mirror of
https://git.code.sf.net/p/quake/quakeforge
synced 2024-11-29 23:52:22 +00:00
cdd8739577
Makes it easier to check operand base indices and temporary variable addresses when known.
535 lines
14 KiB
C
535 lines
14 KiB
C
/*
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opcodes.c
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opcode searching
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Copyright (C) 2002 Bill Currie <bill@taniwha.org>
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Author: Bill Currie <bill@taniwha.org>
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Date: 2002/06/01
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This program is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public License
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as published by the Free Software Foundation; either version 2
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of the License, or (at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
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See the GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to:
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Free Software Foundation, Inc.
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59 Temple Place - Suite 330
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Boston, MA 02111-1307, USA
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*/
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#ifdef HAVE_CONFIG_H
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# include "config.h"
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#endif
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#ifdef HAVE_STRING_H
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# include <string.h>
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#endif
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#ifdef HAVE_STRINGS_H
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# include <strings.h>
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#endif
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#include <stdlib.h>
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#include <QF/hash.h>
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#include "tools/qfcc/include/diagnostic.h"
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#include "tools/qfcc/include/opcodes.h"
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#include "tools/qfcc/include/options.h"
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#include "tools/qfcc/include/qfcc.h"
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#include "tools/qfcc/include/statements.h"
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#include "tools/qfcc/include/type.h"
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typedef struct v6p_uint_opcode_s {
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pr_opcode_v6p_e op;
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v6p_opcode_t opcode;
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} v6p_uint_opcode_t;
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static v6p_uint_opcode_t v6p_uint_opcodes[] = {
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{OP_LOAD_I_v6p, {"load", "load.i", ev_entity, ev_field, ev_uint }},
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{OP_LOADBI_I_v6p, {"load", "loadbi.i", ev_ptr, ev_short, ev_uint }},
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{OP_ADDRESS_I_v6p, {"lea", "address.i",ev_uint, ev_invalid, ev_ptr }},
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{OP_STORE_I_v6p, {"assign", "store.i", ev_uint, ev_uint, ev_invalid }},
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{OP_STOREP_I_v6p, {"store", "storep.i", ev_uint, ev_ptr, ev_invalid }},
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{OP_STOREB_I_v6p, {"store", "storeb.i", ev_uint, ev_ptr, ev_int }},
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{OP_STOREBI_I_v6p, {"store", "storebi.i",ev_uint, ev_ptr, ev_short }},
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{OP_IF_v6p, {"ifnz", "if", ev_uint, ev_short, ev_invalid }},
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{OP_IFNOT_v6p, {"ifz", "ifnot", ev_uint, ev_short, ev_invalid }},
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{OP_ADD_I_v6p, {"add", "add.i", ev_uint, ev_uint, ev_uint }},
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{OP_SUB_I_v6p, {"sub", "sub.i", ev_uint, ev_uint, ev_uint }},
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{OP_MUL_I_v6p, {"mul", "mul.i", ev_uint, ev_uint, ev_uint }},
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{OP_DIV_I_v6p, {"div", "div.i", ev_uint, ev_uint, ev_uint }},
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{OP_BITAND_I_v6p, {"bitand", "bitand.i", ev_uint, ev_uint, ev_uint }},
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{OP_BITOR_I_v6p, {"bitor", "bitor.i", ev_uint, ev_uint, ev_uint }},
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{OP_BITXOR_I_v6p, {"bitxor", "bitxor.i", ev_uint, ev_uint, ev_uint }},
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{OP_REM_I_v6p, {"rem", "rem.i", ev_uint, ev_uint, ev_uint }},
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{OP_MOD_I_v6p, {"mod", "mod.i", ev_uint, ev_uint, ev_uint }},
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{OP_SHL_I_v6p, {"shl", "shl.i", ev_uint, ev_uint, ev_uint }},
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{OP_BITNOT_I_v6p, {"bitnot", "bitnot.i", ev_uint, ev_invalid, ev_int }},
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{}
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};
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static hashtab_t *v6p_opcode_type_table;
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static hashtab_t *v6p_opcode_void_table;
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static hashtab_t *v6p_opcode_uint_table;
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static v6p_opcode_t *v6p_opcode_map;
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static hashtab_t *rua_opcode_type_table;
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static hashtab_t *rua_opcode_void_table;
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#define ROTL(x,n) ((((unsigned)(x))<<(n))|((unsigned)(x))>>(32-n))
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static uintptr_t
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v6p_get_hash (const void *_op, void *_tab)
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{
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v6p_opcode_t *op = (v6p_opcode_t *) _op;
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uintptr_t hash;
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hash = ROTL (~op->type_a, 8) + ROTL (~op->type_b, 16)
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+ ROTL (~op->type_c, 24);
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return hash + Hash_String (op->name);
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}
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static int
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v6p_compare (const void *_opa, const void *_opb, void *unused)
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{
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v6p_opcode_t *opa = (v6p_opcode_t *) _opa;
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v6p_opcode_t *opb = (v6p_opcode_t *) _opb;
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int cmp;
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cmp = (opa->type_a == opb->type_a)
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&& (opa->type_b == opb->type_b)
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&& (opa->type_c == opb->type_c);
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return cmp && !strcmp (opa->name, opb->name);
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}
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static const char *
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v6p_get_key (const void *op, void *unused)
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{
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return ((v6p_opcode_t *) op)->name;
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}
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static uintptr_t
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v6p_uint_get_hash (const void *_op, void *_tab)
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{
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__auto_type uint_op = (v6p_uint_opcode_t *) _op;
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return v6p_get_hash (&uint_op->opcode, _tab);
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}
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static int
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v6p_uint_compare (const void *_opa, const void *_opb, void *data)
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{
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__auto_type uint_opa = (v6p_uint_opcode_t *) _opa;
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__auto_type uint_opb = (v6p_uint_opcode_t *) _opb;
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return v6p_compare (&uint_opa->opcode, &uint_opb->opcode, data);
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}
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static uintptr_t
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rua_get_hash (const void *_op, void *_tab)
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{
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opcode_t *op = (opcode_t *) _op;
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uintptr_t hash;
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hash = ROTL (~op->types[0], 8) + ROTL (~op->types[1], 16)
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+ ROTL (~op->types[2], 24);
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hash += ROTL (~op->widths[0], 12) + ROTL (~op->widths[1], 20)
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+ ROTL (~op->widths[2], 28);
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return hash + Hash_String (op->opname);
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}
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static int
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rua_compare (const void *_opa, const void *_opb, void *unused)
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{
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opcode_t *opa = (opcode_t *) _opa;
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opcode_t *opb = (opcode_t *) _opb;
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int cmp;
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cmp = (opa->types[0] == opb->types[0])
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&& (opa->types[1] == opb->types[1])
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&& (opa->types[2] == opb->types[2]);
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cmp &= (opa->widths[0] == opb->widths[0])
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&& (opa->widths[1] == opb->widths[1])
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&& (opa->widths[2] == opb->widths[2]);
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return cmp && !strcmp (opa->opname, opb->opname);
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}
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static const char *
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rua_get_key (const void *op, void *unused)
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{
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return ((opcode_t *) op)->opname;
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}
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static int
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check_operand_type (etype_t ot1, etype_t ot2)
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{
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if ((ot1 == ev_void && ot2 != ev_invalid)
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|| ot1 == ot2)
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return 1;
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return 0;
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}
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static int
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check_operand_width (int ow1, int ow2)
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{
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return (ow1 == -1 || ow1 == ow2);
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}
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pr_ushort_t
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opcode_get (instruction_t *op)
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{
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if (options.code.progsversion < PROG_VERSION) {
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return (v6p_opcode_t *) op - v6p_opcode_map;
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} else {
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return (opcode_t *) op - pr_opcodes;
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}
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}
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static v6p_opcode_t *
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v6p_opcode_find (const char *name, operand_t *op_a, operand_t *op_b,
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operand_t *op_c)
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{
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v6p_uint_opcode_t search_op = {
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.opcode = {
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.name = name,
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.type_a = op_a ? low_level_type (op_a->type) : ev_invalid,
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.type_b = op_b ? low_level_type (op_b->type) : ev_invalid,
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.type_c = op_c ? low_level_type (op_c->type) : ev_invalid,
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},
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};
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v6p_uint_opcode_t *uint_op;
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v6p_opcode_t *op;
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v6p_opcode_t *sop;
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void **op_list;
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int i;
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uint_op = Hash_FindElement (v6p_opcode_uint_table, &search_op);
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if (uint_op) {
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return v6p_opcode_map + uint_op->op;
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}
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op = Hash_FindElement (v6p_opcode_type_table, &search_op.opcode);
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if (op)
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return op;
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op_list = Hash_FindList (v6p_opcode_void_table, name);
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if (!op_list)
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return op;
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for (i = 0; !op && op_list[i]; i++) {
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sop = op_list[i];
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if (check_operand_type (sop->type_a, search_op.opcode.type_a)
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&& check_operand_type (sop->type_b, search_op.opcode.type_b)
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&& check_operand_type (sop->type_c, search_op.opcode.type_c))
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op = sop;
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}
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free (op_list);
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return op;
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}
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static const char *unsigned_demote_ops[] = {
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"add",
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"bitand",
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"bitnot",
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"bitor",
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"bitxor",
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"eq",
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"ifnz",
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"ifz",
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"mul",
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"ne",
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"sub",
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};
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static int
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ud_compare (const void *_a, const void *_b)
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{
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const char *a = _a;
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const char *b = *(const char **)_b;
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return strcmp (a, b);
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}
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static etype_t __attribute__((pure))
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operand_type (const operand_t *op, const char *name)
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{
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if (!op) {
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return ev_invalid;
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}
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etype_t type = low_level_type (op->type);
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if (type == ev_vector || type == ev_quaternion) {
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return ev_float;
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}
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if (type == ev_uint || type == ev_ulong) {
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if (bsearch (name, unsigned_demote_ops,
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sizeof (unsigned_demote_ops)
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/ sizeof (unsigned_demote_ops[0]),
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sizeof (unsigned_demote_ops[0]),
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ud_compare)) {
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if (type == ev_uint) {
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type = ev_int;
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}
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if (type == ev_ulong) {
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type = ev_long;
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}
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}
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}
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return type;
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}
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static int
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operand_width (const char *opname, operand_t *op)
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{
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if (!op) {
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return 0;
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}
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etype_t type = low_level_type (op->type);
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if (type == ev_vector) {
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return 3;
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}
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if (type == ev_quaternion) {
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return 4;
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}
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// FIXME see FIXME in rua_opcode_find
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if ((type == ev_long || type == ev_ulong || type == ev_double)
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&& (!strcmp (opname, "load") || !strcmp (opname, "store")
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|| !strcmp (opname, "assign"))) {
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if (op->width < 3) {
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return op->width * 2;
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}
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}
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return op->width;
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}
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#if 0
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if (!strcmp (name, "swizzle")) {
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adjust_swizzle_op (&search_op, 0);
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adjust_swizzle_op (&search_op, 2);
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}
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static void
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adjust_swizzle_op (opcode_t *op, int opind)
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{
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// swizzle instructions require both operands to be 4 components (4 or 8
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// words) in size with the same alignment.
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op->widths[opind] = 4;
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if (pr_type_size[op->types[opind]] == 1) {
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op->types[opind] = ev_float;
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} else if (pr_type_size[op->types[opind]] == 2) {
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op->types[opind] = ev_double;
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} else {
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internal_error (0, "unexpected swizzle op size");
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}
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}
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#endif
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static opcode_t *
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rua_opcode_find (const char *name, operand_t *op_a, operand_t *op_b,
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operand_t *op_c)
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{
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// FIXME this is a bit of an ugly hack to map 64-bit load and store/assign
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// instructions: 1 and 2 component instructions become 2 and 4 components
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// using the 32-bit instructions, while 3 and 4 remain unchanged but use
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// the 64-bit versions of the instructs (of which there are only 3 and 4
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// component versions). That bit of fun can't be helped without wasting a
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// lot of instructions, but this mapping scheme leaves a lot to be desired.
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const char *opname_a = "";
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const char *opname_c = "";
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etype_t type;
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if ((!strcmp (name, "load") || !strcmp (name, "store")
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|| !strcmp (name, "assign"))
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&& ((type = low_level_type (op_c->type)) == ev_long
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|| type == ev_ulong || type == ev_double)) {
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opname_c = name;
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if (!strcmp (name, "assign")) {
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opname_a = name;
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if (op_c->width > 2) {
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name = "assign64";
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}
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}
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if (!strcmp (name, "load")) {
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if (op_c->width > 2) {
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name = "load64";
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}
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}
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if (!strcmp (name, "store")) {
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if (op_c->width > 2) {
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name = "store64";
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}
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}
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}
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opcode_t search_op = {
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.opname = name,
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.types = {
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operand_type (op_a, name),
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operand_type (op_b, name),
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operand_type (op_c, name),
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},
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.widths = {
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operand_width (opname_a, op_a),
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operand_width ("", op_b),
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operand_width (opname_c, op_c),
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},
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};
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opcode_t *op;
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opcode_t *sop;
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void **op_list;
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int i;
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#if 0
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printf ("%s [%s %d] [%s %d] [%s %d]\n", search_op.opname,
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pr_type_name[search_op.types[0]], search_op.widths[0],
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pr_type_name[search_op.types[1]], search_op.widths[1],
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pr_type_name[search_op.types[2]], search_op.widths[2]);
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#endif
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op = Hash_FindElement (rua_opcode_type_table, &search_op);
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if (op)
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return op;
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op_list = Hash_FindList (rua_opcode_void_table, name);
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if (!op_list)
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return op;
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for (i = 0; !op && op_list[i]; i++) {
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sop = op_list[i];
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if (!(check_operand_type (sop->types[0], search_op.types[0])
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&& check_operand_type (sop->types[1], search_op.types[1])
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&& check_operand_type (sop->types[2], search_op.types[2]))) {
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continue;
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}
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if (!(check_operand_width (sop->widths[0], search_op.widths[0])
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&& check_operand_width (sop->widths[1], search_op.widths[1])
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&& check_operand_width (sop->widths[2], search_op.widths[2]))) {
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#if 0
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printf ("%s [%s %d] [%s %d] [%s %d]\n", sop->opname,
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pr_type_name[sop->types[0]], sop->widths[0],
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pr_type_name[sop->types[1]], sop->widths[1],
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pr_type_name[sop->types[2]], sop->widths[2]);
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#endif
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continue;
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}
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op = sop;
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}
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free (op_list);
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return op;
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}
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instruction_t *
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opcode_find (const char *name, operand_t *op_a, operand_t *op_b,
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operand_t *op_c)
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{
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if (options.code.progsversion < PROG_VERSION) {
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return (instruction_t *) v6p_opcode_find (name, op_a, op_b, op_c);
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} else {
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return (instruction_t *) rua_opcode_find (name, op_a, op_b, op_c);
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}
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}
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static void
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v6p_opcode_init (void)
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{
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const v6p_opcode_t *op;
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v6p_opcode_t *mop;
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if (v6p_opcode_type_table) {
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Hash_FlushTable (v6p_opcode_void_table);
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Hash_FlushTable (v6p_opcode_type_table);
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Hash_FlushTable (v6p_opcode_uint_table);
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} else {
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v6p_opcode_type_table = Hash_NewTable (1021, 0, 0, 0, 0);
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Hash_SetHashCompare (v6p_opcode_type_table, v6p_get_hash, v6p_compare);
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v6p_opcode_void_table = Hash_NewTable (1021, v6p_get_key, 0, 0, 0);
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v6p_opcode_uint_table = Hash_NewTable (1021, 0, 0, 0, 0);
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Hash_SetHashCompare (v6p_opcode_uint_table,
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v6p_uint_get_hash, v6p_uint_compare);
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}
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int num_opcodes = 0;
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for (op = pr_v6p_opcodes; op->name; op++) {
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num_opcodes++;
|
|
}
|
|
if (!v6p_opcode_map) {
|
|
v6p_opcode_map = calloc (num_opcodes, sizeof (v6p_opcode_t));
|
|
}
|
|
for (int i = 0; i < num_opcodes; i++) {
|
|
op = pr_v6p_opcodes + i;
|
|
if (op->min_version > options.code.progsversion)
|
|
continue;
|
|
mop = v6p_opcode_map + i;
|
|
*mop = *op;
|
|
if (options.code.progsversion == PROG_ID_VERSION) {
|
|
// v6 progs have no concept of integer, but the QF engine
|
|
// treats the operands of certain operands as integers
|
|
// irrespective the progs version, so convert the engine's
|
|
// view of the operands to the prog's view.
|
|
if (mop->type_a == ev_int)
|
|
mop->type_a = ev_float;
|
|
if (mop->type_b == ev_int)
|
|
mop->type_b = ev_float;
|
|
if (mop->type_c == ev_int)
|
|
mop->type_c = ev_float;
|
|
}
|
|
Hash_AddElement (v6p_opcode_type_table, mop);
|
|
if (mop->type_a == ev_void || mop->type_b == ev_void
|
|
|| mop->type_c == ev_void)
|
|
Hash_Add (v6p_opcode_void_table, mop);
|
|
}
|
|
if (options.code.progsversion != PROG_ID_VERSION) {
|
|
for (__auto_type uiop = &v6p_uint_opcodes[0]; uiop->op; uiop++) {
|
|
Hash_AddElement (v6p_opcode_uint_table, uiop);
|
|
}
|
|
}
|
|
}
|
|
|
|
static void
|
|
rua_opcode_init (void)
|
|
{
|
|
if (rua_opcode_type_table) {
|
|
return;
|
|
}
|
|
|
|
rua_opcode_type_table = Hash_NewTable (1021, 0, 0, 0, 0);
|
|
Hash_SetHashCompare (rua_opcode_type_table, rua_get_hash, rua_compare);
|
|
rua_opcode_void_table = Hash_NewTable (1021, rua_get_key, 0, 0, 0);
|
|
|
|
int num_opcodes = sizeof (pr_opcodes) / sizeof (pr_opcodes[0]);
|
|
for (int i = 0; i < num_opcodes; i++) {
|
|
const opcode_t *op = pr_opcodes + i;
|
|
if (!op->opname) {
|
|
continue;
|
|
}
|
|
Hash_AddElement (rua_opcode_type_table, (opcode_t *) op);
|
|
if (op->types[0] == ev_void || op->types[1] == ev_void
|
|
|| op->types[2] == ev_void) {
|
|
Hash_Add (rua_opcode_void_table, (opcode_t *) op);
|
|
}
|
|
}
|
|
}
|
|
|
|
void
|
|
opcode_init (void)
|
|
{
|
|
if (options.code.progsversion < PROG_VERSION) {
|
|
v6p_opcode_init ();
|
|
} else {
|
|
rua_opcode_init ();
|
|
}
|
|
}
|
|
|
|
void
|
|
opcode_print_statement (pr_uint_t addr, dstatement_t *st)
|
|
{
|
|
const char *mnemonic;
|
|
// this is ok because v6p has < 300 instructions
|
|
int st_op = st->op & 0x1ff;
|
|
|
|
if (options.code.progsversion < PROG_VERSION) {
|
|
mnemonic = v6p_opcode_map[st_op].opname;
|
|
} else {
|
|
mnemonic = pr_opcodes[st_op].mnemonic;
|
|
}
|
|
printf ("%04x (%03x)%-8s %d:%04x %d:%04x %d:%04x\n",
|
|
addr, st_op & 0x1ff, mnemonic,
|
|
(st->op & OP_A_BASE) >> OP_A_SHIFT, st->a,
|
|
(st->op & OP_B_BASE) >> OP_B_SHIFT, st->b,
|
|
(st->op & OP_C_BASE) >> OP_C_SHIFT, st->c);
|
|
}
|