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 Always available outs.
23 * @author Sebastian Hack, Michael Beck, Andreas Schoesser
27 * This are out-edges (also called def-use edges) that are dynamically
28 * updated as the graph changes.
34 #include "iredgekinds.h"
35 #include "iredges_t.h"
45 #include "iredgeset.h"
50 #define HashSet ir_edgeset_t
51 #define HashSetIterator ir_edgeset_iterator_t
52 #define ValueType ir_edge_t*
53 #define NullValue NULL
54 #define DeletedValue ((ir_edge_t*)-1)
55 #define Hash(this,key) (HASH_PTR(key->src) ^ (key->pos * 40013))
56 #define KeysEqual(this,key1,key2) ((key1->src) == (key2->src) && (key1->pos == key2->pos))
57 #define SetRangeEmpty(ptr,size) memset(ptr, 0, (size) * sizeof((ptr)[0]))
59 #define hashset_init ir_edgeset_init
60 void ir_edgeset_init_size(ir_edgeset_t *self, size_t size);
61 #define hashset_init_size ir_edgeset_init_size
62 #define hashset_destroy ir_edgeset_destroy
63 #define hashset_insert ir_edgeset_insert
64 #define hashset_remove ir_edgeset_remove
65 ir_edge_t *ir_edgeset_find(const ir_edgeset_t *self, const ir_edge_t*);
66 #define hashset_find ir_edgeset_find
67 size_t ir_edgeset_size(const ir_edgeset_t *self);
68 #define hashset_size ir_edgeset_size
69 #define hashset_iterator_init ir_edgeset_iterator_init
70 #define hashset_iterator_next ir_edgeset_iterator_next
71 #define hashset_remove_iterator ir_edgeset_remove_iterator
76 * A function that allows for setting an edge.
77 * This abstraction is necessary since different edge kind have
78 * different methods of setting edges.
80 typedef void (set_edge_func_t)(ir_node *src, int pos, ir_node *tgt);
83 * A function that returns the "arity" of a given edge kind
86 typedef int (get_edge_src_arity_func_t)(const ir_node *src);
89 * A function that returns the pos'th edge of a given edge kind for a node.
91 typedef ir_node *(get_edge_src_n_func_t)(const ir_node *src, int pos);
94 * Additional data for an edge kind.
97 const char *name; /**< name of this edge kind */
98 set_edge_func_t *set_edge; /**< the set_edge function */
99 int first_idx; /**< index of the first possible edge */
100 get_edge_src_arity_func_t *get_arity; /**< the get_arity function */
101 get_edge_src_n_func_t *get_n; /**< the get_n function */
102 } ir_edge_kind_info_t;
105 * Get the predecessor block.
107 static ir_node *get_block_n(const ir_node *block, int pos)
110 return get_Block_cfgpred_block(block, pos);
115 static const ir_edge_kind_info_t edge_kind_info[EDGE_KIND_LAST] = {
116 { "normal" , set_irn_n, -1, get_irn_arity, get_irn_n },
117 { "block succs", NULL, 0, get_irn_arity, get_block_n },
118 { "dependency", set_irn_dep, 0, get_irn_deps, get_irn_dep }
121 #define foreach_tgt(irn, i, n, kind) for (i = edge_kind_info[kind].first_idx, n = edge_kind_info[kind].get_arity(irn); i < n; ++i)
122 #define get_n(irn, pos, kind) (edge_kind_info[kind].get_n(irn, pos))
123 #define get_kind_str(kind) (edge_kind_info[kind].name)
125 DEBUG_ONLY(static firm_dbg_module_t *dbg;)
128 * This flag is set to 1, if the edges get initialized for an irg.
129 * Then register additional data is forbidden.
131 static int edges_used = 0;
134 * Summed size of all users private data
137 static size_t edges_private_size = 0;
138 #define EDGE_SIZE (sizeof(ir_edge_t) + edges_private_size)
141 * If set to 1, the list heads are checked every time an edge is changed.
143 static int edges_dbg = 0;
146 /* a static variable holding the last number assigned to a new edge */
147 static long last_edge_num = -1;
151 * Returns an ID for the given edge.
153 static inline long edge_get_id(const ir_edge_t *e)
157 #else /* DEBUG_libfirm */
159 #endif /* DEBUG_libfirm */
163 * Announce to reserve extra space for each edge to be allocated.
165 * @param n: Size of the space to reserve
167 * @return Offset at which the private data will begin
169 * Several users can reserve extra space for private usage.
170 * Each user has to remember his given offset and the size of his private data.
171 * To be called before FIRM is initialized.
173 size_t edges_register_private_data(size_t n)
175 size_t res = edges_private_size;
177 assert(!edges_used && "you cannot register private edge data, if edges have been initialized");
179 edges_private_size += n;
184 * Reset the user's private data at offset 'offset'
185 * The user has to remember his offset and the size of his data!
186 * Caution: Using wrong values here can destroy other users private data!
188 void edges_reset_private_data(ir_graph *irg, int offset, unsigned size)
190 irg_edge_info_t *info = _get_irg_edge_info(irg, EDGE_KIND_NORMAL);
192 ir_edgeset_iterator_t iter;
194 foreach_ir_edgeset(&info->edges, edge, iter) {
195 memset(edge + sizeof(*edge) + offset, 0, size);
199 #define TIMES37(x) (((x) << 5) + ((x) << 2) + (x))
201 #define get_irn_out_list_head(irn) (&get_irn_out_info(irn)->outs)
203 #define edge_hash(edge) (TIMES37((edge)->pos) + HASH_PTR((edge)->src))
206 * Initialize the out information for a graph.
207 * @note Dead node elimination can call this on an already initialized graph.
209 void edges_init_graph_kind(ir_graph *irg, ir_edge_kind_t kind)
211 if (edges_activated_kind(irg, kind)) {
212 irg_edge_info_t *info = _get_irg_edge_info(irg, kind);
213 size_t amount = irg->estimated_node_count * 2;
216 if (info->allocated) {
217 amount = ir_edgeset_size(&info->edges);
218 ir_edgeset_destroy(&info->edges);
219 obstack_free(&info->edges_obst, NULL);
221 obstack_init(&info->edges_obst);
222 INIT_LIST_HEAD(&info->free_edges);
223 ir_edgeset_init_size(&info->edges, amount);
229 * Get the edge object of an outgoing edge at a node.
230 * @param irg The graph, the node is in.
231 * @param src The node at which the edge originates.
232 * @param pos The position of the edge.
233 * @param kind The kind of the edge.
234 * @return The corresponding edge object or NULL,
235 * if no such edge exists.
237 const ir_edge_t *get_irn_edge_kind(ir_graph *irg, const ir_node *src, int pos, ir_edge_kind_t kind)
239 if (edges_activated_kind(irg, kind)) {
240 irg_edge_info_t *info = _get_irg_edge_info(irg, kind);
243 key.src = (ir_node *)src;
246 return ir_edgeset_find(&info->edges, &key);
253 * Change the out count
255 * @param tgt the edge target
256 * @param kind the kind of the edge
258 static inline void edge_change_cnt(ir_node *tgt, ir_edge_kind_t kind, int ofs)
260 irn_edge_info_t *info = _get_irn_edge_info(tgt, kind);
261 info->out_count += ofs;
264 ir_graph *irg = get_irn_irg(tgt);
265 assert(info->out_count >= 0);
266 if (info->out_count == 0 && kind == EDGE_KIND_NORMAL) {
267 /* tgt lost it's last user */
270 for (i = get_irn_arity(tgt) - 1; i >= -1; --i) {
271 ir_node *prev = get_irn_n(tgt, i);
273 edges_notify_edge(tgt, i, NULL, prev, irg);
275 for (i = get_irn_deps(tgt) - 1; i >= 0; --i) {
276 ir_node *prev = get_irn_dep(tgt, i);
278 edges_notify_edge_kind(tgt, i, NULL, prev, EDGE_KIND_DEP, irg);
286 * Verify the edge list of a node, ie. ensure it's a loop:
287 * head -> e_1 -> ... -> e_n -> head
289 static inline void verify_list_head(ir_node *irn, ir_edge_kind_t kind)
293 pset *lh_set = pset_new_ptr(16);
294 const struct list_head *head = _get_irn_outs_head(irn, kind);
295 const struct list_head *pos;
297 list_for_each(pos, head) {
298 if (pset_find_ptr(lh_set, pos)) {
299 const ir_edge_t *edge = list_entry(pos, ir_edge_t, list);
301 ir_fprintf(stderr, "EDGE Verifier: edge list broken (self loop not to head) for %+F:\n", irn);
302 fprintf(stderr, "- at list entry %d\n", num);
304 fprintf(stderr, "- edge(%ld) is invalid\n", edge_get_id(edge));
306 ir_fprintf(stderr, "- edge(%ld) %+F(%d)\n", edge_get_id(edge), edge->src, edge->pos);
311 pset_insert_ptr(lh_set, pos);
319 void edges_dump_kind(ir_graph *irg, ir_edge_kind_t kind)
321 irg_edge_info_t *info;
323 ir_edgeset_iterator_t iter;
326 if (!edges_activated_kind(irg, kind))
329 info = _get_irg_edge_info(irg, kind);
330 edges = &info->edges;
331 foreach_ir_edgeset(edges, e, iter) {
332 ir_printf("%+F %d %d\n", e->src, e->pos, e->invalid);
336 /* The edge from (src, pos) -> old_tgt is redirected to tgt */
337 void edges_notify_edge_kind(ir_node *src, int pos, ir_node *tgt,
338 ir_node *old_tgt, ir_edge_kind_t kind,
341 const char *msg = "";
342 irg_edge_info_t *info;
347 assert(edges_activated_kind(irg, kind));
350 * Only do something, if the old and new target differ.
355 info = _get_irg_edge_info(irg, kind);
356 edges = &info->edges;
358 /* Initialize the edge template to search in the set. */
363 * If the target is NULL, the edge shall be deleted.
366 /* search the edge in the set. */
367 edge = ir_edgeset_find(edges, &templ);
369 /* mark the edge invalid if it was found */
372 list_del(&edge->list);
373 ir_edgeset_remove(edges, edge);
374 list_add(&edge->list, &info->free_edges);
380 #endif /* DEBUG_libfirm */
381 edge_change_cnt(old_tgt, kind, -1);
383 /* If the edge was not found issue a warning on the debug stream */
384 msg = "edge to delete not found!\n";
388 * The target is not NULL and the old target differs
389 * from the new target, the edge shall be moved (if the
390 * old target was != NULL) or added (if the old target was
393 struct list_head *head = _get_irn_outs_head(tgt, kind);
395 assert(head->next && head->prev &&
396 "target list head must have been initialized");
398 /* If the old target is not null, the edge is moved. */
400 edge = ir_edgeset_find(edges, &templ);
401 assert(edge && "edge to redirect not found!");
402 assert(! edge->invalid && "Invalid edge encountered");
406 list_move(&edge->list, head);
407 edge_change_cnt(old_tgt, kind, -1);
409 /* The old target was NULL, thus, the edge is newly created. */
413 if (list_empty(&info->free_edges)) {
414 edge = (ir_edge_t*)obstack_alloc(&info->edges_obst, EDGE_SIZE);
416 edge = list_entry(info->free_edges.next, ir_edge_t, list);
417 list_del(&edge->list);
425 edge->list.next = NULL;
426 edge->list.prev = NULL;
427 memset(edge + 1, 0, edges_private_size);
428 DEBUG_ONLY(edge->src_nr = get_irn_node_nr(src));
430 new_edge = ir_edgeset_insert(edges, edge);
431 if (new_edge != edge) {
432 panic("new edge exists already");
436 list_add(&edge->list, head);
437 DEBUG_ONLY(edge->edge_nr = ++last_edge_num);
440 edge_change_cnt(tgt, kind, +1);
443 #ifndef DEBUG_libfirm
444 /* verify list heads */
447 verify_list_head(tgt, kind);
449 verify_list_head(old_tgt, kind);
453 DBG((dbg, LEVEL_5, "announce out edge: %+F %d-> %+F(%+F): %s\n", src, pos, tgt, old_tgt, msg));
456 void edges_notify_edge(ir_node *src, int pos, ir_node *tgt, ir_node *old_tgt, ir_graph *irg)
458 if (edges_activated_kind(irg, EDGE_KIND_NORMAL)) {
459 edges_notify_edge_kind(src, pos, tgt, old_tgt, EDGE_KIND_NORMAL, irg);
462 if (edges_activated_kind(irg, EDGE_KIND_BLOCK) && is_Block(src)) {
463 ir_node *bl_old = old_tgt ? get_nodes_block(skip_Proj(old_tgt)) : NULL;
464 ir_node *bl_tgt = NULL;
467 bl_tgt = is_Bad(tgt) ? tgt : get_nodes_block(skip_Proj(tgt));
469 edges_notify_edge_kind(src, pos, bl_tgt, bl_old, EDGE_KIND_BLOCK, irg);
474 * Delete all in edges of a given kind from the node old.
476 * @param old the node
477 * @param kind the kind of edges to remove
478 * @param irg the irg of the old node
480 static void edges_node_deleted_kind(ir_node *old, ir_edge_kind_t kind, ir_graph *irg)
484 if (!edges_activated_kind(irg, kind))
487 DBG((dbg, LEVEL_5, "node deleted (kind: %s): %+F\n", get_kind_str(kind), old));
489 foreach_tgt(old, i, n, kind) {
490 ir_node *old_tgt = get_n(old, i, kind);
491 edges_notify_edge_kind(old, i, NULL, old_tgt, kind, irg);
496 * A node might be revivaled by CSE. Assure its edges.
498 * @param irn the node
499 * @param kind the kind of edges to remove
500 * @param irg the irg of the old node
502 static void edges_node_revival_kind(ir_node *irn, ir_edge_kind_t kind, ir_graph *irg)
504 irn_edge_info_t *info;
507 if (!edges_activated_kind(irg, kind))
510 info = _get_irn_edge_info(irn, kind);
511 if (info->edges_built)
514 DBG((dbg, LEVEL_5, "node revivaled (kind: %s): %+F\n", get_kind_str(kind), irn));
516 foreach_tgt(irn, i, n, kind) {
517 ir_node *tgt = get_n(irn, i, kind);
518 edges_notify_edge_kind(irn, i, tgt, NULL, kind, irg);
520 info->edges_built = 1;
523 typedef struct build_walker {
527 unsigned problem_found;
531 * Post-Walker: notify all edges
533 static void build_edges_walker(ir_node *irn, void *data)
535 build_walker *w = (build_walker*)data;
537 ir_edge_kind_t kind = w->kind;
538 ir_graph *irg = w->irg;
539 get_edge_src_n_func_t *get_n;
541 get_n = edge_kind_info[kind].get_n;
542 foreach_tgt(irn, i, n, kind) {
543 ir_node *pred = get_n(irn, i, kind);
544 edges_notify_edge_kind(irn, i, pred, NULL, kind, irg);
546 _get_irn_edge_info(irn, kind)->edges_built = 1;
550 * Pre-Walker: initializes the list-heads and set the out-count
553 static void init_lh_walker(ir_node *irn, void *data)
555 build_walker *w = (build_walker*)data;
556 ir_edge_kind_t kind = w->kind;
557 list_head *head = _get_irn_outs_head(irn, kind);
558 INIT_LIST_HEAD(head);
559 _get_irn_edge_info(irn, kind)->edges_built = 0;
560 _get_irn_edge_info(irn, kind)->out_count = 0;
564 * Pre-Walker: initializes the list-heads and set the out-count
567 * Additionally touches DEP nodes, as they might be DEAD.
568 * THIS IS UGLY, but I don't find a better way until we
570 * a) ensure that dead nodes are not used as input
571 * b) it might be sufficient to add those stupid NO_REG nodes
574 static void init_lh_walker_dep(ir_node *irn, void *data)
576 build_walker *w = (build_walker*)data;
577 ir_edge_kind_t kind = w->kind;
578 list_head *head = _get_irn_outs_head(irn, kind);
581 INIT_LIST_HEAD(head);
582 _get_irn_edge_info(irn, kind)->edges_built = 0;
583 _get_irn_edge_info(irn, kind)->out_count = 0;
585 for (i = get_irn_deps(irn) - 1; i >= 0; --i) {
586 ir_node *dep = get_irn_dep(irn, i);
588 head = _get_irn_outs_head(dep, kind);
590 INIT_LIST_HEAD(head);
591 _get_irn_edge_info(dep, kind)->edges_built = 0;
592 _get_irn_edge_info(dep, kind)->out_count = 0;
596 typedef struct visitor_info_t {
597 irg_walk_func *visit;
602 * Visitor: initializes the list-heads and set the out-count
603 * of all nodes to 0 of nodes that are not seen so far.
605 static void visitor(ir_node *irn, void *data)
607 visitor_info_t *info = (visitor_info_t*)data;
612 if (!irn_visited_else_mark(irn)) {
613 info->visit(irn, info->data);
618 * Build the initial edge set.
619 * Beware, this is not a simple task because it suffers from two
621 * - the anchor set allows access to Nodes that may not be reachable from
623 * - the identities add nodes to the "root set" that are not yet reachable
624 * from End. However, after some transformations, the CSE may revival these
627 * These problems can be fixed using different strategies:
628 * - Add an age flag to every node. Whenever the edge of a node is older
629 * then the current edge, invalidate the edges of this node.
630 * While this would help for revivaled nodes, it increases memory and runtime.
631 * - Delete the identities set.
632 * Solves the revival problem, but may increase the memory consumption, as
633 * nodes cannot be revivaled at all.
634 * - Manually iterate over the identities root set. This did not consume more memory
635 * but increase the computation time because the |identities| >= |V|
637 * Currently, we use the last option.
639 void edges_activate_kind(ir_graph *irg, ir_edge_kind_t kind)
641 struct build_walker w;
642 irg_edge_info_t *info = _get_irg_edge_info(irg, kind);
643 visitor_info_t visit;
650 assert(!info->activated);
653 edges_init_graph_kind(irg, kind);
654 if (kind == EDGE_KIND_DEP) {
655 irg_walk_anchors(irg, init_lh_walker_dep, NULL, &w);
656 /* Argh: Dep nodes might be dead, so we MUST visit identities first */
657 visit.visit = init_lh_walker_dep;
658 visit_all_identities(irg, visitor, &visit);
659 irg_walk_anchors(irg, NULL, build_edges_walker, &w);
661 irg_walk_anchors(irg, init_lh_walker, build_edges_walker, &w);
662 visit.visit = init_lh_walker;
663 visit_all_identities(irg, visitor, &visit);
667 void edges_deactivate_kind(ir_graph *irg, ir_edge_kind_t kind)
669 irg_edge_info_t *info = _get_irg_edge_info(irg, kind);
672 if (info->allocated) {
673 obstack_free(&info->edges_obst, NULL);
674 ir_edgeset_destroy(&info->edges);
679 int (edges_activated_kind)(const ir_graph *irg, ir_edge_kind_t kind)
681 return _edges_activated_kind(irg, kind);
686 * Reroute all use-edges from a node to another.
687 * @param from The node whose use-edges shall be withdrawn.
688 * @param to The node to which all the use-edges of @p from shall be
690 * @param irg The graph.
692 void edges_reroute_kind(ir_node *from, ir_node *to, ir_edge_kind_t kind, ir_graph *irg)
694 set_edge_func_t *set_edge = edge_kind_info[kind].set_edge;
696 if (set_edge && edges_activated_kind(irg, kind)) {
697 struct list_head *head = _get_irn_outs_head(from, kind);
699 DBG((dbg, LEVEL_5, "reroute from %+F to %+F\n", from, to));
701 while (head != head->next) {
702 ir_edge_t *edge = list_entry(head->next, ir_edge_t, list);
703 assert(edge->pos >= -1);
704 set_edge(edge->src, edge->pos, to);
709 static void verify_set_presence(ir_node *irn, void *data)
711 build_walker *w = (build_walker*)data;
712 ir_edgeset_t *edges = &_get_irg_edge_info(w->irg, w->kind)->edges;
715 foreach_tgt(irn, i, n, w->kind) {
721 e = ir_edgeset_find(edges, &templ);
725 w->problem_found = 1;
727 ir_fprintf(stderr, "Edge Verifier: edge %+F,%d -> %+F (kind: \"%s\") is missing\n",
728 irn, i, get_n(irn, i, w->kind), get_kind_str(w->kind));
734 static void verify_list_presence(ir_node *irn, void *data)
736 build_walker *w = (build_walker*)data;
739 bitset_set(w->reachable, get_irn_idx(irn));
741 /* check list heads */
742 verify_list_head(irn, w->kind);
744 foreach_out_edge_kind(irn, e, w->kind) {
747 if (w->kind == EDGE_KIND_NORMAL && get_irn_arity(e->src) <= e->pos) {
748 w->problem_found = 1;
750 ir_fprintf(stderr, "Edge Verifier: edge(%ld) %+F -> %+F recorded at src position %d, but src has arity %d\n",
751 edge_get_id(e), e->src, irn, e->pos, get_irn_arity(e->src));
756 tgt = get_n(e->src, e->pos, w->kind);
759 w->problem_found = 1;
761 ir_fprintf(stderr, "Edge Verifier: edge(%ld) %+F,%d (kind \"%s\") is no out edge of %+F but of %+F\n",
762 edge_get_id(e), e->src, e->pos, get_kind_str(w->kind), irn, tgt);
768 int edges_verify_kind(ir_graph *irg, ir_edge_kind_t kind)
770 struct build_walker w;
771 ir_edgeset_t *edges = &_get_irg_edge_info(irg, kind)->edges;
773 ir_edgeset_iterator_t iter;
777 w.reachable = bitset_alloca(get_irg_last_idx(irg));
780 /* Clear the present bit in all edges available. */
781 foreach_ir_edgeset(edges, e, iter) {
785 irg_walk_graph(irg, verify_set_presence, verify_list_presence, &w);
788 * Dump all edges which are not invalid and not present.
789 * These edges are superfluous and their presence in the
792 foreach_ir_edgeset(edges, e, iter) {
793 if (! e->invalid && ! e->present && bitset_is_set(w.reachable, get_irn_idx(e->src))) {
795 ir_fprintf(stderr, "Edge Verifier: edge(%ld) %+F,%d is superfluous\n", edge_get_id(e), e->src, e->pos);
799 return w.problem_found;
802 #define IGNORE_NODE(irn) (is_Bad((irn)) || is_Block((irn)))
805 * Clear link field of all nodes.
807 static void clear_links(ir_node *irn, void *env)
809 build_walker *w = (build_walker*)env;
812 if (IGNORE_NODE(irn)) {
813 set_irn_link(irn, NULL);
817 bs = bitset_malloc(get_irg_last_idx(w->irg));
818 set_irn_link(irn, bs);
822 * Increases count (stored in link field) for all operands of a node.
824 static void count_user(ir_node *irn, void *env)
831 for (i = get_irn_arity(irn) - 1; i >= first; --i) {
832 ir_node *op = get_irn_n(irn, i);
833 bitset_t *bs = (bitset_t*)get_irn_link(op);
836 bitset_set(bs, get_irn_idx(irn));
841 * Verifies if collected count, number of edges in list and stored edge count are in sync.
843 static void verify_edge_counter(ir_node *irn, void *env)
845 build_walker *w = (build_walker*)env;
851 const struct list_head *head;
852 const struct list_head *pos;
854 if (IGNORE_NODE(irn))
857 bs = (bitset_t*)get_irn_link(irn);
860 edge_cnt = _get_irn_edge_info(irn, EDGE_KIND_NORMAL)->out_count;
861 head = _get_irn_outs_head(irn, EDGE_KIND_NORMAL);
863 /* We can iterate safely here, list heads have already been verified. */
864 list_for_each(pos, head) {
868 /* check all nodes that reference us and count edges that point number
869 * of ins that actually point to us */
871 bitset_foreach(bs, idx) {
873 ir_node *src = get_idx_irn(w->irg, idx);
875 arity = get_irn_arity(src);
876 for (i = 0; i < arity; ++i) {
877 ir_node *in = get_irn_n(src, i);
883 if (edge_cnt != list_cnt) {
884 w->problem_found = 1;
885 ir_fprintf(stderr, "Edge Verifier: edge count is %d, but %d edge(s) are recorded in list at %+F\n",
886 edge_cnt, list_cnt, irn);
889 if (ref_cnt != list_cnt) {
890 w->problem_found = 1;
891 ir_fprintf(stderr, "Edge Verifier: %+F reachable by %d node(s), but the list contains %d edge(s)\n",
892 irn, ref_cnt, list_cnt);
894 /* Matze: buggy if a node has multiple ins pointing at irn */
896 list_for_each(pos, head) {
897 ir_edge_t *edge = list_entry(pos, ir_edge_t, list);
898 bitset_flip(bs, get_irn_idx(edge->src));
901 if (ref_cnt < list_cnt)
902 fprintf(stderr," following nodes are recorded in list, but not as user:\n");
904 fprintf(stderr," following nodes are user, but not recorded in list:\n");
907 bitset_foreach(bs, idx) {
908 ir_node *src = get_idx_irn(w->irg, idx);
909 ir_fprintf(stderr, " %+F", src);
911 fprintf(stderr, "\n");
919 * Verifies the out edges of an irg.
921 int edges_verify(ir_graph *irg)
923 struct build_walker w;
924 int problem_found = 0;
926 /* verify normal edges only */
927 problem_found = edges_verify_kind(irg, EDGE_KIND_NORMAL);
930 w.kind = EDGE_KIND_NORMAL;
934 irg_walk_anchors(irg, clear_links, count_user, &w);
935 irg_walk_anchors(irg, NULL, verify_edge_counter, &w);
937 return problem_found ? 1 : w.problem_found;
940 typedef struct pass_t {
941 ir_graph_pass_t pass;
942 unsigned assert_on_problem;
946 * Wrapper to edges_verify to be run as an ir_graph pass.
948 static int edges_verify_wrapper(ir_graph *irg, void *context)
950 pass_t *pass = (pass_t*)context;
951 int problems_found = edges_verify(irg);
952 /* do NOT rerun the pass if verify is ok :-) */
953 assert(problems_found && pass->assert_on_problem);
957 /* Creates an ir_graph pass for edges_verify(). */
958 ir_graph_pass_t *irg_verify_edges_pass(const char *name, unsigned assert_on_problem)
960 pass_t *pass = XMALLOCZ(pass_t);
962 def_graph_pass_constructor(
963 &pass->pass, name ? name : "edges_verify", edges_verify_wrapper);
965 /* neither dump nor verify */
966 pass->pass.dump_irg = (DUMP_ON_IRG_FUNC)ir_prog_no_dump;
967 pass->pass.verify_irg = (RUN_ON_IRG_FUNC)ir_prog_no_verify;
969 pass->assert_on_problem = assert_on_problem;
973 void init_edges(void)
975 FIRM_DBG_REGISTER(dbg, DBG_EDGES);
978 void edges_init_dbg(int do_dbg)
983 void edges_activate(ir_graph *irg)
985 edges_activate_kind(irg, EDGE_KIND_NORMAL);
986 edges_activate_kind(irg, EDGE_KIND_BLOCK);
987 if (get_irg_phase_state(irg) == phase_backend)
988 edges_activate_kind(irg, EDGE_KIND_DEP);
991 void edges_deactivate(ir_graph *irg)
993 if (get_irg_phase_state(irg) == phase_backend)
994 edges_deactivate_kind(irg, EDGE_KIND_DEP);
995 edges_deactivate_kind(irg, EDGE_KIND_BLOCK);
996 edges_deactivate_kind(irg, EDGE_KIND_NORMAL);
999 int edges_assure(ir_graph *irg)
1003 if (edges_activated_kind(irg, EDGE_KIND_BLOCK)) {
1006 edges_activate_kind(irg, EDGE_KIND_BLOCK);
1008 if (edges_activated_kind(irg, EDGE_KIND_NORMAL)) {
1011 edges_activate_kind(irg, EDGE_KIND_NORMAL);
1017 int edges_assure_kind(ir_graph *irg, ir_edge_kind_t kind)
1019 int activated = edges_activated_kind(irg, kind);
1022 edges_activate_kind(irg, kind);
1027 void edges_node_deleted(ir_node *irn, ir_graph *irg)
1029 edges_node_deleted_kind(irn, EDGE_KIND_NORMAL, irg);
1030 edges_node_deleted_kind(irn, EDGE_KIND_BLOCK, irg);
1033 void edges_node_revival(ir_node *irn, ir_graph *irg)
1035 edges_node_revival_kind(irn, EDGE_KIND_NORMAL, irg);
1036 edges_node_revival_kind(irn, EDGE_KIND_BLOCK, irg);
1039 const ir_edge_t *(get_irn_out_edge_first_kind)(const ir_node *irn, ir_edge_kind_t kind)
1041 return _get_irn_out_edge_first_kind(irn, kind);
1044 const ir_edge_t *(get_irn_out_edge_next)(const ir_node *irn, const ir_edge_t *last)
1046 return _get_irn_out_edge_next(irn, last);
1049 ir_node *(get_edge_src_irn)(const ir_edge_t *edge)
1051 return _get_edge_src_irn(edge);
1054 int (get_edge_src_pos)(const ir_edge_t *edge)
1056 return _get_edge_src_pos(edge);
1059 int (get_irn_n_edges_kind)(const ir_node *irn, ir_edge_kind_t kind)
1061 return _get_irn_n_edges_kind(irn, kind);
1064 static void irg_walk_edges2(ir_node *node, irg_walk_func *pre,
1065 irg_walk_func *post, void *env)
1067 const ir_edge_t *edge, *next;
1069 if (irn_visited(node))
1071 mark_irn_visited(node);
1076 foreach_out_edge_kind_safe(node, edge, next, EDGE_KIND_NORMAL) {
1077 /* find the corresponding successor block. */
1078 ir_node *pred = get_edge_src_irn(edge);
1079 irg_walk_edges2(pred, pre, post, env);
1086 void irg_walk_edges(ir_node *node, irg_walk_func *pre, irg_walk_func *post,
1089 ir_graph *irg = get_irn_irg(node);
1091 assert(edges_activated(irg));
1092 assert(is_Block(node));
1094 ir_reserve_resources(irg, IR_RESOURCE_IRN_VISITED);
1096 inc_irg_visited(irg);
1097 irg_walk_edges2(node, pre, post, env);
1099 ir_free_resources(irg, IR_RESOURCE_IRN_VISITED);
1102 static void irg_block_edges_walk2(ir_node *bl, irg_walk_func *pre,
1103 irg_walk_func *post, void *env)
1105 const ir_edge_t *edge, *next;
1107 if (!Block_block_visited(bl)) {
1108 mark_Block_block_visited(bl);
1113 foreach_out_edge_kind_safe(bl, edge, next, EDGE_KIND_BLOCK) {
1114 /* find the corresponding successor block. */
1115 ir_node *pred = get_edge_src_irn(edge);
1116 irg_block_edges_walk2(pred, pre, post, env);
1124 void irg_block_edges_walk(ir_node *node, irg_walk_func *pre,
1125 irg_walk_func *post, void *env)
1127 ir_graph *irg = get_irn_irg(node);
1129 assert(edges_activated(irg));
1130 assert(is_Block(node));
1132 ir_reserve_resources(irg, IR_RESOURCE_BLOCK_VISITED);
1134 inc_irg_block_visited(irg);
1135 irg_block_edges_walk2(node, pre, post, env);
1137 ir_free_resources(irg, IR_RESOURCE_BLOCK_VISITED);