e400100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmacuz, e500100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmadds, ea00100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmaddu, e800100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmaxsb, e200160, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmaxsh, e600160, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmaxsw, ea00160, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmaxub, e000160, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmaxuh, e400160, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmaxuw, e800160, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wminsb, e300160, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wminsh, e700160, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wminsw, eb00160, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wminub, e100160, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wminuh, e500160, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wminuw, e900160, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmov, e000000, 2, (RIWR, RIWR), iwmmxt_wmov), - cCE(wmulsm, e300100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmulsl, e200100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmulum, e100100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmulul, e000100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wor, e000000, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wpackhss, e700080, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wpackhus, e500080, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wpackwss, eb00080, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wpackwus, e900080, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wpackdss, ef00080, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wpackdus, ed00080, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wrorh, e700040, 3, (RIWR, RIWR, RIWR_I32z),iwmmxt_wrwrwr_or_imm5), - cCE(wrorhg, e700148, 3, (RIWR, RIWR, RIWG), rd_rn_rm), - cCE(wrorw, eb00040, 3, (RIWR, RIWR, RIWR_I32z),iwmmxt_wrwrwr_or_imm5), - cCE(wrorwg, eb00148, 3, (RIWR, RIWR, RIWG), rd_rn_rm), - cCE(wrord, ef00040, 3, (RIWR, RIWR, RIWR_I32z),iwmmxt_wrwrwr_or_imm5), - cCE(wrordg, ef00148, 3, (RIWR, RIWR, RIWG), rd_rn_rm), - cCE(wsadb, e000120, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wsadbz, e100120, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wsadh, e400120, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wsadhz, e500120, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wshufh, e0001e0, 3, (RIWR, RIWR, I255), iwmmxt_wshufh), - cCE(wsllh, e500040, 3, (RIWR, RIWR, RIWR_I32z),iwmmxt_wrwrwr_or_imm5), - cCE(wsllhg, e500148, 3, (RIWR, RIWR, RIWG), rd_rn_rm), - cCE(wsllw, e900040, 3, (RIWR, RIWR, RIWR_I32z),iwmmxt_wrwrwr_or_imm5), - cCE(wsllwg, e900148, 3, (RIWR, RIWR, RIWG), rd_rn_rm), - cCE(wslld, ed00040, 3, (RIWR, RIWR, RIWR_I32z),iwmmxt_wrwrwr_or_imm5), - cCE(wslldg, ed00148, 3, (RIWR, RIWR, RIWG), rd_rn_rm), - cCE(wsrah, e400040, 3, (RIWR, RIWR, RIWR_I32z),iwmmxt_wrwrwr_or_imm5), - cCE(wsrahg, e400148, 3, (RIWR, RIWR, RIWG), rd_rn_rm), - cCE(wsraw, e800040, 3, (RIWR, RIWR, RIWR_I32z),iwmmxt_wrwrwr_or_imm5), - cCE(wsrawg, e800148, 3, (RIWR, RIWR, RIWG), rd_rn_rm), - cCE(wsrad, ec00040, 3, (RIWR, RIWR, RIWR_I32z),iwmmxt_wrwrwr_or_imm5), - cCE(wsradg, ec00148, 3, (RIWR, RIWR, RIWG), rd_rn_rm), - cCE(wsrlh, e600040, 3, (RIWR, RIWR, RIWR_I32z),iwmmxt_wrwrwr_or_imm5), - cCE(wsrlhg, e600148, 3, (RIWR, RIWR, RIWG), rd_rn_rm), - cCE(wsrlw, ea00040, 3, (RIWR, RIWR, RIWR_I32z),iwmmxt_wrwrwr_or_imm5), - cCE(wsrlwg, ea00148, 3, (RIWR, RIWR, RIWG), rd_rn_rm), - cCE(wsrld, ee00040, 3, (RIWR, RIWR, RIWR_I32z),iwmmxt_wrwrwr_or_imm5), - cCE(wsrldg, ee00148, 3, (RIWR, RIWR, RIWG), rd_rn_rm), - cCE(wstrb, c000000, 2, (RIWR, ADDR), iwmmxt_wldstbh), - cCE(wstrh, c400000, 2, (RIWR, ADDR), iwmmxt_wldstbh), - cCE(wstrw, c000100, 2, (RIWR_RIWC, ADDR), iwmmxt_wldstw), - cCE(wstrd, c400100, 2, (RIWR, ADDR), iwmmxt_wldstd), - cCE(wsubbss, e3001a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wsubb, e0001a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wsubbus, e1001a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wsubhss, e7001a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wsubh, e4001a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wsubhus, e5001a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wsubwss, eb001a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wsubw, e8001a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wsubwus, e9001a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wunpckehub,e0000c0, 2, (RIWR, RIWR), rd_rn), - cCE(wunpckehuh,e4000c0, 2, (RIWR, RIWR), rd_rn), - cCE(wunpckehuw,e8000c0, 2, (RIWR, RIWR), rd_rn), - cCE(wunpckehsb,e2000c0, 2, (RIWR, RIWR), rd_rn), - cCE(wunpckehsh,e6000c0, 2, (RIWR, RIWR), rd_rn), - cCE(wunpckehsw,ea000c0, 2, (RIWR, RIWR), rd_rn), - cCE(wunpckihb, e1000c0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wunpckihh, e5000c0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wunpckihw, e9000c0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wunpckelub,e0000e0, 2, (RIWR, RIWR), rd_rn), - cCE(wunpckeluh,e4000e0, 2, (RIWR, RIWR), rd_rn), - cCE(wunpckeluw,e8000e0, 2, (RIWR, RIWR), rd_rn), - cCE(wunpckelsb,e2000e0, 2, (RIWR, RIWR), rd_rn), - cCE(wunpckelsh,e6000e0, 2, (RIWR, RIWR), rd_rn), - cCE(wunpckelsw,ea000e0, 2, (RIWR, RIWR), rd_rn), - cCE(wunpckilb, e1000e0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wunpckilh, e5000e0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wunpckilw, e9000e0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wxor, e100000, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wzero, e300000, 1, (RIWR), iwmmxt_wzero), + cCE("tandcb", e13f130, 1, (RR), iwmmxt_tandorc), + cCE("tandch", e53f130, 1, (RR), iwmmxt_tandorc), + cCE("tandcw", e93f130, 1, (RR), iwmmxt_tandorc), + cCE("tbcstb", e400010, 2, (RIWR, RR), rn_rd), + cCE("tbcsth", e400050, 2, (RIWR, RR), rn_rd), + cCE("tbcstw", e400090, 2, (RIWR, RR), rn_rd), + cCE("textrcb", e130170, 2, (RR, I7), iwmmxt_textrc), + cCE("textrch", e530170, 2, (RR, I7), iwmmxt_textrc), + cCE("textrcw", e930170, 2, (RR, I7), iwmmxt_textrc), + cCE("textrmub", e100070, 3, (RR, RIWR, I7), iwmmxt_textrm), + cCE("textrmuh", e500070, 3, (RR, RIWR, I7), iwmmxt_textrm), + cCE("textrmuw", e900070, 3, (RR, RIWR, I7), iwmmxt_textrm), + cCE("textrmsb", e100078, 3, (RR, RIWR, I7), iwmmxt_textrm), + cCE("textrmsh", e500078, 3, (RR, RIWR, I7), iwmmxt_textrm), + cCE("textrmsw", e900078, 3, (RR, RIWR, I7), iwmmxt_textrm), + cCE("tinsrb", e600010, 3, (RIWR, RR, I7), iwmmxt_tinsr), + cCE("tinsrh", e600050, 3, (RIWR, RR, I7), iwmmxt_tinsr), + cCE("tinsrw", e600090, 3, (RIWR, RR, I7), iwmmxt_tinsr), + cCE("tmcr", e000110, 2, (RIWC_RIWG, RR), rn_rd), + cCE("tmcrr", c400000, 3, (RIWR, RR, RR), rm_rd_rn), + cCE("tmia", e200010, 3, (RIWR, RR, RR), iwmmxt_tmia), + cCE("tmiaph", e280010, 3, (RIWR, RR, RR), iwmmxt_tmia), + cCE("tmiabb", e2c0010, 3, (RIWR, RR, RR), iwmmxt_tmia), + cCE("tmiabt", e2d0010, 3, (RIWR, RR, RR), iwmmxt_tmia), + cCE("tmiatb", e2e0010, 3, (RIWR, RR, RR), iwmmxt_tmia), + cCE("tmiatt", e2f0010, 3, (RIWR, RR, RR), iwmmxt_tmia), + cCE("tmovmskb", e100030, 2, (RR, RIWR), rd_rn), + cCE("tmovmskh", e500030, 2, (RR, RIWR), rd_rn), + cCE("tmovmskw", e900030, 2, (RR, RIWR), rd_rn), + cCE("tmrc", e100110, 2, (RR, RIWC_RIWG), rd_rn), + cCE("tmrrc", c500000, 3, (RR, RR, RIWR), rd_rn_rm), + cCE("torcb", e13f150, 1, (RR), iwmmxt_tandorc), + cCE("torch", e53f150, 1, (RR), iwmmxt_tandorc), + cCE("torcw", e93f150, 1, (RR), iwmmxt_tandorc), + cCE("waccb", e0001c0, 2, (RIWR, RIWR), rd_rn), + cCE("wacch", e4001c0, 2, (RIWR, RIWR), rd_rn), + cCE("waccw", e8001c0, 2, (RIWR, RIWR), rd_rn), + cCE("waddbss", e300180, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("waddb", e000180, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("waddbus", e100180, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("waddhss", e700180, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("waddh", e400180, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("waddhus", e500180, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("waddwss", eb00180, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("waddw", e800180, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("waddwus", e900180, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("waligni", e000020, 4, (RIWR, RIWR, RIWR, I7), iwmmxt_waligni), + cCE("walignr0", e800020, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("walignr1", e900020, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("walignr2", ea00020, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("walignr3", eb00020, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wand", e200000, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wandn", e300000, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wavg2b", e800000, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wavg2br", e900000, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wavg2h", ec00000, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wavg2hr", ed00000, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wcmpeqb", e000060, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wcmpeqh", e400060, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wcmpeqw", e800060, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wcmpgtub", e100060, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wcmpgtuh", e500060, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wcmpgtuw", e900060, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wcmpgtsb", e300060, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wcmpgtsh", e700060, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wcmpgtsw", eb00060, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wldrb", c100000, 2, (RIWR, ADDR), iwmmxt_wldstbh), + cCE("wldrh", c500000, 2, (RIWR, ADDR), iwmmxt_wldstbh), + cCE("wldrw", c100100, 2, (RIWR_RIWC, ADDR), iwmmxt_wldstw), + cCE("wldrd", c500100, 2, (RIWR, ADDR), iwmmxt_wldstd), + cCE("wmacs", e600100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmacsz", e700100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmacu", e400100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmacuz", e500100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmadds", ea00100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmaddu", e800100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmaxsb", e200160, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmaxsh", e600160, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmaxsw", ea00160, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmaxub", e000160, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmaxuh", e400160, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmaxuw", e800160, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wminsb", e300160, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wminsh", e700160, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wminsw", eb00160, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wminub", e100160, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wminuh", e500160, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wminuw", e900160, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmov", e000000, 2, (RIWR, RIWR), iwmmxt_wmov), + cCE("wmulsm", e300100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmulsl", e200100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmulum", e100100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmulul", e000100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wor", e000000, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wpackhss", e700080, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wpackhus", e500080, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wpackwss", eb00080, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wpackwus", e900080, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wpackdss", ef00080, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wpackdus", ed00080, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wrorh", e700040, 3, (RIWR, RIWR, RIWR_I32z),iwmmxt_wrwrwr_or_imm5), + cCE("wrorhg", e700148, 3, (RIWR, RIWR, RIWG), rd_rn_rm), + cCE("wrorw", eb00040, 3, (RIWR, RIWR, RIWR_I32z),iwmmxt_wrwrwr_or_imm5), + cCE("wrorwg", eb00148, 3, (RIWR, RIWR, RIWG), rd_rn_rm), + cCE("wrord", ef00040, 3, (RIWR, RIWR, RIWR_I32z),iwmmxt_wrwrwr_or_imm5), + cCE("wrordg", ef00148, 3, (RIWR, RIWR, RIWG), rd_rn_rm), + cCE("wsadb", e000120, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wsadbz", e100120, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wsadh", e400120, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wsadhz", e500120, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wshufh", e0001e0, 3, (RIWR, RIWR, I255), iwmmxt_wshufh), + cCE("wsllh", e500040, 3, (RIWR, RIWR, RIWR_I32z),iwmmxt_wrwrwr_or_imm5), + cCE("wsllhg", e500148, 3, (RIWR, RIWR, RIWG), rd_rn_rm), + cCE("wsllw", e900040, 3, (RIWR, RIWR, RIWR_I32z),iwmmxt_wrwrwr_or_imm5), + cCE("wsllwg", e900148, 3, (RIWR, RIWR, RIWG), rd_rn_rm), + cCE("wslld", ed00040, 3, (RIWR, RIWR, RIWR_I32z),iwmmxt_wrwrwr_or_imm5), + cCE("wslldg", ed00148, 3, (RIWR, RIWR, RIWG), rd_rn_rm), + cCE("wsrah", e400040, 3, (RIWR, RIWR, RIWR_I32z),iwmmxt_wrwrwr_or_imm5), + cCE("wsrahg", e400148, 3, (RIWR, RIWR, RIWG), rd_rn_rm), + cCE("wsraw", e800040, 3, (RIWR, RIWR, RIWR_I32z),iwmmxt_wrwrwr_or_imm5), + cCE("wsrawg", e800148, 3, (RIWR, RIWR, RIWG), rd_rn_rm), + cCE("wsrad", ec00040, 3, (RIWR, RIWR, RIWR_I32z),iwmmxt_wrwrwr_or_imm5), + cCE("wsradg", ec00148, 3, (RIWR, RIWR, RIWG), rd_rn_rm), + cCE("wsrlh", e600040, 3, (RIWR, RIWR, RIWR_I32z),iwmmxt_wrwrwr_or_imm5), + cCE("wsrlhg", e600148, 3, (RIWR, RIWR, RIWG), rd_rn_rm), + cCE("wsrlw", ea00040, 3, (RIWR, RIWR, RIWR_I32z),iwmmxt_wrwrwr_or_imm5), + cCE("wsrlwg", ea00148, 3, (RIWR, RIWR, RIWG), rd_rn_rm), + cCE("wsrld", ee00040, 3, (RIWR, RIWR, RIWR_I32z),iwmmxt_wrwrwr_or_imm5), + cCE("wsrldg", ee00148, 3, (RIWR, RIWR, RIWG), rd_rn_rm), + cCE("wstrb", c000000, 2, (RIWR, ADDR), iwmmxt_wldstbh), + cCE("wstrh", c400000, 2, (RIWR, ADDR), iwmmxt_wldstbh), + cCE("wstrw", c000100, 2, (RIWR_RIWC, ADDR), iwmmxt_wldstw), + cCE("wstrd", c400100, 2, (RIWR, ADDR), iwmmxt_wldstd), + cCE("wsubbss", e3001a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wsubb", e0001a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wsubbus", e1001a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wsubhss", e7001a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wsubh", e4001a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wsubhus", e5001a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wsubwss", eb001a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wsubw", e8001a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wsubwus", e9001a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wunpckehub",e0000c0, 2, (RIWR, RIWR), rd_rn), + cCE("wunpckehuh",e4000c0, 2, (RIWR, RIWR), rd_rn), + cCE("wunpckehuw",e8000c0, 2, (RIWR, RIWR), rd_rn), + cCE("wunpckehsb",e2000c0, 2, (RIWR, RIWR), rd_rn), + cCE("wunpckehsh",e6000c0, 2, (RIWR, RIWR), rd_rn), + cCE("wunpckehsw",ea000c0, 2, (RIWR, RIWR), rd_rn), + cCE("wunpckihb", e1000c0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wunpckihh", e5000c0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wunpckihw", e9000c0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wunpckelub",e0000e0, 2, (RIWR, RIWR), rd_rn), + cCE("wunpckeluh",e4000e0, 2, (RIWR, RIWR), rd_rn), + cCE("wunpckeluw",e8000e0, 2, (RIWR, RIWR), rd_rn), + cCE("wunpckelsb",e2000e0, 2, (RIWR, RIWR), rd_rn), + cCE("wunpckelsh",e6000e0, 2, (RIWR, RIWR), rd_rn), + cCE("wunpckelsw",ea000e0, 2, (RIWR, RIWR), rd_rn), + cCE("wunpckilb", e1000e0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wunpckilh", e5000e0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wunpckilw", e9000e0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wxor", e100000, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wzero", e300000, 1, (RIWR), iwmmxt_wzero), #undef ARM_VARIANT #define ARM_VARIANT & arm_cext_iwmmxt2 /* Intel Wireless MMX technology, version 2. */ - cCE(torvscb, e12f190, 1, (RR), iwmmxt_tandorc), - cCE(torvsch, e52f190, 1, (RR), iwmmxt_tandorc), - cCE(torvscw, e92f190, 1, (RR), iwmmxt_tandorc), - cCE(wabsb, e2001c0, 2, (RIWR, RIWR), rd_rn), - cCE(wabsh, e6001c0, 2, (RIWR, RIWR), rd_rn), - cCE(wabsw, ea001c0, 2, (RIWR, RIWR), rd_rn), - cCE(wabsdiffb, e1001c0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wabsdiffh, e5001c0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wabsdiffw, e9001c0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(waddbhusl, e2001a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(waddbhusm, e6001a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(waddhc, e600180, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(waddwc, ea00180, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(waddsubhx, ea001a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wavg4, e400000, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wavg4r, e500000, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmaddsn, ee00100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmaddsx, eb00100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmaddun, ec00100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmaddux, e900100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmerge, e000080, 4, (RIWR, RIWR, RIWR, I7), iwmmxt_wmerge), - cCE(wmiabb, e0000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmiabt, e1000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmiatb, e2000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmiatt, e3000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmiabbn, e4000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmiabtn, e5000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmiatbn, e6000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmiattn, e7000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmiawbb, e800120, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmiawbt, e900120, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmiawtb, ea00120, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmiawtt, eb00120, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmiawbbn, ec00120, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmiawbtn, ed00120, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmiawtbn, ee00120, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmiawttn, ef00120, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmulsmr, ef00100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmulumr, ed00100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmulwumr, ec000c0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmulwsmr, ee000c0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmulwum, ed000c0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmulwsm, ef000c0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wmulwl, eb000c0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wqmiabb, e8000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wqmiabt, e9000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wqmiatb, ea000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wqmiatt, eb000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wqmiabbn, ec000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wqmiabtn, ed000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wqmiatbn, ee000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wqmiattn, ef000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wqmulm, e100080, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wqmulmr, e300080, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wqmulwm, ec000e0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wqmulwmr, ee000e0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), - cCE(wsubaddhx, ed001c0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("torvscb", e12f190, 1, (RR), iwmmxt_tandorc), + cCE("torvsch", e52f190, 1, (RR), iwmmxt_tandorc), + cCE("torvscw", e92f190, 1, (RR), iwmmxt_tandorc), + cCE("wabsb", e2001c0, 2, (RIWR, RIWR), rd_rn), + cCE("wabsh", e6001c0, 2, (RIWR, RIWR), rd_rn), + cCE("wabsw", ea001c0, 2, (RIWR, RIWR), rd_rn), + cCE("wabsdiffb", e1001c0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wabsdiffh", e5001c0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wabsdiffw", e9001c0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("waddbhusl", e2001a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("waddbhusm", e6001a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("waddhc", e600180, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("waddwc", ea00180, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("waddsubhx", ea001a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wavg4", e400000, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wavg4r", e500000, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmaddsn", ee00100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmaddsx", eb00100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmaddun", ec00100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmaddux", e900100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmerge", e000080, 4, (RIWR, RIWR, RIWR, I7), iwmmxt_wmerge), + cCE("wmiabb", e0000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmiabt", e1000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmiatb", e2000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmiatt", e3000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmiabbn", e4000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmiabtn", e5000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmiatbn", e6000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmiattn", e7000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmiawbb", e800120, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmiawbt", e900120, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmiawtb", ea00120, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmiawtt", eb00120, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmiawbbn", ec00120, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmiawbtn", ed00120, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmiawtbn", ee00120, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmiawttn", ef00120, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmulsmr", ef00100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmulumr", ed00100, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmulwumr", ec000c0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmulwsmr", ee000c0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmulwum", ed000c0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmulwsm", ef000c0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wmulwl", eb000c0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wqmiabb", e8000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wqmiabt", e9000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wqmiatb", ea000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wqmiatt", eb000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wqmiabbn", ec000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wqmiabtn", ed000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wqmiatbn", ee000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wqmiattn", ef000a0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wqmulm", e100080, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wqmulmr", e300080, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wqmulwm", ec000e0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wqmulwmr", ee000e0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), + cCE("wsubaddhx", ed001c0, 3, (RIWR, RIWR, RIWR), rd_rn_rm), #undef ARM_VARIANT #define ARM_VARIANT & arm_cext_maverick /* Cirrus Maverick instructions. */ - cCE(cfldrs, c100400, 2, (RMF, ADDRGLDC), rd_cpaddr), - cCE(cfldrd, c500400, 2, (RMD, ADDRGLDC), rd_cpaddr), - cCE(cfldr32, c100500, 2, (RMFX, ADDRGLDC), rd_cpaddr), - cCE(cfldr64, c500500, 2, (RMDX, ADDRGLDC), rd_cpaddr), - cCE(cfstrs, c000400, 2, (RMF, ADDRGLDC), rd_cpaddr), - cCE(cfstrd, c400400, 2, (RMD, ADDRGLDC), rd_cpaddr), - cCE(cfstr32, c000500, 2, (RMFX, ADDRGLDC), rd_cpaddr), - cCE(cfstr64, c400500, 2, (RMDX, ADDRGLDC), rd_cpaddr), - cCE(cfmvsr, e000450, 2, (RMF, RR), rn_rd), - cCE(cfmvrs, e100450, 2, (RR, RMF), rd_rn), - cCE(cfmvdlr, e000410, 2, (RMD, RR), rn_rd), - cCE(cfmvrdl, e100410, 2, (RR, RMD), rd_rn), - cCE(cfmvdhr, e000430, 2, (RMD, RR), rn_rd), - cCE(cfmvrdh, e100430, 2, (RR, RMD), rd_rn), - cCE(cfmv64lr, e000510, 2, (RMDX, RR), rn_rd), - cCE(cfmvr64l, e100510, 2, (RR, RMDX), rd_rn), - cCE(cfmv64hr, e000530, 2, (RMDX, RR), rn_rd), - cCE(cfmvr64h, e100530, 2, (RR, RMDX), rd_rn), - cCE(cfmval32, e200440, 2, (RMAX, RMFX), rd_rn), - cCE(cfmv32al, e100440, 2, (RMFX, RMAX), rd_rn), - cCE(cfmvam32, e200460, 2, (RMAX, RMFX), rd_rn), - cCE(cfmv32am, e100460, 2, (RMFX, RMAX), rd_rn), - cCE(cfmvah32, e200480, 2, (RMAX, RMFX), rd_rn), - cCE(cfmv32ah, e100480, 2, (RMFX, RMAX), rd_rn), - cCE(cfmva32, e2004a0, 2, (RMAX, RMFX), rd_rn), - cCE(cfmv32a, e1004a0, 2, (RMFX, RMAX), rd_rn), - cCE(cfmva64, e2004c0, 2, (RMAX, RMDX), rd_rn), - cCE(cfmv64a, e1004c0, 2, (RMDX, RMAX), rd_rn), - cCE(cfmvsc32, e2004e0, 2, (RMDS, RMDX), mav_dspsc), - cCE(cfmv32sc, e1004e0, 2, (RMDX, RMDS), rd), - cCE(cfcpys, e000400, 2, (RMF, RMF), rd_rn), - cCE(cfcpyd, e000420, 2, (RMD, RMD), rd_rn), - cCE(cfcvtsd, e000460, 2, (RMD, RMF), rd_rn), - cCE(cfcvtds, e000440, 2, (RMF, RMD), rd_rn), - cCE(cfcvt32s, e000480, 2, (RMF, RMFX), rd_rn), - cCE(cfcvt32d, e0004a0, 2, (RMD, RMFX), rd_rn), - cCE(cfcvt64s, e0004c0, 2, (RMF, RMDX), rd_rn), - cCE(cfcvt64d, e0004e0, 2, (RMD, RMDX), rd_rn), - cCE(cfcvts32, e100580, 2, (RMFX, RMF), rd_rn), - cCE(cfcvtd32, e1005a0, 2, (RMFX, RMD), rd_rn), - cCE(cftruncs32,e1005c0, 2, (RMFX, RMF), rd_rn), - cCE(cftruncd32,e1005e0, 2, (RMFX, RMD), rd_rn), - cCE(cfrshl32, e000550, 3, (RMFX, RMFX, RR), mav_triple), - cCE(cfrshl64, e000570, 3, (RMDX, RMDX, RR), mav_triple), - cCE(cfsh32, e000500, 3, (RMFX, RMFX, I63s), mav_shift), - cCE(cfsh64, e200500, 3, (RMDX, RMDX, I63s), mav_shift), - cCE(cfcmps, e100490, 3, (RR, RMF, RMF), rd_rn_rm), - cCE(cfcmpd, e1004b0, 3, (RR, RMD, RMD), rd_rn_rm), - cCE(cfcmp32, e100590, 3, (RR, RMFX, RMFX), rd_rn_rm), - cCE(cfcmp64, e1005b0, 3, (RR, RMDX, RMDX), rd_rn_rm), - cCE(cfabss, e300400, 2, (RMF, RMF), rd_rn), - cCE(cfabsd, e300420, 2, (RMD, RMD), rd_rn), - cCE(cfnegs, e300440, 2, (RMF, RMF), rd_rn), - cCE(cfnegd, e300460, 2, (RMD, RMD), rd_rn), - cCE(cfadds, e300480, 3, (RMF, RMF, RMF), rd_rn_rm), - cCE(cfaddd, e3004a0, 3, (RMD, RMD, RMD), rd_rn_rm), - cCE(cfsubs, e3004c0, 3, (RMF, RMF, RMF), rd_rn_rm), - cCE(cfsubd, e3004e0, 3, (RMD, RMD, RMD), rd_rn_rm), - cCE(cfmuls, e100400, 3, (RMF, RMF, RMF), rd_rn_rm), - cCE(cfmuld, e100420, 3, (RMD, RMD, RMD), rd_rn_rm), - cCE(cfabs32, e300500, 2, (RMFX, RMFX), rd_rn), - cCE(cfabs64, e300520, 2, (RMDX, RMDX), rd_rn), - cCE(cfneg32, e300540, 2, (RMFX, RMFX), rd_rn), - cCE(cfneg64, e300560, 2, (RMDX, RMDX), rd_rn), - cCE(cfadd32, e300580, 3, (RMFX, RMFX, RMFX), rd_rn_rm), - cCE(cfadd64, e3005a0, 3, (RMDX, RMDX, RMDX), rd_rn_rm), - cCE(cfsub32, e3005c0, 3, (RMFX, RMFX, RMFX), rd_rn_rm), - cCE(cfsub64, e3005e0, 3, (RMDX, RMDX, RMDX), rd_rn_rm), - cCE(cfmul32, e100500, 3, (RMFX, RMFX, RMFX), rd_rn_rm), - cCE(cfmul64, e100520, 3, (RMDX, RMDX, RMDX), rd_rn_rm), - cCE(cfmac32, e100540, 3, (RMFX, RMFX, RMFX), rd_rn_rm), - cCE(cfmsc32, e100560, 3, (RMFX, RMFX, RMFX), rd_rn_rm), - cCE(cfmadd32, e000600, 4, (RMAX, RMFX, RMFX, RMFX), mav_quad), - cCE(cfmsub32, e100600, 4, (RMAX, RMFX, RMFX, RMFX), mav_quad), - cCE(cfmadda32, e200600, 4, (RMAX, RMAX, RMFX, RMFX), mav_quad), - cCE(cfmsuba32, e300600, 4, (RMAX, RMAX, RMFX, RMFX), mav_quad), + cCE("cfldrs", c100400, 2, (RMF, ADDRGLDC), rd_cpaddr), + cCE("cfldrd", c500400, 2, (RMD, ADDRGLDC), rd_cpaddr), + cCE("cfldr32", c100500, 2, (RMFX, ADDRGLDC), rd_cpaddr), + cCE("cfldr64", c500500, 2, (RMDX, ADDRGLDC), rd_cpaddr), + cCE("cfstrs", c000400, 2, (RMF, ADDRGLDC), rd_cpaddr), + cCE("cfstrd", c400400, 2, (RMD, ADDRGLDC), rd_cpaddr), + cCE("cfstr32", c000500, 2, (RMFX, ADDRGLDC), rd_cpaddr), + cCE("cfstr64", c400500, 2, (RMDX, ADDRGLDC), rd_cpaddr), + cCE("cfmvsr", e000450, 2, (RMF, RR), rn_rd), + cCE("cfmvrs", e100450, 2, (RR, RMF), rd_rn), + cCE("cfmvdlr", e000410, 2, (RMD, RR), rn_rd), + cCE("cfmvrdl", e100410, 2, (RR, RMD), rd_rn), + cCE("cfmvdhr", e000430, 2, (RMD, RR), rn_rd), + cCE("cfmvrdh", e100430, 2, (RR, RMD), rd_rn), + cCE("cfmv64lr", e000510, 2, (RMDX, RR), rn_rd), + cCE("cfmvr64l", e100510, 2, (RR, RMDX), rd_rn), + cCE("cfmv64hr", e000530, 2, (RMDX, RR), rn_rd), + cCE("cfmvr64h", e100530, 2, (RR, RMDX), rd_rn), + cCE("cfmval32", e200440, 2, (RMAX, RMFX), rd_rn), + cCE("cfmv32al", e100440, 2, (RMFX, RMAX), rd_rn), + cCE("cfmvam32", e200460, 2, (RMAX, RMFX), rd_rn), + cCE("cfmv32am", e100460, 2, (RMFX, RMAX), rd_rn), + cCE("cfmvah32", e200480, 2, (RMAX, RMFX), rd_rn), + cCE("cfmv32ah", e100480, 2, (RMFX, RMAX), rd_rn), + cCE("cfmva32", e2004a0, 2, (RMAX, RMFX), rd_rn), + cCE("cfmv32a", e1004a0, 2, (RMFX, RMAX), rd_rn), + cCE("cfmva64", e2004c0, 2, (RMAX, RMDX), rd_rn), + cCE("cfmv64a", e1004c0, 2, (RMDX, RMAX), rd_rn), + cCE("cfmvsc32", e2004e0, 2, (RMDS, RMDX), mav_dspsc), + cCE("cfmv32sc", e1004e0, 2, (RMDX, RMDS), rd), + cCE("cfcpys", e000400, 2, (RMF, RMF), rd_rn), + cCE("cfcpyd", e000420, 2, (RMD, RMD), rd_rn), + cCE("cfcvtsd", e000460, 2, (RMD, RMF), rd_rn), + cCE("cfcvtds", e000440, 2, (RMF, RMD), rd_rn), + cCE("cfcvt32s", e000480, 2, (RMF, RMFX), rd_rn), + cCE("cfcvt32d", e0004a0, 2, (RMD, RMFX), rd_rn), + cCE("cfcvt64s", e0004c0, 2, (RMF, RMDX), rd_rn), + cCE("cfcvt64d", e0004e0, 2, (RMD, RMDX), rd_rn), + cCE("cfcvts32", e100580, 2, (RMFX, RMF), rd_rn), + cCE("cfcvtd32", e1005a0, 2, (RMFX, RMD), rd_rn), + cCE("cftruncs32",e1005c0, 2, (RMFX, RMF), rd_rn), + cCE("cftruncd32",e1005e0, 2, (RMFX, RMD), rd_rn), + cCE("cfrshl32", e000550, 3, (RMFX, RMFX, RR), mav_triple), + cCE("cfrshl64", e000570, 3, (RMDX, RMDX, RR), mav_triple), + cCE("cfsh32", e000500, 3, (RMFX, RMFX, I63s), mav_shift), + cCE("cfsh64", e200500, 3, (RMDX, RMDX, I63s), mav_shift), + cCE("cfcmps", e100490, 3, (RR, RMF, RMF), rd_rn_rm), + cCE("cfcmpd", e1004b0, 3, (RR, RMD, RMD), rd_rn_rm), + cCE("cfcmp32", e100590, 3, (RR, RMFX, RMFX), rd_rn_rm), + cCE("cfcmp64", e1005b0, 3, (RR, RMDX, RMDX), rd_rn_rm), + cCE("cfabss", e300400, 2, (RMF, RMF), rd_rn), + cCE("cfabsd", e300420, 2, (RMD, RMD), rd_rn), + cCE("cfnegs", e300440, 2, (RMF, RMF), rd_rn), + cCE("cfnegd", e300460, 2, (RMD, RMD), rd_rn), + cCE("cfadds", e300480, 3, (RMF, RMF, RMF), rd_rn_rm), + cCE("cfaddd", e3004a0, 3, (RMD, RMD, RMD), rd_rn_rm), + cCE("cfsubs", e3004c0, 3, (RMF, RMF, RMF), rd_rn_rm), + cCE("cfsubd", e3004e0, 3, (RMD, RMD, RMD), rd_rn_rm), + cCE("cfmuls", e100400, 3, (RMF, RMF, RMF), rd_rn_rm), + cCE("cfmuld", e100420, 3, (RMD, RMD, RMD), rd_rn_rm), + cCE("cfabs32", e300500, 2, (RMFX, RMFX), rd_rn), + cCE("cfabs64", e300520, 2, (RMDX, RMDX), rd_rn), + cCE("cfneg32", e300540, 2, (RMFX, RMFX), rd_rn), + cCE("cfneg64", e300560, 2, (RMDX, RMDX), rd_rn), + cCE("cfadd32", e300580, 3, (RMFX, RMFX, RMFX), rd_rn_rm), + cCE("cfadd64", e3005a0, 3, (RMDX, RMDX, RMDX), rd_rn_rm), + cCE("cfsub32", e3005c0, 3, (RMFX, RMFX, RMFX), rd_rn_rm), + cCE("cfsub64", e3005e0, 3, (RMDX, RMDX, RMDX), rd_rn_rm), + cCE("cfmul32", e100500, 3, (RMFX, RMFX, RMFX), rd_rn_rm), + cCE("cfmul64", e100520, 3, (RMDX, RMDX, RMDX), rd_rn_rm), + cCE("cfmac32", e100540, 3, (RMFX, RMFX, RMFX), rd_rn_rm), + cCE("cfmsc32", e100560, 3, (RMFX, RMFX, RMFX), rd_rn_rm), + cCE("cfmadd32", e000600, 4, (RMAX, RMFX, RMFX, RMFX), mav_quad), + cCE("cfmsub32", e100600, 4, (RMAX, RMFX, RMFX, RMFX), mav_quad), + cCE("cfmadda32", e200600, 4, (RMAX, RMAX, RMFX, RMFX), mav_quad), + cCE("cfmsuba32", e300600, 4, (RMAX, RMAX, RMFX, RMFX), mav_quad), }; #undef ARM_VARIANT #undef THUMB_VARIANT @@ -18115,7 +18129,7 @@ md_convert_frag (bfd *abfd, segT asec ATTRIBUTE_UNUSED, fragS *fragp) abort (); } fixp = fix_new_exp (fragp, fragp->fr_fix, fragp->fr_var, &exp, pc_rel, - reloc_type); + (enum bfd_reloc_code_real) reloc_type); fixp->fx_file = fragp->fr_file; fixp->fx_line = fragp->fr_line; fragp->fr_fix += fragp->fr_var; @@ -18617,10 +18631,10 @@ add_unwind_opcode (valueT op, int length) { unwind.opcode_alloc += ARM_OPCODE_CHUNK_SIZE; if (unwind.opcodes) - unwind.opcodes = xrealloc (unwind.opcodes, - unwind.opcode_alloc); + unwind.opcodes = (unsigned char *) xrealloc (unwind.opcodes, + unwind.opcode_alloc); else - unwind.opcodes = xmalloc (unwind.opcode_alloc); + unwind.opcodes = (unsigned char *) xmalloc (unwind.opcode_alloc); } while (length > 0) { @@ -18759,7 +18773,7 @@ start_unwind_section (const segT text_seg, int idx) prefix_len = strlen (prefix); text_len = strlen (text_name); sec_name_len = prefix_len + text_len; - sec_name = xmalloc (sec_name_len + 1); + sec_name = (char *) xmalloc (sec_name_len + 1); memcpy (sec_name, prefix, prefix_len); memcpy (sec_name + prefix_len, text_name, text_len); sec_name[prefix_len + text_len] = '\0'; @@ -20630,9 +20644,9 @@ tc_gen_reloc (asection *section, fixS *fixp) arelent * reloc; bfd_reloc_code_real_type code; - reloc = xmalloc (sizeof (arelent)); + reloc = (arelent *) xmalloc (sizeof (arelent)); - reloc->sym_ptr_ptr = xmalloc (sizeof (asymbol *)); + reloc->sym_ptr_ptr = (asymbol **) xmalloc (sizeof (asymbol *)); *reloc->sym_ptr_ptr = symbol_get_bfdsym (fixp->fx_addsy); reloc->address = fixp->fx_frag->fr_address + fixp->fx_where; @@ -22002,7 +22016,8 @@ struct arm_long_option_table static bfd_boolean arm_parse_extension (char * str, const arm_feature_set **opt_p) { - arm_feature_set *ext_set = xmalloc (sizeof (arm_feature_set)); + arm_feature_set *ext_set = (arm_feature_set *) + xmalloc (sizeof (arm_feature_set)); /* Copy the feature set, so that we can modify it. */ *ext_set = **opt_p; diff --git a/gas/ecoff.c b/gas/ecoff.c index 47c38fb..a3413ca 100644 --- a/gas/ecoff.c +++ b/gas/ecoff.c @@ -3323,7 +3323,7 @@ mark_stabs (int ignore ATTRIBUTE_UNUSED) { /* Add a dummy @stabs dymbol. */ stabs_seen = 1; - (void) add_ecoff_symbol (stabs_symbol, stNil, scInfo, + (void) add_ecoff_symbol (stabs_symbol, st_Nil, sc_Info, (symbolS *) NULL, (bfd_vma) 0, (symint_t) -1, ECOFF_MARK_STAB (0)); @@ -3616,7 +3616,7 @@ ecoff_add_bytes (char **buf, if (need < PAGE_SIZE) need = PAGE_SIZE; want = (*bufend - *buf) + need; - *buf = xrealloc (*buf, want); + *buf = (char *) xrealloc (*buf, want); *bufend = *buf + want; return *buf + at; } @@ -4129,7 +4129,7 @@ ecoff_build_symbols (const struct ecoff_debug_swap *backend, sym_ptr->ecoff_sym.asym.iss = begin_ptr->ecoff_sym.asym.iss; - begin_type = begin_ptr->ecoff_sym.asym.st; + begin_type = (st_t) begin_ptr->ecoff_sym.asym.st; if (begin_type == st_File || begin_type == st_Block) { @@ -4697,7 +4697,7 @@ ecoff_build_debug (HDRR *hdr, /* Build the symbolic information. */ offset = 0; - buf = xmalloc (PAGE_SIZE); + buf = (char *) xmalloc (PAGE_SIZE); bufend = buf + PAGE_SIZE; /* Build the line number information. */ diff --git a/ld/ChangeLog b/ld/ChangeLog index 7e8c310..f5c7438 100644 --- a/ld/ChangeLog +++ b/ld/ChangeLog @@ -1,3 +1,9 @@ +2009-09-25 Martin Thuresson <martint@google.com> + + Update soruces to make arm targets compile cleanly with + -Wc++-compat: + * emultempl/armelf.em: Add casts. + 2009-09-23 Matt Rice <ratmice@gmail.com> * emultempl/elf32.em (gld${EMULATION_NAME}_add_options): Add --audit, diff --git a/ld/emultempl/armelf.em b/ld/emultempl/armelf.em index b50a2a0..ea00b87 100644 --- a/ld/emultempl/armelf.em +++ b/ld/emultempl/armelf.em @@ -276,7 +276,8 @@ gld${EMULATION_NAME}_after_allocation (void) /* Build a sorted list of input text sections, then use that to process the unwind table index. */ unsigned int list_size = 10; - asection **sec_list = xmalloc (list_size * sizeof (asection *)); + asection **sec_list = (asection **) + xmalloc (list_size * sizeof (asection *)); unsigned int sec_count = 0; LANG_FOR_EACH_INPUT_STATEMENT (is) @@ -302,8 +303,8 @@ gld${EMULATION_NAME}_after_allocation (void) if (sec_count == list_size) { list_size *= 2; - sec_list = xrealloc (sec_list, - list_size * sizeof (asection *)); + sec_list = (asection **) + xrealloc (sec_list, list_size * sizeof (asection *)); } sec_list[sec_count++] = sec; diff --git a/opcodes/ChangeLog b/opcodes/ChangeLog index c3213bb..7a786ff 100644 --- a/opcodes/ChangeLog +++ b/opcodes/ChangeLog @@ -1,3 +1,12 @@ +2009-09-25 Martin Thuresson <martint@google.com> + + Update soruces to make arc and arm targets compile cleanly with + -Wc++-compat: + * arc-dis.c Fix casts. + * arc-ext.c: Add casts. + * arm-dis.c (enum opcode_sentinel_enum): Gave name to anonymous + enum. + 2009-09-24 H.J. Lu <hongjiu.lu@intel.com> * i386-gen.c (opcode_modifiers): Remove Vex256. diff --git a/opcodes/arc-dis.c b/opcodes/arc-dis.c index b5eb8a5..ba67454 100644 --- a/opcodes/arc-dis.c +++ b/opcodes/arc-dis.c @@ -1,5 +1,5 @@ /* Instruction printing code for the ARC. - Copyright 1994, 1995, 1997, 1998, 2000, 2001, 2002, 2005, 2007 + Copyright 1994, 1995, 1997, 1998, 2000, 2001, 2002, 2005, 2007, 2009 Free Software Foundation, Inc. Contributed by Doug Evans (dje@cygnus.com). @@ -1201,7 +1201,7 @@ decodeInstr (bfd_vma address, /* Address of this instruction. */ s.instName = _instName; /* Disassemble. */ - bytes = dsmOneArcInst (address, (void *)& s); + bytes = dsmOneArcInst (address, & s); /* Display the disassembly instruction. */ (*func) (stream, "%08lx ", s.words[0]); @@ -1228,6 +1228,6 @@ disassembler_ftype arc_get_disassembler (void *ptr) { if (ptr) - build_ARC_extmap (ptr); + build_ARC_extmap ((struct bfd *) ptr); return decodeInstr; } diff --git a/opcodes/arc-ext.c b/opcodes/arc-ext.c index 1e6c1f8..376cd031 100644 --- a/opcodes/arc-ext.c +++ b/opcodes/arc-ext.c @@ -1,5 +1,5 @@ /* ARC target-dependent stuff. Extension structure access functions - Copyright 1995, 1997, 2000, 2001, 2004, 2005, 2007 + Copyright 1995, 1997, 2000, 2001, 2004, 2005, 2007, 2009 Free Software Foundation, Inc. This file is part of libopcodes. @@ -148,8 +148,8 @@ cleanup_ext_map(void) int arcExtMap_add(void *base, unsigned long length) { - unsigned char *block = base; - unsigned char *p = block; + unsigned char *block = (unsigned char *) base; + unsigned char *p = (unsigned char *) block; /* Clean up and reset everything if needed. */ cleanup_ext_map(); diff --git a/opcodes/arm-dis.c b/opcodes/arm-dis.c index ef1f03f..3cbdf9e 100644 --- a/opcodes/arm-dis.c +++ b/opcodes/arm-dis.c @@ -106,7 +106,7 @@ struct opcode16 (print "32" when 0) %r print register offset address for wldt/wstr instruction. */ -enum +enum opcode_sentinel_enum { SENTINEL_IWMMXT_START = 1, SENTINEL_IWMMXT_END, |