| blob | b410553f327cad14ac3b622835988900f87cb5ff |
1 /* Analyze RTL for C-Compiler
2 Copyright (C) 1987, 88, 92-97, 1998 Free Software Foundation, Inc.
4 This file is part of GNU CC.
6 GNU CC is free software; you can redistribute it and/or modify
7 it under the terms of the GNU General Public License as published by
8 the Free Software Foundation; either version 2, or (at your option)
9 any later version.
11 GNU CC is distributed in the hope that it will be useful,
12 but WITHOUT ANY WARRANTY; without even the implied warranty of
13 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 GNU General Public License for more details.
16 You should have received a copy of the GNU General Public License
17 along with GNU CC; see the file COPYING. If not, write to
18 the Free Software Foundation, 59 Temple Place - Suite 330,
19 Boston, MA 02111-1307, USA. */
31 /* Forward declarations */
34 /* Bit flags that specify the machine subtype we are compiling for.
35 Bits are tested using macros TARGET_... defined in the tm.h file
36 and set by `-m...' switches. Must be defined in rtlanal.c. */
39 \f
40 /* Return 1 if the value of X is unstable
41 (would be different at a different point in the program).
42 The frame pointer, arg pointer, etc. are considered stable
43 (within one function) and so is anything marked `unchanging'. */
45 int
47 rtx x;
48 {
74 }
76 /* Return 1 if X has a value that can vary even between two
77 executions of the program. 0 means X can be compared reliably
78 against certain constants or near-constants.
79 The frame pointer and the arg pointer are considered constant. */
81 int
83 rtx x;
84 {
90 {
103 /* Note that we have to test for the actual rtx used for the frame
104 and arg pointers and not just the register number in case we have
105 eliminated the frame and/or arg pointer and are using it
106 for pseudos. */
111 /* The operand 0 of a LO_SUM is considered constant
112 (in fact is it related specifically to operand 1). */
117 }
125 }
127 /* Return 0 if the use of X as an address in a MEM can cause a trap. */
129 static int
132 {
136 {
139 /* SYMBOL_REF is problematic due to the possible presence of
140 a #pragma weak, but to say that loads from symbols can trap is
141 *very* costly. It's not at all clear what's best here. For
142 now, we ignore the impact of #pragma weak. */
146 /* As in rtx_varies_p, we have to use the actual rtx, not reg number. */
154 /* An address is assumed not to trap if it is an address that can't
155 trap plus a constant integer. */
164 }
166 /* If it isn't one of the case above, it can cause a trap. */
168 }
170 /* Return 1 if X refers to a memory location whose address
171 cannot be compared reliably with constant addresses,
172 or if X refers to a BLKmode memory object. */
174 int
176 rtx x;
177 {
192 {
195 }
197 {
202 }
204 }
205 \f
206 /* Return the value of the integer term in X, if one is apparent;
207 otherwise return 0.
208 Only obvious integer terms are detected.
209 This is used in cse.c with the `related_value' field.*/
211 HOST_WIDE_INT
213 rtx x;
214 {
225 }
227 /* If X is a constant, return the value sans apparent integer term;
228 otherwise return 0.
229 Only obvious integer terms are detected. */
231 rtx
233 rtx x;
234 {
245 }
246 \f
247 /* Nonzero if register REG appears somewhere within IN.
248 Also works if REG is not a register; in this case it checks
249 for a subexpression of IN that is Lisp "equal" to REG. */
251 int
254 {
271 {
272 /* Compare registers by number. */
276 /* These codes have no constituent expressions
277 and are unique. */
287 /* These are kept unique for a given value. */
292 }
300 {
302 {
307 }
311 }
313 }
314 \f
315 /* Return 1 if in between BEG and END, exclusive of BEG and END, there is
316 no CODE_LABEL insn. */
318 int
321 {
327 }
329 /* Nonzero if register REG is used in an insn between
330 FROM_INSN and TO_INSN (exclusive of those two). */
332 int
335 {
349 }
350 \f
351 /* Nonzero if the old value of X, a register, is referenced in BODY. If X
352 is entirely replaced by a new value and the only use is as a SET_DEST,
353 we do not consider it a reference. */
355 int
357 rtx x;
358 rtx body;
359 {
363 {
368 /* If the destination is anything other than CC0, PC, a REG or a SUBREG
369 of a REG that occupies all of the REG, the insn references X if
370 it is mentioned in the destination. */
407 }
408 }
410 /* Nonzero if register REG is referenced in an insn between
411 FROM_INSN and TO_INSN (exclusive of those two). Sets of REG do
412 not count. */
414 int
417 {
430 }
431 \f
432 /* Nonzero if register REG is set or clobbered in an insn between
433 FROM_INSN and TO_INSN (exclusive of those two). */
435 int
438 {
449 }
451 /* Internals of reg_set_between_p. */
456 static void
458 rtx x;
459 rtx pat ATTRIBUTE_UNUSED;
460 {
461 /* We don't want to return 1 if X is a MEM that contains a register
462 within REG_SET_REG. */
467 }
469 int
472 {
475 /* We can be passed an insn or part of one. If we are passed an insn,
476 check if a side-effect of the insn clobbers REG. */
478 {
481 /* We'd like to test call_used_regs here, but rtlanal.c can't
482 reference that variable due to its use in genattrtab. So
483 we'll just be more conservative.
485 ??? Unless we could ensure that the CALL_INSN_FUNCTION_USAGE
486 information holds all clobbered registers. */
494 }
500 }
502 /* Similar to reg_set_between_p, but check all registers in X. Return 0
503 only if none of them are modified between START and END. Return 1 if
504 X contains a MEM; this routine does not perform any memory aliasing. */
506 int
508 rtx x;
510 {
516 {
529 /* If the memory is not constant, assume it is modified. If it is
530 constant, we still have to check the address. */
540 }
544 {
552 }
555 }
557 /* Similar to reg_set_p, but check all registers in X. Return 0 only if none
558 of them are modified in INSN. Return 1 if X contains a MEM; this routine
559 does not perform any memory aliasing. */
561 int
563 rtx x;
564 rtx insn;
565 {
571 {
584 /* If the memory is not constant, assume it is modified. If it is
585 constant, we still have to check the address. */
595 }
599 {
607 }
610 }
611 \f
612 /* Given an INSN, return a SET expression if this insn has only a single SET.
613 It may also have CLOBBERs, USEs, or SET whose output
614 will not be used, which we ignore. */
616 rtx
618 rtx insn;
619 {
620 rtx set;
630 {
636 {
639 else
641 }
643 }
646 }
647 \f
648 /* Return the last thing that X was assigned from before *PINSN. Verify that
649 the object is not modified up to VALID_TO. If it was, if we hit
650 a partial assignment to X, or hit a CODE_LABEL first, return X. If we
651 found an assignment, update *PINSN to point to it. */
653 rtx
655 rtx x;
657 rtx valid_to;
658 {
659 rtx p;
664 {
669 {
676 /* Reject hard registers because we don't usually want
677 to use them; we'd rather use a pseudo. */
680 {
683 }
684 }
686 /* If set in non-simple way, we don't have a value. */
689 }
692 }
693 \f
694 /* Return nonzero if register in range [REGNO, ENDREGNO)
695 appears either explicitly or implicitly in X
696 other than being stored into.
698 References contained within the substructure at LOC do not count.
699 LOC may be zero, meaning don't ignore anything. */
701 int
704 rtx x;
706 {
711 repeat:
712 /* The contents of a REG_NONNEG note is always zero, so we must come here
713 upon repeat in case the last REG_NOTE is a REG_NONNEG note. */
720 {
724 /* If we modifying the stack, frame, or argument pointer, it will
725 clobber a virtual register. In fact, we could be more precise,
726 but it isn't worth it. */
728 #if FRAME_POINTER_REGNUM != ARG_POINTER_REGNUM
730 #endif
741 /* If this is a SUBREG of a hard reg, we can see exactly which
742 registers are being modified. Otherwise, handle normally. */
745 {
747 int inner_endregno
752 }
758 /* Note setting a SUBREG counts as referring to the REG it is in for
759 a pseudo but not for hard registers since we can
760 treat each word individually. */
778 }
780 /* X does not match, so try its subexpressions. */
784 {
786 {
788 {
791 }
792 else
795 }
797 {
803 }
804 }
806 }
808 /* Nonzero if modifying X will affect IN. If X is a register or a SUBREG,
809 we check if any register number in X conflicts with the relevant register
810 numbers. If X is a constant, return 0. If X is a MEM, return 1 iff IN
811 contains a MEM (we don't bother checking for memory addresses that can't
812 conflict because we expect this to be a rare case. */
814 int
817 {
821 {
825 }
831 {
845 }
849 else
856 }
857 \f
858 /* Used for communications between the next few functions. */
864 /* Called via note_stores from reg_set_last. */
866 static void
868 rtx x;
869 rtx pat;
870 {
873 /* If X is not a register, or is not one in the range we care
874 about, ignore. */
886 /* If this is a CLOBBER or is some complex LHS, or doesn't modify
887 exactly the registers we care about, show we don't know the value. */
892 else
894 }
896 /* Return the last value to which REG was set prior to INSN. If we can't
897 find it easily, return 0.
899 We only return a REG, SUBREG, or constant because it is too hard to
900 check if a MEM remains unchanged. */
902 rtx
904 rtx x;
905 rtx insn;
906 {
911 reg_set_last_last_regno
912 = reg_set_last_first_regno
919 /* Scan backwards until reg_set_last_1 changed one of the above flags.
920 Stop when we reach a label or X is a hard reg and we reach a
921 CALL_INSN (if reg_set_last_last_regno is a hard reg).
923 If we find a set of X, ensure that its SET_SRC remains unchanged. */
925 /* We compare with <= here, because reg_set_last_last_regno
926 is actually the number of the first reg *not* in X. */
933 {
938 {
945 else
947 }
948 }
951 }
952 \f
953 /* This is 1 until after the rtl generation pass. */
956 /* Return 1 if X and Y are identical-looking rtx's.
957 This is the Lisp function EQUAL for rtx arguments. */
959 int
962 {
974 /* Rtx's of different codes cannot be equal. */
978 /* (MULT:SI x y) and (MULT:HI x y) are NOT equivalent.
979 (REG:SI x) and (REG:HI x) are NOT equivalent. */
984 /* REG, LABEL_REF, and SYMBOL_REF can be compared nonrecursively. */
987 /* Until rtl generation is complete, don't consider a reference to the
988 return register of the current function the same as the return from a
989 called function. This eases the job of function integration. Once the
990 distinction is no longer needed, they can be considered equivalent. */
992 && (! rtx_equal_function_value_matters
1001 /* Compare the elements. If any pair of corresponding elements
1002 fail to match, return 0 for the whole things. */
1006 {
1008 {
1022 /* Two vectors must have the same length. */
1026 /* And the corresponding elements must match. */
1044 /* These are just backpointers, so they don't matter. */
1050 /* It is believed that rtx's at this level will never
1051 contain anything but integers and other rtx's,
1052 except for within LABEL_REFs and SYMBOL_REFs. */
1055 }
1056 }
1058 }
1059 \f
1060 /* Call FUN on each register or MEM that is stored into or clobbered by X.
1061 (X would be the pattern of an insn).
1062 FUN receives two arguments:
1063 the REG, MEM, CC0 or PC being stored in or clobbered,
1064 the SET or CLOBBER rtx that does the store.
1066 If the item being stored in or clobbered is a SUBREG of a hard register,
1067 the SUBREG will be passed. */
1069 void
1073 {
1075 {
1085 }
1087 {
1090 {
1093 {
1104 }
1105 }
1106 }
1107 }
1108 \f
1109 /* Return nonzero if X's old contents don't survive after INSN.
1110 This will be true if X is (cc0) or if X is a register and
1111 X dies in INSN or because INSN entirely sets X.
1113 "Entirely set" means set directly and not through a SUBREG,
1114 ZERO_EXTRACT or SIGN_EXTRACT, so no trace of the old contents remains.
1115 Likewise, REG_INC does not count.
1117 REG may be a hard or pseudo reg. Renumbering is not taken into account,
1118 but for this use that makes no difference, since regs don't overlap
1119 during their lifetimes. Therefore, this function may be used
1120 at any time after deaths have been computed (in flow.c).
1122 If REG is a hard reg that occupies multiple machine registers, this
1123 function will only return 1 if each of those registers will be replaced
1124 by INSN. */
1126 int
1128 rtx insn;
1129 rtx x;
1130 {
1134 /* Can't use cc0_rtx below since this file is used by genattrtab.c. */
1150 }
1152 /* Utility function for dead_or_set_p to check an individual register. Also
1153 called from flow.c. */
1155 int
1157 rtx insn;
1159 {
1161 rtx link;
1163 /* REG_READ notes are not normally maintained after reload, so we
1164 ignore them if the are invalid. */
1166 #ifdef PRESERVE_DEATH_INFO_REGNO_P
1168 #endif
1169 )
1170 {
1171 /* See if there is a death note for something that includes
1172 TEST_REGNO. */
1174 {
1186 }
1187 }
1194 {
1197 /* A value is totally replaced if it is the destination or the
1198 destination is a SUBREG of REGNO that does not change the number of
1199 words in it. */
1215 }
1217 {
1221 {
1225 {
1244 }
1245 }
1246 }
1249 }
1251 /* Return the reg-note of kind KIND in insn INSN, if there is one.
1252 If DATUM is nonzero, look for one whose datum is DATUM. */
1254 rtx
1256 rtx insn;
1258 rtx datum;
1259 {
1262 /* Ignore anything that is not an INSN, JUMP_INSN or CALL_INSN. */
1271 }
1273 /* Return the reg-note of kind KIND in insn INSN which applies to register
1274 number REGNO, if any. Return 0 if there is no such reg-note. Note that
1275 the REGNO of this NOTE need not be REGNO if REGNO is a hard register;
1276 it might be the case that the note overlaps REGNO. */
1278 rtx
1280 rtx insn;
1283 {
1286 /* Ignore anything that is not an INSN, JUMP_INSN or CALL_INSN. */
1292 /* Verify that it is a register, so that scratch and MEM won't cause a
1293 problem here. */
1303 }
1305 /* Return true if DATUM, or any overlap of DATUM, of kind CODE is found
1306 in the CALL_INSN_FUNCTION_USAGE information of INSN. */
1308 int
1310 rtx insn;
1312 rtx datum;
1313 {
1314 /* If it's not a CALL_INSN, it can't possibly have a
1315 CALL_INSN_FUNCTION_USAGE field, so don't bother checking. */
1323 {
1327 link;
1332 }
1333 else
1334 {
1337 /* CALL_INSN_FUNCTION_USAGE information cannot contain references
1338 to pseudo registers, so don't bother checking. */
1341 {
1348 }
1349 }
1352 }
1354 /* Return true if REGNO, or any overlap of REGNO, of kind CODE is found
1355 in the CALL_INSN_FUNCTION_USAGE information of INSN. */
1357 int
1359 rtx insn;
1362 {
1365 /* CALL_INSN_FUNCTION_USAGE information cannot contain references
1366 to pseudo registers, so don't bother checking. */
1373 {
1380 && regnote
1384 }
1387 }
1388 \f
1389 /* Remove register note NOTE from the REG_NOTES of INSN. */
1391 void
1395 {
1399 {
1402 }
1406 {
1409 }
1412 }
1413 \f
1414 /* Nonzero if X contains any volatile instructions. These are instructions
1415 which may cause unpredictable machine state instructions, and thus no
1416 instructions should be moved or combined across them. This includes
1417 only volatile asms and UNSPEC_VOLATILE instructions. */
1419 int
1421 rtx x;
1422 {
1427 {
1446 /* case TRAP_IF: This isn't clear yet. */
1455 }
1457 /* Recursively scan the operands of this expression. */
1459 {
1464 {
1466 {
1469 }
1471 {
1476 }
1477 }
1478 }
1480 }
1482 /* Nonzero if X contains any volatile memory references
1483 UNSPEC_VOLATILE operations or volatile ASM_OPERANDS expressions. */
1485 int
1487 rtx x;
1488 {
1493 {
1511 /* case TRAP_IF: This isn't clear yet. */
1521 }
1523 /* Recursively scan the operands of this expression. */
1525 {
1530 {
1532 {
1535 }
1537 {
1542 }
1543 }
1544 }
1546 }
1548 /* Similar to above, except that it also rejects register pre- and post-
1549 incrementing. */
1551 int
1553 rtx x;
1554 {
1559 {
1575 /* Reject CLOBBER with a non-VOID mode. These are made by combine.c
1576 when some combination can't be done. If we see one, don't think
1577 that we can simplify the expression. */
1586 /* case TRAP_IF: This isn't clear yet. */
1596 }
1598 /* Recursively scan the operands of this expression. */
1600 {
1605 {
1607 {
1610 }
1612 {
1617 }
1618 }
1619 }
1621 }
1622 \f
1623 /* Return nonzero if evaluating rtx X might cause a trap. */
1625 int
1627 rtx x;
1628 {
1637 {
1638 /* Handle these cases quickly. */
1650 /* Conditional trap can trap! */
1655 /* Memory ref can trap unless it's a static var or a stack slot. */
1659 /* Division by a non-constant might trap. */
1667 /* This was const0_rtx, but by not using that,
1668 we can link this file into other programs. */
1674 /* An EXPR_LIST is used to represent a function call. This
1675 certainly may trap. */
1679 /* Any floating arithmetic may trap. */
1682 }
1686 {
1688 {
1691 }
1693 {
1698 }
1699 }
1701 }
1702 \f
1703 /* Return nonzero if X contains a comparison that is not either EQ or NE,
1704 i.e., an inequality. */
1706 int
1708 rtx x;
1709 {
1715 {
1739 }
1745 {
1747 {
1750 }
1752 {
1757 }
1758 }
1761 }
1762 \f
1763 /* Replace any occurrence of FROM in X with TO.
1765 Note that copying is not done so X must not be shared unless all copies
1766 are to be modified. */
1768 rtx
1771 {
1778 /* Allow this function to make replacements in EXPR_LISTs. */
1784 {
1790 }
1793 }
1794 \f
1795 /* Throughout the rtx X, replace many registers according to REG_MAP.
1796 Return the replacement for X (which may be X with altered contents).
1797 REG_MAP[R] is the replacement for register R, or 0 for don't replace.
1798 NREGS is the length of REG_MAP; regs >= NREGS are not mapped.
1800 We only support REG_MAP entries of REG or SUBREG. Also, hard registers
1801 should not be mapped to pseudos or vice versa since validate_change
1802 is not called.
1804 If REPLACE_DEST is 1, replacements are also done in destinations;
1805 otherwise, only sources are replaced. */
1807 rtx
1809 rtx x;
1813 {
1823 {
1835 /* Verify that the register has an entry before trying to access it. */
1837 {
1838 /* SUBREGs can't be shared. Always return a copy to ensure that if
1839 this replacement occurs more than once then each instance will
1840 get distinct rtx. */
1844 }
1848 /* Prevent making nested SUBREGs. */
1852 {
1858 else
1859 {
1860 /* We cannot call gen_rtx here since we may be linked with
1861 genattrtab.c. */
1862 /* Let's try clobbering the incoming SUBREG and see
1863 if this is really safe. */
1867 #if 0
1872 #endif
1873 }
1874 }
1883 /* Even if we are not to replace destinations, replace register if it
1884 is CONTAINED in destination (destination is memory or
1885 STRICT_LOW_PART). */
1889 /* Similarly, for ZERO_EXTRACT we replace all operands. */
1897 }
1901 {
1905 {
1910 }
1911 }
1913 }
1915 /* Return 1 if X, the SRC_SRC of SET of (pc) contain a REG or MEM that is
1916 not in the constant pool and not in the condition of an IF_THEN_ELSE. */
1918 static int
1920 rtx x;
1921 {
1927 {
1950 }
1954 {
1963 }
1966 }
1968 /* Return nonzero if INSN is an indirect jump (aka computed jump).
1970 Tablejumps and casesi insns are not considered indirect jumps;
1971 we can recognize them by a (use (lael_ref)). */
1973 int
1975 rtx insn;
1976 {
1979 {
1983 {
1999 }
2004 }
2006 }