| blob | a778721d20b2fe0930538d505b5561970d937c68 |
1 /* Instruction scheduling pass. This file computes dependencies between
2 instructions.
3 Copyright (C) 1992, 1993, 1994, 1995, 1996, 1997, 1998,
4 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010,
5 2011
6 Free Software Foundation, Inc.
7 Contributed by Michael Tiemann (tiemann@cygnus.com) Enhanced by,
8 and currently maintained by, Jim Wilson (wilson@cygnus.com)
10 This file is part of GCC.
12 GCC is free software; you can redistribute it and/or modify it under
13 the terms of the GNU General Public License as published by the Free
14 Software Foundation; either version 3, or (at your option) any later
15 version.
17 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
18 WARRANTY; without even the implied warranty of MERCHANTABILITY or
19 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
20 for more details.
22 You should have received a copy of the GNU General Public License
23 along with GCC; see the file COPYING3. If not see
24 <http://www.gnu.org/licenses/>. */
25 \f
47 #ifdef INSN_SCHEDULING
49 #ifdef ENABLE_CHECKING
50 #define CHECK (true)
51 #else
52 #define CHECK (false)
53 #endif
55 /* Holds current parameters for the dependency analyzer. */
58 /* The data is specific to the Haifa scheduler. */
61 /* Return the major type present in the DS. */
62 enum reg_note
64 {
77 }
79 /* Return equivalent dep_status. */
80 ds_t
82 {
84 {
97 }
98 }
100 /* Functions to operate with dependence information container - dep_t. */
102 /* Init DEP with the arguments. */
103 void
105 {
111 }
113 /* Init DEP with the arguments.
114 While most of the scheduler (including targets) only need the major type
115 of the dependency, it is convenient to hide full dep_status from them. */
116 void
118 {
119 ds_t ds;
123 else
127 }
129 /* Make a copy of FROM in TO. */
130 static void
132 {
134 }
138 /* Define flags for dump_dep (). */
140 /* Dump producer of the dependence. */
141 #define DUMP_DEP_PRO (2)
143 /* Dump consumer of the dependence. */
144 #define DUMP_DEP_CON (4)
146 /* Dump type of the dependence. */
147 #define DUMP_DEP_TYPE (8)
149 /* Dump status of the dependence. */
150 #define DUMP_DEP_STATUS (16)
152 /* Dump all information about the dependence. */
153 #define DUMP_DEP_ALL (DUMP_DEP_PRO | DUMP_DEP_CON | DUMP_DEP_TYPE \
154 |DUMP_DEP_STATUS)
156 /* Dump DEP to DUMP.
157 FLAGS is a bit mask specifying what information about DEP needs
158 to be printed.
159 If FLAGS has the very first bit set, then dump all information about DEP
160 and propagate this bit into the callee dump functions. */
161 static void
163 {
176 {
181 {
201 }
204 }
207 {
210 }
213 }
215 /* Default flags for dump_dep (). */
218 /* Dump all fields of DEP to STDERR. */
219 void
221 {
224 }
226 /* Determine whether DEP is a dependency link of a non-debug insn on a
227 debug insn. */
231 {
234 }
236 /* Functions to operate with a single link from the dependencies lists -
237 dep_link_t. */
239 /* Attach L to appear after link X whose &DEP_LINK_NEXT (X) is given by
240 PREV_NEXT_P. */
241 static void
243 {
249 /* Init node being inserted. */
253 /* Fix next node. */
255 {
259 }
261 /* Fix prev node. */
263 }
265 /* Add dep_link LINK to deps_list L. */
266 static void
268 {
271 /* Don't count debug deps. */
274 }
276 /* Detach dep_link L from the list. */
277 static void
279 {
290 }
292 /* Remove link LINK from list LIST. */
293 static void
295 {
298 /* Don't count debug deps. */
301 }
303 /* Move link LINK from list FROM to list TO. */
304 static void
306 {
309 }
311 /* Return true of LINK is not attached to any list. */
312 static bool
314 {
316 }
318 /* Pool to hold all dependency nodes (dep_node_t). */
321 /* Number of dep_nodes out there. */
324 /* Create a dep_node. */
325 static dep_node_t
327 {
343 }
345 /* Delete dep_node N. N must not be connected to any deps_list. */
346 static void
348 {
355 }
357 /* Pool to hold dependencies lists (deps_list_t). */
360 /* Number of deps_lists out there. */
363 /* Functions to operate with dependences lists - deps_list_t. */
365 /* Return true if list L is empty. */
366 static bool
368 {
370 }
372 /* Create a new deps_list. */
373 static deps_list_t
375 {
383 }
385 /* Free deps_list L. */
386 static void
388 {
394 }
396 /* Return true if there is no dep_nodes and deps_lists out there.
397 After the region is scheduled all the dependency nodes and lists
398 should [generally] be returned to pool. */
399 bool
401 {
403 }
405 /* Remove all elements from L. */
406 static void
408 {
409 do
410 {
417 }
419 }
421 /* Decide whether a dependency should be treated as a hard or a speculative
422 dependency. */
423 static bool
425 {
427 {
430 }
432 {
435 }
437 }
445 /* Hard registers implicitly clobbered or used (or may be implicitly
446 clobbered or used) by the currently analyzed insn. For example,
447 insn in its constraint has one register class. Even if there is
448 currently no hard register in the insn, the particular hard
449 register will be in the insn after reload pass because the
450 constraint requires it. */
454 /* To speed up the test for duplicate dependency links we keep a
455 record of dependencies created by add_dependence when the average
456 number of instructions in a basic block is very large.
458 Studies have shown that there is typically around 5 instructions between
459 branches for typical C code. So we can make a guess that the average
460 basic block is approximately 5 instructions long; we will choose 100X
461 the average size as a very large basic block.
463 Each insn has associated bitmaps for its dependencies. Each bitmap
464 has enough entries to represent a dependency on any other insn in
465 the insn chain. All bitmap for true dependencies cache is
466 allocated then the rest two ones are also allocated. */
494 #ifdef ENABLE_CHECKING
496 #endif
497 \f
498 /* Return nonzero if a load of the memory reference MEM can cause a trap. */
500 static int
502 {
506 {
510 }
512 }
513 \f
515 /* Find the condition under which INSN is executed. If REV is not NULL,
516 it is set to TRUE when the returned comparison should be reversed
517 to get the actual condition. */
518 static rtx
520 {
522 rtx src;
541 {
551 }
554 }
556 /* Return the condition under which INSN does not execute (i.e. the
557 not-taken condition for a conditional branch), or NULL if we cannot
558 find such a condition. The caller should make a copy of the condition
559 before using it. */
560 rtx
562 {
568 {
573 }
575 }
577 /* Caching variant of sched_get_condition_with_rev_uncached.
578 We only do actual work the first time we come here for an insn; the
579 results are cached in INSN_CACHED_COND and INSN_REVERSE_COND. */
580 static rtx
582 {
592 {
596 }
602 {
605 }
610 }
612 /* True when we can find a condition under which INSN is executed. */
613 static bool
615 {
617 }
619 \f
621 /* Return nonzero if conditions COND1 and COND2 can never be both true. */
622 static int
624 {
635 }
637 /* Return true if insn1 and insn2 can never depend on one another because
638 the conditions under which they are executed are mutually exclusive. */
639 bool
641 {
645 /* df doesn't handle conditional lifetimes entirely correctly;
646 calls mess up the conditional lifetimes. */
648 {
653 /* Make sure first instruction doesn't affect condition of second
654 instruction if switched. */
656 /* Make sure second instruction doesn't affect condition of first
657 instruction if switched. */
660 }
662 }
663 \f
665 /* Return true if INSN can potentially be speculated with type DS. */
666 bool
668 {
685 /* The following instructions, which depend on a speculatively scheduled
686 instruction, cannot be speculatively scheduled along. */
687 {
689 /* If instruction might fault, it cannot be speculatively scheduled.
690 For control speculation it's obvious why and for data speculation
691 it's because the insn might get wrong input if speculation
692 wasn't successful. */
697 /* If this is a predicated instruction, then it cannot be
698 speculatively scheduled. See PR35659. */
700 }
703 }
705 /* Initialize LIST_PTR to point to one of the lists present in TYPES_PTR,
706 initialize RESOLVED_P_PTR with true if that list consists of resolved deps,
707 and remove the type of returned [through LIST_PTR] list from TYPES_PTR.
708 This function is used to switch sd_iterator to the next list.
709 !!! For internal use only. Might consider moving it to sched-int.h. */
710 void
713 {
717 {
721 }
723 {
727 }
729 {
733 }
735 {
739 }
741 {
745 }
746 else
747 {
751 }
752 }
754 /* Return the summary size of INSN's lists defined by LIST_TYPES. */
755 int
757 {
761 {
762 deps_list_t list;
768 }
771 }
773 /* Return true if INSN's lists defined by LIST_TYPES are all empty. */
775 bool
777 {
779 {
780 deps_list_t list;
786 }
789 }
791 /* Initialize data for INSN. */
792 void
794 {
801 /* ??? It would be nice to allocate dependency caches here. */
802 }
804 /* Free data for INSN. */
805 void
807 {
808 /* ??? It would be nice to deallocate dependency caches here. */
824 }
826 /* Find a dependency between producer PRO and consumer CON.
827 Search through resolved dependency lists if RESOLVED_P is true.
828 If no such dependency is found return NULL,
829 otherwise return the dependency and initialize SD_IT_PTR [if it is nonnull]
830 with an iterator pointing to it. */
831 static dep_t
834 {
835 sd_list_types_def pro_list_type;
836 sd_list_types_def con_list_type;
837 sd_iterator_def sd_it;
838 dep_t dep;
842 {
845 }
846 else
847 {
850 }
852 /* Walk through either back list of INSN or forw list of ELEM
853 depending on which one is shorter. */
855 {
856 /* Find the dep_link with producer PRO in consumer's back_deps. */
859 {
862 }
863 }
864 else
865 {
866 /* Find the dep_link with consumer CON in producer's forw_deps. */
869 {
872 }
873 }
876 {
881 }
884 }
886 /* Find a dependency between producer PRO and consumer CON.
887 Use dependency [if available] to check if dependency is present at all.
888 Search through resolved dependency lists if RESOLVED_P is true.
889 If the dependency or NULL if none found. */
890 dep_t
892 {
894 /* Avoiding the list walk below can cut compile times dramatically
895 for some code. */
896 {
905 }
908 }
910 /* Add or update a dependence described by DEP.
911 MEM1 and MEM2, if non-null, correspond to memory locations in case of
912 data speculation.
914 The function returns a value indicating if an old entry has been changed
915 or a new entry has been added to insn's backward deps.
917 This function merely checks if producer and consumer is the same insn
918 and doesn't create a dep in this case. Actual manipulation of
919 dependence data structures is performed in add_or_update_dep_1. */
920 static enum DEPS_ADJUST_RESULT
922 {
928 /* Don't depend an insn on itself. */
930 {
932 /* INSN has an internal dependence, which we can't overcome. */
936 }
939 }
941 /* Ask dependency caches what needs to be done for dependence DEP.
942 Return DEP_CREATED if new dependence should be created and there is no
943 need to try to find one searching the dependencies lists.
944 Return DEP_PRESENT if there already is a dependence described by DEP and
945 hence nothing is to be done.
946 Return DEP_CHANGED if there already is a dependence, but it should be
947 updated to incorporate additional information from DEP. */
948 static enum DEPS_ADJUST_RESULT
950 {
960 {
971 else
972 /* There is no existing dep so it should be created. */
976 /* DEP does not add anything to the existing dependence. */
978 }
979 else
980 {
993 /* There is no existing dep so it should be created. */
998 {
1001 /* DEP does not add anything to the existing dependence. */
1003 }
1004 else
1005 {
1006 /* Only true dependencies can be data speculative and
1007 only anti dependencies can be control speculative. */
1011 /* if (DEP is SPECULATIVE) then
1012 ..we should update DEP_STATUS
1013 else
1014 ..we should reset existing dep to non-speculative. */
1015 }
1016 }
1019 }
1021 /* Set dependency caches according to DEP. */
1022 static void
1024 {
1029 {
1031 {
1050 }
1051 }
1052 else
1053 {
1066 {
1069 }
1070 }
1071 }
1073 /* Type of dependence DEP have changed from OLD_TYPE. Update dependency
1074 caches accordingly. */
1075 static void
1077 {
1081 /* Clear corresponding cache entry because type of the link
1082 may have changed. Keep them if we use_deps_list. */
1084 {
1086 {
1101 }
1102 }
1105 }
1107 /* Convert a dependence pointed to by SD_IT to be non-speculative. */
1108 static void
1110 {
1122 /* Clear the cache entry. */
1125 }
1127 /* Update DEP to incorporate information from NEW_DEP.
1128 SD_IT points to DEP in case it should be moved to another list.
1129 MEM1 and MEM2, if nonnull, correspond to memory locations in case if
1130 data-speculative dependence should be updated. */
1131 static enum DEPS_ADJUST_RESULT
1133 sd_iterator_def sd_it ATTRIBUTE_UNUSED,
1134 rtx mem1 ATTRIBUTE_UNUSED,
1135 rtx mem2 ATTRIBUTE_UNUSED)
1136 {
1141 /* If this is a more restrictive type of dependence than the
1142 existing one, then change the existing dependence to this
1143 type. */
1145 {
1148 }
1151 /* Update DEP_STATUS. */
1152 {
1158 {
1159 /* Either existing dep or a dep we're adding or both are
1160 speculative. */
1163 /* The new dep can't be speculative. */
1165 else
1166 {
1167 /* Both are speculative. Merge probabilities. */
1169 {
1170 dw_t dw;
1174 }
1177 }
1178 }
1183 {
1186 }
1187 }
1190 /* The old dep was speculative, but now it isn't. */
1198 }
1200 /* Add or update a dependence described by DEP.
1201 MEM1 and MEM2, if non-null, correspond to memory locations in case of
1202 data speculation.
1204 The function returns a value indicating if an old entry has been changed
1205 or a new entry has been added to insn's backward deps or nothing has
1206 been updated at all. */
1207 static enum DEPS_ADJUST_RESULT
1210 {
1217 #ifdef ENABLE_CHECKING
1219 #endif
1222 {
1224 {
1241 }
1242 }
1244 /* Check that we don't already have this dependence. */
1246 {
1247 dep_t present_dep;
1248 sd_iterator_def sd_it;
1257 /* We found an existing dependency between ELEM and INSN. */
1259 else
1260 /* We didn't find a dep, it shouldn't present in the cache. */
1262 }
1264 /* Might want to check one level of transitivity to save conses.
1265 This check should be done in maybe_add_or_update_dep_1.
1266 Since we made it to add_or_update_dep_1, we must create
1267 (or update) a link. */
1270 {
1274 }
1279 }
1281 /* Initialize BACK_LIST_PTR with consumer's backward list and
1282 FORW_LIST_PTR with producer's forward list. If RESOLVED_P is true
1283 initialize with lists that hold resolved deps. */
1284 static void
1288 {
1292 {
1295 else
1299 }
1300 else
1301 {
1304 }
1305 }
1307 /* Add dependence described by DEP.
1308 If RESOLVED_P is true treat the dependence as a resolved one. */
1309 void
1311 {
1313 deps_list_t con_back_deps;
1314 deps_list_t pro_forw_deps;
1330 #ifdef ENABLE_CHECKING
1332 #endif
1336 /* If we are adding a dependency to INSN's LOG_LINKs, then note that
1337 in the bitmap caches of dependency information. */
1340 }
1342 /* Add or update backward dependence between INSN and ELEM
1343 with given type DEP_TYPE and dep_status DS.
1344 This function is a convenience wrapper. */
1345 enum DEPS_ADJUST_RESULT
1347 {
1349 }
1351 /* Resolved dependence pointed to by SD_IT.
1352 SD_IT will advance to the next element. */
1353 void
1355 {
1364 else
1370 }
1372 /* Perform the inverse operation of sd_resolve_dep. Restore the dependence
1373 pointed to by SD_IT to unresolved state. */
1374 void
1376 {
1385 else
1391 }
1393 /* Make TO depend on all the FROM's producers.
1394 If RESOLVED_P is true add dependencies to the resolved lists. */
1395 void
1397 {
1398 sd_list_types_def list_type;
1399 sd_iterator_def sd_it;
1400 dep_t dep;
1405 {
1411 }
1412 }
1414 /* Remove a dependency referred to by SD_IT.
1415 SD_IT will point to the next dependence after removal. */
1416 void
1418 {
1423 deps_list_t con_back_deps;
1424 deps_list_t pro_forw_deps;
1427 {
1438 }
1447 }
1449 /* Dump size of the lists. */
1450 #define DUMP_LISTS_SIZE (2)
1452 /* Dump dependencies of the lists. */
1453 #define DUMP_LISTS_DEPS (4)
1455 /* Dump all information about the lists. */
1456 #define DUMP_LISTS_ALL (DUMP_LISTS_SIZE | DUMP_LISTS_DEPS)
1458 /* Dump deps_lists of INSN specified by TYPES to DUMP.
1459 FLAGS is a bit mask specifying what information about the lists needs
1460 to be printed.
1461 If FLAGS has the very first bit set, then dump all information about
1462 the lists and propagate this bit into the callee dump functions. */
1463 static void
1465 {
1466 sd_iterator_def sd_it;
1467 dep_t dep;
1481 {
1483 {
1486 }
1487 }
1488 }
1490 /* Dump all information about deps_lists of INSN specified by TYPES
1491 to STDERR. */
1492 void
1494 {
1497 }
1499 /* A wrapper around add_dependence_1, to add a dependence of CON on
1500 PRO, with type DEP_TYPE. This function implements special handling
1501 for REG_DEP_CONTROL dependencies. For these, we optionally promote
1502 the type to REG_DEP_ANTI if we can determine that predication is
1503 impossible; otherwise we add additional true dependencies on the
1504 INSN_COND_DEPS list of the jump (which PRO must be). */
1505 void
1507 {
1512 /* A REG_DEP_CONTROL dependence may be eliminated through predication,
1513 so we must also make the insn dependent on the setter of the
1514 condition. */
1516 {
1519 rtx cond;
1524 /* Verify that the insn does not use a different value in
1525 the condition register than the one that was present at
1526 the jump. */
1530 {
1531 HARD_REG_SET uses;
1536 }
1538 {
1543 REG_DEP_TRUE);
1544 }
1545 }
1548 }
1550 /* A convenience wrapper to operate on an entire list. */
1552 static void
1554 {
1556 {
1559 }
1560 }
1562 /* Similar, but free *LISTP at the same time, when the context
1563 is not readonly. */
1565 static void
1568 {
1571 /* We don't want to short-circuit dependencies involving debug
1572 insns, because they may cause actual dependencies to be
1573 disregarded. */
1575 {
1578 }
1581 {
1586 }
1587 }
1589 /* Remove all occurences of INSN from LIST. Return the number of
1590 occurences removed. */
1592 static int
1594 {
1598 {
1600 {
1602 removed++;
1604 }
1607 }
1610 }
1612 /* Same as above, but process two lists at once. */
1613 static int
1615 {
1619 {
1621 {
1624 removed++;
1626 }
1630 }
1633 }
1635 /* Clear all dependencies for an insn. */
1636 static void
1638 {
1639 sd_iterator_def sd_it;
1640 dep_t dep;
1642 /* The below cycle can be optimized to clear the caches and back_deps
1643 in one call but that would provoke duplication of code from
1644 delete_dep (). */
1649 }
1651 /* All insns in a scheduling group except the first should only have
1652 dependencies on the previous insn in the group. So we find the
1653 first instruction in the scheduling group by walking the dependence
1654 chains backwards. Then we add the dependencies for the group to
1655 the previous nonnote insn. */
1657 static void
1659 {
1660 sd_iterator_def sd_it;
1661 dep_t dep;
1662 rtx prev_nonnote;
1665 {
1669 do
1670 {
1679 next_link:;
1680 }
1688 }
1689 \f
1690 /* Process an insn's memory dependencies. There are four kinds of
1691 dependencies:
1693 (0) read dependence: read follows read
1694 (1) true dependence: read follows write
1695 (2) output dependence: write follows write
1696 (3) anti dependence: write follows read
1698 We are careful to build only dependencies which actually exist, and
1699 use transitivity to avoid building too many links. */
1701 /* Add an INSN and MEM reference pair to a pending INSN_LIST and MEM_LIST.
1702 The MEM is a memory reference contained within INSN, which we are saving
1703 so that we can do memory aliasing on it. */
1705 static void
1708 {
1711 rtx link;
1715 {
1720 }
1721 else
1722 {
1726 }
1732 {
1735 }
1738 }
1740 /* Make a dependency between every memory reference on the pending lists
1741 and INSN, thus flushing the pending lists. FOR_READ is true if emitting
1742 dependencies for a read operation, similarly with FOR_WRITE. */
1744 static void
1747 {
1749 {
1753 {
1756 }
1757 }
1767 REG_DEP_ANTI);
1770 {
1776 }
1777 }
1778 \f
1779 /* Instruction which dependencies we are analyzing. */
1782 /* Implement hooks for haifa scheduler. */
1784 static void
1786 {
1790 }
1792 static void
1794 {
1796 }
1798 void
1800 {
1802 }
1804 void
1806 {
1808 }
1810 void
1812 {
1814 }
1816 static void
1818 {
1820 {
1823 }
1824 else
1827 {
1833 }
1835 }
1837 static void
1839 {
1840 dep_def _dep;
1845 }
1847 static void
1849 {
1852 }
1854 static void
1856 {
1859 }
1861 static void
1863 {
1866 }
1868 static void
1870 {
1873 }
1875 static void
1877 {
1880 }
1882 /* Return corresponding to DS reg_note. */
1883 enum reg_note
1885 {
1892 else
1893 {
1896 }
1897 }
1899 \f
1901 /* Functions for computation of info needed for register pressure
1902 sensitive insn scheduling. */
1905 /* Allocate and return reg_use_data structure for REGNO and INSN. */
1908 {
1917 }
1919 /* Allocate and return reg_set_data structure for REGNO and INSN. */
1922 {
1931 }
1933 /* Set up insn register uses for INSN and dependency context DEPS. */
1934 static void
1936 {
1938 reg_set_iterator rsi;
1939 rtx list;
1944 {
1952 /* Ignore use which is not dying. */
1959 /* Create the cycle list of uses. */
1961 {
1966 }
1967 }
1968 }
1970 /* Register pressure info for the currently processed insn. */
1973 /* Return TRUE if INSN has the use structure for REGNO. */
1974 static bool
1976 {
1983 }
1985 /* Update the register pressure info after birth of pseudo register REGNO
1986 in INSN. Arguments CLOBBER_P and UNUSED_P say correspondingly that
1987 the register is in clobber or unused after the insn. */
1988 static void
1990 {
1997 {
2000 {
2003 }
2005 {
2008 }
2009 else
2010 {
2016 }
2018 }
2019 }
2021 /* Like mark_insn_pseudo_regno_birth except that NREGS saying how many
2022 hard registers involved in the birth. */
2023 static void
2026 {
2031 {
2034 {
2037 {
2039 {
2042 }
2044 {
2047 }
2048 else
2049 {
2055 }
2057 }
2058 }
2059 regno++;
2060 }
2061 }
2063 /* Update the register pressure info after birth of pseudo or hard
2064 register REG in INSN. Arguments CLOBBER_P and UNUSED_P say
2065 correspondingly that the register is in clobber or unused after the
2066 insn. */
2067 static void
2069 {
2083 else
2085 }
2087 /* Update the register pressure info after death of pseudo register
2088 REGNO. */
2089 static void
2091 {
2098 {
2101 }
2102 }
2104 /* Like mark_pseudo_death except that NREGS saying how many hard
2105 registers involved in the death. */
2106 static void
2108 {
2113 {
2116 {
2120 }
2121 regno++;
2122 }
2123 }
2125 /* Update the register pressure info after death of pseudo or hard
2126 register REG. */
2127 static void
2129 {
2141 else
2143 }
2145 /* Process SETTER of REG. DATA is an insn containing the setter. */
2146 static void
2148 {
2151 mark_insn_reg_birth
2154 }
2156 /* Like mark_insn_reg_store except notice just CLOBBERs; ignore SETs. */
2157 static void
2159 {
2162 }
2164 /* Set up reg pressure info related to INSN. */
2165 void
2167 {
2171 rtx link;
2179 {
2185 }
2191 #ifdef AUTO_INC_DEC
2195 #endif
2202 pressure_info
2207 {
2215 }
2216 }
2219 \f
2221 /* Internal variable for sched_analyze_[12] () functions.
2222 If it is nonzero, this means that sched_analyze_[12] looks
2223 at the most toplevel SET. */
2226 /* Extend reg info for the deps context DEPS given that
2227 we have just generated a register numbered REGNO. */
2228 static void
2230 {
2235 /* In a readonly context, it would not hurt to extend info,
2236 but it should not be needed. */
2238 {
2241 }
2244 {
2246 max_regno);
2251 }
2252 }
2254 /* Extends REG_INFO_P if needed. */
2255 void
2257 {
2258 /* Extend REG_INFO_P, if needed. */
2260 {
2266 new_reg_info_p_size,
2267 reg_info_p_size,
2270 }
2271 }
2273 /* Analyze a single reference to register (reg:MODE REGNO) in INSN.
2274 The type of the reference is specified by REF and can be SET,
2275 CLOBBER, PRE_DEC, POST_DEC, PRE_INC, POST_INC or USE. */
2277 static void
2280 {
2281 /* We could emit new pseudos in renaming. Extend the reg structures. */
2288 /* A hard reg in a wide mode may really be multiple registers.
2289 If so, mark all of them just like the first. */
2291 {
2294 {
2297 }
2299 {
2302 }
2303 else
2304 {
2307 }
2308 }
2310 /* ??? Reload sometimes emits USEs and CLOBBERs of pseudos that
2311 it does not reload. Ignore these as they have served their
2312 purpose already. */
2314 {
2317 }
2319 else
2320 {
2325 else
2328 /* Pseudos that are REG_EQUIV to something may be replaced
2329 by that during reloading. We need only add dependencies for
2330 the address in the REG_EQUIV note. */
2332 {
2336 }
2338 /* Don't let it cross a call after scheduling if it doesn't
2339 already cross one. */
2341 {
2343 deps->sched_before_next_call
2345 else
2347 REG_DEP_ANTI);
2348 }
2349 }
2350 }
2352 /* Analyze a single SET, CLOBBER, PRE_DEC, POST_DEC, PRE_INC or POST_INC
2353 rtx, X, creating all dependencies generated by the write to the
2354 destination of X, and reads of everything mentioned. */
2356 static void
2358 {
2373 {
2381 insn);
2387 {
2393 }
2396 }
2400 {
2404 {
2405 /* These both read and modify the result. We must handle
2406 them as writes to get proper dependencies for following
2407 instructions. We must handle them as reads to get proper
2408 dependencies from this to previous instructions.
2409 Thus we need to call sched_analyze_2. */
2412 }
2414 {
2415 /* The second and third arguments are values read by this insn. */
2418 }
2420 }
2423 {
2429 #ifdef STACK_REGS
2430 /* Treat all writes to a stack register as modifying the TOS. */
2432 {
2433 /* Avoid analyzing the same register twice. */
2438 FIRST_STACK_REG);
2439 }
2440 #endif
2441 }
2443 {
2444 /* Writing memory. */
2448 {
2449 enum machine_mode address_mode
2456 }
2459 /* Pending lists can't get larger with a readonly context. */
2463 {
2464 /* Flush all pending reads and writes to prevent the pending lists
2465 from getting any larger. Insn scheduling runs too slowly when
2466 these lists get long. When compiling GCC with itself,
2467 this flush occurs 8 times for sparc, and 10 times for m88k using
2468 the default value of 32. */
2470 }
2471 else
2472 {
2478 {
2482 DEP_ANTI);
2486 }
2491 {
2495 DEP_OUTPUT);
2499 }
2502 REG_DEP_ANTI);
2504 REG_DEP_CONTROL);
2508 }
2510 }
2515 /* Analyze reads. */
2517 {
2523 }
2524 }
2526 /* Analyze the uses of memory and registers in rtx X in INSN. */
2527 static void
2529 {
2548 {
2556 /* Ignore constants. */
2562 #ifdef HAVE_cc0
2564 /* User of CC0 depends on immediately preceding insn. */
2566 /* Don't move CC0 setter to another block (it can set up the
2567 same flag for previous CC0 users which is safe). */
2574 #endif
2577 {
2583 #ifdef STACK_REGS
2584 /* Treat all reads of a stack register as modifying the TOS. */
2586 {
2587 /* Avoid analyzing the same register twice. */
2591 }
2592 #endif
2598 }
2601 {
2602 /* Reading memory. */
2603 rtx u;
2608 {
2609 enum machine_mode address_mode
2616 }
2619 {
2624 {
2629 DEP_ANTI);
2633 }
2638 {
2644 sched_deps_info->generate_spec_deps
2649 }
2656 {
2659 {
2661 MAX_DEP_WEAK);
2664 }
2665 else
2667 }
2668 }
2670 /* Always add these dependencies to pending_reads, since
2671 this insn may be followed by a write. */
2681 }
2683 /* Force pending stores to memory in case a trap handler needs them. */
2695 /* FALLTHRU */
2699 {
2700 /* Traditional and volatile asm instructions must be considered to use
2701 and clobber all hard registers, all pseudo-registers and all of
2702 memory. So must TRAP_IF and UNSPEC_VOLATILE operations.
2704 Consider for instance a volatile asm that changes the fpu rounding
2705 mode. An insn should not be moved across this even if it only uses
2706 pseudo-regs because it might give an incorrectly rounded result. */
2710 /* For all ASM_OPERANDS, we must traverse the vector of input operands.
2711 We can not just fall through here since then we would be confused
2712 by the ASM_INPUT rtx inside ASM_OPERANDS, which do not indicate
2713 traditional asms unlike their normal usage. */
2716 {
2724 }
2726 }
2732 /* These both read and modify the result. We must handle them as writes
2733 to get proper dependencies for following instructions. We must handle
2734 them as reads to get proper dependencies from this to previous
2735 instructions. Thus we need to pass them to both sched_analyze_1
2736 and sched_analyze_2. We must call sched_analyze_2 first in order
2737 to get the proper antecedent for the read. */
2748 /* op0 = op0 + op1 */
2760 }
2762 /* Other cases: walk the insn. */
2765 {
2771 }
2775 }
2777 /* Analyze an INSN with pattern X to find all dependencies. */
2778 static void
2780 {
2782 rtx link;
2784 reg_set_iterator rsi;
2787 {
2788 HARD_REG_SET temp;
2795 }
2801 /* Avoid moving trapping instructions accross function calls that might
2802 not always return. */
2806 /* We must avoid creating a situation in which two successors of the
2807 current block have different unwind info after scheduling. If at any
2808 point the two paths re-join this leads to incorrect unwind info. */
2809 /* ??? There are certain situations involving a forced frame pointer in
2810 which, with extra effort, we could fix up the unwind info at a later
2811 CFG join. However, it seems better to notice these cases earlier
2812 during prologue generation and avoid marking the frame pointer setup
2813 as frame-related at all. */
2815 deps->sched_before_next_jump
2819 {
2822 /* ??? Should be recording conditions so we reduce the number of
2823 false dependencies. */
2826 }
2828 {
2831 /* Bare clobber insns are used for letting life analysis, reg-stack
2832 and others know that a value is dead. Depend on the last call
2833 instruction so that reg-stack won't get confused. */
2836 REG_DEP_OUTPUT);
2837 }
2839 {
2841 {
2846 {
2850 }
2853 else
2855 }
2856 }
2857 else
2860 /* Mark registers CLOBBERED or used by called function. */
2862 {
2864 {
2867 else
2869 }
2872 }
2875 {
2876 rtx next;
2880 else
2881 {
2885 {
2889 /* Make latency of jump equal to 0 by using anti-dependence. */
2891 {
2897 REG_DEP_ANTI);
2898 }
2899 }
2901 /* All memory writes and volatile reads must happen before the
2902 jump. Non-volatile reads must happen before the jump iff
2903 the result is needed by the above register used mask. */
2908 {
2913 }
2918 {
2924 }
2927 REG_DEP_ANTI);
2929 REG_DEP_ANTI);
2930 }
2931 }
2933 /* If this instruction can throw an exception, then moving it changes
2934 where block boundaries fall. This is mighty confusing elsewhere.
2935 Therefore, prevent such an instruction from being moved. Same for
2936 non-jump instructions that define block boundaries.
2937 ??? Unclear whether this is still necessary in EBB mode. If not,
2938 add_branch_dependences should be adjusted for RGN mode instead. */
2944 {
2947 }
2949 /* Add register dependencies for insn. */
2951 {
2953 rtx u;
2962 REG_DEP_ANTI);
2969 {
2972 /* There's no point in making REG_DEP_CONTROL dependencies for
2973 debug insns. */
2978 }
2981 /* Quite often, a debug insn will refer to stuff in the
2982 previous instruction, but the reason we want this
2983 dependency here is to make sure the scheduler doesn't
2984 gratuitously move a debug insn ahead. This could dirty
2985 DF flags and cause additional analysis that wouldn't have
2986 occurred in compilation without debug insns, and such
2987 additional analysis can modify the generated code. */
2992 }
2993 else
2994 {
2995 regset_head set_or_clobbered;
2998 {
3005 {
3008 }
3009 }
3013 {
3017 REG_DEP_ANTI);
3021 {
3024 }
3025 }
3028 {
3031 reg_pending_sets);
3033 {
3035 rtx list;
3037 {
3042 }
3043 }
3044 }
3046 /* If the current insn is conditional, we can't free any
3047 of the lists. */
3049 {
3051 {
3055 REG_DEP_ANTI);
3058 REG_DEP_CONTROL);
3061 {
3062 reg_last->clobbers
3065 }
3066 }
3068 {
3072 REG_DEP_ANTI);
3076 REG_DEP_CONTROL);
3080 }
3081 }
3082 else
3083 {
3085 {
3089 {
3091 REG_DEP_OUTPUT);
3094 REG_DEP_ANTI);
3096 REG_DEP_ANTI);
3099 REG_DEP_ANTI);
3100 add_dependence_list_and_free
3104 {
3108 }
3109 }
3110 else
3111 {
3114 REG_DEP_ANTI);
3117 REG_DEP_CONTROL);
3118 }
3121 {
3123 reg_last->clobbers
3125 }
3126 }
3128 {
3132 REG_DEP_OUTPUT);
3137 REG_DEP_OUTPUT);
3139 REG_DEP_ANTI);
3141 REG_DEP_CONTROL);
3144 {
3148 }
3149 }
3150 }
3152 {
3154 {
3156 reg_last->control_uses
3158 }
3159 }
3160 }
3164 {
3172 reg_last->implicit_sets
3174 }
3177 {
3186 /* Set up the pending barrier found. */
3188 }
3197 /* Add dependencies if a scheduling barrier was found. */
3199 {
3200 /* In the case of barrier the most added dependencies are not
3201 real, so we use anti-dependence here. */
3203 {
3205 {
3209 reg_pending_barrier == TRUE_BARRIER
3212 REG_DEP_ANTI);
3214 reg_pending_barrier == TRUE_BARRIER
3216 }
3217 }
3218 else
3219 {
3221 {
3224 REG_DEP_ANTI);
3227 REG_DEP_CONTROL);
3229 reg_pending_barrier == TRUE_BARRIER
3233 REG_DEP_ANTI);
3235 reg_pending_barrier == TRUE_BARRIER
3239 {
3242 }
3243 }
3244 }
3248 {
3252 }
3254 /* Flush pending lists on jumps, but not on speculative checks. */
3260 }
3262 /* If a post-call group is still open, see if it should remain so.
3263 This insn must be a simple move of a hard reg to a pseudo or
3264 vice-versa.
3266 We must avoid moving these insns for correctness on targets
3267 with small register classes, and for special registers like
3268 PIC_OFFSET_TABLE_REGNUM. For simplicity, extend this to all
3269 hard regs for all targets. */
3272 {
3277 {
3279 /* We don't want to mark debug insns as part of the same
3280 sched group. We know they really aren't, but if we use
3281 debug insns to tell that a call group is over, we'll
3282 get different code if debug insns are not there and
3283 instructions that follow seem like they should be part
3284 of the call group.
3286 Also, if we did, fixup_sched_groups() would move the
3287 deps of the debug insn to the call insn, modifying
3288 non-debug post-dependency counts of the debug insn
3289 dependencies and otherwise messing with the scheduling
3290 order.
3292 Instead, let such debug insns be scheduled freely, but
3293 keep the call group open in case there are insns that
3294 should be part of it afterwards. Since we grant debug
3295 insns higher priority than even sched group insns, it
3296 will all turn out all right. */
3298 else
3300 }
3307 else
3321 else
3326 {
3332 {
3335 }
3336 }
3337 else
3338 {
3339 end_call_group:
3342 }
3343 }
3345 debug_dont_end_call_group:
3348 /* INSN has an internal dependency (e.g. r14 = [r14]) and thus cannot
3349 be speculated. */
3350 {
3353 else
3354 {
3355 sd_iterator_def sd_it;
3356 dep_t dep;
3361 }
3362 }
3363 }
3365 /* Return TRUE if INSN might not always return normally (e.g. call exit,
3366 longjmp, loop forever, ...). */
3367 static bool
3369 {
3370 rtx call;
3372 /* const or pure calls that aren't looping will always return. */
3385 {
3389 {
3393 {
3420 /* Assume certain string/memory builtins always return. */
3424 }
3425 }
3426 }
3428 /* For all other calls assume that they might not always return. */
3430 }
3432 /* Analyze INSN with DEPS as a context. */
3433 void
3435 {
3439 /* Record the condition for this insn. */
3441 {
3442 rtx t;
3451 {
3459 {
3464 }
3466 }
3467 }
3470 {
3471 /* Make each JUMP_INSN (but not a speculative check)
3472 a scheduling barrier for memory references. */
3476 {
3477 /* Keep the list a reasonable size. */
3480 else
3481 deps->pending_jump_insns
3483 }
3485 /* For each insn which shouldn't cross a jump, add a dependence. */
3488 REG_DEP_ANTI);
3491 }
3493 {
3495 }
3497 {
3503 {
3504 /* This is setjmp. Assume that all registers, not just
3505 hard registers, may be clobbered by this call. */
3507 }
3508 else
3509 {
3511 /* A call may read and modify global register variables. */
3513 {
3516 }
3517 /* Other call-clobbered hard regs may be clobbered.
3518 Since we only have a choice between 'might be clobbered'
3519 and 'definitely not clobbered', we must include all
3520 partly call-clobbered registers here. */
3524 /* We don't know what set of fixed registers might be used
3525 by the function, but it is certain that the stack pointer
3526 is among them, but be conservative. */
3529 /* The frame pointer is normally not used by the function
3530 itself, but by the debugger. */
3531 /* ??? MIPS o32 is an exception. It uses the frame pointer
3532 in the macro expansion of jal but does not represent this
3533 fact in the call_insn rtl. */
3538 }
3540 /* For each insn which shouldn't cross a call, add a dependence
3541 between that insn and this call insn. */
3544 REG_DEP_ANTI);
3548 /* If CALL would be in a sched group, then this will violate
3549 convention that sched group insns have dependencies only on the
3550 previous instruction.
3552 Of course one can say: "Hey! What about head of the sched group?"
3553 And I will answer: "Basic principles (one dep per insn) are always
3554 the same." */
3557 /* In the absence of interprocedural alias analysis, we must flush
3558 all pending reads and writes, and start new dependencies starting
3559 from here. But only flush writes for constant calls (which may
3560 be passed a pointer to something we haven't written yet). */
3564 {
3565 /* Remember the last function call for limiting lifetimes. */
3570 {
3571 /* Remember the last function call that might not always return
3572 normally for limiting moves of trapping insns. */
3574 deps->last_function_call_may_noreturn
3576 }
3578 /* Before reload, begin a post-call group, so as to keep the
3579 lifetimes of hard registers correct. */
3582 }
3583 }
3588 /* EH_REGION insn notes can not appear until well after we complete
3589 scheduling. */
3597 /* Fixup the dependencies in the sched group. */
3601 }
3603 /* Initialize DEPS for the new block beginning with HEAD. */
3604 void
3606 {
3609 /* Before reload, if the previous block ended in a call, show that
3610 we are inside a post-call group, so as to keep the lifetimes of
3611 hard registers correct. */
3613 {
3618 }
3619 }
3621 /* Analyze every insn between HEAD and TAIL inclusive, creating backward
3622 dependencies for each insn. */
3623 void
3625 {
3626 rtx insn;
3634 {
3637 {
3638 /* And initialize deps_lists. */
3640 }
3645 {
3649 }
3650 }
3652 }
3654 /* Helper for sched_free_deps ().
3655 Delete INSN's (RESOLVED_P) backward dependencies. */
3656 static void
3658 {
3659 sd_iterator_def sd_it;
3660 dep_t dep;
3661 sd_list_types_def types;
3665 else
3670 {
3673 deps_list_t back_list;
3674 deps_list_t forw_list;
3679 }
3680 }
3682 /* Delete (RESOLVED_P) dependencies between HEAD and TAIL together with
3683 deps_lists. */
3684 void
3686 {
3687 rtx insn;
3690 /* We make two passes since some insns may be scheduled before their
3691 dependencies are resolved. */
3694 {
3695 /* Clear forward deps and leave the dep_nodes to the
3696 corresponding back_deps list. */
3699 else
3701 }
3704 {
3705 /* Clear resolved back deps together with its dep_nodes. */
3709 }
3710 }
3711 \f
3712 /* Initialize variables for region data dependence analysis.
3713 When LAZY_REG_LAST is true, do not allocate reg_last array
3714 of struct deps_desc immediately. */
3716 void
3718 {
3724 else
3745 }
3747 /* Init only reg_last field of DEPS, which was not allocated before as
3748 we inited DEPS lazily. */
3749 void
3751 {
3756 }
3759 /* Free insn lists found in DEPS. */
3761 void
3763 {
3765 reg_set_iterator rsi;
3767 /* We set max_reg to 0 when this context was already freed. */
3769 {
3772 }
3781 /* Without the EXECUTE_IF_SET, this loop is executed max_reg * nr_regions
3782 times. For a testcase with 42000 regs and 8000 small basic blocks,
3783 this loop accounted for nearly 60% (84 sec) of the total -O2 runtime. */
3785 {
3797 }
3800 /* As we initialize reg_last lazily, it is possible that we didn't allocate
3801 it at all. */
3806 }
3808 /* Remove INSN from dependence contexts DEPS. */
3809 void
3811 {
3814 reg_set_iterator rsi;
3830 {
3843 }
3846 {
3850 }
3852 }
3854 /* Init deps data vector. */
3855 static void
3857 {
3864 }
3866 /* If it is profitable to use them, initialize or extend (depending on
3867 GLOBAL_P) dependency data. */
3868 void
3870 {
3871 /* Average number of insns in the basic block.
3872 '+ 1' is used to make it nonzero. */
3877 /* We use another caching mechanism for selective scheduling, so
3878 we don't use this one. */
3880 {
3881 /* ?!? We could save some memory by computing a per-region luid mapping
3882 which could reduce both the number of vectors in the cache and the
3883 size of each vector. Instead we just avoid the cache entirely unless
3884 the average number of instructions in a basic block is very high. See
3885 the comment before the declaration of true_dependency_cache for
3886 what we consider "very high". */
3889 }
3892 {
3894 /* Allocate lists for one block at a time. */
3895 insns_in_block);
3897 /* Allocate nodes for one block at a time.
3898 We assume that average insn has
3899 5 producers. */
3901 }
3902 }
3905 /* Create or extend (depending on CREATE_P) dependency caches to
3906 size N. */
3907 void
3909 {
3911 {
3915 luid);
3919 luid);
3921 luid);
3925 luid);
3928 {
3936 }
3938 }
3939 }
3941 /* Finalize dependency information for the whole function. */
3942 void
3944 {
3954 {
3958 {
3966 }
3977 {
3980 }
3982 }
3983 }
3985 /* Initialize some global variables needed by the dependency analysis
3986 code. */
3988 void
3990 {
4000 {
4010 }
4011 }
4013 /* Free everything used by the dependency analysis code. */
4015 void
4017 {
4022 }
4024 /* Estimate the weakness of dependence between MEM1 and MEM2. */
4025 dw_t
4027 {
4031 /* MEMs are the same - don't speculate. */
4040 /* Again, MEMs are the same. */
4044 /* Different addressing modes - reason to be more speculative,
4045 than usual. */
4047 else
4048 /* We can't say anything about the dependence. */
4050 }
4052 /* Add or update backward dependence between INSN and ELEM with type DEP_TYPE.
4053 This function can handle same INSN and ELEM (INSN == ELEM).
4054 It is a convenience wrapper. */
4055 static void
4057 {
4058 ds_t ds;
4067 else
4068 {
4071 }
4073 /* When add_dependence is called from inside sched-deps.c, we expect
4074 cur_insn to be non-null. */
4078 else
4084 }
4086 /* Return weakness of speculative type TYPE in the dep_status DS. */
4087 dw_t
4089 {
4093 {
4099 }
4102 }
4104 dw_t
4106 {
4111 }
4113 /* Return the dep_status, which has the same parameters as DS, except for
4114 speculative type TYPE, that will have weakness DW. */
4115 ds_t
4117 {
4122 {
4128 }
4130 }
4132 /* Return the join of two dep_statuses DS1 and DS2.
4133 If MAX_P is true then choose the greater probability,
4134 otherwise multiply probabilities.
4135 This function assumes that both DS1 and DS2 contain speculative bits. */
4136 static ds_t
4138 {
4146 do
4147 {
4153 {
4156 ds_t dw;
4159 {
4164 }
4165 else
4166 {
4169 else
4171 }
4174 }
4179 }
4183 }
4185 /* Return the join of two dep_statuses DS1 and DS2.
4186 This function assumes that both DS1 and DS2 contain speculative bits. */
4187 ds_t
4189 {
4191 }
4193 /* Return the join of two dep_statuses DS1 and DS2. */
4194 ds_t
4196 {
4200 {
4203 /* Then this dep can't be speculative. */
4205 else
4206 {
4207 /* Both are speculative. Merging probabilities. */
4209 {
4210 dw_t dw;
4214 }
4220 else
4222 }
4223 }
4226 }
4228 /* Return the join of DS1 and DS2. Use maximum instead of multiplying
4229 probabilities. */
4230 ds_t
4232 {
4243 }
4245 /* Return the probability of speculation success for the speculation
4246 status DS. */
4247 dw_t
4249 {
4254 do
4255 {
4257 {
4259 n++;
4260 }
4265 }
4278 }
4280 /* Return a dep status that contains all speculation types of DS. */
4281 ds_t
4283 {
4294 }
4296 /* Return a dep status that contains maximal weakness for each speculation
4297 type present in DS. */
4298 ds_t
4300 {
4311 }
4313 /* Dump information about the dependence status S. */
4314 static void
4316 {
4341 }
4343 DEBUG_FUNCTION void
4345 {
4348 }
4350 #ifdef ENABLE_CHECKING
4351 /* Verify that dependence type and status are consistent.
4352 If RELAXED_P is true, then skip dep_weakness checks. */
4353 static void
4355 {
4362 {
4365 }
4367 /* Check that dependence type contains the same bits as the status. */
4376 else
4381 /* HARD_DEP can not appear in dep_status of a link. */
4384 /* Check that dependence status is set correctly when speculation is not
4385 supported. */
4389 {
4391 {
4394 /* Check that dependence weakness is in proper range. */
4395 do
4396 {
4403 }
4405 }
4408 {
4409 /* Only true dependence can be data speculative. */
4413 /* Control dependencies in the insn scheduler are represented by
4414 anti-dependencies, therefore only anti dependence can be
4415 control speculative. */
4418 }
4419 else
4420 {
4421 /* Subsequent speculations should resolve true dependencies. */
4423 }
4425 /* Check that true and anti dependencies can't have other speculative
4426 statuses. */
4429 /* An output dependence can't be speculative at all. */
4433 }
4434 }