2 * Copyright (C) 1995-2008 University of Karlsruhe. All right reserved.
4 * This file is part of libFirm.
6 * This file may be distributed and/or modified under the terms of the
7 * GNU General Public License version 2 as published by the Free Software
8 * Foundation and appearing in the file LICENSE.GPL included in the
9 * packaging of this file.
11 * Licensees holding valid libFirm Professional Edition licenses may use
12 * this file in accordance with the libFirm Commercial License.
13 * Agreement provided with the Software.
15 * This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
16 * WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR
22 * @brief This is the main ia32 firm backend driver.
23 * @author Christian Wuerdig
29 #include "lc_opts_enum.h"
37 #include "iredges_t.h"
51 #include "iroptimize.h"
52 #include "instrument.h"
57 #include "../benode.h"
58 #include "../belower.h"
59 #include "../besched.h"
62 #include "../beirgmod.h"
63 #include "../be_dbgout.h"
64 #include "../beblocksched.h"
65 #include "../bemachine.h"
66 #include "../bespillslots.h"
67 #include "../bemodule.h"
68 #include "../begnuas.h"
69 #include "../bestate.h"
70 #include "../beflags.h"
71 #include "../betranshlp.h"
72 #include "../belistsched.h"
73 #include "../beabihelper.h"
75 #include "bearch_ia32_t.h"
77 #include "ia32_new_nodes.h"
78 #include "gen_ia32_regalloc_if.h"
79 #include "gen_ia32_machine.h"
80 #include "ia32_common_transform.h"
81 #include "ia32_transform.h"
82 #include "ia32_emitter.h"
83 #include "ia32_optimize.h"
85 #include "ia32_dbg_stat.h"
86 #include "ia32_finish.h"
88 #include "ia32_architecture.h"
91 #include "ia32_pbqp_transform.h"
93 transformer_t be_transformer = TRANSFORMER_DEFAULT;
96 DEBUG_ONLY(static firm_dbg_module_t *dbg = NULL;)
98 ir_mode *ia32_mode_fpcw = NULL;
100 /** The current omit-fp state */
101 static ir_type *omit_fp_between_type = NULL;
102 static ir_type *between_type = NULL;
103 static ir_entity *old_bp_ent = NULL;
104 static ir_entity *ret_addr_ent = NULL;
105 static ir_entity *omit_fp_ret_addr_ent = NULL;
108 * The environment for the intrinsic mapping.
110 static ia32_intrinsic_env_t intrinsic_env = {
112 NULL, /* the irg, these entities belong to */
113 NULL, /* entity for __divdi3 library call */
114 NULL, /* entity for __moddi3 library call */
115 NULL, /* entity for __udivdi3 library call */
116 NULL, /* entity for __umoddi3 library call */
120 typedef ir_node *(*create_const_node_func) (dbg_info *dbg, ir_node *block);
123 * Used to create per-graph unique pseudo nodes.
125 static inline ir_node *create_const(ir_graph *irg, ir_node **place,
126 create_const_node_func func,
127 const arch_register_t* reg)
129 ir_node *block, *res;
134 block = get_irg_start_block(irg);
135 res = func(NULL, block);
136 arch_set_irn_register(res, reg);
142 /* Creates the unique per irg GP NoReg node. */
143 ir_node *ia32_new_NoReg_gp(ir_graph *irg)
145 ia32_irg_data_t *irg_data = ia32_get_irg_data(irg);
146 return create_const(irg, &irg_data->noreg_gp, new_bd_ia32_NoReg_GP,
147 &ia32_registers[REG_GP_NOREG]);
150 ir_node *ia32_new_NoReg_vfp(ir_graph *irg)
152 ia32_irg_data_t *irg_data = ia32_get_irg_data(irg);
153 return create_const(irg, &irg_data->noreg_vfp, new_bd_ia32_NoReg_VFP,
154 &ia32_registers[REG_VFP_NOREG]);
157 ir_node *ia32_new_NoReg_xmm(ir_graph *irg)
159 ia32_irg_data_t *irg_data = ia32_get_irg_data(irg);
160 return create_const(irg, &irg_data->noreg_xmm, new_bd_ia32_NoReg_XMM,
161 &ia32_registers[REG_XMM_NOREG]);
164 ir_node *ia32_new_Fpu_truncate(ir_graph *irg)
166 ia32_irg_data_t *irg_data = ia32_get_irg_data(irg);
167 return create_const(irg, &irg_data->fpu_trunc_mode, new_bd_ia32_ChangeCW,
168 &ia32_registers[REG_FPCW]);
173 * Returns the admissible noreg register node for input register pos of node irn.
175 static ir_node *ia32_get_admissible_noreg(ir_node *irn, int pos)
177 ir_graph *irg = get_irn_irg(irn);
178 const arch_register_req_t *req = arch_get_register_req(irn, pos);
180 assert(req != NULL && "Missing register requirements");
181 if (req->cls == &ia32_reg_classes[CLASS_ia32_gp])
182 return ia32_new_NoReg_gp(irg);
184 if (ia32_cg_config.use_sse2) {
185 return ia32_new_NoReg_xmm(irg);
187 return ia32_new_NoReg_vfp(irg);
191 static arch_irn_class_t ia32_classify(const ir_node *irn)
193 arch_irn_class_t classification = arch_irn_class_none;
195 assert(is_ia32_irn(irn));
197 if (is_ia32_is_reload(irn))
198 classification |= arch_irn_class_reload;
200 if (is_ia32_is_spill(irn))
201 classification |= arch_irn_class_spill;
203 if (is_ia32_is_remat(irn))
204 classification |= arch_irn_class_remat;
206 return classification;
210 * The IA32 ABI callback object.
213 be_abi_call_flags_bits_t flags; /**< The call flags. */
214 ir_graph *irg; /**< The associated graph. */
217 static ir_entity *ia32_get_frame_entity(const ir_node *irn)
219 return is_ia32_irn(irn) ? get_ia32_frame_ent(irn) : NULL;
222 static void ia32_set_frame_entity(ir_node *node, ir_entity *entity)
224 if (is_be_node(node))
225 be_node_set_frame_entity(node, entity);
227 set_ia32_frame_ent(node, entity);
230 static void ia32_set_frame_offset(ir_node *irn, int bias)
232 if (get_ia32_frame_ent(irn) == NULL)
235 if (is_ia32_Pop(irn) || is_ia32_PopMem(irn)) {
236 ir_graph *irg = get_irn_irg(irn);
237 be_stack_layout_t *layout = be_get_irg_stack_layout(irg);
238 if (layout->sp_relative) {
239 /* Pop nodes modify the stack pointer before calculating the
240 * destination address, so fix this here
245 add_ia32_am_offs_int(irn, bias);
248 static int ia32_get_sp_bias(const ir_node *node)
250 if (is_ia32_Call(node))
251 return -(int)get_ia32_call_attr_const(node)->pop;
253 if (is_ia32_Push(node))
256 if (is_ia32_Pop(node) || is_ia32_PopMem(node))
259 if (is_ia32_Leave(node) || is_ia32_CopyEbpEsp(node)) {
260 return SP_BIAS_RESET;
267 * Build the between type and entities if not already build.
269 static void ia32_build_between_type(void)
271 #define IDENT(s) new_id_from_chars(s, sizeof(s)-1)
272 if (! between_type) {
273 ir_type *old_bp_type = new_type_primitive(mode_Iu);
274 ir_type *ret_addr_type = new_type_primitive(mode_Iu);
276 between_type = new_type_struct(IDENT("ia32_between_type"));
277 old_bp_ent = new_entity(between_type, IDENT("old_bp"), old_bp_type);
278 ret_addr_ent = new_entity(between_type, IDENT("ret_addr"), ret_addr_type);
280 set_entity_offset(old_bp_ent, 0);
281 set_entity_offset(ret_addr_ent, get_type_size_bytes(old_bp_type));
282 set_type_size_bytes(between_type, get_type_size_bytes(old_bp_type) + get_type_size_bytes(ret_addr_type));
283 set_type_state(between_type, layout_fixed);
285 omit_fp_between_type = new_type_struct(IDENT("ia32_between_type_omit_fp"));
286 omit_fp_ret_addr_ent = new_entity(omit_fp_between_type, IDENT("ret_addr"), ret_addr_type);
288 set_entity_offset(omit_fp_ret_addr_ent, 0);
289 set_type_size_bytes(omit_fp_between_type, get_type_size_bytes(ret_addr_type));
290 set_type_state(omit_fp_between_type, layout_fixed);
296 * Produces the type which sits between the stack args and the locals on the stack.
297 * it will contain the return address and space to store the old base pointer.
298 * @return The Firm type modeling the ABI between type.
300 static ir_type *ia32_abi_get_between_type(ir_graph *irg)
302 const be_stack_layout_t *layout = be_get_irg_stack_layout(irg);
303 ia32_build_between_type();
304 return layout->sp_relative ? omit_fp_between_type : between_type;
308 * Return the stack entity that contains the return address.
310 ir_entity *ia32_get_return_address_entity(ir_graph *irg)
312 const be_stack_layout_t *layout = be_get_irg_stack_layout(irg);
313 ia32_build_between_type();
314 return layout->sp_relative ? omit_fp_ret_addr_ent : ret_addr_ent;
318 * Return the stack entity that contains the frame address.
320 ir_entity *ia32_get_frame_address_entity(ir_graph *irg)
322 const be_stack_layout_t *layout = be_get_irg_stack_layout(irg);
323 ia32_build_between_type();
324 return layout->sp_relative ? NULL : old_bp_ent;
328 * Get the estimated cycle count for @p irn.
330 * @param self The this pointer.
331 * @param irn The node.
333 * @return The estimated cycle count for this operation
335 static int ia32_get_op_estimated_cost(const ir_node *irn)
338 ia32_op_type_t op_tp;
342 if (!is_ia32_irn(irn))
345 assert(is_ia32_irn(irn));
347 cost = get_ia32_latency(irn);
348 op_tp = get_ia32_op_type(irn);
350 if (is_ia32_CopyB(irn)) {
353 else if (is_ia32_CopyB_i(irn)) {
354 int size = get_ia32_copyb_size(irn);
355 cost = 20 + (int)ceil((4/3) * size);
357 /* in case of address mode operations add additional cycles */
358 else if (op_tp == ia32_AddrModeD || op_tp == ia32_AddrModeS) {
360 In case of stack access and access to fixed addresses add 5 cycles
361 (we assume they are in cache), other memory operations cost 20
364 if (is_ia32_use_frame(irn) || (
365 is_ia32_NoReg_GP(get_irn_n(irn, n_ia32_base)) &&
366 is_ia32_NoReg_GP(get_irn_n(irn, n_ia32_index))
378 * Returns the inverse operation if @p irn, recalculating the argument at position @p i.
380 * @param irn The original operation
381 * @param i Index of the argument we want the inverse operation to yield
382 * @param inverse struct to be filled with the resulting inverse op
383 * @param obstack The obstack to use for allocation of the returned nodes array
384 * @return The inverse operation or NULL if operation invertible
386 static arch_inverse_t *ia32_get_inverse(const ir_node *irn, int i, arch_inverse_t *inverse, struct obstack *obst)
397 ir_node *block, *noreg, *nomem;
400 /* we cannot invert non-ia32 irns */
401 if (! is_ia32_irn(irn))
404 /* operand must always be a real operand (not base, index or mem) */
405 if (i != n_ia32_binary_left && i != n_ia32_binary_right)
408 /* we don't invert address mode operations */
409 if (get_ia32_op_type(irn) != ia32_Normal)
412 /* TODO: adjust for new immediates... */
413 ir_fprintf(stderr, "TODO: fix get_inverse for new immediates (%+F)\n",
417 block = get_nodes_block(irn);
418 mode = get_irn_mode(irn);
419 irn_mode = get_irn_mode(irn);
420 noreg = get_irn_n(irn, 0);
421 nomem = new_r_NoMem(irg);
422 dbg = get_irn_dbg_info(irn);
424 /* initialize structure */
425 inverse->nodes = obstack_alloc(obst, 2 * sizeof(inverse->nodes[0]));
429 switch (get_ia32_irn_opcode(irn)) {
431 if (get_ia32_immop_type(irn) == ia32_ImmConst) {
432 /* we have an add with a const here */
433 /* invers == add with negated const */
434 inverse->nodes[0] = new_bd_ia32_Add(dbg, block, noreg, noreg, nomem, get_irn_n(irn, i), noreg);
436 copy_ia32_Immop_attr(inverse->nodes[0], (ir_node *)irn);
437 set_ia32_Immop_tarval(inverse->nodes[0], tarval_neg(get_ia32_Immop_tarval(irn)));
438 set_ia32_commutative(inverse->nodes[0]);
440 else if (get_ia32_immop_type(irn) == ia32_ImmSymConst) {
441 /* we have an add with a symconst here */
442 /* invers == sub with const */
443 inverse->nodes[0] = new_bd_ia32_Sub(dbg, block, noreg, noreg, nomem, get_irn_n(irn, i), noreg);
445 copy_ia32_Immop_attr(inverse->nodes[0], (ir_node *)irn);
448 /* normal add: inverse == sub */
449 inverse->nodes[0] = new_bd_ia32_Sub(dbg, block, noreg, noreg, nomem, (ir_node*) irn, get_irn_n(irn, i ^ 1));
454 if (get_ia32_immop_type(irn) != ia32_ImmNone) {
455 /* we have a sub with a const/symconst here */
456 /* invers == add with this const */
457 inverse->nodes[0] = new_bd_ia32_Add(dbg, block, noreg, noreg, nomem, get_irn_n(irn, i), noreg);
458 inverse->costs += (get_ia32_immop_type(irn) == ia32_ImmSymConst) ? 5 : 1;
459 copy_ia32_Immop_attr(inverse->nodes[0], (ir_node *)irn);
463 if (i == n_ia32_binary_left) {
464 inverse->nodes[0] = new_bd_ia32_Add(dbg, block, noreg, noreg, nomem, (ir_node*) irn, get_irn_n(irn, 3));
467 inverse->nodes[0] = new_bd_ia32_Sub(dbg, block, noreg, noreg, nomem, get_irn_n(irn, n_ia32_binary_left), (ir_node*) irn);
473 if (get_ia32_immop_type(irn) != ia32_ImmNone) {
474 /* xor with const: inverse = xor */
475 inverse->nodes[0] = new_bd_ia32_Xor(dbg, block, noreg, noreg, nomem, get_irn_n(irn, i), noreg);
476 inverse->costs += (get_ia32_immop_type(irn) == ia32_ImmSymConst) ? 5 : 1;
477 copy_ia32_Immop_attr(inverse->nodes[0], (ir_node *)irn);
481 inverse->nodes[0] = new_bd_ia32_Xor(dbg, block, noreg, noreg, nomem, (ir_node *) irn, get_irn_n(irn, i));
486 inverse->nodes[0] = new_bd_ia32_Not(dbg, block, (ir_node*) irn);
491 inverse->nodes[0] = new_bd_ia32_Neg(dbg, block, (ir_node*) irn);
496 /* inverse operation not supported */
504 static ir_mode *get_spill_mode_mode(const ir_mode *mode)
506 if (mode_is_float(mode))
513 * Get the mode that should be used for spilling value node
515 static ir_mode *get_spill_mode(const ir_node *node)
517 ir_mode *mode = get_irn_mode(node);
518 return get_spill_mode_mode(mode);
522 * Checks whether an addressmode reload for a node with mode mode is compatible
523 * with a spillslot of mode spill_mode
525 static int ia32_is_spillmode_compatible(const ir_mode *mode, const ir_mode *spillmode)
527 return !mode_is_float(mode) || mode == spillmode;
531 * Check if irn can load its operand at position i from memory (source addressmode).
532 * @param irn The irn to be checked
533 * @param i The operands position
534 * @return Non-Zero if operand can be loaded
536 static int ia32_possible_memory_operand(const ir_node *irn, unsigned int i)
538 ir_node *op = get_irn_n(irn, i);
539 const ir_mode *mode = get_irn_mode(op);
540 const ir_mode *spillmode = get_spill_mode(op);
542 if (!is_ia32_irn(irn) || /* must be an ia32 irn */
543 get_ia32_op_type(irn) != ia32_Normal || /* must not already be a addressmode irn */
544 !ia32_is_spillmode_compatible(mode, spillmode) ||
545 is_ia32_use_frame(irn)) /* must not already use frame */
548 switch (get_ia32_am_support(irn)) {
553 if (i != n_ia32_unary_op)
559 case n_ia32_binary_left: {
560 const arch_register_req_t *req;
561 if (!is_ia32_commutative(irn))
564 /* we can't swap left/right for limited registers
565 * (As this (currently) breaks constraint handling copies)
567 req = arch_get_in_register_req(irn, n_ia32_binary_left);
568 if (req->type & arch_register_req_type_limited)
573 case n_ia32_binary_right:
582 panic("Unknown AM type");
585 /* HACK: must not already use "real" memory.
586 * This can happen for Call and Div */
587 if (!is_NoMem(get_irn_n(irn, n_ia32_mem)))
593 static void ia32_perform_memory_operand(ir_node *irn, ir_node *spill,
597 ir_mode *dest_op_mode;
599 assert(ia32_possible_memory_operand(irn, i) && "Cannot perform memory operand change");
601 set_ia32_op_type(irn, ia32_AddrModeS);
603 load_mode = get_irn_mode(get_irn_n(irn, i));
604 dest_op_mode = get_ia32_ls_mode(irn);
605 if (get_mode_size_bits(load_mode) <= get_mode_size_bits(dest_op_mode)) {
606 set_ia32_ls_mode(irn, load_mode);
608 set_ia32_use_frame(irn);
609 set_ia32_need_stackent(irn);
611 if (i == n_ia32_binary_left &&
612 get_ia32_am_support(irn) == ia32_am_binary &&
613 /* immediates are only allowed on the right side */
614 !is_ia32_Immediate(get_irn_n(irn, n_ia32_binary_right))) {
615 ia32_swap_left_right(irn);
616 i = n_ia32_binary_right;
619 assert(is_NoMem(get_irn_n(irn, n_ia32_mem)));
621 set_irn_n(irn, n_ia32_base, get_irg_frame(get_irn_irg(irn)));
622 set_irn_n(irn, n_ia32_mem, spill);
623 set_irn_n(irn, i, ia32_get_admissible_noreg(irn, i));
624 set_ia32_is_reload(irn);
627 static const be_abi_callbacks_t ia32_abi_callbacks = {
628 ia32_abi_get_between_type,
631 /* register allocator interface */
632 static const arch_irn_ops_t ia32_irn_ops = {
634 ia32_get_frame_entity,
635 ia32_set_frame_offset,
638 ia32_get_op_estimated_cost,
639 ia32_possible_memory_operand,
640 ia32_perform_memory_operand,
643 static ir_entity *mcount = NULL;
644 static int gprof = 0;
646 static void ia32_before_abi(ir_graph *irg)
649 if (mcount == NULL) {
650 ir_type *tp = new_type_method(0, 0);
651 ident *id = new_id_from_str("mcount");
652 mcount = new_entity(get_glob_type(), id, tp);
653 /* FIXME: enter the right ld_ident here */
654 set_entity_ld_ident(mcount, get_entity_ident(mcount));
655 set_entity_visibility(mcount, ir_visibility_external);
657 instrument_initcall(irg, mcount);
662 * Transforms the standard firm graph into
665 static void ia32_prepare_graph(ir_graph *irg)
667 ia32_irg_data_t *irg_data = ia32_get_irg_data(irg);
670 switch (be_transformer) {
671 case TRANSFORMER_DEFAULT:
672 /* transform remaining nodes into assembler instructions */
673 ia32_transform_graph(irg);
676 case TRANSFORMER_PBQP:
677 case TRANSFORMER_RAND:
678 /* transform nodes into assembler instructions by PBQP magic */
679 ia32_transform_graph_by_pbqp(irg);
683 panic("invalid transformer");
686 ia32_transform_graph(irg);
689 /* do local optimizations (mainly CSE) */
690 optimize_graph_df(irg);
693 dump_ir_graph(irg, "transformed");
695 /* optimize address mode */
696 ia32_optimize_graph(irg);
698 /* do code placement, to optimize the position of constants */
702 dump_ir_graph(irg, "place");
705 ir_node *ia32_turn_back_am(ir_node *node)
707 dbg_info *dbgi = get_irn_dbg_info(node);
708 ir_graph *irg = get_irn_irg(node);
709 ir_node *block = get_nodes_block(node);
710 ir_node *base = get_irn_n(node, n_ia32_base);
711 ir_node *index = get_irn_n(node, n_ia32_index);
712 ir_node *mem = get_irn_n(node, n_ia32_mem);
715 ir_node *load = new_bd_ia32_Load(dbgi, block, base, index, mem);
716 ir_node *load_res = new_rd_Proj(dbgi, load, mode_Iu, pn_ia32_Load_res);
718 ia32_copy_am_attrs(load, node);
719 if (is_ia32_is_reload(node))
720 set_ia32_is_reload(load);
721 set_irn_n(node, n_ia32_mem, new_r_NoMem(irg));
723 switch (get_ia32_am_support(node)) {
725 set_irn_n(node, n_ia32_unary_op, load_res);
729 if (is_ia32_Immediate(get_irn_n(node, n_ia32_binary_right))) {
730 set_irn_n(node, n_ia32_binary_left, load_res);
732 set_irn_n(node, n_ia32_binary_right, load_res);
737 panic("Unknown AM type");
739 noreg = ia32_new_NoReg_gp(current_ir_graph);
740 set_irn_n(node, n_ia32_base, noreg);
741 set_irn_n(node, n_ia32_index, noreg);
742 set_ia32_am_offs_int(node, 0);
743 set_ia32_am_sc(node, NULL);
744 set_ia32_am_scale(node, 0);
745 clear_ia32_am_sc_sign(node);
747 /* rewire mem-proj */
748 if (get_irn_mode(node) == mode_T) {
749 const ir_edge_t *edge;
750 foreach_out_edge(node, edge) {
751 ir_node *out = get_edge_src_irn(edge);
752 if (get_irn_mode(out) == mode_M) {
753 set_Proj_pred(out, load);
754 set_Proj_proj(out, pn_ia32_Load_M);
760 set_ia32_op_type(node, ia32_Normal);
761 if (sched_is_scheduled(node))
762 sched_add_before(node, load);
767 static ir_node *flags_remat(ir_node *node, ir_node *after)
769 /* we should turn back source address mode when rematerializing nodes */
774 if (is_Block(after)) {
777 block = get_nodes_block(after);
780 type = get_ia32_op_type(node);
783 ia32_turn_back_am(node);
787 /* TODO implement this later... */
788 panic("found DestAM with flag user %+F this should not happen", node);
791 default: assert(type == ia32_Normal); break;
794 copy = exact_copy(node);
795 set_nodes_block(copy, block);
796 sched_add_after(after, copy);
802 * Called before the register allocator.
804 static void ia32_before_ra(ir_graph *irg)
806 /* setup fpu rounding modes */
807 ia32_setup_fpu_mode(irg);
810 be_sched_fix_flags(irg, &ia32_reg_classes[CLASS_ia32_flags],
813 be_add_missing_keeps(irg);
818 * Transforms a be_Reload into a ia32 Load.
820 static void transform_to_Load(ir_node *node)
822 ir_graph *irg = get_irn_irg(node);
823 dbg_info *dbg = get_irn_dbg_info(node);
824 ir_node *block = get_nodes_block(node);
825 ir_entity *ent = be_get_frame_entity(node);
826 ir_mode *mode = get_irn_mode(node);
827 ir_mode *spillmode = get_spill_mode(node);
828 ir_node *noreg = ia32_new_NoReg_gp(irg);
829 ir_node *sched_point = NULL;
830 ir_node *ptr = get_irg_frame(irg);
831 ir_node *mem = get_irn_n(node, n_be_Reload_mem);
832 ir_node *new_op, *proj;
833 const arch_register_t *reg;
835 if (sched_is_scheduled(node)) {
836 sched_point = sched_prev(node);
839 if (mode_is_float(spillmode)) {
840 if (ia32_cg_config.use_sse2)
841 new_op = new_bd_ia32_xLoad(dbg, block, ptr, noreg, mem, spillmode);
843 new_op = new_bd_ia32_vfld(dbg, block, ptr, noreg, mem, spillmode);
845 else if (get_mode_size_bits(spillmode) == 128) {
846 /* Reload 128 bit SSE registers */
847 new_op = new_bd_ia32_xxLoad(dbg, block, ptr, noreg, mem);
850 new_op = new_bd_ia32_Load(dbg, block, ptr, noreg, mem);
852 set_ia32_op_type(new_op, ia32_AddrModeS);
853 set_ia32_ls_mode(new_op, spillmode);
854 set_ia32_frame_ent(new_op, ent);
855 set_ia32_use_frame(new_op);
856 set_ia32_is_reload(new_op);
858 DBG_OPT_RELOAD2LD(node, new_op);
860 proj = new_rd_Proj(dbg, new_op, mode, pn_ia32_Load_res);
863 sched_add_after(sched_point, new_op);
867 /* copy the register from the old node to the new Load */
868 reg = arch_get_irn_register(node);
869 arch_set_irn_register(proj, reg);
871 SET_IA32_ORIG_NODE(new_op, node);
873 exchange(node, proj);
877 * Transforms a be_Spill node into a ia32 Store.
879 static void transform_to_Store(ir_node *node)
881 ir_graph *irg = get_irn_irg(node);
882 dbg_info *dbg = get_irn_dbg_info(node);
883 ir_node *block = get_nodes_block(node);
884 ir_entity *ent = be_get_frame_entity(node);
885 const ir_node *spillval = get_irn_n(node, n_be_Spill_val);
886 ir_mode *mode = get_spill_mode(spillval);
887 ir_node *noreg = ia32_new_NoReg_gp(irg);
888 ir_node *nomem = new_r_NoMem(irg);
889 ir_node *ptr = get_irg_frame(irg);
890 ir_node *val = get_irn_n(node, n_be_Spill_val);
892 ir_node *sched_point = NULL;
894 if (sched_is_scheduled(node)) {
895 sched_point = sched_prev(node);
898 if (mode_is_float(mode)) {
899 if (ia32_cg_config.use_sse2)
900 store = new_bd_ia32_xStore(dbg, block, ptr, noreg, nomem, val);
902 store = new_bd_ia32_vfst(dbg, block, ptr, noreg, nomem, val, mode);
903 } else if (get_mode_size_bits(mode) == 128) {
904 /* Spill 128 bit SSE registers */
905 store = new_bd_ia32_xxStore(dbg, block, ptr, noreg, nomem, val);
906 } else if (get_mode_size_bits(mode) == 8) {
907 store = new_bd_ia32_Store8Bit(dbg, block, ptr, noreg, nomem, val);
909 store = new_bd_ia32_Store(dbg, block, ptr, noreg, nomem, val);
912 set_ia32_op_type(store, ia32_AddrModeD);
913 set_ia32_ls_mode(store, mode);
914 set_ia32_frame_ent(store, ent);
915 set_ia32_use_frame(store);
916 set_ia32_is_spill(store);
917 SET_IA32_ORIG_NODE(store, node);
918 DBG_OPT_SPILL2ST(node, store);
921 sched_add_after(sched_point, store);
925 exchange(node, store);
928 static ir_node *create_push(ir_node *node, ir_node *schedpoint, ir_node *sp, ir_node *mem, ir_entity *ent)
930 dbg_info *dbg = get_irn_dbg_info(node);
931 ir_node *block = get_nodes_block(node);
932 ir_graph *irg = get_irn_irg(node);
933 ir_node *noreg = ia32_new_NoReg_gp(irg);
934 ir_node *frame = get_irg_frame(irg);
936 ir_node *push = new_bd_ia32_Push(dbg, block, frame, noreg, mem, noreg, sp);
938 set_ia32_frame_ent(push, ent);
939 set_ia32_use_frame(push);
940 set_ia32_op_type(push, ia32_AddrModeS);
941 set_ia32_ls_mode(push, mode_Is);
942 set_ia32_is_spill(push);
944 sched_add_before(schedpoint, push);
948 static ir_node *create_pop(ir_node *node, ir_node *schedpoint, ir_node *sp, ir_entity *ent)
950 dbg_info *dbg = get_irn_dbg_info(node);
951 ir_node *block = get_nodes_block(node);
952 ir_graph *irg = get_irn_irg(node);
953 ir_node *noreg = ia32_new_NoReg_gp(irg);
954 ir_node *frame = get_irg_frame(irg);
956 ir_node *pop = new_bd_ia32_PopMem(dbg, block, frame, noreg, new_r_NoMem(irg), sp);
958 set_ia32_frame_ent(pop, ent);
959 set_ia32_use_frame(pop);
960 set_ia32_op_type(pop, ia32_AddrModeD);
961 set_ia32_ls_mode(pop, mode_Is);
962 set_ia32_is_reload(pop);
964 sched_add_before(schedpoint, pop);
969 static ir_node* create_spproj(ir_node *node, ir_node *pred, int pos)
971 dbg_info *dbg = get_irn_dbg_info(node);
972 ir_mode *spmode = mode_Iu;
973 const arch_register_t *spreg = &ia32_registers[REG_ESP];
976 sp = new_rd_Proj(dbg, pred, spmode, pos);
977 arch_set_irn_register(sp, spreg);
983 * Transform MemPerm, currently we do this the ugly way and produce
984 * push/pop into/from memory cascades. This is possible without using
987 static void transform_MemPerm(ir_node *node)
989 ir_node *block = get_nodes_block(node);
990 ir_graph *irg = get_irn_irg(node);
991 ir_node *sp = be_abi_get_ignore_irn(irg, &ia32_registers[REG_ESP]);
992 int arity = be_get_MemPerm_entity_arity(node);
993 ir_node **pops = ALLOCAN(ir_node*, arity);
997 const ir_edge_t *edge;
998 const ir_edge_t *next;
1001 for (i = 0; i < arity; ++i) {
1002 ir_entity *inent = be_get_MemPerm_in_entity(node, i);
1003 ir_entity *outent = be_get_MemPerm_out_entity(node, i);
1004 ir_type *enttype = get_entity_type(inent);
1005 unsigned entsize = get_type_size_bytes(enttype);
1006 unsigned entsize2 = get_type_size_bytes(get_entity_type(outent));
1007 ir_node *mem = get_irn_n(node, i + 1);
1010 /* work around cases where entities have different sizes */
1011 if (entsize2 < entsize)
1013 assert( (entsize == 4 || entsize == 8) && "spillslot on x86 should be 32 or 64 bit");
1015 push = create_push(node, node, sp, mem, inent);
1016 sp = create_spproj(node, push, pn_ia32_Push_stack);
1018 /* add another push after the first one */
1019 push = create_push(node, node, sp, mem, inent);
1020 add_ia32_am_offs_int(push, 4);
1021 sp = create_spproj(node, push, pn_ia32_Push_stack);
1024 set_irn_n(node, i, new_r_Bad(irg));
1028 for (i = arity - 1; i >= 0; --i) {
1029 ir_entity *inent = be_get_MemPerm_in_entity(node, i);
1030 ir_entity *outent = be_get_MemPerm_out_entity(node, i);
1031 ir_type *enttype = get_entity_type(outent);
1032 unsigned entsize = get_type_size_bytes(enttype);
1033 unsigned entsize2 = get_type_size_bytes(get_entity_type(inent));
1036 /* work around cases where entities have different sizes */
1037 if (entsize2 < entsize)
1039 assert( (entsize == 4 || entsize == 8) && "spillslot on x86 should be 32 or 64 bit");
1041 pop = create_pop(node, node, sp, outent);
1042 sp = create_spproj(node, pop, pn_ia32_Pop_stack);
1044 add_ia32_am_offs_int(pop, 4);
1046 /* add another pop after the first one */
1047 pop = create_pop(node, node, sp, outent);
1048 sp = create_spproj(node, pop, pn_ia32_Pop_stack);
1055 keep = be_new_Keep(block, 1, in);
1056 sched_add_before(node, keep);
1058 /* exchange memprojs */
1059 foreach_out_edge_safe(node, edge, next) {
1060 ir_node *proj = get_edge_src_irn(edge);
1061 int p = get_Proj_proj(proj);
1065 set_Proj_pred(proj, pops[p]);
1066 set_Proj_proj(proj, pn_ia32_Pop_M);
1069 /* remove memperm */
1070 arity = get_irn_arity(node);
1071 for (i = 0; i < arity; ++i) {
1072 set_irn_n(node, i, new_r_Bad(irg));
1078 * Block-Walker: Calls the transform functions Spill and Reload.
1080 static void ia32_after_ra_walker(ir_node *block, void *env)
1082 ir_node *node, *prev;
1085 /* beware: the schedule is changed here */
1086 for (node = sched_last(block); !sched_is_begin(node); node = prev) {
1087 prev = sched_prev(node);
1089 if (be_is_Reload(node)) {
1090 transform_to_Load(node);
1091 } else if (be_is_Spill(node)) {
1092 transform_to_Store(node);
1093 } else if (be_is_MemPerm(node)) {
1094 transform_MemPerm(node);
1100 * Collects nodes that need frame entities assigned.
1102 static void ia32_collect_frame_entity_nodes(ir_node *node, void *data)
1104 be_fec_env_t *env = (be_fec_env_t*)data;
1105 const ir_mode *mode;
1108 if (be_is_Reload(node) && be_get_frame_entity(node) == NULL) {
1109 mode = get_spill_mode_mode(get_irn_mode(node));
1110 align = get_mode_size_bytes(mode);
1111 } else if (is_ia32_irn(node) &&
1112 get_ia32_frame_ent(node) == NULL &&
1113 is_ia32_use_frame(node)) {
1114 if (is_ia32_need_stackent(node))
1117 switch (get_ia32_irn_opcode(node)) {
1119 case iro_ia32_Load: {
1120 const ia32_attr_t *attr = get_ia32_attr_const(node);
1122 if (attr->data.need_32bit_stackent) {
1124 } else if (attr->data.need_64bit_stackent) {
1127 mode = get_ia32_ls_mode(node);
1128 if (is_ia32_is_reload(node))
1129 mode = get_spill_mode_mode(mode);
1131 align = get_mode_size_bytes(mode);
1135 case iro_ia32_vfild:
1137 case iro_ia32_xLoad: {
1138 mode = get_ia32_ls_mode(node);
1143 case iro_ia32_FldCW: {
1144 /* although 2 byte would be enough 4 byte performs best */
1152 panic("unexpected frame user while collection frame entity nodes");
1154 case iro_ia32_FnstCW:
1155 case iro_ia32_Store8Bit:
1156 case iro_ia32_Store:
1159 case iro_ia32_vfist:
1160 case iro_ia32_vfisttp:
1162 case iro_ia32_xStore:
1163 case iro_ia32_xStoreSimple:
1170 be_node_needs_frame_entity(env, node, mode, align);
1173 static int determine_ebp_input(ir_node *ret)
1175 const arch_register_t *bp = &ia32_registers[REG_EBP];
1176 int arity = get_irn_arity(ret);
1179 for (i = 0; i < arity; ++i) {
1180 ir_node *input = get_irn_n(ret, i);
1181 if (arch_get_irn_register(input) == bp)
1184 panic("no ebp input found at %+F", ret);
1187 static void introduce_epilog(ir_node *ret)
1189 const arch_register_t *sp = &ia32_registers[REG_ESP];
1190 const arch_register_t *bp = &ia32_registers[REG_EBP];
1191 ir_graph *irg = get_irn_irg(ret);
1192 ir_type *frame_type = get_irg_frame_type(irg);
1193 unsigned frame_size = get_type_size_bytes(frame_type);
1194 be_stack_layout_t *layout = be_get_irg_stack_layout(irg);
1195 ir_node *block = get_nodes_block(ret);
1196 ir_node *first_sp = get_irn_n(ret, n_be_Return_sp);
1197 ir_node *curr_sp = first_sp;
1198 ir_mode *mode_gp = mode_Iu;
1200 if (!layout->sp_relative) {
1201 int n_ebp = determine_ebp_input(ret);
1202 ir_node *curr_bp = get_irn_n(ret, n_ebp);
1203 if (ia32_cg_config.use_leave) {
1204 ir_node *leave = new_bd_ia32_Leave(NULL, block, curr_bp);
1205 curr_bp = new_r_Proj(leave, mode_gp, pn_ia32_Leave_frame);
1206 curr_sp = new_r_Proj(leave, mode_gp, pn_ia32_Leave_stack);
1207 arch_set_irn_register(curr_bp, bp);
1208 arch_set_irn_register(curr_sp, sp);
1209 sched_add_before(ret, leave);
1212 ir_node *curr_mem = get_irn_n(ret, n_be_Return_mem);
1213 /* copy ebp to esp */
1214 curr_sp = new_bd_ia32_CopyEbpEsp(NULL, block, curr_bp);
1215 arch_set_irn_register(curr_sp, sp);
1216 sched_add_before(ret, curr_sp);
1219 pop = new_bd_ia32_PopEbp(NULL, block, curr_mem, curr_sp);
1220 curr_bp = new_r_Proj(pop, mode_gp, pn_ia32_PopEbp_res);
1221 curr_sp = new_r_Proj(pop, mode_gp, pn_ia32_PopEbp_stack);
1222 curr_mem = new_r_Proj(pop, mode_M, pn_ia32_Pop_M);
1223 arch_set_irn_register(curr_bp, bp);
1224 arch_set_irn_register(curr_sp, sp);
1225 sched_add_before(ret, pop);
1227 set_irn_n(ret, n_be_Return_mem, curr_mem);
1229 set_irn_n(ret, n_ebp, curr_bp);
1231 ir_node *incsp = be_new_IncSP(sp, block, curr_sp, -(int)frame_size, 0);
1232 sched_add_before(ret, incsp);
1235 set_irn_n(ret, n_be_Return_sp, curr_sp);
1237 /* keep verifier happy... */
1238 if (get_irn_n_edges(first_sp) == 0 && is_Proj(first_sp)) {
1239 kill_node(first_sp);
1244 * put the Prolog code at the beginning, epilog code before each return
1246 static void introduce_prolog_epilog(ir_graph *irg)
1248 const arch_register_t *sp = &ia32_registers[REG_ESP];
1249 const arch_register_t *bp = &ia32_registers[REG_EBP];
1250 ir_node *start = get_irg_start(irg);
1251 ir_node *block = get_nodes_block(start);
1252 ir_type *frame_type = get_irg_frame_type(irg);
1253 unsigned frame_size = get_type_size_bytes(frame_type);
1254 be_stack_layout_t *layout = be_get_irg_stack_layout(irg);
1255 ir_node *initial_sp = be_abi_get_ignore_irn(irg, sp);
1256 ir_node *curr_sp = initial_sp;
1257 ir_mode *mode_gp = mode_Iu;
1259 if (!layout->sp_relative) {
1261 ir_node *mem = get_irg_initial_mem(irg);
1262 ir_node *noreg = ia32_new_NoReg_gp(irg);
1263 ir_node *initial_bp = be_abi_get_ignore_irn(irg, bp);
1264 ir_node *curr_bp = initial_bp;
1265 ir_node *push = new_bd_ia32_Push(NULL, block, noreg, noreg, mem, curr_bp, curr_sp);
1268 curr_sp = new_r_Proj(push, mode_gp, pn_ia32_Push_stack);
1269 mem = new_r_Proj(push, mode_M, pn_ia32_Push_M);
1270 arch_set_irn_register(curr_sp, sp);
1271 sched_add_after(start, push);
1273 /* move esp to ebp */
1274 curr_bp = be_new_Copy(bp->reg_class, block, curr_sp);
1275 sched_add_after(push, curr_bp);
1276 be_set_constr_single_reg_out(curr_bp, 0, bp, arch_register_req_type_ignore);
1277 curr_sp = be_new_CopyKeep_single(sp->reg_class, block, curr_sp, curr_bp, mode_gp);
1278 sched_add_after(curr_bp, curr_sp);
1279 be_set_constr_single_reg_out(curr_sp, 0, sp, arch_register_req_type_produces_sp);
1280 edges_reroute(initial_bp, curr_bp);
1281 set_irn_n(push, n_ia32_Push_val, initial_bp);
1283 incsp = be_new_IncSP(sp, block, curr_sp, frame_size, 0);
1284 edges_reroute(initial_sp, incsp);
1285 set_irn_n(push, n_ia32_Push_stack, initial_sp);
1286 sched_add_after(curr_sp, incsp);
1288 layout->initial_bias = -4;
1290 ir_node *incsp = be_new_IncSP(sp, block, curr_sp, frame_size, 0);
1291 edges_reroute(initial_sp, incsp);
1292 be_set_IncSP_pred(incsp, curr_sp);
1293 sched_add_after(start, incsp);
1296 /* introduce epilog for every return node */
1298 ir_node *end_block = get_irg_end_block(irg);
1299 int arity = get_irn_arity(end_block);
1302 for (i = 0; i < arity; ++i) {
1303 ir_node *ret = get_irn_n(end_block, i);
1304 assert(be_is_Return(ret));
1305 introduce_epilog(ret);
1311 * We transform Spill and Reload here. This needs to be done before
1312 * stack biasing otherwise we would miss the corrected offset for these nodes.
1314 static void ia32_after_ra(ir_graph *irg)
1316 be_stack_layout_t *stack_layout = be_get_irg_stack_layout(irg);
1317 bool at_begin = stack_layout->sp_relative ? true : false;
1318 be_fec_env_t *fec_env = be_new_frame_entity_coalescer(irg);
1320 /* create and coalesce frame entities */
1321 irg_walk_graph(irg, NULL, ia32_collect_frame_entity_nodes, fec_env);
1322 be_assign_entities(fec_env, ia32_set_frame_entity, at_begin);
1323 be_free_frame_entity_coalescer(fec_env);
1325 irg_block_walk_graph(irg, NULL, ia32_after_ra_walker, NULL);
1327 introduce_prolog_epilog(irg);
1331 * Last touchups for the graph before emit: x87 simulation to replace the
1332 * virtual with real x87 instructions, creating a block schedule and peephole
1335 static void ia32_finish(ir_graph *irg)
1337 ia32_irg_data_t *irg_data = ia32_get_irg_data(irg);
1339 ia32_finish_irg(irg);
1341 /* we might have to rewrite x87 virtual registers */
1342 if (irg_data->do_x87_sim) {
1343 ia32_x87_simulate_graph(irg);
1346 /* do peephole optimisations */
1347 ia32_peephole_optimization(irg);
1349 /* create block schedule, this also removes empty blocks which might
1350 * produce critical edges */
1351 irg_data->blk_sched = be_create_block_schedule(irg);
1355 * Emits the code, closes the output file and frees
1356 * the code generator interface.
1358 static void ia32_emit(ir_graph *irg)
1360 if (ia32_cg_config.emit_machcode) {
1361 ia32_gen_binary_routine(irg);
1363 ia32_gen_routine(irg);
1368 * Returns the node representing the PIC base.
1370 static ir_node *ia32_get_pic_base(ir_graph *irg)
1372 ia32_irg_data_t *irg_data = ia32_get_irg_data(irg);
1374 ir_node *get_eip = irg_data->get_eip;
1375 if (get_eip != NULL)
1378 block = get_irg_start_block(irg);
1379 get_eip = new_bd_ia32_GetEIP(NULL, block);
1380 irg_data->get_eip = get_eip;
1386 * Initializes a IA32 code generator.
1388 static void ia32_init_graph(ir_graph *irg)
1390 struct obstack *obst = be_get_be_obst(irg);
1391 ia32_irg_data_t *irg_data = OALLOCZ(obst, ia32_irg_data_t);
1393 irg_data->dump = (be_get_irg_options(irg)->dump_flags & DUMP_BE) ? 1 : 0;
1396 /* Linux gprof implementation needs base pointer */
1397 be_get_irg_options(irg)->omit_fp = 0;
1400 be_birg_from_irg(irg)->isa_link = irg_data;
1405 * Set output modes for GCC
1407 static const tarval_mode_info mo_integer = {
1414 * set the tarval output mode of all integer modes to decimal
1416 static void set_tarval_output_modes(void)
1420 for (i = get_irp_n_modes(); i > 0;) {
1421 ir_mode *mode = get_irp_mode(--i);
1423 if (mode_is_int(mode))
1424 set_tarval_mode_output_option(mode, &mo_integer);
1428 extern const arch_isa_if_t ia32_isa_if;
1431 * The template that generates a new ISA object.
1432 * Note that this template can be changed by command line
1435 static ia32_isa_t ia32_isa_template = {
1437 &ia32_isa_if, /* isa interface implementation */
1442 &ia32_registers[REG_ESP], /* stack pointer register */
1443 &ia32_registers[REG_EBP], /* base pointer register */
1444 &ia32_reg_classes[CLASS_ia32_gp], /* static link pointer register class */
1445 2, /* power of two stack alignment, 2^2 == 4 */
1446 NULL, /* main environment */
1447 7, /* costs for a spill instruction */
1448 5, /* costs for a reload instruction */
1449 false, /* no custom abi handling */
1453 NULL, /* abstract machine */
1456 static void init_asm_constraints(void)
1458 be_init_default_asm_constraint_flags();
1460 asm_constraint_flags['a'] = ASM_CONSTRAINT_FLAG_SUPPORTS_REGISTER;
1461 asm_constraint_flags['b'] = ASM_CONSTRAINT_FLAG_SUPPORTS_REGISTER;
1462 asm_constraint_flags['c'] = ASM_CONSTRAINT_FLAG_SUPPORTS_REGISTER;
1463 asm_constraint_flags['d'] = ASM_CONSTRAINT_FLAG_SUPPORTS_REGISTER;
1464 asm_constraint_flags['D'] = ASM_CONSTRAINT_FLAG_SUPPORTS_REGISTER;
1465 asm_constraint_flags['S'] = ASM_CONSTRAINT_FLAG_SUPPORTS_REGISTER;
1466 asm_constraint_flags['Q'] = ASM_CONSTRAINT_FLAG_SUPPORTS_REGISTER;
1467 asm_constraint_flags['q'] = ASM_CONSTRAINT_FLAG_SUPPORTS_REGISTER;
1468 asm_constraint_flags['A'] = ASM_CONSTRAINT_FLAG_SUPPORTS_REGISTER;
1469 asm_constraint_flags['l'] = ASM_CONSTRAINT_FLAG_SUPPORTS_REGISTER;
1470 asm_constraint_flags['R'] = ASM_CONSTRAINT_FLAG_SUPPORTS_REGISTER;
1471 asm_constraint_flags['r'] = ASM_CONSTRAINT_FLAG_SUPPORTS_REGISTER;
1472 asm_constraint_flags['p'] = ASM_CONSTRAINT_FLAG_SUPPORTS_REGISTER;
1473 asm_constraint_flags['f'] = ASM_CONSTRAINT_FLAG_SUPPORTS_REGISTER;
1474 asm_constraint_flags['t'] = ASM_CONSTRAINT_FLAG_SUPPORTS_REGISTER;
1475 asm_constraint_flags['u'] = ASM_CONSTRAINT_FLAG_SUPPORTS_REGISTER;
1476 asm_constraint_flags['Y'] = ASM_CONSTRAINT_FLAG_SUPPORTS_REGISTER;
1477 asm_constraint_flags['X'] = ASM_CONSTRAINT_FLAG_SUPPORTS_REGISTER;
1478 asm_constraint_flags['n'] = ASM_CONSTRAINT_FLAG_SUPPORTS_IMMEDIATE;
1479 asm_constraint_flags['g'] = ASM_CONSTRAINT_FLAG_SUPPORTS_IMMEDIATE;
1481 /* no support for autodecrement/autoincrement */
1482 asm_constraint_flags['<'] = ASM_CONSTRAINT_FLAG_NO_SUPPORT;
1483 asm_constraint_flags['>'] = ASM_CONSTRAINT_FLAG_NO_SUPPORT;
1484 /* no float consts */
1485 asm_constraint_flags['E'] = ASM_CONSTRAINT_FLAG_NO_SUPPORT;
1486 asm_constraint_flags['F'] = ASM_CONSTRAINT_FLAG_NO_SUPPORT;
1487 /* makes no sense on x86 */
1488 asm_constraint_flags['s'] = ASM_CONSTRAINT_FLAG_NO_SUPPORT;
1489 /* no support for sse consts yet */
1490 asm_constraint_flags['C'] = ASM_CONSTRAINT_FLAG_NO_SUPPORT;
1491 /* no support for x87 consts yet */
1492 asm_constraint_flags['G'] = ASM_CONSTRAINT_FLAG_NO_SUPPORT;
1493 /* no support for mmx registers yet */
1494 asm_constraint_flags['y'] = ASM_CONSTRAINT_FLAG_NO_SUPPORT;
1495 /* not available in 32bit mode */
1496 asm_constraint_flags['Z'] = ASM_CONSTRAINT_FLAG_NO_SUPPORT;
1497 asm_constraint_flags['e'] = ASM_CONSTRAINT_FLAG_NO_SUPPORT;
1499 /* no code yet to determine register class needed... */
1500 asm_constraint_flags['X'] = ASM_CONSTRAINT_FLAG_NO_SUPPORT;
1504 * Initializes the backend ISA.
1506 static arch_env_t *ia32_init(FILE *file_handle)
1508 ia32_isa_t *isa = XMALLOC(ia32_isa_t);
1510 set_tarval_output_modes();
1512 memcpy(isa, &ia32_isa_template, sizeof(*isa));
1514 if (ia32_mode_fpcw == NULL) {
1515 ia32_mode_fpcw = new_ir_mode("Fpcw", irms_int_number, 16, 0, irma_none, 0);
1518 ia32_register_init();
1519 ia32_create_opcodes(&ia32_irn_ops);
1521 be_emit_init(file_handle);
1522 isa->types = pmap_create();
1523 isa->tv_ent = pmap_create();
1524 isa->cpu = ia32_init_machine_description();
1526 /* enter the ISA object into the intrinsic environment */
1527 intrinsic_env.isa = isa;
1535 * Closes the output file and frees the ISA structure.
1537 static void ia32_done(void *self)
1539 ia32_isa_t *isa = (ia32_isa_t*)self;
1541 /* emit now all global declarations */
1542 be_gas_emit_decls(isa->base.main_env);
1544 pmap_destroy(isa->tv_ent);
1545 pmap_destroy(isa->types);
1554 * Get the register class which shall be used to store a value of a given mode.
1555 * @param self The this pointer.
1556 * @param mode The mode in question.
1557 * @return A register class which can hold values of the given mode.
1559 static const arch_register_class_t *ia32_get_reg_class_for_mode(const ir_mode *mode)
1561 if (mode_is_float(mode)) {
1562 return ia32_cg_config.use_sse2 ? &ia32_reg_classes[CLASS_ia32_xmm] : &ia32_reg_classes[CLASS_ia32_vfp];
1565 return &ia32_reg_classes[CLASS_ia32_gp];
1569 * Returns the register for parameter nr.
1571 static const arch_register_t *ia32_get_RegParam_reg(unsigned cc, unsigned nr,
1572 const ir_mode *mode)
1574 static const arch_register_t *gpreg_param_reg_fastcall[] = {
1575 &ia32_registers[REG_ECX],
1576 &ia32_registers[REG_EDX],
1579 static const unsigned MAXNUM_GPREG_ARGS = 3;
1581 static const arch_register_t *gpreg_param_reg_regparam[] = {
1582 &ia32_registers[REG_EAX],
1583 &ia32_registers[REG_EDX],
1584 &ia32_registers[REG_ECX]
1587 static const arch_register_t *gpreg_param_reg_this[] = {
1588 &ia32_registers[REG_ECX],
1593 static const arch_register_t *fpreg_sse_param_reg_std[] = {
1594 &ia32_registers[REG_XMM0],
1595 &ia32_registers[REG_XMM1],
1596 &ia32_registers[REG_XMM2],
1597 &ia32_registers[REG_XMM3],
1598 &ia32_registers[REG_XMM4],
1599 &ia32_registers[REG_XMM5],
1600 &ia32_registers[REG_XMM6],
1601 &ia32_registers[REG_XMM7]
1604 static const arch_register_t *fpreg_sse_param_reg_this[] = {
1605 NULL, /* in case of a "this" pointer, the first parameter must not be a float */
1607 static const unsigned MAXNUM_SSE_ARGS = 8;
1609 if ((cc & cc_this_call) && nr == 0)
1610 return gpreg_param_reg_this[0];
1612 if (! (cc & cc_reg_param))
1615 if (mode_is_float(mode)) {
1616 if (!ia32_cg_config.use_sse2 || (cc & cc_fpreg_param) == 0)
1618 if (nr >= MAXNUM_SSE_ARGS)
1621 if (cc & cc_this_call) {
1622 return fpreg_sse_param_reg_this[nr];
1624 return fpreg_sse_param_reg_std[nr];
1625 } else if (mode_is_int(mode) || mode_is_reference(mode)) {
1626 unsigned num_regparam;
1628 if (get_mode_size_bits(mode) > 32)
1631 if (nr >= MAXNUM_GPREG_ARGS)
1634 if (cc & cc_this_call) {
1635 return gpreg_param_reg_this[nr];
1637 num_regparam = cc & ~cc_bits;
1638 if (num_regparam == 0) {
1639 /* default fastcall */
1640 return gpreg_param_reg_fastcall[nr];
1642 if (nr < num_regparam)
1643 return gpreg_param_reg_regparam[nr];
1647 panic("unknown argument mode");
1651 * Get the ABI restrictions for procedure calls.
1652 * @param self The this pointer.
1653 * @param method_type The type of the method (procedure) in question.
1654 * @param abi The abi object to be modified
1656 static void ia32_get_call_abi(const void *self, ir_type *method_type,
1664 be_abi_call_flags_t call_flags = be_abi_call_get_flags(abi);
1668 /* set abi flags for calls */
1669 call_flags.bits.left_to_right = 0; /* always last arg first on stack */
1670 call_flags.bits.store_args_sequential = 0;
1671 /* call_flags.bits.try_omit_fp not changed: can handle both settings */
1672 call_flags.bits.fp_free = 0; /* the frame pointer is fixed in IA32 */
1673 call_flags.bits.call_has_imm = 0; /* No call immediate, we handle this by ourselves */
1675 /* set parameter passing style */
1676 be_abi_call_set_flags(abi, call_flags, &ia32_abi_callbacks);
1678 cc = get_method_calling_convention(method_type);
1679 if (get_method_variadicity(method_type) == variadicity_variadic) {
1680 /* pass all parameters of a variadic function on the stack */
1681 cc = cc_cdecl_set | (cc & cc_this_call);
1683 if (get_method_additional_properties(method_type) & mtp_property_private &&
1684 ia32_cg_config.optimize_cc) {
1685 /* set the fast calling conventions (allowing up to 3) */
1686 cc = SET_FASTCALL(cc) | 3;
1690 /* we have to pop the shadow parameter ourself for compound calls */
1691 if ( (get_method_calling_convention(method_type) & cc_compound_ret)
1692 && !(cc & cc_reg_param)) {
1693 pop_amount += get_mode_size_bytes(mode_P_data);
1696 n = get_method_n_params(method_type);
1697 for (i = regnum = 0; i < n; i++) {
1699 const arch_register_t *reg = NULL;
1701 tp = get_method_param_type(method_type, i);
1702 mode = get_type_mode(tp);
1704 reg = ia32_get_RegParam_reg(cc, regnum, mode);
1707 be_abi_call_param_reg(abi, i, reg, ABI_CONTEXT_BOTH);
1710 /* Micro optimisation: if the mode is shorter than 4 bytes, load 4 bytes.
1711 * movl has a shorter opcode than mov[sz][bw]l */
1712 ir_mode *load_mode = mode;
1715 unsigned size = get_mode_size_bytes(mode);
1717 if (cc & cc_callee_clear_stk) {
1718 pop_amount += (size + 3U) & ~3U;
1721 if (size < 4) load_mode = mode_Iu;
1724 be_abi_call_param_stack(abi, i, load_mode, 4, 0, 0, ABI_CONTEXT_BOTH);
1728 be_abi_call_set_pop(abi, pop_amount);
1730 /* set return registers */
1731 n = get_method_n_ress(method_type);
1733 assert(n <= 2 && "more than two results not supported");
1735 /* In case of 64bit returns, we will have two 32bit values */
1737 tp = get_method_res_type(method_type, 0);
1738 mode = get_type_mode(tp);
1740 assert(!mode_is_float(mode) && "two FP results not supported");
1742 tp = get_method_res_type(method_type, 1);
1743 mode = get_type_mode(tp);
1745 assert(!mode_is_float(mode) && "mixed INT, FP results not supported");
1747 be_abi_call_res_reg(abi, 0, &ia32_registers[REG_EAX], ABI_CONTEXT_BOTH);
1748 be_abi_call_res_reg(abi, 1, &ia32_registers[REG_EDX], ABI_CONTEXT_BOTH);
1751 const arch_register_t *reg;
1753 tp = get_method_res_type(method_type, 0);
1754 assert(is_atomic_type(tp));
1755 mode = get_type_mode(tp);
1757 reg = mode_is_float(mode) ? &ia32_registers[REG_VF0] : &ia32_registers[REG_EAX];
1759 be_abi_call_res_reg(abi, 0, reg, ABI_CONTEXT_BOTH);
1764 * Returns the necessary byte alignment for storing a register of given class.
1766 static int ia32_get_reg_class_alignment(const arch_register_class_t *cls)
1768 ir_mode *mode = arch_register_class_mode(cls);
1769 int bytes = get_mode_size_bytes(mode);
1771 if (mode_is_float(mode) && bytes > 8)
1777 * Return irp irgs in the desired order.
1779 static ir_graph **ia32_get_irg_list(const void *self, ir_graph ***irg_list)
1786 static void ia32_mark_remat(ir_node *node)
1788 if (is_ia32_irn(node)) {
1789 set_ia32_is_remat(node);
1794 * Check if Mux(sel, mux_true, mux_false) would represent a Max or Min operation
1796 static bool mux_is_float_min_max(ir_node *sel, ir_node *mux_true,
1801 ir_relation relation;
1806 cmp_l = get_Cmp_left(sel);
1807 cmp_r = get_Cmp_right(sel);
1808 if (!mode_is_float(get_irn_mode(cmp_l)))
1811 /* check for min/max. They're defined as (C-Semantik):
1812 * min(a, b) = a < b ? a : b
1813 * or min(a, b) = a <= b ? a : b
1814 * max(a, b) = a > b ? a : b
1815 * or max(a, b) = a >= b ? a : b
1816 * (Note we only handle float min/max here)
1818 relation = get_Cmp_relation(sel);
1820 case ir_relation_greater_equal:
1821 case ir_relation_greater:
1823 if (cmp_l == mux_true && cmp_r == mux_false)
1826 case ir_relation_less_equal:
1827 case ir_relation_less:
1829 if (cmp_l == mux_true && cmp_r == mux_false)
1832 case ir_relation_unordered_greater_equal:
1833 case ir_relation_unordered_greater:
1835 if (cmp_l == mux_false && cmp_r == mux_true)
1838 case ir_relation_unordered_less_equal:
1839 case ir_relation_unordered_less:
1841 if (cmp_l == mux_false && cmp_r == mux_true)
1852 static bool mux_is_set(ir_node *sel, ir_node *mux_true, ir_node *mux_false)
1854 ir_mode *mode = get_irn_mode(mux_true);
1857 if (!mode_is_int(mode) && !mode_is_reference(mode)
1861 if (is_Const(mux_true) && is_Const(mux_false)) {
1862 /* we can create a set plus up two 3 instructions for any combination
1870 static bool mux_is_float_const_const(ir_node *sel, ir_node *mux_true,
1875 if (!mode_is_float(get_irn_mode(mux_true)))
1878 return is_Const(mux_true) && is_Const(mux_false);
1881 static bool mux_is_doz(ir_node *sel, ir_node *mux_true, ir_node *mux_false)
1888 ir_relation relation;
1893 mode = get_irn_mode(mux_true);
1894 if (mode_is_signed(mode) || mode_is_float(mode))
1897 relation = get_Cmp_relation(sel);
1898 cmp_left = get_Cmp_left(sel);
1899 cmp_right = get_Cmp_right(sel);
1901 /* "move" zero constant to false input */
1902 if (is_Const(mux_true) && is_Const_null(mux_true)) {
1903 ir_node *tmp = mux_false;
1904 mux_false = mux_true;
1906 relation = get_negated_relation(relation);
1908 if (!is_Const(mux_false) || !is_Const_null(mux_false))
1910 if (!is_Sub(mux_true))
1912 sub_left = get_Sub_left(mux_true);
1913 sub_right = get_Sub_right(mux_true);
1915 /* Mux(a >=u b, 0, a-b) */
1916 if ((relation & ir_relation_greater)
1917 && sub_left == cmp_left && sub_right == cmp_right)
1919 /* Mux(a <=u b, 0, b-a) */
1920 if ((relation & ir_relation_less)
1921 && sub_left == cmp_right && sub_right == cmp_left)
1927 static int ia32_is_mux_allowed(ir_node *sel, ir_node *mux_false,
1932 /* we can handle Set for all modes and compares */
1933 if (mux_is_set(sel, mux_true, mux_false))
1935 /* SSE has own min/max operations */
1936 if (ia32_cg_config.use_sse2
1937 && mux_is_float_min_max(sel, mux_true, mux_false))
1939 /* we can handle Mux(?, Const[f], Const[f]) */
1940 if (mux_is_float_const_const(sel, mux_true, mux_false)) {
1941 #ifdef FIRM_GRGEN_BE
1942 /* well, some code selectors can't handle it */
1943 if (be_transformer != TRANSFORMER_PBQP
1944 || be_transformer != TRANSFORMER_RAND)
1951 /* no support for 64bit inputs to cmov */
1952 mode = get_irn_mode(mux_true);
1953 if (get_mode_size_bits(mode) > 32)
1955 /* we can handle Abs for all modes and compares (except 64bit) */
1956 if (be_mux_is_abs(sel, mux_true, mux_false) != 0)
1958 /* we can't handle MuxF yet */
1959 if (mode_is_float(mode))
1962 if (mux_is_doz(sel, mux_true, mux_false))
1965 /* Check Cmp before the node */
1967 ir_mode *cmp_mode = get_irn_mode(get_Cmp_left(sel));
1969 /* we can't handle 64bit compares */
1970 if (get_mode_size_bits(cmp_mode) > 32)
1973 /* we can't handle float compares */
1974 if (mode_is_float(cmp_mode))
1978 /* did we disable cmov generation? */
1979 if (!ia32_cg_config.use_cmov)
1982 /* we can use a cmov */
1986 static asm_constraint_flags_t ia32_parse_asm_constraint(const char **c)
1990 /* we already added all our simple flags to the flags modifier list in
1991 * init, so this flag we don't know. */
1992 return ASM_CONSTRAINT_FLAG_INVALID;
1995 static int ia32_is_valid_clobber(const char *clobber)
1997 return ia32_get_clobber_register(clobber) != NULL;
2000 static ir_node *ia32_create_set(ir_node *cond)
2002 /* ia32-set function produces 8-bit results which have to be converted */
2003 ir_node *set = ir_create_mux_set(cond, mode_Bu);
2004 ir_node *block = get_nodes_block(set);
2005 return new_r_Conv(block, set, mode_Iu);
2008 static void ia32_lower_for_target(void)
2010 size_t i, n_irgs = get_irp_n_irgs();
2011 lower_mode_b_config_t lower_mode_b_config = {
2012 mode_Iu, /* lowered mode */
2014 0, /* don't lower direct compares */
2016 lower_params_t params = {
2017 4, /* def_ptr_alignment */
2018 LF_COMPOUND_RETURN | LF_RETURN_HIDDEN, /* flags */
2019 ADD_HIDDEN_ALWAYS_IN_FRONT, /* hidden_params */
2020 NULL, /* find pointer type */
2021 NULL, /* ret_compound_in_regs */
2024 /* perform doubleword lowering */
2025 lwrdw_param_t lower_dw_params = {
2026 1, /* little endian */
2027 64, /* doubleword size */
2028 ia32_create_intrinsic_fkt,
2032 /* lower compound param handling */
2033 lower_calls_with_compounds(¶ms);
2035 lower_dw_ops(&lower_dw_params);
2037 for (i = 0; i < n_irgs; ++i) {
2038 ir_graph *irg = get_irp_irg(i);
2039 /* lower for mode_b stuff */
2040 ir_lower_mode_b(irg, &lower_mode_b_config);
2041 /* break up switches with wide ranges */
2042 lower_switch(irg, 256, true);
2047 * Create the trampoline code.
2049 static ir_node *ia32_create_trampoline_fkt(ir_node *block, ir_node *mem, ir_node *trampoline, ir_node *env, ir_node *callee)
2051 ir_graph *irg = get_irn_irg(block);
2052 ir_node *p = trampoline;
2053 ir_mode *mode = get_irn_mode(p);
2057 st = new_r_Store(block, mem, p, new_r_Const_long(irg, mode_Bu, 0xb9), cons_none);
2058 mem = new_r_Proj(st, mode_M, pn_Store_M);
2059 p = new_r_Add(block, p, new_r_Const_long(irg, mode_Iu, 1), mode);
2060 st = new_r_Store(block, mem, p, env, cons_none);
2061 mem = new_r_Proj(st, mode_M, pn_Store_M);
2062 p = new_r_Add(block, p, new_r_Const_long(irg, mode_Iu, 4), mode);
2064 st = new_r_Store(block, mem, p, new_r_Const_long(irg, mode_Bu, 0xe9), cons_none);
2065 mem = new_r_Proj(st, mode_M, pn_Store_M);
2066 p = new_r_Add(block, p, new_r_Const_long(irg, mode_Iu, 1), mode);
2067 st = new_r_Store(block, mem, p, callee, cons_none);
2068 mem = new_r_Proj(st, mode_M, pn_Store_M);
2069 p = new_r_Add(block, p, new_r_Const_long(irg, mode_Iu, 4), mode);
2075 * Returns the libFirm configuration parameter for this backend.
2077 static const backend_params *ia32_get_libfirm_params(void)
2079 static const ir_settings_arch_dep_t ad = {
2080 1, /* also use subs */
2081 4, /* maximum shifts */
2082 63, /* maximum shift amount */
2083 ia32_evaluate_insn, /* evaluate the instruction sequence */
2085 1, /* allow Mulhs */
2086 1, /* allow Mulus */
2087 32, /* Mulh allowed up to 32 bit */
2089 static backend_params p = {
2090 1, /* support inline assembly */
2091 1, /* support Rotl nodes */
2092 0, /* little endian */
2093 NULL, /* will be set later */
2094 ia32_is_mux_allowed,
2095 NULL, /* float arithmetic mode, will be set below */
2096 12, /* size of trampoline code */
2097 4, /* alignment of trampoline code */
2098 ia32_create_trampoline_fkt,
2099 4 /* alignment of stack parameter */
2102 ia32_setup_cg_config();
2104 /* doesn't really belong here, but this is the earliest place the backend
2106 init_asm_constraints();
2109 if (! ia32_cg_config.use_sse2)
2110 p.mode_float_arithmetic = mode_E;
2114 static const lc_opt_enum_int_items_t gas_items[] = {
2115 { "elf", OBJECT_FILE_FORMAT_ELF },
2116 { "mingw", OBJECT_FILE_FORMAT_COFF },
2117 { "macho", OBJECT_FILE_FORMAT_MACH_O },
2121 static lc_opt_enum_int_var_t gas_var = {
2122 (int*) &be_gas_object_file_format, gas_items
2125 #ifdef FIRM_GRGEN_BE
2126 static const lc_opt_enum_int_items_t transformer_items[] = {
2127 { "default", TRANSFORMER_DEFAULT },
2128 { "pbqp", TRANSFORMER_PBQP },
2129 { "random", TRANSFORMER_RAND },
2133 static lc_opt_enum_int_var_t transformer_var = {
2134 (int*)&be_transformer, transformer_items
2138 static const lc_opt_table_entry_t ia32_options[] = {
2139 LC_OPT_ENT_ENUM_INT("gasmode", "set the GAS compatibility mode", &gas_var),
2140 #ifdef FIRM_GRGEN_BE
2141 LC_OPT_ENT_ENUM_INT("transformer", "the transformer used for code selection", &transformer_var),
2143 LC_OPT_ENT_INT ("stackalign", "set power of two stack alignment for calls",
2144 &ia32_isa_template.base.stack_alignment),
2145 LC_OPT_ENT_BOOL("gprof", "create gprof profiling code", &gprof),
2149 const arch_isa_if_t ia32_isa_if = {
2151 ia32_lower_for_target,
2153 ia32_handle_intrinsics,
2154 ia32_get_reg_class_for_mode,
2156 ia32_get_reg_class_alignment,
2157 ia32_get_libfirm_params,
2160 ia32_parse_asm_constraint,
2161 ia32_is_valid_clobber,
2164 ia32_get_pic_base, /* return node used as base in pic code addresses */
2165 ia32_before_abi, /* before abi introduce hook */
2167 ia32_before_ra, /* before register allocation hook */
2168 ia32_after_ra, /* after register allocation hook */
2169 ia32_finish, /* called before codegen */
2170 ia32_emit, /* emit && done */
2173 BE_REGISTER_MODULE_CONSTRUCTOR(be_init_arch_ia32);
2174 void be_init_arch_ia32(void)
2176 lc_opt_entry_t *be_grp = lc_opt_get_grp(firm_opt_get_root(), "be");
2177 lc_opt_entry_t *ia32_grp = lc_opt_get_grp(be_grp, "ia32");
2179 lc_opt_add_table(ia32_grp, ia32_options);
2180 be_register_isa_if("ia32", &ia32_isa_if);
2182 FIRM_DBG_REGISTER(dbg, "firm.be.ia32.cg");
2184 ia32_init_emitter();
2186 ia32_init_optimize();
2187 ia32_init_transform();
2189 ia32_init_architecture();