[Ada] Missing range check on assignment to bit-packed array
[official-gcc.git] / gcc / tree-ssa-loop-manip.c
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1 /* High-level loop manipulation functions.
2 Copyright (C) 2004-2019 Free Software Foundation, Inc.
4 This file is part of GCC.
6 GCC is free software; you can redistribute it and/or modify it
7 under the terms of the GNU General Public License as published by the
8 Free Software Foundation; either version 3, or (at your option) any
9 later version.
11 GCC is distributed in the hope that it will be useful, but WITHOUT
12 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
13 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
14 for more details.
16 You should have received a copy of the GNU General Public License
17 along with GCC; see the file COPYING3. If not see
18 <http://www.gnu.org/licenses/>. */
20 #include "config.h"
21 #include "system.h"
22 #include "coretypes.h"
23 #include "backend.h"
24 #include "tree.h"
25 #include "gimple.h"
26 #include "cfghooks.h"
27 #include "tree-pass.h" /* ??? for TODO_update_ssa but this isn't a pass. */
28 #include "ssa.h"
29 #include "gimple-pretty-print.h"
30 #include "fold-const.h"
31 #include "cfganal.h"
32 #include "gimplify.h"
33 #include "gimple-iterator.h"
34 #include "gimplify-me.h"
35 #include "tree-cfg.h"
36 #include "tree-ssa-loop-ivopts.h"
37 #include "tree-ssa-loop-manip.h"
38 #include "tree-ssa-loop-niter.h"
39 #include "tree-ssa-loop.h"
40 #include "tree-into-ssa.h"
41 #include "tree-ssa.h"
42 #include "cfgloop.h"
43 #include "tree-scalar-evolution.h"
44 #include "params.h"
45 #include "tree-inline.h"
47 /* All bitmaps for rewriting into loop-closed SSA go on this obstack,
48 so that we can free them all at once. */
49 static bitmap_obstack loop_renamer_obstack;
51 /* Creates an induction variable with value BASE + STEP * iteration in LOOP.
52 It is expected that neither BASE nor STEP are shared with other expressions
53 (unless the sharing rules allow this). Use VAR as a base var_decl for it
54 (if NULL, a new temporary will be created). The increment will occur at
55 INCR_POS (after it if AFTER is true, before it otherwise). INCR_POS and
56 AFTER can be computed using standard_iv_increment_position. The ssa versions
57 of the variable before and after increment will be stored in VAR_BEFORE and
58 VAR_AFTER (unless they are NULL). */
60 void
61 create_iv (tree base, tree step, tree var, struct loop *loop,
62 gimple_stmt_iterator *incr_pos, bool after,
63 tree *var_before, tree *var_after)
65 gassign *stmt;
66 gphi *phi;
67 tree initial, step1;
68 gimple_seq stmts;
69 tree vb, va;
70 enum tree_code incr_op = PLUS_EXPR;
71 edge pe = loop_preheader_edge (loop);
73 if (var != NULL_TREE)
75 vb = make_ssa_name (var);
76 va = make_ssa_name (var);
78 else
80 vb = make_temp_ssa_name (TREE_TYPE (base), NULL, "ivtmp");
81 va = make_temp_ssa_name (TREE_TYPE (base), NULL, "ivtmp");
83 if (var_before)
84 *var_before = vb;
85 if (var_after)
86 *var_after = va;
88 /* For easier readability of the created code, produce MINUS_EXPRs
89 when suitable. */
90 if (TREE_CODE (step) == INTEGER_CST)
92 if (TYPE_UNSIGNED (TREE_TYPE (step)))
94 step1 = fold_build1 (NEGATE_EXPR, TREE_TYPE (step), step);
95 if (tree_int_cst_lt (step1, step))
97 incr_op = MINUS_EXPR;
98 step = step1;
101 else
103 bool ovf;
105 if (!tree_expr_nonnegative_warnv_p (step, &ovf)
106 && may_negate_without_overflow_p (step))
108 incr_op = MINUS_EXPR;
109 step = fold_build1 (NEGATE_EXPR, TREE_TYPE (step), step);
113 if (POINTER_TYPE_P (TREE_TYPE (base)))
115 if (TREE_CODE (base) == ADDR_EXPR)
116 mark_addressable (TREE_OPERAND (base, 0));
117 step = convert_to_ptrofftype (step);
118 if (incr_op == MINUS_EXPR)
119 step = fold_build1 (NEGATE_EXPR, TREE_TYPE (step), step);
120 incr_op = POINTER_PLUS_EXPR;
122 /* Gimplify the step if necessary. We put the computations in front of the
123 loop (i.e. the step should be loop invariant). */
124 step = force_gimple_operand (step, &stmts, true, NULL_TREE);
125 if (stmts)
126 gsi_insert_seq_on_edge_immediate (pe, stmts);
128 stmt = gimple_build_assign (va, incr_op, vb, step);
129 if (after)
130 gsi_insert_after (incr_pos, stmt, GSI_NEW_STMT);
131 else
132 gsi_insert_before (incr_pos, stmt, GSI_NEW_STMT);
134 initial = force_gimple_operand (base, &stmts, true, var);
135 if (stmts)
136 gsi_insert_seq_on_edge_immediate (pe, stmts);
138 phi = create_phi_node (vb, loop->header);
139 add_phi_arg (phi, initial, loop_preheader_edge (loop), UNKNOWN_LOCATION);
140 add_phi_arg (phi, va, loop_latch_edge (loop), UNKNOWN_LOCATION);
143 /* Return the innermost superloop LOOP of USE_LOOP that is a superloop of
144 both DEF_LOOP and USE_LOOP. */
146 static inline struct loop *
147 find_sibling_superloop (struct loop *use_loop, struct loop *def_loop)
149 unsigned ud = loop_depth (use_loop);
150 unsigned dd = loop_depth (def_loop);
151 gcc_assert (ud > 0 && dd > 0);
152 if (ud > dd)
153 use_loop = superloop_at_depth (use_loop, dd);
154 if (ud < dd)
155 def_loop = superloop_at_depth (def_loop, ud);
156 while (loop_outer (use_loop) != loop_outer (def_loop))
158 use_loop = loop_outer (use_loop);
159 def_loop = loop_outer (def_loop);
160 gcc_assert (use_loop && def_loop);
162 return use_loop;
165 /* DEF_BB is a basic block containing a DEF that needs rewriting into
166 loop-closed SSA form. USE_BLOCKS is the set of basic blocks containing
167 uses of DEF that "escape" from the loop containing DEF_BB (i.e. blocks in
168 USE_BLOCKS are dominated by DEF_BB but not in the loop father of DEF_B).
169 ALL_EXITS[I] is the set of all basic blocks that exit loop I.
171 Compute the subset of LOOP_EXITS that exit the loop containing DEF_BB
172 or one of its loop fathers, in which DEF is live. This set is returned
173 in the bitmap LIVE_EXITS.
175 Instead of computing the complete livein set of the def, we use the loop
176 nesting tree as a form of poor man's structure analysis. This greatly
177 speeds up the analysis, which is important because this function may be
178 called on all SSA names that need rewriting, one at a time. */
180 static void
181 compute_live_loop_exits (bitmap live_exits, bitmap use_blocks,
182 bitmap *loop_exits, basic_block def_bb)
184 unsigned i;
185 bitmap_iterator bi;
186 struct loop *def_loop = def_bb->loop_father;
187 unsigned def_loop_depth = loop_depth (def_loop);
188 bitmap def_loop_exits;
190 /* Normally the work list size is bounded by the number of basic
191 blocks in the largest loop. We don't know this number, but we
192 can be fairly sure that it will be relatively small. */
193 auto_vec<basic_block> worklist (MAX (8, n_basic_blocks_for_fn (cfun) / 128));
195 EXECUTE_IF_SET_IN_BITMAP (use_blocks, 0, i, bi)
197 basic_block use_bb = BASIC_BLOCK_FOR_FN (cfun, i);
198 struct loop *use_loop = use_bb->loop_father;
199 gcc_checking_assert (def_loop != use_loop
200 && ! flow_loop_nested_p (def_loop, use_loop));
201 if (! flow_loop_nested_p (use_loop, def_loop))
202 use_bb = find_sibling_superloop (use_loop, def_loop)->header;
203 if (bitmap_set_bit (live_exits, use_bb->index))
204 worklist.safe_push (use_bb);
207 /* Iterate until the worklist is empty. */
208 while (! worklist.is_empty ())
210 edge e;
211 edge_iterator ei;
213 /* Pull a block off the worklist. */
214 basic_block bb = worklist.pop ();
216 /* Make sure we have at least enough room in the work list
217 for all predecessors of this block. */
218 worklist.reserve (EDGE_COUNT (bb->preds));
220 /* For each predecessor block. */
221 FOR_EACH_EDGE (e, ei, bb->preds)
223 basic_block pred = e->src;
224 struct loop *pred_loop = pred->loop_father;
225 unsigned pred_loop_depth = loop_depth (pred_loop);
226 bool pred_visited;
228 /* We should have met DEF_BB along the way. */
229 gcc_assert (pred != ENTRY_BLOCK_PTR_FOR_FN (cfun));
231 if (pred_loop_depth >= def_loop_depth)
233 if (pred_loop_depth > def_loop_depth)
234 pred_loop = superloop_at_depth (pred_loop, def_loop_depth);
235 /* If we've reached DEF_LOOP, our train ends here. */
236 if (pred_loop == def_loop)
237 continue;
239 else if (! flow_loop_nested_p (pred_loop, def_loop))
240 pred = find_sibling_superloop (pred_loop, def_loop)->header;
242 /* Add PRED to the LIVEIN set. PRED_VISITED is true if
243 we had already added PRED to LIVEIN before. */
244 pred_visited = !bitmap_set_bit (live_exits, pred->index);
246 /* If we have visited PRED before, don't add it to the worklist.
247 If BB dominates PRED, then we're probably looking at a loop.
248 We're only interested in looking up in the dominance tree
249 because DEF_BB dominates all the uses. */
250 if (pred_visited || dominated_by_p (CDI_DOMINATORS, pred, bb))
251 continue;
253 worklist.quick_push (pred);
257 def_loop_exits = BITMAP_ALLOC (&loop_renamer_obstack);
258 for (struct loop *loop = def_loop;
259 loop != current_loops->tree_root;
260 loop = loop_outer (loop))
261 bitmap_ior_into (def_loop_exits, loop_exits[loop->num]);
262 bitmap_and_into (live_exits, def_loop_exits);
263 BITMAP_FREE (def_loop_exits);
266 /* Add a loop-closing PHI for VAR in basic block EXIT. */
268 static void
269 add_exit_phi (basic_block exit, tree var)
271 gphi *phi;
272 edge e;
273 edge_iterator ei;
275 /* Check that at least one of the edges entering the EXIT block exits
276 the loop, or a superloop of that loop, that VAR is defined in. */
277 if (flag_checking)
279 gimple *def_stmt = SSA_NAME_DEF_STMT (var);
280 basic_block def_bb = gimple_bb (def_stmt);
281 FOR_EACH_EDGE (e, ei, exit->preds)
283 struct loop *aloop = find_common_loop (def_bb->loop_father,
284 e->src->loop_father);
285 if (!flow_bb_inside_loop_p (aloop, e->dest))
286 break;
288 gcc_assert (e);
291 phi = create_phi_node (NULL_TREE, exit);
292 create_new_def_for (var, phi, gimple_phi_result_ptr (phi));
293 FOR_EACH_EDGE (e, ei, exit->preds)
294 add_phi_arg (phi, var, e, UNKNOWN_LOCATION);
296 if (dump_file && (dump_flags & TDF_DETAILS))
298 fprintf (dump_file, ";; Created LCSSA PHI: ");
299 print_gimple_stmt (dump_file, phi, 0, dump_flags);
303 /* Add exit phis for VAR that is used in LIVEIN.
304 Exits of the loops are stored in LOOP_EXITS. */
306 static void
307 add_exit_phis_var (tree var, bitmap use_blocks, bitmap *loop_exits)
309 unsigned index;
310 bitmap_iterator bi;
311 basic_block def_bb = gimple_bb (SSA_NAME_DEF_STMT (var));
312 bitmap live_exits = BITMAP_ALLOC (&loop_renamer_obstack);
314 gcc_checking_assert (! bitmap_bit_p (use_blocks, def_bb->index));
316 compute_live_loop_exits (live_exits, use_blocks, loop_exits, def_bb);
318 EXECUTE_IF_SET_IN_BITMAP (live_exits, 0, index, bi)
320 add_exit_phi (BASIC_BLOCK_FOR_FN (cfun, index), var);
323 BITMAP_FREE (live_exits);
326 /* Add exit phis for the names marked in NAMES_TO_RENAME.
327 Exits of the loops are stored in EXITS. Sets of blocks where the ssa
328 names are used are stored in USE_BLOCKS. */
330 static void
331 add_exit_phis (bitmap names_to_rename, bitmap *use_blocks, bitmap *loop_exits)
333 unsigned i;
334 bitmap_iterator bi;
336 EXECUTE_IF_SET_IN_BITMAP (names_to_rename, 0, i, bi)
338 add_exit_phis_var (ssa_name (i), use_blocks[i], loop_exits);
342 /* Fill the array of bitmaps LOOP_EXITS with all loop exit edge targets. */
344 static void
345 get_loops_exits (bitmap *loop_exits)
347 struct loop *loop;
348 unsigned j;
349 edge e;
351 FOR_EACH_LOOP (loop, 0)
353 vec<edge> exit_edges = get_loop_exit_edges (loop);
354 loop_exits[loop->num] = BITMAP_ALLOC (&loop_renamer_obstack);
355 FOR_EACH_VEC_ELT (exit_edges, j, e)
356 bitmap_set_bit (loop_exits[loop->num], e->dest->index);
357 exit_edges.release ();
361 /* For USE in BB, if it is used outside of the loop it is defined in,
362 mark it for rewrite. Record basic block BB where it is used
363 to USE_BLOCKS. Record the ssa name index to NEED_PHIS bitmap.
364 Note that for USEs in phis, BB should be the src of the edge corresponding to
365 the use, rather than the bb containing the phi. */
367 static void
368 find_uses_to_rename_use (basic_block bb, tree use, bitmap *use_blocks,
369 bitmap need_phis)
371 unsigned ver;
372 basic_block def_bb;
373 struct loop *def_loop;
375 if (TREE_CODE (use) != SSA_NAME)
376 return;
378 ver = SSA_NAME_VERSION (use);
379 def_bb = gimple_bb (SSA_NAME_DEF_STMT (use));
380 if (!def_bb)
381 return;
382 def_loop = def_bb->loop_father;
384 /* If the definition is not inside a loop, it is not interesting. */
385 if (!loop_outer (def_loop))
386 return;
388 /* If the use is not outside of the loop it is defined in, it is not
389 interesting. */
390 if (flow_bb_inside_loop_p (def_loop, bb))
391 return;
393 /* If we're seeing VER for the first time, we still have to allocate
394 a bitmap for its uses. */
395 if (bitmap_set_bit (need_phis, ver))
396 use_blocks[ver] = BITMAP_ALLOC (&loop_renamer_obstack);
397 bitmap_set_bit (use_blocks[ver], bb->index);
400 /* For uses matching USE_FLAGS in STMT, mark names that are used outside of the
401 loop they are defined to rewrite. Record the set of blocks in which the ssa
402 names are used to USE_BLOCKS, and the ssa names themselves to NEED_PHIS. */
404 static void
405 find_uses_to_rename_stmt (gimple *stmt, bitmap *use_blocks, bitmap need_phis,
406 int use_flags)
408 ssa_op_iter iter;
409 tree var;
410 basic_block bb = gimple_bb (stmt);
412 if (is_gimple_debug (stmt))
413 return;
415 /* FOR_EACH_SSA_TREE_OPERAND iterator does not allows SSA_OP_VIRTUAL_USES
416 only. */
417 if (use_flags == SSA_OP_VIRTUAL_USES)
419 tree vuse = gimple_vuse (stmt);
420 if (vuse != NULL_TREE)
421 find_uses_to_rename_use (bb, gimple_vuse (stmt), use_blocks, need_phis);
423 else
424 FOR_EACH_SSA_TREE_OPERAND (var, stmt, iter, use_flags)
425 find_uses_to_rename_use (bb, var, use_blocks, need_phis);
428 /* Marks names matching USE_FLAGS that are used in BB and outside of the loop
429 they are defined in for rewrite. Records the set of blocks in which the ssa
430 names are used to USE_BLOCKS. Record the SSA names that will
431 need exit PHIs in NEED_PHIS. */
433 static void
434 find_uses_to_rename_bb (basic_block bb, bitmap *use_blocks, bitmap need_phis,
435 int use_flags)
437 edge e;
438 edge_iterator ei;
439 bool do_virtuals = (use_flags & SSA_OP_VIRTUAL_USES) != 0;
440 bool do_nonvirtuals = (use_flags & SSA_OP_USE) != 0;
442 FOR_EACH_EDGE (e, ei, bb->succs)
443 for (gphi_iterator bsi = gsi_start_phis (e->dest); !gsi_end_p (bsi);
444 gsi_next (&bsi))
446 gphi *phi = bsi.phi ();
447 bool virtual_p = virtual_operand_p (gimple_phi_result (phi));
448 if ((virtual_p && do_virtuals)
449 || (!virtual_p && do_nonvirtuals))
450 find_uses_to_rename_use (bb, PHI_ARG_DEF_FROM_EDGE (phi, e),
451 use_blocks, need_phis);
454 for (gimple_stmt_iterator bsi = gsi_start_bb (bb); !gsi_end_p (bsi);
455 gsi_next (&bsi))
456 find_uses_to_rename_stmt (gsi_stmt (bsi), use_blocks, need_phis,
457 use_flags);
460 /* Marks names matching USE_FLAGS that are used outside of the loop they are
461 defined in for rewrite. Records the set of blocks in which the ssa names are
462 used to USE_BLOCKS. Record the SSA names that will need exit PHIs in
463 NEED_PHIS. If CHANGED_BBS is not NULL, scan only blocks in this set. */
465 static void
466 find_uses_to_rename (bitmap changed_bbs, bitmap *use_blocks, bitmap need_phis,
467 int use_flags)
469 basic_block bb;
470 unsigned index;
471 bitmap_iterator bi;
473 if (changed_bbs)
474 EXECUTE_IF_SET_IN_BITMAP (changed_bbs, 0, index, bi)
476 bb = BASIC_BLOCK_FOR_FN (cfun, index);
477 if (bb)
478 find_uses_to_rename_bb (bb, use_blocks, need_phis, use_flags);
480 else
481 FOR_EACH_BB_FN (bb, cfun)
482 find_uses_to_rename_bb (bb, use_blocks, need_phis, use_flags);
485 /* Mark uses of DEF that are used outside of the loop they are defined in for
486 rewrite. Record the set of blocks in which the ssa names are used to
487 USE_BLOCKS. Record the SSA names that will need exit PHIs in NEED_PHIS. */
489 static void
490 find_uses_to_rename_def (tree def, bitmap *use_blocks, bitmap need_phis)
492 gimple *use_stmt;
493 imm_use_iterator imm_iter;
495 FOR_EACH_IMM_USE_STMT (use_stmt, imm_iter, def)
497 if (is_gimple_debug (use_stmt))
498 continue;
500 basic_block use_bb = gimple_bb (use_stmt);
502 use_operand_p use_p;
503 FOR_EACH_IMM_USE_ON_STMT (use_p, imm_iter)
505 if (gimple_code (use_stmt) == GIMPLE_PHI)
507 edge e = gimple_phi_arg_edge (as_a <gphi *> (use_stmt),
508 PHI_ARG_INDEX_FROM_USE (use_p));
509 use_bb = e->src;
511 find_uses_to_rename_use (use_bb, USE_FROM_PTR (use_p), use_blocks,
512 need_phis);
517 /* Marks names matching USE_FLAGS that are defined in LOOP and used outside of
518 it for rewrite. Records the set of blocks in which the ssa names are used to
519 USE_BLOCKS. Record the SSA names that will need exit PHIs in NEED_PHIS. */
521 static void
522 find_uses_to_rename_in_loop (struct loop *loop, bitmap *use_blocks,
523 bitmap need_phis, int use_flags)
525 bool do_virtuals = (use_flags & SSA_OP_VIRTUAL_USES) != 0;
526 bool do_nonvirtuals = (use_flags & SSA_OP_USE) != 0;
527 int def_flags = ((do_virtuals ? SSA_OP_VIRTUAL_DEFS : 0)
528 | (do_nonvirtuals ? SSA_OP_DEF : 0));
531 basic_block *bbs = get_loop_body (loop);
533 for (unsigned int i = 0; i < loop->num_nodes; i++)
535 basic_block bb = bbs[i];
537 for (gphi_iterator bsi = gsi_start_phis (bb); !gsi_end_p (bsi);
538 gsi_next (&bsi))
540 gphi *phi = bsi.phi ();
541 tree res = gimple_phi_result (phi);
542 bool virtual_p = virtual_operand_p (res);
543 if ((virtual_p && do_virtuals)
544 || (!virtual_p && do_nonvirtuals))
545 find_uses_to_rename_def (res, use_blocks, need_phis);
548 for (gimple_stmt_iterator bsi = gsi_start_bb (bb); !gsi_end_p (bsi);
549 gsi_next (&bsi))
551 gimple *stmt = gsi_stmt (bsi);
552 /* FOR_EACH_SSA_TREE_OPERAND iterator does not allows
553 SSA_OP_VIRTUAL_DEFS only. */
554 if (def_flags == SSA_OP_VIRTUAL_DEFS)
556 tree vdef = gimple_vdef (stmt);
557 if (vdef != NULL)
558 find_uses_to_rename_def (vdef, use_blocks, need_phis);
560 else
562 tree var;
563 ssa_op_iter iter;
564 FOR_EACH_SSA_TREE_OPERAND (var, stmt, iter, def_flags)
565 find_uses_to_rename_def (var, use_blocks, need_phis);
570 XDELETEVEC (bbs);
573 /* Rewrites the program into a loop closed ssa form -- i.e. inserts extra
574 phi nodes to ensure that no variable is used outside the loop it is
575 defined in.
577 This strengthening of the basic ssa form has several advantages:
579 1) Updating it during unrolling/peeling/versioning is trivial, since
580 we do not need to care about the uses outside of the loop.
581 The same applies to virtual operands which are also rewritten into
582 loop closed SSA form. Note that virtual operands are always live
583 until function exit.
584 2) The behavior of all uses of an induction variable is the same.
585 Without this, you need to distinguish the case when the variable
586 is used outside of the loop it is defined in, for example
588 for (i = 0; i < 100; i++)
590 for (j = 0; j < 100; j++)
592 k = i + j;
593 use1 (k);
595 use2 (k);
598 Looking from the outer loop with the normal SSA form, the first use of k
599 is not well-behaved, while the second one is an induction variable with
600 base 99 and step 1.
602 If LOOP is non-null, only rewrite uses that have defs in LOOP. Otherwise,
603 if CHANGED_BBS is not NULL, we look for uses outside loops only in the
604 basic blocks in this set.
606 USE_FLAGS allows us to specify whether we want virtual, non-virtual or
607 both variables rewritten.
609 UPDATE_FLAG is used in the call to update_ssa. See
610 TODO_update_ssa* for documentation. */
612 void
613 rewrite_into_loop_closed_ssa_1 (bitmap changed_bbs, unsigned update_flag,
614 int use_flags, struct loop *loop)
616 bitmap *use_blocks;
617 bitmap names_to_rename;
619 loops_state_set (LOOP_CLOSED_SSA);
620 if (number_of_loops (cfun) <= 1)
621 return;
623 /* If the pass has caused the SSA form to be out-of-date, update it
624 now. */
625 if (update_flag != 0)
626 update_ssa (update_flag);
627 else if (flag_checking)
628 verify_ssa (true, true);
630 bitmap_obstack_initialize (&loop_renamer_obstack);
632 names_to_rename = BITMAP_ALLOC (&loop_renamer_obstack);
634 /* Uses of names to rename. We don't have to initialize this array,
635 because we know that we will only have entries for the SSA names
636 in NAMES_TO_RENAME. */
637 use_blocks = XNEWVEC (bitmap, num_ssa_names);
639 if (loop != NULL)
641 gcc_assert (changed_bbs == NULL);
642 find_uses_to_rename_in_loop (loop, use_blocks, names_to_rename,
643 use_flags);
645 else
647 gcc_assert (loop == NULL);
648 find_uses_to_rename (changed_bbs, use_blocks, names_to_rename, use_flags);
651 if (!bitmap_empty_p (names_to_rename))
653 /* An array of bitmaps where LOOP_EXITS[I] is the set of basic blocks
654 that are the destination of an edge exiting loop number I. */
655 bitmap *loop_exits = XNEWVEC (bitmap, number_of_loops (cfun));
656 get_loops_exits (loop_exits);
658 /* Add the PHI nodes on exits of the loops for the names we need to
659 rewrite. */
660 add_exit_phis (names_to_rename, use_blocks, loop_exits);
662 free (loop_exits);
664 /* Fix up all the names found to be used outside their original
665 loops. */
666 update_ssa (TODO_update_ssa);
669 bitmap_obstack_release (&loop_renamer_obstack);
670 free (use_blocks);
673 /* Rewrites the non-virtual defs and uses into a loop closed ssa form. If
674 CHANGED_BBS is not NULL, we look for uses outside loops only in the basic
675 blocks in this set. UPDATE_FLAG is used in the call to update_ssa. See
676 TODO_update_ssa* for documentation. */
678 void
679 rewrite_into_loop_closed_ssa (bitmap changed_bbs, unsigned update_flag)
681 rewrite_into_loop_closed_ssa_1 (changed_bbs, update_flag, SSA_OP_USE, NULL);
684 /* Rewrites virtual defs and uses with def in LOOP into loop closed ssa
685 form. */
687 void
688 rewrite_virtuals_into_loop_closed_ssa (struct loop *loop)
690 rewrite_into_loop_closed_ssa_1 (NULL, 0, SSA_OP_VIRTUAL_USES, loop);
693 /* Check invariants of the loop closed ssa form for the def in DEF_BB. */
695 static void
696 check_loop_closed_ssa_def (basic_block def_bb, tree def)
698 use_operand_p use_p;
699 imm_use_iterator iterator;
700 FOR_EACH_IMM_USE_FAST (use_p, iterator, def)
702 if (is_gimple_debug (USE_STMT (use_p)))
703 continue;
705 basic_block use_bb = gimple_bb (USE_STMT (use_p));
706 if (is_a <gphi *> (USE_STMT (use_p)))
707 use_bb = EDGE_PRED (use_bb, PHI_ARG_INDEX_FROM_USE (use_p))->src;
709 gcc_assert (flow_bb_inside_loop_p (def_bb->loop_father, use_bb));
713 /* Checks invariants of loop closed ssa form in BB. */
715 static void
716 check_loop_closed_ssa_bb (basic_block bb)
718 for (gphi_iterator bsi = gsi_start_phis (bb); !gsi_end_p (bsi);
719 gsi_next (&bsi))
721 gphi *phi = bsi.phi ();
723 if (!virtual_operand_p (PHI_RESULT (phi)))
724 check_loop_closed_ssa_def (bb, PHI_RESULT (phi));
727 for (gimple_stmt_iterator bsi = gsi_start_nondebug_bb (bb); !gsi_end_p (bsi);
728 gsi_next_nondebug (&bsi))
730 ssa_op_iter iter;
731 tree var;
732 gimple *stmt = gsi_stmt (bsi);
734 FOR_EACH_SSA_TREE_OPERAND (var, stmt, iter, SSA_OP_DEF)
735 check_loop_closed_ssa_def (bb, var);
739 /* Checks that invariants of the loop closed ssa form are preserved.
740 Call verify_ssa when VERIFY_SSA_P is true. Note all loops are checked
741 if LOOP is NULL, otherwise, only LOOP is checked. */
743 DEBUG_FUNCTION void
744 verify_loop_closed_ssa (bool verify_ssa_p, struct loop *loop)
746 if (number_of_loops (cfun) <= 1)
747 return;
749 if (verify_ssa_p)
750 verify_ssa (false, true);
752 timevar_push (TV_VERIFY_LOOP_CLOSED);
754 if (loop == NULL)
756 basic_block bb;
758 FOR_EACH_BB_FN (bb, cfun)
759 if (bb->loop_father && bb->loop_father->num > 0)
760 check_loop_closed_ssa_bb (bb);
762 else
764 basic_block *bbs = get_loop_body (loop);
766 for (unsigned i = 0; i < loop->num_nodes; ++i)
767 check_loop_closed_ssa_bb (bbs[i]);
769 free (bbs);
772 timevar_pop (TV_VERIFY_LOOP_CLOSED);
775 /* Split loop exit edge EXIT. The things are a bit complicated by a need to
776 preserve the loop closed ssa form. If COPY_CONSTANTS_P is true then
777 forwarder PHIs are also created for constant arguments.
778 The newly created block is returned. */
780 basic_block
781 split_loop_exit_edge (edge exit, bool copy_constants_p)
783 basic_block dest = exit->dest;
784 basic_block bb = split_edge (exit);
785 gphi *phi, *new_phi;
786 tree new_name, name;
787 use_operand_p op_p;
788 gphi_iterator psi;
789 location_t locus;
791 for (psi = gsi_start_phis (dest); !gsi_end_p (psi); gsi_next (&psi))
793 phi = psi.phi ();
794 op_p = PHI_ARG_DEF_PTR_FROM_EDGE (phi, single_succ_edge (bb));
795 locus = gimple_phi_arg_location_from_edge (phi, single_succ_edge (bb));
797 name = USE_FROM_PTR (op_p);
799 /* If the argument of the PHI node is a constant, we do not need
800 to keep it inside loop. */
801 if (TREE_CODE (name) != SSA_NAME
802 && !copy_constants_p)
803 continue;
805 /* Otherwise create an auxiliary phi node that will copy the value
806 of the SSA name out of the loop. */
807 new_name = duplicate_ssa_name (PHI_RESULT (phi), NULL);
808 new_phi = create_phi_node (new_name, bb);
809 add_phi_arg (new_phi, name, exit, locus);
810 SET_USE (op_p, new_name);
813 return bb;
816 /* Returns the basic block in that statements should be emitted for induction
817 variables incremented at the end of the LOOP. */
819 basic_block
820 ip_end_pos (struct loop *loop)
822 return loop->latch;
825 /* Returns the basic block in that statements should be emitted for induction
826 variables incremented just before exit condition of a LOOP. */
828 basic_block
829 ip_normal_pos (struct loop *loop)
831 gimple *last;
832 basic_block bb;
833 edge exit;
835 if (!single_pred_p (loop->latch))
836 return NULL;
838 bb = single_pred (loop->latch);
839 last = last_stmt (bb);
840 if (!last
841 || gimple_code (last) != GIMPLE_COND)
842 return NULL;
844 exit = EDGE_SUCC (bb, 0);
845 if (exit->dest == loop->latch)
846 exit = EDGE_SUCC (bb, 1);
848 if (flow_bb_inside_loop_p (loop, exit->dest))
849 return NULL;
851 return bb;
854 /* Stores the standard position for induction variable increment in LOOP
855 (just before the exit condition if it is available and latch block is empty,
856 end of the latch block otherwise) to BSI. INSERT_AFTER is set to true if
857 the increment should be inserted after *BSI. */
859 void
860 standard_iv_increment_position (struct loop *loop, gimple_stmt_iterator *bsi,
861 bool *insert_after)
863 basic_block bb = ip_normal_pos (loop), latch = ip_end_pos (loop);
864 gimple *last = last_stmt (latch);
866 if (!bb
867 || (last && gimple_code (last) != GIMPLE_LABEL))
869 *bsi = gsi_last_bb (latch);
870 *insert_after = true;
872 else
874 *bsi = gsi_last_bb (bb);
875 *insert_after = false;
879 /* Copies phi node arguments for duplicated blocks. The index of the first
880 duplicated block is FIRST_NEW_BLOCK. */
882 static void
883 copy_phi_node_args (unsigned first_new_block)
885 unsigned i;
887 for (i = first_new_block; i < (unsigned) last_basic_block_for_fn (cfun); i++)
888 BASIC_BLOCK_FOR_FN (cfun, i)->flags |= BB_DUPLICATED;
890 for (i = first_new_block; i < (unsigned) last_basic_block_for_fn (cfun); i++)
891 add_phi_args_after_copy_bb (BASIC_BLOCK_FOR_FN (cfun, i));
893 for (i = first_new_block; i < (unsigned) last_basic_block_for_fn (cfun); i++)
894 BASIC_BLOCK_FOR_FN (cfun, i)->flags &= ~BB_DUPLICATED;
898 /* The same as cfgloopmanip.c:duplicate_loop_to_header_edge, but also
899 updates the PHI nodes at start of the copied region. In order to
900 achieve this, only loops whose exits all lead to the same location
901 are handled.
903 Notice that we do not completely update the SSA web after
904 duplication. The caller is responsible for calling update_ssa
905 after the loop has been duplicated. */
907 bool
908 gimple_duplicate_loop_to_header_edge (struct loop *loop, edge e,
909 unsigned int ndupl, sbitmap wont_exit,
910 edge orig, vec<edge> *to_remove,
911 int flags)
913 unsigned first_new_block;
915 if (!loops_state_satisfies_p (LOOPS_HAVE_SIMPLE_LATCHES))
916 return false;
917 if (!loops_state_satisfies_p (LOOPS_HAVE_PREHEADERS))
918 return false;
920 first_new_block = last_basic_block_for_fn (cfun);
921 if (!duplicate_loop_to_header_edge (loop, e, ndupl, wont_exit,
922 orig, to_remove, flags))
923 return false;
925 /* Readd the removed phi args for e. */
926 flush_pending_stmts (e);
928 /* Copy the phi node arguments. */
929 copy_phi_node_args (first_new_block);
931 scev_reset ();
933 return true;
936 /* Returns true if we can unroll LOOP FACTOR times. Number
937 of iterations of the loop is returned in NITER. */
939 bool
940 can_unroll_loop_p (struct loop *loop, unsigned factor,
941 struct tree_niter_desc *niter)
943 edge exit;
945 /* Check whether unrolling is possible. We only want to unroll loops
946 for that we are able to determine number of iterations. We also
947 want to split the extra iterations of the loop from its end,
948 therefore we require that the loop has precisely one
949 exit. */
951 exit = single_dom_exit (loop);
952 if (!exit)
953 return false;
955 if (!number_of_iterations_exit (loop, exit, niter, false)
956 || niter->cmp == ERROR_MARK
957 /* Scalar evolutions analysis might have copy propagated
958 the abnormal ssa names into these expressions, hence
959 emitting the computations based on them during loop
960 unrolling might create overlapping life ranges for
961 them, and failures in out-of-ssa. */
962 || contains_abnormal_ssa_name_p (niter->may_be_zero)
963 || contains_abnormal_ssa_name_p (niter->control.base)
964 || contains_abnormal_ssa_name_p (niter->control.step)
965 || contains_abnormal_ssa_name_p (niter->bound))
966 return false;
968 /* And of course, we must be able to duplicate the loop. */
969 if (!can_duplicate_loop_p (loop))
970 return false;
972 /* The final loop should be small enough. */
973 if (tree_num_loop_insns (loop, &eni_size_weights) * factor
974 > (unsigned) PARAM_VALUE (PARAM_MAX_UNROLLED_INSNS))
975 return false;
977 return true;
980 /* Determines the conditions that control execution of LOOP unrolled FACTOR
981 times. DESC is number of iterations of LOOP. ENTER_COND is set to
982 condition that must be true if the main loop can be entered.
983 EXIT_BASE, EXIT_STEP, EXIT_CMP and EXIT_BOUND are set to values describing
984 how the exit from the unrolled loop should be controlled. */
986 static void
987 determine_exit_conditions (struct loop *loop, struct tree_niter_desc *desc,
988 unsigned factor, tree *enter_cond,
989 tree *exit_base, tree *exit_step,
990 enum tree_code *exit_cmp, tree *exit_bound)
992 gimple_seq stmts;
993 tree base = desc->control.base;
994 tree step = desc->control.step;
995 tree bound = desc->bound;
996 tree type = TREE_TYPE (step);
997 tree bigstep, delta;
998 tree min = lower_bound_in_type (type, type);
999 tree max = upper_bound_in_type (type, type);
1000 enum tree_code cmp = desc->cmp;
1001 tree cond = boolean_true_node, assum;
1003 /* For pointers, do the arithmetics in the type of step. */
1004 base = fold_convert (type, base);
1005 bound = fold_convert (type, bound);
1007 *enter_cond = boolean_false_node;
1008 *exit_base = NULL_TREE;
1009 *exit_step = NULL_TREE;
1010 *exit_cmp = ERROR_MARK;
1011 *exit_bound = NULL_TREE;
1012 gcc_assert (cmp != ERROR_MARK);
1014 /* We only need to be correct when we answer question
1015 "Do at least FACTOR more iterations remain?" in the unrolled loop.
1016 Thus, transforming BASE + STEP * i <> BOUND to
1017 BASE + STEP * i < BOUND is ok. */
1018 if (cmp == NE_EXPR)
1020 if (tree_int_cst_sign_bit (step))
1021 cmp = GT_EXPR;
1022 else
1023 cmp = LT_EXPR;
1025 else if (cmp == LT_EXPR)
1027 gcc_assert (!tree_int_cst_sign_bit (step));
1029 else if (cmp == GT_EXPR)
1031 gcc_assert (tree_int_cst_sign_bit (step));
1033 else
1034 gcc_unreachable ();
1036 /* The main body of the loop may be entered iff:
1038 1) desc->may_be_zero is false.
1039 2) it is possible to check that there are at least FACTOR iterations
1040 of the loop, i.e., BOUND - step * FACTOR does not overflow.
1041 3) # of iterations is at least FACTOR */
1043 if (!integer_zerop (desc->may_be_zero))
1044 cond = fold_build2 (TRUTH_AND_EXPR, boolean_type_node,
1045 invert_truthvalue (desc->may_be_zero),
1046 cond);
1048 bigstep = fold_build2 (MULT_EXPR, type, step,
1049 build_int_cst_type (type, factor));
1050 delta = fold_build2 (MINUS_EXPR, type, bigstep, step);
1051 if (cmp == LT_EXPR)
1052 assum = fold_build2 (GE_EXPR, boolean_type_node,
1053 bound,
1054 fold_build2 (PLUS_EXPR, type, min, delta));
1055 else
1056 assum = fold_build2 (LE_EXPR, boolean_type_node,
1057 bound,
1058 fold_build2 (PLUS_EXPR, type, max, delta));
1059 cond = fold_build2 (TRUTH_AND_EXPR, boolean_type_node, assum, cond);
1061 bound = fold_build2 (MINUS_EXPR, type, bound, delta);
1062 assum = fold_build2 (cmp, boolean_type_node, base, bound);
1063 cond = fold_build2 (TRUTH_AND_EXPR, boolean_type_node, assum, cond);
1065 cond = force_gimple_operand (unshare_expr (cond), &stmts, false, NULL_TREE);
1066 if (stmts)
1067 gsi_insert_seq_on_edge_immediate (loop_preheader_edge (loop), stmts);
1068 /* cond now may be a gimple comparison, which would be OK, but also any
1069 other gimple rhs (say a && b). In this case we need to force it to
1070 operand. */
1071 if (!is_gimple_condexpr (cond))
1073 cond = force_gimple_operand (cond, &stmts, true, NULL_TREE);
1074 if (stmts)
1075 gsi_insert_seq_on_edge_immediate (loop_preheader_edge (loop), stmts);
1077 *enter_cond = cond;
1079 base = force_gimple_operand (unshare_expr (base), &stmts, true, NULL_TREE);
1080 if (stmts)
1081 gsi_insert_seq_on_edge_immediate (loop_preheader_edge (loop), stmts);
1082 bound = force_gimple_operand (unshare_expr (bound), &stmts, true, NULL_TREE);
1083 if (stmts)
1084 gsi_insert_seq_on_edge_immediate (loop_preheader_edge (loop), stmts);
1086 *exit_base = base;
1087 *exit_step = bigstep;
1088 *exit_cmp = cmp;
1089 *exit_bound = bound;
1092 /* Scales the frequencies of all basic blocks in LOOP that are strictly
1093 dominated by BB by NUM/DEN. */
1095 static void
1096 scale_dominated_blocks_in_loop (struct loop *loop, basic_block bb,
1097 profile_count num, profile_count den)
1099 basic_block son;
1101 if (!den.nonzero_p () && !(num == profile_count::zero ()))
1102 return;
1104 for (son = first_dom_son (CDI_DOMINATORS, bb);
1105 son;
1106 son = next_dom_son (CDI_DOMINATORS, son))
1108 if (!flow_bb_inside_loop_p (loop, son))
1109 continue;
1110 scale_bbs_frequencies_profile_count (&son, 1, num, den);
1111 scale_dominated_blocks_in_loop (loop, son, num, den);
1115 /* Return estimated niter for LOOP after unrolling by FACTOR times. */
1117 gcov_type
1118 niter_for_unrolled_loop (struct loop *loop, unsigned factor)
1120 gcc_assert (factor != 0);
1121 bool profile_p = false;
1122 gcov_type est_niter = expected_loop_iterations_unbounded (loop, &profile_p);
1123 /* Note that this is really CEIL (est_niter + 1, factor) - 1, where the
1124 "+ 1" converts latch iterations to loop iterations and the "- 1"
1125 converts back. */
1126 gcov_type new_est_niter = est_niter / factor;
1128 if (est_niter == -1)
1129 return -1;
1131 /* Without profile feedback, loops for which we do not know a better estimate
1132 are assumed to roll 10 times. When we unroll such loop, it appears to
1133 roll too little, and it may even seem to be cold. To avoid this, we
1134 ensure that the created loop appears to roll at least 5 times (but at
1135 most as many times as before unrolling). Don't do adjustment if profile
1136 feedback is present. */
1137 if (new_est_niter < 5 && !profile_p)
1139 if (est_niter < 5)
1140 new_est_niter = est_niter;
1141 else
1142 new_est_niter = 5;
1145 if (loop->any_upper_bound)
1147 /* As above, this is really CEIL (upper_bound + 1, factor) - 1. */
1148 widest_int bound = wi::udiv_floor (loop->nb_iterations_upper_bound,
1149 factor);
1150 if (wi::ltu_p (bound, new_est_niter))
1151 new_est_niter = bound.to_uhwi ();
1154 return new_est_niter;
1157 /* Unroll LOOP FACTOR times. DESC describes number of iterations of LOOP.
1158 EXIT is the exit of the loop to that DESC corresponds.
1160 If N is number of iterations of the loop and MAY_BE_ZERO is the condition
1161 under that loop exits in the first iteration even if N != 0,
1163 while (1)
1165 x = phi (init, next);
1167 pre;
1168 if (st)
1169 break;
1170 post;
1173 becomes (with possibly the exit conditions formulated a bit differently,
1174 avoiding the need to create a new iv):
1176 if (MAY_BE_ZERO || N < FACTOR)
1177 goto rest;
1181 x = phi (init, next);
1183 pre;
1184 post;
1185 pre;
1186 post;
1188 pre;
1189 post;
1190 N -= FACTOR;
1192 } while (N >= FACTOR);
1194 rest:
1195 init' = phi (init, x);
1197 while (1)
1199 x = phi (init', next);
1201 pre;
1202 if (st)
1203 break;
1204 post;
1207 Before the loop is unrolled, TRANSFORM is called for it (only for the
1208 unrolled loop, but not for its versioned copy). DATA is passed to
1209 TRANSFORM. */
1211 /* Probability in % that the unrolled loop is entered. Just a guess. */
1212 #define PROB_UNROLLED_LOOP_ENTERED 90
1214 void
1215 tree_transform_and_unroll_loop (struct loop *loop, unsigned factor,
1216 edge exit, struct tree_niter_desc *desc,
1217 transform_callback transform,
1218 void *data)
1220 gcond *exit_if;
1221 tree ctr_before, ctr_after;
1222 tree enter_main_cond, exit_base, exit_step, exit_bound;
1223 enum tree_code exit_cmp;
1224 gphi *phi_old_loop, *phi_new_loop, *phi_rest;
1225 gphi_iterator psi_old_loop, psi_new_loop;
1226 tree init, next, new_init;
1227 struct loop *new_loop;
1228 basic_block rest, exit_bb;
1229 edge old_entry, new_entry, old_latch, precond_edge, new_exit;
1230 edge new_nonexit, e;
1231 gimple_stmt_iterator bsi;
1232 use_operand_p op;
1233 bool ok;
1234 unsigned i;
1235 profile_probability prob, prob_entry, scale_unrolled;
1236 profile_count freq_e, freq_h;
1237 gcov_type new_est_niter = niter_for_unrolled_loop (loop, factor);
1238 unsigned irr = loop_preheader_edge (loop)->flags & EDGE_IRREDUCIBLE_LOOP;
1239 auto_vec<edge> to_remove;
1241 determine_exit_conditions (loop, desc, factor,
1242 &enter_main_cond, &exit_base, &exit_step,
1243 &exit_cmp, &exit_bound);
1245 /* Let us assume that the unrolled loop is quite likely to be entered. */
1246 if (integer_nonzerop (enter_main_cond))
1247 prob_entry = profile_probability::always ();
1248 else
1249 prob_entry = profile_probability::guessed_always ()
1250 .apply_scale (PROB_UNROLLED_LOOP_ENTERED, 100);
1252 /* The values for scales should keep profile consistent, and somewhat close
1253 to correct.
1255 TODO: The current value of SCALE_REST makes it appear that the loop that
1256 is created by splitting the remaining iterations of the unrolled loop is
1257 executed the same number of times as the original loop, and with the same
1258 frequencies, which is obviously wrong. This does not appear to cause
1259 problems, so we do not bother with fixing it for now. To make the profile
1260 correct, we would need to change the probability of the exit edge of the
1261 loop, and recompute the distribution of frequencies in its body because
1262 of this change (scale the frequencies of blocks before and after the exit
1263 by appropriate factors). */
1264 scale_unrolled = prob_entry;
1266 new_loop = loop_version (loop, enter_main_cond, NULL, prob_entry,
1267 prob_entry.invert (), scale_unrolled,
1268 profile_probability::guessed_always (),
1269 true);
1270 gcc_assert (new_loop != NULL);
1271 update_ssa (TODO_update_ssa);
1273 /* Prepare the cfg and update the phi nodes. Move the loop exit to the
1274 loop latch (and make its condition dummy, for the moment). */
1275 rest = loop_preheader_edge (new_loop)->src;
1276 precond_edge = single_pred_edge (rest);
1277 split_edge (loop_latch_edge (loop));
1278 exit_bb = single_pred (loop->latch);
1280 /* Since the exit edge will be removed, the frequency of all the blocks
1281 in the loop that are dominated by it must be scaled by
1282 1 / (1 - exit->probability). */
1283 if (exit->probability.initialized_p ())
1284 scale_dominated_blocks_in_loop (loop, exit->src,
1285 /* We are scaling up here so probability
1286 does not fit. */
1287 loop->header->count,
1288 loop->header->count
1289 - loop->header->count.apply_probability
1290 (exit->probability));
1292 bsi = gsi_last_bb (exit_bb);
1293 exit_if = gimple_build_cond (EQ_EXPR, integer_zero_node,
1294 integer_zero_node,
1295 NULL_TREE, NULL_TREE);
1297 gsi_insert_after (&bsi, exit_if, GSI_NEW_STMT);
1298 new_exit = make_edge (exit_bb, rest, EDGE_FALSE_VALUE | irr);
1299 rescan_loop_exit (new_exit, true, false);
1301 /* Set the probability of new exit to the same of the old one. Fix
1302 the frequency of the latch block, by scaling it back by
1303 1 - exit->probability. */
1304 new_exit->probability = exit->probability;
1305 new_nonexit = single_pred_edge (loop->latch);
1306 new_nonexit->probability = exit->probability.invert ();
1307 new_nonexit->flags = EDGE_TRUE_VALUE;
1308 if (new_nonexit->probability.initialized_p ())
1309 scale_bbs_frequencies (&loop->latch, 1, new_nonexit->probability);
1311 old_entry = loop_preheader_edge (loop);
1312 new_entry = loop_preheader_edge (new_loop);
1313 old_latch = loop_latch_edge (loop);
1314 for (psi_old_loop = gsi_start_phis (loop->header),
1315 psi_new_loop = gsi_start_phis (new_loop->header);
1316 !gsi_end_p (psi_old_loop);
1317 gsi_next (&psi_old_loop), gsi_next (&psi_new_loop))
1319 phi_old_loop = psi_old_loop.phi ();
1320 phi_new_loop = psi_new_loop.phi ();
1322 init = PHI_ARG_DEF_FROM_EDGE (phi_old_loop, old_entry);
1323 op = PHI_ARG_DEF_PTR_FROM_EDGE (phi_new_loop, new_entry);
1324 gcc_assert (operand_equal_for_phi_arg_p (init, USE_FROM_PTR (op)));
1325 next = PHI_ARG_DEF_FROM_EDGE (phi_old_loop, old_latch);
1327 /* Prefer using original variable as a base for the new ssa name.
1328 This is necessary for virtual ops, and useful in order to avoid
1329 losing debug info for real ops. */
1330 if (TREE_CODE (next) == SSA_NAME
1331 && useless_type_conversion_p (TREE_TYPE (next),
1332 TREE_TYPE (init)))
1333 new_init = copy_ssa_name (next);
1334 else if (TREE_CODE (init) == SSA_NAME
1335 && useless_type_conversion_p (TREE_TYPE (init),
1336 TREE_TYPE (next)))
1337 new_init = copy_ssa_name (init);
1338 else if (useless_type_conversion_p (TREE_TYPE (next), TREE_TYPE (init)))
1339 new_init = make_temp_ssa_name (TREE_TYPE (next), NULL, "unrinittmp");
1340 else
1341 new_init = make_temp_ssa_name (TREE_TYPE (init), NULL, "unrinittmp");
1343 phi_rest = create_phi_node (new_init, rest);
1345 add_phi_arg (phi_rest, init, precond_edge, UNKNOWN_LOCATION);
1346 add_phi_arg (phi_rest, next, new_exit, UNKNOWN_LOCATION);
1347 SET_USE (op, new_init);
1350 remove_path (exit);
1352 /* Transform the loop. */
1353 if (transform)
1354 (*transform) (loop, data);
1356 /* Unroll the loop and remove the exits in all iterations except for the
1357 last one. */
1358 auto_sbitmap wont_exit (factor);
1359 bitmap_ones (wont_exit);
1360 bitmap_clear_bit (wont_exit, factor - 1);
1362 ok = gimple_duplicate_loop_to_header_edge
1363 (loop, loop_latch_edge (loop), factor - 1,
1364 wont_exit, new_exit, &to_remove, DLTHE_FLAG_UPDATE_FREQ);
1365 gcc_assert (ok);
1367 FOR_EACH_VEC_ELT (to_remove, i, e)
1369 ok = remove_path (e);
1370 gcc_assert (ok);
1372 update_ssa (TODO_update_ssa);
1374 /* Ensure that the frequencies in the loop match the new estimated
1375 number of iterations, and change the probability of the new
1376 exit edge. */
1378 freq_h = loop->header->count;
1379 freq_e = (loop_preheader_edge (loop))->count ();
1380 if (freq_h.nonzero_p ())
1382 /* Avoid dropping loop body profile counter to 0 because of zero count
1383 in loop's preheader. */
1384 if (freq_h.nonzero_p () && !(freq_e == profile_count::zero ()))
1385 freq_e = freq_e.force_nonzero ();
1386 scale_loop_frequencies (loop, freq_e.probability_in (freq_h));
1389 exit_bb = single_pred (loop->latch);
1390 new_exit = find_edge (exit_bb, rest);
1391 new_exit->probability = profile_probability::always ()
1392 .apply_scale (1, new_est_niter + 1);
1394 rest->count += new_exit->count ();
1396 new_nonexit = single_pred_edge (loop->latch);
1397 prob = new_nonexit->probability;
1398 new_nonexit->probability = new_exit->probability.invert ();
1399 prob = new_nonexit->probability / prob;
1400 if (prob.initialized_p ())
1401 scale_bbs_frequencies (&loop->latch, 1, prob);
1403 /* Finally create the new counter for number of iterations and add the new
1404 exit instruction. */
1405 bsi = gsi_last_nondebug_bb (exit_bb);
1406 exit_if = as_a <gcond *> (gsi_stmt (bsi));
1407 create_iv (exit_base, exit_step, NULL_TREE, loop,
1408 &bsi, false, &ctr_before, &ctr_after);
1409 gimple_cond_set_code (exit_if, exit_cmp);
1410 gimple_cond_set_lhs (exit_if, ctr_after);
1411 gimple_cond_set_rhs (exit_if, exit_bound);
1412 update_stmt (exit_if);
1414 checking_verify_flow_info ();
1415 checking_verify_loop_structure ();
1416 checking_verify_loop_closed_ssa (true, loop);
1417 checking_verify_loop_closed_ssa (true, new_loop);
1420 /* Wrapper over tree_transform_and_unroll_loop for case we do not
1421 want to transform the loop before unrolling. The meaning
1422 of the arguments is the same as for tree_transform_and_unroll_loop. */
1424 void
1425 tree_unroll_loop (struct loop *loop, unsigned factor,
1426 edge exit, struct tree_niter_desc *desc)
1428 tree_transform_and_unroll_loop (loop, factor, exit, desc,
1429 NULL, NULL);
1432 /* Rewrite the phi node at position PSI in function of the main
1433 induction variable MAIN_IV and insert the generated code at GSI. */
1435 static void
1436 rewrite_phi_with_iv (loop_p loop,
1437 gphi_iterator *psi,
1438 gimple_stmt_iterator *gsi,
1439 tree main_iv)
1441 affine_iv iv;
1442 gassign *stmt;
1443 gphi *phi = psi->phi ();
1444 tree atype, mtype, val, res = PHI_RESULT (phi);
1446 if (virtual_operand_p (res) || res == main_iv)
1448 gsi_next (psi);
1449 return;
1452 if (!simple_iv (loop, loop, res, &iv, true))
1454 gsi_next (psi);
1455 return;
1458 remove_phi_node (psi, false);
1460 atype = TREE_TYPE (res);
1461 mtype = POINTER_TYPE_P (atype) ? sizetype : atype;
1462 val = fold_build2 (MULT_EXPR, mtype, unshare_expr (iv.step),
1463 fold_convert (mtype, main_iv));
1464 val = fold_build2 (POINTER_TYPE_P (atype)
1465 ? POINTER_PLUS_EXPR : PLUS_EXPR,
1466 atype, unshare_expr (iv.base), val);
1467 val = force_gimple_operand_gsi (gsi, val, false, NULL_TREE, true,
1468 GSI_SAME_STMT);
1469 stmt = gimple_build_assign (res, val);
1470 gsi_insert_before (gsi, stmt, GSI_SAME_STMT);
1473 /* Rewrite all the phi nodes of LOOP in function of the main induction
1474 variable MAIN_IV. */
1476 static void
1477 rewrite_all_phi_nodes_with_iv (loop_p loop, tree main_iv)
1479 unsigned i;
1480 basic_block *bbs = get_loop_body_in_dom_order (loop);
1481 gphi_iterator psi;
1483 for (i = 0; i < loop->num_nodes; i++)
1485 basic_block bb = bbs[i];
1486 gimple_stmt_iterator gsi = gsi_after_labels (bb);
1488 if (bb->loop_father != loop)
1489 continue;
1491 for (psi = gsi_start_phis (bb); !gsi_end_p (psi); )
1492 rewrite_phi_with_iv (loop, &psi, &gsi, main_iv);
1495 free (bbs);
1498 /* Bases all the induction variables in LOOP on a single induction variable
1499 (with base 0 and step 1), whose final value is compared with *NIT. When the
1500 IV type precision has to be larger than *NIT type precision, *NIT is
1501 converted to the larger type, the conversion code is inserted before the
1502 loop, and *NIT is updated to the new definition. When BUMP_IN_LATCH is true,
1503 the induction variable is incremented in the loop latch, otherwise it is
1504 incremented in the loop header. Return the induction variable that was
1505 created. */
1507 tree
1508 canonicalize_loop_ivs (struct loop *loop, tree *nit, bool bump_in_latch)
1510 unsigned precision = TYPE_PRECISION (TREE_TYPE (*nit));
1511 unsigned original_precision = precision;
1512 tree type, var_before;
1513 gimple_stmt_iterator gsi;
1514 gphi_iterator psi;
1515 gcond *stmt;
1516 edge exit = single_dom_exit (loop);
1517 gimple_seq stmts;
1518 bool unsigned_p = false;
1520 for (psi = gsi_start_phis (loop->header);
1521 !gsi_end_p (psi); gsi_next (&psi))
1523 gphi *phi = psi.phi ();
1524 tree res = PHI_RESULT (phi);
1525 bool uns;
1527 type = TREE_TYPE (res);
1528 if (virtual_operand_p (res)
1529 || (!INTEGRAL_TYPE_P (type)
1530 && !POINTER_TYPE_P (type))
1531 || TYPE_PRECISION (type) < precision)
1532 continue;
1534 uns = POINTER_TYPE_P (type) | TYPE_UNSIGNED (type);
1536 if (TYPE_PRECISION (type) > precision)
1537 unsigned_p = uns;
1538 else
1539 unsigned_p |= uns;
1541 precision = TYPE_PRECISION (type);
1544 scalar_int_mode mode = smallest_int_mode_for_size (precision);
1545 precision = GET_MODE_PRECISION (mode);
1546 type = build_nonstandard_integer_type (precision, unsigned_p);
1548 if (original_precision != precision
1549 || TYPE_UNSIGNED (TREE_TYPE (*nit)) != unsigned_p)
1551 *nit = fold_convert (type, *nit);
1552 *nit = force_gimple_operand (*nit, &stmts, true, NULL_TREE);
1553 if (stmts)
1554 gsi_insert_seq_on_edge_immediate (loop_preheader_edge (loop), stmts);
1557 if (bump_in_latch)
1558 gsi = gsi_last_bb (loop->latch);
1559 else
1560 gsi = gsi_last_nondebug_bb (loop->header);
1561 create_iv (build_int_cst_type (type, 0), build_int_cst (type, 1), NULL_TREE,
1562 loop, &gsi, bump_in_latch, &var_before, NULL);
1564 rewrite_all_phi_nodes_with_iv (loop, var_before);
1566 stmt = as_a <gcond *> (last_stmt (exit->src));
1567 /* Make the loop exit if the control condition is not satisfied. */
1568 if (exit->flags & EDGE_TRUE_VALUE)
1570 edge te, fe;
1572 extract_true_false_edges_from_block (exit->src, &te, &fe);
1573 te->flags = EDGE_FALSE_VALUE;
1574 fe->flags = EDGE_TRUE_VALUE;
1576 gimple_cond_set_code (stmt, LT_EXPR);
1577 gimple_cond_set_lhs (stmt, var_before);
1578 gimple_cond_set_rhs (stmt, *nit);
1579 update_stmt (stmt);
1581 return var_before;