| blob | ecdf28212ba783fee4f1980658cef6dbe2575b2c |
1 /* Instruction scheduling pass. This file computes dependencies between
2 instructions.
3 Copyright (C) 1992, 1993, 1994, 1995, 1996, 1997, 1998,
4 1999, 2000 Free Software Foundation, Inc.
5 Contributed by Michael Tiemann (tiemann@cygnus.com) Enhanced by,
6 and currently maintained by, Jim Wilson (wilson@cygnus.com)
8 This file is part of GNU CC.
10 GNU CC is free software; you can redistribute it and/or modify it
11 under the terms of the GNU General Public License as published by the
12 Free Software Foundation; either version 2, or (at your option) any
13 later version.
15 GNU CC is distributed in the hope that it will be useful, but WITHOUT
16 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
17 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
18 for more details.
20 You should have received a copy of the GNU General Public License
21 along with GNU CC; see the file COPYING. If not, write to the Free
22 the Free Software Foundation, 59 Temple Place - Suite 330, Boston, MA
23 02111-1307, USA. */
24 \f
52 /* To speed up the test for duplicate dependency links we keep a
53 record of dependencies created by add_dependence when the average
54 number of instructions in a basic block is very large.
56 Studies have shown that there is typically around 5 instructions between
57 branches for typical C code. So we can make a guess that the average
58 basic block is approximately 5 instructions long; we will choose 100X
59 the average size as a very large basic block.
61 Each insn has associated bitmaps for its dependencies. Each bitmap
62 has enough entries to represent a dependency on any other insn in
63 the insn chain. All bitmap for true dependencies cache is
64 allocated then the rest two ones are also allocated. */
69 /* To speed up checking consistency of formed forward insn
70 dependencies we use the following cache. Another possible solution
71 could be switching off checking duplication of insns in forward
72 dependencies. */
73 #ifdef ENABLE_CHECKING
75 #endif
89 \f
90 /* Return nonzero if a load of the memory reference MEM can cause a trap. */
92 static int
94 rtx mem;
95 {
103 }
104 \f
105 /* Return the INSN_LIST containing INSN in LIST, or NULL
106 if LIST does not contain INSN. */
108 HAIFA_INLINE rtx
110 rtx insn;
111 rtx list;
112 {
114 {
118 }
120 }
122 /* Return 1 if the pair (insn, x) is found in (LIST, LIST1), or 0
123 otherwise. */
125 HAIFA_INLINE int
129 {
131 {
137 }
139 }
140 \f
141 /* Find the condition under which INSN is executed. */
143 static rtx
145 rtx insn;
146 {
148 rtx cond;
169 else
171 }
173 /* Return nonzero if conditions COND1 and COND2 can never be both true. */
175 static int
178 {
186 }
187 \f
188 /* Add ELEM wrapped in an INSN_LIST with reg note kind DEP_TYPE to the
189 LOG_LINKS of INSN, if not already there. DEP_TYPE indicates the type
190 of dependence that this link represents. */
192 void
194 rtx insn;
195 rtx elem;
197 {
203 /* Don't depend an insn on itself. */
207 /* We can get a dependency on deleted insns due to optimizations in
208 the register allocation and reloading or due to splitting. Any
209 such dependency is useless and can be ignored. */
213 /* flow.c doesn't handle conditional lifetimes entirely correctly;
214 calls mess up the conditional lifetimes. */
216 {
221 }
223 /* If elem is part of a sequence that must be scheduled together, then
224 make the dependence point to the last insn of the sequence.
225 When HAVE_cc0, it is possible for NOTEs to exist between users and
226 setters of the condition codes, so we must skip past notes here.
227 Otherwise, NOTEs are impossible here. */
231 {
232 /* Notes will never intervene here though, so don't bother checking
233 for them. */
234 /* Hah! Wrong. */
235 /* We must reject CODE_LABELs, so that we don't get confused by one
236 that has LABEL_PRESERVE_P set, which is represented by the same
237 bit in the rtl as SCHED_GROUP_P. A CODE_LABEL can never be
238 SCHED_GROUP_P. */
240 rtx nnext;
246 /* Again, don't depend an insn on itself. */
250 /* Make the dependence to NEXT, the last insn of the group, instead
251 of the original ELEM. */
253 }
256 #ifdef INSN_SCHEDULING
257 /* ??? No good way to tell from here whether we're doing interblock
258 scheduling. Possibly add another callback. */
259 #if 0
260 /* (This code is guarded by INSN_SCHEDULING, otherwise INSN_BB is undefined.)
261 No need for interblock dependences with calls, since
262 calls are not moved between blocks. Note: the edge where
263 elem is a CALL is still required. */
267 #endif
269 /* If we already have a dependency for ELEM, then we do not need to
270 do anything. Avoiding the list walk below can cut compile times
271 dramatically for some code. */
273 {
284 else
288 }
289 #endif
291 /* Check that we don't already have this dependence. */
295 {
296 #ifdef INSN_SCHEDULING
297 /* Clear corresponding cache entry because type of the link
298 may be changed. */
300 {
308 else
310 }
311 #endif
313 /* If this is a more restrictive type of dependence than the existing
314 one, then change the existing dependence to this type. */
318 #ifdef INSN_SCHEDULING
319 /* If we are adding a dependency to INSN's LOG_LINKs, then
320 note that in the bitmap caches of dependency information. */
322 {
332 }
333 #endif
335 }
336 /* Might want to check one level of transitivity to save conses. */
341 /* Insn dependency, not data dependency. */
344 #ifdef INSN_SCHEDULING
345 /* If we are adding a dependency to INSN's LOG_LINKs, then note that
346 in the bitmap caches of dependency information. */
348 {
355 }
356 #endif
357 }
359 /* Remove ELEM wrapped in an INSN_LIST from the LOG_LINKS
360 of INSN. Abort if not found. */
362 static void
364 rtx insn;
365 rtx elem;
366 {
371 {
374 {
377 else
380 #ifdef INSN_SCHEDULING
381 /* If we are removing a dependency from the LOG_LINKS list,
382 make sure to remove it from the cache too. */
384 {
394 }
395 #endif
400 }
401 else
403 }
408 }
410 /* Return an insn which represents a SCHED_GROUP, which is
411 the last insn in the group. */
413 static rtx
415 rtx insn;
416 {
417 rtx prev;
419 do
420 {
423 }
427 }
429 /* Set SCHED_GROUP_P and care for the rest of the bookkeeping that
430 goes along with that. */
432 static void
434 rtx insn;
435 {
440 /* There may be a note before this insn now, but all notes will
441 be removed before we actually try to schedule the insns, so
442 it won't cause a problem later. We must avoid it here though. */
445 /* Make a copy of all dependencies on the immediately previous insn,
446 and add to this insn. This is so that all the dependencies will
447 apply to the group. Remove an explicit dependence on this insn
448 as SCHED_GROUP_P now represents it. */
455 }
456 \f
457 /* Process an insn's memory dependencies. There are four kinds of
458 dependencies:
460 (0) read dependence: read follows read
461 (1) true dependence: read follows write
462 (2) anti dependence: write follows read
463 (3) output dependence: write follows write
465 We are careful to build only dependencies which actually exist, and
466 use transitivity to avoid building too many links. */
468 /* Add an INSN and MEM reference pair to a pending INSN_LIST and MEM_LIST.
469 The MEM is a memory reference contained within INSN, which we are saving
470 so that we can do memory aliasing on it. */
472 void
476 {
486 }
488 /* Make a dependency between every memory reference on the pending lists
489 and INSN, thus flushing the pending lists. If ONLY_WRITE, don't flush
490 the read list. */
492 static void
495 rtx insn;
497 {
498 rtx u;
499 rtx link;
502 {
504 REG_DEP_ANTI);
513 }
515 {
517 REG_DEP_ANTI);
526 }
529 /* last_pending_memory_flush is now a list of insns. */
535 }
536 \f
537 /* Analyze a single SET, CLOBBER, PRE_DEC, POST_DEC, PRE_INC or POST_INC
538 rtx, X, creating all dependencies generated by the write to the
539 destination of X, and reads of everything mentioned. */
541 static void
544 rtx x;
545 rtx insn;
546 {
555 {
563 insn);
568 }
572 {
574 {
575 /* The second and third arguments are values read by this insn. */
578 }
580 }
583 {
588 /* A hard reg in a wide mode may really be multiple registers.
589 If so, mark all of them just like the first. */
591 {
594 {
596 rtx u;
604 /* Clobbers need not be ordered with respect to one
605 another, but sets must be ordered with respect to a
606 pending clobber. */
608 {
614 }
615 else
618 /* Function calls clobber all call_used regs. */
622 }
623 }
624 /* ??? Reload sometimes emits USEs and CLOBBERs of pseudos that
625 it does not reload. Ignore these as they have served their
626 purpose already. */
628 {
632 }
633 else
634 {
635 rtx u;
644 {
650 }
651 else
654 /* Pseudos that are REG_EQUIV to something may be replaced
655 by that during reloading. We need only add dependencies for
656 the address in the REG_EQUIV note. */
662 /* Don't let it cross a call after scheduling if it doesn't
663 already cross one. */
668 }
669 }
671 {
672 /* Writing memory. */
675 {
676 /* Flush all pending reads and writes to prevent the pending lists
677 from getting any larger. Insn scheduling runs too slowly when
678 these lists get long. The number 32 was chosen because it
679 seems like a reasonable number. When compiling GCC with itself,
680 this flush occurs 8 times for sparc, and 10 times for m88k using
681 the number 32. */
683 }
684 else
685 {
686 rtx u;
692 {
698 }
703 {
709 }
716 }
718 }
720 /* Analyze reads. */
723 }
725 /* Analyze the uses of memory and registers in rtx X in INSN. */
727 static void
730 rtx x;
731 rtx insn;
732 {
744 {
750 /* Ignore constants. Note that we must handle CONST_DOUBLE here
751 because it may have a cc0_rtx in its CONST_DOUBLE_CHAIN field, but
752 this does not mean that this insn is using cc0. */
755 #ifdef HAVE_cc0
757 /* User of CC0 depends on immediately preceding insn. */
760 #endif
763 {
764 rtx u;
767 {
772 {
781 /* ??? This should never happen. */
786 /* Function calls clobber all call_used regs. */
789 }
790 }
791 /* ??? Reload sometimes emits USEs and CLOBBERs of pseudos that
792 it does not reload. Ignore these as they have served their
793 purpose already. */
795 {
799 }
800 else
801 {
809 /* ??? This should never happen. */
813 /* Pseudos that are REG_EQUIV to something may be replaced
814 by that during reloading. We need only add dependencies for
815 the address in the REG_EQUIV note. */
821 /* If the register does not already cross any calls, then add this
822 insn to the sched_before_next_call list so that it will still
823 not cross calls after scheduling. */
826 REG_DEP_ANTI);
827 }
829 }
832 {
833 /* Reading memory. */
834 rtx u;
840 {
846 }
851 {
858 }
865 /* Always add these dependencies to pending_reads, since
866 this insn may be followed by a write. */
870 /* Take advantage of tail recursion here. */
873 }
875 /* Force pending stores to memory in case a trap handler needs them. */
883 {
884 rtx u;
886 /* Traditional and volatile asm instructions must be considered to use
887 and clobber all hard registers, all pseudo-registers and all of
888 memory. So must TRAP_IF and UNSPEC_VOLATILE operations.
890 Consider for instance a volatile asm that changes the fpu rounding
891 mode. An insn should not be moved across this even if it only uses
892 pseudo-regs because it might give an incorrectly rounded result. */
894 {
896 {
908 }
912 }
914 /* For all ASM_OPERANDS, we must traverse the vector of input operands.
915 We can not just fall through here since then we would be confused
916 by the ASM_INPUT rtx inside ASM_OPERANDS, which do not indicate
917 traditional asms unlike their normal usage. */
920 {
924 }
926 }
932 /* These both read and modify the result. We must handle them as writes
933 to get proper dependencies for following instructions. We must handle
934 them as reads to get proper dependencies from this to previous
935 instructions. Thus we need to pass them to both sched_analyze_1
936 and sched_analyze_2. We must call sched_analyze_2 first in order
937 to get the proper antecedent for the read. */
944 /* op0 = op0 + op1 */
952 }
954 /* Other cases: walk the insn. */
957 {
963 }
964 }
966 /* Analyze an INSN with pattern X to find all dependencies. */
968 static void
972 rtx loop_notes;
973 {
976 rtx link;
980 {
983 /* ??? Should be recording conditions so we reduce the number of
984 false dependancies. */
987 }
991 {
994 {
999 {
1003 }
1006 else
1008 }
1009 }
1010 else
1013 /* Mark registers CLOBBERED or used by called function. */
1016 {
1019 else
1021 }
1024 {
1025 rtx next;
1029 else
1030 {
1032 regset_head tmp;
1037 {
1043 });
1050 {
1055 }
1059 }
1060 }
1062 /* If there is a {LOOP,EHREGION}_{BEG,END} note in the middle of a basic
1063 block, then we must be sure that no instructions are scheduled across it.
1064 Otherwise, the reg_n_refs info (which depends on loop_depth) would
1065 become incorrect. */
1067 {
1068 rtx link;
1070 /* Update loop_notes with any notes from this insn. Also determine
1071 if any of the notes on the list correspond to instruction scheduling
1072 barriers (loop, eh & setjmp notes, but not range notes). */
1075 {
1084 }
1087 }
1089 /* If this instruction can throw an exception, then moving it changes
1090 where block boundaries fall. This is mighty confusing elsewhere.
1091 Therefore, prevent such an instruction from being moved. */
1095 /* Add dependencies if a scheduling barrier was found. */
1097 {
1098 rtx u;
1101 {
1113 }
1117 }
1119 /* Accumulate clobbers until the next set so that it will be output
1120 dependent on all of them. At the next set we can clear the clobber
1121 list, since subsequent sets will be output dependent on it. */
1123 {
1126 {
1129 {
1132 }
1135 }
1136 }
1137 else
1138 {
1140 {
1143 {
1146 }
1149 });
1151 {
1155 });
1156 }
1160 /* If a post-call group is still open, see if it should remain so.
1161 This insn must be a simple move of a hard reg to a pseudo or
1162 vice-versa.
1164 We must avoid moving these insns for correctness on
1165 SMALL_REGISTER_CLASS machines, and for special registers like
1166 PIC_OFFSET_TABLE_REGNUM. For simplicity, extend this to all
1167 hard regs for all targets. */
1170 {
1182 else
1190 else
1195 {
1198 }
1199 else
1200 {
1201 end_call_group:
1203 }
1204 }
1205 }
1207 /* Analyze every insn between HEAD and TAIL inclusive, creating LOG_LINKS
1208 for every dependency. */
1210 void
1214 {
1220 {
1222 {
1223 /* Clear out the stale LOG_LINKS from flow. */
1226 /* Clear out stale SCHED_GROUP_P. */
1229 /* Make each JUMP_INSN a scheduling barrier for memory
1230 references. */
1232 deps->last_pending_memory_flush
1236 }
1238 {
1239 rtx x;
1242 /* Clear out stale SCHED_GROUP_P. */
1247 /* Clear out the stale LOG_LINKS from flow. */
1250 /* Any instruction using a hard register which may get clobbered
1251 by a call needs to be marked as dependent on this call.
1252 This prevents a use of a hard return reg from being moved
1253 past a void call (i.e. it does not explicitly set the hard
1254 return reg). */
1256 /* If this call is followed by a NOTE_INSN_SETJMP, then assume that
1257 all registers, not just hard registers, may be clobbered by this
1258 call. */
1260 /* Insn, being a CALL_INSN, magically depends on
1261 `last_function_call' already. */
1265 {
1267 {
1278 }
1281 /* Add a pair of REG_SAVE_NOTEs which we will later
1282 convert back into a NOTE_INSN_SETJMP note. See
1283 reemit_notes for why we use a pair of NOTEs. */
1290 }
1291 else
1292 {
1295 {
1302 }
1303 }
1305 /* For each insn which shouldn't cross a call, add a dependence
1306 between that insn and this call insn. */
1309 {
1312 }
1318 /* In the absence of interprocedural alias analysis, we must flush
1319 all pending reads and writes, and start new dependencies starting
1320 from here. But only flush writes for constant calls (which may
1321 be passed a pointer to something we haven't written yet). */
1324 /* Depend this function call (actually, the user of this
1325 function call) on all hard register clobberage. */
1327 /* last_function_call is now a list of insns. */
1331 /* Before reload, begin a post-call group, so as to keep the
1332 lifetimes of hard registers correct. */
1335 }
1337 /* See comments on reemit_notes as to why we do this.
1338 ??? Actually, the reemit_notes just say what is done, not why. */
1343 {
1345 loop_notes);
1348 loop_notes);
1349 }
1357 {
1358 rtx rtx_region;
1363 else
1367 rtx_region,
1368 loop_notes);
1371 loop_notes);
1373 }
1377 }
1379 }
1380 \f
1381 /* Examine insns in the range [ HEAD, TAIL ] and Use the backward
1382 dependences from LOG_LINKS to build forward dependences in
1383 INSN_DEPEND. */
1385 void
1388 {
1390 rtx next_tail;
1395 {
1402 {
1404 rtx new_link;
1409 #ifdef ENABLE_CHECKING
1410 /* If add_dependence is working properly there should never
1411 be notes, deleted insns or duplicates in the backward
1412 links. Thus we need not check for them here.
1414 However, if we have enabled checking we might as well go
1415 ahead and verify that add_dependence worked properly. */
1427 #endif
1436 }
1437 }
1438 }
1439 \f
1440 /* Initialize variables for region data dependence analysis.
1441 n_bbs is the number of region blocks. */
1443 void
1446 {
1463 deps->sched_before_next_call
1467 }
1469 /* Free insn lists found in DEPS. */
1471 void
1474 {
1477 /* Without the EXECUTE_IF_SET, this loop is executed max_reg * nr_regions
1478 times. For a test case with 42000 regs and 8000 small basic blocks,
1479 this loop accounted for nearly 60% (84 sec) of the total -O2 runtime. */
1481 {
1486 });
1491 }
1493 /* If it is profitable to use them, initialize caches for tracking
1494 dependency informatino. LUID is the number of insns to be scheduled,
1495 it is used in the estimate of profitability. */
1497 void
1500 {
1501 /* ?!? We could save some memory by computing a per-region luid mapping
1502 which could reduce both the number of vectors in the cache and the size
1503 of each vector. Instead we just avoid the cache entirely unless the
1504 average number of instructions in a basic block is very high. See
1505 the comment before the declaration of true_dependency_cache for
1506 what we consider "very high". */
1508 {
1515 #ifdef ENABLE_CHECKING
1518 #endif
1519 }
1520 }
1522 /* Free the caches allocated in init_dependency_caches. */
1524 void
1526 {
1528 {
1535 #ifdef ENABLE_CHECKING
1538 #endif
1539 }
1540 }
1542 /* Initialize some global variables needed by the dependency analysis
1543 code. */
1545 void
1547 {
1551 }
1553 /* Free everything used by the dependency analysis code. */
1555 void
1557 {
1560 }