1 /* Perform doloop optimizations
2 Copyright (C) 1999, 2000, 2001 Free Software Foundation, Inc.
3 Contributed by Michael P. Hayes (m.hayes@elec.canterbury.ac.nz)
5 This file is part of GCC.
7 GCC is free software; you can redistribute it and/or modify it under
8 the terms of the GNU General Public License as published by the Free
9 Software Foundation; either version 2, or (at your option) any later
12 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
13 WARRANTY; without even the implied warranty of MERCHANTABILITY or
14 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
17 You should have received a copy of the GNU General Public License
18 along with GCC; see the file COPYING. If not, write to the Free
19 Software Foundation, 59 Temple Place - Suite 330, Boston, MA
28 #include "hard-reg-set.h"
29 #include "basic-block.h"
34 /* This module is used to modify loops with a determinable number of
35 iterations to use special low-overhead looping instructions.
37 It first validates whether the loop is well behaved and has a
38 determinable number of iterations (either at compile or run-time).
39 It then modifies the loop to use a low-overhead looping pattern as
42 1. A pseudo register is allocated as the loop iteration counter.
44 2. The number of loop iterations is calculated and is stored
47 3. At the end of the loop, the jump insn is replaced by the
48 doloop_end pattern. The compare must remain because it might be
49 used elsewhere. If the loop-variable or condition register are
50 used elsewhere, they will be eliminated by flow.
52 4. An optional doloop_begin pattern is inserted at the top of the
57 #ifdef HAVE_doloop_end
59 static rtx doloop_condition_get
61 static unsigned HOST_WIDE_INT doloop_iterations_max
62 PARAMS ((const struct loop_info
*, enum machine_mode
, int));
63 static int doloop_valid_p
64 PARAMS ((const struct loop
*, rtx
));
65 static int doloop_modify
66 PARAMS ((const struct loop
*, rtx
, rtx
, rtx
, rtx
, rtx
));
67 static int doloop_modify_runtime
68 PARAMS ((const struct loop
*, rtx
, rtx
, rtx
, enum machine_mode
, rtx
));
71 /* Return the loop termination condition for PATTERN or zero
72 if it is not a decrement and branch jump insn. */
74 doloop_condition_get (pattern
)
82 /* The canonical doloop pattern we expect is:
84 (parallel [(set (pc) (if_then_else (condition)
87 (set (reg) (plus (reg) (const_int -1)))
88 (additional clobbers and uses)])
90 Some machines (IA-64) make the decrement conditional on
91 the condition as well, so we don't bother verifying the
92 actual decrement. In summary, the branch must be the
93 first entry of the parallel (also required by jump.c),
94 and the second entry of the parallel must be a set of
95 the loop counter register. */
97 if (GET_CODE (pattern
) != PARALLEL
)
100 cmp
= XVECEXP (pattern
, 0, 0);
101 inc
= XVECEXP (pattern
, 0, 1);
103 /* Check for (set (reg) (something)). */
104 if (GET_CODE (inc
) != SET
|| ! REG_P (SET_DEST (inc
)))
107 /* Extract loop counter register. */
108 reg
= SET_DEST (inc
);
110 /* Check for (set (pc) (if_then_else (condition)
113 if (GET_CODE (cmp
) != SET
114 || SET_DEST (cmp
) != pc_rtx
115 || GET_CODE (SET_SRC (cmp
)) != IF_THEN_ELSE
116 || GET_CODE (XEXP (SET_SRC (cmp
), 1)) != LABEL_REF
117 || XEXP (SET_SRC (cmp
), 2) != pc_rtx
)
120 /* Extract loop termination condition. */
121 condition
= XEXP (SET_SRC (cmp
), 0);
123 if ((GET_CODE (condition
) != GE
&& GET_CODE (condition
) != NE
)
124 || GET_CODE (XEXP (condition
, 1)) != CONST_INT
)
127 if (XEXP (condition
, 0) == reg
)
130 if (GET_CODE (XEXP (condition
, 0)) == PLUS
131 && XEXP (XEXP (condition
, 0), 0) == reg
)
134 /* ??? If a machine uses a funny comparison, we could return a
135 canonicalised form here. */
141 /* Return an estimate of the maximum number of loop iterations for the
142 loop specified by LOOP or zero if the loop is not normal.
143 MODE is the mode of the iteration count and NONNEG is non-zero if
144 the iteration count has been proved to be non-negative. */
145 static unsigned HOST_WIDE_INT
146 doloop_iterations_max (loop_info
, mode
, nonneg
)
147 const struct loop_info
*loop_info
;
148 enum machine_mode mode
;
151 unsigned HOST_WIDE_INT n_iterations_max
;
155 HOST_WIDE_INT abs_inc
;
159 abs_inc
= INTVAL (loop_info
->increment
);
168 code
= swap_condition (loop_info
->comparison_code
);
169 min_value
= loop_info
->final_equiv_value
;
170 max_value
= loop_info
->initial_equiv_value
;
174 code
= loop_info
->comparison_code
;
175 min_value
= loop_info
->initial_equiv_value
;
176 max_value
= loop_info
->final_equiv_value
;
179 /* Since the loop has a VTOP, we know that the initial test will be
180 true and thus the value of max_value should be greater than the
181 value of min_value. Thus the difference should always be positive
182 and the code must be LT, LE, LTU, LEU, or NE. Otherwise the loop is
183 not normal, e.g., `for (i = 0; i < 10; i--)'. */
189 unsigned HOST_WIDE_INT umax
;
190 unsigned HOST_WIDE_INT umin
;
192 if (GET_CODE (min_value
) == CONST_INT
)
193 umin
= INTVAL (min_value
);
197 if (GET_CODE (max_value
) == CONST_INT
)
198 umax
= INTVAL (max_value
);
200 umax
= ((unsigned)2 << (GET_MODE_BITSIZE (mode
) - 1)) - 1;
202 n_iterations_max
= umax
- umin
;
212 if (GET_CODE (min_value
) == CONST_INT
)
213 smin
= INTVAL (min_value
);
215 smin
= -((unsigned)1 << (GET_MODE_BITSIZE (mode
) - 1));
217 if (GET_CODE (max_value
) == CONST_INT
)
218 smax
= INTVAL (max_value
);
220 smax
= ((unsigned)1 << (GET_MODE_BITSIZE (mode
) - 1)) - 1;
222 n_iterations_max
= smax
- smin
;
227 if (GET_CODE (min_value
) == CONST_INT
228 && GET_CODE (max_value
) == CONST_INT
)
229 n_iterations_max
= INTVAL (max_value
) - INTVAL (min_value
);
231 /* We need to conservatively assume that we might have the maximum
232 number of iterations without any additional knowledge. */
233 n_iterations_max
= ((unsigned)2 << (GET_MODE_BITSIZE (mode
) - 1)) - 1;
240 n_iterations_max
/= abs_inc
;
242 /* If we know that the iteration count is non-negative then adjust
243 n_iterations_max if it is so large that it appears negative. */
245 && n_iterations_max
> ((unsigned)1 << (GET_MODE_BITSIZE (mode
) - 1)))
246 n_iterations_max
= ((unsigned)1 << (GET_MODE_BITSIZE (mode
) - 1)) - 1;
248 return n_iterations_max
;
252 /* Return non-zero if the loop specified by LOOP is suitable for
253 the use of special low-overhead looping instructions. */
255 doloop_valid_p (loop
, jump_insn
)
256 const struct loop
*loop
;
259 const struct loop_info
*loop_info
= LOOP_INFO (loop
);
261 /* The loop must have a conditional jump at the end. */
262 if (! any_condjump_p (jump_insn
)
263 || ! onlyjump_p (jump_insn
))
265 if (loop_dump_stream
)
266 fprintf (loop_dump_stream
,
267 "Doloop: Invalid jump at loop end.\n");
271 /* Give up if a loop has been completely unrolled. */
272 if (loop_info
->n_iterations
== loop_info
->unroll_number
)
274 if (loop_dump_stream
)
275 fprintf (loop_dump_stream
,
276 "Doloop: Loop completely unrolled.\n");
280 /* The loop must have a single exit target. A break or return
281 statement within a loop will generate multiple loop exits.
282 Another example of a loop that currently generates multiple exit
283 targets is for (i = 0; i < (foo ? 8 : 4); i++) { }. */
284 if (loop_info
->has_multiple_exit_targets
|| loop
->exit_count
)
286 if (loop_dump_stream
)
287 fprintf (loop_dump_stream
,
288 "Doloop: Loop has multiple exit targets.\n");
292 /* An indirect jump may jump out of the loop. */
293 if (loop_info
->has_indirect_jump
)
295 if (loop_dump_stream
)
296 fprintf (loop_dump_stream
,
297 "Doloop: Indirect jump in function.\n");
301 /* A called function may clobber any special registers required for
302 low-overhead looping. */
303 if (loop_info
->has_call
)
305 if (loop_dump_stream
)
306 fprintf (loop_dump_stream
,
307 "Doloop: Function call in loop.\n");
311 /* Some targets (eg, PPC) use the count register for branch on table
312 instructions. ??? This should be a target specific check. */
313 if (loop_info
->has_tablejump
)
315 if (loop_dump_stream
)
316 fprintf (loop_dump_stream
,
317 "Doloop: Computed branch in the loop.\n");
321 if (! loop_info
->increment
)
323 if (loop_dump_stream
)
324 fprintf (loop_dump_stream
,
325 "Doloop: Could not determine iteration info.\n");
329 if (GET_CODE (loop_info
->increment
) != CONST_INT
)
331 if (loop_dump_stream
)
332 fprintf (loop_dump_stream
,
333 "Doloop: Increment not an integer constant.\n");
337 /* There is no guarantee that a NE loop will terminate if the
338 absolute increment is not unity. ??? We could compute this
339 condition at run-time and have an additional jump around the loop
340 to ensure an infinite loop. */
341 if (loop_info
->comparison_code
== NE
342 && INTVAL (loop_info
->increment
) != -1
343 && INTVAL (loop_info
->increment
) != 1)
345 if (loop_dump_stream
)
346 fprintf (loop_dump_stream
,
347 "Doloop: NE loop with non-unity increment.\n");
351 /* Check for loops that may not terminate under special conditions. */
352 if (! loop_info
->n_iterations
353 && ((loop_info
->comparison_code
== LEU
354 && INTVAL (loop_info
->increment
) > 0)
355 || (loop_info
->comparison_code
== GEU
356 && INTVAL (loop_info
->increment
) < 0)
357 || (loop_info
->comparison_code
== LTU
358 && INTVAL (loop_info
->increment
) > 1)
359 || (loop_info
->comparison_code
== GTU
360 && INTVAL (loop_info
->increment
) < -1)))
362 /* If the comparison is LEU and the comparison value is UINT_MAX
363 then the loop will not terminate. Similarly, if the
364 comparison code is GEU and the initial value is 0, the loop
367 If the absolute increment is not 1, the loop can be infinite
368 even with LTU/GTU, e.g. for (i = 3; i > 0; i -= 2)
370 Note that with LE and GE, the loop behaviour is undefined
371 (C++ standard section 5 clause 5) if an overflow occurs, say
372 between INT_MAX and INT_MAX + 1. We thus don't have to worry
373 about these two cases.
375 ??? We could compute these conditions at run-time and have a
376 additional jump around the loop to ensure an infinite loop.
377 However, it is very unlikely that this is the intended
378 behaviour of the loop and checking for these rare boundary
379 conditions would pessimize all other code.
381 If the loop is executed only a few times an extra check to
382 restart the loop could use up most of the benefits of using a
383 count register loop. Note however, that normally, this
384 restart branch would never execute, so it could be predicted
385 well by the CPU. We should generate the pessimistic code by
386 default, and have an option, e.g. -funsafe-loops that would
387 enable count-register loops in this case. */
388 if (loop_dump_stream
)
389 fprintf (loop_dump_stream
,
390 "Doloop: Possible infinite iteration case ignored.\n");
397 /* Modify the loop to use the low-overhead looping insn where LOOP
398 describes the loop, ITERATIONS is an RTX containing the desired
399 number of loop iterations, ITERATIONS_MAX is a CONST_INT specifying
400 the maximum number of loop iterations, and DOLOOP_INSN is the
401 low-overhead looping insn to emit at the end of the loop. This
402 returns non-zero if it was successful. */
404 doloop_modify (loop
, iterations
, iterations_max
,
405 doloop_seq
, start_label
, condition
)
406 const struct loop
*loop
;
420 jump_insn
= prev_nonnote_insn (loop
->end
);
422 if (loop_dump_stream
)
424 fprintf (loop_dump_stream
, "Doloop: Inserting doloop pattern (");
425 if (GET_CODE (iterations
) == CONST_INT
)
426 fprintf (loop_dump_stream
, HOST_WIDE_INT_PRINT_DEC
,
427 INTVAL (iterations
));
429 fputs ("runtime", loop_dump_stream
);
430 fputs (" iterations).", loop_dump_stream
);
433 /* Emit the label that will delimit the top of the loop.
434 This has to be done before the delete_insn call below, to prevent
435 delete_insn from deleting too much. */
436 emit_label_after (start_label
, loop
->top
? loop
->top
: loop
->start
);
437 LABEL_NUSES (start_label
)++;
439 /* Discard original jump to continue loop. The original compare
440 result may still be live, so it cannot be discarded explicitly. */
441 delete_related_insns (jump_insn
);
443 counter_reg
= XEXP (condition
, 0);
444 if (GET_CODE (counter_reg
) == PLUS
)
445 counter_reg
= XEXP (counter_reg
, 0);
451 switch (GET_CODE (condition
))
454 /* Currently only NE tests against zero and one are supported. */
455 if (XEXP (condition
, 1) == const0_rtx
)
457 else if (XEXP (condition
, 1) != const1_rtx
)
462 /* Currently only GE tests against zero are supported. */
463 if (XEXP (condition
, 1) != const0_rtx
)
466 /* The iteration count needs decrementing for a GE test. */
469 /* Determine if the iteration counter will be non-negative.
470 Note that the maximum value loaded is iterations_max - 1. */
471 if ((unsigned HOST_WIDE_INT
) INTVAL (iterations_max
)
472 <= ((unsigned)1 << (GET_MODE_BITSIZE (GET_MODE (counter_reg
)) - 1)))
476 /* Abort if an invalid doloop pattern has been generated. */
483 if (GET_CODE (count
) == CONST_INT
)
484 count
= GEN_INT (INTVAL (count
) - 1);
486 count
= expand_simple_binop (GET_MODE (counter_reg
), MINUS
,
488 0, 0, OPTAB_LIB_WIDEN
);
491 /* Insert initialization of the count register into the loop header. */
492 convert_move (counter_reg
, count
, 1);
493 sequence
= gen_sequence ();
495 emit_insn_before (sequence
, loop
->start
);
497 /* Some targets (eg, C4x) need to initialize special looping
499 #ifdef HAVE_doloop_begin
503 init
= gen_doloop_begin (counter_reg
,
504 GET_CODE (iterations
) == CONST_INT
505 ? iterations
: const0_rtx
, iterations_max
,
506 GEN_INT (loop
->level
));
511 sequence
= gen_sequence ();
513 emit_insn_after (sequence
, loop
->start
);
518 /* Insert the new low-overhead looping insn. */
519 emit_jump_insn_before (doloop_seq
, loop
->end
);
520 jump_insn
= prev_nonnote_insn (loop
->end
);
521 JUMP_LABEL (jump_insn
) = start_label
;
523 /* Add a REG_NONNEG note if the actual or estimated maximum number
524 of iterations is non-negative. */
527 REG_NOTES (jump_insn
)
528 = gen_rtx_EXPR_LIST (REG_NONNEG
, NULL_RTX
, REG_NOTES (jump_insn
));
534 /* Handle the more complex case, where the bounds are not known at
535 compile time. In this case we generate a run_time calculation of
536 the number of iterations. We rely on the existence of a run-time
537 guard to ensure that the loop executes at least once, i.e.,
538 initial_value obeys the loop comparison condition. If a guard is
539 not present, we emit one. The loop to modify is described by LOOP.
540 ITERATIONS_MAX is a CONST_INT specifying the estimated maximum
541 number of loop iterations. DOLOOP_INSN is the low-overhead looping
542 insn to insert. Returns non-zero if loop successfully modified. */
544 doloop_modify_runtime (loop
, iterations_max
,
545 doloop_seq
, start_label
, mode
, condition
)
546 const struct loop
*loop
;
550 enum machine_mode mode
;
553 const struct loop_info
*loop_info
= LOOP_INFO (loop
);
554 HOST_WIDE_INT abs_inc
;
563 enum rtx_code comparison_code
;
565 increment
= loop_info
->increment
;
566 initial_value
= loop_info
->initial_value
;
567 final_value
= loop_info
->final_value
;
570 abs_inc
= INTVAL (increment
);
577 comparison_code
= loop_info
->comparison_code
;
578 unsigned_p
= (comparison_code
== LTU
579 || comparison_code
== LEU
580 || comparison_code
== GTU
581 || comparison_code
== GEU
582 || comparison_code
== NE
);
584 /* The number of iterations (prior to any loop unrolling) is given by:
586 n = (abs (final - initial) + abs_inc - 1) / abs_inc.
588 However, it is possible for the summation to overflow, and a
591 n = abs (final - initial) / abs_inc;
592 n += (abs (final - initial) % abs_inc) != 0;
594 If the loop has been unrolled, then the loop body has been
595 preconditioned to iterate a multiple of unroll_number times. If
596 abs_inc is != 1, the full calculation is
598 t1 = abs_inc * unroll_number;
599 n = abs (final - initial) / t1;
600 n += (abs (final - initial) % t1) > t1 - abs_inc;
602 The division and modulo operations can be avoided by requiring
603 that the increment is a power of 2 (precondition_loop_p enforces
604 this requirement). Nevertheless, the RTX_COSTS should be checked
605 to see if a fast divmod is available. */
608 /* abs (final - initial) */
609 diff
= expand_simple_binop (mode
, MINUS
,
610 copy_rtx (neg_inc
? initial_value
: final_value
),
611 copy_rtx (neg_inc
? final_value
: initial_value
),
612 NULL_RTX
, unsigned_p
, OPTAB_LIB_WIDEN
);
614 /* Some code transformations can result in code akin to
625 We'll have already detected this form of loop in scan_loop,
626 and set loop->top and loop->scan_start appropriately.
628 In this situation, we skip the increment the first time through
629 the loop, which results in an incorrect estimate of the number
630 of iterations. Adjust the difference to compensate. */
631 /* ??? Logically, it would seem this belongs in loop_iterations.
632 However, this causes regressions e.g. on x86 execute/20011008-3.c,
633 so I do not believe we've properly characterized the exact nature
634 of the problem. In the meantime, this fixes execute/20011126-2.c
635 on ia64 and some Ada front end miscompilation on ppc. */
637 if (loop
->scan_start
)
639 rtx iteration_var
= loop_info
->iteration_var
;
640 struct loop_ivs
*ivs
= LOOP_IVS (loop
);
643 if (REG_IV_TYPE (ivs
, REGNO (iteration_var
)) == BASIC_INDUCT
)
644 bl
= REG_IV_CLASS (ivs
, REGNO (iteration_var
));
645 else if (REG_IV_TYPE (ivs
, REGNO (iteration_var
)) == GENERAL_INDUCT
)
647 struct induction
*v
= REG_IV_INFO (ivs
, REGNO (iteration_var
));
648 bl
= REG_IV_CLASS (ivs
, REGNO (v
->src_reg
));
651 /* Iteration var must be an induction variable to get here. */
654 if (INSN_UID (bl
->biv
->insn
) < max_uid_for_loop
655 && INSN_LUID (bl
->biv
->insn
) < INSN_LUID (loop
->scan_start
))
657 if (loop_dump_stream
)
658 fprintf (loop_dump_stream
,
659 "Doloop: Basic induction var skips initial incr.\n");
661 diff
= expand_simple_binop (mode
, PLUS
, diff
, increment
, diff
,
662 unsigned_p
, OPTAB_LIB_WIDEN
);
666 if (abs_inc
* loop_info
->unroll_number
!= 1)
671 unsigned HOST_WIDE_INT limit
;
673 shift_count
= exact_log2 (abs_inc
* loop_info
->unroll_number
);
677 /* abs (final - initial) / (abs_inc * unroll_number) */
678 iterations
= expand_simple_binop (GET_MODE (diff
), LSHIFTRT
,
679 diff
, GEN_INT (shift_count
),
685 /* abs (final - initial) % (abs_inc * unroll_number) */
686 rtx count
= GEN_INT (abs_inc
* loop_info
->unroll_number
- 1);
687 extra
= expand_simple_binop (GET_MODE (iterations
), AND
,
688 diff
, count
, NULL_RTX
, 1,
691 /* If (abs (final - initial) % (abs_inc * unroll_number)
692 <= abs_inc * (unroll - 1)),
693 jump past following increment instruction. */
694 label
= gen_label_rtx();
695 limit
= abs_inc
* (loop_info
->unroll_number
- 1);
696 emit_cmp_and_jump_insns (extra
, GEN_INT (limit
),
697 limit
== 0 ? EQ
: LEU
, NULL_RTX
,
698 GET_MODE (extra
), 0, label
);
699 JUMP_LABEL (get_last_insn ()) = label
;
700 LABEL_NUSES (label
)++;
702 /* Increment the iteration count by one. */
703 iterations
= expand_simple_binop (GET_MODE (iterations
), PLUS
,
704 iterations
, GEN_INT (1),
714 /* If there is a NOTE_INSN_LOOP_VTOP, we have a `for' or `while'
715 style loop, with a loop exit test at the start. Thus, we can
716 assume that the loop condition was true when the loop was
719 `do-while' loops require special treatment since the exit test is
720 not executed before the start of the loop. We need to determine
721 if the loop will terminate after the first pass and to limit the
722 iteration count to one if necessary. */
727 if (loop_dump_stream
)
728 fprintf (loop_dump_stream
, "Doloop: Do-while loop.\n");
730 /* A `do-while' loop must iterate at least once. If the
731 iteration count is bogus, we set the iteration count to 1.
732 Note that if the loop has been unrolled, then the loop body
733 is guaranteed to execute at least once. */
734 if (loop_info
->unroll_number
== 1)
736 /* Emit insns to test if the loop will immediately
737 terminate and to set the iteration count to 1 if true. */
738 label
= gen_label_rtx();
739 emit_cmp_and_jump_insns (copy_rtx (initial_value
),
740 copy_rtx (loop_info
->comparison_value
),
741 comparison_code
, NULL_RTX
, mode
, 0,
743 JUMP_LABEL (get_last_insn ()) = label
;
744 LABEL_NUSES (label
)++;
745 emit_move_insn (iterations
, const1_rtx
);
750 sequence
= gen_sequence ();
752 emit_insn_before (sequence
, loop
->start
);
754 return doloop_modify (loop
, iterations
, iterations_max
, doloop_seq
,
755 start_label
, condition
);
759 /* This is the main entry point. Process loop described by LOOP
760 validating that the loop is suitable for conversion to use a low
761 overhead looping instruction, replacing the jump insn where
762 suitable. We distinguish between loops with compile-time bounds
763 and those with run-time bounds. Information from LOOP is used to
764 compute the number of iterations and to determine whether the loop
765 is a candidate for this optimization. Returns non-zero if loop
766 successfully modified. */
768 doloop_optimize (loop
)
769 const struct loop
*loop
;
771 struct loop_info
*loop_info
= LOOP_INFO (loop
);
776 enum machine_mode mode
;
777 unsigned HOST_WIDE_INT n_iterations
;
778 unsigned HOST_WIDE_INT n_iterations_max
;
779 rtx doloop_seq
, doloop_pat
, doloop_reg
;
785 if (loop_dump_stream
)
786 fprintf (loop_dump_stream
,
787 "Doloop: Processing loop %d, enclosed levels %d.\n",
788 loop
->num
, loop
->level
);
790 jump_insn
= prev_nonnote_insn (loop
->end
);
792 /* Check that loop is a candidate for a low-overhead looping insn. */
793 if (! doloop_valid_p (loop
, jump_insn
))
796 /* Determine if the loop can be safely, and profitably,
797 preconditioned. While we don't precondition the loop in a loop
798 unrolling sense, this test ensures that the loop is well behaved
799 and that the increment is a constant integer. */
800 if (! precondition_loop_p (loop
, &initial_value
, &final_value
,
803 if (loop_dump_stream
)
804 fprintf (loop_dump_stream
,
805 "Doloop: Cannot precondition loop.\n");
809 /* Determine or estimate the maximum number of loop iterations. */
810 n_iterations
= loop_info
->n_iterations
;
813 /* This is the simple case where the initial and final loop
814 values are constants. */
815 n_iterations_max
= n_iterations
;
819 int nonneg
= find_reg_note (jump_insn
, REG_NONNEG
, 0) != 0;
821 /* This is the harder case where the initial and final loop
822 values may not be constants. */
823 n_iterations_max
= doloop_iterations_max (loop_info
, mode
, nonneg
);
825 if (! n_iterations_max
)
827 /* We have something like `for (i = 0; i < 10; i--)'. */
828 if (loop_dump_stream
)
829 fprintf (loop_dump_stream
,
830 "Doloop: Not normal loop.\n");
835 /* Account for loop unrolling in the iteration count. This will
836 have no effect if loop_iterations could not determine the number
838 n_iterations
/= loop_info
->unroll_number
;
839 n_iterations_max
/= loop_info
->unroll_number
;
841 if (n_iterations
&& n_iterations
< 3)
843 if (loop_dump_stream
)
844 fprintf (loop_dump_stream
,
845 "Doloop: Too few iterations (%ld) to be profitable.\n",
846 (long int) n_iterations
);
850 iterations
= GEN_INT (n_iterations
);
851 iterations_max
= GEN_INT (n_iterations_max
);
853 /* Generate looping insn. If the pattern FAILs then give up trying
854 to modify the loop since there is some aspect the back-end does
856 start_label
= gen_label_rtx ();
857 doloop_reg
= gen_reg_rtx (mode
);
858 doloop_seq
= gen_doloop_end (doloop_reg
, iterations
, iterations_max
,
859 GEN_INT (loop
->level
), start_label
);
860 if (! doloop_seq
&& mode
!= word_mode
)
862 PUT_MODE (doloop_reg
, word_mode
);
863 doloop_seq
= gen_doloop_end (doloop_reg
, iterations
, iterations_max
,
864 GEN_INT (loop
->level
), start_label
);
868 if (loop_dump_stream
)
869 fprintf (loop_dump_stream
,
870 "Doloop: Target unwilling to use doloop pattern!\n");
874 /* A raw define_insn may yield a plain pattern. If a sequence
875 was involved, the last must be the jump instruction. */
876 if (GET_CODE (doloop_seq
) == SEQUENCE
)
878 doloop_pat
= XVECEXP (doloop_seq
, 0, XVECLEN (doloop_seq
, 0) - 1);
879 if (GET_CODE (doloop_pat
) == JUMP_INSN
)
880 doloop_pat
= PATTERN (doloop_pat
);
882 doloop_pat
= NULL_RTX
;
885 doloop_pat
= doloop_seq
;
888 || ! (condition
= doloop_condition_get (doloop_pat
)))
890 if (loop_dump_stream
)
891 fprintf (loop_dump_stream
,
892 "Doloop: Unrecognizable doloop pattern!\n");
896 if (n_iterations
!= 0)
897 /* Handle the simpler case, where we know the iteration count at
899 return doloop_modify (loop
, iterations
, iterations_max
, doloop_seq
,
900 start_label
, condition
);
902 /* Handle the harder case, where we must add additional runtime tests. */
903 return doloop_modify_runtime (loop
, iterations_max
, doloop_seq
,
904 start_label
, mode
, condition
);
907 #endif /* HAVE_doloop_end */