2 * This is the main ia32 firm backend driver.
20 #include <libcore/lc_opts.h>
21 #include <libcore/lc_opts_enum.h>
22 #endif /* WITH_LIBCORE */
24 #include "pseudo_irg.h"
28 #include "iredges_t.h"
36 #include "../beabi.h" /* the general register allocator interface */
37 #include "../benode_t.h"
38 #include "../belower.h"
39 #include "../besched_t.h"
41 #include "bearch_ia32_t.h"
43 #include "ia32_new_nodes.h" /* ia32 nodes interface */
44 #include "gen_ia32_regalloc_if.h" /* the generated interface (register type and class defenitions) */
45 #include "ia32_gen_decls.h" /* interface declaration emitter */
46 #include "ia32_transform.h"
47 #include "ia32_emitter.h"
48 #include "ia32_map_regs.h"
49 #include "ia32_optimize.h"
51 #include "ia32_dbg_stat.h"
53 #define DEBUG_MODULE "firm.be.ia32.isa"
56 static set *cur_reg_set = NULL;
59 #define is_Start(irn) (get_irn_opcode(irn) == iro_Start)
61 /* Creates the unique per irg GP NoReg node. */
62 ir_node *ia32_new_NoReg_gp(ia32_code_gen_t *cg) {
63 return be_abi_get_callee_save_irn(cg->birg->abi, &ia32_gp_regs[REG_GP_NOREG]);
66 /* Creates the unique per irg FP NoReg node. */
67 ir_node *ia32_new_NoReg_fp(ia32_code_gen_t *cg) {
68 return be_abi_get_callee_save_irn(cg->birg->abi,
69 USE_SSE2(cg) ? &ia32_xmm_regs[REG_XMM_NOREG] : &ia32_vfp_regs[REG_VFP_NOREG]);
72 /**************************************************
75 * _ __ ___ __ _ __ _| | | ___ ___ _| |_
76 * | '__/ _ \/ _` | / _` | | |/ _ \ / __| | | _|
77 * | | | __/ (_| | | (_| | | | (_) | (__ | | |
78 * |_| \___|\__, | \__,_|_|_|\___/ \___| |_|_|
81 **************************************************/
83 static ir_node *my_skip_proj(const ir_node *n) {
91 * Return register requirements for an ia32 node.
92 * If the node returns a tuple (mode_T) then the proj's
93 * will be asked for this information.
95 static const arch_register_req_t *ia32_get_irn_reg_req(const void *self, arch_register_req_t *req, const ir_node *irn, int pos) {
96 const ia32_irn_ops_t *ops = self;
97 const ia32_register_req_t *irn_req;
98 long node_pos = pos == -1 ? 0 : pos;
99 ir_mode *mode = is_Block(irn) ? NULL : get_irn_mode(irn);
100 FIRM_DBG_REGISTER(firm_dbg_module_t *mod, DEBUG_MODULE);
102 if (is_Block(irn) || mode == mode_M || mode == mode_X) {
103 DBG((mod, LEVEL_1, "ignoring Block, mode_M, mode_X node %+F\n", irn));
107 if (mode == mode_T && pos < 0) {
108 DBG((mod, LEVEL_1, "ignoring request OUT requirements for node %+F\n", irn));
112 DBG((mod, LEVEL_1, "get requirements at pos %d for %+F ... ", pos, irn));
116 node_pos = ia32_translate_proj_pos(irn);
122 irn = my_skip_proj(irn);
124 DB((mod, LEVEL_1, "skipping Proj, going to %+F at pos %d ... ", irn, node_pos));
127 if (is_ia32_irn(irn)) {
129 irn_req = get_ia32_in_req(irn, pos);
132 irn_req = get_ia32_out_req(irn, node_pos);
135 DB((mod, LEVEL_1, "returning reqs for %+F at pos %d\n", irn, pos));
137 memcpy(req, &(irn_req->req), sizeof(*req));
139 if (arch_register_req_is(&(irn_req->req), should_be_same)) {
140 assert(irn_req->same_pos >= 0 && "should be same constraint for in -> out NYI");
141 req->other_same = get_irn_n(irn, irn_req->same_pos);
144 if (arch_register_req_is(&(irn_req->req), should_be_different)) {
145 assert(irn_req->different_pos >= 0 && "should be different constraint for in -> out NYI");
146 req->other_different = get_irn_n(irn, irn_req->different_pos);
150 /* treat Unknowns like Const with default requirements */
151 if (is_Unknown(irn)) {
152 DB((mod, LEVEL_1, "returning UKNWN reqs for %+F\n", irn));
153 if (mode_is_float(mode)) {
154 if (USE_SSE2(ops->cg))
155 memcpy(req, &(ia32_default_req_ia32_xmm_xmm_UKNWN), sizeof(*req));
157 memcpy(req, &(ia32_default_req_ia32_vfp_vfp_UKNWN), sizeof(*req));
159 else if (mode_is_int(mode) || mode_is_reference(mode))
160 memcpy(req, &(ia32_default_req_ia32_gp_gp_UKNWN), sizeof(*req));
161 else if (mode == mode_T || mode == mode_M) {
162 DBG((mod, LEVEL_1, "ignoring Unknown node %+F\n", irn));
166 assert(0 && "unsupported Unknown-Mode");
169 DB((mod, LEVEL_1, "returning NULL for %+F (not ia32)\n", irn));
177 static void ia32_set_irn_reg(const void *self, ir_node *irn, const arch_register_t *reg) {
179 const ia32_irn_ops_t *ops = self;
181 if (get_irn_mode(irn) == mode_X) {
185 DBG((ops->cg->mod, LEVEL_1, "ia32 assigned register %s to node %+F\n", reg->name, irn));
188 pos = ia32_translate_proj_pos(irn);
189 irn = my_skip_proj(irn);
192 if (is_ia32_irn(irn)) {
193 const arch_register_t **slots;
195 slots = get_ia32_slots(irn);
199 ia32_set_firm_reg(irn, reg, cur_reg_set);
203 static const arch_register_t *ia32_get_irn_reg(const void *self, const ir_node *irn) {
205 const arch_register_t *reg = NULL;
209 if (get_irn_mode(irn) == mode_X) {
213 pos = ia32_translate_proj_pos(irn);
214 irn = my_skip_proj(irn);
217 if (is_ia32_irn(irn)) {
218 const arch_register_t **slots;
219 slots = get_ia32_slots(irn);
223 reg = ia32_get_firm_reg(irn, cur_reg_set);
229 static arch_irn_class_t ia32_classify(const void *self, const ir_node *irn) {
230 irn = my_skip_proj(irn);
232 return arch_irn_class_branch;
233 else if (is_ia32_Cnst(irn))
234 return arch_irn_class_const;
235 else if (is_ia32_irn(irn))
236 return arch_irn_class_normal;
241 static arch_irn_flags_t ia32_get_flags(const void *self, const ir_node *irn) {
242 irn = my_skip_proj(irn);
243 if (is_ia32_irn(irn))
244 return get_ia32_flags(irn);
247 return arch_irn_flags_ignore;
252 static entity *ia32_get_frame_entity(const void *self, const ir_node *irn) {
253 return is_ia32_irn(irn) ? get_ia32_frame_ent(irn) : NULL;
256 static void ia32_set_stack_bias(const void *self, ir_node *irn, int bias) {
258 const ia32_irn_ops_t *ops = self;
260 if (get_ia32_frame_ent(irn)) {
261 ia32_am_flavour_t am_flav = get_ia32_am_flavour(irn);
263 DBG((ops->cg->mod, LEVEL_1, "stack biased %+F with %d\n", irn, bias));
264 snprintf(buf, sizeof(buf), "%d", bias);
266 if (get_ia32_op_type(irn) == ia32_Normal) {
267 set_ia32_cnst(irn, buf);
270 add_ia32_am_offs(irn, buf);
272 set_ia32_am_flavour(irn, am_flav);
278 be_abi_call_flags_bits_t flags;
279 const arch_isa_t *isa;
280 const arch_env_t *aenv;
284 static void *ia32_abi_init(const be_abi_call_t *call, const arch_env_t *aenv, ir_graph *irg)
286 ia32_abi_env_t *env = xmalloc(sizeof(env[0]));
287 be_abi_call_flags_t fl = be_abi_call_get_flags(call);
288 env->flags = fl.bits;
291 env->isa = aenv->isa;
295 static void ia32_abi_dont_save_regs(void *self, pset *s)
297 ia32_abi_env_t *env = self;
298 if(env->flags.try_omit_fp)
299 pset_insert_ptr(s, env->isa->bp);
303 * Generate the prologue.
304 * @param self The callback object.
305 * @param mem A pointer to the mem node. Update this if you define new memory.
306 * @param reg_map A mapping mapping all callee_save/ignore/parameter registers to their defining nodes.
307 * @return The register which shall be used as a stack frame base.
309 * All nodes which define registers in @p reg_map must keep @p reg_map current.
311 static const arch_register_t *ia32_abi_prologue(void *self, ir_node **mem, pmap *reg_map)
313 ia32_abi_env_t *env = self;
315 if (!env->flags.try_omit_fp) {
316 int reg_size = get_mode_size_bytes(env->isa->bp->reg_class->mode);
317 ir_node *bl = get_irg_start_block(env->irg);
318 ir_node *curr_sp = be_abi_reg_map_get(reg_map, env->isa->sp);
319 ir_node *curr_bp = be_abi_reg_map_get(reg_map, env->isa->bp);
323 push = new_rd_ia32_Push(NULL, env->irg, bl, curr_sp, curr_bp, *mem, mode_T);
324 curr_sp = new_r_Proj(env->irg, bl, push, get_irn_mode(curr_sp), 0);
325 *mem = new_r_Proj(env->irg, bl, push, mode_M, 1);
327 /* the push must have SP out register */
328 arch_set_irn_register(env->aenv, curr_sp, env->isa->sp);
330 /* move esp to ebp */
331 curr_bp = be_new_Copy(env->isa->bp->reg_class, env->irg, bl, curr_sp);
332 be_set_constr_single_reg(curr_bp, BE_OUT_POS(0), env->isa->bp);
333 arch_set_irn_register(env->aenv, curr_bp, env->isa->bp);
334 be_node_set_flags(curr_bp, BE_OUT_POS(0), arch_irn_flags_ignore);
336 /* beware: the copy must be done before any other sp use */
337 curr_sp = be_new_CopyKeep_single(env->isa->sp->reg_class, env->irg, bl, curr_sp, curr_bp, get_irn_mode(curr_sp));
338 be_set_constr_single_reg(curr_sp, BE_OUT_POS(0), env->isa->sp);
339 arch_set_irn_register(env->aenv, curr_sp, env->isa->sp);
340 be_node_set_flags(curr_sp, BE_OUT_POS(0), arch_irn_flags_ignore);
342 be_abi_reg_map_set(reg_map, env->isa->sp, curr_sp);
343 be_abi_reg_map_set(reg_map, env->isa->bp, curr_bp);
351 static void ia32_abi_epilogue(void *self, ir_node *bl, ir_node **mem, pmap *reg_map)
353 ia32_abi_env_t *env = self;
354 ir_node *curr_sp = be_abi_reg_map_get(reg_map, env->isa->sp);
355 ir_node *curr_bp = be_abi_reg_map_get(reg_map, env->isa->bp);
357 if (env->flags.try_omit_fp) {
358 /* simply remove the stack frame here */
359 curr_sp = be_new_IncSP(env->isa->sp, env->irg, bl, curr_sp, *mem, BE_STACK_FRAME_SIZE, be_stack_dir_shrink);
362 const ia32_isa_t *isa = (ia32_isa_t *)env->isa;
363 ir_mode *mode_bp = env->isa->bp->reg_class->mode;
364 int reg_size = get_mode_size_bytes(env->isa->bp->reg_class->mode);
366 if (ARCH_AMD(isa->opt_arch)) {
370 leave = new_rd_ia32_Leave(NULL, env->irg, bl, curr_sp, *mem, mode_T);
371 set_ia32_flags(leave, arch_irn_flags_ignore);
372 curr_bp = new_r_Proj(current_ir_graph, bl, leave, mode_bp, 0);
373 curr_sp = new_r_Proj(current_ir_graph, bl, leave, get_irn_mode(curr_sp), 1);
374 *mem = new_r_Proj(current_ir_graph, bl, leave, mode_M, 2);
379 /* copy ebp to esp */
380 curr_sp = be_new_SetSP(env->isa->sp, env->irg, bl, curr_sp, curr_bp, *mem);
383 pop = new_rd_ia32_Pop(NULL, env->irg, bl, curr_sp, *mem, mode_T);
384 set_ia32_flags(pop, arch_irn_flags_ignore);
385 curr_bp = new_r_Proj(current_ir_graph, bl, pop, mode_bp, 0);
386 curr_sp = new_r_Proj(current_ir_graph, bl, pop, get_irn_mode(curr_sp), 1);
387 *mem = new_r_Proj(current_ir_graph, bl, pop, mode_M, 2);
389 arch_set_irn_register(env->aenv, curr_sp, env->isa->sp);
390 arch_set_irn_register(env->aenv, curr_bp, env->isa->bp);
393 be_abi_reg_map_set(reg_map, env->isa->sp, curr_sp);
394 be_abi_reg_map_set(reg_map, env->isa->bp, curr_bp);
398 * Produces the type which sits between the stack args and the locals on the stack.
399 * it will contain the return address and space to store the old base pointer.
400 * @return The Firm type modeling the ABI between type.
402 static ir_type *ia32_abi_get_between_type(void *self)
404 static ir_type *omit_fp_between_type = NULL;
405 static ir_type *between_type = NULL;
407 ia32_abi_env_t *env = self;
411 entity *ret_addr_ent;
412 entity *omit_fp_ret_addr_ent;
414 ir_type *old_bp_type = new_type_primitive(new_id_from_str("bp"), mode_P);
415 ir_type *ret_addr_type = new_type_primitive(new_id_from_str("return_addr"), mode_P);
417 between_type = new_type_class(new_id_from_str("ia32_between_type"));
418 old_bp_ent = new_entity(between_type, new_id_from_str("old_bp"), old_bp_type);
419 ret_addr_ent = new_entity(between_type, new_id_from_str("ret_addr"), ret_addr_type);
421 set_entity_offset_bytes(old_bp_ent, 0);
422 set_entity_offset_bytes(ret_addr_ent, get_type_size_bytes(old_bp_type));
423 set_type_size_bytes(between_type, get_type_size_bytes(old_bp_type) + get_type_size_bytes(ret_addr_type));
425 omit_fp_between_type = new_type_class(new_id_from_str("ia32_between_type_omit_fp"));
426 omit_fp_ret_addr_ent = new_entity(omit_fp_between_type, new_id_from_str("ret_addr"), ret_addr_type);
428 set_entity_offset_bytes(omit_fp_ret_addr_ent, 0);
429 set_type_size_bytes(omit_fp_between_type, get_type_size_bytes(ret_addr_type));
432 return env->flags.try_omit_fp ? omit_fp_between_type : between_type;
435 static const be_abi_callbacks_t ia32_abi_callbacks = {
438 ia32_abi_get_between_type,
439 ia32_abi_dont_save_regs,
444 /* fill register allocator interface */
446 static const arch_irn_ops_if_t ia32_irn_ops_if = {
447 ia32_get_irn_reg_req,
452 ia32_get_frame_entity,
456 ia32_irn_ops_t ia32_irn_ops = {
463 /**************************************************
466 * ___ ___ __| | ___ __ _ ___ _ __ _| |_
467 * / __/ _ \ / _` |/ _ \/ _` |/ _ \ '_ \ | | _|
468 * | (_| (_) | (_| | __/ (_| | __/ | | | | | |
469 * \___\___/ \__,_|\___|\__, |\___|_| |_| |_|_|
472 **************************************************/
475 * Transforms the standard firm graph into
478 static void ia32_prepare_graph(void *self) {
479 ia32_code_gen_t *cg = self;
480 DEBUG_ONLY(firm_dbg_module_t *old_mod = cg->mod;)
482 FIRM_DBG_REGISTER(cg->mod, "firm.be.ia32.transform");
483 ia32_register_transformers();
484 irg_walk_blkwise_graph(cg->irg, ia32_place_consts_set_modes, ia32_transform_node, cg);
485 be_dump(cg->irg, "-transformed", dump_ir_block_graph_sched);
487 if (cg->opt & IA32_OPT_DOAM) {
488 edges_deactivate(cg->irg);
489 //dead_node_elimination(cg->irg);
490 edges_activate(cg->irg);
492 FIRM_DBG_REGISTER(cg->mod, "firm.be.ia32.am");
494 irg_walk_blkwise_graph(cg->irg, NULL, ia32_optimize_am, cg);
495 be_dump(cg->irg, "-am", dump_ir_block_graph_sched);
498 DEBUG_ONLY(cg->mod = old_mod;)
503 * Insert copies for all ia32 nodes where the should_be_same requirement
505 * Transform Sub into Neg -- Add if IN2 == OUT
507 static void ia32_finish_node(ir_node *irn, void *env) {
508 ia32_code_gen_t *cg = env;
509 const ia32_register_req_t **reqs;
510 const arch_register_t *out_reg, *in_reg, *in2_reg;
512 ir_node *copy, *in_node, *block, *in2_node;
513 ia32_op_type_t op_tp;
515 if (is_ia32_irn(irn)) {
516 /* AM Dest nodes don't produce any values */
517 op_tp = get_ia32_op_type(irn);
518 if (op_tp == ia32_AddrModeD)
521 reqs = get_ia32_out_req_all(irn);
522 n_res = get_ia32_n_res(irn);
523 block = get_nodes_block(irn);
525 /* check all OUT requirements, if there is a should_be_same */
526 if (op_tp == ia32_Normal && ! is_ia32_Lea(irn) && ! is_ia32_Conv_I2I(irn) && ! is_ia32_Conv_I2I8Bit(irn)) {
527 for (i = 0; i < n_res; i++) {
528 if (arch_register_req_is(&(reqs[i]->req), should_be_same)) {
529 /* get in and out register */
530 out_reg = get_ia32_out_reg(irn, i);
531 in_node = get_irn_n(irn, reqs[i]->same_pos);
532 in_reg = arch_get_irn_register(cg->arch_env, in_node);
534 /* don't copy ignore nodes */
535 if (arch_irn_is(cg->arch_env, in_node, ignore) && is_Proj(in_node))
538 /* check if in and out register are equal */
539 if (! REGS_ARE_EQUAL(out_reg, in_reg)) {
540 /* in case of a commutative op: just exchange the in's */
541 /* beware: the current op could be everything, so test for ia32 */
542 /* commutativity first before getting the second in */
543 if (is_ia32_commutative(irn)) {
544 in2_node = get_irn_n(irn, reqs[i]->same_pos ^ 1);
545 in2_reg = arch_get_irn_register(cg->arch_env, in2_node);
547 if (REGS_ARE_EQUAL(out_reg, in2_reg)) {
548 set_irn_n(irn, reqs[i]->same_pos, in2_node);
549 set_irn_n(irn, reqs[i]->same_pos ^ 1, in_node);
556 DBG((cg->mod, LEVEL_1, "inserting copy for %+F in_pos %d\n", irn, reqs[i]->same_pos));
557 /* create copy from in register */
558 copy = be_new_Copy(arch_register_get_class(in_reg), cg->irg, block, in_node);
560 DBG_OPT_2ADDRCPY(copy);
562 /* destination is the out register */
563 arch_set_irn_register(cg->arch_env, copy, out_reg);
565 /* insert copy before the node into the schedule */
566 sched_add_before(irn, copy);
569 set_irn_n(irn, reqs[i]->same_pos, copy);
576 /* If we have a CondJmp with immediate, we need to */
577 /* check if it's the right operand, otherwise we have */
578 /* to change it, as CMP doesn't support immediate as */
580 if (is_ia32_CondJmp(irn) && (is_ia32_ImmConst(irn) || is_ia32_ImmSymConst(irn)) && op_tp == ia32_AddrModeS) {
581 long pnc = get_negated_pnc(get_ia32_pncode(irn), get_ia32_res_mode(irn));
582 set_ia32_op_type(irn, ia32_AddrModeD);
583 set_ia32_pncode(irn, pnc);
586 /* check if there is a sub which need to be transformed */
587 ia32_transform_sub_to_neg_add(irn, cg);
589 /* transform a LEA into an Add if possible */
590 ia32_transform_lea_to_add(irn, cg);
594 /* check for peephole optimization */
595 ia32_peephole_optimization(irn, cg);
598 static void ia32_finish_irg_walker(ir_node *block, void *env) {
601 for (irn = sched_first(block); !sched_is_end(irn); irn = next) {
602 next = sched_next(irn);
603 ia32_finish_node(irn, env);
608 * Add Copy nodes for not fulfilled should_be_equal constraints
610 static void ia32_finish_irg(ir_graph *irg, ia32_code_gen_t *cg) {
611 irg_block_walk_graph(irg, NULL, ia32_finish_irg_walker, cg);
617 * Dummy functions for hooks we don't need but which must be filled.
619 static void ia32_before_sched(void *self) {
623 * Called before the register allocator.
624 * Calculate a block schedule here. We need it for the x87
625 * simulator and the emitter.
627 static void ia32_before_ra(void *self) {
628 ia32_code_gen_t *cg = self;
630 cg->blk_sched = sched_create_block_schedule(cg->irg);
635 * Transforms a be node into a Load.
637 static void transform_to_Load(ia32_transform_env_t *env) {
638 ir_node *irn = env->irn;
639 entity *ent = be_get_frame_entity(irn);
640 ir_mode *mode = env->mode;
641 ir_node *noreg = ia32_new_NoReg_gp(env->cg);
642 ir_node *nomem = new_rd_NoMem(env->irg);
643 ir_node *sched_point = NULL;
644 ir_node *ptr = get_irn_n(irn, 0);
645 ir_node *mem = be_is_Reload(irn) ? get_irn_n(irn, 1) : nomem;
646 ir_node *new_op, *proj;
647 const arch_register_t *reg;
649 if (sched_is_scheduled(irn)) {
650 sched_point = sched_prev(irn);
653 if (mode_is_float(mode)) {
654 if (USE_SSE2(env->cg))
655 new_op = new_rd_ia32_xLoad(env->dbg, env->irg, env->block, ptr, noreg, mem, mode_T);
657 new_op = new_rd_ia32_vfld(env->dbg, env->irg, env->block, ptr, noreg, mem, mode_T);
660 new_op = new_rd_ia32_Load(env->dbg, env->irg, env->block, ptr, noreg, mem, mode_T);
663 set_ia32_am_support(new_op, ia32_am_Source);
664 set_ia32_op_type(new_op, ia32_AddrModeS);
665 set_ia32_am_flavour(new_op, ia32_B);
666 set_ia32_ls_mode(new_op, mode);
667 set_ia32_frame_ent(new_op, ent);
668 set_ia32_use_frame(new_op);
670 DBG_OPT_RELOAD2LD(irn, new_op);
672 proj = new_rd_Proj(env->dbg, env->irg, env->block, new_op, mode, pn_Load_res);
675 sched_add_after(sched_point, new_op);
676 sched_add_after(new_op, proj);
681 /* copy the register from the old node to the new Load */
682 reg = arch_get_irn_register(env->cg->arch_env, irn);
683 arch_set_irn_register(env->cg->arch_env, new_op, reg);
685 SET_IA32_ORIG_NODE(new_op, ia32_get_old_node_name(env->cg, new_op));
691 * Transforms a be node into a Store.
693 static void transform_to_Store(ia32_transform_env_t *env) {
694 ir_node *irn = env->irn;
695 entity *ent = be_get_frame_entity(irn);
696 ir_mode *mode = env->mode;
697 ir_node *noreg = ia32_new_NoReg_gp(env->cg);
698 ir_node *nomem = new_rd_NoMem(env->irg);
699 ir_node *ptr = get_irn_n(irn, 0);
700 ir_node *val = get_irn_n(irn, 1);
701 ir_node *new_op, *proj;
702 ir_node *sched_point = NULL;
704 if (sched_is_scheduled(irn)) {
705 sched_point = sched_prev(irn);
708 if (mode_is_float(mode)) {
709 if (USE_SSE2(env->cg))
710 new_op = new_rd_ia32_xStore(env->dbg, env->irg, env->block, ptr, noreg, val, nomem, mode_T);
712 new_op = new_rd_ia32_vfst(env->dbg, env->irg, env->block, ptr, noreg, val, nomem, mode_T);
714 else if (get_mode_size_bits(mode) == 8) {
715 new_op = new_rd_ia32_Store8Bit(env->dbg, env->irg, env->block, ptr, noreg, val, nomem, mode_T);
718 new_op = new_rd_ia32_Store(env->dbg, env->irg, env->block, ptr, noreg, val, nomem, mode_T);
721 set_ia32_am_support(new_op, ia32_am_Dest);
722 set_ia32_op_type(new_op, ia32_AddrModeD);
723 set_ia32_am_flavour(new_op, ia32_B);
724 set_ia32_ls_mode(new_op, mode);
725 set_ia32_frame_ent(new_op, ent);
726 set_ia32_use_frame(new_op);
728 DBG_OPT_SPILL2ST(irn, new_op);
730 proj = new_rd_Proj(env->dbg, env->irg, env->block, new_op, mode_M, 0);
733 sched_add_after(sched_point, new_op);
734 sched_add_after(new_op, proj);
739 SET_IA32_ORIG_NODE(new_op, ia32_get_old_node_name(env->cg, new_op));
745 * Fix the mode of Spill/Reload
747 static ir_mode *fix_spill_mode(ia32_code_gen_t *cg, ir_mode *mode)
749 if (mode_is_float(mode)) {
761 * Block-Walker: Calls the transform functions Spill and Reload.
763 static void ia32_after_ra_walker(ir_node *block, void *env) {
764 ir_node *node, *prev;
765 ia32_code_gen_t *cg = env;
766 ia32_transform_env_t tenv;
769 tenv.irg = current_ir_graph;
771 DEBUG_ONLY(tenv.mod = cg->mod;)
773 /* beware: the schedule is changed here */
774 for (node = sched_last(block); !sched_is_begin(node); node = prev) {
775 prev = sched_prev(node);
776 if (be_is_Reload(node)) {
777 /* we always reload the whole register */
778 tenv.dbg = get_irn_dbg_info(node);
780 tenv.mode = fix_spill_mode(cg, get_irn_mode(node));
781 transform_to_Load(&tenv);
783 else if (be_is_Spill(node)) {
784 /* we always spill the whole register */
785 tenv.dbg = get_irn_dbg_info(node);
787 tenv.mode = fix_spill_mode(cg, get_irn_mode(be_get_Spill_context(node)));
788 transform_to_Store(&tenv);
794 * We transform Spill and Reload here. This needs to be done before
795 * stack biasing otherwise we would miss the corrected offset for these nodes.
797 * If x87 instruction should be emitted, run the x87 simulator and patch
798 * the virtual instructions. This must obviously be done after register allocation.
800 static void ia32_after_ra(void *self) {
801 ia32_code_gen_t *cg = self;
802 irg_block_walk_graph(cg->irg, NULL, ia32_after_ra_walker, self);
804 /* if we do x87 code generation, rewrite all the virtual instructions and registers */
805 if (cg->used_fp == fp_x87) {
806 x87_simulate_graph(cg->arch_env, cg->irg, cg->blk_sched);
812 * Emits the code, closes the output file and frees
813 * the code generator interface.
815 static void ia32_codegen(void *self) {
816 ia32_code_gen_t *cg = self;
817 ir_graph *irg = cg->irg;
819 ia32_finish_irg(irg, cg);
820 be_dump(irg, "-finished", dump_ir_block_graph_sched);
821 ia32_gen_routine(cg->isa->out, irg, cg);
825 /* remove it from the isa */
828 /* de-allocate code generator */
829 del_set(cg->reg_set);
834 static void *ia32_cg_init(const be_irg_t *birg);
836 static const arch_code_generator_if_t ia32_code_gen_if = {
838 NULL, /* before abi introduce hook */
840 ia32_before_sched, /* before scheduling hook */
841 ia32_before_ra, /* before register allocation hook */
842 ia32_after_ra, /* after register allocation hook */
843 ia32_codegen /* emit && done */
847 * Initializes a IA32 code generator.
849 static void *ia32_cg_init(const be_irg_t *birg) {
850 ia32_isa_t *isa = (ia32_isa_t *)birg->main_env->arch_env->isa;
851 ia32_code_gen_t *cg = xcalloc(1, sizeof(*cg));
853 cg->impl = &ia32_code_gen_if;
855 cg->reg_set = new_set(ia32_cmp_irn_reg_assoc, 1024);
856 cg->arch_env = birg->main_env->arch_env;
859 cg->blk_sched = NULL;
862 cg->fp_kind = isa->fp_kind;
863 cg->used_fp = fp_none;
865 FIRM_DBG_REGISTER(cg->mod, "firm.be.ia32.cg");
867 /* copy optimizations from isa for easier access */
874 if (isa->name_obst_size) {
875 //printf("freed %d bytes from name obst\n", isa->name_obst_size);
876 isa->name_obst_size = 0;
877 obstack_free(isa->name_obst, NULL);
878 obstack_init(isa->name_obst);
882 cur_reg_set = cg->reg_set;
884 ia32_irn_ops.cg = cg;
886 return (arch_code_generator_t *)cg;
891 /*****************************************************************
892 * ____ _ _ _____ _____
893 * | _ \ | | | | |_ _|/ ____| /\
894 * | |_) | __ _ ___| | _____ _ __ __| | | | | (___ / \
895 * | _ < / _` |/ __| |/ / _ \ '_ \ / _` | | | \___ \ / /\ \
896 * | |_) | (_| | (__| < __/ | | | (_| | _| |_ ____) / ____ \
897 * |____/ \__,_|\___|_|\_\___|_| |_|\__,_| |_____|_____/_/ \_\
899 *****************************************************************/
902 * The template that generates a new ISA object.
903 * Note that this template can be changed by command line
906 static ia32_isa_t ia32_isa_template = {
908 &ia32_isa_if, /* isa interface implementation */
909 &ia32_gp_regs[REG_ESP], /* stack pointer register */
910 &ia32_gp_regs[REG_EBP], /* base pointer register */
911 -1, /* stack direction */
913 NULL, /* 16bit register names */
914 NULL, /* 8bit register names */
918 IA32_OPT_INCDEC | /* optimize add 1, sub 1 into inc/dec default: on */
919 IA32_OPT_DOAM | /* optimize address mode default: on */
920 IA32_OPT_PLACECNST | /* place constants immediately before instructions, default: on */
921 IA32_OPT_IMMOPS | /* operations can use immediates, default: on */
922 IA32_OPT_EXTBB), /* use extended basic block scheduling, default: on */
923 arch_pentium_4, /* instruction architecture */
924 arch_pentium_4, /* optimize for architecture */
925 fp_sse2, /* use sse2 unit */
926 NULL, /* current code generator */
928 NULL, /* name obstack */
929 0 /* name obst size */
934 * Initializes the backend ISA.
936 static void *ia32_init(FILE *file_handle) {
937 static int inited = 0;
943 isa = xmalloc(sizeof(*isa));
944 memcpy(isa, &ia32_isa_template, sizeof(*isa));
946 ia32_register_init(isa);
947 ia32_create_opcodes();
948 ia32_register_copy_attr_func();
950 if ((ARCH_INTEL(isa->arch) && isa->arch < arch_pentium_4) ||
951 (ARCH_AMD(isa->arch) && isa->arch < arch_athlon))
952 /* no SSE2 for these cpu's */
953 isa->fp_kind = fp_x87;
955 if (ARCH_INTEL(isa->opt_arch) && isa->opt_arch >= arch_pentium_4) {
956 /* Pentium 4 don't like inc and dec instructions */
957 isa->opt &= ~IA32_OPT_INCDEC;
960 isa->regs_16bit = pmap_create();
961 isa->regs_8bit = pmap_create();
962 isa->types = pmap_create();
963 isa->tv_ent = pmap_create();
964 isa->out = file_handle;
966 ia32_build_16bit_reg_map(isa->regs_16bit);
967 ia32_build_8bit_reg_map(isa->regs_8bit);
969 /* patch register names of x87 registers */
971 ia32_st_regs[0].name = "st";
972 ia32_st_regs[1].name = "st(1)";
973 ia32_st_regs[2].name = "st(2)";
974 ia32_st_regs[3].name = "st(3)";
975 ia32_st_regs[4].name = "st(4)";
976 ia32_st_regs[5].name = "st(5)";
977 ia32_st_regs[6].name = "st(6)";
978 ia32_st_regs[7].name = "st(7)";
982 isa->name_obst = xmalloc(sizeof(*isa->name_obst));
983 obstack_init(isa->name_obst);
984 isa->name_obst_size = 0;
987 fprintf(isa->out, "\t.intel_syntax\n");
997 * Closes the output file and frees the ISA structure.
999 static void ia32_done(void *self) {
1000 ia32_isa_t *isa = self;
1002 /* emit now all global declarations */
1003 ia32_gen_decls(isa->out);
1005 pmap_destroy(isa->regs_16bit);
1006 pmap_destroy(isa->regs_8bit);
1007 pmap_destroy(isa->tv_ent);
1008 pmap_destroy(isa->types);
1011 //printf("name obst size = %d bytes\n", isa->name_obst_size);
1012 obstack_free(isa->name_obst, NULL);
1020 * Return the number of register classes for this architecture.
1021 * We report always these:
1022 * - the general purpose registers
1023 * - the floating point register set (depending on the unit used for FP)
1024 * - MMX/SSE registers (currently not supported)
1026 static int ia32_get_n_reg_class(const void *self) {
1031 * Return the register class for index i.
1033 static const arch_register_class_t *ia32_get_reg_class(const void *self, int i) {
1034 const ia32_isa_t *isa = self;
1035 assert(i >= 0 && i < 2 && "Invalid ia32 register class requested.");
1037 return &ia32_reg_classes[CLASS_ia32_gp];
1038 return USE_SSE2(isa) ? &ia32_reg_classes[CLASS_ia32_xmm] : &ia32_reg_classes[CLASS_ia32_vfp];
1042 * Get the register class which shall be used to store a value of a given mode.
1043 * @param self The this pointer.
1044 * @param mode The mode in question.
1045 * @return A register class which can hold values of the given mode.
1047 const arch_register_class_t *ia32_get_reg_class_for_mode(const void *self, const ir_mode *mode) {
1048 const ia32_isa_t *isa = self;
1049 if (mode_is_float(mode)) {
1050 return USE_SSE2(isa) ? &ia32_reg_classes[CLASS_ia32_xmm] : &ia32_reg_classes[CLASS_ia32_vfp];
1053 return &ia32_reg_classes[CLASS_ia32_gp];
1057 * Get the ABI restrictions for procedure calls.
1058 * @param self The this pointer.
1059 * @param method_type The type of the method (procedure) in question.
1060 * @param abi The abi object to be modified
1062 static void ia32_get_call_abi(const void *self, ir_type *method_type, be_abi_call_t *abi) {
1063 const ia32_isa_t *isa = self;
1066 unsigned cc = get_method_calling_convention(method_type);
1067 int n = get_method_n_params(method_type);
1070 int i, ignore_1, ignore_2;
1072 const arch_register_t *reg;
1073 be_abi_call_flags_t call_flags = be_abi_call_get_flags(abi);
1075 /* set abi flags for calls */
1076 call_flags.bits.left_to_right = 0; /* always last arg first on stack */
1077 call_flags.bits.store_args_sequential = 0; /* use stores instead of push */
1078 /* call_flags.bits.try_omit_fp not changed: can handle both settings */
1079 call_flags.bits.fp_free = 0; /* the frame pointer is fixed in IA32 */
1080 call_flags.bits.call_has_imm = 1; /* IA32 calls can have immediate address */
1082 /* set stack parameter passing style */
1083 be_abi_call_set_flags(abi, call_flags, &ia32_abi_callbacks);
1085 /* collect the mode for each type */
1086 modes = alloca(n * sizeof(modes[0]));
1088 for (i = 0; i < n; i++) {
1089 tp = get_method_param_type(method_type, i);
1090 modes[i] = get_type_mode(tp);
1093 /* set register parameters */
1094 if (cc & cc_reg_param) {
1095 /* determine the number of parameters passed via registers */
1096 biggest_n = ia32_get_n_regparam_class(n, modes, &ignore_1, &ignore_2);
1098 /* loop over all parameters and set the register requirements */
1099 for (i = 0; i <= biggest_n; i++) {
1100 reg = ia32_get_RegParam_reg(n, modes, i, cc);
1101 assert(reg && "kaputt");
1102 be_abi_call_param_reg(abi, i, reg);
1109 /* set stack parameters */
1110 for (i = stack_idx; i < n; i++) {
1111 be_abi_call_param_stack(abi, i, 1, 0, 0);
1115 /* set return registers */
1116 n = get_method_n_ress(method_type);
1118 assert(n <= 2 && "more than two results not supported");
1120 /* In case of 64bit returns, we will have two 32bit values */
1122 tp = get_method_res_type(method_type, 0);
1123 mode = get_type_mode(tp);
1125 assert(!mode_is_float(mode) && "two FP results not supported");
1127 tp = get_method_res_type(method_type, 1);
1128 mode = get_type_mode(tp);
1130 assert(!mode_is_float(mode) && "two FP results not supported");
1132 be_abi_call_res_reg(abi, 0, &ia32_gp_regs[REG_EAX]);
1133 be_abi_call_res_reg(abi, 1, &ia32_gp_regs[REG_EDX]);
1136 const arch_register_t *reg;
1138 tp = get_method_res_type(method_type, 0);
1139 assert(is_atomic_type(tp));
1140 mode = get_type_mode(tp);
1142 reg = mode_is_float(mode) ?
1143 (USE_SSE2(isa) ? &ia32_xmm_regs[REG_XMM0] : &ia32_vfp_regs[REG_VF0]) :
1144 &ia32_gp_regs[REG_EAX];
1146 be_abi_call_res_reg(abi, 0, reg);
1151 static const void *ia32_get_irn_ops(const arch_irn_handler_t *self, const ir_node *irn) {
1152 return &ia32_irn_ops;
1155 const arch_irn_handler_t ia32_irn_handler = {
1159 const arch_irn_handler_t *ia32_get_irn_handler(const void *self) {
1160 return &ia32_irn_handler;
1163 int ia32_to_appear_in_schedule(void *block_env, const ir_node *irn) {
1164 return is_ia32_irn(irn);
1168 * Initializes the code generator interface.
1170 static const arch_code_generator_if_t *ia32_get_code_generator_if(void *self) {
1171 return &ia32_code_gen_if;
1174 list_sched_selector_t ia32_sched_selector;
1177 * Returns the reg_pressure scheduler with to_appear_in_schedule() overloaded
1179 static const list_sched_selector_t *ia32_get_list_sched_selector(const void *self) {
1180 // memcpy(&ia32_sched_selector, reg_pressure_selector, sizeof(list_sched_selector_t));
1181 memcpy(&ia32_sched_selector, trivial_selector, sizeof(list_sched_selector_t));
1182 ia32_sched_selector.to_appear_in_schedule = ia32_to_appear_in_schedule;
1183 return &ia32_sched_selector;
1187 * Returns the necessary byte alignment for storing a register of given class.
1189 static int ia32_get_reg_class_alignment(const void *self, const arch_register_class_t *cls) {
1190 ir_mode *mode = arch_register_class_mode(cls);
1191 int bytes = get_mode_size_bytes(mode);
1193 if (mode_is_float(mode) && bytes > 8)
1200 /* instruction set architectures. */
1201 static const lc_opt_enum_int_items_t arch_items[] = {
1202 { "386", arch_i386, },
1203 { "486", arch_i486, },
1204 { "pentium", arch_pentium, },
1205 { "586", arch_pentium, },
1206 { "pentiumpro", arch_pentium_pro, },
1207 { "686", arch_pentium_pro, },
1208 { "pentiummmx", arch_pentium_mmx, },
1209 { "pentium2", arch_pentium_2, },
1210 { "p2", arch_pentium_2, },
1211 { "pentium3", arch_pentium_3, },
1212 { "p3", arch_pentium_3, },
1213 { "pentium4", arch_pentium_4, },
1214 { "p4", arch_pentium_4, },
1215 { "pentiumm", arch_pentium_m, },
1216 { "pm", arch_pentium_m, },
1217 { "core", arch_core, },
1219 { "athlon", arch_athlon, },
1220 { "athlon64", arch_athlon_64, },
1221 { "opteron", arch_opteron, },
1225 static lc_opt_enum_int_var_t arch_var = {
1226 &ia32_isa_template.arch, arch_items
1229 static lc_opt_enum_int_var_t opt_arch_var = {
1230 &ia32_isa_template.opt_arch, arch_items
1233 static const lc_opt_enum_int_items_t fp_unit_items[] = {
1235 { "sse2", fp_sse2 },
1239 static lc_opt_enum_int_var_t fp_unit_var = {
1240 &ia32_isa_template.fp_kind, fp_unit_items
1243 static const lc_opt_table_entry_t ia32_options[] = {
1244 LC_OPT_ENT_ENUM_INT("arch", "select the instruction architecture", &arch_var),
1245 LC_OPT_ENT_ENUM_INT("opt", "optimize for instruction architecture", &opt_arch_var),
1246 LC_OPT_ENT_ENUM_INT("fpunit", "select the floating point unit", &fp_unit_var),
1247 LC_OPT_ENT_NEGBIT("noaddrmode", "do not use address mode", &ia32_isa_template.opt, IA32_OPT_DOAM),
1248 LC_OPT_ENT_NEGBIT("noplacecnst", "do not place constants", &ia32_isa_template.opt, IA32_OPT_PLACECNST),
1249 LC_OPT_ENT_NEGBIT("noimmop", "no operations with immediates", &ia32_isa_template.opt, IA32_OPT_IMMOPS),
1250 LC_OPT_ENT_NEGBIT("noextbb", "do not use extended basic block scheduling", &ia32_isa_template.opt, IA32_OPT_EXTBB),
1255 * Register command line options for the ia32 backend.
1259 * ia32-arch=arch create instruction for arch
1260 * ia32-opt=arch optimize for run on arch
1261 * ia32-fpunit=unit select floating point unit (x87 or SSE2)
1262 * ia32-incdec optimize for inc/dec
1263 * ia32-noaddrmode do not use address mode
1264 * ia32-noplacecnst do not place constants,
1265 * ia32-noimmop no operations with immediates
1266 * ia32-noextbb do not use extended basic block scheduling
1268 static void ia32_register_options(lc_opt_entry_t *ent)
1270 lc_opt_entry_t *be_grp_ia32 = lc_opt_get_grp(ent, "ia32");
1271 lc_opt_add_table(be_grp_ia32, ia32_options);
1273 #endif /* WITH_LIBCORE */
1275 const arch_isa_if_t ia32_isa_if = {
1278 ia32_get_n_reg_class,
1280 ia32_get_reg_class_for_mode,
1282 ia32_get_irn_handler,
1283 ia32_get_code_generator_if,
1284 ia32_get_list_sched_selector,
1285 ia32_get_reg_class_alignment,
1287 ia32_register_options