1 /* Perform doloop optimizations
2 Copyright (C) 2004, 2005, 2006, 2007, 2008, 2010
3 Free Software Foundation, Inc.
4 Based on code by Michael P. Hayes (m.hayes@elec.canterbury.ac.nz)
6 This file is part of GCC.
8 GCC is free software; you can redistribute it and/or modify it under
9 the terms of the GNU General Public License as published by the Free
10 Software Foundation; either version 3, or (at your option) any later
13 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
14 WARRANTY; without even the implied warranty of MERCHANTABILITY or
15 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
18 You should have received a copy of the GNU General Public License
19 along with GCC; see the file COPYING3. If not see
20 <http://www.gnu.org/licenses/>. */
24 #include "coretypes.h"
29 #include "hard-reg-set.h"
30 #include "basic-block.h"
31 #include "diagnostic-core.h"
37 /* This module is used to modify loops with a determinable number of
38 iterations to use special low-overhead looping instructions.
40 It first validates whether the loop is well behaved and has a
41 determinable number of iterations (either at compile or run-time).
42 It then modifies the loop to use a low-overhead looping pattern as
45 1. A pseudo register is allocated as the loop iteration counter.
47 2. The number of loop iterations is calculated and is stored
50 3. At the end of the loop, the jump insn is replaced by the
51 doloop_end pattern. The compare must remain because it might be
52 used elsewhere. If the loop-variable or condition register are
53 used elsewhere, they will be eliminated by flow.
55 4. An optional doloop_begin pattern is inserted at the top of the
58 TODO The optimization should only performed when either the biv used for exit
59 condition is unused at all except for the exit test, or if we do not have to
60 change its value, since otherwise we have to add a new induction variable,
61 which usually will not pay up (unless the cost of the doloop pattern is
62 somehow extremely lower than the cost of compare & jump, or unless the bct
63 register cannot be used for anything else but doloop -- ??? detect these
66 #ifdef HAVE_doloop_end
68 /* Return the loop termination condition for PATTERN or zero
69 if it is not a decrement and branch jump insn. */
72 doloop_condition_get (rtx doloop_pat
)
80 rtx cc_reg
= NULL_RTX
;
81 rtx reg_orig
= NULL_RTX
;
83 /* The canonical doloop pattern we expect has one of the following
86 1) (parallel [(set (pc) (if_then_else (condition)
89 (set (reg) (plus (reg) (const_int -1)))
90 (additional clobbers and uses)])
92 The branch must be the first entry of the parallel (also required
93 by jump.c), and the second entry of the parallel must be a set of
94 the loop counter register. Some targets (IA-64) wrap the set of
95 the loop counter in an if_then_else too.
97 2) (set (reg) (plus (reg) (const_int -1))
98 (set (pc) (if_then_else (reg != 0)
102 Some targets (ARM) do the comparison before the branch, as in the
105 3) (parallel [(set (cc) (compare ((plus (reg) (const_int -1), 0)))
106 (set (reg) (plus (reg) (const_int -1)))])
107 (set (pc) (if_then_else (cc == NE)
111 pattern
= PATTERN (doloop_pat
);
113 if (GET_CODE (pattern
) != PARALLEL
)
116 rtx prev_insn
= prev_nondebug_insn (doloop_pat
);
117 rtx cmp_arg1
, cmp_arg2
;
120 /* In case the pattern is not PARALLEL we expect two forms
121 of doloop which are cases 2) and 3) above: in case 2) the
122 decrement immediately precedes the branch, while in case 3)
123 the compare and decrement instructions immediately precede
126 if (prev_insn
== NULL_RTX
|| !INSN_P (prev_insn
))
130 if (GET_CODE (PATTERN (prev_insn
)) == PARALLEL
)
132 /* The third case: the compare and decrement instructions
133 immediately precede the branch. */
134 cmp_orig
= XVECEXP (PATTERN (prev_insn
), 0, 0);
135 if (GET_CODE (cmp_orig
) != SET
)
137 if (GET_CODE (SET_SRC (cmp_orig
)) != COMPARE
)
139 cmp_arg1
= XEXP (SET_SRC (cmp_orig
), 0);
140 cmp_arg2
= XEXP (SET_SRC (cmp_orig
), 1);
141 if (cmp_arg2
!= const0_rtx
142 || GET_CODE (cmp_arg1
) != PLUS
)
144 reg_orig
= XEXP (cmp_arg1
, 0);
145 if (XEXP (cmp_arg1
, 1) != GEN_INT (-1)
146 || !REG_P (reg_orig
))
148 cc_reg
= SET_DEST (cmp_orig
);
150 inc
= XVECEXP (PATTERN (prev_insn
), 0, 1);
153 inc
= PATTERN (prev_insn
);
154 /* We expect the condition to be of the form (reg != 0) */
155 cond
= XEXP (SET_SRC (cmp
), 0);
156 if (GET_CODE (cond
) != NE
|| XEXP (cond
, 1) != const0_rtx
)
161 cmp
= XVECEXP (pattern
, 0, 0);
162 inc
= XVECEXP (pattern
, 0, 1);
165 /* Check for (set (reg) (something)). */
166 if (GET_CODE (inc
) != SET
)
168 reg
= SET_DEST (inc
);
172 /* Check if something = (plus (reg) (const_int -1)).
173 On IA-64, this decrement is wrapped in an if_then_else. */
174 inc_src
= SET_SRC (inc
);
175 if (GET_CODE (inc_src
) == IF_THEN_ELSE
)
176 inc_src
= XEXP (inc_src
, 1);
177 if (GET_CODE (inc_src
) != PLUS
178 || XEXP (inc_src
, 0) != reg
179 || XEXP (inc_src
, 1) != constm1_rtx
)
182 /* Check for (set (pc) (if_then_else (condition)
185 if (GET_CODE (cmp
) != SET
186 || SET_DEST (cmp
) != pc_rtx
187 || GET_CODE (SET_SRC (cmp
)) != IF_THEN_ELSE
188 || GET_CODE (XEXP (SET_SRC (cmp
), 1)) != LABEL_REF
189 || XEXP (SET_SRC (cmp
), 2) != pc_rtx
)
192 /* Extract loop termination condition. */
193 condition
= XEXP (SET_SRC (cmp
), 0);
195 /* We expect a GE or NE comparison with 0 or 1. */
196 if ((GET_CODE (condition
) != GE
197 && GET_CODE (condition
) != NE
)
198 || (XEXP (condition
, 1) != const0_rtx
199 && XEXP (condition
, 1) != const1_rtx
))
202 if ((XEXP (condition
, 0) == reg
)
203 /* For the third case: */
204 || ((cc_reg
!= NULL_RTX
)
205 && (XEXP (condition
, 0) == cc_reg
)
206 && (reg_orig
== reg
))
207 || (GET_CODE (XEXP (condition
, 0)) == PLUS
208 && XEXP (XEXP (condition
, 0), 0) == reg
))
210 if (GET_CODE (pattern
) != PARALLEL
)
211 /* For the second form we expect:
213 (set (reg) (plus (reg) (const_int -1))
214 (set (pc) (if_then_else (reg != 0)
218 is equivalent to the following:
220 (parallel [(set (pc) (if_then_else (reg != 1)
223 (set (reg) (plus (reg) (const_int -1)))
224 (additional clobbers and uses)])
226 For the third form we expect:
228 (parallel [(set (cc) (compare ((plus (reg) (const_int -1)), 0))
229 (set (reg) (plus (reg) (const_int -1)))])
230 (set (pc) (if_then_else (cc == NE)
234 which is equivalent to the following:
236 (parallel [(set (cc) (compare (reg, 1))
237 (set (reg) (plus (reg) (const_int -1)))
238 (set (pc) (if_then_else (NE == cc)
242 So we return the second form instead for the two cases.
245 condition
= gen_rtx_fmt_ee (NE
, VOIDmode
, inc_src
, const1_rtx
);
250 /* ??? If a machine uses a funny comparison, we could return a
251 canonicalized form here. */
256 /* Return nonzero if the loop specified by LOOP is suitable for
257 the use of special low-overhead looping instructions. DESC
258 describes the number of iterations of the loop. */
261 doloop_valid_p (struct loop
*loop
, struct niter_desc
*desc
)
263 basic_block
*body
= get_loop_body (loop
), bb
;
268 /* Check for loops that may not terminate under special conditions. */
273 /* There are some cases that would require a special attention.
274 For example if the comparison is LEU and the comparison value
275 is UINT_MAX then the loop will not terminate. Similarly, if the
276 comparison code is GEU and the comparison value is 0, the
277 loop will not terminate.
279 If the absolute increment is not 1, the loop can be infinite
280 even with LTU/GTU, e.g. for (i = 3; i > 0; i -= 2)
282 ??? We could compute these conditions at run-time and have a
283 additional jump around the loop to ensure an infinite loop.
284 However, it is very unlikely that this is the intended
285 behavior of the loop and checking for these rare boundary
286 conditions would pessimize all other code.
288 If the loop is executed only a few times an extra check to
289 restart the loop could use up most of the benefits of using a
290 count register loop. Note however, that normally, this
291 restart branch would never execute, so it could be predicted
292 well by the CPU. We should generate the pessimistic code by
293 default, and have an option, e.g. -funsafe-loops that would
294 enable count-register loops in this case. */
296 fprintf (dump_file
, "Doloop: Possible infinite iteration case.\n");
301 for (i
= 0; i
< loop
->num_nodes
; i
++)
305 for (insn
= BB_HEAD (bb
);
306 insn
!= NEXT_INSN (BB_END (bb
));
307 insn
= NEXT_INSN (insn
))
309 /* Different targets have different necessities for low-overhead
310 looping. Call the back end for each instruction within the loop
311 to let it decide whether the insn prohibits a low-overhead loop.
312 It will then return the cause for it to emit to the dump file. */
313 const char * invalid
= targetm
.invalid_within_doloop (insn
);
317 fprintf (dump_file
, "Doloop: %s\n", invalid
);
331 /* Adds test of COND jumping to DEST on edge *E and set *E to the new fallthru
332 edge. If the condition is always false, do not do anything. If it is always
333 true, redirect E to DEST and return false. In all other cases, true is
337 add_test (rtx cond
, edge
*e
, basic_block dest
)
339 rtx seq
, jump
, label
;
340 enum machine_mode mode
;
341 rtx op0
= XEXP (cond
, 0), op1
= XEXP (cond
, 1);
342 enum rtx_code code
= GET_CODE (cond
);
345 mode
= GET_MODE (XEXP (cond
, 0));
346 if (mode
== VOIDmode
)
347 mode
= GET_MODE (XEXP (cond
, 1));
350 op0
= force_operand (op0
, NULL_RTX
);
351 op1
= force_operand (op1
, NULL_RTX
);
352 label
= block_label (dest
);
353 do_compare_rtx_and_jump (op0
, op1
, code
, 0, mode
, NULL_RTX
,
354 NULL_RTX
, label
, -1);
356 jump
= get_last_insn ();
357 if (!jump
|| !JUMP_P (jump
))
359 /* The condition is always false and the jump was optimized out. */
367 /* There always is at least the jump insn in the sequence. */
368 gcc_assert (seq
!= NULL_RTX
);
370 bb
= split_edge_and_insert (*e
, seq
);
371 *e
= single_succ_edge (bb
);
373 if (any_uncondjump_p (jump
))
375 /* The condition is always true. */
377 redirect_edge_and_branch_force (*e
, dest
);
381 JUMP_LABEL (jump
) = label
;
383 /* The jump is supposed to handle an unlikely special case. */
384 add_reg_note (jump
, REG_BR_PROB
, const0_rtx
);
386 LABEL_NUSES (label
)++;
388 make_edge (bb
, dest
, (*e
)->flags
& ~EDGE_FALLTHRU
);
392 /* Modify the loop to use the low-overhead looping insn where LOOP
393 describes the loop, DESC describes the number of iterations of the
394 loop, and DOLOOP_INSN is the low-overhead looping insn to emit at the
395 end of the loop. CONDITION is the condition separated from the
396 DOLOOP_SEQ. COUNT is the number of iterations of the LOOP. */
399 doloop_modify (struct loop
*loop
, struct niter_desc
*desc
,
400 rtx doloop_seq
, rtx condition
, rtx count
)
403 rtx tmp
, noloop
= NULL_RTX
;
408 bool increment_count
;
409 basic_block loop_end
= desc
->out_edge
->src
;
410 enum machine_mode mode
;
413 jump_insn
= BB_END (loop_end
);
417 fprintf (dump_file
, "Doloop: Inserting doloop pattern (");
418 if (desc
->const_iter
)
419 fprintf (dump_file
, HOST_WIDEST_INT_PRINT_DEC
, desc
->niter
);
421 fputs ("runtime", dump_file
);
422 fputs (" iterations).\n", dump_file
);
425 /* Get the probability of the original branch. If it exists we would
426 need to update REG_BR_PROB of the new jump_insn. */
427 true_prob_val
= find_reg_note (jump_insn
, REG_BR_PROB
, NULL_RTX
);
429 /* Discard original jump to continue loop. The original compare
430 result may still be live, so it cannot be discarded explicitly. */
431 delete_insn (jump_insn
);
433 counter_reg
= XEXP (condition
, 0);
434 if (GET_CODE (counter_reg
) == PLUS
)
435 counter_reg
= XEXP (counter_reg
, 0);
436 mode
= GET_MODE (counter_reg
);
438 increment_count
= false;
439 switch (GET_CODE (condition
))
442 /* Currently only NE tests against zero and one are supported. */
443 noloop
= XEXP (condition
, 1);
444 if (noloop
!= const0_rtx
)
446 gcc_assert (noloop
== const1_rtx
);
447 increment_count
= true;
452 /* Currently only GE tests against zero are supported. */
453 gcc_assert (XEXP (condition
, 1) == const0_rtx
);
455 noloop
= constm1_rtx
;
457 /* The iteration count does not need incrementing for a GE test. */
458 increment_count
= false;
460 /* Determine if the iteration counter will be non-negative.
461 Note that the maximum value loaded is iterations_max - 1. */
463 <= ((unsigned HOST_WIDEST_INT
) 1
464 << (GET_MODE_PRECISION (mode
) - 1)))
468 /* Abort if an invalid doloop pattern has been generated. */
474 count
= simplify_gen_binary (PLUS
, mode
, count
, const1_rtx
);
476 /* Insert initialization of the count register into the loop header. */
478 tmp
= force_operand (count
, counter_reg
);
479 convert_move (counter_reg
, tmp
, 1);
480 sequence
= get_insns ();
482 emit_insn_after (sequence
, BB_END (loop_preheader_edge (loop
)->src
));
484 if (desc
->noloop_assumptions
)
486 rtx ass
= copy_rtx (desc
->noloop_assumptions
);
487 basic_block preheader
= loop_preheader_edge (loop
)->src
;
489 = split_edge (loop_preheader_edge (loop
));
490 basic_block new_preheader
491 = split_edge (loop_preheader_edge (loop
));
494 /* Expand the condition testing the assumptions and if it does not pass,
495 reset the count register to 0. */
496 redirect_edge_and_branch_force (single_succ_edge (preheader
), new_preheader
);
497 set_immediate_dominator (CDI_DOMINATORS
, new_preheader
, preheader
);
500 set_zero
->frequency
= 0;
502 te
= single_succ_edge (preheader
);
503 for (; ass
; ass
= XEXP (ass
, 1))
504 if (!add_test (XEXP (ass
, 0), &te
, set_zero
))
509 /* We reached a condition that is always true. This is very hard to
510 reproduce (such a loop does not roll, and thus it would most
511 likely get optimized out by some of the preceding optimizations).
512 In fact, I do not have any testcase for it. However, it would
513 also be very hard to show that it is impossible, so we must
515 set_zero
->count
= preheader
->count
;
516 set_zero
->frequency
= preheader
->frequency
;
519 if (EDGE_COUNT (set_zero
->preds
) == 0)
521 /* All the conditions were simplified to false, remove the
522 unreachable set_zero block. */
523 delete_basic_block (set_zero
);
527 /* Reset the counter to zero in the set_zero block. */
529 convert_move (counter_reg
, noloop
, 0);
530 sequence
= get_insns ();
532 emit_insn_after (sequence
, BB_END (set_zero
));
534 set_immediate_dominator (CDI_DOMINATORS
, set_zero
,
535 recompute_dominator (CDI_DOMINATORS
,
539 set_immediate_dominator (CDI_DOMINATORS
, new_preheader
,
540 recompute_dominator (CDI_DOMINATORS
,
544 /* Some targets (eg, C4x) need to initialize special looping
546 #ifdef HAVE_doloop_begin
549 unsigned level
= get_loop_level (loop
) + 1;
550 init
= gen_doloop_begin (counter_reg
,
551 desc
->const_iter
? desc
->niter_expr
: const0_rtx
,
552 GEN_INT (desc
->niter_max
),
558 sequence
= get_insns ();
560 emit_insn_after (sequence
, BB_END (loop_preheader_edge (loop
)->src
));
565 /* Insert the new low-overhead looping insn. */
566 emit_jump_insn_after (doloop_seq
, BB_END (loop_end
));
567 jump_insn
= BB_END (loop_end
);
568 jump_label
= block_label (desc
->in_edge
->dest
);
569 JUMP_LABEL (jump_insn
) = jump_label
;
570 LABEL_NUSES (jump_label
)++;
572 /* Ensure the right fallthru edge is marked, for case we have reversed
574 desc
->in_edge
->flags
&= ~EDGE_FALLTHRU
;
575 desc
->out_edge
->flags
|= EDGE_FALLTHRU
;
577 /* Add a REG_NONNEG note if the actual or estimated maximum number
578 of iterations is non-negative. */
580 add_reg_note (jump_insn
, REG_NONNEG
, NULL_RTX
);
582 /* Update the REG_BR_PROB note. */
585 /* Seems safer to use the branch probability. */
586 add_reg_note (jump_insn
, REG_BR_PROB
,
587 GEN_INT (desc
->in_edge
->probability
));
591 /* Process loop described by LOOP validating that the loop is suitable for
592 conversion to use a low overhead looping instruction, replacing the jump
593 insn where suitable. Returns true if the loop was successfully
597 doloop_optimize (struct loop
*loop
)
599 enum machine_mode mode
;
600 rtx doloop_seq
, doloop_pat
, doloop_reg
;
601 rtx iterations
, count
;
605 unsigned level
, est_niter
;
607 struct niter_desc
*desc
;
608 unsigned word_mode_size
;
609 unsigned HOST_WIDE_INT word_mode_max
;
612 fprintf (dump_file
, "Doloop: Processing loop %d.\n", loop
->num
);
614 iv_analysis_loop_init (loop
);
616 /* Find the simple exit of a LOOP. */
617 desc
= get_simple_loop_desc (loop
);
619 /* Check that loop is a candidate for a low-overhead looping insn. */
620 if (!doloop_valid_p (loop
, desc
))
624 "Doloop: The loop is not suitable.\n");
630 if (desc
->const_iter
)
631 est_niter
= desc
->niter
;
632 /* If the estimate on number of iterations is reliable (comes from profile
633 feedback), use it. Do not use it normally, since the expected number
634 of iterations of an unrolled loop is 2. */
635 if (loop
->header
->count
)
636 est_niter
= expected_loop_iterations (loop
);
642 "Doloop: Too few iterations (%u) to be profitable.\n",
648 = COSTS_N_INSNS (PARAM_VALUE (PARAM_MAX_ITERATIONS_COMPUTATION_COST
));
649 if (set_src_cost (desc
->niter_expr
, optimize_loop_for_speed_p (loop
))
654 "Doloop: number of iterations too costly to compute.\n");
658 count
= copy_rtx (desc
->niter_expr
);
659 iterations
= desc
->const_iter
? desc
->niter_expr
: const0_rtx
;
660 iterations_max
= GEN_INT (desc
->niter_max
);
661 level
= get_loop_level (loop
) + 1;
663 /* Generate looping insn. If the pattern FAILs then give up trying
664 to modify the loop since there is some aspect the back-end does
666 start_label
= block_label (desc
->in_edge
->dest
);
667 doloop_reg
= gen_reg_rtx (mode
);
668 doloop_seq
= gen_doloop_end (doloop_reg
, iterations
, iterations_max
,
669 GEN_INT (level
), start_label
);
671 word_mode_size
= GET_MODE_PRECISION (word_mode
);
673 = ((unsigned HOST_WIDE_INT
) 1 << (word_mode_size
- 1) << 1) - 1;
676 /* Before trying mode different from the one in that # of iterations is
677 computed, we must be sure that the number of iterations fits into
679 && (word_mode_size
>= GET_MODE_PRECISION (mode
)
680 || desc
->niter_max
<= word_mode_max
))
682 if (word_mode_size
> GET_MODE_PRECISION (mode
))
684 count
= simplify_gen_unary (ZERO_EXTEND
, word_mode
,
686 iterations
= simplify_gen_unary (ZERO_EXTEND
, word_mode
,
688 iterations_max
= simplify_gen_unary (ZERO_EXTEND
, word_mode
,
689 iterations_max
, mode
);
693 count
= lowpart_subreg (word_mode
, count
, mode
);
694 iterations
= lowpart_subreg (word_mode
, iterations
, mode
);
695 iterations_max
= lowpart_subreg (word_mode
, iterations_max
, mode
);
697 PUT_MODE (doloop_reg
, word_mode
);
698 doloop_seq
= gen_doloop_end (doloop_reg
, iterations
, iterations_max
,
699 GEN_INT (level
), start_label
);
705 "Doloop: Target unwilling to use doloop pattern!\n");
709 /* If multiple instructions were created, the last must be the
710 jump instruction. Also, a raw define_insn may yield a plain
712 doloop_pat
= doloop_seq
;
713 if (INSN_P (doloop_pat
))
715 while (NEXT_INSN (doloop_pat
) != NULL_RTX
)
716 doloop_pat
= NEXT_INSN (doloop_pat
);
717 if (!JUMP_P (doloop_pat
))
718 doloop_pat
= NULL_RTX
;
722 || ! (condition
= doloop_condition_get (doloop_pat
)))
725 fprintf (dump_file
, "Doloop: Unrecognizable doloop pattern!\n");
729 doloop_modify (loop
, desc
, doloop_seq
, condition
, count
);
733 /* This is the main entry point. Process all loops using doloop_optimize. */
736 doloop_optimize_loops (void)
741 FOR_EACH_LOOP (li
, loop
, 0)
743 doloop_optimize (loop
);
748 #ifdef ENABLE_CHECKING
749 verify_loop_structure ();
752 #endif /* HAVE_doloop_end */