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1 /* Induction variable canonicalization and loop peeling.
2 Copyright (C) 2004-2013 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 /* This pass detects the loops that iterate a constant number of times,
21 adds a canonical induction variable (step -1, tested against 0)
22 and replaces the exit test. This enables the less powerful rtl
23 level analysis to use this information.
25 This might spoil the code in some cases (by increasing register pressure).
26 Note that in the case the new variable is not needed, ivopts will get rid
27 of it, so it might only be a problem when there are no other linear induction
28 variables. In that case the created optimization possibilities are likely
29 to pay up.
31 Additionally in case we detect that it is beneficial to unroll the
32 loop completely, we do it right here to expose the optimization
33 possibilities to the following passes. */
65 /* Specifies types of loops that may be unrolled. */
67 enum unroll_level
68 {
70 iteration. */
72 of code size. */
73 UL_ALL /* All suitable loops. */
74 };
76 /* Adds a canonical induction variable to LOOP iterating NITER times. EXIT
77 is the exit edge whose condition is replaced. */
79 static void
81 {
82 edge in;
84 gimple cond;
85 gimple_stmt_iterator incr_at;
89 {
93 }
100 /* Note that we do not need to worry about overflows, since
101 type of niter is always unsigned and all comparisons are
102 just for equality/nonequality -- i.e. everything works
103 with a modulo arithmetics. */
107 niter,
120 }
122 /* Describe size of loop as detected by tree_estimate_loop_size. */
123 struct loop_size
124 {
125 /* Number of instructions in the loop. */
128 /* Number of instructions that will be likely optimized out in
129 peeled iterations of loop (i.e. computation based on induction
130 variable where induction variable starts at known constant.) */
133 /* Same statistics for last iteration of loop: it is smaller because
134 instructions after exit are not executed. */
138 /* If some IV computation will become constant. */
141 /* Number of call stmts that are not a builtin and are pure or const
142 present on the hot path. */
144 /* Number of call stmts that are not a builtin and are not pure nor const
145 present on the hot path. */
147 /* Number of statements other than calls in the loop. */
149 /* Number of branches seen on the hot path. */
151 };
153 /* Return true if OP in STMT will be constant after peeling LOOP. */
155 static bool
157 {
158 affine_iv iv;
163 /* We can still fold accesses to constant arrays when index is known. */
165 {
168 /* First make fast look if we see constant array inside. */
174 {
175 /* If so, see if we understand all the indices. */
178 {
183 }
185 }
187 }
189 /* Induction variables are constants. */
197 }
199 /* Computes an estimated number of insns in LOOP.
200 EXIT (if non-NULL) is an exite edge that will be eliminated in all but last
201 iteration of the loop.
202 EDGE_TO_CANCEL (if non-NULL) is an non-exit edge eliminated in the last iteration
203 of loop.
204 Return results in SIZE, estimate benefits for complete unrolling exiting by EXIT.
205 Stop estimating after UPPER_BOUND is met. Return true in this case. */
207 static bool
208 tree_estimate_loop_size (struct loop *loop, edge exit, edge edge_to_cancel, struct loop_size *size,
210 {
212 gimple_stmt_iterator gsi;
230 {
234 else
240 {
248 {
251 }
253 /* Look for reasons why we might optimize this stmt away. */
256 ;
257 /* Exit conditional. */
260 {
265 }
268 {
273 }
274 /* Sets of IV variables */
277 {
282 }
283 /* Assignments of IV variables. */
290 {
295 }
296 /* Conditionals. */
302 {
306 }
312 {
316 }
319 {
323 }
324 }
325 }
327 {
330 {
333 {
339 ;
342 else
345 }
356 }
357 }
366 }
368 /* Estimate number of insns of completely unrolled loop.
369 It is (NUNROLL + 1) * size of loop body with taking into account
370 the fact that in last copy everything after exit conditional
371 is dead and that some instructions will be eliminated after
372 peeling.
374 Loop body is likely going to simplify further, this is difficult
375 to guess, we just decrease the result by 1/3. */
377 static unsigned HOST_WIDE_INT
380 {
393 }
395 /* Loop LOOP is known to not loop. See if there is an edge in the loop
396 body that can be remove to make the loop to always exit and at
397 the same time it does not make any code potentially executed
398 during the last iteration dead.
400 After complette unrolling we still may get rid of the conditional
401 on the exit in the last copy even if we have no idea what it does.
402 This is quite common case for loops of form
404 int a[5];
405 for (i=0;i<b;i++)
406 a[i]=0;
408 Here we prove the loop to iterate 5 times but we do not know
409 it from induction variable.
411 For now we handle only simple case where there is exit condition
412 just before the latch block and the latch block contains no statements
413 with side effect that may otherwise terminate the execution of loop
414 (such as by EH or by terminating the program or longjmp).
416 In the general case we may want to cancel the paths leading to statements
417 loop-niter identified as having undefined effect in the last iteration.
418 The other cases are hopefully rare and will be cleaned up later. */
420 static edge
422 {
425 edge edge_to_cancel;
426 gimple_stmt_iterator gsi;
428 /* We want only one predecestor of the loop. */
435 {
436 /* Find the other edge than the loop exit
437 leaving the conditoinal. */
442 else
445 /* We only can handle conditionals. */
449 /* We should never have conditionals in the loop latch. */
452 /* Check that it leads to loop latch. */
458 /* Verify that the code in loop latch does nothing that may end program
459 execution without really reaching the exit. This may include
460 non-pure/const function calls, EH statements, volatile ASMs etc. */
465 }
468 }
470 /* Remove all tests for exits that are known to be taken after LOOP was
471 peeled NPEELED times. Put gcc_unreachable before every statement
472 known to not be executed. */
474 static bool
476 {
481 {
482 /* If statement is known to be undefined after peeling, turn it
483 into unreachable (or trap when debugging experience is supposed
484 to be good). */
487 {
489 gimple stmt = gimple_build_call
496 {
499 }
500 }
501 /* If we know the exit will be taken after peeling, update. */
504 {
509 {
512 }
518 else
522 }
523 }
525 }
527 /* Remove all exits that are known to be never taken because of the loop bound
528 discovered. */
530 static bool
532 {
539 {
540 /* Exit is pointless if it won't be taken before loop reaches
541 upper bound. */
544 {
552 /* Only when we know the actual number of iterations, not
553 just a bound, we can remove the exit. */
565 {
568 }
571 else
575 }
576 }
578 }
580 /* Stores loops that will be unlooped after we process whole loop tree. */
584 /* Cancel all fully unrolled loops by putting __builtin_unreachable
585 on the latch edge.
586 We do it after all unrolling since unlooping moves basic blocks
587 across loop boundaries trashing loop closed SSA form as well
588 as SCEV info needed to be intact during unrolling.
590 IRRED_INVALIDATED is used to bookkeep if information about
591 irreducible regions may become invalid as a result
592 of the transformation.
593 LOOP_CLOSED_SSA_INVALIDATED is used to bookkepp the case
594 when we need to go into loop closed SSA form. */
596 static void
599 {
601 {
608 gimple stmt;
609 gimple_stmt_iterator gsi;
613 /* Unloop destroys the latch edge. */
616 /* Create new basic block for the latch edge destination and wire
617 it in. */
632 }
635 }
637 /* Tries to unroll LOOP completely, i.e. NITER times.
638 UL determines which loops we are allowed to unroll.
639 EXIT is the exit of the loop that should be eliminated.
640 MAXITER specfy bound on number of iterations, -1 if it is
641 not known or too large for HOST_WIDE_INT. The location
642 LOCUS corresponding to the loop is used when emitting
643 a summary of the unroll to the dump file. */
645 static bool
649 HOST_WIDE_INT maxiter,
650 location_t locus)
651 {
653 gimple cond;
658 /* See if we proved number of iterations to be low constant.
660 EXIT is an edge that will be removed in all but last iteration of
661 the loop.
663 EDGE_TO_CACNEL is an edge that will be removed from the last iteration
664 of the unrolled sequence and is expected to make the final loop not
665 rolling.
667 If the number of execution of loop is determined by standard induction
668 variable test, then EXIT and EDGE_TO_CANCEL are the two edges leaving
669 from the iv test. */
671 {
677 }
678 /* We do not know the number of iterations and thus we can not eliminate
679 the EXIT edge. */
680 else
683 /* See if we can improve our estimate by using recorded loop bounds. */
686 {
689 /* Loop terminates before the IV variable test, so we can not
690 remove it in the last iteration. */
692 }
705 {
706 sbitmap wont_exit;
707 edge e;
714 large = tree_estimate_loop_size
719 {
724 }
728 {
732 }
734 /* If the code is going to shrink, we don't need to be extra cautious
735 on guessing if the unrolling is going to be profitable. */
737 /* If there is IV variable that will become constant, we save
738 one instruction in the loop prologue we do not account
739 otherwise. */
741 ;
742 /* We unroll only inner loops, because we do not consider it profitable
743 otheriwse. We still can cancel loopback edge of not rolling loop;
744 this is always a good idea. */
746 {
751 }
752 /* Outer loops tend to be less interesting candidates for complette
753 unrolling unless we can do a lot of propagation into the inner loop
754 body. For now we disable outer loop unrolling when the code would
755 grow. */
757 {
763 }
764 /* If there is call on a hot path through the loop, then
765 there is most probably not much to optimize. */
767 {
773 }
774 /* If there is pure/const call in the function, then we
775 can still optimize the unrolled loop body if it contains
776 some other interesting code than the calls and code
777 storing or cumulating the return value. */
779 /* One IV increment, one test, one ivtmp store
780 and one useful stmt. That is about minimal loop
781 doing pure call. */
784 {
790 }
791 /* Complette unrolling is major win when control flow is removed and
792 one big basic block is created. If the loop contains control flow
793 the optimization may still be a win because of eliminating the loop
794 overhead but it also may blow the branch predictor tables.
795 Limit number of branches on the hot path through the peeled
796 sequence. */
799 {
802 " number of branches on hot path in the unrolled sequence"
806 }
809 {
815 }
825 DLTHE_FLAG_UPDATE_FREQ
827 {
833 }
836 {
839 }
844 }
847 /* Remove the conditional from the last copy of the loop. */
849 {
853 else
856 /* Do not remove the path. Doing so may remove outer loop
857 and confuse bookkeeping code in tree_unroll_loops_completelly. */
858 }
860 /* Store the loop for later unlooping and exit removal. */
865 {
869 else
870 {
879 }
880 }
883 {
889 else
892 }
895 }
897 /* Adds a canonical induction variable to LOOP if suitable.
898 CREATE_IV is true if we may create a new iv. UL determines
899 which loops we are allowed to completely unroll. If TRY_EVAL is true, we try
900 to determine the number of iterations of a loop by direct evaluation.
901 Returns true if cfg is changed. */
903 static bool
907 {
909 tree niter;
910 HOST_WIDE_INT maxiter;
918 else
919 {
920 /* If the loop has more than one exit, try checking all of them
921 for # of iterations determinable through scev. */
925 /* Finally if everything else fails, try brute force evaluation. */
936 }
938 /* We work exceptionally hard here to estimate the bound
939 by find_loop_niter_by_eval. Be sure to keep it for future. */
941 {
944 }
946 /* Force re-computation of loop bounds so we can remove redundant exits. */
951 {
955 }
958 {
961 }
963 /* Remove exits that are known to be never taken based on loop bound.
964 Needs to be called after compilation of max_loop_iterations_int that
965 populates the loop bounds. */
977 }
979 /* The main entry point of the pass. Adds canonical induction variables
980 to the suitable loops. */
982 unsigned int
984 {
985 loop_iterator li;
995 {
999 }
1007 /* Clean up the information about numbers of iterations, since brute force
1008 evaluation could reveal new information. */
1012 {
1015 }
1021 }
1023 /* Propagate VAL into all uses of SSA_NAME. */
1025 static void
1027 {
1028 imm_use_iterator iter;
1029 gimple use_stmt;
1032 {
1034 use_operand_p use;
1042 {
1047 }
1052 }
1053 }
1055 /* Propagate constant SSA_NAMEs defined in basic block BB. */
1057 static void
1059 {
1060 gimple_stmt_iterator gsi;
1062 /* Look for degenerate PHI nodes with constant argument. */
1064 {
1070 {
1074 }
1075 else
1077 }
1079 /* Look for assignments to SSA names with constant RHS. */
1081 {
1083 tree lhs;
1089 {
1093 }
1094 else
1096 }
1097 }
1099 /* Process loops from innermost to outer, stopping at the innermost
1100 loop we unrolled. */
1102 static bool
1106 {
1112 /* Process inner loops first. */
1116 inner);
1118 /* If we changed an inner loop we cannot process outer loops in this
1119 iteration because SSA form is not up-to-date. Continue with
1120 siblings of outer loops instead. */
1124 /* Don't unroll #pragma omp simd loops until the vectorizer
1125 attempts to vectorize those. */
1129 /* Try to unroll this loop. */
1135 /* Unroll outermost loops only if asked to do so or they do
1136 not cause code growth. */
1139 else
1144 {
1145 /* If we'll continue unrolling, we need to propagate constants
1146 within the new basic blocks to fold away induction variable
1147 computations; otherwise, the size might blow up before the
1148 iteration is complete and the IR eventually cleaned up. */
1150 {
1153 }
1156 }
1159 }
1161 /* Unroll LOOPS completely if they iterate just few times. Unless
1162 MAY_INCREASE_SIZE is true, perform the unrolling only if the
1163 size of the code does not increase. */
1165 unsigned int
1167 {
1173 do
1174 {
1188 {
1192 /* Be sure to skip unlooped loops while procesing father_stack
1193 array. */
1201 /* We can not use TODO_update_ssa_no_phi because VOPS gets confused. */
1205 TODO_update_ssa);
1206 else
1209 /* Propagate the constants within the new basic blocks. */
1212 {
1219 }
1222 /* This will take care of removing completely unrolled loops
1223 from the loop structures so we can continue unrolling now
1224 innermost loops. */
1228 /* Clean up the information about numbers of iterations, since
1229 complete unrolling might have invalidated it. */
1231 #ifdef ENABLE_CHECKING
1234 #endif
1235 }
1238 }
1249 }
1251 /* Canonical induction variable creation pass. */
1253 static unsigned int
1255 {
1260 }
1262 static bool
1264 {
1266 }
1271 {
1283 };
1286 {
1290 {}
1292 /* opt_pass methods: */
1300 gimple_opt_pass *
1302 {
1304 }
1306 /* Complete unrolling of loops. */
1308 static unsigned int
1310 {
1315 || flag_peel_loops
1317 }
1319 static bool
1321 {
1323 }
1328 {
1340 };
1343 {
1347 {}
1349 /* opt_pass methods: */
1357 gimple_opt_pass *
1359 {
1361 }
1363 /* Complete unrolling of inner loops. */
1365 static unsigned int
1367 {
1373 {
1378 }
1382 }
1384 static bool
1386 {
1388 }
1393 {
1405 };
1408 {
1412 {}
1414 /* opt_pass methods: */
1422 gimple_opt_pass *
1424 {
1426 }