2 * Copyright (C) 1995-2011 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 Load/Store optimizations.
23 * @author Michael Beck
30 #include "iroptimize.h"
32 #include "irgraph_t.h"
39 #include "dbginfo_t.h"
40 #include "iropt_dbg.h"
46 #include "opt_polymorphy.h"
48 #include "irphase_t.h"
54 /** The debug handle. */
55 DEBUG_ONLY(static firm_dbg_module_t *dbg;)
58 #define IMAX(a,b) ((a) > (b) ? (a) : (b))
60 #define MAX_PROJ IMAX(IMAX((long)pn_Load_max, (long)pn_Store_max), (long)pn_Call_max)
63 DF_CHANGED = 1, /**< data flow changed */
64 CF_CHANGED = 2, /**< control flow changed */
70 typedef struct walk_env_t {
71 struct obstack obst; /**< list of all stores */
72 unsigned changes; /**< a bitmask of graph changes */
75 /** A Load/Store info. */
76 typedef struct ldst_info_t {
77 ir_node *projs[MAX_PROJ]; /**< list of Proj's of this node */
78 ir_node *exc_block; /**< the exception block if available */
79 int exc_idx; /**< predecessor index in the exception block */
80 unsigned visited; /**< visited counter for breaking loops */
84 * flags for control flow.
87 BLOCK_HAS_COND = 1, /**< Block has conditional control flow */
88 BLOCK_HAS_EXC = 2 /**< Block has exceptional control flow */
94 typedef struct block_info_t {
95 unsigned flags; /**< flags for the block */
98 /** the master visited flag for loop detection. */
99 static unsigned master_visited = 0;
101 #define INC_MASTER() ++master_visited
102 #define MARK_NODE(info) (info)->visited = master_visited
103 #define NODE_VISITED(info) (info)->visited >= master_visited
106 * get the Load/Store info of a node
108 static ldst_info_t *get_ldst_info(ir_node *node, struct obstack *obst)
110 ldst_info_t *info = (ldst_info_t*)get_irn_link(node);
113 info = OALLOCZ(obst, ldst_info_t);
114 set_irn_link(node, info);
117 } /* get_ldst_info */
120 * get the Block info of a node
122 static block_info_t *get_block_info(ir_node *node, struct obstack *obst)
124 block_info_t *info = (block_info_t*)get_irn_link(node);
127 info = OALLOCZ(obst, block_info_t);
128 set_irn_link(node, info);
131 } /* get_block_info */
134 * update the projection info for a Load/Store
136 static unsigned update_projs(ldst_info_t *info, ir_node *proj)
138 long nr = get_Proj_proj(proj);
140 assert(0 <= nr && nr <= MAX_PROJ && "Wrong proj from LoadStore");
142 if (info->projs[nr]) {
143 /* there is already one, do CSE */
144 exchange(proj, info->projs[nr]);
148 info->projs[nr] = proj;
154 * update the exception block info for a Load/Store node.
156 * @param info the load/store info struct
157 * @param block the exception handler block for this load/store
158 * @param pos the control flow input of the block
160 static unsigned update_exc(ldst_info_t *info, ir_node *block, int pos)
162 assert(info->exc_block == NULL && "more than one exception block found");
164 info->exc_block = block;
169 /** Return the number of uses of an address node */
170 #define get_irn_n_uses(adr) get_irn_n_edges(adr)
173 * walker, collects all Load/Store/Proj nodes
175 * walks from Start -> End
177 static void collect_nodes(ir_node *node, void *env)
179 walk_env_t *wenv = (walk_env_t *)env;
180 unsigned opcode = get_irn_opcode(node);
181 ir_node *pred, *blk, *pred_blk;
182 ldst_info_t *ldst_info;
184 if (opcode == iro_Proj) {
185 pred = get_Proj_pred(node);
186 opcode = get_irn_opcode(pred);
188 if (opcode == iro_Load || opcode == iro_Store || opcode == iro_Call) {
189 ldst_info = get_ldst_info(pred, &wenv->obst);
191 wenv->changes |= update_projs(ldst_info, node);
194 * Place the Proj's to the same block as the
195 * predecessor Load. This is always ok and prevents
196 * "non-SSA" form after optimizations if the Proj
197 * is in a wrong block.
199 blk = get_nodes_block(node);
200 pred_blk = get_nodes_block(pred);
201 if (blk != pred_blk) {
202 wenv->changes |= DF_CHANGED;
203 set_nodes_block(node, pred_blk);
206 } else if (opcode == iro_Block) {
209 for (i = get_Block_n_cfgpreds(node) - 1; i >= 0; --i) {
210 ir_node *pred_block, *proj;
211 block_info_t *bl_info;
214 pred = proj = get_Block_cfgpred(node, i);
217 pred = get_Proj_pred(proj);
218 is_exc = get_Proj_proj(proj) == pn_Generic_X_except;
221 /* ignore Bad predecessors, they will be removed later */
225 pred_block = get_nodes_block(pred);
226 bl_info = get_block_info(pred_block, &wenv->obst);
228 if (is_fragile_op(pred) && is_exc)
229 bl_info->flags |= BLOCK_HAS_EXC;
230 else if (is_irn_forking(pred))
231 bl_info->flags |= BLOCK_HAS_COND;
233 opcode = get_irn_opcode(pred);
234 if (is_exc && (opcode == iro_Load || opcode == iro_Store || opcode == iro_Call)) {
235 ldst_info = get_ldst_info(pred, &wenv->obst);
237 wenv->changes |= update_exc(ldst_info, node, i);
241 } /* collect_nodes */
244 * Returns an entity if the address ptr points to a constant one.
246 * @param ptr the address
248 * @return an entity or NULL
250 static ir_entity *find_constant_entity(ir_node *ptr)
253 if (is_SymConst(ptr) && get_SymConst_kind(ptr) == symconst_addr_ent) {
254 return get_SymConst_entity(ptr);
255 } else if (is_Sel(ptr)) {
256 ir_entity *ent = get_Sel_entity(ptr);
257 ir_type *tp = get_entity_owner(ent);
259 /* Do not fiddle with polymorphism. */
260 if (is_Class_type(get_entity_owner(ent)) &&
261 ((get_entity_n_overwrites(ent) != 0) ||
262 (get_entity_n_overwrittenby(ent) != 0) ) )
265 if (is_Array_type(tp)) {
269 for (i = 0, n = get_Sel_n_indexs(ptr); i < n; ++i) {
271 ir_tarval *tlower, *tupper;
272 ir_node *index = get_Sel_index(ptr, i);
273 ir_tarval *tv = computed_value(index);
275 /* check if the index is constant */
276 if (tv == tarval_bad)
279 bound = get_array_lower_bound(tp, i);
280 tlower = computed_value(bound);
281 bound = get_array_upper_bound(tp, i);
282 tupper = computed_value(bound);
284 if (tlower == tarval_bad || tupper == tarval_bad)
287 if (tarval_cmp(tv, tlower) == ir_relation_less)
289 if (tarval_cmp(tupper, tv) == ir_relation_less)
292 /* ok, bounds check finished */
296 if (get_entity_linkage(ent) & IR_LINKAGE_CONSTANT)
300 ptr = get_Sel_ptr(ptr);
301 } else if (is_Add(ptr)) {
302 ir_node *l = get_Add_left(ptr);
303 ir_node *r = get_Add_right(ptr);
305 if (get_irn_mode(l) == get_irn_mode(ptr) && is_Const(r))
307 else if (get_irn_mode(r) == get_irn_mode(ptr) && is_Const(l))
312 /* for now, we support only one addition, reassoc should fold all others */
313 if (! is_SymConst(ptr) && !is_Sel(ptr))
315 } else if (is_Sub(ptr)) {
316 ir_node *l = get_Sub_left(ptr);
317 ir_node *r = get_Sub_right(ptr);
319 if (get_irn_mode(l) == get_irn_mode(ptr) && is_Const(r))
323 /* for now, we support only one substraction, reassoc should fold all others */
324 if (! is_SymConst(ptr) && !is_Sel(ptr))
329 } /* find_constant_entity */
332 * Return the Selection index of a Sel node from dimension n
334 static long get_Sel_array_index_long(ir_node *n, int dim)
336 ir_node *index = get_Sel_index(n, dim);
337 assert(is_Const(index));
338 return get_tarval_long(get_Const_tarval(index));
339 } /* get_Sel_array_index_long */
342 * Returns the accessed component graph path for an
343 * node computing an address.
345 * @param ptr the node computing the address
346 * @param depth current depth in steps upward from the root
349 static compound_graph_path *rec_get_accessed_path(ir_node *ptr, size_t depth)
351 compound_graph_path *res = NULL;
352 ir_entity *root, *field, *ent;
353 size_t path_len, pos, idx;
357 if (is_SymConst(ptr)) {
358 /* a SymConst. If the depth is 0, this is an access to a global
359 * entity and we don't need a component path, else we know
360 * at least its length.
362 assert(get_SymConst_kind(ptr) == symconst_addr_ent);
363 root = get_SymConst_entity(ptr);
364 res = (depth == 0) ? NULL : new_compound_graph_path(get_entity_type(root), depth);
365 } else if (is_Sel(ptr)) {
366 /* it's a Sel, go up until we find the root */
367 res = rec_get_accessed_path(get_Sel_ptr(ptr), depth+1);
371 /* fill up the step in the path at the current position */
372 field = get_Sel_entity(ptr);
373 path_len = get_compound_graph_path_length(res);
374 pos = path_len - depth - 1;
375 set_compound_graph_path_node(res, pos, field);
377 if (is_Array_type(get_entity_owner(field))) {
378 assert(get_Sel_n_indexs(ptr) == 1 && "multi dim arrays not implemented");
379 set_compound_graph_path_array_index(res, pos, get_Sel_array_index_long(ptr, 0));
381 } else if (is_Add(ptr)) {
386 ir_node *l = get_Add_left(ptr);
387 ir_node *r = get_Add_right(ptr);
388 if (is_Const(r) && get_irn_mode(l) == get_irn_mode(ptr)) {
390 tv = get_Const_tarval(r);
393 tv = get_Const_tarval(l);
397 mode = get_tarval_mode(tv);
400 /* ptr must be a Sel or a SymConst, this was checked in find_constant_entity() */
402 field = get_Sel_entity(ptr);
404 field = get_SymConst_entity(ptr);
407 for (ent = field;;) {
409 ir_tarval *sz, *tv_index, *tlower, *tupper;
412 tp = get_entity_type(ent);
413 if (! is_Array_type(tp))
415 ent = get_array_element_entity(tp);
416 size = get_type_size_bytes(get_entity_type(ent));
417 sz = new_tarval_from_long(size, mode);
419 tv_index = tarval_div(tmp, sz);
420 tmp = tarval_mod(tmp, sz);
422 if (tv_index == tarval_bad || tmp == tarval_bad)
425 assert(get_array_n_dimensions(tp) == 1 && "multiarrays not implemented");
426 bound = get_array_lower_bound(tp, 0);
427 tlower = computed_value(bound);
428 bound = get_array_upper_bound(tp, 0);
429 tupper = computed_value(bound);
431 if (tlower == tarval_bad || tupper == tarval_bad)
434 if (tarval_cmp(tv_index, tlower) == ir_relation_less)
436 if (tarval_cmp(tupper, tv_index) == ir_relation_less)
439 /* ok, bounds check finished */
442 if (! tarval_is_null(tmp)) {
443 /* access to some struct/union member */
447 /* should be at least ONE array */
451 res = rec_get_accessed_path(ptr, depth + idx);
455 path_len = get_compound_graph_path_length(res);
456 pos = path_len - depth - idx;
458 for (ent = field;;) {
460 ir_tarval *sz, *tv_index;
463 tp = get_entity_type(ent);
464 if (! is_Array_type(tp))
466 ent = get_array_element_entity(tp);
467 set_compound_graph_path_node(res, pos, ent);
469 size = get_type_size_bytes(get_entity_type(ent));
470 sz = new_tarval_from_long(size, mode);
472 tv_index = tarval_div(tv, sz);
473 tv = tarval_mod(tv, sz);
475 /* worked above, should work again */
476 assert(tv_index != tarval_bad && tv != tarval_bad);
478 /* bounds already checked above */
479 index = get_tarval_long(tv_index);
480 set_compound_graph_path_array_index(res, pos, index);
483 } else if (is_Sub(ptr)) {
484 ir_node *l = get_Sub_left(ptr);
485 ir_node *r = get_Sub_right(ptr);
488 tv = get_Const_tarval(r);
493 } /* rec_get_accessed_path */
496 * Returns an access path or NULL. The access path is only
497 * valid, if the graph is in phase_high and _no_ address computation is used.
499 static compound_graph_path *get_accessed_path(ir_node *ptr)
501 compound_graph_path *gr = rec_get_accessed_path(ptr, 0);
503 } /* get_accessed_path */
505 typedef struct path_entry {
507 struct path_entry *next;
511 static ir_node *rec_find_compound_ent_value(ir_node *ptr, path_entry *next)
513 path_entry entry, *p;
514 ir_entity *ent, *field;
515 ir_initializer_t *initializer;
521 if (is_SymConst(ptr)) {
523 ent = get_SymConst_entity(ptr);
524 initializer = get_entity_initializer(ent);
525 for (p = next; p != NULL;) {
526 if (initializer->kind != IR_INITIALIZER_COMPOUND)
528 n = get_initializer_compound_n_entries(initializer);
529 tp = get_entity_type(ent);
531 if (is_Array_type(tp)) {
532 ent = get_array_element_entity(tp);
537 initializer = get_initializer_compound_value(initializer, 0);
543 initializer = get_initializer_compound_value(initializer, p->index);
548 tp = get_entity_type(ent);
549 while (is_Array_type(tp)) {
550 ent = get_array_element_entity(tp);
551 tp = get_entity_type(ent);
553 n = get_initializer_compound_n_entries(initializer);
556 initializer = get_initializer_compound_value(initializer, 0);
559 switch (initializer->kind) {
560 case IR_INITIALIZER_CONST:
561 return get_initializer_const_value(initializer);
562 case IR_INITIALIZER_TARVAL:
563 case IR_INITIALIZER_NULL:
567 } else if (is_Sel(ptr)) {
568 entry.ent = field = get_Sel_entity(ptr);
569 tp = get_entity_owner(field);
570 if (is_Array_type(tp)) {
571 assert(get_Sel_n_indexs(ptr) == 1 && "multi dim arrays not implemented");
572 entry.index = get_Sel_array_index_long(ptr, 0) - get_array_lower_bound_int(tp, 0);
574 size_t i, n_members = get_compound_n_members(tp);
575 for (i = 0; i < n_members; ++i) {
576 if (get_compound_member(tp, i) == field)
579 if (i >= n_members) {
580 /* not found: should NOT happen */
585 return rec_find_compound_ent_value(get_Sel_ptr(ptr), &entry);
586 } else if (is_Add(ptr)) {
591 ir_node *l = get_Add_left(ptr);
592 ir_node *r = get_Add_right(ptr);
595 tv = get_Const_tarval(r);
598 tv = get_Const_tarval(l);
602 mode = get_tarval_mode(tv);
604 /* ptr must be a Sel or a SymConst, this was checked in find_constant_entity() */
606 field = get_Sel_entity(ptr);
608 field = get_SymConst_entity(ptr);
611 /* count needed entries */
613 for (ent = field;;) {
614 tp = get_entity_type(ent);
615 if (! is_Array_type(tp))
617 ent = get_array_element_entity(tp);
620 /* should be at least ONE entry */
624 /* allocate the right number of entries */
625 NEW_ARR_A(path_entry, p, pos);
629 for (ent = field;;) {
631 ir_tarval *sz, *tv_index, *tlower, *tupper;
635 tp = get_entity_type(ent);
636 if (! is_Array_type(tp))
638 ent = get_array_element_entity(tp);
640 p[pos].next = &p[pos + 1];
642 size = get_type_size_bytes(get_entity_type(ent));
643 sz = new_tarval_from_long(size, mode);
645 tv_index = tarval_div(tv, sz);
646 tv = tarval_mod(tv, sz);
648 if (tv_index == tarval_bad || tv == tarval_bad)
651 assert(get_array_n_dimensions(tp) == 1 && "multiarrays not implemented");
652 bound = get_array_lower_bound(tp, 0);
653 tlower = computed_value(bound);
654 bound = get_array_upper_bound(tp, 0);
655 tupper = computed_value(bound);
657 if (tlower == tarval_bad || tupper == tarval_bad)
660 if (tarval_cmp(tv_index, tlower) == ir_relation_less)
662 if (tarval_cmp(tupper, tv_index) == ir_relation_less)
665 /* ok, bounds check finished */
666 index = get_tarval_long(tv_index);
667 p[pos].index = index;
670 if (! tarval_is_null(tv)) {
671 /* hmm, wrong access */
674 p[pos - 1].next = next;
675 return rec_find_compound_ent_value(ptr, p);
676 } else if (is_Sub(ptr)) {
677 ir_node *l = get_Sub_left(ptr);
678 ir_node *r = get_Sub_right(ptr);
681 tv = get_Const_tarval(r);
688 static ir_node *find_compound_ent_value(ir_node *ptr)
690 return rec_find_compound_ent_value(ptr, NULL);
694 static void reduce_adr_usage(ir_node *ptr);
697 * Update a Load that may have lost its users.
699 static void handle_load_update(ir_node *load)
701 ldst_info_t *info = (ldst_info_t*)get_irn_link(load);
703 /* do NOT touch volatile loads for now */
704 if (get_Load_volatility(load) == volatility_is_volatile)
707 if (! info->projs[pn_Load_res] && ! info->projs[pn_Load_X_except]) {
708 ir_node *ptr = get_Load_ptr(load);
709 ir_node *mem = get_Load_mem(load);
711 /* a Load whose value is neither used nor exception checked, remove it */
712 if (info->projs[pn_Load_M])
713 exchange(info->projs[pn_Load_M], mem);
714 if (info->projs[pn_Load_X_regular])
715 exchange(info->projs[pn_Load_X_regular], new_r_Jmp(get_nodes_block(load)));
717 reduce_adr_usage(ptr);
719 } /* handle_load_update */
722 * A use of an address node has vanished. Check if this was a Proj
723 * node and update the counters.
725 static void reduce_adr_usage(ir_node *ptr)
730 if (get_irn_n_edges(ptr) > 0)
733 /* this Proj is dead now */
734 pred = get_Proj_pred(ptr);
736 ldst_info_t *info = (ldst_info_t*)get_irn_link(pred);
737 info->projs[get_Proj_proj(ptr)] = NULL;
739 /* this node lost its result proj, handle that */
740 handle_load_update(pred);
742 } /* reduce_adr_usage */
745 * Check, if an already existing value of mode old_mode can be converted
746 * into the needed one new_mode without loss.
748 static int can_use_stored_value(ir_mode *old_mode, ir_mode *new_mode)
752 if (old_mode == new_mode)
755 old_size = get_mode_size_bits(old_mode);
756 new_size = get_mode_size_bits(new_mode);
758 /* if both modes are two-complement ones, we can always convert the
759 Stored value into the needed one. (on big endian machines we currently
760 only support this for modes of same size) */
761 if (old_size >= new_size &&
762 get_mode_arithmetic(old_mode) == irma_twos_complement &&
763 get_mode_arithmetic(new_mode) == irma_twos_complement &&
764 (!be_get_backend_param()->byte_order_big_endian
765 || old_size == new_size)) {
772 * Check whether a Call is at least pure, i.e. does only read memory.
774 static unsigned is_Call_pure(ir_node *call)
776 ir_type *call_tp = get_Call_type(call);
777 unsigned prop = get_method_additional_properties(call_tp);
779 /* check first the call type */
780 if ((prop & (mtp_property_const|mtp_property_pure)) == 0) {
781 /* try the called entity */
782 ir_node *ptr = get_Call_ptr(call);
784 if (is_Global(ptr)) {
785 ir_entity *ent = get_Global_entity(ptr);
787 prop = get_entity_additional_properties(ent);
790 return (prop & (mtp_property_const|mtp_property_pure)) != 0;
793 static ir_node *get_base_and_offset(ir_node *ptr, long *pOffset)
795 ir_mode *mode = get_irn_mode(ptr);
798 /* TODO: long might not be enough, we should probably use some tarval thingy... */
801 ir_node *l = get_Add_left(ptr);
802 ir_node *r = get_Add_right(ptr);
804 if (get_irn_mode(l) != mode || !is_Const(r))
807 offset += get_tarval_long(get_Const_tarval(r));
809 } else if (is_Sub(ptr)) {
810 ir_node *l = get_Sub_left(ptr);
811 ir_node *r = get_Sub_right(ptr);
813 if (get_irn_mode(l) != mode || !is_Const(r))
816 offset -= get_tarval_long(get_Const_tarval(r));
818 } else if (is_Sel(ptr)) {
819 ir_entity *ent = get_Sel_entity(ptr);
820 ir_type *tp = get_entity_owner(ent);
822 if (is_Array_type(tp)) {
826 /* only one dimensional arrays yet */
827 if (get_Sel_n_indexs(ptr) != 1)
829 index = get_Sel_index(ptr, 0);
830 if (! is_Const(index))
833 tp = get_entity_type(ent);
834 if (get_type_state(tp) != layout_fixed)
837 size = get_type_size_bytes(tp);
838 offset += size * get_tarval_long(get_Const_tarval(index));
840 if (get_type_state(tp) != layout_fixed)
842 offset += get_entity_offset(ent);
844 ptr = get_Sel_ptr(ptr);
853 static int try_load_after_store(ir_node *load,
854 ir_node *load_base_ptr, long load_offset, ir_node *store)
857 ir_node *store_ptr = get_Store_ptr(store);
859 ir_node *store_base_ptr = get_base_and_offset(store_ptr, &store_offset);
860 ir_node *store_value;
869 if (load_base_ptr != store_base_ptr)
872 load_mode = get_Load_mode(load);
873 load_mode_len = get_mode_size_bytes(load_mode);
874 store_mode = get_irn_mode(get_Store_value(store));
875 store_mode_len = get_mode_size_bytes(store_mode);
876 delta = load_offset - store_offset;
877 store_value = get_Store_value(store);
879 if (delta != 0 || store_mode != load_mode) {
880 /* TODO: implement for big-endian */
881 if (delta < 0 || delta + load_mode_len > store_mode_len
882 || (be_get_backend_param()->byte_order_big_endian
883 && load_mode_len != store_mode_len))
886 if (get_mode_arithmetic(store_mode) != irma_twos_complement ||
887 get_mode_arithmetic(load_mode) != irma_twos_complement)
891 /* produce a shift to adjust offset delta */
894 ir_graph *irg = get_irn_irg(load);
896 cnst = new_r_Const_long(irg, mode_Iu, delta * 8);
897 store_value = new_r_Shr(get_nodes_block(load),
898 store_value, cnst, store_mode);
901 /* add an convert if needed */
902 if (store_mode != load_mode) {
903 store_value = new_r_Conv(get_nodes_block(load), store_value, load_mode);
907 DBG_OPT_RAW(load, store_value);
909 info = (ldst_info_t*)get_irn_link(load);
910 if (info->projs[pn_Load_M])
911 exchange(info->projs[pn_Load_M], get_Load_mem(load));
915 if (info->projs[pn_Load_X_except]) {
916 ir_graph *irg = get_irn_irg(load);
917 exchange( info->projs[pn_Load_X_except], new_r_Bad(irg));
920 if (info->projs[pn_Load_X_regular]) {
921 exchange( info->projs[pn_Load_X_regular], new_r_Jmp(get_nodes_block(load)));
925 if (info->projs[pn_Load_res])
926 exchange(info->projs[pn_Load_res], store_value);
928 load_ptr = get_Load_ptr(load);
930 reduce_adr_usage(load_ptr);
931 return res | DF_CHANGED;
935 * Follow the memory chain as long as there are only Loads,
936 * alias free Stores, and constant Calls and try to replace the
937 * current Load by a previous ones.
938 * Note that in unreachable loops it might happen that we reach
939 * load again, as well as we can fall into a cycle.
940 * We break such cycles using a special visited flag.
942 * INC_MASTER() must be called before dive into
944 static unsigned follow_Mem_chain(ir_node *load, ir_node *curr)
947 ldst_info_t *info = (ldst_info_t*)get_irn_link(load);
949 ir_node *ptr = get_Load_ptr(load);
950 ir_node *mem = get_Load_mem(load);
951 ir_mode *load_mode = get_Load_mode(load);
953 for (pred = curr; load != pred; ) {
954 ldst_info_t *pred_info = (ldst_info_t*)get_irn_link(pred);
957 * a Load immediately after a Store -- a read after write.
958 * We may remove the Load, if both Load & Store does not have an
959 * exception handler OR they are in the same Block. In the latter
960 * case the Load cannot throw an exception when the previous Store was
963 * Why we need to check for Store Exception? If the Store cannot
964 * be executed (ROM) the exception handler might simply jump into
966 * We could make it a little bit better if we would know that the
967 * exception handler of the Store jumps directly to the end...
969 if (is_Store(pred) && ((pred_info->projs[pn_Store_X_except] == NULL
970 && info->projs[pn_Load_X_except] == NULL)
971 || get_nodes_block(load) == get_nodes_block(pred)))
974 ir_node *base_ptr = get_base_and_offset(ptr, &load_offset);
975 int changes = try_load_after_store(load, base_ptr, load_offset, pred);
978 return res | changes;
979 } else if (is_Load(pred) && get_Load_ptr(pred) == ptr &&
980 can_use_stored_value(get_Load_mode(pred), load_mode)) {
982 * a Load after a Load -- a read after read.
983 * We may remove the second Load, if it does not have an exception
984 * handler OR they are in the same Block. In the later case
985 * the Load cannot throw an exception when the previous Load was
988 * Here, there is no need to check if the previous Load has an
989 * exception hander because they would have exact the same
992 * TODO: implement load-after-load with different mode for big
995 if (info->projs[pn_Load_X_except] == NULL
996 || get_nodes_block(load) == get_nodes_block(pred)) {
999 DBG_OPT_RAR(load, pred);
1001 /* the result is used */
1002 if (info->projs[pn_Load_res]) {
1003 if (pred_info->projs[pn_Load_res] == NULL) {
1004 /* create a new Proj again */
1005 pred_info->projs[pn_Load_res] = new_r_Proj(pred, get_Load_mode(pred), pn_Load_res);
1007 value = pred_info->projs[pn_Load_res];
1009 /* add an convert if needed */
1010 if (get_Load_mode(pred) != load_mode) {
1011 value = new_r_Conv(get_nodes_block(load), value, load_mode);
1014 exchange(info->projs[pn_Load_res], value);
1017 if (info->projs[pn_Load_M])
1018 exchange(info->projs[pn_Load_M], mem);
1021 if (info->projs[pn_Load_X_except]) {
1022 ir_graph *irg = get_irn_irg(load);
1023 exchange(info->projs[pn_Load_X_except], new_r_Bad(irg));
1026 if (info->projs[pn_Load_X_regular]) {
1027 exchange( info->projs[pn_Load_X_regular], new_r_Jmp(get_nodes_block(load)));
1032 reduce_adr_usage(ptr);
1033 return res |= DF_CHANGED;
1037 if (is_Store(pred)) {
1038 /* check if we can pass through this store */
1039 ir_alias_relation rel = get_alias_relation(
1040 get_Store_ptr(pred),
1041 get_irn_mode(get_Store_value(pred)),
1043 /* if the might be an alias, we cannot pass this Store */
1044 if (rel != ir_no_alias)
1046 pred = skip_Proj(get_Store_mem(pred));
1047 } else if (is_Load(pred)) {
1048 pred = skip_Proj(get_Load_mem(pred));
1049 } else if (is_Call(pred)) {
1050 if (is_Call_pure(pred)) {
1051 /* The called graph is at least pure, so there are no Store's
1052 in it. We can handle it like a Load and skip it. */
1053 pred = skip_Proj(get_Call_mem(pred));
1055 /* there might be Store's in the graph, stop here */
1059 /* follow only Load chains */
1063 /* check for cycles */
1064 if (NODE_VISITED(pred_info))
1066 MARK_NODE(pred_info);
1069 if (is_Sync(pred)) {
1072 /* handle all Sync predecessors */
1073 for (i = get_Sync_n_preds(pred) - 1; i >= 0; --i) {
1074 res |= follow_Mem_chain(load, skip_Proj(get_Sync_pred(pred, i)));
1081 } /* follow_Mem_chain */
1084 * Check if we can replace the load by a given const from
1085 * the const code irg.
1087 ir_node *can_replace_load_by_const(const ir_node *load, ir_node *c)
1089 ir_mode *c_mode = get_irn_mode(c);
1090 ir_mode *l_mode = get_Load_mode(load);
1091 ir_node *block = get_nodes_block(load);
1092 dbg_info *dbgi = get_irn_dbg_info(load);
1093 ir_node *res = copy_const_value(dbgi, c, block);
1095 if (c_mode != l_mode) {
1096 /* check, if the mode matches OR can be easily converted info */
1097 if (is_reinterpret_cast(c_mode, l_mode)) {
1098 /* copy the value from the const code irg and cast it */
1099 res = new_rd_Conv(dbgi, block, res, l_mode);
1109 * @param load the Load node
1111 static unsigned optimize_load(ir_node *load)
1113 ldst_info_t *info = (ldst_info_t*)get_irn_link(load);
1114 ir_node *mem, *ptr, *value;
1119 /* do NOT touch volatile loads for now */
1120 if (get_Load_volatility(load) == volatility_is_volatile)
1123 /* the address of the load to be optimized */
1124 ptr = get_Load_ptr(load);
1126 /* The mem of the Load. Must still be returned after optimization. */
1127 mem = get_Load_mem(load);
1129 if (info->projs[pn_Load_res] == NULL
1130 && info->projs[pn_Load_X_except] == NULL) {
1131 /* the value is never used and we don't care about exceptions, remove */
1132 exchange(info->projs[pn_Load_M], mem);
1134 if (info->projs[pn_Load_X_regular]) {
1135 /* should not happen, but if it does, remove it */
1136 exchange(info->projs[pn_Load_X_regular], new_r_Jmp(get_nodes_block(load)));
1140 reduce_adr_usage(ptr);
1141 return res | DF_CHANGED;
1144 /* Load from a constant polymorphic field, where we can resolve
1146 value = transform_polymorph_Load(load);
1147 if (value == load) {
1149 /* check if we can determine the entity that will be loaded */
1150 ent = find_constant_entity(ptr);
1152 && get_entity_visibility(ent) != ir_visibility_external) {
1153 /* a static allocation that is not external: there should be NO
1154 * exception when loading even if we cannot replace the load itself.
1157 /* no exception, clear the info field as it might be checked later again */
1158 if (info->projs[pn_Load_X_except]) {
1159 ir_graph *irg = get_irn_irg(load);
1160 exchange(info->projs[pn_Load_X_except], new_r_Bad(irg));
1161 info->projs[pn_Load_X_except] = NULL;
1164 if (info->projs[pn_Load_X_regular]) {
1165 exchange(info->projs[pn_Load_X_regular], new_r_Jmp(get_nodes_block(load)));
1166 info->projs[pn_Load_X_regular] = NULL;
1170 if (get_entity_linkage(ent) & IR_LINKAGE_CONSTANT) {
1171 if (ent->initializer != NULL) {
1172 /* new style initializer */
1173 value = find_compound_ent_value(ptr);
1174 } else if (entity_has_compound_ent_values(ent)) {
1175 /* old style initializer */
1176 compound_graph_path *path = get_accessed_path(ptr);
1179 assert(is_proper_compound_graph_path(path, get_compound_graph_path_length(path)-1));
1181 value = get_compound_ent_value_by_path(ent, path);
1182 DB((dbg, LEVEL_1, " Constant access at %F%F resulted in %+F\n", ent, path, value));
1183 free_compound_graph_path(path);
1187 value = can_replace_load_by_const(load, value);
1191 if (value != NULL) {
1192 /* we completely replace the load by this value */
1193 if (info->projs[pn_Load_X_except]) {
1194 ir_graph *irg = get_irn_irg(load);
1195 exchange(info->projs[pn_Load_X_except], new_r_Bad(irg));
1196 info->projs[pn_Load_X_except] = NULL;
1199 if (info->projs[pn_Load_X_regular]) {
1200 exchange(info->projs[pn_Load_X_regular], new_r_Jmp(get_nodes_block(load)));
1201 info->projs[pn_Load_X_regular] = NULL;
1204 if (info->projs[pn_Load_M]) {
1205 exchange(info->projs[pn_Load_M], mem);
1208 if (info->projs[pn_Load_res]) {
1209 exchange(info->projs[pn_Load_res], value);
1213 reduce_adr_usage(ptr);
1217 /* Check, if the address of this load is used more than once.
1218 * If not, more load cannot be removed in any case. */
1219 if (get_irn_n_uses(ptr) <= 1 && get_irn_n_uses(get_base_and_offset(ptr, &dummy)) <= 1)
1223 * follow the memory chain as long as there are only Loads
1224 * and try to replace current Load or Store by a previous one.
1225 * Note that in unreachable loops it might happen that we reach
1226 * load again, as well as we can fall into a cycle.
1227 * We break such cycles using a special visited flag.
1230 res = follow_Mem_chain(load, skip_Proj(mem));
1232 } /* optimize_load */
1235 * Check whether a value of mode new_mode would completely overwrite a value
1236 * of mode old_mode in memory.
1238 static int is_completely_overwritten(ir_mode *old_mode, ir_mode *new_mode)
1240 return get_mode_size_bits(new_mode) >= get_mode_size_bits(old_mode);
1241 } /* is_completely_overwritten */
1244 * Check whether small is a part of large (starting at same address).
1246 static int is_partially_same(ir_node *small, ir_node *large)
1248 ir_mode *sm = get_irn_mode(small);
1249 ir_mode *lm = get_irn_mode(large);
1251 /* FIXME: Check endianness */
1252 return is_Conv(small) && get_Conv_op(small) == large
1253 && get_mode_size_bytes(sm) < get_mode_size_bytes(lm)
1254 && get_mode_arithmetic(sm) == irma_twos_complement
1255 && get_mode_arithmetic(lm) == irma_twos_complement;
1256 } /* is_partially_same */
1259 * follow the memory chain as long as there are only Loads and alias free Stores.
1261 * INC_MASTER() must be called before dive into
1263 static unsigned follow_Mem_chain_for_Store(ir_node *store, ir_node *curr)
1266 ldst_info_t *info = (ldst_info_t*)get_irn_link(store);
1268 ir_node *ptr = get_Store_ptr(store);
1269 ir_node *mem = get_Store_mem(store);
1270 ir_node *value = get_Store_value(store);
1271 ir_mode *mode = get_irn_mode(value);
1272 ir_node *block = get_nodes_block(store);
1274 for (pred = curr; pred != store;) {
1275 ldst_info_t *pred_info = (ldst_info_t*)get_irn_link(pred);
1278 * BEWARE: one might think that checking the modes is useless, because
1279 * if the pointers are identical, they refer to the same object.
1280 * This is only true in strong typed languages, not is C were the following
1281 * is possible *(ir_type1 *)p = a; *(ir_type2 *)p = b ...
1282 * However, if the size of the mode that is written is bigger or equal the
1283 * size of the old one, the old value is completely overwritten and can be
1286 if (is_Store(pred) && get_Store_ptr(pred) == ptr &&
1287 get_nodes_block(pred) == block) {
1289 * a Store after a Store in the same Block -- a write after write.
1293 * We may remove the first Store, if the old value is completely
1294 * overwritten or the old value is a part of the new value,
1295 * and if it does not have an exception handler.
1297 * TODO: What, if both have the same exception handler ???
1299 if (get_Store_volatility(pred) != volatility_is_volatile
1300 && !pred_info->projs[pn_Store_X_except]) {
1301 ir_node *predvalue = get_Store_value(pred);
1302 ir_mode *predmode = get_irn_mode(predvalue);
1304 if (is_completely_overwritten(predmode, mode)
1305 || is_partially_same(predvalue, value)) {
1306 DBG_OPT_WAW(pred, store);
1307 exchange(pred_info->projs[pn_Store_M], get_Store_mem(pred));
1309 reduce_adr_usage(ptr);
1315 * We may remove the Store, if the old value already contains
1316 * the new value, and if it does not have an exception handler.
1318 * TODO: What, if both have the same exception handler ???
1320 if (get_Store_volatility(store) != volatility_is_volatile
1321 && !info->projs[pn_Store_X_except]) {
1322 ir_node *predvalue = get_Store_value(pred);
1324 if (is_partially_same(value, predvalue)) {
1325 DBG_OPT_WAW(pred, store);
1326 exchange(info->projs[pn_Store_M], mem);
1328 reduce_adr_usage(ptr);
1332 } else if (is_Load(pred) && get_Load_ptr(pred) == ptr &&
1333 value == pred_info->projs[pn_Load_res]) {
1335 * a Store of a value just loaded from the same address
1336 * -- a write after read.
1337 * We may remove the Store, if it does not have an exception
1340 if (! info->projs[pn_Store_X_except]) {
1341 DBG_OPT_WAR(store, pred);
1342 exchange(info->projs[pn_Store_M], mem);
1344 reduce_adr_usage(ptr);
1349 if (is_Store(pred)) {
1350 /* check if we can pass through this store */
1351 ir_alias_relation rel = get_alias_relation(
1352 get_Store_ptr(pred),
1353 get_irn_mode(get_Store_value(pred)),
1355 /* if the might be an alias, we cannot pass this Store */
1356 if (rel != ir_no_alias)
1358 pred = skip_Proj(get_Store_mem(pred));
1359 } else if (is_Load(pred)) {
1360 ir_alias_relation rel = get_alias_relation(
1361 get_Load_ptr(pred), get_Load_mode(pred),
1363 if (rel != ir_no_alias)
1366 pred = skip_Proj(get_Load_mem(pred));
1368 /* follow only Load chains */
1372 /* check for cycles */
1373 if (NODE_VISITED(pred_info))
1375 MARK_NODE(pred_info);
1378 if (is_Sync(pred)) {
1381 /* handle all Sync predecessors */
1382 for (i = get_Sync_n_preds(pred) - 1; i >= 0; --i) {
1383 res |= follow_Mem_chain_for_Store(store, skip_Proj(get_Sync_pred(pred, i)));
1389 } /* follow_Mem_chain_for_Store */
1391 /** find entity used as base for an address calculation */
1392 static ir_entity *find_entity(ir_node *ptr)
1394 switch (get_irn_opcode(ptr)) {
1396 return get_SymConst_entity(ptr);
1398 ir_node *pred = get_Sel_ptr(ptr);
1399 if (get_irg_frame(get_irn_irg(ptr)) == pred)
1400 return get_Sel_entity(ptr);
1402 return find_entity(pred);
1406 ir_node *left = get_binop_left(ptr);
1408 if (mode_is_reference(get_irn_mode(left)))
1409 return find_entity(left);
1410 right = get_binop_right(ptr);
1411 if (mode_is_reference(get_irn_mode(right)))
1412 return find_entity(right);
1423 * @param store the Store node
1425 static unsigned optimize_store(ir_node *store)
1431 if (get_Store_volatility(store) == volatility_is_volatile)
1434 ptr = get_Store_ptr(store);
1435 entity = find_entity(ptr);
1437 /* a store to an entity which is never read is unnecessary */
1438 if (entity != NULL && !(get_entity_usage(entity) & ir_usage_read)) {
1439 ldst_info_t *info = (ldst_info_t*)get_irn_link(store);
1440 if (info->projs[pn_Store_X_except] == NULL) {
1441 DB((dbg, LEVEL_1, " Killing useless %+F to never read entity %+F\n", store, entity));
1442 exchange(info->projs[pn_Store_M], get_Store_mem(store));
1444 reduce_adr_usage(ptr);
1449 /* Check, if the address of this Store is used more than once.
1450 * If not, this Store cannot be removed in any case. */
1451 if (get_irn_n_uses(ptr) <= 1)
1454 mem = get_Store_mem(store);
1456 /* follow the memory chain as long as there are only Loads */
1459 return follow_Mem_chain_for_Store(store, skip_Proj(mem));
1460 } /* optimize_store */
1463 * walker, optimizes Phi after Stores to identical places:
1464 * Does the following optimization:
1467 * val1 val2 val3 val1 val2 val3
1469 * Store Store Store \ | /
1476 * This reduces the number of stores and allows for predicated execution.
1477 * Moves Stores back to the end of a function which may be bad.
1479 * This is only possible if the predecessor blocks have only one successor.
1481 static unsigned optimize_phi(ir_node *phi, walk_env_t *wenv)
1484 ir_node *store, *old_store, *ptr, *block, *phi_block, *phiM, *phiD, *exc, *projM;
1486 ir_node **inM, **inD, **projMs;
1488 dbg_info *db = NULL;
1490 block_info_t *bl_info;
1493 /* Must be a memory Phi */
1494 if (get_irn_mode(phi) != mode_M)
1497 n = get_Phi_n_preds(phi);
1501 /* must be only one user */
1502 projM = get_Phi_pred(phi, 0);
1503 if (get_irn_n_edges(projM) != 1)
1506 store = skip_Proj(projM);
1508 if (!is_Store(store))
1511 block = get_nodes_block(store);
1513 /* abort on dead blocks */
1514 if (is_Block_dead(block))
1517 /* check if the block is post dominated by Phi-block
1518 and has no exception exit */
1519 bl_info = (block_info_t*)get_irn_link(block);
1520 if (bl_info->flags & BLOCK_HAS_EXC)
1523 phi_block = get_nodes_block(phi);
1524 if (! block_strictly_postdominates(phi_block, block))
1527 /* this is the address of the store */
1528 ptr = get_Store_ptr(store);
1529 mode = get_irn_mode(get_Store_value(store));
1530 info = (ldst_info_t*)get_irn_link(store);
1531 exc = info->exc_block;
1533 for (i = 1; i < n; ++i) {
1534 ir_node *pred = get_Phi_pred(phi, i);
1536 if (get_irn_n_edges(pred) != 1)
1539 pred = skip_Proj(pred);
1540 if (!is_Store(pred))
1543 if (ptr != get_Store_ptr(pred) || mode != get_irn_mode(get_Store_value(pred)))
1546 info = (ldst_info_t*)get_irn_link(pred);
1548 /* check, if all stores have the same exception flow */
1549 if (exc != info->exc_block)
1552 /* abort on dead blocks */
1553 block = get_nodes_block(pred);
1554 if (is_Block_dead(block))
1557 /* check if the block is post dominated by Phi-block
1558 and has no exception exit. Note that block must be different from
1559 Phi-block, else we would move a Store from end End of a block to its
1561 bl_info = (block_info_t*)get_irn_link(block);
1562 if (bl_info->flags & BLOCK_HAS_EXC)
1564 if (block == phi_block || ! block_postdominates(phi_block, block))
1569 * ok, when we are here, we found all predecessors of a Phi that
1570 * are Stores to the same address and size. That means whatever
1571 * we do before we enter the block of the Phi, we do a Store.
1572 * So, we can move the Store to the current block:
1574 * val1 val2 val3 val1 val2 val3
1576 * | Str | | Str | | Str | \ | /
1582 * Is only allowed if the predecessor blocks have only one successor.
1585 NEW_ARR_A(ir_node *, projMs, n);
1586 NEW_ARR_A(ir_node *, inM, n);
1587 NEW_ARR_A(ir_node *, inD, n);
1588 NEW_ARR_A(int, idx, n);
1590 /* Prepare: Collect all Store nodes. We must do this
1591 first because we otherwise may loose a store when exchanging its
1594 for (i = n - 1; i >= 0; --i) {
1597 projMs[i] = get_Phi_pred(phi, i);
1598 assert(is_Proj(projMs[i]));
1600 store = get_Proj_pred(projMs[i]);
1601 info = (ldst_info_t*)get_irn_link(store);
1603 inM[i] = get_Store_mem(store);
1604 inD[i] = get_Store_value(store);
1605 idx[i] = info->exc_idx;
1607 block = get_nodes_block(phi);
1609 /* second step: create a new memory Phi */
1610 phiM = new_rd_Phi(get_irn_dbg_info(phi), block, n, inM, mode_M);
1612 /* third step: create a new data Phi */
1613 phiD = new_rd_Phi(get_irn_dbg_info(phi), block, n, inD, mode);
1615 /* rewire memory and kill the node */
1616 for (i = n - 1; i >= 0; --i) {
1617 ir_node *proj = projMs[i];
1619 if (is_Proj(proj)) {
1620 ir_node *store = get_Proj_pred(proj);
1621 exchange(proj, inM[i]);
1626 /* fourth step: create the Store */
1627 store = new_rd_Store(db, block, phiM, ptr, phiD, cons_none);
1629 co_set_irn_name(store, co_get_irn_ident(old_store));
1632 projM = new_rd_Proj(NULL, store, mode_M, pn_Store_M);
1634 info = get_ldst_info(store, &wenv->obst);
1635 info->projs[pn_Store_M] = projM;
1637 /* fifths step: repair exception flow */
1639 ir_node *projX = new_rd_Proj(NULL, store, mode_X, pn_Store_X_except);
1641 info->projs[pn_Store_X_except] = projX;
1642 info->exc_block = exc;
1643 info->exc_idx = idx[0];
1645 for (i = 0; i < n; ++i) {
1646 set_Block_cfgpred(exc, idx[i], projX);
1650 /* the exception block should be optimized as some inputs are identical now */
1656 /* sixth step: replace old Phi */
1657 exchange(phi, projM);
1659 return res | DF_CHANGED;
1660 } /* optimize_phi */
1663 * walker, do the optimizations
1665 static void do_load_store_optimize(ir_node *n, void *env)
1667 walk_env_t *wenv = (walk_env_t*)env;
1669 switch (get_irn_opcode(n)) {
1672 wenv->changes |= optimize_load(n);
1676 wenv->changes |= optimize_store(n);
1680 wenv->changes |= optimize_phi(n, wenv);
1686 } /* do_load_store_optimize */
1689 typedef struct scc {
1690 ir_node *head; /**< the head of the list */
1693 /** A node entry. */
1694 typedef struct node_entry {
1695 unsigned DFSnum; /**< the DFS number of this node */
1696 unsigned low; /**< the low number of this node */
1697 int in_stack; /**< flag, set if the node is on the stack */
1698 ir_node *next; /**< link to the next node the the same scc */
1699 scc *pscc; /**< the scc of this node */
1700 unsigned POnum; /**< the post order number for blocks */
1703 /** A loop entry. */
1704 typedef struct loop_env {
1705 ir_phase ph; /**< the phase object */
1706 ir_node **stack; /**< the node stack */
1707 size_t tos; /**< tos index */
1708 unsigned nextDFSnum; /**< the current DFS number */
1709 unsigned POnum; /**< current post order number */
1711 unsigned changes; /**< a bitmask of graph changes */
1715 * Gets the node_entry of a node
1717 static node_entry *get_irn_ne(ir_node *irn, loop_env *env)
1719 ir_phase *ph = &env->ph;
1720 node_entry *e = (node_entry*)phase_get_irn_data(&env->ph, irn);
1723 e = (node_entry*)phase_alloc(ph, sizeof(*e));
1724 memset(e, 0, sizeof(*e));
1725 phase_set_irn_data(ph, irn, e);
1731 * Push a node onto the stack.
1733 * @param env the loop environment
1734 * @param n the node to push
1736 static void push(loop_env *env, ir_node *n)
1740 if (env->tos == ARR_LEN(env->stack)) {
1741 size_t nlen = ARR_LEN(env->stack) * 2;
1742 ARR_RESIZE(ir_node *, env->stack, nlen);
1744 env->stack[env->tos++] = n;
1745 e = get_irn_ne(n, env);
1750 * pop a node from the stack
1752 * @param env the loop environment
1754 * @return The topmost node
1756 static ir_node *pop(loop_env *env)
1758 ir_node *n = env->stack[--env->tos];
1759 node_entry *e = get_irn_ne(n, env);
1766 * Check if irn is a region constant.
1767 * The block or irn must strictly dominate the header block.
1769 * @param irn the node to check
1770 * @param header_block the header block of the induction variable
1772 static int is_rc(ir_node *irn, ir_node *header_block)
1774 ir_node *block = get_nodes_block(irn);
1776 return (block != header_block) && block_dominates(block, header_block);
1779 typedef struct phi_entry phi_entry;
1781 ir_node *phi; /**< A phi with a region const memory. */
1782 int pos; /**< The position of the region const memory */
1783 ir_node *load; /**< the newly created load for this phi */
1788 * An entry in the avail set.
1790 typedef struct avail_entry_t {
1791 ir_node *ptr; /**< the address pointer */
1792 ir_mode *mode; /**< the load mode */
1793 ir_node *load; /**< the associated Load */
1797 * Compare two avail entries.
1799 static int cmp_avail_entry(const void *elt, const void *key, size_t size)
1801 const avail_entry_t *a = (const avail_entry_t*)elt;
1802 const avail_entry_t *b = (const avail_entry_t*)key;
1805 return a->ptr != b->ptr || a->mode != b->mode;
1806 } /* cmp_avail_entry */
1809 * Calculate the hash value of an avail entry.
1811 static unsigned hash_cache_entry(const avail_entry_t *entry)
1813 return get_irn_idx(entry->ptr) * 9 + HASH_PTR(entry->mode);
1814 } /* hash_cache_entry */
1817 * Move loops out of loops if possible.
1819 * @param pscc the loop described by an SCC
1820 * @param env the loop environment
1822 static void move_loads_out_of_loops(scc *pscc, loop_env *env)
1824 ir_node *phi, *load, *next, *other, *next_other;
1827 phi_entry *phi_list = NULL;
1830 avail = new_set(cmp_avail_entry, 8);
1832 /* collect all outer memories */
1833 for (phi = pscc->head; phi != NULL; phi = next) {
1834 node_entry *ne = get_irn_ne(phi, env);
1837 /* check all memory Phi's */
1841 assert(get_irn_mode(phi) == mode_M && "DFS return non-memory Phi");
1843 for (j = get_irn_arity(phi) - 1; j >= 0; --j) {
1844 ir_node *pred = get_irn_n(phi, j);
1845 node_entry *pe = get_irn_ne(pred, env);
1847 if (pe->pscc != ne->pscc) {
1848 /* not in the same SCC, is region const */
1849 phi_entry *pe = (phi_entry*)phase_alloc(&env->ph, sizeof(*pe));
1853 pe->next = phi_list;
1858 /* no Phis no fun */
1859 assert(phi_list != NULL && "DFS found a loop without Phi");
1861 /* for now, we cannot handle more than one input (only reducible cf) */
1862 if (phi_list->next != NULL)
1865 for (load = pscc->head; load; load = next) {
1867 node_entry *ne = get_irn_ne(load, env);
1870 if (is_Load(load)) {
1871 ldst_info_t *info = (ldst_info_t*)get_irn_link(load);
1872 ir_node *ptr = get_Load_ptr(load);
1874 /* for now, we cannot handle Loads with exceptions */
1875 if (info->projs[pn_Load_res] == NULL || info->projs[pn_Load_X_regular] != NULL || info->projs[pn_Load_X_except] != NULL)
1878 /* for now, we can only move Load(Global) */
1879 if (! is_Global(ptr))
1881 ent = get_Global_entity(ptr);
1882 load_mode = get_Load_mode(load);
1883 for (other = pscc->head; other != NULL; other = next_other) {
1884 node_entry *ne = get_irn_ne(other, env);
1885 next_other = ne->next;
1887 if (is_Store(other)) {
1888 ir_alias_relation rel = get_alias_relation(
1889 get_Store_ptr(other),
1890 get_irn_mode(get_Store_value(other)),
1892 /* if the might be an alias, we cannot pass this Store */
1893 if (rel != ir_no_alias)
1896 /* only Phis and pure Calls are allowed here, so ignore them */
1898 if (other == NULL) {
1899 ldst_info_t *ninfo = NULL;
1903 /* yep, no aliasing Store found, Load can be moved */
1904 DB((dbg, LEVEL_1, " Found a Load that could be moved: %+F\n", load));
1906 db = get_irn_dbg_info(load);
1907 for (pe = phi_list; pe != NULL; pe = pe->next) {
1909 ir_node *phi = pe->phi;
1910 ir_node *blk = get_nodes_block(phi);
1911 ir_node *pred = get_Block_cfgpred_block(blk, pos);
1913 avail_entry_t entry, *res;
1916 entry.mode = load_mode;
1917 res = (avail_entry_t*)set_find(avail, &entry, sizeof(entry), hash_cache_entry(&entry));
1921 irn = new_rd_Load(db, pred, get_Phi_pred(phi, pos), ptr, load_mode, cons_none);
1923 set_insert(avail, &entry, sizeof(entry), hash_cache_entry(&entry));
1924 DB((dbg, LEVEL_1, " Created %+F in %+F\n", irn, pred));
1927 ninfo = get_ldst_info(irn, phase_obst(&env->ph));
1929 ninfo->projs[pn_Load_M] = mem = new_r_Proj(irn, mode_M, pn_Load_M);
1930 set_Phi_pred(phi, pos, mem);
1932 ninfo->projs[pn_Load_res] = new_r_Proj(irn, load_mode, pn_Load_res);
1935 /* now kill the old Load */
1936 exchange(info->projs[pn_Load_M], get_Load_mem(load));
1937 exchange(info->projs[pn_Load_res], ninfo->projs[pn_Load_res]);
1939 env->changes |= DF_CHANGED;
1944 } /* move_loads_out_of_loops */
1947 * Process a loop SCC.
1949 * @param pscc the SCC
1950 * @param env the loop environment
1952 static void process_loop(scc *pscc, loop_env *env)
1954 ir_node *irn, *next, *header = NULL;
1955 node_entry *b, *h = NULL;
1956 int j, only_phi, num_outside, process = 0;
1959 /* find the header block for this scc */
1960 for (irn = pscc->head; irn; irn = next) {
1961 node_entry *e = get_irn_ne(irn, env);
1962 ir_node *block = get_nodes_block(irn);
1965 b = get_irn_ne(block, env);
1967 if (header != NULL) {
1968 if (h->POnum < b->POnum) {
1978 /* check if this scc contains only Phi, Loads or Stores nodes */
1982 for (irn = pscc->head; irn; irn = next) {
1983 node_entry *e = get_irn_ne(irn, env);
1986 switch (get_irn_opcode(irn)) {
1988 if (is_Call_pure(irn)) {
1989 /* pure calls can be treated like loads */
1993 /* non-pure calls must be handle like may-alias Stores */
1996 /* cannot handle CopyB yet */
2000 if (get_Load_volatility(irn) == volatility_is_volatile) {
2001 /* cannot handle loops with volatile Loads */
2007 if (get_Store_volatility(irn) == volatility_is_volatile) {
2008 /* cannot handle loops with volatile Stores */
2017 for (j = get_irn_arity(irn) - 1; j >= 0; --j) {
2018 ir_node *pred = get_irn_n(irn, j);
2019 node_entry *pe = get_irn_ne(pred, env);
2021 if (pe->pscc != e->pscc) {
2022 /* not in the same SCC, must be a region const */
2023 if (! is_rc(pred, header)) {
2024 /* not a memory loop */
2027 if (out_rc == NULL) {
2028 /* first region constant */
2031 } else if (out_rc != pred) {
2032 /* another region constant */
2043 /* found a memory loop */
2044 DB((dbg, LEVEL_2, " Found a memory loop:\n "));
2045 if (only_phi && num_outside == 1) {
2046 /* a phi cycle with only one real predecessor can be collapsed */
2047 DB((dbg, LEVEL_2, " Found an USELESS Phi cycle:\n "));
2049 for (irn = pscc->head; irn; irn = next) {
2050 node_entry *e = get_irn_ne(irn, env);
2052 exchange(irn, out_rc);
2054 env->changes |= DF_CHANGED;
2058 #ifdef DEBUG_libfirm
2059 for (irn = pscc->head; irn; irn = next) {
2060 node_entry *e = get_irn_ne(irn, env);
2062 DB((dbg, LEVEL_2, " %+F,", irn));
2064 DB((dbg, LEVEL_2, "\n"));
2066 move_loads_out_of_loops(pscc, env);
2070 } /* process_loop */
2075 * @param pscc the SCC
2076 * @param env the loop environment
2078 static void process_scc(scc *pscc, loop_env *env)
2080 ir_node *head = pscc->head;
2081 node_entry *e = get_irn_ne(head, env);
2083 #ifdef DEBUG_libfirm
2085 ir_node *irn, *next;
2087 DB((dbg, LEVEL_4, " SCC at %p:\n ", pscc));
2088 for (irn = pscc->head; irn; irn = next) {
2089 node_entry *e = get_irn_ne(irn, env);
2093 DB((dbg, LEVEL_4, " %+F,", irn));
2095 DB((dbg, LEVEL_4, "\n"));
2099 if (e->next != NULL) {
2100 /* this SCC has more than one member */
2101 process_loop(pscc, env);
2106 * Do Tarjan's SCC algorithm and drive load/store optimization.
2108 * @param irn start at this node
2109 * @param env the loop environment
2111 static void dfs(ir_node *irn, loop_env *env)
2114 node_entry *node = get_irn_ne(irn, env);
2116 mark_irn_visited(irn);
2118 node->DFSnum = env->nextDFSnum++;
2119 node->low = node->DFSnum;
2123 if (is_Phi(irn) || is_Sync(irn)) {
2124 n = get_irn_arity(irn);
2125 for (i = 0; i < n; ++i) {
2126 ir_node *pred = get_irn_n(irn, i);
2127 node_entry *o = get_irn_ne(pred, env);
2129 if (!irn_visited(pred)) {
2131 node->low = MIN(node->low, o->low);
2133 if (o->DFSnum < node->DFSnum && o->in_stack)
2134 node->low = MIN(o->DFSnum, node->low);
2136 } else if (is_fragile_op(irn)) {
2137 ir_node *pred = get_fragile_op_mem(irn);
2138 node_entry *o = get_irn_ne(pred, env);
2140 if (!irn_visited(pred)) {
2142 node->low = MIN(node->low, o->low);
2144 if (o->DFSnum < node->DFSnum && o->in_stack)
2145 node->low = MIN(o->DFSnum, node->low);
2146 } else if (is_Proj(irn)) {
2147 ir_node *pred = get_Proj_pred(irn);
2148 node_entry *o = get_irn_ne(pred, env);
2150 if (!irn_visited(pred)) {
2152 node->low = MIN(node->low, o->low);
2154 if (o->DFSnum < node->DFSnum && o->in_stack)
2155 node->low = MIN(o->DFSnum, node->low);
2158 /* IGNORE predecessors */
2161 if (node->low == node->DFSnum) {
2162 scc *pscc = (scc*)phase_alloc(&env->ph, sizeof(*pscc));
2170 e = get_irn_ne(x, env);
2172 e->next = pscc->head;
2176 process_scc(pscc, env);
2181 * Do the DFS on the memory edges a graph.
2183 * @param irg the graph to process
2184 * @param env the loop environment
2186 static void do_dfs(ir_graph *irg, loop_env *env)
2188 ir_node *endblk, *end;
2191 inc_irg_visited(irg);
2193 /* visit all memory nodes */
2194 endblk = get_irg_end_block(irg);
2195 for (i = get_Block_n_cfgpreds(endblk) - 1; i >= 0; --i) {
2196 ir_node *pred = get_Block_cfgpred(endblk, i);
2198 pred = skip_Proj(pred);
2199 if (is_Return(pred))
2200 dfs(get_Return_mem(pred), env);
2201 else if (is_Raise(pred))
2202 dfs(get_Raise_mem(pred), env);
2203 else if (is_fragile_op(pred))
2204 dfs(get_fragile_op_mem(pred), env);
2205 else if (is_Bad(pred))
2206 /* ignore non-optimized block predecessor */;
2208 assert(0 && "Unknown EndBlock predecessor");
2212 /* visit the keep-alives */
2213 end = get_irg_end(irg);
2214 for (i = get_End_n_keepalives(end) - 1; i >= 0; --i) {
2215 ir_node *ka = get_End_keepalive(end, i);
2217 if (is_Phi(ka) && !irn_visited(ka))
2223 * Optimize Loads/Stores in loops.
2225 * @param irg the graph
2227 static int optimize_loops(ir_graph *irg)
2231 env.stack = NEW_ARR_F(ir_node *, 128);
2236 phase_init(&env.ph, irg, phase_irn_init_default);
2238 /* calculate the SCC's and drive loop optimization. */
2241 DEL_ARR_F(env.stack);
2242 phase_deinit(&env.ph);
2245 } /* optimize_loops */
2248 * do the load store optimization
2250 int optimize_load_store(ir_graph *irg)
2254 FIRM_DBG_REGISTER(dbg, "firm.opt.ldstopt");
2256 assert(get_irg_phase_state(irg) != phase_building);
2257 assert(get_irg_pinned(irg) != op_pin_state_floats &&
2258 "LoadStore optimization needs pinned graph");
2260 /* we need landing pads */
2261 remove_critical_cf_edges(irg);
2265 /* for Phi optimization post-dominators are needed ... */
2266 assure_postdoms(irg);
2268 if (get_opt_alias_analysis()) {
2269 assure_irg_entity_usage_computed(irg);
2270 assure_irp_globals_entity_usage_computed();
2273 obstack_init(&env.obst);
2276 /* init the links, then collect Loads/Stores/Proj's in lists */
2278 irg_walk_graph(irg, firm_clear_link, collect_nodes, &env);
2280 /* now we have collected enough information, optimize */
2281 irg_walk_graph(irg, NULL, do_load_store_optimize, &env);
2283 env.changes |= optimize_loops(irg);
2285 obstack_free(&env.obst, NULL);
2287 /* Handle graph state */
2289 set_irg_outs_inconsistent(irg);
2290 set_irg_entity_usage_state(irg, ir_entity_usage_not_computed);
2293 if (env.changes & CF_CHANGED) {
2294 /* is this really needed: Yes, control flow changed, block might
2295 have Bad() predecessors. */
2296 set_irg_doms_inconsistent(irg);
2298 return env.changes != 0;
2299 } /* optimize_load_store */
2301 ir_graph_pass_t *optimize_load_store_pass(const char *name)
2303 return def_graph_pass_ret(name ? name : "ldst", optimize_load_store);
2304 } /* optimize_load_store_pass */
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