Mercurial > hg > CbC > CbC_gcc
annotate gcc/loop-unroll.c @ 117:f81c5aa9f14f
fix
author | mir3636 |
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date | Tue, 28 Nov 2017 21:17:15 +0900 |
parents | 04ced10e8804 |
children | 84e7813d76e9 |
rev | line source |
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111 | 1 /* Loop unrolling. |
2 Copyright (C) 2002-2017 Free Software Foundation, Inc. | |
0 | 3 |
4 This file is part of GCC. | |
5 | |
6 GCC is free software; you can redistribute it and/or modify it under | |
7 the terms of the GNU General Public License as published by the Free | |
8 Software Foundation; either version 3, or (at your option) any later | |
9 version. | |
10 | |
11 GCC is distributed in the hope that it will be useful, but WITHOUT ANY | |
12 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. | |
15 | |
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/>. */ | |
19 | |
20 #include "config.h" | |
21 #include "system.h" | |
22 #include "coretypes.h" | |
111 | 23 #include "backend.h" |
24 #include "target.h" | |
0 | 25 #include "rtl.h" |
111 | 26 #include "tree.h" |
27 #include "cfghooks.h" | |
28 #include "memmodel.h" | |
29 #include "optabs.h" | |
30 #include "emit-rtl.h" | |
31 #include "recog.h" | |
32 #include "profile.h" | |
33 #include "cfgrtl.h" | |
0 | 34 #include "cfgloop.h" |
35 #include "params.h" | |
111 | 36 #include "dojump.h" |
0 | 37 #include "expr.h" |
111 | 38 #include "dumpfile.h" |
0 | 39 |
111 | 40 /* This pass performs loop unrolling. We only perform this |
41 optimization on innermost loops (with single exception) because | |
0 | 42 the impact on performance is greatest here, and we want to avoid |
43 unnecessary code size growth. The gain is caused by greater sequentiality | |
44 of code, better code to optimize for further passes and in some cases | |
45 by fewer testings of exit conditions. The main problem is code growth, | |
46 that impacts performance negatively due to effect of caches. | |
47 | |
48 What we do: | |
49 | |
50 -- unrolling of loops that roll constant times; this is almost always | |
51 win, as we get rid of exit condition tests. | |
52 -- unrolling of loops that roll number of times that we can compute | |
53 in runtime; we also get rid of exit condition tests here, but there | |
54 is the extra expense for calculating the number of iterations | |
55 -- simple unrolling of remaining loops; this is performed only if we | |
56 are asked to, as the gain is questionable in this case and often | |
57 it may even slow down the code | |
58 For more detailed descriptions of each of those, see comments at | |
59 appropriate function below. | |
60 | |
61 There is a lot of parameters (defined and described in params.def) that | |
111 | 62 control how much we unroll. |
0 | 63 |
64 ??? A great problem is that we don't have a good way how to determine | |
65 how many times we should unroll the loop; the experiments I have made | |
66 showed that this choice may affect performance in order of several %. | |
67 */ | |
68 | |
69 /* Information about induction variables to split. */ | |
70 | |
71 struct iv_to_split | |
72 { | |
111 | 73 rtx_insn *insn; /* The insn in that the induction variable occurs. */ |
74 rtx orig_var; /* The variable (register) for the IV before split. */ | |
0 | 75 rtx base_var; /* The variable on that the values in the further |
76 iterations are based. */ | |
77 rtx step; /* Step of the induction variable. */ | |
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78 struct iv_to_split *next; /* Next entry in walking order. */ |
0 | 79 }; |
80 | |
81 /* Information about accumulators to expand. */ | |
82 | |
83 struct var_to_expand | |
84 { | |
111 | 85 rtx_insn *insn; /* The insn in that the variable expansion occurs. */ |
0 | 86 rtx reg; /* The accumulator which is expanded. */ |
111 | 87 vec<rtx> var_expansions; /* The copies of the accumulator which is expanded. */ |
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88 struct var_to_expand *next; /* Next entry in walking order. */ |
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89 enum rtx_code op; /* The type of the accumulation - addition, subtraction |
0 | 90 or multiplication. */ |
91 int expansion_count; /* Count the number of expansions generated so far. */ | |
92 int reuse_expansion; /* The expansion we intend to reuse to expand | |
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93 the accumulator. If REUSE_EXPANSION is 0 reuse |
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94 the original accumulator. Else use |
0 | 95 var_expansions[REUSE_EXPANSION - 1]. */ |
111 | 96 }; |
97 | |
98 /* Hashtable helper for iv_to_split. */ | |
99 | |
100 struct iv_split_hasher : free_ptr_hash <iv_to_split> | |
101 { | |
102 static inline hashval_t hash (const iv_to_split *); | |
103 static inline bool equal (const iv_to_split *, const iv_to_split *); | |
0 | 104 }; |
105 | |
111 | 106 |
107 /* A hash function for information about insns to split. */ | |
108 | |
109 inline hashval_t | |
110 iv_split_hasher::hash (const iv_to_split *ivts) | |
111 { | |
112 return (hashval_t) INSN_UID (ivts->insn); | |
113 } | |
114 | |
115 /* An equality functions for information about insns to split. */ | |
116 | |
117 inline bool | |
118 iv_split_hasher::equal (const iv_to_split *i1, const iv_to_split *i2) | |
119 { | |
120 return i1->insn == i2->insn; | |
121 } | |
122 | |
123 /* Hashtable helper for iv_to_split. */ | |
124 | |
125 struct var_expand_hasher : free_ptr_hash <var_to_expand> | |
126 { | |
127 static inline hashval_t hash (const var_to_expand *); | |
128 static inline bool equal (const var_to_expand *, const var_to_expand *); | |
129 }; | |
130 | |
131 /* Return a hash for VES. */ | |
132 | |
133 inline hashval_t | |
134 var_expand_hasher::hash (const var_to_expand *ves) | |
135 { | |
136 return (hashval_t) INSN_UID (ves->insn); | |
137 } | |
138 | |
139 /* Return true if I1 and I2 refer to the same instruction. */ | |
140 | |
141 inline bool | |
142 var_expand_hasher::equal (const var_to_expand *i1, const var_to_expand *i2) | |
143 { | |
144 return i1->insn == i2->insn; | |
145 } | |
146 | |
0 | 147 /* Information about optimization applied in |
148 the unrolled loop. */ | |
149 | |
150 struct opt_info | |
151 { | |
111 | 152 hash_table<iv_split_hasher> *insns_to_split; /* A hashtable of insns to |
153 split. */ | |
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154 struct iv_to_split *iv_to_split_head; /* The first iv to split. */ |
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155 struct iv_to_split **iv_to_split_tail; /* Pointer to the tail of the list. */ |
111 | 156 hash_table<var_expand_hasher> *insns_with_var_to_expand; /* A hashtable of |
157 insns with accumulators to expand. */ | |
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158 struct var_to_expand *var_to_expand_head; /* The first var to expand. */ |
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159 struct var_to_expand **var_to_expand_tail; /* Pointer to the tail of the list. */ |
0 | 160 unsigned first_new_block; /* The first basic block that was |
161 duplicated. */ | |
162 basic_block loop_exit; /* The loop exit basic block. */ | |
163 basic_block loop_preheader; /* The loop preheader basic block. */ | |
164 }; | |
165 | |
166 static void decide_unroll_stupid (struct loop *, int); | |
167 static void decide_unroll_constant_iterations (struct loop *, int); | |
168 static void decide_unroll_runtime_iterations (struct loop *, int); | |
169 static void unroll_loop_stupid (struct loop *); | |
111 | 170 static void decide_unrolling (int); |
0 | 171 static void unroll_loop_constant_iterations (struct loop *); |
172 static void unroll_loop_runtime_iterations (struct loop *); | |
173 static struct opt_info *analyze_insns_in_loop (struct loop *); | |
174 static void opt_info_start_duplication (struct opt_info *); | |
175 static void apply_opt_in_copies (struct opt_info *, unsigned, bool, bool); | |
176 static void free_opt_info (struct opt_info *); | |
111 | 177 static struct var_to_expand *analyze_insn_to_expand_var (struct loop*, rtx_insn *); |
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178 static bool referenced_in_one_insn_in_loop_p (struct loop *, rtx, int *); |
111 | 179 static struct iv_to_split *analyze_iv_to_split_insn (rtx_insn *); |
180 static void expand_var_during_unrolling (struct var_to_expand *, rtx_insn *); | |
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181 static void insert_var_expansion_initialization (struct var_to_expand *, |
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182 basic_block); |
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183 static void combine_var_copies_in_loop_exit (struct var_to_expand *, |
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184 basic_block); |
0 | 185 static rtx get_expansion (struct var_to_expand *); |
186 | |
111 | 187 /* Emit a message summarizing the unroll that will be |
188 performed for LOOP, along with the loop's location LOCUS, if | |
189 appropriate given the dump or -fopt-info settings. */ | |
190 | |
191 static void | |
192 report_unroll (struct loop *loop, location_t locus) | |
0 | 193 { |
111 | 194 dump_flags_t report_flags = MSG_OPTIMIZED_LOCATIONS | TDF_DETAILS; |
0 | 195 |
111 | 196 if (loop->lpt_decision.decision == LPT_NONE) |
197 return; | |
0 | 198 |
111 | 199 if (!dump_enabled_p ()) |
200 return; | |
0 | 201 |
111 | 202 dump_printf_loc (report_flags, locus, |
203 "loop unrolled %d times", | |
204 loop->lpt_decision.times); | |
205 if (profile_info && loop->header->count.initialized_p ()) | |
206 dump_printf (report_flags, | |
207 " (header execution count %d)", | |
208 (int)loop->header->count.to_gcov_type ()); | |
209 | |
210 dump_printf (report_flags, "\n"); | |
0 | 211 } |
212 | |
111 | 213 /* Decide whether unroll loops and how much. */ |
0 | 214 static void |
111 | 215 decide_unrolling (int flags) |
0 | 216 { |
217 struct loop *loop; | |
218 | |
111 | 219 /* Scan the loops, inner ones first. */ |
220 FOR_EACH_LOOP (loop, LI_FROM_INNERMOST) | |
0 | 221 { |
222 loop->lpt_decision.decision = LPT_NONE; | |
111 | 223 location_t locus = get_loop_location (loop); |
0 | 224 |
111 | 225 if (dump_enabled_p ()) |
226 dump_printf_loc (MSG_NOTE, locus, | |
227 ";; *** Considering loop %d at BB %d for " | |
228 "unrolling ***\n", | |
229 loop->num, loop->header->index); | |
0 | 230 |
231 /* Do not peel cold areas. */ | |
232 if (optimize_loop_for_size_p (loop)) | |
233 { | |
234 if (dump_file) | |
235 fprintf (dump_file, ";; Not considering loop, cold area\n"); | |
236 continue; | |
237 } | |
238 | |
239 /* Can the loop be manipulated? */ | |
240 if (!can_duplicate_loop_p (loop)) | |
241 { | |
242 if (dump_file) | |
243 fprintf (dump_file, | |
244 ";; Not considering loop, cannot duplicate\n"); | |
245 continue; | |
246 } | |
247 | |
248 /* Skip non-innermost loops. */ | |
249 if (loop->inner) | |
250 { | |
251 if (dump_file) | |
252 fprintf (dump_file, ";; Not considering loop, is not innermost\n"); | |
253 continue; | |
254 } | |
255 | |
256 loop->ninsns = num_loop_insns (loop); | |
257 loop->av_ninsns = average_num_loop_insns (loop); | |
258 | |
259 /* Try transformations one by one in decreasing order of | |
260 priority. */ | |
261 | |
262 decide_unroll_constant_iterations (loop, flags); | |
263 if (loop->lpt_decision.decision == LPT_NONE) | |
264 decide_unroll_runtime_iterations (loop, flags); | |
265 if (loop->lpt_decision.decision == LPT_NONE) | |
266 decide_unroll_stupid (loop, flags); | |
111 | 267 |
268 report_unroll (loop, locus); | |
0 | 269 } |
270 } | |
271 | |
111 | 272 /* Unroll LOOPS. */ |
273 void | |
274 unroll_loops (int flags) | |
0 | 275 { |
111 | 276 struct loop *loop; |
277 bool changed = false; | |
0 | 278 |
111 | 279 /* Now decide rest of unrolling. */ |
280 decide_unrolling (flags); | |
0 | 281 |
111 | 282 /* Scan the loops, inner ones first. */ |
283 FOR_EACH_LOOP (loop, LI_FROM_INNERMOST) | |
0 | 284 { |
111 | 285 /* And perform the appropriate transformations. */ |
286 switch (loop->lpt_decision.decision) | |
287 { | |
288 case LPT_UNROLL_CONSTANT: | |
289 unroll_loop_constant_iterations (loop); | |
290 changed = true; | |
291 break; | |
292 case LPT_UNROLL_RUNTIME: | |
293 unroll_loop_runtime_iterations (loop); | |
294 changed = true; | |
295 break; | |
296 case LPT_UNROLL_STUPID: | |
297 unroll_loop_stupid (loop); | |
298 changed = true; | |
299 break; | |
300 case LPT_NONE: | |
301 break; | |
302 default: | |
303 gcc_unreachable (); | |
304 } | |
0 | 305 } |
306 | |
111 | 307 if (changed) |
308 { | |
309 calculate_dominance_info (CDI_DOMINATORS); | |
310 fix_loop_structure (NULL); | |
311 } | |
0 | 312 |
111 | 313 iv_analysis_done (); |
0 | 314 } |
315 | |
111 | 316 /* Check whether exit of the LOOP is at the end of loop body. */ |
0 | 317 |
111 | 318 static bool |
319 loop_exit_at_end_p (struct loop *loop) | |
0 | 320 { |
321 struct niter_desc *desc = get_simple_loop_desc (loop); | |
111 | 322 rtx_insn *insn; |
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323 |
111 | 324 /* We should never have conditional in latch block. */ |
325 gcc_assert (desc->in_edge->dest != loop->header); | |
0 | 326 |
111 | 327 if (desc->in_edge->dest != loop->latch) |
328 return false; | |
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329 |
111 | 330 /* Check that the latch is empty. */ |
331 FOR_BB_INSNS (loop->latch, insn) | |
332 { | |
333 if (INSN_P (insn) && active_insn_p (insn)) | |
334 return false; | |
0 | 335 } |
336 | |
111 | 337 return true; |
0 | 338 } |
339 | |
340 /* Decide whether to unroll LOOP iterating constant number of times | |
341 and how much. */ | |
342 | |
343 static void | |
344 decide_unroll_constant_iterations (struct loop *loop, int flags) | |
345 { | |
346 unsigned nunroll, nunroll_by_av, best_copies, best_unroll = 0, n_copies, i; | |
347 struct niter_desc *desc; | |
111 | 348 widest_int iterations; |
0 | 349 |
350 if (!(flags & UAP_UNROLL)) | |
351 { | |
352 /* We were not asked to, just return back silently. */ | |
353 return; | |
354 } | |
355 | |
356 if (dump_file) | |
357 fprintf (dump_file, | |
358 "\n;; Considering unrolling loop with constant " | |
359 "number of iterations\n"); | |
360 | |
361 /* nunroll = total number of copies of the original loop body in | |
362 unrolled loop (i.e. if it is 2, we have to duplicate loop body once. */ | |
363 nunroll = PARAM_VALUE (PARAM_MAX_UNROLLED_INSNS) / loop->ninsns; | |
364 nunroll_by_av | |
365 = PARAM_VALUE (PARAM_MAX_AVERAGE_UNROLLED_INSNS) / loop->av_ninsns; | |
366 if (nunroll > nunroll_by_av) | |
367 nunroll = nunroll_by_av; | |
368 if (nunroll > (unsigned) PARAM_VALUE (PARAM_MAX_UNROLL_TIMES)) | |
369 nunroll = PARAM_VALUE (PARAM_MAX_UNROLL_TIMES); | |
370 | |
111 | 371 if (targetm.loop_unroll_adjust) |
372 nunroll = targetm.loop_unroll_adjust (nunroll, loop); | |
373 | |
0 | 374 /* Skip big loops. */ |
375 if (nunroll <= 1) | |
376 { | |
377 if (dump_file) | |
378 fprintf (dump_file, ";; Not considering loop, is too big\n"); | |
379 return; | |
380 } | |
381 | |
382 /* Check for simple loops. */ | |
383 desc = get_simple_loop_desc (loop); | |
384 | |
385 /* Check number of iterations. */ | |
386 if (!desc->simple_p || !desc->const_iter || desc->assumptions) | |
387 { | |
388 if (dump_file) | |
389 fprintf (dump_file, | |
390 ";; Unable to prove that the loop iterates constant times\n"); | |
391 return; | |
392 } | |
393 | |
111 | 394 /* Check whether the loop rolls enough to consider. |
395 Consult also loop bounds and profile; in the case the loop has more | |
396 than one exit it may well loop less than determined maximal number | |
397 of iterations. */ | |
398 if (desc->niter < 2 * nunroll | |
399 || ((get_estimated_loop_iterations (loop, &iterations) | |
400 || get_likely_max_loop_iterations (loop, &iterations)) | |
401 && wi::ltu_p (iterations, 2 * nunroll))) | |
0 | 402 { |
403 if (dump_file) | |
404 fprintf (dump_file, ";; Not unrolling loop, doesn't roll\n"); | |
405 return; | |
406 } | |
407 | |
408 /* Success; now compute number of iterations to unroll. We alter | |
409 nunroll so that as few as possible copies of loop body are | |
410 necessary, while still not decreasing the number of unrollings | |
411 too much (at most by 1). */ | |
412 best_copies = 2 * nunroll + 10; | |
413 | |
414 i = 2 * nunroll + 2; | |
415 if (i - 1 >= desc->niter) | |
416 i = desc->niter - 2; | |
417 | |
418 for (; i >= nunroll - 1; i--) | |
419 { | |
420 unsigned exit_mod = desc->niter % (i + 1); | |
421 | |
422 if (!loop_exit_at_end_p (loop)) | |
423 n_copies = exit_mod + i + 1; | |
424 else if (exit_mod != (unsigned) i | |
425 || desc->noloop_assumptions != NULL_RTX) | |
426 n_copies = exit_mod + i + 2; | |
427 else | |
428 n_copies = i + 1; | |
429 | |
430 if (n_copies < best_copies) | |
431 { | |
432 best_copies = n_copies; | |
433 best_unroll = i; | |
434 } | |
435 } | |
436 | |
437 loop->lpt_decision.decision = LPT_UNROLL_CONSTANT; | |
438 loop->lpt_decision.times = best_unroll; | |
439 } | |
440 | |
111 | 441 /* Unroll LOOP with constant number of iterations LOOP->LPT_DECISION.TIMES times. |
442 The transformation does this: | |
0 | 443 |
444 for (i = 0; i < 102; i++) | |
445 body; | |
446 | |
111 | 447 ==> (LOOP->LPT_DECISION.TIMES == 3) |
0 | 448 |
449 i = 0; | |
450 body; i++; | |
451 body; i++; | |
452 while (i < 102) | |
453 { | |
454 body; i++; | |
455 body; i++; | |
456 body; i++; | |
457 body; i++; | |
458 } | |
459 */ | |
460 static void | |
461 unroll_loop_constant_iterations (struct loop *loop) | |
462 { | |
463 unsigned HOST_WIDE_INT niter; | |
464 unsigned exit_mod; | |
465 unsigned i; | |
466 edge e; | |
467 unsigned max_unroll = loop->lpt_decision.times; | |
468 struct niter_desc *desc = get_simple_loop_desc (loop); | |
469 bool exit_at_end = loop_exit_at_end_p (loop); | |
470 struct opt_info *opt_info = NULL; | |
471 bool ok; | |
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472 |
0 | 473 niter = desc->niter; |
474 | |
475 /* Should not get here (such loop should be peeled instead). */ | |
476 gcc_assert (niter > max_unroll + 1); | |
477 | |
478 exit_mod = niter % (max_unroll + 1); | |
479 | |
111 | 480 auto_sbitmap wont_exit (max_unroll + 1); |
481 bitmap_ones (wont_exit); | |
0 | 482 |
111 | 483 auto_vec<edge> remove_edges; |
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484 if (flag_split_ivs_in_unroller |
0 | 485 || flag_variable_expansion_in_unroller) |
486 opt_info = analyze_insns_in_loop (loop); | |
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487 |
0 | 488 if (!exit_at_end) |
489 { | |
490 /* The exit is not at the end of the loop; leave exit test | |
491 in the first copy, so that the loops that start with test | |
492 of exit condition have continuous body after unrolling. */ | |
493 | |
494 if (dump_file) | |
111 | 495 fprintf (dump_file, ";; Condition at beginning of loop.\n"); |
0 | 496 |
497 /* Peel exit_mod iterations. */ | |
111 | 498 bitmap_clear_bit (wont_exit, 0); |
0 | 499 if (desc->noloop_assumptions) |
111 | 500 bitmap_clear_bit (wont_exit, 1); |
0 | 501 |
502 if (exit_mod) | |
503 { | |
504 opt_info_start_duplication (opt_info); | |
505 ok = duplicate_loop_to_header_edge (loop, loop_preheader_edge (loop), | |
506 exit_mod, | |
507 wont_exit, desc->out_edge, | |
508 &remove_edges, | |
509 DLTHE_FLAG_UPDATE_FREQ | |
510 | (opt_info && exit_mod > 1 | |
511 ? DLTHE_RECORD_COPY_NUMBER | |
512 : 0)); | |
513 gcc_assert (ok); | |
514 | |
515 if (opt_info && exit_mod > 1) | |
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516 apply_opt_in_copies (opt_info, exit_mod, false, false); |
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517 |
0 | 518 desc->noloop_assumptions = NULL_RTX; |
519 desc->niter -= exit_mod; | |
111 | 520 loop->nb_iterations_upper_bound -= exit_mod; |
521 if (loop->any_estimate | |
522 && wi::leu_p (exit_mod, loop->nb_iterations_estimate)) | |
523 loop->nb_iterations_estimate -= exit_mod; | |
524 else | |
525 loop->any_estimate = false; | |
526 if (loop->any_likely_upper_bound | |
527 && wi::leu_p (exit_mod, loop->nb_iterations_likely_upper_bound)) | |
528 loop->nb_iterations_likely_upper_bound -= exit_mod; | |
529 else | |
530 loop->any_likely_upper_bound = false; | |
0 | 531 } |
532 | |
111 | 533 bitmap_set_bit (wont_exit, 1); |
0 | 534 } |
535 else | |
536 { | |
537 /* Leave exit test in last copy, for the same reason as above if | |
538 the loop tests the condition at the end of loop body. */ | |
539 | |
540 if (dump_file) | |
111 | 541 fprintf (dump_file, ";; Condition at end of loop.\n"); |
0 | 542 |
543 /* We know that niter >= max_unroll + 2; so we do not need to care of | |
544 case when we would exit before reaching the loop. So just peel | |
545 exit_mod + 1 iterations. */ | |
546 if (exit_mod != max_unroll | |
547 || desc->noloop_assumptions) | |
548 { | |
111 | 549 bitmap_clear_bit (wont_exit, 0); |
0 | 550 if (desc->noloop_assumptions) |
111 | 551 bitmap_clear_bit (wont_exit, 1); |
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552 |
0 | 553 opt_info_start_duplication (opt_info); |
554 ok = duplicate_loop_to_header_edge (loop, loop_preheader_edge (loop), | |
555 exit_mod + 1, | |
556 wont_exit, desc->out_edge, | |
557 &remove_edges, | |
558 DLTHE_FLAG_UPDATE_FREQ | |
559 | (opt_info && exit_mod > 0 | |
560 ? DLTHE_RECORD_COPY_NUMBER | |
561 : 0)); | |
562 gcc_assert (ok); | |
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563 |
0 | 564 if (opt_info && exit_mod > 0) |
565 apply_opt_in_copies (opt_info, exit_mod + 1, false, false); | |
566 | |
567 desc->niter -= exit_mod + 1; | |
111 | 568 loop->nb_iterations_upper_bound -= exit_mod + 1; |
569 if (loop->any_estimate | |
570 && wi::leu_p (exit_mod + 1, loop->nb_iterations_estimate)) | |
571 loop->nb_iterations_estimate -= exit_mod + 1; | |
572 else | |
573 loop->any_estimate = false; | |
574 if (loop->any_likely_upper_bound | |
575 && wi::leu_p (exit_mod + 1, loop->nb_iterations_likely_upper_bound)) | |
576 loop->nb_iterations_likely_upper_bound -= exit_mod + 1; | |
577 else | |
578 loop->any_likely_upper_bound = false; | |
0 | 579 desc->noloop_assumptions = NULL_RTX; |
580 | |
111 | 581 bitmap_set_bit (wont_exit, 0); |
582 bitmap_set_bit (wont_exit, 1); | |
0 | 583 } |
584 | |
111 | 585 bitmap_clear_bit (wont_exit, max_unroll); |
0 | 586 } |
587 | |
588 /* Now unroll the loop. */ | |
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589 |
0 | 590 opt_info_start_duplication (opt_info); |
591 ok = duplicate_loop_to_header_edge (loop, loop_latch_edge (loop), | |
592 max_unroll, | |
593 wont_exit, desc->out_edge, | |
594 &remove_edges, | |
595 DLTHE_FLAG_UPDATE_FREQ | |
596 | (opt_info | |
597 ? DLTHE_RECORD_COPY_NUMBER | |
598 : 0)); | |
599 gcc_assert (ok); | |
600 | |
601 if (opt_info) | |
602 { | |
603 apply_opt_in_copies (opt_info, max_unroll, true, true); | |
604 free_opt_info (opt_info); | |
605 } | |
606 | |
607 if (exit_at_end) | |
608 { | |
609 basic_block exit_block = get_bb_copy (desc->in_edge->src); | |
610 /* Find a new in and out edge; they are in the last copy we have made. */ | |
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611 |
0 | 612 if (EDGE_SUCC (exit_block, 0)->dest == desc->out_edge->dest) |
613 { | |
614 desc->out_edge = EDGE_SUCC (exit_block, 0); | |
615 desc->in_edge = EDGE_SUCC (exit_block, 1); | |
616 } | |
617 else | |
618 { | |
619 desc->out_edge = EDGE_SUCC (exit_block, 1); | |
620 desc->in_edge = EDGE_SUCC (exit_block, 0); | |
621 } | |
622 } | |
623 | |
624 desc->niter /= max_unroll + 1; | |
111 | 625 loop->nb_iterations_upper_bound |
626 = wi::udiv_trunc (loop->nb_iterations_upper_bound, max_unroll + 1); | |
627 if (loop->any_estimate) | |
628 loop->nb_iterations_estimate | |
629 = wi::udiv_trunc (loop->nb_iterations_estimate, max_unroll + 1); | |
630 if (loop->any_likely_upper_bound) | |
631 loop->nb_iterations_likely_upper_bound | |
632 = wi::udiv_trunc (loop->nb_iterations_likely_upper_bound, max_unroll + 1); | |
0 | 633 desc->niter_expr = GEN_INT (desc->niter); |
634 | |
635 /* Remove the edges. */ | |
111 | 636 FOR_EACH_VEC_ELT (remove_edges, i, e) |
0 | 637 remove_path (e); |
638 | |
639 if (dump_file) | |
640 fprintf (dump_file, | |
641 ";; Unrolled loop %d times, constant # of iterations %i insns\n", | |
642 max_unroll, num_loop_insns (loop)); | |
643 } | |
644 | |
645 /* Decide whether to unroll LOOP iterating runtime computable number of times | |
646 and how much. */ | |
647 static void | |
648 decide_unroll_runtime_iterations (struct loop *loop, int flags) | |
649 { | |
650 unsigned nunroll, nunroll_by_av, i; | |
651 struct niter_desc *desc; | |
111 | 652 widest_int iterations; |
0 | 653 |
654 if (!(flags & UAP_UNROLL)) | |
655 { | |
656 /* We were not asked to, just return back silently. */ | |
657 return; | |
658 } | |
659 | |
660 if (dump_file) | |
661 fprintf (dump_file, | |
662 "\n;; Considering unrolling loop with runtime " | |
663 "computable number of iterations\n"); | |
664 | |
665 /* nunroll = total number of copies of the original loop body in | |
666 unrolled loop (i.e. if it is 2, we have to duplicate loop body once. */ | |
667 nunroll = PARAM_VALUE (PARAM_MAX_UNROLLED_INSNS) / loop->ninsns; | |
668 nunroll_by_av = PARAM_VALUE (PARAM_MAX_AVERAGE_UNROLLED_INSNS) / loop->av_ninsns; | |
669 if (nunroll > nunroll_by_av) | |
670 nunroll = nunroll_by_av; | |
671 if (nunroll > (unsigned) PARAM_VALUE (PARAM_MAX_UNROLL_TIMES)) | |
672 nunroll = PARAM_VALUE (PARAM_MAX_UNROLL_TIMES); | |
673 | |
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674 if (targetm.loop_unroll_adjust) |
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675 nunroll = targetm.loop_unroll_adjust (nunroll, loop); |
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676 |
0 | 677 /* Skip big loops. */ |
678 if (nunroll <= 1) | |
679 { | |
680 if (dump_file) | |
681 fprintf (dump_file, ";; Not considering loop, is too big\n"); | |
682 return; | |
683 } | |
684 | |
685 /* Check for simple loops. */ | |
686 desc = get_simple_loop_desc (loop); | |
687 | |
688 /* Check simpleness. */ | |
689 if (!desc->simple_p || desc->assumptions) | |
690 { | |
691 if (dump_file) | |
692 fprintf (dump_file, | |
693 ";; Unable to prove that the number of iterations " | |
694 "can be counted in runtime\n"); | |
695 return; | |
696 } | |
697 | |
698 if (desc->const_iter) | |
699 { | |
700 if (dump_file) | |
701 fprintf (dump_file, ";; Loop iterates constant times\n"); | |
702 return; | |
703 } | |
704 | |
111 | 705 /* Check whether the loop rolls. */ |
706 if ((get_estimated_loop_iterations (loop, &iterations) | |
707 || get_likely_max_loop_iterations (loop, &iterations)) | |
708 && wi::ltu_p (iterations, 2 * nunroll)) | |
0 | 709 { |
710 if (dump_file) | |
711 fprintf (dump_file, ";; Not unrolling loop, doesn't roll\n"); | |
712 return; | |
713 } | |
714 | |
715 /* Success; now force nunroll to be power of 2, as we are unable to | |
716 cope with overflows in computation of number of iterations. */ | |
717 for (i = 1; 2 * i <= nunroll; i *= 2) | |
718 continue; | |
719 | |
720 loop->lpt_decision.decision = LPT_UNROLL_RUNTIME; | |
721 loop->lpt_decision.times = i - 1; | |
722 } | |
723 | |
724 /* Splits edge E and inserts the sequence of instructions INSNS on it, and | |
725 returns the newly created block. If INSNS is NULL_RTX, nothing is changed | |
726 and NULL is returned instead. */ | |
727 | |
728 basic_block | |
111 | 729 split_edge_and_insert (edge e, rtx_insn *insns) |
0 | 730 { |
731 basic_block bb; | |
732 | |
733 if (!insns) | |
734 return NULL; | |
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735 bb = split_edge (e); |
0 | 736 emit_insn_after (insns, BB_END (bb)); |
737 | |
738 /* ??? We used to assume that INSNS can contain control flow insns, and | |
739 that we had to try to find sub basic blocks in BB to maintain a valid | |
740 CFG. For this purpose we used to set the BB_SUPERBLOCK flag on BB | |
741 and call break_superblocks when going out of cfglayout mode. But it | |
742 turns out that this never happens; and that if it does ever happen, | |
111 | 743 the verify_flow_info at the end of the RTL loop passes would fail. |
0 | 744 |
745 There are two reasons why we expected we could have control flow insns | |
746 in INSNS. The first is when a comparison has to be done in parts, and | |
747 the second is when the number of iterations is computed for loops with | |
748 the number of iterations known at runtime. In both cases, test cases | |
749 to get control flow in INSNS appear to be impossible to construct: | |
750 | |
751 * If do_compare_rtx_and_jump needs several branches to do comparison | |
752 in a mode that needs comparison by parts, we cannot analyze the | |
753 number of iterations of the loop, and we never get to unrolling it. | |
754 | |
755 * The code in expand_divmod that was suspected to cause creation of | |
756 branching code seems to be only accessed for signed division. The | |
757 divisions used by # of iterations analysis are always unsigned. | |
758 Problems might arise on architectures that emits branching code | |
759 for some operations that may appear in the unroller (especially | |
760 for division), but we have no such architectures. | |
761 | |
762 Considering all this, it was decided that we should for now assume | |
763 that INSNS can in theory contain control flow insns, but in practice | |
764 it never does. So we don't handle the theoretical case, and should | |
765 a real failure ever show up, we have a pretty good clue for how to | |
766 fix it. */ | |
767 | |
768 return bb; | |
769 } | |
770 | |
111 | 771 /* Prepare a sequence comparing OP0 with OP1 using COMP and jumping to LABEL if |
772 true, with probability PROB. If CINSN is not NULL, it is the insn to copy | |
773 in order to create a jump. */ | |
774 | |
775 static rtx_insn * | |
776 compare_and_jump_seq (rtx op0, rtx op1, enum rtx_code comp, | |
777 rtx_code_label *label, profile_probability prob, | |
778 rtx_insn *cinsn) | |
779 { | |
780 rtx_insn *seq; | |
781 rtx_jump_insn *jump; | |
782 rtx cond; | |
783 machine_mode mode; | |
784 | |
785 mode = GET_MODE (op0); | |
786 if (mode == VOIDmode) | |
787 mode = GET_MODE (op1); | |
788 | |
789 start_sequence (); | |
790 if (GET_MODE_CLASS (mode) == MODE_CC) | |
791 { | |
792 /* A hack -- there seems to be no easy generic way how to make a | |
793 conditional jump from a ccmode comparison. */ | |
794 gcc_assert (cinsn); | |
795 cond = XEXP (SET_SRC (pc_set (cinsn)), 0); | |
796 gcc_assert (GET_CODE (cond) == comp); | |
797 gcc_assert (rtx_equal_p (op0, XEXP (cond, 0))); | |
798 gcc_assert (rtx_equal_p (op1, XEXP (cond, 1))); | |
799 emit_jump_insn (copy_insn (PATTERN (cinsn))); | |
800 jump = as_a <rtx_jump_insn *> (get_last_insn ()); | |
801 JUMP_LABEL (jump) = JUMP_LABEL (cinsn); | |
802 LABEL_NUSES (JUMP_LABEL (jump))++; | |
803 redirect_jump (jump, label, 0); | |
804 } | |
805 else | |
806 { | |
807 gcc_assert (!cinsn); | |
808 | |
809 op0 = force_operand (op0, NULL_RTX); | |
810 op1 = force_operand (op1, NULL_RTX); | |
811 do_compare_rtx_and_jump (op0, op1, comp, 0, | |
812 mode, NULL_RTX, NULL, label, | |
813 profile_probability::uninitialized ()); | |
814 jump = as_a <rtx_jump_insn *> (get_last_insn ()); | |
815 jump->set_jump_target (label); | |
816 LABEL_NUSES (label)++; | |
817 } | |
818 if (prob.initialized_p ()) | |
819 add_reg_br_prob_note (jump, prob); | |
820 | |
821 seq = get_insns (); | |
822 end_sequence (); | |
823 | |
824 return seq; | |
825 } | |
826 | |
827 /* Unroll LOOP for which we are able to count number of iterations in runtime | |
828 LOOP->LPT_DECISION.TIMES times. The transformation does this (with some | |
0 | 829 extra care for case n < 0): |
830 | |
831 for (i = 0; i < n; i++) | |
832 body; | |
833 | |
111 | 834 ==> (LOOP->LPT_DECISION.TIMES == 3) |
0 | 835 |
836 i = 0; | |
837 mod = n % 4; | |
838 | |
839 switch (mod) | |
840 { | |
841 case 3: | |
842 body; i++; | |
843 case 2: | |
844 body; i++; | |
845 case 1: | |
846 body; i++; | |
847 case 0: ; | |
848 } | |
849 | |
850 while (i < n) | |
851 { | |
852 body; i++; | |
853 body; i++; | |
854 body; i++; | |
855 body; i++; | |
856 } | |
857 */ | |
858 static void | |
859 unroll_loop_runtime_iterations (struct loop *loop) | |
860 { | |
111 | 861 rtx old_niter, niter, tmp; |
862 rtx_insn *init_code, *branch_code; | |
863 unsigned i, j; | |
864 profile_probability p; | |
865 basic_block preheader, *body, swtch, ezc_swtch = NULL; | |
866 int may_exit_copy, iter_freq, new_freq; | |
867 profile_count iter_count, new_count; | |
0 | 868 unsigned n_peel; |
869 edge e; | |
870 bool extra_zero_check, last_may_exit; | |
871 unsigned max_unroll = loop->lpt_decision.times; | |
872 struct niter_desc *desc = get_simple_loop_desc (loop); | |
873 bool exit_at_end = loop_exit_at_end_p (loop); | |
874 struct opt_info *opt_info = NULL; | |
875 bool ok; | |
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876 |
0 | 877 if (flag_split_ivs_in_unroller |
878 || flag_variable_expansion_in_unroller) | |
879 opt_info = analyze_insns_in_loop (loop); | |
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880 |
0 | 881 /* Remember blocks whose dominators will have to be updated. */ |
111 | 882 auto_vec<basic_block> dom_bbs; |
0 | 883 |
884 body = get_loop_body (loop); | |
885 for (i = 0; i < loop->num_nodes; i++) | |
886 { | |
111 | 887 vec<basic_block> ldom; |
0 | 888 basic_block bb; |
889 | |
890 ldom = get_dominated_by (CDI_DOMINATORS, body[i]); | |
111 | 891 FOR_EACH_VEC_ELT (ldom, j, bb) |
0 | 892 if (!flow_bb_inside_loop_p (loop, bb)) |
111 | 893 dom_bbs.safe_push (bb); |
0 | 894 |
111 | 895 ldom.release (); |
0 | 896 } |
897 free (body); | |
898 | |
899 if (!exit_at_end) | |
900 { | |
901 /* Leave exit in first copy (for explanation why see comment in | |
902 unroll_loop_constant_iterations). */ | |
903 may_exit_copy = 0; | |
904 n_peel = max_unroll - 1; | |
905 extra_zero_check = true; | |
906 last_may_exit = false; | |
907 } | |
908 else | |
909 { | |
910 /* Leave exit in last copy (for explanation why see comment in | |
911 unroll_loop_constant_iterations). */ | |
912 may_exit_copy = max_unroll; | |
913 n_peel = max_unroll; | |
914 extra_zero_check = false; | |
915 last_may_exit = true; | |
916 } | |
917 | |
918 /* Get expression for number of iterations. */ | |
919 start_sequence (); | |
920 old_niter = niter = gen_reg_rtx (desc->mode); | |
921 tmp = force_operand (copy_rtx (desc->niter_expr), niter); | |
922 if (tmp != niter) | |
923 emit_move_insn (niter, tmp); | |
924 | |
111 | 925 /* For loops that exit at end and whose number of iterations is reliable, |
926 add one to niter to account for first pass through loop body before | |
927 reaching exit test. */ | |
928 if (exit_at_end && !desc->noloop_assumptions) | |
929 { | |
930 niter = expand_simple_binop (desc->mode, PLUS, | |
931 niter, const1_rtx, | |
932 NULL_RTX, 0, OPTAB_LIB_WIDEN); | |
933 old_niter = niter; | |
934 } | |
935 | |
0 | 936 /* Count modulo by ANDing it with max_unroll; we use the fact that |
937 the number of unrollings is a power of two, and thus this is correct | |
938 even if there is overflow in the computation. */ | |
939 niter = expand_simple_binop (desc->mode, AND, | |
111 | 940 niter, gen_int_mode (max_unroll, desc->mode), |
0 | 941 NULL_RTX, 0, OPTAB_LIB_WIDEN); |
942 | |
943 init_code = get_insns (); | |
944 end_sequence (); | |
945 unshare_all_rtl_in_chain (init_code); | |
946 | |
947 /* Precondition the loop. */ | |
948 split_edge_and_insert (loop_preheader_edge (loop), init_code); | |
949 | |
111 | 950 auto_vec<edge> remove_edges; |
0 | 951 |
111 | 952 auto_sbitmap wont_exit (max_unroll + 2); |
0 | 953 |
111 | 954 if (extra_zero_check || desc->noloop_assumptions) |
955 { | |
956 /* Peel the first copy of loop body. Leave the exit test if the number | |
957 of iterations is not reliable. Also record the place of the extra zero | |
958 check. */ | |
959 bitmap_clear (wont_exit); | |
960 if (!desc->noloop_assumptions) | |
961 bitmap_set_bit (wont_exit, 1); | |
962 ezc_swtch = loop_preheader_edge (loop)->src; | |
963 ok = duplicate_loop_to_header_edge (loop, loop_preheader_edge (loop), | |
964 1, wont_exit, desc->out_edge, | |
965 &remove_edges, | |
966 DLTHE_FLAG_UPDATE_FREQ); | |
967 gcc_assert (ok); | |
968 } | |
0 | 969 |
970 /* Record the place where switch will be built for preconditioning. */ | |
971 swtch = split_edge (loop_preheader_edge (loop)); | |
972 | |
111 | 973 /* Compute frequency/count increments for each switch block and initialize |
974 innermost switch block. Switch blocks and peeled loop copies are built | |
975 from innermost outward. */ | |
976 iter_freq = new_freq = swtch->frequency / (max_unroll + 1); | |
977 iter_count = new_count = swtch->count.apply_scale (1, max_unroll + 1); | |
978 swtch->frequency = new_freq; | |
979 swtch->count = new_count; | |
980 | |
0 | 981 for (i = 0; i < n_peel; i++) |
982 { | |
983 /* Peel the copy. */ | |
111 | 984 bitmap_clear (wont_exit); |
0 | 985 if (i != n_peel - 1 || !last_may_exit) |
111 | 986 bitmap_set_bit (wont_exit, 1); |
0 | 987 ok = duplicate_loop_to_header_edge (loop, loop_preheader_edge (loop), |
988 1, wont_exit, desc->out_edge, | |
989 &remove_edges, | |
990 DLTHE_FLAG_UPDATE_FREQ); | |
991 gcc_assert (ok); | |
992 | |
993 /* Create item for switch. */ | |
994 j = n_peel - i - (extra_zero_check ? 0 : 1); | |
111 | 995 p = profile_probability::always ().apply_scale (1, i + 2); |
0 | 996 |
997 preheader = split_edge (loop_preheader_edge (loop)); | |
111 | 998 /* Add in frequency/count of edge from switch block. */ |
999 preheader->frequency += iter_freq; | |
1000 preheader->count += iter_count; | |
0 | 1001 branch_code = compare_and_jump_seq (copy_rtx (niter), GEN_INT (j), EQ, |
1002 block_label (preheader), p, | |
111 | 1003 NULL); |
0 | 1004 |
1005 /* We rely on the fact that the compare and jump cannot be optimized out, | |
1006 and hence the cfg we create is correct. */ | |
1007 gcc_assert (branch_code != NULL_RTX); | |
1008 | |
1009 swtch = split_edge_and_insert (single_pred_edge (swtch), branch_code); | |
1010 set_immediate_dominator (CDI_DOMINATORS, preheader, swtch); | |
111 | 1011 single_succ_edge (swtch)->probability = p.invert (); |
1012 new_freq += iter_freq; | |
1013 new_count += iter_count; | |
1014 swtch->frequency = new_freq; | |
1015 swtch->count = new_count; | |
0 | 1016 e = make_edge (swtch, preheader, |
1017 single_succ_edge (swtch)->flags & EDGE_IRREDUCIBLE_LOOP); | |
1018 e->probability = p; | |
1019 } | |
1020 | |
1021 if (extra_zero_check) | |
1022 { | |
1023 /* Add branch for zero iterations. */ | |
111 | 1024 p = profile_probability::always ().apply_scale (1, max_unroll + 1); |
0 | 1025 swtch = ezc_swtch; |
1026 preheader = split_edge (loop_preheader_edge (loop)); | |
111 | 1027 /* Recompute frequency/count adjustments since initial peel copy may |
1028 have exited and reduced those values that were computed above. */ | |
1029 iter_freq = swtch->frequency / (max_unroll + 1); | |
1030 iter_count = swtch->count.apply_scale (1, max_unroll + 1); | |
1031 /* Add in frequency/count of edge from switch block. */ | |
1032 preheader->frequency += iter_freq; | |
1033 preheader->count += iter_count; | |
0 | 1034 branch_code = compare_and_jump_seq (copy_rtx (niter), const0_rtx, EQ, |
1035 block_label (preheader), p, | |
111 | 1036 NULL); |
0 | 1037 gcc_assert (branch_code != NULL_RTX); |
1038 | |
1039 swtch = split_edge_and_insert (single_succ_edge (swtch), branch_code); | |
1040 set_immediate_dominator (CDI_DOMINATORS, preheader, swtch); | |
111 | 1041 single_succ_edge (swtch)->probability = p.invert (); |
0 | 1042 e = make_edge (swtch, preheader, |
1043 single_succ_edge (swtch)->flags & EDGE_IRREDUCIBLE_LOOP); | |
1044 e->probability = p; | |
1045 } | |
1046 | |
1047 /* Recount dominators for outer blocks. */ | |
1048 iterate_fix_dominators (CDI_DOMINATORS, dom_bbs, false); | |
1049 | |
1050 /* And unroll loop. */ | |
1051 | |
111 | 1052 bitmap_ones (wont_exit); |
1053 bitmap_clear_bit (wont_exit, may_exit_copy); | |
0 | 1054 opt_info_start_duplication (opt_info); |
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1055 |
0 | 1056 ok = duplicate_loop_to_header_edge (loop, loop_latch_edge (loop), |
1057 max_unroll, | |
1058 wont_exit, desc->out_edge, | |
1059 &remove_edges, | |
1060 DLTHE_FLAG_UPDATE_FREQ | |
1061 | (opt_info | |
1062 ? DLTHE_RECORD_COPY_NUMBER | |
1063 : 0)); | |
1064 gcc_assert (ok); | |
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1065 |
0 | 1066 if (opt_info) |
1067 { | |
1068 apply_opt_in_copies (opt_info, max_unroll, true, true); | |
1069 free_opt_info (opt_info); | |
1070 } | |
1071 | |
1072 if (exit_at_end) | |
1073 { | |
1074 basic_block exit_block = get_bb_copy (desc->in_edge->src); | |
1075 /* Find a new in and out edge; they are in the last copy we have | |
1076 made. */ | |
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1077 |
0 | 1078 if (EDGE_SUCC (exit_block, 0)->dest == desc->out_edge->dest) |
1079 { | |
1080 desc->out_edge = EDGE_SUCC (exit_block, 0); | |
1081 desc->in_edge = EDGE_SUCC (exit_block, 1); | |
1082 } | |
1083 else | |
1084 { | |
1085 desc->out_edge = EDGE_SUCC (exit_block, 1); | |
1086 desc->in_edge = EDGE_SUCC (exit_block, 0); | |
1087 } | |
1088 } | |
1089 | |
1090 /* Remove the edges. */ | |
111 | 1091 FOR_EACH_VEC_ELT (remove_edges, i, e) |
0 | 1092 remove_path (e); |
1093 | |
1094 /* We must be careful when updating the number of iterations due to | |
1095 preconditioning and the fact that the value must be valid at entry | |
1096 of the loop. After passing through the above code, we see that | |
1097 the correct new number of iterations is this: */ | |
1098 gcc_assert (!desc->const_iter); | |
1099 desc->niter_expr = | |
1100 simplify_gen_binary (UDIV, desc->mode, old_niter, | |
111 | 1101 gen_int_mode (max_unroll + 1, desc->mode)); |
1102 loop->nb_iterations_upper_bound | |
1103 = wi::udiv_trunc (loop->nb_iterations_upper_bound, max_unroll + 1); | |
1104 if (loop->any_estimate) | |
1105 loop->nb_iterations_estimate | |
1106 = wi::udiv_trunc (loop->nb_iterations_estimate, max_unroll + 1); | |
1107 if (loop->any_likely_upper_bound) | |
1108 loop->nb_iterations_likely_upper_bound | |
1109 = wi::udiv_trunc (loop->nb_iterations_likely_upper_bound, max_unroll + 1); | |
0 | 1110 if (exit_at_end) |
1111 { | |
1112 desc->niter_expr = | |
1113 simplify_gen_binary (MINUS, desc->mode, desc->niter_expr, const1_rtx); | |
1114 desc->noloop_assumptions = NULL_RTX; | |
111 | 1115 --loop->nb_iterations_upper_bound; |
1116 if (loop->any_estimate | |
1117 && loop->nb_iterations_estimate != 0) | |
1118 --loop->nb_iterations_estimate; | |
1119 else | |
1120 loop->any_estimate = false; | |
1121 if (loop->any_likely_upper_bound | |
1122 && loop->nb_iterations_likely_upper_bound != 0) | |
1123 --loop->nb_iterations_likely_upper_bound; | |
1124 else | |
1125 loop->any_likely_upper_bound = false; | |
0 | 1126 } |
1127 | |
1128 if (dump_file) | |
1129 fprintf (dump_file, | |
1130 ";; Unrolled loop %d times, counting # of iterations " | |
1131 "in runtime, %i insns\n", | |
1132 max_unroll, num_loop_insns (loop)); | |
1133 } | |
1134 | |
1135 /* Decide whether to unroll LOOP stupidly and how much. */ | |
1136 static void | |
1137 decide_unroll_stupid (struct loop *loop, int flags) | |
1138 { | |
1139 unsigned nunroll, nunroll_by_av, i; | |
1140 struct niter_desc *desc; | |
111 | 1141 widest_int iterations; |
0 | 1142 |
1143 if (!(flags & UAP_UNROLL_ALL)) | |
1144 { | |
1145 /* We were not asked to, just return back silently. */ | |
1146 return; | |
1147 } | |
1148 | |
1149 if (dump_file) | |
1150 fprintf (dump_file, "\n;; Considering unrolling loop stupidly\n"); | |
1151 | |
1152 /* nunroll = total number of copies of the original loop body in | |
1153 unrolled loop (i.e. if it is 2, we have to duplicate loop body once. */ | |
1154 nunroll = PARAM_VALUE (PARAM_MAX_UNROLLED_INSNS) / loop->ninsns; | |
1155 nunroll_by_av | |
1156 = PARAM_VALUE (PARAM_MAX_AVERAGE_UNROLLED_INSNS) / loop->av_ninsns; | |
1157 if (nunroll > nunroll_by_av) | |
1158 nunroll = nunroll_by_av; | |
1159 if (nunroll > (unsigned) PARAM_VALUE (PARAM_MAX_UNROLL_TIMES)) | |
1160 nunroll = PARAM_VALUE (PARAM_MAX_UNROLL_TIMES); | |
1161 | |
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1162 if (targetm.loop_unroll_adjust) |
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1163 nunroll = targetm.loop_unroll_adjust (nunroll, loop); |
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1164 |
0 | 1165 /* Skip big loops. */ |
1166 if (nunroll <= 1) | |
1167 { | |
1168 if (dump_file) | |
1169 fprintf (dump_file, ";; Not considering loop, is too big\n"); | |
1170 return; | |
1171 } | |
1172 | |
1173 /* Check for simple loops. */ | |
1174 desc = get_simple_loop_desc (loop); | |
1175 | |
1176 /* Check simpleness. */ | |
1177 if (desc->simple_p && !desc->assumptions) | |
1178 { | |
1179 if (dump_file) | |
1180 fprintf (dump_file, ";; The loop is simple\n"); | |
1181 return; | |
1182 } | |
1183 | |
1184 /* Do not unroll loops with branches inside -- it increases number | |
111 | 1185 of mispredicts. |
1186 TODO: this heuristic needs tunning; call inside the loop body | |
1187 is also relatively good reason to not unroll. */ | |
0 | 1188 if (num_loop_branches (loop) > 1) |
1189 { | |
1190 if (dump_file) | |
1191 fprintf (dump_file, ";; Not unrolling, contains branches\n"); | |
1192 return; | |
1193 } | |
1194 | |
111 | 1195 /* Check whether the loop rolls. */ |
1196 if ((get_estimated_loop_iterations (loop, &iterations) | |
1197 || get_likely_max_loop_iterations (loop, &iterations)) | |
1198 && wi::ltu_p (iterations, 2 * nunroll)) | |
0 | 1199 { |
1200 if (dump_file) | |
1201 fprintf (dump_file, ";; Not unrolling loop, doesn't roll\n"); | |
1202 return; | |
1203 } | |
1204 | |
1205 /* Success. Now force nunroll to be power of 2, as it seems that this | |
1206 improves results (partially because of better alignments, partially | |
1207 because of some dark magic). */ | |
1208 for (i = 1; 2 * i <= nunroll; i *= 2) | |
1209 continue; | |
1210 | |
1211 loop->lpt_decision.decision = LPT_UNROLL_STUPID; | |
1212 loop->lpt_decision.times = i - 1; | |
1213 } | |
1214 | |
111 | 1215 /* Unroll a LOOP LOOP->LPT_DECISION.TIMES times. The transformation does this: |
1216 | |
0 | 1217 while (cond) |
1218 body; | |
1219 | |
111 | 1220 ==> (LOOP->LPT_DECISION.TIMES == 3) |
0 | 1221 |
1222 while (cond) | |
1223 { | |
1224 body; | |
1225 if (!cond) break; | |
1226 body; | |
1227 if (!cond) break; | |
1228 body; | |
1229 if (!cond) break; | |
1230 body; | |
1231 } | |
1232 */ | |
1233 static void | |
1234 unroll_loop_stupid (struct loop *loop) | |
1235 { | |
1236 unsigned nunroll = loop->lpt_decision.times; | |
1237 struct niter_desc *desc = get_simple_loop_desc (loop); | |
1238 struct opt_info *opt_info = NULL; | |
1239 bool ok; | |
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1240 |
0 | 1241 if (flag_split_ivs_in_unroller |
1242 || flag_variable_expansion_in_unroller) | |
1243 opt_info = analyze_insns_in_loop (loop); | |
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1244 |
111 | 1245 auto_sbitmap wont_exit (nunroll + 1); |
1246 bitmap_clear (wont_exit); | |
0 | 1247 opt_info_start_duplication (opt_info); |
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1248 |
0 | 1249 ok = duplicate_loop_to_header_edge (loop, loop_latch_edge (loop), |
1250 nunroll, wont_exit, | |
1251 NULL, NULL, | |
1252 DLTHE_FLAG_UPDATE_FREQ | |
1253 | (opt_info | |
1254 ? DLTHE_RECORD_COPY_NUMBER | |
1255 : 0)); | |
1256 gcc_assert (ok); | |
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1257 |
0 | 1258 if (opt_info) |
1259 { | |
1260 apply_opt_in_copies (opt_info, nunroll, true, true); | |
1261 free_opt_info (opt_info); | |
1262 } | |
1263 | |
1264 if (desc->simple_p) | |
1265 { | |
1266 /* We indeed may get here provided that there are nontrivial assumptions | |
1267 for a loop to be really simple. We could update the counts, but the | |
1268 problem is that we are unable to decide which exit will be taken | |
1269 (not really true in case the number of iterations is constant, | |
111 | 1270 but no one will do anything with this information, so we do not |
0 | 1271 worry about it). */ |
1272 desc->simple_p = false; | |
1273 } | |
1274 | |
1275 if (dump_file) | |
1276 fprintf (dump_file, ";; Unrolled loop %d times, %i insns\n", | |
1277 nunroll, num_loop_insns (loop)); | |
1278 } | |
1279 | |
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1280 /* Returns true if REG is referenced in one nondebug insn in LOOP. |
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1281 Set *DEBUG_USES to the number of debug insns that reference the |
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1282 variable. */ |
0 | 1283 |
111 | 1284 static bool |
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1285 referenced_in_one_insn_in_loop_p (struct loop *loop, rtx reg, |
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1286 int *debug_uses) |
0 | 1287 { |
1288 basic_block *body, bb; | |
1289 unsigned i; | |
1290 int count_ref = 0; | |
111 | 1291 rtx_insn *insn; |
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1292 |
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1293 body = get_loop_body (loop); |
0 | 1294 for (i = 0; i < loop->num_nodes; i++) |
1295 { | |
1296 bb = body[i]; | |
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1297 |
0 | 1298 FOR_BB_INSNS (bb, insn) |
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1299 if (!rtx_referenced_p (reg, insn)) |
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1300 continue; |
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1301 else if (DEBUG_INSN_P (insn)) |
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1302 ++*debug_uses; |
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1303 else if (++count_ref > 1) |
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1304 break; |
0 | 1305 } |
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1306 free (body); |
0 | 1307 return (count_ref == 1); |
1308 } | |
1309 | |
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1310 /* Reset the DEBUG_USES debug insns in LOOP that reference REG. */ |
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1311 |
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1312 static void |
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1313 reset_debug_uses_in_loop (struct loop *loop, rtx reg, int debug_uses) |
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1314 { |
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1315 basic_block *body, bb; |
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1316 unsigned i; |
111 | 1317 rtx_insn *insn; |
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1318 |
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1319 body = get_loop_body (loop); |
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1320 for (i = 0; debug_uses && i < loop->num_nodes; i++) |
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1321 { |
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1322 bb = body[i]; |
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1323 |
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1324 FOR_BB_INSNS (bb, insn) |
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1325 if (!DEBUG_INSN_P (insn) || !rtx_referenced_p (reg, insn)) |
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1326 continue; |
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1327 else |
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1328 { |
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1329 validate_change (insn, &INSN_VAR_LOCATION_LOC (insn), |
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1330 gen_rtx_UNKNOWN_VAR_LOC (), 0); |
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1331 if (!--debug_uses) |
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1332 break; |
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1333 } |
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1334 } |
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1335 free (body); |
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1336 } |
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1337 |
0 | 1338 /* Determine whether INSN contains an accumulator |
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1339 which can be expanded into separate copies, |
0 | 1340 one for each copy of the LOOP body. |
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1341 |
0 | 1342 for (i = 0 ; i < n; i++) |
1343 sum += a[i]; | |
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1344 |
0 | 1345 ==> |
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1346 |
0 | 1347 sum += a[i] |
1348 .... | |
1349 i = i+1; | |
1350 sum1 += a[i] | |
1351 .... | |
1352 i = i+1 | |
1353 sum2 += a[i]; | |
1354 .... | |
1355 | |
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1356 Return NULL if INSN contains no opportunity for expansion of accumulator. |
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1357 Otherwise, allocate a VAR_TO_EXPAND structure, fill it with the relevant |
0 | 1358 information and return a pointer to it. |
1359 */ | |
1360 | |
1361 static struct var_to_expand * | |
111 | 1362 analyze_insn_to_expand_var (struct loop *loop, rtx_insn *insn) |
0 | 1363 { |
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1364 rtx set, dest, src; |
0 | 1365 struct var_to_expand *ves; |
1366 unsigned accum_pos; | |
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1367 enum rtx_code code; |
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1368 int debug_uses = 0; |
0 | 1369 |
1370 set = single_set (insn); | |
1371 if (!set) | |
1372 return NULL; | |
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1373 |
0 | 1374 dest = SET_DEST (set); |
1375 src = SET_SRC (set); | |
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1376 code = GET_CODE (src); |
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1377 |
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1378 if (code != PLUS && code != MINUS && code != MULT && code != FMA) |
0 | 1379 return NULL; |
1380 | |
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1381 if (FLOAT_MODE_P (GET_MODE (dest))) |
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1382 { |
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1383 if (!flag_associative_math) |
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1384 return NULL; |
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1385 /* In the case of FMA, we're also changing the rounding. */ |
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1386 if (code == FMA && !flag_unsafe_math_optimizations) |
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1387 return NULL; |
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1388 } |
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1389 |
0 | 1390 /* Hmm, this is a bit paradoxical. We know that INSN is a valid insn |
1391 in MD. But if there is no optab to generate the insn, we can not | |
1392 perform the variable expansion. This can happen if an MD provides | |
1393 an insn but not a named pattern to generate it, for example to avoid | |
1394 producing code that needs additional mode switches like for x87/mmx. | |
1395 | |
1396 So we check have_insn_for which looks for an optab for the operation | |
1397 in SRC. If it doesn't exist, we can't perform the expansion even | |
1398 though INSN is valid. */ | |
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1399 if (!have_insn_for (code, GET_MODE (src))) |
0 | 1400 return NULL; |
1401 | |
1402 if (!REG_P (dest) | |
1403 && !(GET_CODE (dest) == SUBREG | |
1404 && REG_P (SUBREG_REG (dest)))) | |
1405 return NULL; | |
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1406 |
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1407 /* Find the accumulator use within the operation. */ |
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1408 if (code == FMA) |
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1409 { |
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1410 /* We only support accumulation via FMA in the ADD position. */ |
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1411 if (!rtx_equal_p (dest, XEXP (src, 2))) |
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1412 return NULL; |
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1413 accum_pos = 2; |
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1414 } |
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1415 else if (rtx_equal_p (dest, XEXP (src, 0))) |
0 | 1416 accum_pos = 0; |
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1417 else if (rtx_equal_p (dest, XEXP (src, 1))) |
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1418 { |
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1419 /* The method of expansion that we are using; which includes the |
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1420 initialization of the expansions with zero and the summation of |
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1421 the expansions at the end of the computation will yield wrong |
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1422 results for (x = something - x) thus avoid using it in that case. */ |
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1423 if (code == MINUS) |
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1424 return NULL; |
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1425 accum_pos = 1; |
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1426 } |
0 | 1427 else |
1428 return NULL; | |
1429 | |
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1430 /* It must not otherwise be used. */ |
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1431 if (code == FMA) |
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1432 { |
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1433 if (rtx_referenced_p (dest, XEXP (src, 0)) |
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1434 || rtx_referenced_p (dest, XEXP (src, 1))) |
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1435 return NULL; |
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1436 } |
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1437 else if (rtx_referenced_p (dest, XEXP (src, 1 - accum_pos))) |
0 | 1438 return NULL; |
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1439 |
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1440 /* It must be used in exactly one insn. */ |
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1441 if (!referenced_in_one_insn_in_loop_p (loop, dest, &debug_uses)) |
0 | 1442 return NULL; |
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1443 |
0 | 1444 if (dump_file) |
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1445 { |
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1446 fprintf (dump_file, "\n;; Expanding Accumulator "); |
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1447 print_rtl (dump_file, dest); |
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1448 fprintf (dump_file, "\n"); |
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1449 } |
0 | 1450 |
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1451 if (debug_uses) |
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1452 /* Instead of resetting the debug insns, we could replace each |
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1453 debug use in the loop with the sum or product of all expanded |
111 | 1454 accumulators. Since we'll only know of all expansions at the |
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1455 end, we'd have to keep track of which vars_to_expand a debug |
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1456 insn in the loop references, take note of each copy of the |
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1457 debug insn during unrolling, and when it's all done, compute |
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1458 the sum or product of each variable and adjust the original |
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1459 debug insn and each copy thereof. What a pain! */ |
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1460 reset_debug_uses_in_loop (loop, dest, debug_uses); |
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1461 |
0 | 1462 /* Record the accumulator to expand. */ |
1463 ves = XNEW (struct var_to_expand); | |
1464 ves->insn = insn; | |
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1465 ves->reg = copy_rtx (dest); |
111 | 1466 ves->var_expansions.create (1); |
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1467 ves->next = NULL; |
0 | 1468 ves->op = GET_CODE (src); |
1469 ves->expansion_count = 0; | |
1470 ves->reuse_expansion = 0; | |
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1471 return ves; |
0 | 1472 } |
1473 | |
1474 /* Determine whether there is an induction variable in INSN that | |
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1475 we would like to split during unrolling. |
0 | 1476 |
1477 I.e. replace | |
1478 | |
1479 i = i + 1; | |
1480 ... | |
1481 i = i + 1; | |
1482 ... | |
1483 i = i + 1; | |
1484 ... | |
1485 | |
1486 type chains by | |
1487 | |
1488 i0 = i + 1 | |
1489 ... | |
1490 i = i0 + 1 | |
1491 ... | |
1492 i = i0 + 2 | |
1493 ... | |
1494 | |
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1495 Return NULL if INSN contains no interesting IVs. Otherwise, allocate |
0 | 1496 an IV_TO_SPLIT structure, fill it with the relevant information and return a |
1497 pointer to it. */ | |
1498 | |
1499 static struct iv_to_split * | |
111 | 1500 analyze_iv_to_split_insn (rtx_insn *insn) |
0 | 1501 { |
1502 rtx set, dest; | |
1503 struct rtx_iv iv; | |
1504 struct iv_to_split *ivts; | |
111 | 1505 scalar_int_mode mode; |
0 | 1506 bool ok; |
1507 | |
1508 /* For now we just split the basic induction variables. Later this may be | |
1509 extended for example by selecting also addresses of memory references. */ | |
1510 set = single_set (insn); | |
1511 if (!set) | |
1512 return NULL; | |
1513 | |
1514 dest = SET_DEST (set); | |
111 | 1515 if (!REG_P (dest) || !is_a <scalar_int_mode> (GET_MODE (dest), &mode)) |
0 | 1516 return NULL; |
1517 | |
111 | 1518 if (!biv_p (insn, mode, dest)) |
0 | 1519 return NULL; |
1520 | |
1521 ok = iv_analyze_result (insn, dest, &iv); | |
1522 | |
1523 /* This used to be an assert under the assumption that if biv_p returns | |
1524 true that iv_analyze_result must also return true. However, that | |
1525 assumption is not strictly correct as evidenced by pr25569. | |
1526 | |
1527 Returning NULL when iv_analyze_result returns false is safe and | |
1528 avoids the problems in pr25569 until the iv_analyze_* routines | |
1529 can be fixed, which is apparently hard and time consuming | |
1530 according to their author. */ | |
1531 if (! ok) | |
1532 return NULL; | |
1533 | |
1534 if (iv.step == const0_rtx | |
1535 || iv.mode != iv.extend_mode) | |
1536 return NULL; | |
1537 | |
1538 /* Record the insn to split. */ | |
1539 ivts = XNEW (struct iv_to_split); | |
1540 ivts->insn = insn; | |
111 | 1541 ivts->orig_var = dest; |
0 | 1542 ivts->base_var = NULL_RTX; |
1543 ivts->step = iv.step; | |
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1544 ivts->next = NULL; |
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|
1545 |
0 | 1546 return ivts; |
1547 } | |
1548 | |
1549 /* Determines which of insns in LOOP can be optimized. | |
1550 Return a OPT_INFO struct with the relevant hash tables filled | |
1551 with all insns to be optimized. The FIRST_NEW_BLOCK field | |
1552 is undefined for the return value. */ | |
1553 | |
1554 static struct opt_info * | |
1555 analyze_insns_in_loop (struct loop *loop) | |
1556 { | |
1557 basic_block *body, bb; | |
1558 unsigned i; | |
1559 struct opt_info *opt_info = XCNEW (struct opt_info); | |
111 | 1560 rtx_insn *insn; |
0 | 1561 struct iv_to_split *ivts = NULL; |
1562 struct var_to_expand *ves = NULL; | |
111 | 1563 iv_to_split **slot1; |
1564 var_to_expand **slot2; | |
1565 vec<edge> edges = get_loop_exit_edges (loop); | |
0 | 1566 edge exit; |
1567 bool can_apply = false; | |
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1568 |
0 | 1569 iv_analysis_loop_init (loop); |
1570 | |
1571 body = get_loop_body (loop); | |
1572 | |
1573 if (flag_split_ivs_in_unroller) | |
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1574 { |
111 | 1575 opt_info->insns_to_split |
1576 = new hash_table<iv_split_hasher> (5 * loop->num_nodes); | |
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1577 opt_info->iv_to_split_head = NULL; |
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1578 opt_info->iv_to_split_tail = &opt_info->iv_to_split_head; |
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1579 } |
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1580 |
0 | 1581 /* Record the loop exit bb and loop preheader before the unrolling. */ |
1582 opt_info->loop_preheader = loop_preheader_edge (loop)->src; | |
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1583 |
111 | 1584 if (edges.length () == 1) |
0 | 1585 { |
111 | 1586 exit = edges[0]; |
0 | 1587 if (!(exit->flags & EDGE_COMPLEX)) |
1588 { | |
1589 opt_info->loop_exit = split_edge (exit); | |
1590 can_apply = true; | |
1591 } | |
1592 } | |
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1593 |
0 | 1594 if (flag_variable_expansion_in_unroller |
1595 && can_apply) | |
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1596 { |
111 | 1597 opt_info->insns_with_var_to_expand |
1598 = new hash_table<var_expand_hasher> (5 * loop->num_nodes); | |
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1599 opt_info->var_to_expand_head = NULL; |
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1600 opt_info->var_to_expand_tail = &opt_info->var_to_expand_head; |
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1601 } |
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1602 |
0 | 1603 for (i = 0; i < loop->num_nodes; i++) |
1604 { | |
1605 bb = body[i]; | |
1606 if (!dominated_by_p (CDI_DOMINATORS, loop->latch, bb)) | |
1607 continue; | |
1608 | |
1609 FOR_BB_INSNS (bb, insn) | |
1610 { | |
1611 if (!INSN_P (insn)) | |
1612 continue; | |
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1613 |
0 | 1614 if (opt_info->insns_to_split) |
1615 ivts = analyze_iv_to_split_insn (insn); | |
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1616 |
0 | 1617 if (ivts) |
1618 { | |
111 | 1619 slot1 = opt_info->insns_to_split->find_slot (ivts, INSERT); |
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1620 gcc_assert (*slot1 == NULL); |
0 | 1621 *slot1 = ivts; |
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1622 *opt_info->iv_to_split_tail = ivts; |
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1623 opt_info->iv_to_split_tail = &ivts->next; |
0 | 1624 continue; |
1625 } | |
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1626 |
0 | 1627 if (opt_info->insns_with_var_to_expand) |
1628 ves = analyze_insn_to_expand_var (loop, insn); | |
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1629 |
0 | 1630 if (ves) |
1631 { | |
111 | 1632 slot2 = opt_info->insns_with_var_to_expand->find_slot (ves, INSERT); |
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1633 gcc_assert (*slot2 == NULL); |
0 | 1634 *slot2 = ves; |
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1635 *opt_info->var_to_expand_tail = ves; |
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1636 opt_info->var_to_expand_tail = &ves->next; |
0 | 1637 } |
1638 } | |
1639 } | |
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1640 |
111 | 1641 edges.release (); |
0 | 1642 free (body); |
1643 return opt_info; | |
1644 } | |
1645 | |
1646 /* Called just before loop duplication. Records start of duplicated area | |
1647 to OPT_INFO. */ | |
1648 | |
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1649 static void |
0 | 1650 opt_info_start_duplication (struct opt_info *opt_info) |
1651 { | |
1652 if (opt_info) | |
111 | 1653 opt_info->first_new_block = last_basic_block_for_fn (cfun); |
0 | 1654 } |
1655 | |
1656 /* Determine the number of iterations between initialization of the base | |
1657 variable and the current copy (N_COPY). N_COPIES is the total number | |
1658 of newly created copies. UNROLLING is true if we are unrolling | |
1659 (not peeling) the loop. */ | |
1660 | |
1661 static unsigned | |
1662 determine_split_iv_delta (unsigned n_copy, unsigned n_copies, bool unrolling) | |
1663 { | |
1664 if (unrolling) | |
1665 { | |
1666 /* If we are unrolling, initialization is done in the original loop | |
1667 body (number 0). */ | |
1668 return n_copy; | |
1669 } | |
1670 else | |
1671 { | |
1672 /* If we are peeling, the copy in that the initialization occurs has | |
1673 number 1. The original loop (number 0) is the last. */ | |
1674 if (n_copy) | |
1675 return n_copy - 1; | |
1676 else | |
1677 return n_copies; | |
1678 } | |
1679 } | |
1680 | |
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1681 /* Allocate basic variable for the induction variable chain. */ |
0 | 1682 |
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1683 static void |
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1684 allocate_basic_variable (struct iv_to_split *ivts) |
0 | 1685 { |
111 | 1686 rtx expr = SET_SRC (single_set (ivts->insn)); |
0 | 1687 |
1688 ivts->base_var = gen_reg_rtx (GET_MODE (expr)); | |
1689 } | |
1690 | |
1691 /* Insert initialization of basic variable of IVTS before INSN, taking | |
1692 the initial value from INSN. */ | |
1693 | |
1694 static void | |
111 | 1695 insert_base_initialization (struct iv_to_split *ivts, rtx_insn *insn) |
0 | 1696 { |
111 | 1697 rtx expr = copy_rtx (SET_SRC (single_set (insn))); |
1698 rtx_insn *seq; | |
0 | 1699 |
1700 start_sequence (); | |
1701 expr = force_operand (expr, ivts->base_var); | |
1702 if (expr != ivts->base_var) | |
1703 emit_move_insn (ivts->base_var, expr); | |
1704 seq = get_insns (); | |
1705 end_sequence (); | |
1706 | |
1707 emit_insn_before (seq, insn); | |
1708 } | |
1709 | |
1710 /* Replace the use of induction variable described in IVTS in INSN | |
1711 by base variable + DELTA * step. */ | |
1712 | |
1713 static void | |
111 | 1714 split_iv (struct iv_to_split *ivts, rtx_insn *insn, unsigned delta) |
0 | 1715 { |
111 | 1716 rtx expr, *loc, incr, var; |
1717 rtx_insn *seq; | |
1718 machine_mode mode = GET_MODE (ivts->base_var); | |
0 | 1719 rtx src, dest, set; |
1720 | |
1721 /* Construct base + DELTA * step. */ | |
1722 if (!delta) | |
1723 expr = ivts->base_var; | |
1724 else | |
1725 { | |
1726 incr = simplify_gen_binary (MULT, mode, | |
111 | 1727 copy_rtx (ivts->step), |
1728 gen_int_mode (delta, mode)); | |
0 | 1729 expr = simplify_gen_binary (PLUS, GET_MODE (ivts->base_var), |
1730 ivts->base_var, incr); | |
1731 } | |
1732 | |
1733 /* Figure out where to do the replacement. */ | |
111 | 1734 loc = &SET_SRC (single_set (insn)); |
0 | 1735 |
1736 /* If we can make the replacement right away, we're done. */ | |
1737 if (validate_change (insn, loc, expr, 0)) | |
1738 return; | |
1739 | |
1740 /* Otherwise, force EXPR into a register and try again. */ | |
1741 start_sequence (); | |
1742 var = gen_reg_rtx (mode); | |
1743 expr = force_operand (expr, var); | |
1744 if (expr != var) | |
1745 emit_move_insn (var, expr); | |
1746 seq = get_insns (); | |
1747 end_sequence (); | |
1748 emit_insn_before (seq, insn); | |
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1749 |
0 | 1750 if (validate_change (insn, loc, var, 0)) |
1751 return; | |
1752 | |
1753 /* The last chance. Try recreating the assignment in insn | |
1754 completely from scratch. */ | |
1755 set = single_set (insn); | |
1756 gcc_assert (set); | |
1757 | |
1758 start_sequence (); | |
1759 *loc = var; | |
1760 src = copy_rtx (SET_SRC (set)); | |
1761 dest = copy_rtx (SET_DEST (set)); | |
1762 src = force_operand (src, dest); | |
1763 if (src != dest) | |
1764 emit_move_insn (dest, src); | |
1765 seq = get_insns (); | |
1766 end_sequence (); | |
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1767 |
0 | 1768 emit_insn_before (seq, insn); |
1769 delete_insn (insn); | |
1770 } | |
1771 | |
1772 | |
1773 /* Return one expansion of the accumulator recorded in struct VE. */ | |
1774 | |
1775 static rtx | |
1776 get_expansion (struct var_to_expand *ve) | |
1777 { | |
1778 rtx reg; | |
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1779 |
0 | 1780 if (ve->reuse_expansion == 0) |
1781 reg = ve->reg; | |
1782 else | |
111 | 1783 reg = ve->var_expansions[ve->reuse_expansion - 1]; |
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1784 |
111 | 1785 if (ve->var_expansions.length () == (unsigned) ve->reuse_expansion) |
0 | 1786 ve->reuse_expansion = 0; |
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1787 else |
0 | 1788 ve->reuse_expansion++; |
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1789 |
0 | 1790 return reg; |
1791 } | |
1792 | |
1793 | |
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1794 /* Given INSN replace the uses of the accumulator recorded in VE |
0 | 1795 with a new register. */ |
1796 | |
1797 static void | |
111 | 1798 expand_var_during_unrolling (struct var_to_expand *ve, rtx_insn *insn) |
0 | 1799 { |
1800 rtx new_reg, set; | |
1801 bool really_new_expansion = false; | |
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1802 |
0 | 1803 set = single_set (insn); |
1804 gcc_assert (set); | |
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1805 |
0 | 1806 /* Generate a new register only if the expansion limit has not been |
1807 reached. Else reuse an already existing expansion. */ | |
1808 if (PARAM_VALUE (PARAM_MAX_VARIABLE_EXPANSIONS) > ve->expansion_count) | |
1809 { | |
1810 really_new_expansion = true; | |
1811 new_reg = gen_reg_rtx (GET_MODE (ve->reg)); | |
1812 } | |
1813 else | |
1814 new_reg = get_expansion (ve); | |
1815 | |
111 | 1816 validate_replace_rtx_group (SET_DEST (set), new_reg, insn); |
0 | 1817 if (apply_change_group ()) |
1818 if (really_new_expansion) | |
1819 { | |
111 | 1820 ve->var_expansions.safe_push (new_reg); |
0 | 1821 ve->expansion_count++; |
1822 } | |
1823 } | |
1824 | |
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1825 /* Initialize the variable expansions in loop preheader. PLACE is the |
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1826 loop-preheader basic block where the initialization of the |
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1827 expansions should take place. The expansions are initialized with |
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1828 (-0) when the operation is plus or minus to honor sign zero. This |
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1829 way we can prevent cases where the sign of the final result is |
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1830 effected by the sign of the expansion. Here is an example to |
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1831 demonstrate this: |
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1832 |
0 | 1833 for (i = 0 ; i < n; i++) |
1834 sum += something; | |
1835 | |
1836 ==> | |
1837 | |
1838 sum += something | |
1839 .... | |
1840 i = i+1; | |
1841 sum1 += something | |
1842 .... | |
1843 i = i+1 | |
1844 sum2 += something; | |
1845 .... | |
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1846 |
0 | 1847 When SUM is initialized with -zero and SOMETHING is also -zero; the |
1848 final result of sum should be -zero thus the expansions sum1 and sum2 | |
1849 should be initialized with -zero as well (otherwise we will get +zero | |
1850 as the final result). */ | |
1851 | |
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1852 static void |
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1853 insert_var_expansion_initialization (struct var_to_expand *ve, |
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1854 basic_block place) |
0 | 1855 { |
111 | 1856 rtx_insn *seq; |
1857 rtx var, zero_init; | |
0 | 1858 unsigned i; |
111 | 1859 machine_mode mode = GET_MODE (ve->reg); |
0 | 1860 bool honor_signed_zero_p = HONOR_SIGNED_ZEROS (mode); |
1861 | |
111 | 1862 if (ve->var_expansions.length () == 0) |
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1863 return; |
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1864 |
0 | 1865 start_sequence (); |
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1866 switch (ve->op) |
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1867 { |
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1868 case FMA: |
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1869 /* Note that we only accumulate FMA via the ADD operand. */ |
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1870 case PLUS: |
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1871 case MINUS: |
111 | 1872 FOR_EACH_VEC_ELT (ve->var_expansions, i, var) |
67
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1873 { |
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1874 if (honor_signed_zero_p) |
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1875 zero_init = simplify_gen_unary (NEG, mode, CONST0_RTX (mode), mode); |
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1876 else |
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1877 zero_init = CONST0_RTX (mode); |
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1878 emit_move_insn (var, zero_init); |
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1879 } |
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1880 break; |
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1881 |
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1882 case MULT: |
111 | 1883 FOR_EACH_VEC_ELT (ve->var_expansions, i, var) |
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1884 { |
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1885 zero_init = CONST1_RTX (GET_MODE (var)); |
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1886 emit_move_insn (var, zero_init); |
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1887 } |
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1888 break; |
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1889 |
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1890 default: |
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1891 gcc_unreachable (); |
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1892 } |
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1893 |
0 | 1894 seq = get_insns (); |
1895 end_sequence (); | |
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1896 |
111 | 1897 emit_insn_after (seq, BB_END (place)); |
0 | 1898 } |
1899 | |
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1900 /* Combine the variable expansions at the loop exit. PLACE is the |
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1901 loop exit basic block where the summation of the expansions should |
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1902 take place. */ |
0 | 1903 |
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1904 static void |
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1905 combine_var_copies_in_loop_exit (struct var_to_expand *ve, basic_block place) |
0 | 1906 { |
1907 rtx sum = ve->reg; | |
111 | 1908 rtx expr, var; |
1909 rtx_insn *seq, *insn; | |
0 | 1910 unsigned i; |
1911 | |
111 | 1912 if (ve->var_expansions.length () == 0) |
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1913 return; |
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1914 |
111 | 1915 /* ve->reg might be SUBREG or some other non-shareable RTL, and we use |
1916 it both here and as the destination of the assignment. */ | |
1917 sum = copy_rtx (sum); | |
0 | 1918 start_sequence (); |
67
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1919 switch (ve->op) |
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1920 { |
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1921 case FMA: |
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1922 /* Note that we only accumulate FMA via the ADD operand. */ |
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1923 case PLUS: |
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1924 case MINUS: |
111 | 1925 FOR_EACH_VEC_ELT (ve->var_expansions, i, var) |
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1926 sum = simplify_gen_binary (PLUS, GET_MODE (ve->reg), var, sum); |
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1927 break; |
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1928 |
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1929 case MULT: |
111 | 1930 FOR_EACH_VEC_ELT (ve->var_expansions, i, var) |
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1931 sum = simplify_gen_binary (MULT, GET_MODE (ve->reg), var, sum); |
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1932 break; |
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1933 |
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1934 default: |
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1935 gcc_unreachable (); |
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1936 } |
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1937 |
0 | 1938 expr = force_operand (sum, ve->reg); |
1939 if (expr != ve->reg) | |
1940 emit_move_insn (ve->reg, expr); | |
1941 seq = get_insns (); | |
1942 end_sequence (); | |
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1943 |
0 | 1944 insn = BB_HEAD (place); |
1945 while (!NOTE_INSN_BASIC_BLOCK_P (insn)) | |
1946 insn = NEXT_INSN (insn); | |
1947 | |
1948 emit_insn_after (seq, insn); | |
1949 } | |
1950 | |
111 | 1951 /* Strip away REG_EQUAL notes for IVs we're splitting. |
1952 | |
1953 Updating REG_EQUAL notes for IVs we split is tricky: We | |
1954 cannot tell until after unrolling, DF-rescanning, and liveness | |
1955 updating, whether an EQ_USE is reached by the split IV while | |
1956 the IV reg is still live. See PR55006. | |
1957 | |
1958 ??? We cannot use remove_reg_equal_equiv_notes_for_regno, | |
1959 because RTL loop-iv requires us to defer rescanning insns and | |
1960 any notes attached to them. So resort to old techniques... */ | |
1961 | |
1962 static void | |
1963 maybe_strip_eq_note_for_split_iv (struct opt_info *opt_info, rtx_insn *insn) | |
1964 { | |
1965 struct iv_to_split *ivts; | |
1966 rtx note = find_reg_equal_equiv_note (insn); | |
1967 if (! note) | |
1968 return; | |
1969 for (ivts = opt_info->iv_to_split_head; ivts; ivts = ivts->next) | |
1970 if (reg_mentioned_p (ivts->orig_var, note)) | |
1971 { | |
1972 remove_note (insn, note); | |
1973 return; | |
1974 } | |
1975 } | |
1976 | |
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1977 /* Apply loop optimizations in loop copies using the |
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1978 data which gathered during the unrolling. Structure |
0 | 1979 OPT_INFO record that data. |
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1980 |
0 | 1981 UNROLLING is true if we unrolled (not peeled) the loop. |
1982 REWRITE_ORIGINAL_BODY is true if we should also rewrite the original body of | |
1983 the loop (as it should happen in complete unrolling, but not in ordinary | |
1984 peeling of the loop). */ | |
1985 | |
1986 static void | |
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1987 apply_opt_in_copies (struct opt_info *opt_info, |
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1988 unsigned n_copies, bool unrolling, |
0 | 1989 bool rewrite_original_loop) |
1990 { | |
1991 unsigned i, delta; | |
1992 basic_block bb, orig_bb; | |
111 | 1993 rtx_insn *insn, *orig_insn, *next; |
0 | 1994 struct iv_to_split ivts_templ, *ivts; |
1995 struct var_to_expand ve_templ, *ves; | |
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1996 |
0 | 1997 /* Sanity check -- we need to put initialization in the original loop |
1998 body. */ | |
1999 gcc_assert (!unrolling || rewrite_original_loop); | |
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2000 |
0 | 2001 /* Allocate the basic variables (i0). */ |
2002 if (opt_info->insns_to_split) | |
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2003 for (ivts = opt_info->iv_to_split_head; ivts; ivts = ivts->next) |
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2004 allocate_basic_variable (ivts); |
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2005 |
111 | 2006 for (i = opt_info->first_new_block; |
2007 i < (unsigned) last_basic_block_for_fn (cfun); | |
2008 i++) | |
0 | 2009 { |
111 | 2010 bb = BASIC_BLOCK_FOR_FN (cfun, i); |
0 | 2011 orig_bb = get_bb_original (bb); |
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2012 |
0 | 2013 /* bb->aux holds position in copy sequence initialized by |
2014 duplicate_loop_to_header_edge. */ | |
2015 delta = determine_split_iv_delta ((size_t)bb->aux, n_copies, | |
2016 unrolling); | |
2017 bb->aux = 0; | |
2018 orig_insn = BB_HEAD (orig_bb); | |
111 | 2019 FOR_BB_INSNS_SAFE (bb, insn, next) |
0 | 2020 { |
111 | 2021 if (!INSN_P (insn) |
2022 || (DEBUG_INSN_P (insn) | |
2023 && TREE_CODE (INSN_VAR_LOCATION_DECL (insn)) == LABEL_DECL)) | |
0 | 2024 continue; |
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2025 |
111 | 2026 while (!INSN_P (orig_insn) |
2027 || (DEBUG_INSN_P (orig_insn) | |
2028 && (TREE_CODE (INSN_VAR_LOCATION_DECL (orig_insn)) | |
2029 == LABEL_DECL))) | |
0 | 2030 orig_insn = NEXT_INSN (orig_insn); |
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2031 |
0 | 2032 ivts_templ.insn = orig_insn; |
2033 ve_templ.insn = orig_insn; | |
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2034 |
0 | 2035 /* Apply splitting iv optimization. */ |
2036 if (opt_info->insns_to_split) | |
2037 { | |
111 | 2038 maybe_strip_eq_note_for_split_iv (opt_info, insn); |
2039 | |
2040 ivts = opt_info->insns_to_split->find (&ivts_templ); | |
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2041 |
0 | 2042 if (ivts) |
2043 { | |
2044 gcc_assert (GET_CODE (PATTERN (insn)) | |
2045 == GET_CODE (PATTERN (orig_insn))); | |
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2046 |
0 | 2047 if (!delta) |
2048 insert_base_initialization (ivts, insn); | |
2049 split_iv (ivts, insn, delta); | |
2050 } | |
2051 } | |
2052 /* Apply variable expansion optimization. */ | |
2053 if (unrolling && opt_info->insns_with_var_to_expand) | |
2054 { | |
2055 ves = (struct var_to_expand *) | |
111 | 2056 opt_info->insns_with_var_to_expand->find (&ve_templ); |
0 | 2057 if (ves) |
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2058 { |
0 | 2059 gcc_assert (GET_CODE (PATTERN (insn)) |
2060 == GET_CODE (PATTERN (orig_insn))); | |
2061 expand_var_during_unrolling (ves, insn); | |
2062 } | |
2063 } | |
2064 orig_insn = NEXT_INSN (orig_insn); | |
2065 } | |
2066 } | |
2067 | |
2068 if (!rewrite_original_loop) | |
2069 return; | |
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2070 |
0 | 2071 /* Initialize the variable expansions in the loop preheader |
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2072 and take care of combining them at the loop exit. */ |
0 | 2073 if (opt_info->insns_with_var_to_expand) |
2074 { | |
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2075 for (ves = opt_info->var_to_expand_head; ves; ves = ves->next) |
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2076 insert_var_expansion_initialization (ves, opt_info->loop_preheader); |
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2077 for (ves = opt_info->var_to_expand_head; ves; ves = ves->next) |
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2078 combine_var_copies_in_loop_exit (ves, opt_info->loop_exit); |
0 | 2079 } |
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2080 |
0 | 2081 /* Rewrite also the original loop body. Find them as originals of the blocks |
2082 in the last copied iteration, i.e. those that have | |
2083 get_bb_copy (get_bb_original (bb)) == bb. */ | |
111 | 2084 for (i = opt_info->first_new_block; |
2085 i < (unsigned) last_basic_block_for_fn (cfun); | |
2086 i++) | |
0 | 2087 { |
111 | 2088 bb = BASIC_BLOCK_FOR_FN (cfun, i); |
0 | 2089 orig_bb = get_bb_original (bb); |
2090 if (get_bb_copy (orig_bb) != bb) | |
2091 continue; | |
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2092 |
0 | 2093 delta = determine_split_iv_delta (0, n_copies, unrolling); |
2094 for (orig_insn = BB_HEAD (orig_bb); | |
2095 orig_insn != NEXT_INSN (BB_END (bb)); | |
2096 orig_insn = next) | |
2097 { | |
2098 next = NEXT_INSN (orig_insn); | |
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2099 |
0 | 2100 if (!INSN_P (orig_insn)) |
2101 continue; | |
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2102 |
0 | 2103 ivts_templ.insn = orig_insn; |
2104 if (opt_info->insns_to_split) | |
2105 { | |
111 | 2106 maybe_strip_eq_note_for_split_iv (opt_info, orig_insn); |
2107 | |
0 | 2108 ivts = (struct iv_to_split *) |
111 | 2109 opt_info->insns_to_split->find (&ivts_templ); |
0 | 2110 if (ivts) |
2111 { | |
2112 if (!delta) | |
2113 insert_base_initialization (ivts, orig_insn); | |
2114 split_iv (ivts, orig_insn, delta); | |
2115 continue; | |
2116 } | |
2117 } | |
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2118 |
0 | 2119 } |
2120 } | |
2121 } | |
2122 | |
2123 /* Release OPT_INFO. */ | |
2124 | |
2125 static void | |
2126 free_opt_info (struct opt_info *opt_info) | |
2127 { | |
111 | 2128 delete opt_info->insns_to_split; |
2129 opt_info->insns_to_split = NULL; | |
0 | 2130 if (opt_info->insns_with_var_to_expand) |
2131 { | |
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2132 struct var_to_expand *ves; |
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2133 |
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2134 for (ves = opt_info->var_to_expand_head; ves; ves = ves->next) |
111 | 2135 ves->var_expansions.release (); |
2136 delete opt_info->insns_with_var_to_expand; | |
2137 opt_info->insns_with_var_to_expand = NULL; | |
0 | 2138 } |
2139 free (opt_info); | |
2140 } |