| blob | 43641916d5298ab53f4b3c84d73cc182acb8a8f0 |
1 /* SCC value numbering for trees
2 Copyright (C) 2006-2018 Free Software Foundation, Inc.
3 Contributed by Daniel Berlin <dan@dberlin.org>
5 This file is part of GCC.
7 GCC is free software; you can redistribute it and/or modify
8 it under the terms of the GNU General Public License as published by
9 the Free Software Foundation; either version 3, or (at your option)
10 any later version.
12 GCC is distributed in the hope that it will be useful,
13 but WITHOUT ANY WARRANTY; without even the implied warranty of
14 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 GNU General Public License for more details.
17 You should have received a copy of the GNU General Public License
18 along with GCC; see the file COPYING3. If not see
19 <http://www.gnu.org/licenses/>. */
73 /* This algorithm is based on the SCC algorithm presented by Keith
74 Cooper and L. Taylor Simpson in "SCC-Based Value numbering"
75 (http://citeseer.ist.psu.edu/41805.html). In
76 straight line code, it is equivalent to a regular hash based value
77 numbering that is performed in reverse postorder.
79 For code with cycles, there are two alternatives, both of which
80 require keeping the hashtables separate from the actual list of
81 value numbers for SSA names.
83 1. Iterate value numbering in an RPO walk of the blocks, removing
84 all the entries from the hashtable after each iteration (but
85 keeping the SSA name->value number mapping between iterations).
86 Iterate until it does not change.
88 2. Perform value numbering as part of an SCC walk on the SSA graph,
89 iterating only the cycles in the SSA graph until they do not change
90 (using a separate, optimistic hashtable for value numbering the SCC
91 operands).
93 The second is not just faster in practice (because most SSA graph
94 cycles do not involve all the variables in the graph), it also has
95 some nice properties.
97 One of these nice properties is that when we pop an SCC off the
98 stack, we are guaranteed to have processed all the operands coming from
99 *outside of that SCC*, so we do not need to do anything special to
100 ensure they have value numbers.
102 Another nice property is that the SCC walk is done as part of a DFS
103 of the SSA graph, which makes it easy to perform combining and
104 simplifying operations at the same time.
106 The code below is deliberately written in a way that makes it easy
107 to separate the SCC walk from the other work it does.
109 In order to propagate constants through the code, we track which
110 expressions contain constants, and use those while folding. In
111 theory, we could also track expressions whose value numbers are
112 replaced, in case we end up folding based on expression
113 identities.
115 In order to value number memory, we assign value numbers to vuses.
116 This enables us to note that, for example, stores to the same
117 address of the same value from the same starting memory states are
118 equivalent.
119 TODO:
121 1. We can iterate only the changing portions of the SCC's, but
122 I have not seen an SCC big enough for this to be a win.
123 2. If you differentiate between phi nodes for loops and phi nodes
124 for if-then-else, you can properly consider phi nodes in different
125 blocks for equivalence.
126 3. We could value number vuses in more cases, particularly, whole
127 structure copies.
128 */
130 /* There's no BB_EXECUTABLE but we can use BB_VISITED. */
131 #define BB_EXECUTABLE BB_VISITED
137 /* vn_nary_op hashtable helpers. */
140 {
144 };
146 /* Return the computed hashcode for nary operation P1. */
148 inline hashval_t
150 {
152 }
154 /* Compare nary operations P1 and P2 and return true if they are
155 equivalent. */
159 {
161 }
167 /* vn_phi hashtable helpers. */
169 static int
173 {
176 };
178 /* Return the computed hashcode for phi operation P1. */
180 inline hashval_t
182 {
184 }
186 /* Compare two phi entries for equality, ignoring VN_TOP arguments. */
190 {
192 }
198 /* Compare two reference operands P1 and P2 for equality. Return true if
199 they are equal, and false otherwise. */
201 static int
203 {
208 /* We do not care for differences in type qualification. */
216 }
218 /* Free a reference operation structure VP. */
222 {
224 }
227 /* vn_reference hashtable helpers. */
230 {
233 };
235 /* Return the hashcode for a given reference operation P1. */
237 inline hashval_t
239 {
241 }
245 {
247 }
253 /* The set of VN hashtables. */
256 {
263 /* vn_constant hashtable helpers. */
266 {
269 };
271 /* Hash table hash function for vn_constant_t. */
273 inline hashval_t
275 {
277 }
279 /* Hash table equality function for vn_constant_t. */
283 {
288 }
294 /* Obstack we allocate the vn-tables elements from. */
296 /* Special obstack we never unwind. */
303 /* Valid hashtables storing information we have proven to be
304 correct. */
308 /* Valueization hook. Valueize NAME if it is an SSA name, otherwise
309 just return it. */
313 /* This represents the top of the VN lattice, which is the universal
314 value. */
316 tree VN_TOP;
318 /* Unique counter for our value ids. */
323 /* Table of vn_ssa_aux_t's, one per ssa_name. The vn_ssa_aux_t objects
324 are allocated on an obstack for locality reasons, and to free them
325 without looping over the vec. */
328 {
337 };
339 hashval_t
341 {
343 }
345 bool
347 {
349 }
365 /* Return whether there is value numbering information for a given SSA name. */
367 bool
369 {
371 }
373 vn_ssa_aux_t
375 {
376 vn_ssa_aux_t *res
378 INSERT);
386 /* We are using the visited flag to handle uses with defs not within the
387 region being value-numbered. */
390 /* Given we create the VN_INFOs on-demand now we have to do initialization
391 different than VN_TOP here. */
394 {
396 /* All undefined vars are VARYING. */
402 /* Parameters are VARYING but we can record a condition
403 if we know it is a non-NULL pointer. */
408 {
412 vn_nary_op_t nary;
413 /* Allocate from non-unwinding stack. */
421 /* Also do not link it into the undo chain. */
434 {
438 }
439 }
443 /* If the result is passed by invisible reference the default
444 def is initialized, otherwise it's uninitialized. Still
445 undefined is varying. */
452 }
454 }
456 /* Return the SSA value of X. */
458 inline tree
460 {
465 }
467 /* Return the SSA value of the VUSE x, supporting released VDEFs
468 during elimination which will value-number the VDEF to the
469 associated VUSE (but not substitute in the whole lattice). */
473 {
477 do
478 {
481 }
485 }
487 /* Similar to the above but used as callback for walk_non_aliases_vuses
488 and thus should stop at unvisited VUSE to not walk across region
489 boundaries. */
491 static tree
493 {
494 do
495 {
501 }
504 }
507 /* Return the vn_kind the expression computed by the stmt should be
508 associated with. */
510 enum vn_kind
512 {
514 {
520 {
524 {
531 {
533 /* VOP-less references can go through unary case. */
541 /* Fallthrough. */
555 }
558 }
559 }
562 }
563 }
565 /* Lookup a value id for CONSTANT and return it. If it does not
566 exist returns 0. */
568 unsigned int
570 {
580 }
582 /* Lookup a value id for CONSTANT, and if it does not exist, create a
583 new one and return it. If it does exist, return it. */
585 unsigned int
587 {
590 vn_constant_t vcp;
592 /* If the hashtable isn't initialized we're not running from PRE and thus
593 do not need value-ids. */
610 }
612 /* Return true if V is a value id for a constant. */
614 bool
616 {
618 }
620 /* Compute the hash for a reference operand VRO1. */
622 static void
624 {
632 }
634 /* Compute a hash for the reference operation VR1 and return it. */
636 static hashval_t
638 {
640 hashval_t result;
642 vn_reference_op_t vro;
647 {
653 {
657 }
658 else
659 {
666 {
668 {
672 }
673 }
674 else
676 }
677 }
679 /* ??? We would ICE later if we hash instead of adding that in. */
684 }
686 /* Return true if reference operations VR1 and VR2 are equivalent. This
687 means they have the same set of operands and vuses. */
689 bool
691 {
694 /* Early out if this is not a hash collision. */
698 /* The VOP needs to be the same. */
702 /* If the operands are the same we are done. */
711 {
714 }
726 do
727 {
733 {
736 /* Do not look through a storage order barrier. */
742 }
744 {
747 /* Do not look through a storage order barrier. */
753 }
757 {
764 }
766 {
773 }
780 }
785 }
787 /* Copy the operations present in load/store REF into RESULT, a vector of
788 vn_reference_op_s's. */
790 static void
792 {
794 {
795 vn_reference_op_s temp;
824 }
826 /* For non-calls, store the information that makes up the address. */
829 {
830 vn_reference_op_s temp;
838 {
847 /* The base address gets its own vn_reference_op_s structure. */
856 /* Record bits, position and storage order. */
864 /* The field decl is enough to unambiguously specify the field,
865 a matching type is not necessary and a mismatching type
866 is always a spurious difference. */
870 {
874 {
877 {
878 poly_offset_int off
881 /* Probibit value-numbering zero offset components
882 of addresses the same before the pass folding
883 __builtin_object_size had a chance to run
884 (checking cfun->after_inlining does the
885 trick here). */
890 }
891 }
892 }
896 {
898 /* Record index as operand. */
900 /* Always record lower bounds and element size. */
902 /* But record element size in units of the type alignment. */
911 {
917 }
918 }
922 {
925 }
926 /* Fallthru. */
930 /* Canonicalize decls to MEM[&decl] which is what we end up with
931 when valueizing MEM[ptr] with ptr = &decl. */
953 {
956 }
958 /* These are only interesting for their operands, their
959 existence, and their type. They will never be the last
960 ref in the chain of references (IE they require an
961 operand), so we don't have to put anything
962 for op* as it will be handled by the iteration */
971 /* This is only interesting for its constant offset. */
976 }
985 else
987 }
988 }
990 /* Build a alias-oracle reference abstraction in *REF from the vn_reference
991 operands in *OPS, the reference alias set SET and the reference type TYPE.
992 Return true if something useful was produced. */
994 bool
998 {
999 vn_reference_op_t op;
1004 poly_offset_int max_size;
1009 /* First get the final access size from just the outermost expression. */
1015 else
1016 {
1020 else
1022 }
1027 /* Initially, maxsize is the same as the accessed element size.
1028 In the following it will only grow (or become -1). */
1031 /* Compute cumulative bit-offset for nested component-refs and array-refs,
1032 and find the ultimate containing object. */
1034 {
1036 {
1037 /* These may be in the reference ops, but we cannot do anything
1038 sensible with them here. */
1040 /* Apart from ADDR_EXPR arguments to MEM_REF. */
1045 {
1049 {
1052 }
1053 else
1057 }
1058 /* Fallthru. */
1062 /* Record the base objects. */
1080 /* And now the usual component-reference style ops. */
1086 {
1088 /* We do not have a complete COMPONENT_REF tree here so we
1089 cannot use component_ref_field_offset. Do the interesting
1090 parts manually. */
1095 else
1096 {
1101 }
1103 }
1107 /* We recorded the lower bound and the element size. */
1112 else
1113 {
1114 poly_offset_int woffset
1121 }
1145 }
1146 }
1156 else
1158 /* We discount volatiles from value-numbering elsewhere. */
1162 {
1167 }
1170 {
1174 }
1180 }
1182 /* Copy the operations present in load/store/call REF into RESULT, a vector of
1183 vn_reference_op_s's. */
1185 static void
1188 {
1189 vn_reference_op_s temp;
1194 /* If 2 calls have a different non-ssa lhs, vdef value numbers should be
1195 different. By adding the lhs here in the vector, we ensure that the
1196 hashcode is different, guaranteeing a different value number. */
1198 {
1205 }
1207 /* Copy the type, opcode, function, static chain and EH region, if any. */
1218 /* Copy the call arguments. As they can be references as well,
1219 just chain them together. */
1221 {
1224 }
1225 }
1227 /* Fold *& at position *I_P in a vn_reference_op_s vector *OPS. Updates
1228 *I_P to point to the last element of the replacement. */
1229 static bool
1232 {
1236 tree addr_base;
1239 /* The only thing we have to do is from &OBJ.foo.bar add the offset
1240 from .foo.bar to the preceding MEM_REF offset and replace the
1241 address with &OBJ. */
1246 {
1247 poly_offset_int off
1249 SIGNED)
1255 else
1258 }
1260 }
1262 /* Fold *& at position *I_P in a vn_reference_op_s vector *OPS. Updates
1263 *I_P to point to the last element of the replacement. */
1264 static bool
1267 {
1273 poly_offset_int off;
1286 /* The only thing we have to do is from &OBJ.foo.bar add the offset
1287 from .foo.bar to the preceding MEM_REF offset and replace the
1288 address with &OBJ. */
1290 {
1292 poly_int64 addr_offset;
1297 /* If that didn't work because the address isn't invariant propagate
1298 the reference tree from the address operation in case the current
1299 dereference isn't offsetted. */
1303 /* This makes us disable this transform for PRE where the
1304 reference ops might be also used for code insertion which
1305 is invalid. */
1307 {
1310 /* Make sure to preserve TBAA info. The only objects not
1311 wrapped in MEM_REFs that can have their address taken are
1312 STRING_CSTs. */
1315 {
1317 new_mem_op->op0
1320 }
1321 else
1328 }
1338 }
1339 else
1340 {
1346 /* Make sure to not endlessly recurse.
1347 See gcc.dg/tree-ssa/20040408-1.c for an example. Can easily
1348 happen when we value-number a PHI to its backedge value. */
1355 }
1360 else
1362 /* ??? Can end up with endless recursion here!?
1363 gcc.c-torture/execute/strcmp-1.c */
1369 /* And recurse. */
1375 }
1377 /* Optimize the reference REF to a constant if possible or return
1378 NULL_TREE if not. */
1380 tree
1382 {
1384 vn_reference_op_t op;
1386 /* Try to simplify the translated expression if it is
1387 a call to a builtin function with at most two arguments. */
1395 {
1411 {
1422 }
1423 }
1425 /* Simplify reads from constants or constant initializers. */
1429 {
1431 HOST_WIDE_INT size;
1436 else
1444 {
1446 {
1449 }
1454 {
1457 }
1458 }
1469 {
1473 else
1475 }
1479 {
1480 HOST_WIDE_INT const_off;
1482 {
1487 {
1491 }
1492 }
1494 {
1499 }
1500 }
1501 }
1504 }
1506 /* Return true if OPS contain a storage order barrier. */
1508 static bool
1510 {
1511 vn_reference_op_t op;
1519 }
1521 /* Transform any SSA_NAME's in a vector of vn_reference_op_s
1522 structures into their value numbers. This is done in-place, and
1523 the vector passed in is returned. *VALUEIZED_ANYTHING will specify
1524 whether any operands were valueized. */
1529 {
1530 vn_reference_op_t vro;
1536 {
1539 {
1542 {
1545 }
1546 /* If it transforms from an SSA_NAME to a constant, update
1547 the opcode. */
1550 }
1552 {
1555 {
1558 }
1559 }
1561 {
1564 {
1567 }
1568 }
1569 /* If it transforms from an SSA_NAME to an address, fold with
1570 a preceding indirect reference. */
1575 {
1578 }
1582 {
1585 }
1586 /* If it transforms a non-constant ARRAY_REF into a constant
1587 one, adjust the constant offset. */
1593 {
1599 }
1600 }
1603 }
1607 {
1610 }
1614 /* Create a vector of vn_reference_op_s structures from REF, a
1615 REFERENCE_CLASS_P tree. The vector is shared among all callers of
1616 this function. *VALUEIZED_ANYTHING will specify whether any
1617 operands were valueized. */
1621 {
1627 valueized_anything);
1629 }
1631 /* Create a vector of vn_reference_op_s structures from CALL, a
1632 call statement. The vector is shared among all callers of
1633 this function. */
1637 {
1644 }
1646 /* Lookup a SCCVN reference operation VR in the current hash table.
1647 Returns the resulting value number if it exists in the hash table,
1648 NULL_TREE otherwise. VNRESULT will be filled in with the actual
1649 vn_reference_t stored in the hashtable if something is found. */
1651 static tree
1653 {
1655 hashval_t hash;
1660 {
1664 }
1667 }
1669 /* Callback for walk_non_aliased_vuses. Adjusts the vn_reference_t VR_
1670 with the current VUSE and performs the expression lookup. */
1675 {
1678 hashval_t hash;
1680 /* This bounds the stmt walks we perform on reference lookups
1681 to O(1) instead of O(N) where N is the number of dominating
1682 stores. */
1689 /* Fixup vuse and hash. */
1702 }
1704 /* Lookup an existing or insert a new vn_reference entry into the
1705 value table for the VUSE, SET, TYPE, OPERANDS reference which
1706 has the value VALUE which is either a constant or an SSA name. */
1708 static vn_reference_t
1710 alias_set_type set,
1711 tree type,
1714 tree value)
1715 {
1716 vn_reference_s vr1;
1717 vn_reference_t result;
1728 else
1732 }
1734 /* Return a value-number for RCODE OPS... either by looking up an existing
1735 value-number for the simplified result or by inserting the operation if
1736 INSERT is true. */
1738 static tree
1740 {
1742 /* We will be creating a value number for
1743 RCODE (OPS...).
1744 So first simplify and lookup this expression to see if it
1745 is already available. */
1749 {
1759 }
1764 {
1765 /* The expression is already available. */
1767 /* Valueize it, simplification returns sth in AVAIL only. */
1770 }
1771 else
1772 {
1775 {
1779 {
1782 }
1783 }
1784 else
1785 /* The expression is already available. */
1787 }
1789 {
1790 /* The expression is not yet available, value-number lhs to
1791 the new SSA_NAME we created. */
1792 /* Initialize value-number information properly. */
1798 new_stmt);
1800 /* ??? PRE phi-translation inserts NARYs without corresponding
1801 SSA name result. Re-use those but set their result according
1802 to the stmt we just built. */
1806 {
1809 }
1810 /* As all "inserted" statements are singleton SCCs, insert
1811 to the valid table. This is strictly needed to
1812 avoid re-generating new value SSA_NAMEs for the same
1813 expression during SCC iteration over and over (the
1814 optimistic table gets cleared after each iteration).
1815 We do not need to insert into the optimistic table, as
1816 lookups there will fall back to the valid table. */
1817 else
1818 {
1820 vn_nary_op_t vno1
1828 /* Also do not link it into the undo chain. */
1831 }
1833 {
1839 }
1840 }
1842 }
1844 /* Return a value-number for RCODE OPS... either by looking up an existing
1845 value-number for the simplified result or by inserting the operation. */
1847 static tree
1849 {
1851 }
1853 /* Try to simplify the expression RCODE OPS... of type TYPE and return
1854 its value if present. */
1856 tree
1858 {
1865 }
1867 basic_block vn_context_bb;
1869 /* Callback for walk_non_aliased_vuses. Tries to perform a lookup
1870 from the statement defining VUSE and if not successful tries to
1871 translate *REFP and VR_ through an aggregate copy at the definition
1872 of VUSE. If *DISAMBIGUATE_ONLY is true then do not perform translation
1873 of *REF and *VR. If only disambiguation was performed then
1874 *DISAMBIGUATE_ONLY is set to true. */
1879 {
1885 ao_ref lhs_ref;
1887 poly_int64 copy_size;
1889 /* First try to disambiguate after value-replacing in the definitions LHS. */
1891 {
1894 /* Avoid re-allocation overhead. */
1902 {
1908 {
1911 }
1912 }
1913 else
1914 {
1917 }
1919 /* If we reach a clobbering statement try to skip it and see if
1920 we find a VN result with exactly the same value as the
1921 possible clobber. In this case we can ignore the clobber
1922 and return the found value.
1923 Note that we don't need to worry about partial overlapping
1924 accesses as we then can use TBAA to disambiguate against the
1925 clobbering statement when looking up a load (thus the
1926 VN_WALKREWRITE guard). */
1930 {
1932 /* Do not update last_vuse_ptr in vn_reference_lookup_2. */
1938 /* Need to restore vr->vuse and vr->hashcode. */
1943 {
1949 }
1950 }
1951 }
1954 {
1955 /* For builtin calls valueize its arguments and call the
1956 alias oracle again. Valueization may improve points-to
1957 info of pointers and constify size and position arguments.
1958 Originally this was motivated by PR61034 which has
1959 conditional calls to free falsely clobbering ref because
1960 of imprecise points-to info of the argument. */
1964 {
1968 {
1971 }
1972 }
1974 {
1976 ref);
1980 {
1983 }
1984 }
1985 }
1990 /* If we cannot constrain the size of the reference we cannot
1991 test if anything kills it. */
1998 /* We can't deduce anything useful from clobbers. */
2002 /* def_stmt may-defs *ref. See if we can derive a value for *ref
2003 from that definition.
2004 1) Memset. */
2016 {
2017 tree base2;
2022 {
2027 {
2032 }
2033 }
2035 {
2043 }
2045 {
2046 poly_int64 soff;
2053 {
2061 {
2065 }
2066 else
2068 }
2069 }
2070 else
2075 {
2076 tree val;
2081 {
2089 }
2090 else
2091 {
2095 len);
2099 }
2100 return vn_reference_lookup_or_insert_for_pieces
2102 }
2103 }
2105 /* 2) Assignment from an empty CONSTRUCTOR. */
2110 {
2111 tree base2;
2119 {
2121 return vn_reference_lookup_or_insert_for_pieces
2123 }
2124 }
2126 /* 3) Assignment from a constant. We can use folds native encode/interpret
2127 routines to extract the assigned bits. */
2133 /* native_encode and native_decode operate on arrays of bytes
2134 and so fundamentally need a compile-time size and offset. */
2142 {
2143 tree base2;
2149 && !reverse
2154 {
2155 /* We support up to 512-bit values (for V8DFmode). */
2166 {
2168 /* Make sure to interpret in a type that has a range
2169 covering the whole access size. */
2176 /* If we chop off bits because the types precision doesn't
2177 match the memory access size this is ok when optimizing
2178 reads but not when called from the DSE code during
2179 elimination. */
2182 {
2185 else
2187 }
2190 return vn_reference_lookup_or_insert_for_pieces
2192 }
2193 }
2194 }
2196 /* 4) Assignment from an SSA name which definition we may be able
2197 to access pieces from. */
2203 {
2204 tree base2;
2215 /* ??? We can't handle bitfield precision extracts without
2216 either using an alternate type for the BIT_FIELD_REF and
2217 then doing a conversion or possibly adjusting the offset
2218 according to endianness. */
2222 {
2232 {
2233 vn_reference_t res = vn_reference_lookup_or_insert_for_pieces
2236 }
2237 }
2238 }
2240 /* 5) For aggregate copies translate the reference through them if
2241 the copy kills ref. */
2247 {
2248 tree base2;
2251 vn_reference_op_t vro;
2252 ao_ref r;
2257 /* See if the assignment kills REF. */
2269 /* Find the common base of ref and the lhs. lhs_ops already
2270 contains valueized operands for the lhs. */
2275 {
2276 i--;
2277 j--;
2278 }
2280 /* ??? The innermost op should always be a MEM_REF and we already
2281 checked that the assignment to the lhs kills vr. Thus for
2282 aggregate copies using char[] types the vn_reference_op_eq
2283 may fail when comparing types for compatibility. But we really
2284 don't care here - further lookups with the rewritten operands
2285 will simply fail if we messed up types too badly. */
2290 {
2295 {
2298 }
2299 }
2301 /* i now points to the first additional op.
2302 ??? LHS may not be completely contained in VR, one or more
2303 VIEW_CONVERT_EXPRs could be in its way. We could at least
2304 try handling outermost VIEW_CONVERT_EXPRs. */
2308 /* Punt if the additional ops contain a storage order barrier. */
2310 {
2314 }
2316 /* Now re-write REF to be based on the rhs of the assignment. */
2319 /* Apply an extra offset to the inner MEM_REF of the RHS. */
2321 {
2331 extra_off));
2332 }
2334 /* We need to pre-pend vr->operands[0..i] to rhs. */
2338 else
2347 /* Try folding the new reference to a constant. */
2350 return vn_reference_lookup_or_insert_for_pieces
2353 /* Adjust *ref from the new operands. */
2356 /* This can happen with bitfields. */
2361 /* Do not update last seen VUSE after translating. */
2364 /* Keep looking for the adjusted *REF / VR pair. */
2366 }
2368 /* 6) For memcpy copies translate the reference through them if
2369 the copy kills ref. */
2372 /* ??? Handle BCOPY as well. */
2381 {
2383 ao_ref r;
2385 vn_reference_op_s op;
2386 poly_uint64 mem_offset;
2389 /* Only handle non-variable, addressable refs. */
2395 /* Extract a pointer base and an offset for the destination. */
2399 {
2402 {
2407 }
2408 }
2410 {
2417 {
2422 }
2425 else
2427 }
2432 /* Extract a pointer base and an offset for the source. */
2438 {
2445 {
2448 }
2452 else
2454 }
2459 /* The bases of the destination and the references have to agree. */
2461 {
2466 }
2472 /* If the access is completely outside of the memcpy destination
2473 area there is no aliasing. */
2476 /* And the access has to be contained within the memcpy destination. */
2480 /* Make room for 2 operands in the new reference. */
2482 {
2487 }
2488 else
2491 /* The looked-through reference is a simple MEM_REF. */
2505 /* Try folding the new reference to a constant. */
2508 return vn_reference_lookup_or_insert_for_pieces
2511 /* Adjust *ref from the new operands. */
2514 /* This can happen with bitfields. */
2519 /* Do not update last seen VUSE after translating. */
2522 /* Keep looking for the adjusted *REF / VR pair. */
2524 }
2526 /* Bail out and stop walking. */
2528 }
2530 /* Return a reference op vector from OP that can be used for
2531 vn_reference_lookup_pieces. The caller is responsible for releasing
2532 the vector. */
2536 {
2539 }
2541 /* Lookup a reference operation by it's parts, in the current hash table.
2542 Returns the resulting value number if it exists in the hash table,
2543 NULL_TREE otherwise. VNRESULT will be filled in with the actual
2544 vn_reference_t stored in the hashtable if something is found. */
2546 tree
2550 {
2552 vn_reference_t tmp;
2553 tree cst;
2578 {
2579 ao_ref r;
2584 vn_reference_lookup_2,
2585 vn_reference_lookup_3,
2588 }
2594 }
2596 /* Lookup OP in the current hash table, and return the resulting value
2597 number if it exists in the hash table. Return NULL_TREE if it does
2598 not exist in the hash table or if the result field of the structure
2599 was NULL.. VNRESULT will be filled in with the vn_reference_t
2600 stored in the hashtable if one exists. When TBAA_P is false assume
2601 we are looking up a store and treat it as having alias-set zero. */
2603 tree
2606 {
2609 tree cst;
2626 {
2627 vn_reference_t wvnresult;
2628 ao_ref r;
2629 /* Make sure to use a valueized reference if we valueized anything.
2630 Otherwise preserve the full reference for advanced TBAA. */
2638 wvnresult =
2640 vn_reference_lookup_2,
2641 vn_reference_lookup_3,
2645 {
2649 }
2652 }
2655 }
2657 /* Lookup CALL in the current hash table and return the entry in
2658 *VNRESULT if found. Populates *VR for the hashtable lookup. */
2660 void
2662 vn_reference_t vr)
2663 {
2675 }
2677 /* Insert OP into the current hash table with a value number of RESULT. */
2679 static void
2681 {
2683 vn_reference_t vr1;
2689 else
2700 INSERT);
2702 /* Because IL walking on reference lookup can end up visiting
2703 a def that is only to be visited later in iteration order
2704 when we are about to make an irreducible region reducible
2705 the def can be effectively processed and its ref being inserted
2706 by vn_reference_lookup_3 already. So we cannot assert (!*slot)
2707 but save a lookup if we deal with already inserted refs here. */
2709 {
2710 /* We cannot assert that we have the same value either because
2711 when disentangling an irreducible region we may end up visiting
2712 a use before the corresponding def. That's a missed optimization
2713 only though. See gcc.dg/tree-ssa/pr87126.c for example. */
2716 {
2720 }
2724 }
2729 }
2731 /* Insert a reference by it's pieces into the current hash table with
2732 a value number of RESULT. Return the resulting reference
2733 structure we created. */
2735 vn_reference_t
2740 {
2742 vn_reference_t vr1;
2756 INSERT);
2758 /* At this point we should have all the things inserted that we have
2759 seen before, and we should never try inserting something that
2760 already exists. */
2767 }
2769 /* Compute and return the hash value for nary operation VBO1. */
2771 static hashval_t
2773 {
2789 {
2792 }
2799 }
2801 /* Compare nary operations VNO1 and VNO2 and return true if they are
2802 equivalent. */
2804 bool
2806 {
2823 /* BIT_INSERT_EXPR has an implict operand as the type precision
2824 of op1. Need to check to make sure they are the same. */
2832 }
2834 /* Initialize VNO from the pieces provided. */
2836 static void
2839 {
2844 }
2846 /* Initialize VNO from OP. */
2848 static void
2850 {
2858 }
2860 /* Return the number of operands for a vn_nary ops structure from STMT. */
2862 static unsigned int
2864 {
2866 {
2880 }
2881 }
2883 /* Initialize VNO from STMT. */
2885 static void
2887 {
2893 {
2919 }
2920 }
2922 /* Compute the hashcode for VNO and look for it in the hash table;
2923 return the resulting value number if it exists in the hash table.
2924 Return NULL_TREE if it does not exist in the hash table or if the
2925 result field of the operation is NULL. VNRESULT will contain the
2926 vn_nary_op_t from the hashtable if it exists. */
2928 static tree
2930 {
2943 }
2945 /* Lookup a n-ary operation by its pieces and return the resulting value
2946 number if it exists in the hash table. Return NULL_TREE if it does
2947 not exist in the hash table or if the result field of the operation
2948 is NULL. VNRESULT will contain the vn_nary_op_t from the hashtable
2949 if it exists. */
2951 tree
2954 {
2959 }
2961 /* Lookup OP in the current hash table, and return the resulting value
2962 number if it exists in the hash table. Return NULL_TREE if it does
2963 not exist in the hash table or if the result field of the operation
2964 is NULL. VNRESULT will contain the vn_nary_op_t from the hashtable
2965 if it exists. */
2967 tree
2969 {
2970 vn_nary_op_t vno1
2975 }
2977 /* Lookup the rhs of STMT in the current hash table, and return the resulting
2978 value number if it exists in the hash table. Return NULL_TREE if
2979 it does not exist in the hash table. VNRESULT will contain the
2980 vn_nary_op_t from the hashtable if it exists. */
2982 tree
2984 {
2985 vn_nary_op_t vno1
2990 }
2992 /* Allocate a vn_nary_op_t with LENGTH operands on STACK. */
2994 static vn_nary_op_t
2996 {
2998 }
3000 /* Allocate and initialize a vn_nary_op_t on CURRENT_INFO's
3001 obstack. */
3003 static vn_nary_op_t
3005 {
3014 }
3016 /* Insert VNO into TABLE. If COMPUTE_HASH is true, then compute
3017 VNO->HASHCODE first. */
3019 static vn_nary_op_t
3022 {
3026 {
3031 }
3036 {
3037 /* Prefer non-predicated values.
3038 ??? Only if those are constant, otherwise, with constant predicated
3039 value, turn them into predicated values with entry-block validity
3040 (??? but we always find the first valid result currently). */
3043 {
3044 /* ??? We cannot remove *slot from the unwind stack list.
3045 For the moment we deal with this by skipping not found
3046 entries but this isn't ideal ... */
3048 /* ??? Maintain a stack of states we can unwind in
3049 vn_nary_op_s? But how far do we unwind? In reality
3050 we need to push change records somewhere... Or not
3051 unwind vn_nary_op_s and linking them but instead
3052 unwind the results "list", linking that, which also
3053 doesn't move on hashtable resize. */
3054 /* We can also have a ->unwind_to recording *slot there.
3055 That way we can make u.values a fixed size array with
3056 recording the number of entries but of course we then
3057 have always N copies for each unwind_to-state. Or we
3058 make sure to only ever append and each unwinding will
3059 pop off one entry (but how to deal with predicated
3060 replaced with non-predicated here?) */
3064 }
3070 {
3071 /* ??? Factor this all into a insert_single_predicated_value
3072 routine. */
3074 basic_block vno_bb
3080 {
3082 {
3085 {
3086 basic_block val_bb
3090 /* Value registered with more generic predicate. */
3093 /* Shouldn't happen, we insert in RPO order. */
3095 }
3096 /* Append value. */
3111 }
3112 /* Copy other predicated values. */
3119 }
3127 }
3129 /* While we do not want to insert things twice it's awkward to
3130 avoid it in the case where visit_nary_op pattern-matches stuff
3131 and ends up simplifying the replacement to itself. We then
3132 get two inserts, one from visit_nary_op and one from
3133 vn_nary_build_or_lookup.
3134 So allow inserts with the same value number. */
3137 }
3139 /* ??? There's also optimistic vs. previous commited state merging
3140 that is problematic for the case of unwinding. */
3142 /* ??? We should return NULL if we do not use 'vno' and have the
3143 caller release it. */
3150 }
3152 /* Insert a n-ary operation into the current hash table using it's
3153 pieces. Return the vn_nary_op_t structure we created and put in
3154 the hashtable. */
3156 vn_nary_op_t
3160 {
3164 }
3166 static vn_nary_op_t
3170 edge pred_e)
3171 {
3172 /* ??? Currently tracking BBs. */
3174 {
3175 /* Never record for backedges. */
3178 edge_iterator ei;
3179 edge e;
3181 /* Ignore backedges. */
3184 cnt++;
3187 }
3189 /* ??? Fix dumping, but currently we only get comparisons. */
3191 {
3199 }
3210 }
3212 static bool
3215 static tree
3217 {
3223 BASIC_BLOCK_FOR_FN
3227 }
3229 /* Insert OP into the current hash table with a value number of
3230 RESULT. Return the vn_nary_op_t structure we created and put in
3231 the hashtable. */
3233 vn_nary_op_t
3235 {
3237 vn_nary_op_t vno1;
3242 }
3244 /* Insert the rhs of STMT into the current hash table with a value number of
3245 RESULT. */
3247 static vn_nary_op_t
3249 {
3250 vn_nary_op_t vno1
3255 }
3257 /* Compute a hashcode for PHI operation VP1 and return it. */
3261 {
3264 tree phi1op;
3265 tree type;
3266 edge e;
3267 edge_iterator ei;
3269 /* If all PHI arguments are constants we need to distinguish
3270 the PHI node via its type. */
3275 {
3276 /* Don't hash backedge values they need to be handled as VN_TOP
3277 for optimistic value-numbering. */
3285 }
3288 }
3291 /* Return true if COND1 and COND2 represent the same condition, set
3292 *INVERTED_P if one needs to be inverted to make it the same as
3293 the other. */
3295 static bool
3298 {
3304 ;
3311 {
3314 }
3315 else
3323 }
3325 /* Compare two phi entries for equality, ignoring VN_TOP arguments. */
3327 static int
3329 {
3334 {
3339 {
3341 /* Single-arg PHIs are just copies. */
3345 {
3346 /* Rule out backedges into the PHI. */
3351 /* If the PHI nodes do not have compatible types
3352 they are not the same. */
3356 basic_block idom1
3358 basic_block idom2
3360 /* If the immediate dominator end in switch stmts multiple
3361 values may end up in the same PHI arg via intermediate
3362 CFG merges. */
3367 /* Verify the controlling stmt is the same. */
3378 /* Get at true/false controlled edges into the PHI. */
3386 /* Swap edges if the second condition is the inverted of the
3387 first. */
3391 /* ??? Handle VN_TOP specially. */
3399 }
3403 }
3404 }
3406 /* If the PHI nodes do not have compatible types
3407 they are not the same. */
3411 /* Any phi in the same block will have it's arguments in the
3412 same edge order, because of how we store phi nodes. */
3414 {
3421 }
3424 }
3426 /* Lookup PHI in the current hash table, and return the resulting
3427 value number if it exists in the hash table. Return NULL_TREE if
3428 it does not exist in the hash table. */
3430 static tree
3432 {
3435 edge e;
3436 edge_iterator ei;
3442 /* Canonicalize the SSA_NAME's to their value number. */
3444 {
3450 }
3453 /* Extract values of the controlling condition. */
3459 {
3460 /* ??? We want to use SSA_VAL here. But possibly not
3461 allow VN_TOP. */
3464 }
3470 }
3472 /* Insert PHI into the current hash table with a value number of
3473 RESULT. */
3475 static vn_phi_t
3477 {
3483 edge e;
3484 edge_iterator ei;
3486 /* Canonicalize the SSA_NAME's to their value number. */
3488 {
3494 }
3498 /* Extract values of the controlling condition. */
3504 {
3505 /* ??? We want to use SSA_VAL here. But possibly not
3506 allow VN_TOP. */
3509 }
3520 }
3523 /* Return true if BB1 is dominated by BB2 taking into account edges
3524 that are not executable. */
3526 static bool
3528 {
3529 edge_iterator ei;
3530 edge e;
3535 /* Before iterating we'd like to know if there exists a
3536 (executable) path from bb2 to bb1 at all, if not we can
3537 directly return false. For now simply iterate once. */
3539 /* Iterate to the single executable bb1 predecessor. */
3541 {
3545 {
3547 {
3550 }
3552 }
3554 {
3557 /* Re-do the dominance check with changed bb1. */
3560 }
3561 }
3563 /* Iterate to the single executable bb2 successor. */
3567 {
3569 {
3572 }
3574 }
3576 {
3577 /* Verify the reached block is only reached through succe.
3578 If there is only one edge we can spare us the dominator
3579 check and iterate directly. */
3581 {
3585 {
3588 }
3589 }
3591 {
3594 /* Re-do the dominance check with changed bb2. */
3597 }
3598 }
3600 /* We could now iterate updating bb1 / bb2. */
3602 }
3604 /* Set the value number of FROM to TO, return true if it has changed
3605 as a result. */
3609 {
3614 /* The only thing we allow as value numbers are ssa_names
3615 and invariants. So assert that here. We don't allow VN_TOP
3616 as visiting a stmt should produce a value-number other than
3617 that.
3618 ??? Still VN_TOP can happen for unreachable code, so force
3619 it to varying in that case. Not all code is prepared to
3620 get VN_TOP on valueization. */
3622 {
3623 /* ??? When iterating and visiting PHI <undef, backedge-value>
3624 for the first time we rightfully get VN_TOP and we need to
3625 preserve that to optimize for example gcc.dg/tree-ssa/ssa-sccvn-2.c.
3626 With SCCVN we were simply lucky we iterated the other PHI
3627 cycles first and thus visited the backedge-value DEF. */
3634 }
3642 {
3644 {
3646 {
3652 }
3654 }
3659 {
3661 {
3670 }
3672 }
3676 }
3678 set_and_exit:
3680 {
3685 }
3689 /* Different undefined SSA names are not actually different. See
3690 PR82320 for a testcase were we'd otherwise not terminate iteration. */
3695 /* ??? For addresses involving volatile objects or types operand_equal_p
3696 does not reliably detect ADDR_EXPRs as equal. We know we are only
3697 getting invariant gimple addresses here, so can use
3698 get_addr_base_and_unit_offset to do this comparison. */
3704 {
3709 }
3713 }
3715 /* Set all definitions in STMT to value number to themselves.
3716 Return true if a value number changed. */
3718 static bool
3720 {
3722 ssa_op_iter iter;
3723 def_operand_p defp;
3726 {
3729 }
3731 }
3733 /* Visit a copy between LHS and RHS, return true if the value number
3734 changed. */
3736 static bool
3738 {
3739 /* Valueize. */
3743 }
3745 /* Lookup a value for OP in type WIDE_TYPE where the value in type of OP
3746 is the same. */
3748 static tree
3750 {
3754 /* Either we have the op widened available. */
3762 /* Or the op is truncated from some existing value. */
3764 {
3768 {
3771 {
3775 }
3776 }
3777 }
3779 /* For constants simply extend it. */
3784 }
3786 /* Visit a nary operator RHS, value number it, and return true if the
3787 value number of LHS has changed as a result. */
3789 static bool
3791 {
3792 vn_nary_op_t vnresult;
3799 /* Do some special pattern matching for redundancies of operations
3800 in different types. */
3805 {
3806 CASE_CONVERT:
3807 /* Match arithmetic done in a different type where we can easily
3808 substitute the result from some earlier sign-changed or widened
3809 operation. */
3812 /* We only handle sign-changes or zero-extension -> & mask. */
3816 {
3822 {
3824 /* Either we have the op widened available. */
3831 {
3834 /* We have wider operation available. */
3836 {
3840 {
3845 {
3849 }
3850 }
3851 else
3852 {
3853 tree mask = wide_int_to_tree
3856 BIT_AND_EXPR,
3861 {
3865 }
3866 }
3867 }
3868 }
3869 }
3870 }
3872 }
3877 }
3879 /* Visit a call STMT storing into LHS. Return true if the value number
3880 of the LHS has changed as a result. */
3882 static bool
3884 {
3890 /* Non-ssa lhs is handled in copy_reference_ops_from_call. */
3896 {
3900 /* If the call was discovered to be pure or const reflect
3901 that as far as possible. */
3909 }
3910 else
3911 {
3912 vn_reference_t vr2;
3916 {
3917 /* If we value numbered an indirect functions function to
3918 one not clobbering memory value number its VDEF to its
3919 VUSE. */
3922 {
3929 }
3931 }
3936 /* As we are not walking the virtual operand chain we know the
3937 shared_lookup_references are still original so we can re-use
3938 them here. */
3946 INSERT);
3951 }
3954 }
3956 /* Visit a load from a reference operator RHS, part of STMT, value number it,
3957 and return true if the value number of the LHS has changed as a result. */
3959 static bool
3961 {
3963 tree last_vuse;
3964 tree result;
3972 /* We handle type-punning through unions by value-numbering based
3973 on offset and size of the access. Be prepared to handle a
3974 type-mismatch here via creating a VIEW_CONVERT_EXPR. */
3977 {
3978 /* We will be setting the value number of lhs to the value number
3979 of VIEW_CONVERT_EXPR <TREE_TYPE (result)> (result).
3980 So first simplify and lookup this expression to see if it
3981 is already available. */
3985 /* When building the conversion fails avoid inserting the reference
3986 again. */
3989 }
3993 else
3994 {
3997 }
4000 }
4003 /* Visit a store to a reference operator LHS, part of STMT, value number it,
4004 and return true if the value number of the LHS has changed as a result. */
4006 static bool
4008 {
4011 tree assign;
4019 /* First we want to lookup using the *vuses* from the store and see
4020 if there the last store to this location with the same address
4021 had the same value.
4023 The vuses represent the memory state before the store. If the
4024 memory state, address, and value of the store is the same as the
4025 last store to this location, then this store will produce the
4026 same memory state as that store.
4028 In this case the vdef versions for this store are value numbered to those
4029 vuse versions, since they represent the same memory state after
4030 this store.
4032 Otherwise, the vdefs for the store are used when inserting into
4033 the table, since the store generates a new memory state. */
4038 {
4044 {
4045 /* If the TBAA state isn't compatible for downstream reads
4046 we cannot value-number the VDEFs the same. */
4051 }
4052 }
4055 {
4056 /* Only perform the following when being called from PRE
4057 which embeds tail merging. */
4059 {
4063 {
4066 }
4067 }
4070 {
4077 }
4078 /* Have to set value numbers before insert, since insert is
4079 going to valueize the references in-place. */
4083 /* Do not insert structure copies into the tables. */
4088 /* Only perform the following when being called from PRE
4089 which embeds tail merging. */
4091 {
4094 }
4095 }
4096 else
4097 {
4098 /* We had a match, so value number the vdef to have the value
4099 number of the vuse it came from. */
4106 }
4109 }
4111 /* Visit and value number PHI, return true if the value number
4112 changed. When BACKEDGES_VARYING_P is true then assume all
4113 backedge values are varying. When INSERTED is not NULL then
4114 this is just a ahead query for a possible iteration, set INSERTED
4115 to true if we'd insert into the hashtable. */
4117 static bool
4119 {
4126 edge_iterator ei;
4127 edge e;
4129 /* TODO: We could check for this in initialization, and replace this
4130 with a gcc_assert. */
4134 /* We track whether a PHI was CSEd to to avoid excessive iterations
4135 that would be necessary only because the PHI changed arguments
4136 but not value. */
4140 /* See if all non-TOP arguments have the same value. TOP is
4141 equivalent to everything, so we can ignore it. */
4144 {
4149 {
4154 }
4158 ;
4159 /* Ignore undefined defs for sameval but record one. */
4167 {
4168 /* We know we're arriving only with invariant addresses here,
4169 try harder comparing them. We can do some caching here
4170 which we cannot do in expressions_equal_p. */
4174 {
4176 sameval_base = get_addr_base_and_unit_offset
4184 }
4187 }
4188 }
4190 /* If the value we want to use is flowing over the backedge and we
4191 should take it as VARYING but it has a non-VARYING value drop to
4192 VARYING.
4193 If we value-number a virtual operand never value-number to the
4194 value from the backedge as that confuses the alias-walking code.
4195 See gcc.dg/torture/pr87176.c. If the value is the same on a
4196 non-backedge everything is OK though. */
4198 && !seen_non_backedge
4203 /* Note this just drops to VARYING without inserting the PHI into
4204 the hashes. */
4206 /* If none of the edges was executable keep the value-number at VN_TOP,
4207 if only a single edge is exectuable use its value. */
4210 /* If we saw only undefined values and VN_TOP use one of the
4211 undefined values. */
4214 /* First see if it is equivalent to a phi node in this block. We prefer
4215 this as it allows IV elimination - see PRs 66502 and 67167. */
4217 {
4221 {
4224 {
4229 }
4230 }
4231 }
4232 /* If all values are the same use that, unless we've seen undefined
4233 values as well and the value isn't constant.
4234 CCP/copyprop have the same restriction to not remove uninit warnings. */
4238 else
4239 {
4241 /* Only insert PHIs that are varying, for constant value numbers
4242 we mess up equivalences otherwise as we are only comparing
4243 the immediate controlling predicates. */
4247 }
4250 }
4252 /* Try to simplify RHS using equivalences and constant folding. */
4254 static tree
4256 {
4258 tree tem;
4260 /* For stores we can end up simplifying a SSA_NAME rhs. Just return
4261 in this case, there is no point in doing extra work. */
4265 /* First try constant folding based on our current lattice. */
4275 }
4277 /* Visit and value number STMT, return true if the value number
4278 changed. */
4280 static bool
4282 {
4286 {
4289 }
4296 {
4300 tree simplified;
4302 /* Shortcut for copies. Simplifying copies is pointless,
4303 since we copy the expression and value they represent. */
4306 {
4309 }
4312 {
4314 {
4320 }
4321 }
4322 /* Setting value numbers to constants will occasionally
4323 screw up phi congruence because constants are not
4324 uniquely associated with a single ssa name that can be
4325 looked up. */
4329 {
4332 }
4336 {
4339 }
4342 /* We can substitute SSA_NAMEs that are live over
4343 abnormal edges with their constant value. */
4346 && !(simplified
4349 /* Stores or copies from SSA_NAMEs that are live over
4350 abnormal edges are a problem. */
4358 {
4361 || (simplified
4363 {
4366 else
4368 }
4369 else
4370 {
4371 /* Visit the original statement. */
4373 {
4383 }
4384 }
4385 }
4386 else
4388 }
4390 {
4393 {
4394 /* Try constant folding based on our current lattice. */
4396 vn_valueize);
4398 {
4400 {
4406 }
4407 }
4408 /* Setting value numbers to constants will occasionally
4409 screw up phi congruence because constants are not
4410 uniquely associated with a single ssa name that can be
4411 looked up. */
4414 {
4420 }
4423 {
4429 }
4431 {
4434 }
4435 }
4437 /* Pick up flags from a devirtualization target. */
4441 {
4446 }
4449 and the same operands do not necessarily return the same
4450 value, unless they're pure or const. */
4453 /* If calls have a vdef, subsequent calls won't have
4454 the same incoming vuse. So, if 2 calls with vdef have the
4455 same vuse, we know they're not subsequent.
4456 We can value number 2 calls to the same function with the
4457 same vuse and the same operands which are not subsequent
4458 the same, because there is no code in the program that can
4459 compare the 2 values... */
4461 /* ... unless the call returns a pointer which does
4462 not alias with anything else. In which case the
4463 information that the values are distinct are encoded
4464 in the IL. */
4466 /* Only perform the following when being called from PRE
4467 which embeds tail merging. */
4470 else
4472 }
4473 else
4475 done:
4477 }
4480 /* Allocate a value number table. */
4482 static void
4484 {
4488 }
4490 /* Free a value number table. */
4492 static void
4494 {
4495 /* Walk over elements and release vectors. */
4496 vn_reference_iterator_type hir;
4497 vn_reference_t vr;
4506 }
4508 /* Set *ID according to RESULT. */
4510 static void
4512 {
4517 else
4519 }
4521 /* Set the value ids in the valid hash tables. */
4523 static void
4525 {
4526 vn_nary_op_iterator_type hin;
4527 vn_phi_iterator_type hip;
4528 vn_reference_iterator_type hir;
4529 vn_nary_op_t vno;
4530 vn_reference_t vr;
4531 vn_phi_t vp;
4533 /* Now set the value ids of the things we had put in the hash
4534 table. */
4544 hir)
4546 }
4548 /* Return the maximum value id we have ever seen. */
4550 unsigned int
4552 {
4554 }
4556 /* Return the next unique value id. */
4558 unsigned int
4560 {
4562 }
4565 /* Compare two expressions E1 and E2 and return true if they are equal. */
4567 bool
4569 {
4570 /* The obvious case. */
4574 /* If either one is VN_TOP consider them equal. */
4578 /* If only one of them is null, they cannot be equal. */
4582 /* Now perform the actual comparison. */
4588 }
4591 /* Return true if the nary operation NARY may trap. This is a copy
4592 of stmt_could_throw_1_p adjusted to the SCCVN IL. */
4594 bool
4596 {
4597 tree type;
4609 {
4613 {
4616 }
4620 }
4624 honor_trapv,
4636 }
4640 {
4661 /* SSA names that had their defs inserted by PRE if do_pre. */
4662 bitmap inserted_exprs;
4664 /* Blocks with statements that have had their EH properties changed. */
4665 bitmap need_eh_cleanup;
4667 /* Blocks with statements that have had their AB properties changed. */
4668 bitmap need_ab_cleanup;
4670 /* Local state for the eliminate domwalk. */
4675 };
4678 bitmap inserted_exprs_)
4682 {
4685 }
4688 {
4691 }
4693 /* Return a leader for OP that is available at the current point of the
4694 eliminate domwalk. */
4696 tree
4698 {
4701 {
4706 }
4710 }
4712 /* At the current point of the eliminate domwalk make OP available. */
4714 void
4716 {
4719 {
4727 }
4728 }
4730 /* Insert the expression recorded by SCCVN for VAL at *GSI. Returns
4731 the leader for the expression if insertion was successful. */
4733 tree
4736 {
4737 /* We can insert a sequence with a single assignment only. */
4758 tree res;
4768 else
4774 {
4777 /* During propagation we have to treat SSA info conservatively
4778 and thus we can end up simplifying the inserted expression
4779 at elimination time to sth not defined in stmts. */
4780 /* But then this is a redundancy we failed to detect. Which means
4781 res now has two values. That doesn't play well with how
4782 we track availability here, so give up. */
4784 {
4788 {
4794 }
4795 }
4798 }
4799 else
4800 {
4804 }
4806 insertions++;
4808 {
4811 }
4814 }
4816 void
4818 {
4824 /* See PR43491. Do not replace a global register variable when
4825 it is a the RHS of an assignment. Do replace local register
4826 variables since gcc does not guarantee a local variable will
4827 be allocated in register.
4828 ??? The fix isn't effective here. This should instead
4829 be ensured by not value-numbering them the same but treating
4830 them like volatiles? */
4835 {
4838 {
4839 /* If there is no existing usable leader but SCCVN thinks
4840 it has an expression it wants to use as replacement,
4841 insert that. */
4849 }
4851 /* If this now constitutes a copy duplicate points-to
4852 and range info appropriately. This is especially
4853 important for inserted code. See tree-ssa-copy.c
4854 for similar code. */
4857 {
4862 {
4866 mark_ptr_info_alignment_unknown
4868 }
4876 }
4878 /* Inhibit the use of an inserted PHI on a loop header when
4879 the address of the memory reference is a simple induction
4880 variable. In other cases the vectorizer won't do anything
4881 anyway (either it's loop invariant or a complicated
4882 expression). */
4885 && do_pre
4891 {
4896 {
4898 ssa_op_iter iter;
4899 tree op;
4902 {
4903 affine_iv iv;
4908 {
4911 }
4912 }
4914 {
4916 {
4924 }
4925 /* Don't keep sprime available. */
4927 }
4928 }
4929 }
4932 {
4933 /* If we can propagate the value computed for LHS into
4934 all uses don't bother doing anything with this stmt. */
4936 {
4937 /* Mark it for removal. */
4940 /* ??? Don't count copy/constant propagations. */
4947 {
4954 }
4956 eliminations++;
4958 }
4960 /* If this is an assignment from our leader (which
4961 happens in the case the value-number is a constant)
4962 then there is nothing to do. */
4967 /* Else replace its RHS. */
4968 bool can_make_abnormal_goto
4973 {
4980 }
4982 eliminations++;
4992 /* In case the VDEF on the original stmt was released, value-number
4993 it to the VUSE. This is to make vuse_ssa_val able to skip
4994 released virtual operands. */
4996 {
4999 }
5001 /* If we removed EH side-effects from the statement, clean
5002 its EH information. */
5004 {
5009 }
5011 /* Likewise for AB side-effects. */
5014 {
5019 }
5022 }
5023 }
5025 /* If the statement is a scalar store, see if the expression
5026 has the same value number as its rhs. If so, the store is
5027 dead. */
5033 {
5034 tree val;
5036 vn_reference_t vnresult;
5043 {
5044 /* We can only remove the later store if the former aliases
5045 at least all accesses the later one does or if the store
5046 was to readonly memory storing the same value. */
5051 {
5053 {
5056 }
5058 /* Queue stmt for removal. */
5061 }
5062 }
5063 }
5065 /* If this is a control statement value numbering left edges
5066 unexecuted on force the condition in a way consistent with
5067 that. */
5069 {
5072 {
5074 {
5077 }
5081 else
5086 }
5087 }
5095 /* If we didn't replace the whole stmt (or propagate the result
5096 into all uses), replace all uses on this stmt with their
5097 leaders. */
5099 use_operand_p use_p;
5100 ssa_op_iter iter;
5102 {
5104 /* ??? The call code above leaves stmt operands un-updated. */
5107 tree sprime;
5109 /* ??? For default defs BB shouldn't matter, but we have to
5110 solve the inconsistency between rpo eliminate and
5111 dom eliminate avail valueization first. */
5113 else
5114 /* Look for sth available at the definition block of the argument.
5115 This avoids inconsistencies between availability there which
5116 decides if the stmt can be removed and availability at the
5117 use site. The SSA property ensures that things available
5118 at the definition are also available at uses. */
5122 /* We substitute into debug stmts to avoid excessive
5123 debug temporaries created by removed stmts, but we need
5124 to avoid doing so for inserted sprimes as we never want
5125 to create debug temporaries for them. */
5126 && (!inserted_exprs
5130 {
5133 }
5134 }
5136 /* Fold the stmt if modified, this canonicalizes MEM_REFs we propagated
5137 into which is a requirement for the IPA devirt machinery. */
5140 {
5141 /* If a formerly non-invariant ADDR_EXPR is turned into an
5142 invariant one it was on a separate stmt. */
5149 {
5150 /* fold_stmt may have created new stmts inbetween
5151 the previous stmt and the folded stmt. Mark
5152 all defs created there as varying to not confuse
5153 the SCCVN machinery as we're using that even during
5154 elimination. */
5157 else
5160 do
5161 {
5162 tree def;
5163 ssa_op_iter dit;
5166 /* As existing DEFs may move between stmts
5167 only process new ones. */
5169 {
5172 }
5176 }
5178 }
5180 /* In case we folded the stmt away schedule the NOP for removal. */
5183 }
5185 /* Visit indirect calls and turn them into direct calls if
5186 possible using the devirtualization machinery. Do this before
5187 checking for required EH/abnormal/noreturn cleanup as devird
5188 may expose more of those. */
5190 {
5193 && flag_devirtualize
5195 {
5197 unsigned HOST_WIDE_INT otr_tok
5199 tree instance;
5213 {
5214 tree fn;
5217 else
5220 {
5222 "converting indirect call to "
5225 }
5227 /* If changing the call to __builtin_unreachable
5228 or similar noreturn function, adjust gimple_call_fntype
5229 too. */
5238 }
5239 }
5240 }
5243 {
5244 /* When changing a call into a noreturn call, cfg cleanup
5245 is needed to fix up the noreturn call. */
5249 /* When changing a condition or switch into one we know what
5250 edge will be executed, schedule a cfg cleanup. */
5258 /* If we removed EH side-effects from the statement, clean
5259 its EH information. */
5261 {
5266 }
5267 /* Likewise for AB side-effects. */
5270 {
5275 }
5277 /* In case the VDEF on the original stmt was released, value-number
5278 it to the VUSE. This is to make vuse_ssa_val able to skip
5279 released virtual operands. */
5282 }
5284 /* Make new values available - for fully redundant LHS we
5285 continue with the next stmt above and skip this. */
5286 def_operand_p defp;
5289 }
5291 /* Perform elimination for the basic-block B during the domwalk. */
5293 edge
5295 {
5296 /* Mark new bb. */
5299 /* Skip unreachable blocks marked unreachable during the SCCVN domwalk. */
5306 {
5311 {
5314 }
5319 {
5321 {
5327 }
5329 /* If we inserted this PHI node ourself, it's not an elimination. */
5332 eliminations++;
5334 /* If we will propagate into all uses don't bother to do
5335 anything. */
5337 {
5338 /* Mark the PHI for removal. */
5342 }
5352 }
5356 }
5363 /* Replace destination PHI arguments. */
5364 edge_iterator ei;
5365 edge e;
5371 {
5381 }
5386 }
5388 /* Make no longer available leaders no longer available. */
5390 void
5392 {
5393 tree entry;
5395 {
5400 else
5402 }
5403 }
5405 /* Remove queued stmts and perform delayed cleanups. */
5407 unsigned
5409 {
5413 /* We cannot remove stmts during BB walk, especially not release SSA
5414 names there as this confuses the VN machinery. The stmts ending
5415 up in to_remove are either stores or simple copies.
5416 Remove stmts in reverse order to make debug stmt creation possible. */
5418 {
5422 /* When we are value-numbering a region we do not require exit PHIs to
5423 be present so we have to make sure to deal with uses outside of the
5424 region of stmts that we thought are eliminated.
5425 ??? Note we may be confused by uses in dead regions we didn't run
5426 elimination on. Rather than checking individual uses we accept
5427 dead copies to be generated here (gcc.c-torture/execute/20060905-1.c
5428 contains such example). */
5430 {
5432 {
5435 {
5441 gimple_stmt_iterator gsi
5445 }
5446 }
5450 {
5457 {
5464 }
5465 else
5466 {
5470 }
5471 }
5472 }
5475 {
5478 }
5483 else
5484 {
5493 }
5495 /* Removing a stmt may expose a forwarder block. */
5497 }
5499 /* Fixup stmts that became noreturn calls. This may require splitting
5500 blocks and thus isn't possible during the dominator walk. Do this
5501 in reverse order so we don't inadvertedly remove a stmt we want to
5502 fixup by visiting a dominating now noreturn call first. */
5504 {
5508 {
5511 }
5515 }
5530 }
5532 /* Eliminate fully redundant computations. */
5534 unsigned
5536 {
5541 }
5543 static unsigned
5547 void
5549 {
5553 /* ??? Prune requirement of these. */
5557 /* Initialize the value ids and prune out remaining VN_TOPs
5558 from dead code. */
5559 tree name;
5562 {
5571 }
5573 /* Propagate. */
5575 {
5581 }
5586 {
5589 {
5592 {
5597 }
5598 }
5599 }
5600 }
5602 /* Free VN associated data structures. */
5604 void
5606 {
5612 vn_ssa_aux_iterator_type it;
5613 vn_ssa_aux_t info;
5623 }
5625 /* Adaptor to the elimination engine using RPO availability. */
5628 {
5638 basic_block entry;
5639 /* Instead of having a local availability lattice for each
5640 basic-block and availability at X defined as union of
5641 the local availabilities at X and its dominators we're
5642 turning this upside down and track availability per
5643 value given values are usually made available at very
5644 few points (at least one).
5645 So we have a value -> vec<location, leader> map where
5646 LOCATION is specifying the basic-block LEADER is made
5647 available for VALUE. We push to this vector in RPO
5648 order thus for iteration we can simply pop the last
5649 entries.
5650 LOCATION is the basic-block index and LEADER is its
5651 SSA name version. */
5652 /* ??? We'd like to use auto_vec here with embedded storage
5653 but that doesn't play well until we can provide move
5654 constructors and use std::move on hash-table expansion.
5655 So for now this is a bit more expensive than necessary.
5656 We eventually want to switch to a chaining scheme like
5657 for hashtable entries for unwinding which would make
5658 making the vector part of the vn_ssa_aux structure possible. */
5660 rpo_avail_t m_rpo_avail;
5661 };
5663 /* Global RPO state for access from hooks. */
5666 /* Hook for maybe_push_res_to_seq, lookup the expression in the VN tables. */
5668 static tree
5670 {
5676 /* ??? We're arriving here with SCCVNs view, decomposed CONSTRUCTOR
5677 and GIMPLEs / match-and-simplifies, CONSTRUCTOR as GENERIC tree. */
5679 {
5684 }
5688 /* If this is used from expression simplification make sure to
5689 return an available expression. */
5693 }
5696 {
5697 /* Release the avail vectors. */
5701 }
5703 /* Return a leader for OPs value that is valid at BB. */
5705 tree
5707 {
5710 /* If we didn't visit OP then it must be defined outside of the
5711 region we process and also dominate it. So it is available. */
5715 {
5723 /* On tramp3d 90% of the cases are here. */
5725 do
5726 {
5728 /* ??? During elimination we have to use availability at the
5729 definition site of a use we try to replace. This
5730 is required to not run into inconsistencies because
5731 of dominated_by_p_w_unex behavior and removing a definition
5732 while not replacing all uses.
5733 ??? We could try to consistently walk dominators
5734 ignoring non-executable regions. The nearest common
5735 dominator of bb and abb is where we can stop walking. We
5736 may also be able to "pre-compute" (bits of) the next immediate
5737 (non-)dominator during the RPO walk when marking edges as
5738 executable. */
5740 {
5742 /* Prevent eliminations that break loop-closed SSA. */
5747 bb))
5750 {
5755 }
5756 /* On tramp3d 99% of the _remaining_ cases succeed at
5757 the first enty. */
5759 }
5760 /* ??? Can we somehow skip to the immediate dominator
5761 RPO index (bb_to_rpo)? Again, maybe not worth, on
5762 tramp3d the worst number of elements in the vector is 9. */
5763 }
5765 }
5767 /* valnum is is_gimple_min_invariant. */
5770 }
5772 /* Make LEADER a leader for its value at BB. */
5774 void
5776 {
5781 {
5787 }
5791 {
5795 }
5797 }
5799 /* Valueization hook for RPO VN plus required state. */
5801 tree
5803 {
5805 {
5808 {
5811 {
5814 /* For all values we only valueize to an available leader
5815 which means we can use SSA name info without restriction. */
5819 }
5820 }
5821 }
5823 }
5825 /* Insert on PRED_E predicates derived from CODE OPS being true besides the
5826 inverted condition. */
5828 static void
5830 {
5832 {
5834 /* a < b -> a {!,<}= b */
5839 /* a < b -> ! a {>,=} b */
5846 /* a > b -> a {!,>}= b */
5851 /* a > b -> ! a {<,=} b */
5858 /* a == b -> ! a {<,>} b */
5867 /* Nothing besides inverted condition. */
5870 }
5871 }
5873 /* Main stmt worker for RPO VN, process BB. */
5875 static unsigned
5879 {
5881 edge_iterator ei;
5882 edge e;
5886 /* If we are in loop-closed SSA preserve this state. This is
5887 relevant when called on regions from outside of FRE/PRE. */
5894 {
5897 }
5899 /* Value-number all defs in the basic-block. */
5902 {
5907 {
5911 }
5913 /* When not iterating force backedge values to varying. */
5918 /* Eliminate */
5919 /* The interesting case is gcc.dg/tree-ssa/pr22230.c for correctness
5920 how we handle backedges and availability.
5921 And gcc.dg/tree-ssa/ssa-sccvn-2.c for optimization. */
5924 {
5926 {
5928 /* Preserve loop-closed SSA form. */
5929 && (! lc_phi_nodes
5931 {
5933 {
5940 }
5944 {
5945 /* Schedule for removal. */
5948 }
5949 /* ??? Else generate a copy stmt. */
5950 }
5951 }
5952 }
5953 /* Only make defs available that not already are. But make
5954 sure loop-closed SSA PHI node defs are picked up for
5955 downstream uses. */
5960 }
5962 /* For empty BBs mark outgoing edges executable. For non-empty BBs
5963 we do this when processing the last stmt as we have to do this
5964 before elimination which otherwise forces GIMPLE_CONDs to
5965 if (1 != 0) style when seeing non-executable edges. */
5967 {
5969 {
5971 {
5978 }
5980 {
5986 }
5987 }
5988 }
5991 {
5992 ssa_op_iter i;
5993 tree op;
5995 {
5997 {
6002 }
6004 /* We somehow have to deal with uses that are not defined
6005 in the processed region. Forcing unvisited uses to
6006 varying here doesn't play well with def-use following during
6007 expression simplification, so we deal with this by checking
6008 the visited flag in SSA_VAL. */
6009 }
6016 {
6022 {
6028 /* If the condition didn't simplfy see if we have recorded
6029 an expression from sofar taken edges. */
6031 {
6032 vn_nary_op_t vnresult;
6039 /* Did we get a predicated value? */
6041 {
6044 {
6049 }
6050 }
6051 }
6055 {
6056 /* If we didn't manage to compute the taken edge then
6057 push predicated expressions for the condition itself
6058 and related conditions to the hashtables. This allows
6059 simplification of redundant conditions which is
6060 important as early cleanup. */
6064 enum tree_code icode
6076 vn_nary_op_insert_pieces_predicated
6080 vn_nary_op_insert_pieces_predicated
6084 {
6086 vn_nary_op_insert_pieces_predicated
6090 vn_nary_op_insert_pieces_predicated
6093 }
6094 /* Relax for non-integers, inverted condition handled
6095 above. */
6097 {
6102 }
6103 }
6105 }
6111 }
6113 {
6116 {
6124 }
6126 {
6132 }
6133 }
6135 {
6137 {
6139 {
6146 }
6148 {
6154 }
6155 }
6156 }
6158 /* Eliminate. That also pushes to avail. */
6161 else
6162 /* If not eliminating, make all not already available defs
6163 available. */
6167 }
6169 /* Eliminate in destination PHI arguments. Always substitute in dest
6170 PHIs, even for non-executable edges. This handles region
6171 exits PHIs. */
6176 {
6183 tree sprime;
6185 {
6189 }
6190 else
6191 /* Look for sth available at the definition block of the argument.
6192 This avoids inconsistencies between availability there which
6193 decides if the stmt can be removed and availability at the
6194 use site. The SSA property ensures that things available
6195 at the definition are also available at uses. */
6197 arg);
6202 }
6206 }
6208 /* Unwind state per basic-block. */
6210 struct unwind_state
6211 {
6212 /* Times this block has been visited. */
6214 /* Whether to handle this as iteration point or whether to treat
6215 incoming backedge PHI values as varying. */
6217 /* Maximum RPO index this block is reachable from. */
6219 /* Unwind state. */
6221 vn_reference_t ref_top;
6222 vn_phi_t phi_top;
6223 vn_nary_op_t nary_top;
6224 };
6226 /* Unwind the RPO VN state for iteration. */
6228 static void
6230 {
6234 {
6238 /* Predication causes the need to restore previous state. */
6241 else
6243 }
6246 {
6251 }
6254 {
6260 }
6263 /* Prune [rpo_idx, ] from avail. */
6264 /* ??? This is O(number-of-values-in-region) which is
6265 O(region-size) rather than O(iteration-piece). */
6269 {
6271 {
6275 }
6276 }
6277 }
6279 /* Do VN on a SEME region specified by ENTRY and EXIT_BBS in FN.
6280 If ITERATE is true then treat backedges optimistically as not
6281 executed and iterate. If ELIMINATE is true then perform
6282 elimination, otherwise leave that to the caller. */
6284 static unsigned
6287 {
6290 /* We currently do not support region-based iteration when
6291 elimination is requested. */
6293 /* When iterating we need loop info up-to-date. */
6298 {
6302 }
6307 /* rev_post_order_and_mark_dfs_back_seme fills RPO in reverse order. */
6323 /* Verify we have no extra entries into the region. */
6325 {
6328 {
6331 }
6332 /* We can't merge the first two loops because we cannot rely
6333 on EDGE_DFS_BACK for edges not within the region. But if
6334 we decide to always have the bb_in_region flag we can
6335 do the checking during the RPO walk itself (but then it's
6336 also easy to handle MEME conservatively). */
6338 {
6340 edge e;
6341 edge_iterator ei;
6344 }
6346 {
6349 }
6350 }
6352 /* Create the VN state. For the initial size of the various hashtables
6353 use a heuristic based on region size and number of SSA names. */
6371 /* Initialize the unwind state and edge/BB executable state. */
6374 {
6380 edge e;
6381 edge_iterator ei;
6383 {
6390 {
6394 }
6395 else
6399 }
6401 }
6405 /* When there are irreducible regions the simplistic max_rpo computation
6406 above for the case of backedges doesn't work and we need to iterate
6407 until there are no more changes. */
6410 {
6411 nit++;
6414 {
6416 edge e;
6417 edge_iterator ei;
6419 {
6425 {
6428 }
6429 }
6430 }
6431 }
6434 /* As heuristic to improve compile-time we handle only the N innermost
6435 loops and the outermost one optimistically. */
6437 {
6438 loop_p loop;
6444 {
6447 edge e;
6448 edge_iterator ei;
6451 {
6452 /* There can be a non-latch backedge into the header
6453 which is part of an outer irreducible region. We
6454 cannot avoid iterating this block then. */
6457 {
6463 }
6464 else
6466 }
6468 }
6469 }
6474 /* Go and process all blocks, iterating as necessary. */
6475 do
6476 {
6479 /* If the block has incoming backedges remember unwind state. This
6480 is required even for non-executable blocks since in irreducible
6481 regions we might reach them via the backedge and re-start iterating
6482 from there.
6483 Note we can individually mark blocks with incoming backedges to
6484 not iterate where we then handle PHIs conservatively. We do that
6485 heuristically to reduce compile-time for degenerate cases. */
6487 {
6492 }
6495 {
6499 idx++;
6501 }
6505 nblk++;
6512 /* Verify if changed values flow over executable outgoing backedges
6513 and those change destination PHI values (that's the thing we
6514 can easily verify). Reduce over all such edges to the farthest
6515 away PHI. */
6517 edge_iterator ei;
6518 edge e;
6523 {
6526 {
6533 }
6539 gphi_iterator gsi;
6542 {
6544 /* While we'd ideally just iterate on value changes
6545 we CSE PHIs and do that even across basic-block
6546 boundaries. So even hashtable state changes can
6547 be important (which is roughly equivalent to
6548 PHI argument value changes). To not excessively
6549 iterate because of that we track whether a PHI
6550 was CSEd to with GF_PLF_1. */
6555 {
6563 }
6564 }
6566 }
6568 {
6575 }
6577 idx++;
6578 }
6582 {
6583 /* Process all blocks greedily with a worklist that enforces RPO
6584 processing of reachable blocks. */
6585 auto_bitmap worklist;
6588 {
6598 /* When we run into predecessor edges where we cannot trust its
6599 executable state mark them executable so PHI processing will
6600 be conservative.
6601 ??? Do we need to force arguments flowing over that edge
6602 to be varying or will they even always be? */
6603 edge_iterator ei;
6604 edge e;
6609 {
6615 }
6617 nblk++;
6628 }
6629 }
6631 /* If statistics or dump file active. */
6635 {
6638 nex++;
6643 }
6647 {
6648 nvalues++;
6650 }
6660 {
6662 " blocks in total discovering %d executable blocks iterating "
6666 max_visited);
6670 }
6673 {
6674 /* When !iterate we already performed elimination during the RPO
6675 walk. */
6677 {
6678 /* Elimination for region-based VN needs to be done within the
6679 RPO walk. */
6681 /* Note we can't use avail.walk here because that gets confused
6682 by the existing availability and it will be less efficient
6683 as well. */
6685 }
6686 else
6688 }
6698 }
6700 /* Region-based entry for RPO VN. Performs value-numbering and elimination
6701 on the SEME region specified by ENTRY and EXIT_BBS. */
6703 unsigned
6705 {
6710 }
6716 {
6726 };
6729 {
6733 {}
6735 /* opt_pass methods: */
6742 unsigned int
6744 {
6747 /* At -O[1g] use the cheap non-iterating mode. */
6760 }
6764 gimple_opt_pass *
6766 {
6768 }
6770 #undef BB_EXECUTABLE