| blob | 11537fa3e0be19a709c81433eee7e393d019b2a0 |
1 /* SCC value numbering for trees
2 Copyright (C) 2006-2023 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/>. */
82 /* This algorithm is based on the SCC algorithm presented by Keith
83 Cooper and L. Taylor Simpson in "SCC-Based Value numbering"
84 (http://citeseer.ist.psu.edu/41805.html). In
85 straight line code, it is equivalent to a regular hash based value
86 numbering that is performed in reverse postorder.
88 For code with cycles, there are two alternatives, both of which
89 require keeping the hashtables separate from the actual list of
90 value numbers for SSA names.
92 1. Iterate value numbering in an RPO walk of the blocks, removing
93 all the entries from the hashtable after each iteration (but
94 keeping the SSA name->value number mapping between iterations).
95 Iterate until it does not change.
97 2. Perform value numbering as part of an SCC walk on the SSA graph,
98 iterating only the cycles in the SSA graph until they do not change
99 (using a separate, optimistic hashtable for value numbering the SCC
100 operands).
102 The second is not just faster in practice (because most SSA graph
103 cycles do not involve all the variables in the graph), it also has
104 some nice properties.
106 One of these nice properties is that when we pop an SCC off the
107 stack, we are guaranteed to have processed all the operands coming from
108 *outside of that SCC*, so we do not need to do anything special to
109 ensure they have value numbers.
111 Another nice property is that the SCC walk is done as part of a DFS
112 of the SSA graph, which makes it easy to perform combining and
113 simplifying operations at the same time.
115 The code below is deliberately written in a way that makes it easy
116 to separate the SCC walk from the other work it does.
118 In order to propagate constants through the code, we track which
119 expressions contain constants, and use those while folding. In
120 theory, we could also track expressions whose value numbers are
121 replaced, in case we end up folding based on expression
122 identities.
124 In order to value number memory, we assign value numbers to vuses.
125 This enables us to note that, for example, stores to the same
126 address of the same value from the same starting memory states are
127 equivalent.
128 TODO:
130 1. We can iterate only the changing portions of the SCC's, but
131 I have not seen an SCC big enough for this to be a win.
132 2. If you differentiate between phi nodes for loops and phi nodes
133 for if-then-else, you can properly consider phi nodes in different
134 blocks for equivalence.
135 3. We could value number vuses in more cases, particularly, whole
136 structure copies.
137 */
139 /* There's no BB_EXECUTABLE but we can use BB_VISITED. */
140 #define BB_EXECUTABLE BB_VISITED
144 /* vn_nary_op hashtable helpers. */
147 {
151 };
153 /* Return the computed hashcode for nary operation P1. */
155 inline hashval_t
157 {
159 }
161 /* Compare nary operations P1 and P2 and return true if they are
162 equivalent. */
166 {
168 }
174 /* vn_phi hashtable helpers. */
176 static int
180 {
183 };
185 /* Return the computed hashcode for phi operation P1. */
187 inline hashval_t
189 {
191 }
193 /* Compare two phi entries for equality, ignoring VN_TOP arguments. */
197 {
199 }
205 /* Compare two reference operands P1 and P2 for equality. Return true if
206 they are equal, and false otherwise. */
208 static int
210 {
215 /* We do not care for differences in type qualification. */
224 }
226 /* Free a reference operation structure VP. */
230 {
232 }
235 /* vn_reference hashtable helpers. */
238 {
241 };
243 /* Return the hashcode for a given reference operation P1. */
245 inline hashval_t
247 {
249 }
253 {
255 }
260 /* Pretty-print OPS to OUTFILE. */
262 void
264 {
265 vn_reference_op_t vro;
269 {
273 {
276 {
279 }
280 }
282 {
285 else
288 {
291 }
293 {
296 }
297 }
302 }
304 }
306 DEBUG_FUNCTION void
308 {
311 }
313 /* The set of VN hashtables. */
316 {
323 /* vn_constant hashtable helpers. */
326 {
329 };
331 /* Hash table hash function for vn_constant_t. */
333 inline hashval_t
335 {
337 }
339 /* Hash table equality function for vn_constant_t. */
343 {
348 }
353 /* Obstack we allocate the vn-tables elements from. */
355 /* Special obstack we never unwind. */
363 /* Valid hashtables storing information we have proven to be
364 correct. */
368 /* Valueization hook for simplify_replace_tree. Valueize NAME if it is
369 an SSA name, otherwise just return it. */
371 static tree
373 {
375 /* Look for sth available at the definition block of the argument.
376 This avoids inconsistencies between availability there which
377 decides if the stmt can be removed and availability at the
378 use site. The SSA property ensures that things available
379 at the definition are also available at uses. */
385 }
388 /* This represents the top of the VN lattice, which is the universal
389 value. */
391 tree VN_TOP;
393 /* Unique counter for our value ids. */
399 /* Table of vn_ssa_aux_t's, one per ssa_name. The vn_ssa_aux_t objects
400 are allocated on an obstack for locality reasons, and to free them
401 without looping over the vec. */
404 {
414 };
416 hashval_t
418 {
420 }
422 bool
424 {
426 }
434 vn_nary_op_table_type *);
438 static vn_reference_t vn_reference_lookup_or_insert_for_pieces
442 /* Return whether there is value numbering information for a given SSA name. */
444 bool
446 {
448 }
450 vn_ssa_aux_t
452 {
453 vn_ssa_aux_t *res
455 INSERT);
463 /* We are using the visited flag to handle uses with defs not within the
464 region being value-numbered. */
467 /* Given we create the VN_INFOs on-demand now we have to do initialization
468 different than VN_TOP here. */
471 {
473 /* All undefined vars are VARYING. */
479 /* Parameters are VARYING but we can record a condition
480 if we know it is a non-NULL pointer. */
485 {
489 vn_nary_op_t nary;
490 /* Allocate from non-unwinding stack. */
498 /* Also do not link it into the undo chain. */
511 {
515 }
516 }
520 /* If the result is passed by invisible reference the default
521 def is initialized, otherwise it's uninitialized. Still
522 undefined is varying. */
529 }
531 }
533 /* Return the SSA value of X. */
535 inline tree
537 {
542 }
544 /* Return the SSA value of the VUSE x, supporting released VDEFs
545 during elimination which will value-number the VDEF to the
546 associated VUSE (but not substitute in the whole lattice). */
550 {
554 do
555 {
558 }
562 }
564 /* Similar to the above but used as callback for walk_non_aliased_vuses
565 and thus should stop at unvisited VUSE to not walk across region
566 boundaries. */
568 static tree
570 {
571 do
572 {
578 }
581 }
584 /* Return the vn_kind the expression computed by the stmt should be
585 associated with. */
587 enum vn_kind
589 {
591 {
597 {
601 {
608 {
610 /* VOP-less references can go through unary case. */
619 /* Fallthrough. */
633 }
636 }
637 }
640 }
641 }
643 /* Lookup a value id for CONSTANT and return it. If it does not
644 exist returns 0. */
646 unsigned int
648 {
658 }
660 /* Lookup a value id for CONSTANT, and if it does not exist, create a
661 new one and return it. If it does exist, return it. */
663 unsigned int
665 {
668 vn_constant_t vcp;
670 /* If the hashtable isn't initialized we're not running from PRE and thus
671 do not need value-ids. */
687 }
689 /* Compute the hash for a reference operand VRO1. */
691 static void
693 {
703 }
705 /* Compute a hash for the reference operation VR1 and return it. */
707 static hashval_t
709 {
711 hashval_t result;
713 vn_reference_op_t vro;
718 {
724 {
728 }
729 else
730 {
737 {
739 {
743 }
744 }
745 else
747 }
748 }
750 /* ??? We would ICE later if we hash instead of adding that in. */
755 }
757 /* Return true if reference operations VR1 and VR2 are equivalent. This
758 means they have the same set of operands and vuses. */
760 bool
762 {
765 /* Early out if this is not a hash collision. */
769 /* The VOP needs to be the same. */
773 /* If the operands are the same we are done. */
778 {
781 }
783 ;
794 {
797 }
808 {
809 /* Vector boolean types can have padding, verify we are dealing with
810 the same number of elements, aka the precision of the types.
811 For example, In most architecture the precision_size of vbool*_t
812 types are caculated like below:
813 precision_size = type_size * 8
815 Unfortunately, the RISC-V will adjust the precision_size for the
816 vbool*_t in order to align the ISA as below:
817 type_size = [1, 1, 1, 1, 2, 4, 8]
818 precision_size = [1, 2, 4, 8, 16, 32, 64]
820 Then the precision_size of RISC-V vbool*_t will not be the multiple
821 of the type_size. We take care of this case consolidated here. */
825 }
829 do
830 {
837 {
840 /* Do not look through a storage order barrier. */
847 }
849 {
852 /* Do not look through a storage order barrier. */
859 }
863 {
870 }
872 {
879 }
886 }
891 }
893 /* Copy the operations present in load/store REF into RESULT, a vector of
894 vn_reference_op_s's. */
896 static void
898 {
899 /* For non-calls, store the information that makes up the address. */
902 {
903 vn_reference_op_s temp;
911 {
920 /* The base address gets its own vn_reference_op_s structure. */
929 /* The base address gets its own vn_reference_op_s structure. */
943 /* Record bits, position and storage order. */
951 /* The field decl is enough to unambiguously specify the field,
952 so use its type here. */
957 && TYPE_REVERSE_STORAGE_ORDER
959 {
963 {
966 {
967 poly_offset_int off
970 /* Probibit value-numbering zero offset components
971 of addresses the same before the pass folding
972 __builtin_object_size had a chance to run. */
977 }
978 }
979 }
983 {
985 /* Record index as operand. */
987 /* Always record lower bounds and element size. */
989 /* But record element size in units of the type alignment. */
998 {
1004 }
1006 && TYPE_REVERSE_STORAGE_ORDER
1008 }
1012 {
1015 }
1016 /* Fallthru. */
1020 /* Canonicalize decls to MEM[&decl] which is what we end up with
1021 when valueizing MEM[ptr] with ptr = &decl. */
1044 {
1047 }
1049 /* These are only interesting for their operands, their
1050 existence, and their type. They will never be the last
1051 ref in the chain of references (IE they require an
1052 operand), so we don't have to put anything
1053 for op* as it will be handled by the iteration */
1062 /* This is only interesting for its constant offset. */
1067 }
1076 else
1078 }
1079 }
1081 /* Build a alias-oracle reference abstraction in *REF from the vn_reference
1082 operands in *OPS, the reference alias set SET and the reference type TYPE.
1083 Return true if something useful was produced. */
1085 bool
1089 {
1094 poly_offset_int max_size;
1098 /* We don't handle calls. */
1105 else
1111 /* Lower the final access size from the outermost expression. */
1113 /* Cast away constness for the sake of the const-unsafe
1114 FOR_EACH_VEC_ELT(). */
1127 /* Initially, maxsize is the same as the accessed element size.
1128 In the following it will only grow (or become -1). */
1131 /* Compute cumulative bit-offset for nested component-refs and array-refs,
1132 and find the ultimate containing object. */
1134 {
1136 {
1137 /* These may be in the reference ops, but we cannot do anything
1138 sensible with them here. */
1140 /* Apart from ADDR_EXPR arguments to MEM_REF. */
1145 {
1149 {
1152 }
1153 else
1157 }
1158 /* Fallthru. */
1162 /* Record the base objects. */
1179 /* And now the usual component-reference style ops. */
1185 {
1187 /* We do not have a complete COMPONENT_REF tree here so we
1188 cannot use component_ref_field_offset. Do the interesting
1189 parts manually. */
1194 else
1195 {
1200 }
1202 }
1206 /* We recorded the lower bound and the element size. */
1211 else
1212 {
1213 poly_offset_int woffset
1220 }
1244 }
1245 }
1254 /* We discount volatiles from value-numbering elsewhere. */
1258 {
1263 }
1266 {
1270 }
1276 }
1278 /* Copy the operations present in load/store/call REF into RESULT, a vector of
1279 vn_reference_op_s's. */
1281 static void
1284 {
1285 vn_reference_op_s temp;
1290 /* If 2 calls have a different non-ssa lhs, vdef value numbers should be
1291 different. By adding the lhs here in the vector, we ensure that the
1292 hashcode is different, guaranteeing a different value number. */
1294 {
1301 }
1303 /* Copy the type, opcode, function, static chain and EH region, if any. */
1316 /* Copy the call arguments. As they can be references as well,
1317 just chain them together. */
1319 {
1322 }
1323 }
1325 /* Fold *& at position *I_P in a vn_reference_op_s vector *OPS. Updates
1326 *I_P to point to the last element of the replacement. */
1327 static bool
1330 {
1334 tree addr_base;
1337 /* The only thing we have to do is from &OBJ.foo.bar add the offset
1338 from .foo.bar to the preceding MEM_REF offset and replace the
1339 address with &OBJ. */
1344 {
1345 poly_offset_int off
1347 SIGNED)
1353 else
1356 }
1358 }
1360 /* Fold *& at position *I_P in a vn_reference_op_s vector *OPS. Updates
1361 *I_P to point to the last element of the replacement. */
1362 static bool
1365 {
1367 vn_reference_op_t op;
1369 do
1370 {
1376 poly_offset_int off;
1389 /* The only thing we have to do is from &OBJ.foo.bar add the offset
1390 from .foo.bar to the preceding MEM_REF offset and replace the
1391 address with &OBJ. */
1393 {
1395 poly_int64 addr_offset;
1400 vn_valueize);
1401 /* If that didn't work because the address isn't invariant propagate
1402 the reference tree from the address operation in case the current
1403 dereference isn't offsetted. */
1407 /* This makes us disable this transform for PRE where the
1408 reference ops might be also used for code insertion which
1409 is invalid. */
1411 {
1414 /* Make sure to preserve TBAA info. The only objects not
1415 wrapped in MEM_REFs that can have their address taken are
1416 STRING_CSTs. */
1419 {
1421 new_mem_op->op0
1424 }
1425 else
1432 }
1443 }
1444 else
1445 {
1451 /* Make sure to not endlessly recurse.
1452 See gcc.dg/tree-ssa/20040408-1.c for an example. Can easily
1453 happen when we value-number a PHI to its backedge value. */
1460 }
1465 else
1467 /* ??? Can end up with endless recursion here!?
1468 gcc.c-torture/execute/strcmp-1.c */
1475 }
1476 /* Tail-recurse. */
1479 /* Fold a remaining *&. */
1484 }
1486 /* Optimize the reference REF to a constant if possible or return
1487 NULL_TREE if not. */
1489 tree
1491 {
1493 vn_reference_op_t op;
1495 /* Try to simplify the translated expression if it is
1496 a call to a builtin function with at most two arguments. */
1503 BUILT_IN_NORMAL)))
1506 {
1522 {
1523 combined_fn fn;
1527 else
1529 tree folded;
1532 else
1537 }
1538 }
1540 /* Simplify reads from constants or constant initializers. */
1545 {
1547 HOST_WIDE_INT size;
1552 else
1560 {
1562 {
1565 }
1570 {
1573 }
1574 }
1585 {
1589 else
1591 }
1595 {
1596 HOST_WIDE_INT const_off;
1598 {
1603 {
1607 }
1608 }
1610 {
1615 }
1616 }
1617 }
1620 }
1622 /* Return true if OPS contain a storage order barrier. */
1624 static bool
1626 {
1627 vn_reference_op_t op;
1635 }
1637 /* Return true if OPS represent an access with reverse storage order. */
1639 static bool
1641 {
1646 {
1654 }
1655 }
1657 /* Transform any SSA_NAME's in a vector of vn_reference_op_s
1658 structures into their value numbers. This is done in-place, and
1659 the vector passed in is returned. *VALUEIZED_ANYTHING will specify
1660 whether any operands were valueized. */
1662 static void
1665 {
1669 {
1670 re_valueize:
1674 {
1677 {
1680 }
1681 /* If it transforms from an SSA_NAME to a constant, update
1682 the opcode. */
1685 }
1687 {
1690 {
1693 }
1694 }
1696 {
1699 {
1702 }
1703 }
1704 /* If it transforms from an SSA_NAME to an address, fold with
1705 a preceding indirect reference. */
1710 {
1713 }
1717 {
1719 {
1721 /* Re-valueize the current operand. */
1723 }
1724 }
1725 /* If it transforms a non-constant ARRAY_REF into a constant
1726 one, adjust the constant offset. */
1732 {
1738 }
1739 }
1740 }
1742 static void
1744 {
1747 }
1751 /* Create a vector of vn_reference_op_s structures from REF, a
1752 REFERENCE_CLASS_P tree. The vector is shared among all callers of
1753 this function. *VALUEIZED_ANYTHING will specify whether any
1754 operands were valueized. */
1758 {
1765 }
1767 /* Create a vector of vn_reference_op_s structures from CALL, a
1768 call statement. The vector is shared among all callers of
1769 this function. */
1773 {
1780 }
1782 /* Lookup a SCCVN reference operation VR in the current hash table.
1783 Returns the resulting value number if it exists in the hash table,
1784 NULL_TREE otherwise. VNRESULT will be filled in with the actual
1785 vn_reference_t stored in the hashtable if something is found. */
1787 static tree
1789 {
1791 hashval_t hash;
1796 {
1800 }
1803 }
1806 /* Partial definition tracking support. */
1808 struct pd_range
1809 {
1810 HOST_WIDE_INT offset;
1811 HOST_WIDE_INT size;
1812 };
1814 struct pd_data
1815 {
1816 tree rhs;
1817 HOST_WIDE_INT rhs_off;
1818 HOST_WIDE_INT offset;
1819 HOST_WIDE_INT size;
1820 };
1822 /* Context for alias walking. */
1824 struct vn_walk_cb_data
1825 {
1835 {
1840 {
1843 pd_data pd;
1846 /* When bitwise and with a constant is done on a memory load,
1847 we don't really need all the bits to be defined or defined
1848 to constants, we don't really care what is in the position
1849 corresponding to 0 bits in the mask.
1850 So, push the ranges of those 0 bits in the mask as artificial
1851 zero stores and let the partial def handling code do the
1852 rest. */
1854 {
1859 {
1862 else
1867 }
1877 }
1878 }
1879 }
1884 HOST_WIDE_INT);
1886 vn_reference_t vr;
1887 ao_ref orig_ref;
1889 tree last_vuse;
1890 tree mask;
1891 tree masked_result;
1892 tree same_val;
1893 vn_lookup_kind vn_walk_kind;
1898 /* The VDEFs of partial defs we come along. */
1900 /* The first defs range to avoid splay tree setup in most cases. */
1901 pd_range first_range;
1902 alias_set_type first_set;
1903 alias_set_type first_base_set;
1904 splay_tree known_ranges;
1905 obstack ranges_obstack;
1907 };
1910 {
1912 {
1915 }
1917 }
1921 {
1923 {
1926 }
1928 {
1931 }
1938 }
1940 /* pd_range splay-tree helpers. */
1942 static int
1944 {
1952 }
1956 {
1959 }
1961 static void
1963 {
1964 }
1966 /* Push PD to the vector of partial definitions returning a
1967 value when we are ready to combine things with VUSE, SET and MAXSIZEI,
1968 NULL when we want to continue looking for partial defs or -1
1969 on failure. */
1974 HOST_WIDE_INT offseti,
1975 HOST_WIDE_INT maxsizei)
1976 {
1977 /* We're using a fixed buffer for encoding so fail early if the object
1978 we want to interpret is bigger. */
1982 /* Not prepared to handle PDP endian. */
1986 /* Turn too large constant stores into non-constant stores. */
1990 /* And for non-constant or CONSTRUCTOR stores shrink them to only keep at
1991 most a partial byte before and/or after the region. */
1993 {
1995 {
2000 }
2003 }
2011 {
2012 /* If we get a clobber upfront, fail. */
2024 /* Go check if the first partial definition was a full one in case
2025 the caller didn't optimize for this. */
2026 }
2027 else
2028 {
2030 {
2031 /* ??? Optimize the case where the 2nd partial def completes
2032 things. */
2035 pd_tree_alloc,
2040 }
2043 splay_tree_node n;
2044 /* Lookup the predecessor of offset + 1 and see if we need to merge. */
2050 {
2051 /* Ignore partial defs already covered. Here we also drop shadowed
2052 clobbers arriving here at the floor. */
2055 r->size
2057 }
2058 else
2059 {
2060 /* newr.offset wasn't covered yet, insert the range. */
2065 }
2066 /* Merge r which now contains newr and is a member of the splay tree with
2067 adjacent overlapping ranges. */
2074 {
2078 }
2079 /* If we get a clobber, fail. */
2082 /* Non-constants are OK as long as they are shadowed by a constant. */
2086 }
2088 /* Now we have merged newr into the range tree. When we have covered
2089 [offseti, sizei] then the tree will contain exactly one node which has
2090 the desired properties and it will be 'r'. */
2092 /* Continue looking for partial defs. */
2095 /* Now simply native encode all partial defs in reverse order. */
2097 /* We support up to 512-bit values (for V8DFmode). */
2105 {
2109 {
2110 /* Empty CONSTRUCTOR. */
2113 else
2116 }
2118 {
2125 {
2130 }
2131 }
2133 {
2143 {
2148 }
2149 }
2157 {
2158 /* LSB of this_buffer[len - 1] byte should be at
2159 pd.offset + pd.size - 1 bits in buffer. */
2167 {
2173 {
2177 }
2178 else
2179 {
2185 {
2189 p++;
2190 q++;
2191 off++;
2194 }
2195 }
2196 }
2198 {
2203 {
2204 q++;
2208 }
2209 }
2215 {
2216 unsigned int msk
2221 }
2222 }
2223 else
2224 {
2226 {
2227 /* LSB of this_buffer[0] byte should be at pd.offset bits
2228 in buffer. */
2240 {
2241 /* Low amnt bits come from *p, then size bits
2242 from this_buffer[0] and the remaining again from
2243 *p. */
2247 }
2249 {
2252 p++;
2254 }
2255 }
2256 else
2257 {
2264 }
2268 {
2272 }
2273 }
2274 }
2277 /* Make sure to interpret in a type that has a range covering the whole
2278 access size. */
2281 tree val;
2283 {
2287 BITS_PER_UNIT
2292 {
2295 }
2296 else
2298 }
2299 else
2301 /* If we chop off bits because the types precision doesn't match the memory
2302 access size this is ok when optimizing reads but not when called from
2303 the DSE code during elimination. */
2305 {
2308 else
2310 }
2313 {
2317 /* We are using the alias-set of the first store we encounter which
2318 should be appropriate here. */
2320 }
2321 else
2322 {
2327 }
2328 }
2330 /* Callback for walk_non_aliased_vuses. Adjusts the vn_reference_t VR_
2331 with the current VUSE and performs the expression lookup. */
2335 {
2339 hashval_t hash;
2341 /* If we have partial definitions recorded we have to go through
2342 vn_reference_lookup_3. */
2347 {
2350 }
2352 /* Fixup vuse and hash. */
2362 {
2366 }
2369 {
2379 {
2382 op_size);
2392 }
2395 }
2398 }
2400 /* Lookup an existing or insert a new vn_reference entry into the
2401 value table for the VUSE, SET, TYPE, OPERANDS reference which
2402 has the value VALUE which is either a constant or an SSA name. */
2404 static vn_reference_t
2406 alias_set_type set,
2407 alias_set_type base_set,
2408 tree type,
2411 tree value)
2412 {
2413 vn_reference_s vr1;
2414 vn_reference_t result;
2426 else
2430 }
2432 /* Return a value-number for RCODE OPS... either by looking up an existing
2433 value-number for the possibly simplified result or by inserting the
2434 operation if INSERT is true. If SIMPLIFY is false, return a value
2435 number for the unsimplified expression. */
2437 static tree
2440 {
2442 /* We will be creating a value number for
2443 RCODE (OPS...).
2444 So first simplify and lookup this expression to see if it
2445 is already available. */
2446 /* For simplification valueize. */
2451 {
2456 }
2457 /* If valueization of an operand fails (it is not available), skip
2458 simplification. */
2461 {
2465 }
2469 {
2470 /* The expression is already available. */
2472 /* Valueize it, simplification returns sth in AVAIL only. */
2475 }
2476 else
2477 {
2480 {
2484 {
2487 }
2488 }
2489 else
2490 /* The expression is already available. */
2492 }
2494 {
2495 /* The expression is not yet available, value-number lhs to
2496 the new SSA_NAME we created. */
2497 /* Initialize value-number information properly. */
2503 new_stmt);
2505 /* ??? PRE phi-translation inserts NARYs without corresponding
2506 SSA name result. Re-use those but set their result according
2507 to the stmt we just built. */
2511 {
2514 }
2515 /* As all "inserted" statements are singleton SCCs, insert
2516 to the valid table. This is strictly needed to
2517 avoid re-generating new value SSA_NAMEs for the same
2518 expression during SCC iteration over and over (the
2519 optimistic table gets cleared after each iteration).
2520 We do not need to insert into the optimistic table, as
2521 lookups there will fall back to the valid table. */
2522 else
2523 {
2525 vn_nary_op_t vno1
2533 /* Also do not link it into the undo chain. */
2536 }
2538 {
2544 }
2545 }
2547 }
2549 /* Return a value-number for RCODE OPS... either by looking up an existing
2550 value-number for the simplified result or by inserting the operation. */
2552 static tree
2554 {
2556 }
2558 /* Try to simplify the expression RCODE OPS... of type TYPE and return
2559 its value if present. */
2561 tree
2563 {
2570 }
2572 /* Elimination engine. */
2575 {
2596 /* SSA names that had their defs inserted by PRE if do_pre. */
2597 bitmap inserted_exprs;
2599 /* Blocks with statements that have had their EH properties changed. */
2600 bitmap need_eh_cleanup;
2602 /* Blocks with statements that have had their AB properties changed. */
2603 bitmap need_ab_cleanup;
2605 /* Local state for the eliminate domwalk. */
2610 };
2612 /* Adaptor to the elimination engine using RPO availability. */
2615 {
2625 basic_block entry;
2626 /* Freelist of avail entries which are allocated from the vn_ssa_aux
2627 obstack. */
2629 };
2631 /* Global RPO state for access from hooks. */
2633 basic_block vn_context_bb;
2635 /* Return true if BASE1 and BASE2 can be adjusted so they have the
2636 same address and adjust *OFFSET1 and *OFFSET2 accordingly.
2637 Otherwise return false. */
2639 static bool
2642 {
2643 poly_int64 soff;
2646 {
2648 {
2651 }
2653 {
2656 }
2658 }
2660 }
2662 /* Callback for walk_non_aliased_vuses. Tries to perform a lookup
2663 from the statement defining VUSE and if not successful tries to
2664 translate *REFP and VR_ through an aggregate copy at the definition
2665 of VUSE. If *DISAMBIGUATE_ONLY is true then do not perform translation
2666 of *REF and *VR. If only disambiguation was performed then
2667 *DISAMBIGUATE_ONLY is set to true. */
2672 {
2679 ao_ref lhs_ref;
2681 poly_int64 copy_size;
2683 /* First try to disambiguate after value-replacing in the definitions LHS. */
2685 {
2688 /* Avoid re-allocation overhead. */
2693 {
2696 }
2701 && ao_ref_init_from_vn_reference
2705 {
2708 }
2710 /* When the def is a CLOBBER we can optimistically disambiguate
2711 against it since any overlap it would be undefined behavior.
2712 Avoid this for obvious must aliases to save compile-time though.
2713 We also may not do this when the query is used for redundant
2714 store removal. */
2718 {
2721 }
2723 /* Besides valueizing the LHS we can also use access-path based
2724 disambiguation on the original non-valueized ref. */
2726 && lhs_ref_ok
2728 {
2729 /* We want to use the non-valueized LHS for this, but avoid redundant
2730 work. */
2732 ao_ref lref_alt;
2734 {
2737 }
2739 {
2741 ? TR_VALUEIZE_AND_DISAMBIGUATE
2744 }
2745 }
2747 /* If we reach a clobbering statement try to skip it and see if
2748 we find a VN result with exactly the same value as the
2749 possible clobber. In this case we can ignore the clobber
2750 and return the found value. */
2760 {
2762 /* ??? We may not compare to ahead values which might be from
2763 a different loop iteration but only to loop invariants. Use
2764 CONSTANT_CLASS_P (unvalueized!) as conservative approximation.
2765 The one-hop lookup below doesn't have this issue since there's
2766 a virtual PHI before we ever reach a backedge to cross.
2767 We can skip multiple defs as long as they are from the same
2768 value though. */
2771 ;
2773 {
2775 {
2779 }
2780 /* Delay the actual compare of the values to the end of the walk
2781 but do not update last_vuse from here. */
2785 }
2786 else
2787 {
2789 /* Do not update last_vuse_ptr in vn_reference_lookup_2. */
2794 data);
2795 /* Need to restore vr->vuse and vr->hashcode. */
2800 {
2807 }
2808 }
2809 }
2810 }
2814 {
2815 /* For builtin calls valueize its arguments and call the
2816 alias oracle again. Valueization may improve points-to
2817 info of pointers and constify size and position arguments.
2818 Originally this was motivated by PR61034 which has
2819 conditional calls to free falsely clobbering ref because
2820 of imprecise points-to info of the argument. */
2824 {
2828 {
2831 }
2832 }
2834 {
2840 {
2843 }
2844 }
2845 }
2850 /* If we cannot constrain the size of the reference we cannot
2851 test if anything kills it. */
2858 /* def_stmt may-defs *ref. See if we can derive a value for *ref
2859 from that definition.
2860 1) Memset. */
2879 {
2880 tree base2;
2885 {
2890 {
2895 }
2896 }
2898 {
2906 }
2908 {
2909 poly_int64 soff;
2917 {
2923 {
2926 SIGNED)
2932 }
2933 else
2935 }
2936 }
2937 else
2943 /* Sometimes the above trickery is smarter than alias analysis. Take
2944 advantage of that. */
2952 {
2953 tree val;
2959 {
2967 }
2968 else
2969 {
2975 buflen);
2977 {
2978 unsigned int amnt
2982 {
2985 buf++;
2986 buflen--;
2987 }
2988 }
2990 {
2991 unsigned int amnt
2995 buf++;
2996 buflen--;
2997 }
3001 }
3003 }
3004 /* For now handle clearing memory with partial defs. */
3015 {
3016 pd_data pd;
3022 }
3023 }
3025 /* 2) Assignment from an empty CONSTRUCTOR. */
3030 {
3031 tree base2;
3043 {
3046 {
3047 /* While technically undefined behavior do not optimize
3048 a full read from a clobber. */
3054 }
3062 {
3063 /* Let clobbers be consumed by the partial-def tracker
3064 which can choose to ignore them if they are shadowed
3065 by a later def. */
3066 pd_data pd;
3074 }
3075 }
3076 }
3078 /* 3) Assignment from a constant. We can use folds native encode/interpret
3079 routines to extract the assigned bits. */
3088 /* native_encode and native_decode operate on arrays of bytes
3089 and so fundamentally need a compile-time size and offset. */
3095 {
3097 tree base2;
3108 && !reverse
3116 {
3119 {
3120 /* We support up to 512-bit values (for V8DFmode). */
3131 {
3135 /* Make sure to interpret in a type that has a range
3136 covering the whole access size. */
3142 {
3143 /* For big-endian native_encode_expr stored the rhs
3144 such that the LSB of it is the LSB of buffer[len - 1].
3145 That bit is stored into memory at position
3146 offset2 + size2 - 1, i.e. in byte
3147 base + (offset2 + size2 - 1) / BITS_PER_UNIT.
3148 E.g. for offset2 1 and size2 14, rhs -1 and memory
3149 previously cleared that is:
3150 0 1
3151 01111111|11111110
3152 Now, if we want to extract offset 2 and size 12 from
3153 it using native_interpret_expr (which actually works
3154 for integral bitfield types in terms of byte size of
3155 the mode), the native_encode_expr stored the value
3156 into buffer as
3157 XX111111|11111111
3158 and returned len 2 (the X bits are outside of
3159 precision).
3160 Let sz be maxsize / BITS_PER_UNIT if not extracting
3161 a bitfield, and GET_MODE_SIZE otherwise.
3162 We need to align the LSB of the value we want to
3163 extract as the LSB of buf[sz - 1].
3164 The LSB from memory we need to read is at position
3165 offset + maxsize - 1. */
3177 else
3178 {
3181 }
3182 }
3183 else
3184 {
3188 {
3192 }
3193 }
3195 /* If we chop off bits because the types precision doesn't
3196 match the memory access size this is ok when optimizing
3197 reads but not when called from the DSE code during
3198 elimination. */
3201 {
3204 else
3206 }
3211 }
3212 }
3214 size2i))
3215 {
3216 pd_data pd;
3227 }
3228 }
3229 }
3231 /* 4) Assignment from an SSA name which definition we may be able
3232 to access pieces from or we can combine to a larger entity. */
3239 {
3241 tree base2;
3258 {
3261 /* ??? We can't handle bitfield precision extracts without
3262 either using an alternate type for the BIT_FIELD_REF and
3263 then doing a conversion or possibly adjusting the offset
3264 according to endianness. */
3268 {
3272 {
3279 }
3281 {
3286 }
3292 }
3298 {
3299 pd_data pd;
3307 }
3308 }
3309 }
3311 /* 4b) Assignment done via one of the vectorizer internal store
3312 functions where we may be able to access pieces from or we can
3313 combine to a larger entity. */
3321 {
3327 {
3335 {
3342 }
3345 }
3355 tree base2;
3370 {
3372 /* Poor-mans disambiguation. */
3375 {
3376 pd_data pd;
3381 unsigned HOST_WIDE_INT elsz
3384 {
3387 do
3388 {
3390 {
3392 {
3398 {
3403 }
3404 }
3407 }
3408 else
3410 mask_idx++;
3411 }
3414 {
3422 }
3423 }
3425 {
3431 else
3437 }
3438 else
3441 }
3442 }
3443 }
3445 /* 5) For aggregate copies translate the reference through them if
3446 the copy kills ref. */
3452 {
3453 tree base2;
3456 vn_reference_op_t vro;
3457 ao_ref r;
3461 /* See if the assignment kills REF. */
3473 /* Find the common base of ref and the lhs. lhs_ops already
3474 contains valueized operands for the lhs. */
3479 {
3480 i--;
3481 j--;
3482 }
3484 /* ??? The innermost op should always be a MEM_REF and we already
3485 checked that the assignment to the lhs kills vr. Thus for
3486 aggregate copies using char[] types the vn_reference_op_eq
3487 may fail when comparing types for compatibility. But we really
3488 don't care here - further lookups with the rewritten operands
3489 will simply fail if we messed up types too badly. */
3494 {
3499 {
3502 }
3503 }
3505 /* i now points to the first additional op.
3506 ??? LHS may not be completely contained in VR, one or more
3507 VIEW_CONVERT_EXPRs could be in its way. We could at least
3508 try handling outermost VIEW_CONVERT_EXPRs. */
3512 /* Punt if the additional ops contain a storage order barrier. */
3514 {
3518 }
3520 /* Now re-write REF to be based on the rhs of the assignment. */
3524 /* Apply an extra offset to the inner MEM_REF of the RHS. */
3527 {
3537 extra_off));
3538 /* When we have offsetted the RHS, reading only parts of it,
3539 we can no longer use the original TBAA type, force alias-set
3540 zero. */
3542 }
3544 /* Save the operands since we need to use the original ones for
3545 the hash entry we use. */
3549 /* We need to pre-pend vr->operands[0..i] to rhs. */
3553 else
3562 /* Try folding the new reference to a constant. */
3565 {
3569 /* This is the only interesting case for partial-def handling
3570 coming from targets that like to gimplify init-ctors as
3571 aggregate copies from constant data like aarch64 for
3572 PR83518. */
3574 {
3575 pd_data pd;
3583 }
3584 }
3586 /* Continuing with partial defs isn't easily possible here, we
3587 have to find a full def from further lookups from here. Probably
3588 not worth the special-casing everywhere. */
3592 /* Adjust *ref from the new operands. */
3593 ao_ref rhs1_ref;
3602 /* This can happen with bitfields. */
3604 {
3605 /* If the access lacks some subsetting simply apply that by
3606 shortening it. That in the end can only be successful
3607 if we can pun the lookup result which in turn requires
3608 exact offsets. */
3612 else
3614 }
3617 /* Do not update last seen VUSE after translating. */
3619 /* Invalidate the original access path since it now contains
3620 the wrong base. */
3622 /* Use the alias-set of this LHS for recording an eventual result. */
3624 {
3627 }
3629 /* Keep looking for the adjusted *REF / VR pair. */
3631 }
3633 /* 6) For memcpy copies translate the reference through them if the copy
3634 kills ref. But we cannot (easily) do this translation if the memcpy is
3635 a storage order barrier, i.e. is equivalent to a VIEW_CONVERT_EXPR that
3636 can modify the storage order of objects (see storage_order_barrier_p). */
3639 /* ??? Handle BCOPY as well. */
3654 /* Handling this is more complicated, give up for now. */
3656 {
3658 ao_ref r;
3660 vn_reference_op_s op;
3661 poly_uint64 mem_offset;
3664 /* Only handle non-variable, addressable refs. */
3670 /* Extract a pointer base and an offset for the destination. */
3674 {
3677 {
3682 }
3683 }
3685 {
3695 {
3700 }
3703 else
3705 }
3710 /* Extract a pointer base and an offset for the source. */
3716 {
3726 {
3729 }
3733 else
3735 }
3741 /* The bases of the destination and the references have to agree. */
3743 {
3748 }
3754 /* If the access is completely outside of the memcpy destination
3755 area there is no aliasing. */
3758 /* And the access has to be contained within the memcpy destination. */
3762 /* Save the operands since we need to use the original ones for
3763 the hash entry we use. */
3767 /* Make room for 2 operands in the new reference. */
3769 {
3774 }
3775 else
3778 /* The looked-through reference is a simple MEM_REF. */
3792 /* Try folding the new reference to a constant. */
3797 /* Adjust *ref from the new operands. */
3800 /* This can happen with bitfields. */
3805 /* Do not update last seen VUSE after translating. */
3807 /* Invalidate the original access path since it now contains
3808 the wrong base. */
3810 /* Use the alias-set of this stmt for recording an eventual result. */
3812 {
3815 }
3817 /* Keep looking for the adjusted *REF / VR pair. */
3819 }
3821 /* Bail out and stop walking. */
3823 }
3825 /* Return a reference op vector from OP that can be used for
3826 vn_reference_lookup_pieces. The caller is responsible for releasing
3827 the vector. */
3831 {
3834 }
3836 /* Lookup a reference operation by it's parts, in the current hash table.
3837 Returns the resulting value number if it exists in the hash table,
3838 NULL_TREE otherwise. VNRESULT will be filled in with the actual
3839 vn_reference_t stored in the hashtable if something is found. */
3841 tree
3846 {
3848 vn_reference_t tmp;
3849 tree cst;
3876 {
3877 ao_ref r;
3884 else
3885 {
3886 /* For ao_ref_from_mem we have to ensure only available SSA names
3887 end up in base and the only convenient way to make this work
3888 for PRE is to re-valueize with that in mind. */
3896 }
3898 ops_for_ref))
3899 *vnresult
3911 {
3914 }
3915 }
3921 }
3923 /* Lookup OP in the current hash table, and return the resulting value
3924 number if it exists in the hash table. Return NULL_TREE if it does
3925 not exist in the hash table or if the result field of the structure
3926 was NULL.. VNRESULT will be filled in with the vn_reference_t
3927 stored in the hashtable if one exists. When TBAA_P is false assume
3928 we are looking up a store and treat it as having alias-set zero.
3929 *LAST_VUSE_PTR will be updated with the VUSE the value lookup succeeded.
3930 MASK is either NULL_TREE, or can be an INTEGER_CST if the result of the
3931 load is bitwise anded with MASK and so we are only interested in a subset
3932 of the bits and can ignore if the other bits are uninitialized or
3933 not initialized with constants. When doing redundant store removal
3934 the caller has to set REDUNDANT_STORE_REMOVAL_P. */
3936 tree
3941 {
3953 /* Handle &MEM[ptr + 5].b[1].c as POINTER_PLUS_EXPR. Avoid doing
3954 this before the pass folding __builtin_object_size had a chance to run. */
3958 {
3960 vn_reference_op_t vro;
3963 {
3969 }
3971 /* Make sure we the offset we accumulated in a 64bit int
3972 fits the address computation carried out in target
3973 offset precision. */
3976 {
3986 }
3987 }
3990 ao_ref op_ref;
4000 {
4001 vn_reference_t wvnresult;
4002 ao_ref r;
4006 {
4010 }
4011 /* Make sure to use a valueized reference if we valueized anything.
4012 Otherwise preserve the full reference for advanced TBAA. */
4019 redundant_store_removal_p);
4021 wvnresult
4028 {
4037 }
4042 }
4049 }
4051 /* Lookup CALL in the current hash table and return the entry in
4052 *VNRESULT if found. Populates *VR for the hashtable lookup. */
4054 void
4056 vn_reference_t vr)
4057 {
4066 /* For non-SSA return values the referece ops contain the LHS. */
4074 }
4076 /* Insert OP into the current hash table with a value number of RESULT. */
4078 static void
4080 {
4082 vn_reference_t vr1;
4087 /* Handle &MEM[ptr + 5].b[1].c as POINTER_PLUS_EXPR. Avoid doing this
4088 before the pass folding __builtin_object_size had a chance to run. */
4092 {
4094 vn_reference_op_t vro;
4097 {
4103 }
4105 /* Make sure we the offset we accumulated in a 64bit int
4106 fits the address computation carried out in target
4107 offset precision. */
4110 {
4119 }
4120 }
4125 else
4131 ao_ref op_ref;
4140 INSERT);
4142 /* Because IL walking on reference lookup can end up visiting
4143 a def that is only to be visited later in iteration order
4144 when we are about to make an irreducible region reducible
4145 the def can be effectively processed and its ref being inserted
4146 by vn_reference_lookup_3 already. So we cannot assert (!*slot)
4147 but save a lookup if we deal with already inserted refs here. */
4149 {
4150 /* We cannot assert that we have the same value either because
4151 when disentangling an irreducible region we may end up visiting
4152 a use before the corresponding def. That's a missed optimization
4153 only though. See gcc.dg/tree-ssa/pr87126.c for example. */
4156 {
4160 }
4164 }
4169 }
4171 /* Insert a reference by it's pieces into the current hash table with
4172 a value number of RESULT. Return the resulting reference
4173 structure we created. */
4175 vn_reference_t
4181 {
4183 vn_reference_t vr1;
4201 INSERT);
4203 /* At this point we should have all the things inserted that we have
4204 seen before, and we should never try inserting something that
4205 already exists. */
4212 }
4214 /* Compute and return the hash value for nary operation VBO1. */
4216 hashval_t
4218 {
4230 {
4233 }
4240 }
4242 /* Compare nary operations VNO1 and VNO2 and return true if they are
4243 equivalent. */
4245 bool
4247 {
4264 /* BIT_INSERT_EXPR has an implict operand as the type precision
4265 of op1. Need to check to make sure they are the same. */
4273 }
4275 /* Initialize VNO from the pieces provided. */
4277 static void
4280 {
4285 }
4287 /* Return the number of operands for a vn_nary ops structure from STMT. */
4289 unsigned int
4291 {
4293 {
4307 }
4308 }
4310 /* Initialize VNO from STMT. */
4312 void
4314 {
4320 {
4346 }
4347 }
4349 /* Compute the hashcode for VNO and look for it in the hash table;
4350 return the resulting value number if it exists in the hash table.
4351 Return NULL_TREE if it does not exist in the hash table or if the
4352 result field of the operation is NULL. VNRESULT will contain the
4353 vn_nary_op_t from the hashtable if it exists. */
4355 static tree
4357 {
4374 }
4376 /* Lookup a n-ary operation by its pieces and return the resulting value
4377 number if it exists in the hash table. Return NULL_TREE if it does
4378 not exist in the hash table or if the result field of the operation
4379 is NULL. VNRESULT will contain the vn_nary_op_t from the hashtable
4380 if it exists. */
4382 tree
4385 {
4390 }
4392 /* Lookup the rhs of STMT in the current hash table, and return the resulting
4393 value number if it exists in the hash table. Return NULL_TREE if
4394 it does not exist in the hash table. VNRESULT will contain the
4395 vn_nary_op_t from the hashtable if it exists. */
4397 tree
4399 {
4400 vn_nary_op_t vno1
4405 }
4407 /* Allocate a vn_nary_op_t with LENGTH operands on STACK. */
4409 vn_nary_op_t
4411 {
4413 }
4415 /* Allocate and initialize a vn_nary_op_t on CURRENT_INFO's
4416 obstack. */
4418 static vn_nary_op_t
4420 {
4429 }
4431 /* Insert VNO into TABLE. */
4433 static vn_nary_op_t
4435 {
4450 {
4451 /* Prefer non-predicated values.
4452 ??? Only if those are constant, otherwise, with constant predicated
4453 value, turn them into predicated values with entry-block validity
4454 (??? but we always find the first valid result currently). */
4457 {
4458 /* ??? We cannot remove *slot from the unwind stack list.
4459 For the moment we deal with this by skipping not found
4460 entries but this isn't ideal ... */
4462 /* ??? Maintain a stack of states we can unwind in
4463 vn_nary_op_s? But how far do we unwind? In reality
4464 we need to push change records somewhere... Or not
4465 unwind vn_nary_op_s and linking them but instead
4466 unwind the results "list", linking that, which also
4467 doesn't move on hashtable resize. */
4468 /* We can also have a ->unwind_to recording *slot there.
4469 That way we can make u.values a fixed size array with
4470 recording the number of entries but of course we then
4471 have always N copies for each unwind_to-state. Or we
4472 make sure to only ever append and each unwinding will
4473 pop off one entry (but how to deal with predicated
4474 replaced with non-predicated here?) */
4478 }
4484 {
4485 /* ??? Factor this all into a insert_single_predicated_value
4486 routine. */
4488 basic_block vno_bb
4494 {
4496 {
4499 {
4500 basic_block val_bb
4504 /* Value registered with more generic predicate. */
4507 /* Shouldn't happen, we insert in RPO order. */
4510 }
4511 /* Append value. */
4526 }
4527 /* Copy other predicated values. */
4534 }
4542 }
4544 /* While we do not want to insert things twice it's awkward to
4545 avoid it in the case where visit_nary_op pattern-matches stuff
4546 and ends up simplifying the replacement to itself. We then
4547 get two inserts, one from visit_nary_op and one from
4548 vn_nary_build_or_lookup.
4549 So allow inserts with the same value number. */
4552 }
4554 /* ??? There's also optimistic vs. previous commited state merging
4555 that is problematic for the case of unwinding. */
4557 /* ??? We should return NULL if we do not use 'vno' and have the
4558 caller release it. */
4565 }
4567 /* Insert a n-ary operation into the current hash table using it's
4568 pieces. Return the vn_nary_op_t structure we created and put in
4569 the hashtable. */
4571 vn_nary_op_t
4575 {
4579 }
4581 /* Return whether we can track a predicate valid when PRED_E is executed. */
4583 static bool
4585 {
4586 /* ??? As we are currently recording the destination basic-block index in
4587 vn_pval.valid_dominated_by_p and using dominance for the
4588 validity check we cannot track predicates on all edges. */
4591 /* Never record for backedges. */
4594 /* When there's more than one predecessor we cannot track
4595 predicate validity based on the destination block. The
4596 exception is when all other incoming edges sources are
4597 dominated by the destination block. */
4598 edge_iterator ei;
4599 edge e;
4604 }
4606 static vn_nary_op_t
4610 edge pred_e)
4611 {
4615 /* ??? Fix dumping, but currently we only get comparisons. */
4617 {
4625 }
4636 }
4638 static bool
4641 static tree
4644 {
4649 {
4650 basic_block cand
4652 /* Do not handle backedge executability optimistically since
4653 when figuring out whether to iterate we do not consider
4654 changed predication.
4655 When asking for predicated values on an edge avoid looking
4656 at edge executability for edges forward in our iteration
4657 as well. */
4659 {
4662 }
4665 }
4667 }
4669 static tree
4671 {
4673 }
4675 /* Insert the rhs of STMT into the current hash table with a value number of
4676 RESULT. */
4678 static vn_nary_op_t
4680 {
4681 vn_nary_op_t vno1
4686 }
4688 /* Compute a hashcode for PHI operation VP1 and return it. */
4692 {
4694 tree phi1op;
4695 tree type;
4696 edge e;
4697 edge_iterator ei;
4701 {
4705 /* When this is a PHI node subject to CSE for different blocks
4706 avoid hashing the block index. */
4709 /* Fallthru. */
4712 }
4714 /* If all PHI arguments are constants we need to distinguish
4715 the PHI node via its type. */
4720 {
4721 /* Don't hash backedge values they need to be handled as VN_TOP
4722 for optimistic value-numbering. */
4730 }
4733 }
4736 /* Return true if COND1 and COND2 represent the same condition, set
4737 *INVERTED_P if one needs to be inverted to make it the same as
4738 the other. */
4740 static bool
4743 {
4749 ;
4756 {
4759 }
4760 else
4768 }
4770 /* Compare two phi entries for equality, ignoring VN_TOP arguments. */
4772 static int
4774 {
4779 {
4784 {
4786 /* Single-arg PHIs are just copies. */
4790 {
4791 /* Make sure both PHIs are classified as CSEable. */
4795 /* Rule out backedges into the PHI. */
4796 gcc_checking_assert
4800 /* If the PHI nodes do not have compatible types
4801 they are not the same. */
4805 /* If the immediate dominator end in switch stmts multiple
4806 values may end up in the same PHI arg via intermediate
4807 CFG merges. */
4808 basic_block idom1
4810 basic_block idom2
4815 /* Verify the controlling stmt is the same. */
4824 /* Get at true/false controlled edges into the PHI. */
4832 /* Swap edges if the second condition is the inverted of the
4833 first. */
4837 /* Since we do not know which edge will be executed we have
4838 to be careful when matching VN_TOP. Be conservative and
4839 only match VN_TOP == VN_TOP for now, we could allow
4840 VN_TOP on the not prevailing PHI though. See for example
4841 PR102920. */
4849 }
4853 }
4854 }
4856 /* If the PHI nodes do not have compatible types
4857 they are not the same. */
4861 /* Any phi in the same block will have it's arguments in the
4862 same edge order, because of how we store phi nodes. */
4865 {
4872 }
4875 }
4877 /* Lookup PHI in the current hash table, and return the resulting
4878 value number if it exists in the hash table. Return NULL_TREE if
4879 it does not exist in the hash table. */
4881 static tree
4883 {
4886 edge e;
4887 edge_iterator ei;
4893 /* Canonicalize the SSA_NAME's to their value number. */
4895 {
4899 {
4903 else
4905 }
4907 }
4910 /* Extract values of the controlling condition. */
4915 {
4919 {
4920 /* ??? We want to use SSA_VAL here. But possibly not
4921 allow VN_TOP. */
4924 }
4925 }
4931 }
4933 /* Insert PHI into the current hash table with a value number of
4934 RESULT. */
4936 static vn_phi_t
4938 {
4944 edge e;
4945 edge_iterator ei;
4947 /* Canonicalize the SSA_NAME's to their value number. */
4949 {
4953 {
4957 else
4959 }
4961 }
4965 /* Extract values of the controlling condition. */
4970 {
4974 {
4975 /* ??? We want to use SSA_VAL here. But possibly not
4976 allow VN_TOP. */
4979 }
4980 }
4991 }
4994 /* Return true if BB1 is dominated by BB2 taking into account edges
4995 that are not executable. When ALLOW_BACK is false consider not
4996 executable backedges as executable. */
4998 static bool
5000 {
5001 edge_iterator ei;
5002 edge e;
5007 /* Before iterating we'd like to know if there exists a
5008 (executable) path from bb2 to bb1 at all, if not we can
5009 directly return false. For now simply iterate once. */
5011 /* Iterate to the single executable bb1 predecessor. */
5013 {
5018 {
5020 {
5023 }
5025 }
5027 {
5030 /* Re-do the dominance check with changed bb1. */
5033 }
5034 }
5036 /* Iterate to the single executable bb2 successor. */
5038 {
5043 {
5045 {
5048 }
5050 }
5052 {
5053 /* Verify the reached block is only reached through succe.
5054 If there is only one edge we can spare us the dominator
5055 check and iterate directly. */
5057 {
5062 {
5065 }
5066 }
5068 {
5071 /* Re-do the dominance check with changed bb2. */
5074 }
5075 }
5076 }
5078 /* We could now iterate updating bb1 / bb2. */
5080 }
5082 /* Set the value number of FROM to TO, return true if it has changed
5083 as a result. */
5087 {
5094 /* The only thing we allow as value numbers are ssa_names
5095 and invariants. So assert that here. We don't allow VN_TOP
5096 as visiting a stmt should produce a value-number other than
5097 that.
5098 ??? Still VN_TOP can happen for unreachable code, so force
5099 it to varying in that case. Not all code is prepared to
5100 get VN_TOP on valueization. */
5102 {
5103 /* ??? When iterating and visiting PHI <undef, backedge-value>
5104 for the first time we rightfully get VN_TOP and we need to
5105 preserve that to optimize for example gcc.dg/tree-ssa/ssa-sccvn-2.c.
5106 With SCCVN we were simply lucky we iterated the other PHI
5107 cycles first and thus visited the backedge-value DEF. */
5114 }
5122 {
5124 {
5126 {
5132 }
5134 }
5140 && !curr_invariant
5141 && !curr_undefined
5143 {
5145 {
5154 }
5156 }
5158 && !curr_undefined
5162 {
5164 {
5173 }
5175 }
5179 }
5181 set_and_exit:
5183 {
5188 }
5192 /* Different undefined SSA names are not actually different. See
5193 PR82320 for a testcase were we'd otherwise not terminate iteration. */
5194 && !(curr_undefined
5198 /* ??? For addresses involving volatile objects or types operand_equal_p
5199 does not reliably detect ADDR_EXPRs as equal. We know we are only
5200 getting invariant gimple addresses here, so can use
5201 get_addr_base_and_unit_offset to do this comparison. */
5207 {
5210 && !curr_undefined
5211 /* We do not want to allow lattice transitions from one value
5212 to another since that may lead to not terminating iteration
5213 (see PR95049). Since there's no convenient way to check
5214 for the allowed transition of VAL -> PHI (loop entry value,
5215 same on two PHIs, to same PHI result) we restrict the check
5216 to invariants. */
5217 && curr_invariant
5219 {
5223 }
5228 }
5232 }
5234 /* Set all definitions in STMT to value number to themselves.
5235 Return true if a value number changed. */
5237 static bool
5239 {
5241 ssa_op_iter iter;
5242 def_operand_p defp;
5245 {
5248 }
5250 }
5252 /* Visit a copy between LHS and RHS, return true if the value number
5253 changed. */
5255 static bool
5257 {
5258 /* Valueize. */
5262 }
5264 /* Lookup a value for OP in type WIDE_TYPE where the value in type of OP
5265 is the same. */
5267 static tree
5269 {
5273 /* Either we have the op widened available. */
5281 /* Or the op is truncated from some existing value. */
5283 {
5287 {
5290 {
5294 }
5295 }
5296 }
5298 /* For constants simply extend it. */
5303 }
5305 /* Visit a nary operator RHS, value number it, and return true if the
5306 value number of LHS has changed as a result. */
5308 static bool
5310 {
5311 vn_nary_op_t vnresult;
5318 /* Do some special pattern matching for redundancies of operations
5319 in different types. */
5324 {
5325 CASE_CONVERT:
5326 /* Match arithmetic done in a different type where we can easily
5327 substitute the result from some earlier sign-changed or widened
5328 operation. */
5331 /* We only handle sign-changes, zero-extension -> & mask or
5332 sign-extension if we know the inner operation doesn't
5333 overflow. */
5339 {
5345 {
5347 /* When requiring a sign-extension we cannot model a
5348 previous truncation with a single op so don't bother. */
5350 /* Either we have the op widened available. */
5352 allow_truncate);
5355 allow_truncate);
5357 {
5360 /* We have wider operation available. */
5362 /* If the leader is a wrapping operation we can
5363 insert it for code hoisting w/o introducing
5364 undefined overflow. If it is not it has to
5365 be available. See PR86554. */
5370 {
5376 {
5381 {
5385 }
5386 }
5387 else
5388 {
5389 tree mask = wide_int_to_tree
5392 BIT_AND_EXPR,
5397 {
5401 }
5402 }
5403 }
5404 }
5405 }
5406 }
5420 {
5425 {
5429 default_vn_walk_kind,
5436 }
5437 }
5442 /* Fallthru. */
5445 /* Match up ([-]a){/,*}([-])b with v=a{/,*}b, replacing it with -v. */
5447 {
5452 {
5462 {
5467 {
5471 }
5472 }
5473 }
5474 }
5477 /* For X << C, use the value number of X * (1 << C). */
5481 {
5486 {
5494 {
5499 }
5500 }
5501 }
5505 }
5510 }
5512 /* Visit a call STMT storing into LHS. Return true if the value number
5513 of the LHS has changed as a result. */
5515 static bool
5517 {
5524 /* Non-ssa lhs is handled in copy_reference_ops_from_call. */
5530 /* If the lookup did not succeed for pure functions try to use
5531 modref info to find a candidate to CSE to. */
5534 && !vdef
5535 && lhs
5541 {
5542 /* First search if we can do someting useful and build a
5543 vector of all loads we have to check. */
5548 /* Add loads done as part of setting up the call arguments.
5549 That's also necessary for CONST functions which will
5550 not have a modref summary. */
5552 {
5556 {
5558 {
5561 }
5564 }
5565 }
5567 {
5568 /* Add loads as analyzed by IPA modref. */
5576 {
5580 {
5581 /* Initialize a ref based on the argument and
5582 unknown offset if possible. */
5590 {
5594 }
5595 else
5596 {
5599 }
5600 }
5603 }
5604 }
5606 /* Walk the VUSE->VDEF chain optimistically trying to find an entry
5607 for the call in the hashtable. */
5610 : (param_sccvn_max_alias_queries_per_access
5615 {
5618 /* ??? We could use fancy stuff like in walk_non_aliased_vuses, but
5619 do not bother for now. */
5625 limit--;
5626 }
5628 /* If we found a candidate to CSE to verify it is valid. */
5630 {
5633 {
5636 {
5637 /* ??? stmt_may_clobber_ref_p_1 does per stmt constant
5638 analysis overhead that we might be able to cache. */
5640 {
5643 }
5644 }
5646 }
5647 }
5650 }
5653 {
5655 {
5659 /* If stmt has non-SSA_NAME lhs, value number the vdef to itself,
5660 as the call still acts as a lhs store. */
5662 else
5663 /* If the call was discovered to be pure or const reflect
5664 that as far as possible. */
5667 }
5674 }
5675 else
5676 {
5677 vn_reference_t vr2;
5681 {
5682 /* If we value numbered an indirect functions function to
5683 one not clobbering memory value number its VDEF to its
5684 VUSE. */
5687 {
5693 /* If stmt has non-SSA_NAME lhs, value number the
5694 vdef to itself, as the call still acts as a lhs
5695 store. */
5698 }
5700 }
5705 /* As we are not walking the virtual operand chain we know the
5706 shared_lookup_references are still original so we can re-use
5707 them here. */
5718 INSERT);
5723 }
5726 }
5728 /* Visit a load from a reference operator RHS, part of STMT, value number it,
5729 and return true if the value number of the LHS has changed as a result. */
5731 static bool
5733 {
5735 tree result;
5736 vn_reference_t res;
5742 /* We handle type-punning through unions by value-numbering based
5743 on offset and size of the access. Be prepared to handle a
5744 type-mismatch here via creating a VIEW_CONVERT_EXPR. */
5747 {
5748 /* Avoid the type punning in case the result mode has padding where
5749 the op we lookup has not. */
5756 else
5757 {
5758 /* We will be setting the value number of lhs to the value number
5759 of VIEW_CONVERT_EXPR <TREE_TYPE (result)> (result).
5760 So first simplify and lookup this expression to see if it
5761 is already available. */
5768 /* Track whether this is the canonical expression for different
5769 typed loads. We use that as a stopgap measure for code
5770 hoisting when dealing with floating point loads. */
5772 }
5774 /* When building the conversion fails avoid inserting the reference
5775 again. */
5778 }
5782 else
5783 {
5787 {
5789 {
5793 }
5795 }
5796 }
5799 }
5802 /* Visit a store to a reference operator LHS, part of STMT, value number it,
5803 and return true if the value number of the LHS has changed as a result. */
5805 static bool
5807 {
5810 tree assign;
5818 /* First we want to lookup using the *vuses* from the store and see
5819 if there the last store to this location with the same address
5820 had the same value.
5822 The vuses represent the memory state before the store. If the
5823 memory state, address, and value of the store is the same as the
5824 last store to this location, then this store will produce the
5825 same memory state as that store.
5827 In this case the vdef versions for this store are value numbered to those
5828 vuse versions, since they represent the same memory state after
5829 this store.
5831 Otherwise, the vdefs for the store are used when inserting into
5832 the table, since the store generates a new memory state. */
5837 {
5843 {
5844 /* If the TBAA state isn't compatible for downstream reads
5845 we cannot value-number the VDEFs the same. */
5846 ao_ref lhs_ref;
5855 }
5856 }
5859 {
5861 {
5868 }
5869 /* Have to set value numbers before insert, since insert is
5870 going to valueize the references in-place. */
5874 /* Do not insert structure copies into the tables. */
5879 /* Only perform the following when being called from PRE
5880 which embeds tail merging. */
5882 {
5887 }
5888 }
5889 else
5890 {
5891 /* We had a match, so value number the vdef to have the value
5892 number of the vuse it came from. */
5899 }
5902 }
5904 /* Visit and value number PHI, return true if the value number
5905 changed. When BACKEDGES_VARYING_P is true then assume all
5906 backedge values are varying. When INSERTED is not NULL then
5907 this is just a ahead query for a possible iteration, set INSERTED
5908 to true if we'd insert into the hashtable. */
5910 static bool
5912 {
5920 edge_iterator ei;
5923 /* TODO: We could check for this in initialization, and replace this
5924 with a gcc_assert. */
5928 /* We track whether a PHI was CSEd to to avoid excessive iterations
5929 that would be necessary only because the PHI changed arguments
5930 but not value. */
5934 /* See if all non-TOP arguments have the same value. TOP is
5935 equivalent to everything, so we can ignore it. */
5939 {
5947 {
5953 }
5957 ;
5958 /* Ignore undefined defs for sameval but record one. */
5962 {
5964 /* Avoid having not visited undefined defs if we also have
5965 a visited one. */
5967 {
5970 }
5971 }
5973 {
5976 }
5980 {
5983 }
5984 else
5985 {
5986 /* We know we're arriving only with invariant addresses here,
5987 try harder comparing them. We can do some caching here
5988 which we cannot do in expressions_equal_p. */
5992 {
5994 sameval_base = get_addr_base_and_unit_offset
6002 }
6003 /* There's also the possibility to use equivalences. */
6005 /* But only do this if we didn't force any of sameval or
6006 val to VARYING because of backedge processing rules. */
6010 {
6011 vn_nary_op_t vnresult;
6016 boolean_type_node,
6019 {
6023 {
6025 {
6032 }
6034 }
6035 /* If on all previous edges the value was equal to def
6036 we can change sameval to def. */
6042 {
6044 {
6052 }
6055 }
6056 }
6057 }
6060 }
6061 }
6063 /* If the value we want to use is flowing over the backedge and we
6064 should take it as VARYING but it has a non-VARYING value drop to
6065 VARYING.
6066 If we value-number a virtual operand never value-number to the
6067 value from the backedge as that confuses the alias-walking code.
6068 See gcc.dg/torture/pr87176.c. If the value is the same on a
6069 non-backedge everything is OK though. */
6072 && !seen_non_backedge
6077 /* Do not value-number a virtual operand to sth not visited though
6078 given that allows us to escape a region in alias walking. */
6079 || (sameval
6084 /* Note this just drops to VARYING without inserting the PHI into
6085 the hashes. */
6087 /* If none of the edges was executable keep the value-number at VN_TOP,
6088 if only a single edge is exectuable use its value. */
6091 /* If we saw only undefined values and VN_TOP use one of the
6092 undefined values. */
6095 /* First see if it is equivalent to a phi node in this block. We prefer
6096 this as it allows IV elimination - see PRs 66502 and 67167. */
6098 {
6102 {
6105 {
6110 }
6111 }
6112 }
6113 /* If all values are the same use that, unless we've seen undefined
6114 values as well and the value isn't constant.
6115 CCP/copyprop have the same restriction to not remove uninit warnings. */
6119 else
6120 {
6122 /* Only insert PHIs that are varying, for constant value numbers
6123 we mess up equivalences otherwise as we are only comparing
6124 the immediate controlling predicates. */
6128 }
6131 }
6133 /* Try to simplify RHS using equivalences and constant folding. */
6135 static tree
6137 {
6139 tree tem;
6141 /* For stores we can end up simplifying a SSA_NAME rhs. Just return
6142 in this case, there is no point in doing extra work. */
6146 /* First try constant folding based on our current lattice. */
6156 }
6158 /* Visit and value number STMT, return true if the value number
6159 changed. */
6161 static bool
6163 {
6167 {
6170 }
6177 {
6181 tree simplified;
6183 /* Shortcut for copies. Simplifying copies is pointless,
6184 since we copy the expression and value they represent. */
6187 {
6190 }
6193 {
6195 {
6201 }
6202 }
6203 /* Setting value numbers to constants will occasionally
6204 screw up phi congruence because constants are not
6205 uniquely associated with a single ssa name that can be
6206 looked up. */
6210 {
6213 }
6217 {
6220 }
6223 /* We can substitute SSA_NAMEs that are live over
6224 abnormal edges with their constant value. */
6227 && !(simplified
6230 /* Stores or copies from SSA_NAMEs that are live over
6231 abnormal edges are a problem. */
6239 {
6242 || (simplified
6244 {
6247 else
6249 }
6250 else
6251 {
6252 /* Visit the original statement. */
6254 {
6264 }
6265 }
6266 }
6267 else
6269 }
6271 {
6274 {
6275 /* Try constant folding based on our current lattice. */
6277 vn_valueize);
6279 {
6281 {
6287 }
6288 }
6289 /* Setting value numbers to constants will occasionally
6290 screw up phi congruence because constants are not
6291 uniquely associated with a single ssa name that can be
6292 looked up. */
6295 {
6301 }
6304 {
6310 }
6312 {
6315 }
6316 }
6318 /* Pick up flags from a devirtualization target. */
6322 {
6327 }
6329 and the same operands do not necessarily return the same
6330 value, unless they're pure or const. */
6333 /* If calls have a vdef, subsequent calls won't have
6334 the same incoming vuse. So, if 2 calls with vdef have the
6335 same vuse, we know they're not subsequent.
6336 We can value number 2 calls to the same function with the
6337 same vuse and the same operands which are not subsequent
6338 the same, because there is no code in the program that can
6339 compare the 2 values... */
6341 /* ... unless the call returns a pointer which does
6342 not alias with anything else. In which case the
6343 information that the values are distinct are encoded
6344 in the IL. */
6346 /* Only perform the following when being called from PRE
6347 which embeds tail merging. */
6349 /* Do not process .DEFERRED_INIT since that confuses uninit
6350 analysis. */
6353 else
6355 }
6356 else
6358 done:
6360 }
6363 /* Allocate a value number table. */
6365 static void
6367 {
6371 }
6373 /* Free a value number table. */
6375 static void
6377 {
6378 /* Walk over elements and release vectors. */
6379 vn_reference_iterator_type hir;
6380 vn_reference_t vr;
6389 }
6391 /* Set *ID according to RESULT. */
6393 static void
6395 {
6400 else
6402 }
6404 /* Set the value ids in the valid hash tables. */
6406 static void
6408 {
6409 vn_nary_op_iterator_type hin;
6410 vn_phi_iterator_type hip;
6411 vn_reference_iterator_type hir;
6412 vn_nary_op_t vno;
6413 vn_reference_t vr;
6414 vn_phi_t vp;
6416 /* Now set the value ids of the things we had put in the hash
6417 table. */
6427 hir)
6429 }
6431 /* Return the maximum value id we have ever seen. */
6433 unsigned int
6435 {
6437 }
6439 /* Return the maximum constant value id we have ever seen. */
6441 unsigned int
6443 {
6445 }
6447 /* Return the next unique value id. */
6449 unsigned int
6451 {
6454 }
6456 /* Return the next unique value id for constants. */
6458 unsigned int
6460 {
6463 }
6466 /* Compare two expressions E1 and E2 and return true if they are equal.
6467 If match_vn_top_optimistically is true then VN_TOP is equal to anything,
6468 otherwise VN_TOP only matches VN_TOP. */
6470 bool
6472 {
6473 /* The obvious case. */
6477 /* If either one is VN_TOP consider them equal. */
6482 /* If only one of them is null, they cannot be equal. While in general
6483 this should not happen for operations like TARGET_MEM_REF some
6484 operands are optional and an identity value we could substitute
6485 has differing semantics. */
6489 /* SSA_NAME compare pointer equal. */
6493 /* Now perform the actual comparison. */
6499 }
6502 /* Return true if the nary operation NARY may trap. This is a copy
6503 of stmt_could_throw_1_p adjusted to the SCCVN IL. */
6505 bool
6507 {
6508 tree type;
6520 {
6524 {
6527 }
6530 }
6544 }
6546 /* Return true if the reference operation REF may trap. */
6548 bool
6550 {
6552 {
6555 /* We do not handle calls. */
6558 /* And toplevel address computations never trap. */
6561 }
6563 vn_reference_op_t op;
6566 {
6568 {
6571 /* Always variable. */
6582 {
6586 /* !in_array_bounds */
6594 || !max
6604 }
6606 /* Nothing interesting in itself, the base is separate. */
6608 /* The following are the address bases. */
6616 }
6617 }
6619 }
6622 bitmap inserted_exprs_)
6626 {
6629 }
6632 {
6635 }
6637 /* Return a leader for OP that is available at the current point of the
6638 eliminate domwalk. */
6640 tree
6642 {
6645 {
6649 {
6651 /* When PRE discovers a new redundancy there's no way to unite
6652 the value classes so it instead inserts a copy old-val = new-val.
6653 Look through such copies here, providing one more level of
6654 simplification at elimination time. */
6658 {
6664 }
6666 }
6667 }
6671 }
6673 /* At the current point of the eliminate domwalk make OP available. */
6675 void
6677 {
6680 {
6688 }
6689 }
6691 /* Insert the expression recorded by SCCVN for VAL at *GSI. Returns
6692 the leader for the expression if insertion was successful. */
6694 tree
6697 {
6698 /* We can insert a sequence with a single assignment only. */
6720 tree res;
6730 else
6736 {
6739 /* During propagation we have to treat SSA info conservatively
6740 and thus we can end up simplifying the inserted expression
6741 at elimination time to sth not defined in stmts. */
6742 /* But then this is a redundancy we failed to detect. Which means
6743 res now has two values. That doesn't play well with how
6744 we track availability here, so give up. */
6746 {
6750 {
6756 }
6757 }
6760 }
6761 else
6762 {
6767 }
6769 insertions++;
6771 {
6774 }
6777 }
6779 void
6781 {
6787 /* See PR43491. Do not replace a global register variable when
6788 it is a the RHS of an assignment. Do replace local register
6789 variables since gcc does not guarantee a local variable will
6790 be allocated in register.
6791 ??? The fix isn't effective here. This should instead
6792 be ensured by not value-numbering them the same but treating
6793 them like volatiles? */
6798 {
6801 {
6802 /* If there is no existing usable leader but SCCVN thinks
6803 it has an expression it wants to use as replacement,
6804 insert that. */
6806 vn_ssa_aux_t vn_info;
6814 }
6816 /* If this now constitutes a copy duplicate points-to
6817 and range info appropriately. This is especially
6818 important for inserted code. See tree-ssa-copy.cc
6819 for similar code. */
6822 {
6827 {
6832 }
6838 }
6840 /* Inhibit the use of an inserted PHI on a loop header when
6841 the address of the memory reference is a simple induction
6842 variable. In other cases the vectorizer won't do anything
6843 anyway (either it's loop invariant or a complicated
6844 expression). */
6847 && do_pre
6853 {
6858 {
6860 ssa_op_iter iter;
6861 tree op;
6864 {
6865 affine_iv iv;
6870 {
6873 }
6874 }
6876 {
6878 {
6886 }
6887 /* Don't keep sprime available. */
6889 }
6890 }
6891 }
6894 {
6895 /* If we can propagate the value computed for LHS into
6896 all uses don't bother doing anything with this stmt. */
6898 {
6899 /* Mark it for removal. */
6902 /* ??? Don't count copy/constant propagations. */
6909 {
6916 }
6918 eliminations++;
6920 }
6922 /* If this is an assignment from our leader (which
6923 happens in the case the value-number is a constant)
6924 then there is nothing to do. Likewise if we run into
6925 inserted code that needed a conversion because of
6926 our type-agnostic value-numbering of loads. */
6934 /* Else replace its RHS. */
6936 {
6943 }
6944 eliminations++;
6951 {
6952 /* We preserve conversions to but not from function or method
6953 types. This asymmetry makes it necessary to re-instantiate
6954 conversions here. */
6958 else
6960 }
6966 /* In case the VDEF on the original stmt was released, value-number
6967 it to the VUSE. This is to make vuse_ssa_val able to skip
6968 released virtual operands. */
6970 {
6973 }
6975 /* If we removed EH side-effects from the statement, clean
6976 its EH information. */
6978 {
6983 }
6985 /* Likewise for AB side-effects. */
6988 {
6993 }
6996 }
6997 }
6999 /* If the statement is a scalar store, see if the expression
7000 has the same value number as its rhs. If so, the store is
7001 dead. */
7007 {
7009 vn_reference_t vnresult;
7010 /* ??? gcc.dg/torture/pr91445.c shows that we lookup a boolean
7011 typed load of a byte known to be 0x11 as 1 so a store of
7012 a boolean 1 is detected as redundant. Because of this we
7013 have to make sure to lookup with a ref where its size
7014 matches the precision. */
7020 {
7026 {
7027 tree ltype = build_nonstandard_integer_type
7031 {
7036 else
7040 bit_from_pos
7042 }
7043 else
7047 }
7048 else
7050 }
7060 /* Due to the bitfield lookups above we can get bit
7061 interpretations of the same RHS as values here. Those
7062 are redundant as well. */
7068 {
7069 /* We can only remove the later store if the former aliases
7070 at least all accesses the later one does or if the store
7071 was to readonly memory storing the same value. */
7072 ao_ref lhs_ref;
7081 {
7083 {
7086 }
7088 /* Queue stmt for removal. */
7091 }
7092 }
7093 }
7095 /* If this is a control statement value numbering left edges
7096 unexecuted on force the condition in a way consistent with
7097 that. */
7099 {
7102 {
7104 {
7107 }
7111 else
7116 }
7117 }
7125 /* If we didn't replace the whole stmt (or propagate the result
7126 into all uses), replace all uses on this stmt with their
7127 leaders. */
7129 use_operand_p use_p;
7130 ssa_op_iter iter;
7132 {
7134 /* ??? The call code above leaves stmt operands un-updated. */
7137 tree sprime;
7139 /* ??? For default defs BB shouldn't matter, but we have to
7140 solve the inconsistency between rpo eliminate and
7141 dom eliminate avail valueization first. */
7143 else
7144 /* Look for sth available at the definition block of the argument.
7145 This avoids inconsistencies between availability there which
7146 decides if the stmt can be removed and availability at the
7147 use site. The SSA property ensures that things available
7148 at the definition are also available at uses. */
7152 /* We substitute into debug stmts to avoid excessive
7153 debug temporaries created by removed stmts, but we need
7154 to avoid doing so for inserted sprimes as we never want
7155 to create debug temporaries for them. */
7156 && (!inserted_exprs
7160 {
7163 }
7164 }
7166 /* Fold the stmt if modified, this canonicalizes MEM_REFs we propagated
7167 into which is a requirement for the IPA devirt machinery. */
7170 {
7171 /* If a formerly non-invariant ADDR_EXPR is turned into an
7172 invariant one it was on a separate stmt. */
7179 {
7180 /* fold_stmt may have created new stmts inbetween
7181 the previous stmt and the folded stmt. Mark
7182 all defs created there as varying to not confuse
7183 the SCCVN machinery as we're using that even during
7184 elimination. */
7187 else
7190 do
7191 {
7192 tree def;
7193 ssa_op_iter dit;
7196 /* As existing DEFs may move between stmts
7197 only process new ones. */
7199 {
7203 }
7207 }
7209 }
7211 /* In case we folded the stmt away schedule the NOP for removal. */
7214 }
7216 /* Visit indirect calls and turn them into direct calls if
7217 possible using the devirtualization machinery. Do this before
7218 checking for required EH/abnormal/noreturn cleanup as devird
7219 may expose more of those. */
7221 {
7224 && flag_devirtualize
7226 {
7228 unsigned HOST_WIDE_INT otr_tok
7230 tree instance;
7244 {
7245 tree fn;
7248 else
7251 {
7253 "converting indirect call to "
7256 }
7258 /* If changing the call to __builtin_unreachable
7259 or similar noreturn function, adjust gimple_call_fntype
7260 too. */
7269 }
7270 }
7271 }
7274 {
7275 /* When changing a call into a noreturn call, cfg cleanup
7276 is needed to fix up the noreturn call. */
7280 /* When changing a condition or switch into one we know what
7281 edge will be executed, schedule a cfg cleanup. */
7289 /* If we removed EH side-effects from the statement, clean
7290 its EH information. */
7292 {
7297 }
7298 /* Likewise for AB side-effects. */
7301 {
7306 }
7308 /* In case the VDEF on the original stmt was released, value-number
7309 it to the VUSE. This is to make vuse_ssa_val able to skip
7310 released virtual operands. */
7313 }
7315 /* Make new values available - for fully redundant LHS we
7316 continue with the next stmt above and skip this.
7317 But avoid picking up dead defs. */
7318 tree def;
7321 || (inserted_exprs
7324 }
7326 /* Perform elimination for the basic-block B during the domwalk. */
7328 edge
7330 {
7331 /* Mark new bb. */
7334 /* Skip unreachable blocks marked unreachable during the SCCVN domwalk. */
7341 {
7346 {
7349 }
7354 {
7356 {
7362 }
7364 /* If we inserted this PHI node ourself, it's not an elimination. */
7367 eliminations++;
7369 /* If we will propagate into all uses don't bother to do
7370 anything. */
7372 {
7373 /* Mark the PHI for removal. */
7377 }
7387 }
7391 }
7398 /* Replace destination PHI arguments. */
7399 edge_iterator ei;
7400 edge e;
7406 {
7417 }
7422 }
7424 /* Make no longer available leaders no longer available. */
7426 void
7428 {
7429 tree entry;
7431 {
7436 else
7438 }
7439 }
7441 /* Remove queued stmts and perform delayed cleanups. */
7443 unsigned
7445 {
7449 /* We cannot remove stmts during BB walk, especially not release SSA
7450 names there as this confuses the VN machinery. The stmts ending
7451 up in to_remove are either stores or simple copies.
7452 Remove stmts in reverse order to make debug stmt creation possible. */
7454 {
7458 /* When we are value-numbering a region we do not require exit PHIs to
7459 be present so we have to make sure to deal with uses outside of the
7460 region of stmts that we thought are eliminated.
7461 ??? Note we may be confused by uses in dead regions we didn't run
7462 elimination on. Rather than checking individual uses we accept
7463 dead copies to be generated here (gcc.c-torture/execute/20060905-1.c
7464 contains such example). */
7466 {
7468 {
7471 {
7477 gimple_stmt_iterator gsi
7481 }
7482 }
7486 {
7493 {
7500 }
7501 else
7502 {
7506 }
7507 }
7508 }
7511 {
7514 }
7519 else
7520 {
7529 }
7531 /* Removing a stmt may expose a forwarder block. */
7533 }
7535 /* Fixup stmts that became noreturn calls. This may require splitting
7536 blocks and thus isn't possible during the dominator walk. Do this
7537 in reverse order so we don't inadvertedly remove a stmt we want to
7538 fixup by visiting a dominating now noreturn call first. */
7540 {
7544 {
7547 }
7551 }
7566 }
7568 /* Eliminate fully redundant computations. */
7570 unsigned
7572 {
7581 }
7583 static unsigned
7587 void
7589 {
7592 /* ??? Prune requirement of these. */
7595 /* Initialize the value ids and prune out remaining VN_TOPs
7596 from dead code. */
7597 tree name;
7600 {
7609 }
7611 /* Propagate. */
7613 {
7619 }
7624 {
7627 {
7630 {
7635 }
7636 }
7637 }
7638 }
7640 /* Free VN associated data structures. */
7642 void
7644 {
7650 vn_ssa_aux_iterator_type it;
7651 vn_ssa_aux_t info;
7660 }
7662 /* Hook for maybe_push_res_to_seq, lookup the expression in the VN tables. */
7664 static tree
7666 {
7672 /* ??? We're arriving here with SCCVNs view, decomposed CONSTRUCTOR
7673 and GIMPLEs / match-and-simplifies, CONSTRUCTOR as GENERIC tree. */
7675 {
7680 }
7684 /* If this is used from expression simplification make sure to
7685 return an available expression. */
7689 }
7691 /* Return a leader for OPs value that is valid at BB. */
7693 tree
7695 {
7698 /* If we didn't visit OP then it must be defined outside of the
7699 region we process and also dominate it. So it is available. */
7703 {
7707 /* See above. */
7714 /* On tramp3d 90% of the cases are here. */
7716 do
7717 {
7719 /* ??? During elimination we have to use availability at the
7720 definition site of a use we try to replace. This
7721 is required to not run into inconsistencies because
7722 of dominated_by_p_w_unex behavior and removing a definition
7723 while not replacing all uses.
7724 ??? We could try to consistently walk dominators
7725 ignoring non-executable regions. The nearest common
7726 dominator of bb and abb is where we can stop walking. We
7727 may also be able to "pre-compute" (bits of) the next immediate
7728 (non-)dominator during the RPO walk when marking edges as
7729 executable. */
7731 {
7733 /* Prevent eliminations that break loop-closed SSA. */
7738 bb))
7741 {
7746 }
7747 /* On tramp3d 99% of the _remaining_ cases succeed at
7748 the first enty. */
7750 }
7751 /* ??? Can we somehow skip to the immediate dominator
7752 RPO index (bb_to_rpo)? Again, maybe not worth, on
7753 tramp3d the worst number of elements in the vector is 9. */
7755 }
7757 }
7759 /* valnum is is_gimple_min_invariant. */
7762 }
7764 /* Make LEADER a leader for its value at BB. */
7766 void
7768 {
7774 {
7780 }
7784 {
7787 }
7788 else
7796 }
7798 /* Valueization hook for RPO VN plus required state. */
7800 tree
7802 {
7804 {
7807 {
7810 {
7813 /* For all values we only valueize to an available leader
7814 which means we can use SSA name info without restriction. */
7818 }
7819 }
7820 }
7822 }
7824 /* Insert on PRED_E predicates derived from CODE OPS being true besides the
7825 inverted condition. */
7827 static void
7829 {
7831 {
7833 /* a < b -> a {!,<}= b */
7838 /* a < b -> ! a {>,=} b */
7845 /* a > b -> a {!,>}= b */
7850 /* a > b -> ! a {<,=} b */
7857 /* a == b -> ! a {<,>} b */
7866 /* Nothing besides inverted condition. */
7869 }
7870 }
7872 /* Main stmt worker for RPO VN, process BB. */
7874 static unsigned
7878 {
7880 edge_iterator ei;
7881 edge e;
7885 /* If we are in loop-closed SSA preserve this state. This is
7886 relevant when called on regions from outside of FRE/PRE. */
7894 {
7897 }
7899 /* When we visit a loop header substitute into loop info. */
7901 {
7902 /* Keep fields in sync with substitute_in_loop_info. */
7907 }
7909 /* Value-number all defs in the basic-block. */
7913 {
7918 {
7922 }
7924 /* When not iterating force backedge values to varying. */
7929 /* Eliminate */
7930 /* The interesting case is gcc.dg/tree-ssa/pr22230.c for correctness
7931 how we handle backedges and availability.
7932 And gcc.dg/tree-ssa/ssa-sccvn-2.c for optimization. */
7935 {
7937 {
7939 /* Preserve loop-closed SSA form. */
7940 && (! lc_phi_nodes
7942 {
7944 {
7951 }
7955 {
7956 /* Schedule for removal. */
7959 }
7960 /* ??? Else generate a copy stmt. */
7961 }
7962 }
7963 }
7964 /* Only make defs available that not already are. But make
7965 sure loop-closed SSA PHI node defs are picked up for
7966 downstream uses. */
7971 }
7973 /* For empty BBs mark outgoing edges executable. For non-empty BBs
7974 we do this when processing the last stmt as we have to do this
7975 before elimination which otherwise forces GIMPLE_CONDs to
7976 if (1 != 0) style when seeing non-executable edges. */
7978 {
7980 {
7982 {
7989 }
7991 {
7997 }
7998 }
7999 }
8002 {
8003 ssa_op_iter i;
8004 tree op;
8006 {
8008 {
8013 }
8015 /* We somehow have to deal with uses that are not defined
8016 in the processed region. Forcing unvisited uses to
8017 varying here doesn't play well with def-use following during
8018 expression simplification, so we deal with this by checking
8019 the visited flag in SSA_VAL. */
8020 }
8027 {
8033 {
8039 /* If the condition didn't simplfy see if we have recorded
8040 an expression from sofar taken edges. */
8042 {
8043 vn_nary_op_t vnresult;
8050 /* Did we get a predicated value? */
8052 {
8055 {
8060 }
8061 }
8062 }
8066 {
8067 /* If we didn't manage to compute the taken edge then
8068 push predicated expressions for the condition itself
8069 and related conditions to the hashtables. This allows
8070 simplification of redundant conditions which is
8071 important as early cleanup. */
8075 enum tree_code icode
8087 vn_nary_op_insert_pieces_predicated
8091 vn_nary_op_insert_pieces_predicated
8095 {
8097 vn_nary_op_insert_pieces_predicated
8101 vn_nary_op_insert_pieces_predicated
8104 }
8105 /* Relax for non-integers, inverted condition handled
8106 above. */
8108 {
8113 }
8114 }
8116 }
8122 }
8124 {
8127 {
8135 }
8137 {
8143 }
8144 }
8146 {
8148 {
8150 {
8157 }
8159 {
8165 }
8166 }
8167 }
8169 /* Eliminate. That also pushes to avail. */
8172 else
8173 /* If not eliminating, make all not already available defs
8174 available. But avoid picking up dead defs. */
8179 }
8181 /* Eliminate in destination PHI arguments. Always substitute in dest
8182 PHIs, even for non-executable edges. This handles region
8183 exits PHIs. */
8188 {
8195 tree sprime;
8197 {
8201 }
8202 else
8203 /* Look for sth available at the definition block of the argument.
8204 This avoids inconsistencies between availability there which
8205 decides if the stmt can be removed and availability at the
8206 use site. The SSA property ensures that things available
8207 at the definition are also available at uses. */
8209 arg);
8214 }
8218 }
8220 /* Unwind state per basic-block. */
8222 struct unwind_state
8223 {
8224 /* Times this block has been visited. */
8226 /* Whether to handle this as iteration point or whether to treat
8227 incoming backedge PHI values as varying. */
8229 /* Maximum RPO index this block is reachable from. */
8231 /* Unwind state. */
8233 vn_reference_t ref_top;
8234 vn_phi_t phi_top;
8235 vn_nary_op_t nary_top;
8237 };
8239 /* Unwind the RPO VN state for iteration. */
8241 static void
8243 {
8247 {
8251 /* Predication causes the need to restore previous state. */
8254 else
8256 }
8259 {
8264 }
8267 {
8273 }
8276 /* Prune [rpo_idx, ] from avail. */
8278 {
8285 }
8286 }
8288 /* Do VN on a SEME region specified by ENTRY and EXIT_BBS in FN.
8289 If ITERATE is true then treat backedges optimistically as not
8290 executed and iterate. If ELIMINATE is true then perform
8291 elimination, otherwise leave that to the caller. */
8293 static unsigned
8296 {
8300 /* We currently do not support region-based iteration when
8301 elimination is requested. */
8303 /* When iterating we need loop info up-to-date. */
8308 {
8312 }
8314 /* Clear EDGE_DFS_BACK on "all" entry edges, RPO order compute will
8315 re-mark those that are contained in the region. */
8316 edge_iterator ei;
8317 edge e;
8329 /* If there are any non-DFS_BACK edges into entry->dest skip
8330 processing PHI nodes for that block. This supports
8331 value-numbering loop bodies w/o the actual loop. */
8350 /* Verify we have no extra entries into the region. */
8352 {
8355 {
8358 }
8359 /* We can't merge the first two loops because we cannot rely
8360 on EDGE_DFS_BACK for edges not within the region. But if
8361 we decide to always have the bb_in_region flag we can
8362 do the checking during the RPO walk itself (but then it's
8363 also easy to handle MEME conservatively). */
8365 {
8367 edge e;
8368 edge_iterator ei;
8373 }
8375 {
8378 }
8379 }
8381 /* Create the VN state. For the initial size of the various hashtables
8382 use a heuristic based on region size and number of SSA names. */
8403 /* Initialize the unwind state and edge/BB executable state. */
8406 {
8411 {
8416 curr_scc++;
8417 }
8420 edge e;
8421 edge_iterator ei;
8423 {
8429 }
8431 }
8435 /* As heuristic to improve compile-time we handle only the N innermost
8436 loops and the outermost one optimistically. */
8438 {
8444 {
8447 edge e;
8448 edge_iterator ei;
8451 {
8452 /* There can be a non-latch backedge into the header
8453 which is part of an outer irreducible region. We
8454 cannot avoid iterating this block then. */
8457 {
8463 }
8464 else
8466 }
8468 }
8469 }
8474 /* Go and process all blocks, iterating as necessary. */
8475 do
8476 {
8479 /* If the block has incoming backedges remember unwind state. This
8480 is required even for non-executable blocks since in irreducible
8481 regions we might reach them via the backedge and re-start iterating
8482 from there.
8483 Note we can individually mark blocks with incoming backedges to
8484 not iterate where we then handle PHIs conservatively. We do that
8485 heuristically to reduce compile-time for degenerate cases. */
8487 {
8494 }
8497 {
8501 idx++;
8503 }
8507 nblk++;
8514 /* Verify if changed values flow over executable outgoing backedges
8515 and those change destination PHI values (that's the thing we
8516 can easily verify). Reduce over all such edges to the farthest
8517 away PHI. */
8519 edge_iterator ei;
8520 edge e;
8525 {
8528 {
8535 }
8541 gphi_iterator gsi;
8544 {
8546 /* While we'd ideally just iterate on value changes
8547 we CSE PHIs and do that even across basic-block
8548 boundaries. So even hashtable state changes can
8549 be important (which is roughly equivalent to
8550 PHI argument value changes). To not excessively
8551 iterate because of that we track whether a PHI
8552 was CSEd to with GF_PLF_1. */
8557 {
8565 }
8566 }
8568 }
8570 {
8577 }
8579 idx++;
8580 }
8584 {
8585 /* Process all blocks greedily with a worklist that enforces RPO
8586 processing of reachable blocks. */
8587 auto_bitmap worklist;
8590 {
8599 /* When we run into predecessor edges where we cannot trust its
8600 executable state mark them executable so PHI processing will
8601 be conservative.
8602 ??? Do we need to force arguments flowing over that edge
8603 to be varying or will they even always be? */
8604 edge_iterator ei;
8605 edge e;
8612 {
8618 }
8620 nblk++;
8632 }
8633 }
8635 /* If statistics or dump file active. */
8639 {
8642 nex++;
8647 }
8651 {
8652 nvalues++;
8655 {
8656 navail++;
8658 }
8659 }
8669 {
8671 " blocks in total discovering %d executable blocks iterating "
8675 max_visited);
8679 }
8682 {
8683 /* When !iterate we already performed elimination during the RPO
8684 walk. */
8686 {
8687 /* Elimination for region-based VN needs to be done within the
8688 RPO walk. */
8690 /* Note we can't use avail.walk here because that gets confused
8691 by the existing availability and it will be less efficient
8692 as well. */
8694 }
8695 else
8697 }
8707 }
8709 /* Region-based entry for RPO VN. Performs value-numbering and elimination
8710 on the SEME region specified by ENTRY and EXIT_BBS. If ENTRY is not
8711 the only edge into the region at ENTRY->dest PHI nodes in ENTRY->dest
8712 are not considered.
8713 If ITERATE is true then treat backedges optimistically as not
8714 executed and iterate. If ELIMINATE is true then perform
8715 elimination, otherwise leave that to the caller.
8716 KIND specifies the amount of work done for handling memory operations. */
8718 unsigned
8721 {
8726 }
8732 {
8742 };
8745 {
8749 {}
8751 /* opt_pass methods: */
8754 {
8757 }
8759 {
8761 }
8768 unsigned int
8770 {
8773 /* At -O[1g] use the cheap non-iterating mode. */
8788 /* For late FRE after IVOPTs and unrolling, see if we can
8789 remove some TREE_ADDRESSABLE and rewrite stuff into SSA. */
8794 }
8798 gimple_opt_pass *
8800 {
8802 }
8804 #undef BB_EXECUTABLE