| blob | 85fd3971946a77de6729b0c7ff7313df4110dff4 |
1 /* Statement simplification on GIMPLE.
2 Copyright (C) 2010-2017 Free Software Foundation, Inc.
3 Split out from tree-ssa-ccp.c.
5 This file is part of GCC.
7 GCC is free software; you can redistribute it and/or modify it
8 under the terms of the GNU General Public License as published by the
9 Free Software Foundation; either version 3, or (at your option) any
10 later version.
12 GCC is distributed in the hope that it will be useful, but WITHOUT
13 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
14 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
15 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/>. */
63 /* Return true when DECL can be referenced from current unit.
64 FROM_DECL (if non-null) specify constructor of variable DECL was taken from.
65 We can get declarations that are not possible to reference for various
66 reasons:
68 1) When analyzing C++ virtual tables.
69 C++ virtual tables do have known constructors even
70 when they are keyed to other compilation unit.
71 Those tables can contain pointers to methods and vars
72 in other units. Those methods have both STATIC and EXTERNAL
73 set.
74 2) In WHOPR mode devirtualization might lead to reference
75 to method that was partitioned elsehwere.
76 In this case we have static VAR_DECL or FUNCTION_DECL
77 that has no corresponding callgraph/varpool node
78 declaring the body.
79 3) COMDAT functions referred by external vtables that
80 we devirtualize only during final compilation stage.
81 At this time we already decided that we will not output
82 the function body and thus we can't reference the symbol
83 directly. */
85 static bool
87 {
95 /* We are concerned only about static/external vars and functions. */
100 /* Static objects can be referred only if they was not optimized out yet. */
102 {
103 /* Before we start optimizing unreachable code we can be sure all
104 static objects are defined. */
112 }
114 /* We will later output the initializer, so we can refer to it.
115 So we are concerned only when DECL comes from initializer of
116 external var or var that has been optimized out. */
122 || (flag_ltrans
126 /* We are folding reference from external vtable. The vtable may reffer
127 to a symbol keyed to other compilation unit. The other compilation
128 unit may be in separate DSO and the symbol may be hidden. */
134 /* When function is public, we always can introduce new reference.
135 Exception are the COMDAT functions where introducing a direct
136 reference imply need to include function body in the curren tunit. */
139 /* We have COMDAT. We are going to check if we still have definition
140 or if the definition is going to be output in other partition.
141 Bypass this when gimplifying; all needed functions will be produced.
143 As observed in PR20991 for already optimized out comdat virtual functions
144 it may be tempting to not necessarily give up because the copy will be
145 output elsewhere when corresponding vtable is output.
146 This is however not possible - ABI specify that COMDATs are output in
147 units where they are used and when the other unit was compiled with LTO
148 it is possible that vtable was kept public while the function itself
149 was privatized. */
161 }
163 /* Create a temporary for TYPE for a statement STMT. If the current function
164 is in SSA form, a SSA name is created. Otherwise a temporary register
165 is made. */
167 tree
169 {
172 else
174 }
176 /* CVAL is value taken from DECL_INITIAL of variable. Try to transform it into
177 acceptable form for is_gimple_min_invariant.
178 FROM_DECL (if non-NULL) specify variable whose constructor contains CVAL. */
180 tree
182 {
187 {
193 ptr,
196 }
198 {
201 {
205 }
206 else
219 {
220 /* Make sure we create a cgraph node for functions we'll reference.
221 They can be non-existent if the reference comes from an entry
222 of an external vtable for example. */
224 }
225 /* Fixup types in global initializers. */
232 }
236 }
238 /* If SYM is a constant variable with known value, return the value.
239 NULL_TREE is returned otherwise. */
241 tree
243 {
246 {
248 {
252 else
254 }
255 /* Variables declared 'const' without an initializer
256 have zero as the initializer if they may not be
257 overridden at link or run time. */
261 }
264 }
268 /* Subroutine of fold_stmt. We perform several simplifications of the
269 memory reference tree EXPR and make sure to re-gimplify them properly
270 after propagation of constant addresses. IS_LHS is true if the
271 reference is supposed to be an lvalue. */
273 static tree
275 {
276 tree result;
301 }
304 /* Attempt to fold an assignment statement pointed-to by SI. Returns a
305 replacement rhs for the statement or NULL_TREE if no simplification
306 could be made. It is assumed that the operands have been previously
307 folded. */
309 static tree
311 {
319 {
321 {
331 {
336 {
341 {
343 {
346 "resolving virtual function address "
351 }
353 {
355 build_fold_addr_expr_loc
358 }
359 else
360 /* We can not use __builtin_unreachable here because it
361 can not have address taken. */
364 }
365 }
366 }
369 {
384 {
385 /* Strip away useless type conversions. Both the
386 NON_LVALUE_EXPR that may have been added by fold, and
387 "useless" type conversions that might now be apparent
388 due to propagation. */
393 }
394 }
398 {
399 /* Fold a constant vector CONSTRUCTOR to VECTOR_CST. */
401 tree val;
409 }
413 }
430 {
434 }
439 }
442 }
445 /* Replace a statement at *SI_P with a sequence of statements in STMTS,
446 adjusting the replacement stmts location and virtual operands.
447 If the statement has a lhs the last stmt in the sequence is expected
448 to assign to that lhs. */
450 static void
452 {
458 /* First iterate over the replacement statements backward, assigning
459 virtual operands to their defining statements. */
463 {
470 {
471 tree vdef;
474 else
480 }
481 }
483 /* Second iterate over the statements forward, assigning virtual
484 operands to their uses. */
488 {
490 /* If the new statement possibly has a VUSE, update it with exact SSA
491 name we know will reach this one. */
497 }
499 /* If the new sequence does not do a store release the virtual
500 definition of the original statement. */
503 {
507 {
510 }
511 }
513 /* Finally replace the original statement with the sequence. */
515 }
517 /* Convert EXPR into a GIMPLE value suitable for substitution on the
518 RHS of an assignment. Insert the necessary statements before
519 iterator *SI_P. The statement at *SI_P, which must be a GIMPLE_CALL
520 is replaced. If the call is expected to produces a result, then it
521 is replaced by an assignment of the new RHS to the result variable.
522 If the result is to be ignored, then the call is replaced by a
523 GIMPLE_NOP. A proper VDEF chain is retained by making the first
524 VUSE and the last VDEF of the whole sequence be the same as the replaced
525 statement and using new SSA names for stores in between. */
527 void
529 {
530 tree lhs;
532 gimple_stmt_iterator i;
543 {
545 /* We can end up with folding a memcpy of an empty class assignment
546 which gets optimized away by C++ gimplification. */
548 {
551 {
554 }
557 }
558 }
559 else
560 {
565 GSI_CONTINUE_LINKING);
566 }
571 }
574 /* Replace the call at *GSI with the gimple value VAL. */
576 void
578 {
583 {
587 }
588 else
592 {
595 }
597 }
599 /* Replace the call at *GSI with the new call REPL and fold that
600 again. */
602 static void
604 {
610 {
613 }
618 }
620 /* Return true if VAR is a VAR_DECL or a component thereof. */
622 static bool
624 {
629 }
631 /* If the SIZE argument representing the size of an object is in a range
632 of values of which exactly one is valid (and that is zero), return
633 true, otherwise false. */
635 static bool
637 {
654 /* Compute the value of SSIZE_MAX, the largest positive value that
655 can be stored in ssize_t, the signed counterpart of size_t. */
659 }
661 /* Fold function call to builtin mem{{,p}cpy,move}. Return
662 false if no simplification can be made.
663 If ENDP is 0, return DEST (like memcpy).
664 If ENDP is 1, return DEST+LEN (like mempcpy).
665 If ENDP is 2, return DEST+LEN-1 (like stpcpy).
666 If ENDP is 3, return DEST, additionally *SRC and *DEST may overlap
667 (memmove). */
669 static bool
672 {
679 /* If the LEN parameter is a constant zero or in range where
680 the only valid value is zero, return DEST. */
682 {
686 else
690 {
693 }
696 }
698 /* If SRC and DEST are the same (and not volatile), return
699 DEST{,+LEN,+LEN-1}. */
701 {
706 {
709 }
711 }
712 else
713 {
716 tree off0;
718 /* Inlining of memcpy/memmove may cause bounds lost (if we copy
719 pointers as wide integer) and also may result in huge function
720 size because of inlined bounds copy. Thus don't inline for
721 functions we want to instrument. */
724 /* Even if data may contain pointers we can inline if copy
725 less than a pointer size. */
730 /* Build accesses at offset zero with a ref-all character type. */
734 /* If we can perform the copy efficiently with first doing all loads
735 and then all stores inline it that way. Currently efficiently
736 means that we can load all the memory into a single integer
737 register which is what MOVE_MAX gives us. */
742 /* ??? Don't transform copies from strings with known length this
743 confuses the tree-ssa-strlen.c. This doesn't handle
744 the case in gcc.dg/strlenopt-8.c which is XFAILed for that
745 reason. */
747 {
750 {
751 scalar_int_mode mode;
756 /* If the destination pointer is not aligned we must be able
757 to emit an unaligned store. */
762 {
777 {
780 {
782 srcmem
784 new_stmt);
788 }
791 new_stmt
794 srcmem);
801 {
804 }
807 }
808 }
809 }
810 }
813 {
814 /* Both DEST and SRC must be pointer types.
815 ??? This is what old code did. Is the testing for pointer types
816 really mandatory?
818 If either SRC is readonly or length is 1, we can use memcpy. */
825 {
834 }
836 /* If *src and *dest can't overlap, optimize into memcpy as well. */
839 {
842 HOST_WIDE_INT maxsize;
855 else
859 {
864 }
867 {
883 }
884 else
895 }
897 /* If the destination and source do not alias optimize into
898 memcpy as well. */
903 {
908 {
909 tree fn;
918 }
919 }
922 }
926 /* FIXME:
927 This logic lose for arguments like (type *)malloc (sizeof (type)),
928 since we strip the casts of up to VOID return value from malloc.
929 Perhaps we ought to inherit type from non-VOID argument here? */
935 /* In the following try to find a type that is most natural to be
936 used for the memcpy source and destination and that allows
937 the most optimization when memcpy is turned into a plain assignment
938 using that type. In theory we could always use a char[len] type
939 but that only gains us that the destination and source possibly
940 no longer will have their address taken. */
941 /* As we fold (void *)(p + CST) to (void *)p + CST undo this here. */
943 {
948 }
950 {
955 }
959 {
963 }
967 {
971 }
976 /* Make sure we are not copying using a floating-point mode or
977 a type whose size possibly does not match its precision. */
1005 else
1013 {
1019 {
1021 src_align);
1023 }
1024 else
1026 }
1027 else
1034 {
1038 else
1039 {
1043 src_align);
1045 }
1046 }
1048 {
1052 else
1053 {
1057 dest_align);
1059 }
1060 }
1064 {
1069 {
1072 new_stmt);
1076 }
1077 }
1085 {
1088 }
1090 }
1092 done:
1100 {
1104 }
1110 }
1112 /* Transform a call to built-in bcmp(a, b, len) at *GSI into one
1113 to built-in memcmp (a, b, len). */
1115 static bool
1117 {
1123 /* Transform bcmp (a, b, len) into memcmp (a, b, len). */
1134 }
1136 /* Transform a call to built-in bcopy (src, dest, len) at *GSI into one
1137 to built-in memmove (dest, src, len). */
1139 static bool
1141 {
1147 /* bcopy has been removed from POSIX in Issue 7 but Issue 6 specifies
1148 it's quivalent to memmove (not memcpy). Transform bcopy (src, dest,
1149 len) into memmove (dest, src, len). */
1161 }
1163 /* Transform a call to built-in bzero (dest, len) at *GSI into one
1164 to built-in memset (dest, 0, len). */
1166 static bool
1168 {
1174 /* Transform bzero (dest, len) into memset (dest, 0, len). */
1187 }
1189 /* Fold function call to builtin memset or bzero at *GSI setting the
1190 memory of size LEN to VAL. Return whether a simplification was made. */
1192 static bool
1194 {
1196 tree etype;
1199 /* If the LEN parameter is zero, return DEST. */
1201 {
1204 }
1242 else
1243 {
1252 }
1259 {
1262 }
1265 {
1268 }
1269 else
1270 {
1274 }
1277 }
1280 /* Obtain the minimum and maximum string length or minimum and maximum
1281 value of ARG in LENGTH[0] and LENGTH[1], respectively.
1282 If ARG is an SSA name variable, follow its use-def chains. When
1283 TYPE == 0, if LENGTH[1] is not equal to the length we determine or
1284 if we are unable to determine the length or value, return False.
1285 VISITED is a bitmap of visited variables.
1286 TYPE is 0 if string length should be obtained, 1 for maximum string
1287 length and 2 for maximum value ARG can have.
1288 When FUZZY is set and the length of a string cannot be determined,
1289 the function instead considers as the maximum possible length the
1290 size of a character array it may refer to.
1291 Set *FLEXP to true if the range of the string lengths has been
1292 obtained from the upper bound of an array at the end of a struct.
1293 Such an array may hold a string that's longer than its upper bound
1294 due to it being used as a poor-man's flexible array member. */
1296 static bool
1299 {
1303 /* The minimum and maximum length. The MAXLEN pointer stays unchanged
1304 but MINLEN may be cleared during the execution of the function. */
1309 {
1310 /* We can end up with &(*iftmp_1)[0] here as well, so handle it. */
1314 {
1320 }
1323 {
1328 }
1329 else
1333 {
1340 {
1341 /* Use the type of the member array to determine the upper
1342 bound on the length of the array. This may be overly
1343 optimistic if the array itself isn't NUL-terminated and
1344 the caller relies on the subsequent member to contain
1345 the NUL.
1346 Set *FLEXP to true if the array whose bound is being
1347 used is at the end of a struct. */
1356 integer_one_node);
1357 /* Set the minimum size to zero since the string in
1358 the array could have zero length. */
1360 }
1361 }
1367 && (!*minlen
1375 {
1377 {
1385 }
1388 }
1392 }
1394 /* If ARG is registered for SSA update we cannot look at its defining
1395 statement. */
1399 /* If we were already here, break the infinite cycle. */
1409 {
1411 /* The RHS of the statement defining VAR must either have a
1412 constant length or come from another SSA_NAME with a constant
1413 length. */
1416 {
1419 }
1421 {
1426 }
1430 {
1431 /* All the arguments of the PHI node must have the same constant
1432 length. */
1436 {
1439 /* If this PHI has itself as an argument, we cannot
1440 determine the string length of this argument. However,
1441 if we can find a constant string length for the other
1442 PHI args then we can still be sure that this is a
1443 constant string length. So be optimistic and just
1444 continue with the next argument. */
1449 {
1452 else
1454 }
1455 }
1456 }
1461 }
1462 }
1464 /* Determine the minimum and maximum value or string length that ARG
1465 refers to and store each in the first two elements of MINMAXLEN.
1466 For expressions that point to strings of unknown lengths that are
1467 character arrays, use the upper bound of the array as the maximum
1468 length. For example, given an expression like 'x ? array : "xyz"'
1469 and array declared as 'char array[8]', MINMAXLEN[0] will be set
1470 to 3 and MINMAXLEN[1] to 7, the longest string that could be
1471 stored in array.
1472 Return true if the range of the string lengths has been obtained
1473 from the upper bound of an array at the end of a struct. Such
1474 an array may hold a string that's longer than its upper bound
1475 due to it being used as a poor-man's flexible array member. */
1477 bool
1479 {
1492 }
1494 tree
1496 {
1507 }
1510 /* Fold function call to builtin strcpy with arguments DEST and SRC.
1511 If LEN is not NULL, it represents the length of the string to be
1512 copied. Return NULL_TREE if no simplification can be made. */
1514 static bool
1517 {
1519 tree fn;
1521 /* If SRC and DEST are the same (and not volatile), return DEST. */
1523 {
1526 }
1546 }
1548 /* Fold function call to builtin strncpy with arguments DEST, SRC, and LEN.
1549 If SLEN is not NULL, it represents the length of the source string.
1550 Return NULL_TREE if no simplification can be made. */
1552 static bool
1555 {
1557 tree fn;
1559 /* If the LEN parameter is zero, return DEST. */
1561 {
1564 }
1566 /* We can't compare slen with len as constants below if len is not a
1567 constant. */
1571 /* Now, we must be passed a constant src ptr parameter. */
1578 /* We do not support simplification of this case, though we do
1579 support it when expanding trees into RTL. */
1580 /* FIXME: generate a call to __builtin_memset. */
1584 /* OK transform into builtin memcpy. */
1595 }
1597 /* Fold function call to builtin strchr or strrchr.
1598 If both arguments are constant, evaluate and fold the result,
1599 otherwise simplify str(r)chr (str, 0) into str + strlen (str).
1600 In general strlen is significantly faster than strchr
1601 due to being a simpler operation. */
1602 static bool
1604 {
1616 {
1620 {
1623 }
1632 }
1637 /* Transform strrchr (s, 0) to strchr (s, 0) when optimizing for size. */
1639 {
1643 {
1647 }
1650 }
1652 tree len;
1658 /* Create newstr = strlen (str). */
1666 /* Create (str p+ strlen (str)). */
1671 /* gsi now points at the assignment to the lhs, get a
1672 stmt iterator to the strlen.
1673 ??? We can't use gsi_for_stmt as that doesn't work when the
1674 CFG isn't built yet. */
1679 }
1681 /* Fold function call to builtin strstr.
1682 If both arguments are constant, evaluate and fold the result,
1683 additionally fold strstr (x, "") into x and strstr (x, "c")
1684 into strchr (x, 'c'). */
1685 static bool
1687 {
1701 {
1705 {
1708 }
1712 gimple *new_stmt
1718 }
1720 /* For strstr (x, "") return x. */
1722 {
1725 }
1727 /* Transform strstr (x, "c") into strchr (x, 'c'). */
1729 {
1732 {
1737 }
1738 }
1741 }
1743 /* Simplify a call to the strcat builtin. DST and SRC are the arguments
1744 to the call.
1746 Return NULL_TREE if no simplification was possible, otherwise return the
1747 simplified form of the call as a tree.
1749 The simplified form may be a constant or other expression which
1750 computes the same value, but in a more efficient manner (including
1751 calls to other builtin functions).
1753 The call may contain arguments which need to be evaluated, but
1754 which are not useful to determine the result of the call. In
1755 this case we return a chain of COMPOUND_EXPRs. The LHS of each
1756 COMPOUND_EXPR will be an argument which must be evaluated.
1757 COMPOUND_EXPRs are chained through their RHS. The RHS of the last
1758 COMPOUND_EXPR in the chain will contain the tree for the simplified
1759 form of the builtin function call. */
1761 static bool
1763 {
1769 /* If the string length is zero, return the dst parameter. */
1771 {
1774 }
1779 /* See if we can store by pieces into (dst + strlen(dst)). */
1780 tree newdst;
1787 /* If the length of the source string isn't computable don't
1788 split strcat into strlen and memcpy. */
1793 /* Create strlen (dst). */
1801 /* Create (dst p+ strlen (dst)). */
1815 {
1819 /* gsi now points at the assignment to the lhs, get a
1820 stmt iterator to the memcpy call.
1821 ??? We can't use gsi_for_stmt as that doesn't work when the
1822 CFG isn't built yet. */
1826 }
1827 else
1828 {
1831 }
1833 }
1835 /* Fold a call to the __strcat_chk builtin FNDECL. DEST, SRC, and SIZE
1836 are the arguments to the call. */
1838 static bool
1840 {
1845 tree fn;
1850 /* If the SRC parameter is "", return DEST. */
1852 {
1855 }
1860 /* If __builtin_strcat_chk is used, assume strcat is available. */
1868 }
1870 /* Simplify a call to the strncat builtin. */
1872 static bool
1874 {
1882 /* If the requested length is zero, or the src parameter string
1883 length is zero, return the dst parameter. */
1885 {
1888 }
1890 /* If the requested len is greater than or equal to the string
1891 length, call strcat. */
1894 {
1897 /* If the replacement _DECL isn't initialized, don't do the
1898 transformation. */
1905 }
1908 }
1910 /* Fold a call to the __strncat_chk builtin with arguments DEST, SRC,
1911 LEN, and SIZE. */
1913 static bool
1915 {
1921 tree fn;
1925 /* If the SRC parameter is "" or if LEN is 0, return DEST. */
1928 {
1931 }
1937 {
1943 {
1944 /* If LEN >= strlen (SRC), optimize into __strcat_chk. */
1952 }
1954 }
1956 /* If __builtin_strncat_chk is used, assume strncat is available. */
1964 }
1966 /* Build and append gimple statements to STMTS that would load a first
1967 character of a memory location identified by STR. LOC is location
1968 of the statement. */
1970 static tree
1972 {
1973 tree var;
1976 tree cst_uchar_ptr_node
1988 }
1990 /* Fold a call to the str{n}{case}cmp builtin pointed by GSI iterator.
1991 FCODE is the name of the builtin. */
1993 static bool
1995 {
2006 /* Handle strncmp and strncasecmp functions. */
2008 {
2012 }
2014 /* If the LEN parameter is zero, return zero. */
2016 {
2019 }
2021 /* If ARG1 and ARG2 are the same (and not volatile), return zero. */
2023 {
2026 }
2031 /* For known strings, return an immediate value. */
2033 {
2038 {
2040 {
2044 }
2046 {
2052 }
2053 /* Only handleable situation is where the string are equal (result 0),
2054 which is already handled by operand_equal_p case. */
2058 {
2065 }
2068 }
2071 {
2074 }
2075 }
2083 /* If the second arg is "", return *(const unsigned char*)arg1. */
2085 {
2089 {
2092 }
2096 }
2098 /* If the first arg is "", return -*(const unsigned char*)arg2. */
2100 {
2105 {
2112 }
2116 }
2118 /* If len parameter is one, return an expression corresponding to
2119 (*(const unsigned char*)arg2 - *(const unsigned char*)arg1). */
2121 {
2127 {
2138 }
2142 }
2145 }
2147 /* Fold a call to the memchr pointed by GSI iterator. */
2149 static bool
2151 {
2158 /* If the LEN parameter is zero, return zero. */
2160 {
2163 }
2176 {
2179 {
2181 {
2184 }
2185 }
2186 else
2187 {
2191 {
2196 }
2197 else
2203 }
2204 }
2207 }
2209 /* Fold a call to the fputs builtin. ARG0 and ARG1 are the arguments
2210 to the call. IGNORE is true if the value returned
2211 by the builtin will be ignored. UNLOCKED is true is true if this
2212 actually a call to fputs_unlocked. If LEN in non-NULL, it represents
2213 the known length of the string. Return NULL_TREE if no simplification
2214 was possible. */
2216 static bool
2220 {
2223 /* If we're using an unlocked function, assume the other unlocked
2224 functions exist explicitly. */
2232 /* If the return value is used, don't do the transformation. */
2236 /* Get the length of the string passed to fputs. If the length
2237 can't be determined, punt. */
2244 {
2250 {
2253 {
2258 build_int_cst
2262 }
2263 }
2264 /* FALLTHROUGH */
2266 {
2267 /* If optimizing for size keep fputs. */
2270 /* New argument list transforming fputs(string, stream) to
2271 fwrite(string, 1, len, stream). */
2279 }
2282 }
2284 }
2286 /* Fold a call to the __mem{cpy,pcpy,move,set}_chk builtin.
2287 DEST, SRC, LEN, and SIZE are the arguments to the call.
2288 IGNORE is true, if return value can be ignored. FCODE is the BUILT_IN_*
2289 code of the builtin. If MAXLEN is not NULL, it is maximum length
2290 passed as third argument. */
2292 static bool
2296 {
2300 tree fn;
2302 /* If SRC and DEST are the same (and not volatile), return DEST
2303 (resp. DEST+LEN for __mempcpy_chk). */
2305 {
2307 {
2310 }
2311 else
2312 {
2320 }
2321 }
2328 {
2330 {
2331 /* If LEN is not constant, try MAXLEN too.
2332 For MAXLEN only allow optimizing into non-_ocs function
2333 if SIZE is >= MAXLEN, never convert to __ocs_fail (). */
2335 {
2337 {
2338 /* (void) __mempcpy_chk () can be optimized into
2339 (void) __memcpy_chk (). */
2347 }
2349 }
2350 }
2351 else
2356 }
2359 /* If __builtin_mem{cpy,pcpy,move,set}_chk is used, assume
2360 mem{cpy,pcpy,move,set} is available. */
2362 {
2377 }
2385 }
2387 /* Fold a call to the __st[rp]cpy_chk builtin.
2388 DEST, SRC, and SIZE are the arguments to the call.
2389 IGNORE is true if return value can be ignored. FCODE is the BUILT_IN_*
2390 code of the builtin. If MAXLEN is not NULL, it is maximum length of
2391 strings passed as second argument. */
2393 static bool
2395 tree dest,
2398 {
2404 /* If SRC and DEST are the same (and not volatile), return DEST. */
2406 {
2409 }
2416 {
2419 {
2420 /* If LEN is not constant, try MAXLEN too.
2421 For MAXLEN only allow optimizing into non-_ocs function
2422 if SIZE is >= MAXLEN, never convert to __ocs_fail (). */
2424 {
2426 {
2430 /* If return value of __stpcpy_chk is ignored,
2431 optimize into __strcpy_chk. */
2439 }
2444 /* If c_strlen returned something, but not a constant,
2445 transform __strcpy_chk into __memcpy_chk. */
2458 }
2459 }
2460 else
2465 }
2467 /* If __builtin_st{r,p}cpy_chk is used, assume st{r,p}cpy is available. */
2476 }
2478 /* Fold a call to the __st{r,p}ncpy_chk builtin. DEST, SRC, LEN, and SIZE
2479 are the arguments to the call. If MAXLEN is not NULL, it is maximum
2480 length passed as third argument. IGNORE is true if return value can be
2481 ignored. FCODE is the BUILT_IN_* code of the builtin. */
2483 static bool
2488 {
2491 tree fn;
2494 {
2495 /* If return value of __stpncpy_chk is ignored,
2496 optimize into __strncpy_chk. */
2499 {
2503 }
2504 }
2511 {
2513 {
2514 /* If LEN is not constant, try MAXLEN too.
2515 For MAXLEN only allow optimizing into non-_ocs function
2516 if SIZE is >= MAXLEN, never convert to __ocs_fail (). */
2519 }
2520 else
2525 }
2527 /* If __builtin_st{r,p}ncpy_chk is used, assume st{r,p}ncpy is available. */
2536 }
2538 /* Fold function call to builtin stpcpy with arguments DEST and SRC.
2539 Return NULL_TREE if no simplification can be made. */
2541 static bool
2543 {
2550 /* If the result is unused, replace stpcpy with strcpy. */
2552 {
2559 }
2567 /* If length is zero it's small enough. */
2571 /* If the source has a known length replace stpcpy with memcpy. */
2588 /* Replace the result with dest + len. */
2595 /* Finally fold the memcpy call. */
2600 }
2602 /* Fold a call EXP to {,v}snprintf having NARGS passed as ARGS. Return
2603 NULL_TREE if a normal call should be emitted rather than expanding
2604 the function inline. FCODE is either BUILT_IN_SNPRINTF_CHK or
2605 BUILT_IN_VSNPRINTF_CHK. If MAXLEN is not NULL, it is maximum length
2606 passed as second argument. */
2608 static bool
2611 {
2616 /* Verify the required arguments in the original call. */
2630 {
2633 {
2634 /* If LEN is not constant, try MAXLEN too.
2635 For MAXLEN only allow optimizing into non-_ocs function
2636 if SIZE is >= MAXLEN, never convert to __ocs_fail (). */
2639 }
2640 else
2645 }
2650 /* Only convert __{,v}snprintf_chk to {,v}snprintf if flag is 0
2651 or if format doesn't contain % chars or is "%s". */
2653 {
2660 }
2662 /* If __builtin_{,v}snprintf_chk is used, assume {,v}snprintf is
2663 available. */
2669 /* Replace the called function and the first 5 argument by 3 retaining
2670 trailing varargs. */
2681 }
2683 /* Fold a call EXP to __{,v}sprintf_chk having NARGS passed as ARGS.
2684 Return NULL_TREE if a normal call should be emitted rather than
2685 expanding the function inline. FCODE is either BUILT_IN_SPRINTF_CHK
2686 or BUILT_IN_VSPRINTF_CHK. */
2688 static bool
2691 {
2697 /* Verify the required arguments in the original call. */
2713 /* Check whether the format is a literal string constant. */
2716 {
2717 /* If the format doesn't contain % args or %%, we know the size. */
2719 {
2722 }
2723 /* If the format is "%s" and first ... argument is a string literal,
2724 we know the size too. */
2727 {
2728 tree arg;
2731 {
2734 {
2738 }
2739 }
2740 }
2741 }
2744 {
2747 }
2749 /* Only convert __{,v}sprintf_chk to {,v}sprintf if flag is 0
2750 or if format doesn't contain % chars or is "%s". */
2752 {
2758 }
2760 /* If __builtin_{,v}sprintf_chk is used, assume {,v}sprintf is available. */
2766 /* Replace the called function and the first 4 argument by 2 retaining
2767 trailing varargs. */
2777 }
2779 /* Simplify a call to the sprintf builtin with arguments DEST, FMT, and ORIG.
2780 ORIG may be null if this is a 2-argument call. We don't attempt to
2781 simplify calls with more than 3 arguments.
2783 Return true if simplification was possible, otherwise false. */
2785 bool
2787 {
2794 /* Verify the required arguments in the original call. We deal with two
2795 types of sprintf() calls: 'sprintf (str, fmt)' and
2796 'sprintf (dest, "%s", orig)'. */
2803 /* Check whether the format is a literal string constant. */
2811 /* If the format doesn't contain % args or %%, use strcpy. */
2813 {
2819 /* Don't optimize sprintf (buf, "abc", ptr++). */
2823 /* Convert sprintf (str, fmt) into strcpy (str, fmt) when
2824 'format' is known to contain no % formats. */
2829 {
2835 /* gsi now points at the assignment to the lhs, get a
2836 stmt iterator to the memcpy call.
2837 ??? We can't use gsi_for_stmt as that doesn't work when the
2838 CFG isn't built yet. */
2842 }
2843 else
2844 {
2847 }
2849 }
2851 /* If the format is "%s", use strcpy if the result isn't used. */
2853 {
2854 tree fn;
2860 /* Don't crash on sprintf (str1, "%s"). */
2866 {
2870 }
2872 /* Convert sprintf (str1, "%s", str2) into strcpy (str1, str2). */
2877 {
2884 /* gsi now points at the assignment to the lhs, get a
2885 stmt iterator to the memcpy call.
2886 ??? We can't use gsi_for_stmt as that doesn't work when the
2887 CFG isn't built yet. */
2891 }
2892 else
2893 {
2896 }
2898 }
2900 }
2902 /* Simplify a call to the snprintf builtin with arguments DEST, DESTSIZE,
2903 FMT, and ORIG. ORIG may be null if this is a 3-argument call. We don't
2904 attempt to simplify calls with more than 4 arguments.
2906 Return true if simplification was possible, otherwise false. */
2908 bool
2910 {
2928 /* Check whether the format is a literal string constant. */
2936 /* If the format doesn't contain % args or %%, use strcpy. */
2938 {
2943 /* Don't optimize snprintf (buf, 4, "abc", ptr++). */
2947 /* We could expand this as
2948 memcpy (str, fmt, cst - 1); str[cst - 1] = '\0';
2949 or to
2950 memcpy (str, fmt_with_nul_at_cstm1, cst);
2951 but in the former case that might increase code size
2952 and in the latter case grow .rodata section too much.
2953 So punt for now. */
2962 {
2967 /* gsi now points at the assignment to the lhs, get a
2968 stmt iterator to the memcpy call.
2969 ??? We can't use gsi_for_stmt as that doesn't work when the
2970 CFG isn't built yet. */
2974 }
2975 else
2976 {
2979 }
2981 }
2983 /* If the format is "%s", use strcpy if the result isn't used. */
2985 {
2990 /* Don't crash on snprintf (str1, cst, "%s"). */
2998 /* We could expand this as
2999 memcpy (str1, str2, cst - 1); str1[cst - 1] = '\0';
3000 or to
3001 memcpy (str1, str2_with_nul_at_cstm1, cst);
3002 but in the former case that might increase code size
3003 and in the latter case grow .rodata section too much.
3004 So punt for now. */
3008 /* Convert snprintf (str1, cst, "%s", str2) into
3009 strcpy (str1, str2) if strlen (str2) < cst. */
3014 {
3021 /* gsi now points at the assignment to the lhs, get a
3022 stmt iterator to the memcpy call.
3023 ??? We can't use gsi_for_stmt as that doesn't work when the
3024 CFG isn't built yet. */
3028 }
3029 else
3030 {
3033 }
3035 }
3037 }
3039 /* Fold a call to the {,v}fprintf{,_unlocked} and __{,v}printf_chk builtins.
3040 FP, FMT, and ARG are the arguments to the call. We don't fold calls with
3041 more than 3 arguments, and ARG may be null in the 2-argument case.
3043 Return NULL_TREE if no simplification was possible, otherwise return the
3044 simplified form of the call as a tree. FCODE is the BUILT_IN_*
3045 code of the function to be simplified. */
3047 static bool
3051 {
3056 /* If the return value is used, don't do the transformation. */
3060 /* Check whether the format is a literal string constant. */
3066 {
3067 /* If we're using an unlocked function, assume the other
3068 unlocked functions exist explicitly. */
3071 }
3072 else
3073 {
3076 }
3081 /* If the format doesn't contain % args or %%, use strcpy. */
3083 {
3088 /* If the format specifier was "", fprintf does nothing. */
3090 {
3093 }
3095 /* When "string" doesn't contain %, replace all cases of
3096 fprintf (fp, string) with fputs (string, fp). The fputs
3097 builtin will take care of special cases like length == 1. */
3099 {
3103 }
3104 }
3106 /* The other optimizations can be done only on the non-va_list variants. */
3110 /* If the format specifier was "%s", call __builtin_fputs (arg, fp). */
3112 {
3116 {
3120 }
3121 }
3123 /* If the format specifier was "%c", call __builtin_fputc (arg, fp). */
3125 {
3130 {
3134 }
3135 }
3138 }
3140 /* Fold a call to the {,v}printf{,_unlocked} and __{,v}printf_chk builtins.
3141 FMT and ARG are the arguments to the call; we don't fold cases with
3142 more than 2 arguments, and ARG may be null if this is a 1-argument case.
3144 Return NULL_TREE if no simplification was possible, otherwise return the
3145 simplified form of the call as a tree. FCODE is the BUILT_IN_*
3146 code of the function to be simplified. */
3148 static bool
3151 {
3156 /* If the return value is used, don't do the transformation. */
3160 /* Check whether the format is a literal string constant. */
3166 {
3167 /* If we're using an unlocked function, assume the other
3168 unlocked functions exist explicitly. */
3171 }
3172 else
3173 {
3176 }
3183 {
3187 {
3197 }
3198 else
3199 {
3200 /* The format specifier doesn't contain any '%' characters. */
3205 }
3207 /* If the string was "", printf does nothing. */
3209 {
3212 }
3214 /* If the string has length of 1, call putchar. */
3216 {
3217 /* Given printf("c"), (where c is any one character,)
3218 convert "c"[0] to an int and pass that to the replacement
3219 function. */
3222 {
3226 }
3227 }
3228 else
3229 {
3230 /* If the string was "string\n", call puts("string"). */
3235 {
3239 /* Create a NUL-terminated string that's one char shorter
3240 than the original, stripping off the trailing '\n'. */
3250 /* build_string_literal creates a new STRING_CST,
3251 modify it in place to avoid double copying. */
3255 {
3259 }
3260 }
3261 else
3262 /* We'd like to arrange to call fputs(string,stdout) here,
3263 but we need stdout and don't have a way to get it yet. */
3265 }
3266 }
3268 /* The other optimizations can be done only on the non-va_list variants. */
3272 /* If the format specifier was "%s\n", call __builtin_puts(arg). */
3274 {
3278 {
3282 }
3283 }
3285 /* If the format specifier was "%c", call __builtin_putchar(arg). */
3287 {
3292 {
3296 }
3297 }
3300 }
3304 /* Fold a call to __builtin_strlen with known length LEN. */
3306 static bool
3308 {
3316 }
3318 /* Fold a call to __builtin_acc_on_device. */
3320 static bool
3322 {
3323 /* Defer folding until we know which compiler we're in. */
3330 #ifdef ACCEL_COMPILER
3333 #endif
3358 }
3360 /* Fold realloc (0, n) -> malloc (n). */
3362 static bool
3364 {
3370 {
3373 {
3377 }
3378 }
3380 }
3382 /* Fold the non-target builtin at *GSI and return whether any simplification
3383 was made. */
3385 static bool
3387 {
3391 /* Give up for always_inline inline builtins until they are
3392 inlined. */
3399 {
3473 fcode);
3482 fcode);
3490 fcode);
3505 fcode);
3516 fcode);
3542 }
3544 /* Try the generic builtin folder. */
3548 {
3551 else
3556 }
3559 }
3561 /* Transform IFN_GOACC_DIM_SIZE and IFN_GOACC_DIM_POS internal
3562 function calls to constants, where possible. */
3564 static tree
3566 {
3572 /* If the size is 1, or we only want the size and it is not dynamic,
3573 we know the answer. */
3575 {
3578 }
3581 }
3583 /* Return true if stmt is __atomic_compare_exchange_N call which is suitable
3584 for conversion into ATOMIC_COMPARE_EXCHANGE if the second argument is
3585 &var where var is only addressable because of such calls. */
3587 bool
3589 {
3591 || !flag_inline_atomics
3592 || !optimize
3601 {
3610 }
3623 /* Don't optimize floating point expected vars, VIEW_CONVERT_EXPRs
3624 might not preserve all the bits. See PR71716. */
3638 == CODE_FOR_nothing
3646 }
3648 /* Fold
3649 r = __atomic_compare_exchange_N (p, &e, d, w, s, f);
3650 into
3651 _Complex uintN_t t = ATOMIC_COMPARE_EXCHANGE (p, e, d, w * 256 + N, s, f);
3652 i = IMAGPART_EXPR <t>;
3653 r = (_Bool) i;
3654 e = REALPART_EXPR <t>; */
3656 void
3658 {
3668 expected);
3672 {
3677 }
3694 {
3697 }
3703 {
3707 {
3710 }
3711 else
3715 }
3719 {
3722 }
3723 else
3726 {
3728 VIEW_CONVERT_EXPR,
3732 }
3736 }
3738 /* Return true if ARG0 CODE ARG1 in infinite signed precision operation
3739 doesn't fit into TYPE. The test for overflow should be regardless of
3740 -fwrapv, and even for unsigned types. */
3742 bool
3745 {
3748 widest2_int_cst;
3751 widest2_int wres;
3753 {
3758 }
3763 }
3765 /* Attempt to fold a call statement referenced by the statement iterator GSI.
3766 The statement may be replaced by another statement, e.g., if the call
3767 simplifies to a constant value. Return true if any changes were made.
3768 It is assumed that the operands have been previously folded. */
3770 static bool
3772 {
3774 tree callee;
3778 /* Fold *& in call arguments. */
3781 {
3784 {
3787 }
3788 }
3790 /* Check for virtual calls that became direct calls. */
3793 {
3795 {
3797 && !possible_polymorphic_call_target_p
3800 {
3807 }
3811 }
3813 {
3818 {
3821 {
3828 }
3830 {
3834 /* If changing the call to __cxa_pure_virtual
3835 or similar noreturn function, adjust gimple_call_fntype
3836 too. */
3843 /* If the call becomes noreturn, remove the lhs. */
3848 {
3850 {
3855 }
3857 }
3859 }
3860 else
3861 {
3865 /* If the call had a SSA name as lhs morph that into
3866 an uninitialized value. */
3868 {
3873 }
3878 }
3879 }
3880 }
3881 }
3883 /* Check for indirect calls that became direct calls, and then
3884 no longer require a static chain. */
3886 {
3889 {
3892 }
3893 else
3894 {
3897 {
3900 }
3901 }
3902 }
3907 /* Check for builtins that CCP can handle using information not
3908 available in the generic fold routines. */
3910 {
3913 }
3915 {
3917 }
3919 {
3925 {
3933 {
3940 {
3943 }
3944 }
3948 {
3951 }
3954 {
3959 {
3963 {
3966 }
3967 }
3968 }
3997 }
3999 {
4004 {
4008 else
4010 }
4012 ;
4013 /* x = y + 0; x = y - 0; x = y * 0; */
4016 /* x = 0 + y; x = 0 * y; */
4019 /* x = y - y; */
4022 /* x = y * 1; x = 1 * y; */
4029 {
4033 else
4036 {
4039 else
4041 }
4042 }
4044 {
4048 {
4050 {
4052 integer_zero_node))
4054 }
4064 }
4065 }
4066 }
4069 {
4073 {
4080 else
4083 }
4087 }
4088 }
4091 }
4094 /* Return true whether NAME has a use on STMT. */
4096 static bool
4098 {
4099 imm_use_iterator iter;
4100 use_operand_p use_p;
4105 }
4107 /* Worker for fold_stmt_1 dispatch to pattern based folding with
4108 gimple_simplify.
4110 Replaces *GSI with the simplification result in RCODE and OPS
4111 and the associated statements in *SEQ. Does the replacement
4112 according to INPLACE and returns true if the operation succeeded. */
4114 static bool
4118 {
4121 /* Play safe and do not allow abnormals to be mentioned in
4122 newly created statements. See also maybe_push_res_to_seq.
4123 As an exception allow such uses if there was a use of the
4124 same SSA name on the old stmt. */
4145 /* Don't insert new statements when INPLACE is true, even if we could
4146 reuse STMT for the final statement. */
4151 {
4154 /* GIMPLE_CONDs condition may not throw. */
4155 && (!flag_exceptions
4165 {
4168 else
4170 }
4172 {
4179 }
4180 else
4183 {
4189 }
4192 }
4195 {
4198 {
4203 {
4209 }
4212 }
4213 }
4216 {
4219 {
4222 }
4226 {
4231 }
4234 }
4236 {
4238 {
4244 {
4247 }
4250 }
4251 else
4253 }
4256 }
4258 /* Canonicalize MEM_REFs invariant address operand after propagation. */
4260 static bool
4262 {
4268 /* The C and C++ frontends use an ARRAY_REF for indexing with their
4269 generic vector extension. The actual vector referenced is
4270 view-converted to an array type for this purpose. If the index
4271 is constant the canonical representation in the middle-end is a
4272 BIT_FIELD_REF so re-write the former to the latter here. */
4277 {
4280 {
4283 {
4285 {
4290 widest_int ext
4293 {
4300 }
4301 }
4302 }
4303 }
4304 }
4309 /* Canonicalize MEM [&foo.bar, 0] which appears after propagating
4310 of invariant addresses into a SSA name MEM_REF address. */
4313 {
4318 {
4319 tree base;
4320 HOST_WIDE_INT coffset;
4331 }
4334 }
4336 /* Canonicalize back MEM_REFs to plain reference trees if the object
4337 accessed is a decl that has the same access semantics as the MEM_REF. */
4342 {
4347 /* Same TBAA behavior with -fstrict-aliasing. */
4351 /* Same alignment. */
4353 /* We have to look out here to not drop a required conversion
4354 from the rhs to the lhs if *t appears on the lhs or vice-versa
4355 if it appears on the rhs. Thus require strict type
4356 compatibility. */
4358 {
4361 }
4362 }
4364 /* Canonicalize TARGET_MEM_REF in particular with respect to
4365 the indexes becoming constant. */
4367 {
4370 {
4373 }
4374 }
4377 }
4379 /* Worker for both fold_stmt and fold_stmt_inplace. The INPLACE argument
4380 distinguishes both cases. */
4382 static bool
4384 {
4391 /* First do required canonicalization of [TARGET_]MEM_REF addresses
4392 after propagation.
4393 ??? This shouldn't be done in generic folding but in the
4394 propagation helpers which also know whether an address was
4395 propagated.
4396 Also canonicalize operand order. */
4398 {
4401 {
4411 }
4412 else
4413 {
4414 /* Canonicalize operand order. */
4419 {
4423 {
4430 }
4431 }
4432 }
4435 {
4437 {
4442 }
4449 }
4451 {
4454 {
4460 }
4462 {
4469 }
4470 }
4474 {
4481 }
4484 {
4485 /* Canonicalize operand order. */
4489 {
4496 }
4497 }
4499 }
4501 /* Dispatch to pattern-based folding. */
4505 {
4507 code_helper rcode;
4511 {
4514 else
4516 }
4517 }
4521 /* Fold the main computation performed by the statement. */
4523 {
4525 {
4526 /* Try to canonicalize for boolean-typed X the comparisons
4527 X == 0, X == 1, X != 0, and X != 1. */
4530 {
4536 /* Check whether the comparison operands are of the same boolean
4537 type as the result type is.
4538 Check that second operand is an integer-constant with value
4539 one or zero. */
4543 {
4547 /* X == 0 and X != 1 is a logical-not.of X
4548 X == 1 and X != 0 is X */
4555 /* Only for one-bit precision typed X the transformation
4556 !X -> ~X is valied. */
4559 /* Otherwise we use !X -> X ^ 1. */
4560 else
4565 }
4566 }
4576 && (!inplace
4578 {
4581 }
4583 }
4590 /* Fold *& in asm operands. */
4591 {
4602 {
4609 {
4612 }
4613 }
4615 {
4618 constraint
4625 {
4628 }
4629 }
4630 }
4635 {
4639 {
4642 {
4645 }
4646 }
4649 {
4653 {
4657 }
4658 }
4659 }
4663 {
4668 {
4672 {
4675 }
4676 }
4677 }
4681 }
4685 /* Fold *& on the lhs. */
4687 {
4690 {
4693 {
4696 }
4697 }
4698 }
4702 }
4704 /* Valueziation callback that ends up not following SSA edges. */
4706 tree
4708 {
4710 }
4712 /* Valueization callback that ends up following single-use SSA edges only. */
4714 tree
4716 {
4721 }
4723 /* Fold the statement pointed to by GSI. In some cases, this function may
4724 replace the whole statement with a new one. Returns true iff folding
4725 makes any changes.
4726 The statement pointed to by GSI should be in valid gimple form but may
4727 be in unfolded state as resulting from for example constant propagation
4728 which can produce *&x = 0. */
4730 bool
4732 {
4734 }
4736 bool
4738 {
4740 }
4742 /* Perform the minimal folding on statement *GSI. Only operations like
4743 *&x created by constant propagation are handled. The statement cannot
4744 be replaced with a new one. Return true if the statement was
4745 changed, false otherwise.
4746 The statement *GSI should be in valid gimple form but may
4747 be in unfolded state as resulting from for example constant propagation
4748 which can produce *&x = 0. */
4750 bool
4752 {
4757 }
4759 /* Canonicalize and possibly invert the boolean EXPR; return NULL_TREE
4760 if EXPR is null or we don't know how.
4761 If non-null, the result always has boolean type. */
4763 static tree
4765 {
4769 {
4779 boolean_type_node,
4782 else
4784 }
4785 else
4786 {
4798 boolean_type_node,
4801 else
4803 }
4804 }
4806 /* Check to see if a boolean expression EXPR is logically equivalent to the
4807 comparison (OP1 CODE OP2). Check for various identities involving
4808 SSA_NAMEs. */
4810 static bool
4813 {
4816 /* The obvious case. */
4822 /* Check for comparing (name, name != 0) and the case where expr
4823 is an SSA_NAME with a definition matching the comparison. */
4826 {
4836 }
4838 /* If op1 is of the form (name != 0) or (name == 0), and the definition
4839 of name is a comparison, recurse. */
4842 {
4846 {
4859 }
4860 }
4862 }
4864 /* Check to see if two boolean expressions OP1 and OP2 are logically
4865 equivalent. */
4867 static bool
4869 {
4870 /* Simple cases first. */
4874 /* Check the cases where at least one of the operands is a comparison.
4875 These are a bit smarter than operand_equal_p in that they apply some
4876 identifies on SSA_NAMEs. */
4888 /* Default case. */
4890 }
4892 /* Forward declarations for some mutually recursive functions. */
4894 static tree
4897 static tree
4900 static tree
4903 static tree
4906 static tree
4909 static tree
4913 /* Helper function for and_comparisons_1: try to simplify the AND of the
4914 ssa variable VAR with the comparison specified by (OP2A CODE2 OP2B).
4915 If INVERT is true, invert the value of the VAR before doing the AND.
4916 Return NULL_EXPR if we can't simplify this to a single expression. */
4918 static tree
4921 {
4922 tree t;
4925 /* We can only deal with variables whose definitions are assignments. */
4929 /* If we have an inverted comparison, apply DeMorgan's law and rewrite
4930 !var AND (op2a code2 op2b) => !(var OR !(op2a code2 op2b))
4931 Then we only have to consider the simpler non-inverted cases. */
4936 else
4939 }
4941 /* Try to simplify the AND of the ssa variable defined by the assignment
4942 STMT with the comparison specified by (OP2A CODE2 OP2B).
4943 Return NULL_EXPR if we can't simplify this to a single expression. */
4945 static tree
4948 {
4954 /* Check for identities like (var AND (var == 0)) => false. */
4957 {
4960 {
4964 }
4967 {
4971 }
4972 }
4974 /* If the definition is a comparison, recurse on it. */
4976 {
4980 code2,
4981 op2a,
4982 op2b);
4985 }
4987 /* If the definition is an AND or OR expression, we may be able to
4988 simplify by reassociating. */
4991 {
4995 tree t;
4999 /* Check for boolean identities that don't require recursive examination
5000 of inner1/inner2:
5001 inner1 AND (inner1 AND inner2) => inner1 AND inner2 => var
5002 inner1 AND (inner1 OR inner2) => inner1
5003 !inner1 AND (inner1 AND inner2) => false
5004 !inner1 AND (inner1 OR inner2) => !inner1 AND inner2
5005 Likewise for similar cases involving inner2. */
5012 ? boolean_false_node
5016 ? boolean_false_node
5019 /* Next, redistribute/reassociate the AND across the inner tests.
5020 Compute the first partial result, (inner1 AND (op2a code op2b)) */
5028 {
5029 /* Handle the AND case, where we are reassociating:
5030 (inner1 AND inner2) AND (op2a code2 op2b)
5031 => (t AND inner2)
5032 If the partial result t is a constant, we win. Otherwise
5033 continue on to try reassociating with the other inner test. */
5035 {
5040 }
5042 /* Handle the OR case, where we are redistributing:
5043 (inner1 OR inner2) AND (op2a code2 op2b)
5044 => (t OR (inner2 AND (op2a code2 op2b))) */
5048 /* Save partial result for later. */
5050 }
5052 /* Compute the second partial result, (inner2 AND (op2a code op2b)) */
5060 {
5061 /* Handle the AND case, where we are reassociating:
5062 (inner1 AND inner2) AND (op2a code2 op2b)
5063 => (inner1 AND t) */
5065 {
5070 /* If both are the same, we can apply the identity
5071 (x AND x) == x. */
5074 }
5076 /* Handle the OR case. where we are redistributing:
5077 (inner1 OR inner2) AND (op2a code2 op2b)
5078 => (t OR (inner1 AND (op2a code2 op2b)))
5079 => (t OR partial) */
5080 else
5081 {
5085 {
5086 /* We already got a simplification for the other
5087 operand to the redistributed OR expression. The
5088 interesting case is when at least one is false.
5089 Or, if both are the same, we can apply the identity
5090 (x OR x) == x. */
5097 }
5098 }
5099 }
5100 }
5102 }
5104 /* Try to simplify the AND of two comparisons defined by
5105 (OP1A CODE1 OP1B) and (OP2A CODE2 OP2B), respectively.
5106 If this can be done without constructing an intermediate value,
5107 return the resulting tree; otherwise NULL_TREE is returned.
5108 This function is deliberately asymmetric as it recurses on SSA_DEFs
5109 in the first comparison but not the second. */
5111 static tree
5114 {
5117 /* First check for ((x CODE1 y) AND (x CODE2 y)). */
5120 {
5121 /* Result will be either NULL_TREE, or a combined comparison. */
5127 }
5129 /* Likewise the swapped case of the above. */
5132 {
5133 /* Result will be either NULL_TREE, or a combined comparison. */
5140 }
5142 /* If both comparisons are of the same value against constants, we might
5143 be able to merge them. */
5147 {
5150 /* If we have (op1a == op1b), we should either be able to
5151 return that or FALSE, depending on whether the constant op1b
5152 also satisfies the other comparison against op2b. */
5154 {
5158 {
5166 }
5168 {
5171 else
5173 }
5174 }
5175 /* Likewise if the second comparison is an == comparison. */
5177 {
5181 {
5189 }
5191 {
5194 else
5196 }
5197 }
5199 /* Same business with inequality tests. */
5201 {
5204 {
5213 }
5216 }
5218 {
5221 {
5230 }
5233 }
5235 /* Chose the more restrictive of two < or <= comparisons. */
5238 {
5241 else
5243 }
5245 /* Likewise chose the more restrictive of two > or >= comparisons. */
5248 {
5251 else
5253 }
5255 /* Check for singleton ranges. */
5261 /* Check for disjoint ranges. */
5270 }
5272 /* Perhaps the first comparison is (NAME != 0) or (NAME == 1) where
5273 NAME's definition is a truth value. See if there are any simplifications
5274 that can be done against the NAME's definition. */
5278 {
5283 {
5285 /* Try to simplify by copy-propagating the definition. */
5289 /* If every argument to the PHI produces the same result when
5290 ANDed with the second comparison, we win.
5291 Do not do this unless the type is bool since we need a bool
5292 result here anyway. */
5294 {
5298 {
5301 /* If this PHI has itself as an argument, ignore it.
5302 If all the other args produce the same result,
5303 we're still OK. */
5307 {
5309 {
5314 }
5321 }
5324 {
5325 tree temp;
5327 /* In simple cases we can look through PHI nodes,
5328 but we have to be careful with loops.
5329 See PR49073. */
5344 }
5345 else
5347 }
5349 }
5353 }
5354 }
5356 }
5358 /* Try to simplify the AND of two comparisons, specified by
5359 (OP1A CODE1 OP1B) and (OP2B CODE2 OP2B), respectively.
5360 If this can be simplified to a single expression (without requiring
5361 introducing more SSA variables to hold intermediate values),
5362 return the resulting tree. Otherwise return NULL_TREE.
5363 If the result expression is non-null, it has boolean type. */
5365 tree
5368 {
5372 else
5374 }
5376 /* Helper function for or_comparisons_1: try to simplify the OR of the
5377 ssa variable VAR with the comparison specified by (OP2A CODE2 OP2B).
5378 If INVERT is true, invert the value of VAR before doing the OR.
5379 Return NULL_EXPR if we can't simplify this to a single expression. */
5381 static tree
5384 {
5385 tree t;
5388 /* We can only deal with variables whose definitions are assignments. */
5392 /* If we have an inverted comparison, apply DeMorgan's law and rewrite
5393 !var OR (op2a code2 op2b) => !(var AND !(op2a code2 op2b))
5394 Then we only have to consider the simpler non-inverted cases. */
5399 else
5402 }
5404 /* Try to simplify the OR of the ssa variable defined by the assignment
5405 STMT with the comparison specified by (OP2A CODE2 OP2B).
5406 Return NULL_EXPR if we can't simplify this to a single expression. */
5408 static tree
5411 {
5417 /* Check for identities like (var OR (var != 0)) => true . */
5420 {
5423 {
5427 }
5430 {
5434 }
5435 }
5437 /* If the definition is a comparison, recurse on it. */
5439 {
5443 code2,
5444 op2a,
5445 op2b);
5448 }
5450 /* If the definition is an AND or OR expression, we may be able to
5451 simplify by reassociating. */
5454 {
5458 tree t;
5462 /* Check for boolean identities that don't require recursive examination
5463 of inner1/inner2:
5464 inner1 OR (inner1 OR inner2) => inner1 OR inner2 => var
5465 inner1 OR (inner1 AND inner2) => inner1
5466 !inner1 OR (inner1 OR inner2) => true
5467 !inner1 OR (inner1 AND inner2) => !inner1 OR inner2
5468 */
5475 ? boolean_true_node
5479 ? boolean_true_node
5482 /* Next, redistribute/reassociate the OR across the inner tests.
5483 Compute the first partial result, (inner1 OR (op2a code op2b)) */
5491 {
5492 /* Handle the OR case, where we are reassociating:
5493 (inner1 OR inner2) OR (op2a code2 op2b)
5494 => (t OR inner2)
5495 If the partial result t is a constant, we win. Otherwise
5496 continue on to try reassociating with the other inner test. */
5498 {
5503 }
5505 /* Handle the AND case, where we are redistributing:
5506 (inner1 AND inner2) OR (op2a code2 op2b)
5507 => (t AND (inner2 OR (op2a code op2b))) */
5511 /* Save partial result for later. */
5513 }
5515 /* Compute the second partial result, (inner2 OR (op2a code op2b)) */
5523 {
5524 /* Handle the OR case, where we are reassociating:
5525 (inner1 OR inner2) OR (op2a code2 op2b)
5526 => (inner1 OR t)
5527 => (t OR partial) */
5529 {
5534 /* If both are the same, we can apply the identity
5535 (x OR x) == x. */
5538 }
5540 /* Handle the AND case, where we are redistributing:
5541 (inner1 AND inner2) OR (op2a code2 op2b)
5542 => (t AND (inner1 OR (op2a code2 op2b)))
5543 => (t AND partial) */
5544 else
5545 {
5549 {
5550 /* We already got a simplification for the other
5551 operand to the redistributed AND expression. The
5552 interesting case is when at least one is true.
5553 Or, if both are the same, we can apply the identity
5554 (x AND x) == x. */
5561 }
5562 }
5563 }
5564 }
5566 }
5568 /* Try to simplify the OR of two comparisons defined by
5569 (OP1A CODE1 OP1B) and (OP2A CODE2 OP2B), respectively.
5570 If this can be done without constructing an intermediate value,
5571 return the resulting tree; otherwise NULL_TREE is returned.
5572 This function is deliberately asymmetric as it recurses on SSA_DEFs
5573 in the first comparison but not the second. */
5575 static tree
5578 {
5581 /* First check for ((x CODE1 y) OR (x CODE2 y)). */
5584 {
5585 /* Result will be either NULL_TREE, or a combined comparison. */
5591 }
5593 /* Likewise the swapped case of the above. */
5596 {
5597 /* Result will be either NULL_TREE, or a combined comparison. */
5604 }
5606 /* If both comparisons are of the same value against constants, we might
5607 be able to merge them. */
5611 {
5614 /* If we have (op1a != op1b), we should either be able to
5615 return that or TRUE, depending on whether the constant op1b
5616 also satisfies the other comparison against op2b. */
5618 {
5622 {
5630 }
5632 {
5635 else
5637 }
5638 }
5639 /* Likewise if the second comparison is a != comparison. */
5641 {
5645 {
5653 }
5655 {
5658 else
5660 }
5661 }
5663 /* See if an equality test is redundant with the other comparison. */
5665 {
5668 {
5677 }
5680 }
5682 {
5685 {
5694 }
5697 }
5699 /* Chose the less restrictive of two < or <= comparisons. */
5702 {
5705 else
5707 }
5709 /* Likewise chose the less restrictive of two > or >= comparisons. */
5712 {
5715 else
5717 }
5719 /* Check for singleton ranges. */
5725 /* Check for less/greater pairs that don't restrict the range at all. */
5734 }
5736 /* Perhaps the first comparison is (NAME != 0) or (NAME == 1) where
5737 NAME's definition is a truth value. See if there are any simplifications
5738 that can be done against the NAME's definition. */
5742 {
5747 {
5749 /* Try to simplify by copy-propagating the definition. */
5753 /* If every argument to the PHI produces the same result when
5754 ORed with the second comparison, we win.
5755 Do not do this unless the type is bool since we need a bool
5756 result here anyway. */
5758 {
5762 {
5765 /* If this PHI has itself as an argument, ignore it.
5766 If all the other args produce the same result,
5767 we're still OK. */
5771 {
5773 {
5778 }
5785 }
5788 {
5789 tree temp;
5791 /* In simple cases we can look through PHI nodes,
5792 but we have to be careful with loops.
5793 See PR49073. */
5808 }
5809 else
5811 }
5813 }
5817 }
5818 }
5820 }
5822 /* Try to simplify the OR of two comparisons, specified by
5823 (OP1A CODE1 OP1B) and (OP2B CODE2 OP2B), respectively.
5824 If this can be simplified to a single expression (without requiring
5825 introducing more SSA variables to hold intermediate values),
5826 return the resulting tree. Otherwise return NULL_TREE.
5827 If the result expression is non-null, it has boolean type. */
5829 tree
5832 {
5836 else
5838 }
5841 /* Fold STMT to a constant using VALUEIZE to valueize SSA names.
5843 Either NULL_TREE, a simplified but non-constant or a constant
5844 is returned.
5846 ??? This should go into a gimple-fold-inline.h file to be eventually
5847 privatized with the single valueize function used in the various TUs
5848 to avoid the indirect function call overhead. */
5850 tree
5853 {
5854 code_helper rcode;
5856 /* ??? The SSA propagators do not correctly deal with following SSA use-def
5857 edges if there are intermediate VARYING defs. For this reason
5858 do not follow SSA edges here even though SCCVN can technically
5859 just deal fine with that. */
5861 {
5868 {
5870 {
5876 }
5878 }
5879 }
5883 {
5885 {
5889 {
5891 {
5896 {
5897 /* If the RHS is an SSA_NAME, return its known constant value,
5898 if any. */
5900 }
5901 /* Handle propagating invariant addresses into address
5902 operations. */
5905 {
5907 tree base;
5910 valueize);
5916 }
5921 {
5923 tree val;
5928 {
5934 else
5936 }
5939 }
5941 {
5943 /* If callee is constant, we can fold away the wrapper. */
5946 }
5949 {
5954 {
5959 }
5962 {
5969 }
5972 {
5976 {
5982 }
5983 }
5985 }
5989 }
5995 /* Translate &x + CST into an invariant form suitable for
5996 further propagation. */
5998 {
6003 {
6005 return build_fold_addr_expr_loc
6010 }
6011 }
6012 /* Canonicalize bool != 0 and bool == 0 appearing after
6013 valueization. While gimple_simplify handles this
6014 it can get confused by the ~X == 1 -> X == 0 transform
6015 which we cant reduce to a SSA name or a constant
6016 (and we have no way to tell gimple_simplify to not
6017 consider those transforms in the first place). */
6020 {
6025 {
6034 }
6035 }
6039 {
6040 /* Handle ternary operators that can appear in GIMPLE form. */
6046 }
6050 }
6051 }
6054 {
6055 tree fn;
6059 {
6062 {
6073 {
6079 }
6082 }
6090 {
6092 {
6094 /* x * 0 = 0 * x = 0 without overflow. */
6099 /* y - y = 0 without overflow. */
6105 }
6106 }
6107 tree res
6114 }
6122 {
6124 tree retval;
6132 {
6133 /* fold_call_expr wraps the result inside a NOP_EXPR. */
6136 retval);
6137 }
6139 }
6141 }
6145 }
6146 }
6148 /* Fold STMT to a constant using VALUEIZE to valueize SSA names.
6149 Returns NULL_TREE if folding to a constant is not possible, otherwise
6150 returns a constant according to is_gimple_min_invariant. */
6152 tree
6154 {
6159 }
6162 /* The following set of functions are supposed to fold references using
6163 their constant initializers. */
6165 /* See if we can find constructor defining value of BASE.
6166 When we know the consructor with constant offset (such as
6167 base is array[40] and we do know constructor of array), then
6168 BIT_OFFSET is adjusted accordingly.
6170 As a special case, return error_mark_node when constructor
6171 is not explicitly available, but it is known to be zero
6172 such as 'static const int a;'. */
6173 static tree
6176 {
6181 {
6183 {
6188 }
6196 }
6201 /* Get a CONSTRUCTOR. If BASE is a VAR_DECL, get its
6202 DECL_INITIAL. If BASE is a nested reference into another
6203 ARRAY_REF or COMPONENT_REF, make a recursive call to resolve
6204 the inner reference. */
6206 {
6209 {
6212 /* Our semantic is exact opposite of ctor_for_folding;
6213 NULL means unknown, while error_mark_node is 0. */
6219 }
6242 }
6243 }
6245 /* CTOR is CONSTRUCTOR of an array type. Fold reference of type TYPE and size
6246 SIZE to the memory at bit OFFSET. */
6248 static tree
6252 tree from_decl)
6253 {
6254 offset_int low_bound;
6255 offset_int elt_size;
6256 offset_int access_index;
6258 HOST_WIDE_INT inner_offset;
6260 /* Compute low bound and elt size. */
6264 {
6265 /* Static constructors for variably sized objects makes no sense. */
6269 }
6270 else
6272 /* Static constructors for variably sized objects makes no sense. */
6277 /* We can handle only constantly sized accesses that are known to not
6278 be larger than size of array element. */
6285 /* Compute the array index we look for. */
6287 elt_size);
6290 /* And offset within the access. */
6293 /* See if the array field is large enough to span whole access. We do not
6294 care to fold accesses spanning multiple array indexes. */
6300 /* When memory is not explicitely mentioned in constructor,
6301 it is 0 (or out of range). */
6303 }
6305 /* CTOR is CONSTRUCTOR of an aggregate or vector.
6306 Fold reference of type TYPE and size SIZE to the memory at bit OFFSET. */
6308 static tree
6312 tree from_decl)
6313 {
6318 cval)
6319 {
6323 offset_int bitoffset;
6326 /* Variable sized objects in static constructors makes no sense,
6327 but field_size can be NULL for flexible array members. */
6334 /* Compute bit offset of the field. */
6337 /* Compute bit offset where the field ends. */
6340 else
6345 /* Is there any overlap between [OFFSET, OFFSET+SIZE) and
6346 [BITOFFSET, BITOFFSET_END)? */
6350 {
6352 /* We do have overlap. Now see if field is large enough to
6353 cover the access. Give up for accesses spanning multiple
6354 fields. */
6361 from_decl);
6362 }
6363 }
6364 /* When memory is not explicitely mentioned in constructor, it is 0. */
6366 }
6368 /* CTOR is value initializing memory, fold reference of type TYPE and size SIZE
6369 to the memory at bit OFFSET. */
6371 tree
6374 {
6375 tree ret;
6377 /* We found the field with exact match. */
6382 /* We are at the end of walk, see if we can view convert the
6383 result. */
6385 /* VIEW_CONVERT_EXPR is defined only for matching sizes. */
6388 {
6391 {
6395 }
6397 }
6398 /* For constants and byte-aligned/sized reads try to go through
6399 native_encode/interpret. */
6405 {
6411 }
6413 {
6418 from_decl);
6419 else
6421 from_decl);
6422 }
6425 }
6427 /* Return the tree representing the element referenced by T if T is an
6428 ARRAY_REF or COMPONENT_REF into constant aggregates valuezing SSA
6429 names using VALUEIZE. Return NULL_TREE otherwise. */
6431 tree
6433 {
6436 tree tem;
6450 {
6453 /* Constant indexes are handled well by get_base_constructor.
6454 Only special case variable offsets.
6455 FIXME: This code can't handle nested references with variable indexes
6456 (they will be handled only by iteration of ccp). Perhaps we can bring
6457 get_ref_base_and_extent here and make it use a valueize callback. */
6459 && valueize
6462 {
6465 /* If the resulting bit-offset is constant, track it. */
6470 {
6471 offset_int woffset
6476 {
6478 /* TODO: This code seems wrong, multiply then check
6479 to see if it fits. */
6485 /* Empty constructor. Always fold to 0. */
6488 /* Out of bound array access. Value is undefined,
6489 but don't fold. */
6492 /* We can not determine ctor. */
6498 base);
6499 }
6500 }
6501 }
6502 /* Fallthru. */
6511 /* Empty constructor. Always fold to 0. */
6514 /* We do not know precise address. */
6517 /* We can not determine ctor. */
6521 /* Out of bound array access. Value is undefined, but don't fold. */
6526 base);
6530 {
6536 }
6540 }
6543 }
6545 tree
6547 {
6549 }
6551 /* Lookup virtual method with index TOKEN in a virtual table V
6552 at OFFSET.
6553 Set CAN_REFER if non-NULL to false if method
6554 is not referable or if the virtual table is ill-formed (such as rewriten
6555 by non-C++ produced symbol). Otherwise just return NULL in that calse. */
6557 tree
6559 tree v,
6562 {
6566 tree domain_type;
6571 /* First of all double check we have virtual table. */
6573 {
6574 /* Pass down that we lost track of the target. */
6578 }
6582 /* The virtual tables should always be born with constructors
6583 and we always should assume that they are avaialble for
6584 folding. At the moment we do not stream them in all cases,
6585 but it should never happen that ctor seem unreachable. */
6588 {
6589 /* Pass down that we lost track of the target. */
6593 }
6599 /* Lookup the value in the constructor that is assumed to be array.
6600 This is equivalent to
6601 fn = fold_ctor_reference (TREE_TYPE (TREE_TYPE (v)), init,
6602 offset, size, NULL);
6603 but in a constant time. We expect that frontend produced a simple
6604 array without indexed initializers. */
6614 /* This code makes an assumption that there are no
6615 indexed fileds produced by C++ FE, so we can directly index the array. */
6617 {
6621 }
6622 else
6625 /* For type inconsistent program we may end up looking up virtual method
6626 in virtual table that does not contain TOKEN entries. We may overrun
6627 the virtual table and pick up a constant or RTTI info pointer.
6628 In any case the call is undefined. */
6633 else
6634 {
6637 /* When cgraph node is missing and function is not public, we cannot
6638 devirtualize. This can happen in WHOPR when the actual method
6639 ends up in other partition, because we found devirtualization
6640 possibility too late. */
6642 {
6644 {
6647 }
6649 }
6650 }
6652 /* Make sure we create a cgraph node for functions we'll reference.
6653 They can be non-existent if the reference comes from an entry
6654 of an external vtable for example. */
6658 }
6660 /* Return a declaration of a function which an OBJ_TYPE_REF references. TOKEN
6661 is integer form of OBJ_TYPE_REF_TOKEN of the reference expression.
6662 KNOWN_BINFO carries the binfo describing the true type of
6663 OBJ_TYPE_REF_OBJECT(REF).
6664 Set CAN_REFER if non-NULL to false if method
6665 is not referable or if the virtual table is ill-formed (such as rewriten
6666 by non-C++ produced symbol). Otherwise just return NULL in that calse. */
6668 tree
6671 {
6673 tree v;
6676 /* If there is no virtual methods table, leave the OBJ_TYPE_REF alone. */
6681 {
6685 }
6687 }
6689 /* Given a pointer value T, return a simplified version of an
6690 indirection through T, or NULL_TREE if no simplification is
6691 possible. Note that the resulting type may be different from
6692 the type pointed to in the sense that it is still compatible
6693 from the langhooks point of view. */
6695 tree
6697 {
6700 tree subtype;
6709 {
6712 /* *&p => p */
6716 /* *(foo *)&fooarray => fooarray[0] */
6720 {
6727 }
6728 /* *(foo *)&complexfoo => __real__ complexfoo */
6732 /* *(foo *)&vectorfoo => BIT_FIELD_REF<vectorfoo,...> */
6735 {
6739 }
6740 }
6742 /* *(p + CST) -> ... */
6745 {
6748 tree addrtype;
6753 /* ((foo*)&vectorfoo)[1] -> BIT_FIELD_REF<vectorfoo,...> */
6758 {
6761 unsigned HOST_WIDE_INT part_widthi
6769 }
6771 /* ((foo*)&complexfoo)[1] -> __imag__ complexfoo */
6775 {
6779 }
6781 /* *(p + CST) -> MEM_REF <p, CST>. */
6785 addr,
6787 }
6789 /* *(foo *)fooarrptr => (*fooarrptr)[0] */
6793 {
6794 tree type_domain;
6805 }
6808 }
6810 /* Return true if CODE is an operation that when operating on signed
6811 integer types involves undefined behavior on overflow and the
6812 operation can be expressed with unsigned arithmetic. */
6814 bool
6816 {
6818 {
6827 }
6828 }
6830 /* Rewrite STMT, an assignment with a signed integer or pointer arithmetic
6831 operation that can be transformed to unsigned arithmetic by converting
6832 its operand, carrying out the operation in the corresponding unsigned
6833 type and converting the result back to the original type.
6835 Returns a sequence of statements that replace STMT and also contain
6836 a modified form of STMT itself. */
6838 gimple_seq
6840 {
6842 {
6846 }
6852 {
6856 }
6865 }
6868 /* The valueization hook we use for the gimple_build API simplification.
6869 This makes us match fold_buildN behavior by only combining with
6870 statements in the sequence(s) we are currently building. */
6872 static tree
6874 {
6878 }
6880 /* Build the expression CODE OP0 of type TYPE with location LOC,
6881 simplifying it first if possible. Returns the built
6882 expression value and appends statements possibly defining it
6883 to SEQ. */
6885 tree
6888 {
6891 {
6898 else
6902 }
6904 }
6906 /* Build the expression OP0 CODE OP1 of type TYPE with location LOC,
6907 simplifying it first if possible. Returns the built
6908 expression value and appends statements possibly defining it
6909 to SEQ. */
6911 tree
6914 {
6917 {
6922 }
6924 }
6926 /* Build the expression (CODE OP0 OP1 OP2) of type TYPE with location LOC,
6927 simplifying it first if possible. Returns the built
6928 expression value and appends statements possibly defining it
6929 to SEQ. */
6931 tree
6934 {
6938 {
6944 else
6948 }
6950 }
6952 /* Build the call FN (ARG0) with a result of type TYPE
6953 (or no result if TYPE is void) with location LOC,
6954 simplifying it first if possible. Returns the built
6955 expression value (or NULL_TREE if TYPE is void) and appends
6956 statements possibly defining it to SEQ. */
6958 tree
6961 {
6964 {
6968 {
6971 }
6974 }
6976 }
6978 /* Build the call FN (ARG0, ARG1) with a result of type TYPE
6979 (or no result if TYPE is void) with location LOC,
6980 simplifying it first if possible. Returns the built
6981 expression value (or NULL_TREE if TYPE is void) and appends
6982 statements possibly defining it to SEQ. */
6984 tree
6987 {
6990 {
6994 {
6997 }
7000 }
7002 }
7004 /* Build the call FN (ARG0, ARG1, ARG2) with a result of type TYPE
7005 (or no result if TYPE is void) with location LOC,
7006 simplifying it first if possible. Returns the built
7007 expression value (or NULL_TREE if TYPE is void) and appends
7008 statements possibly defining it to SEQ. */
7010 tree
7014 {
7018 {
7022 {
7025 }
7028 }
7030 }
7032 /* Build the conversion (TYPE) OP with a result of type TYPE
7033 with location LOC if such conversion is neccesary in GIMPLE,
7034 simplifying it first.
7035 Returns the built expression value and appends
7036 statements possibly defining it to SEQ. */
7038 tree
7040 {
7044 }
7046 /* Build the conversion (ptrofftype) OP with a result of a type
7047 compatible with ptrofftype with location LOC if such conversion
7048 is neccesary in GIMPLE, simplifying it first.
7049 Returns the built expression value and appends
7050 statements possibly defining it to SEQ. */
7052 tree
7054 {
7058 }
7060 /* Build a vector of type TYPE in which each element has the value OP.
7061 Return a gimple value for the result, appending any new statements
7062 to SEQ. */
7064 tree
7066 tree op)
7067 {
7073 else
7079 }
7081 /* Build a vector of type TYPE in which the elements have the values
7082 given by ELTS. Return a gimple value for the result, appending any
7083 new instructions to SEQ. */
7085 tree
7088 {
7093 {
7099 tree res;
7102 else
7108 }
7110 }
7112 /* Return true if the result of assignment STMT is known to be non-negative.
7113 If the return value is based on the assumption that signed overflow is
7114 undefined, set *STRICT_OVERFLOW_P to true; otherwise, don't change
7115 *STRICT_OVERFLOW_P. DEPTH is the current nesting depth of the query. */
7117 static bool
7120 {
7123 {
7142 }
7144 }
7146 /* Return true if return value of call STMT is known to be non-negative.
7147 If the return value is based on the assumption that signed overflow is
7148 undefined, set *STRICT_OVERFLOW_P to true; otherwise, don't change
7149 *STRICT_OVERFLOW_P. DEPTH is the current nesting depth of the query. */
7151 static bool
7154 {
7162 arg0,
7163 arg1,
7165 }
7167 /* Return true if return value of call STMT is known to be non-negative.
7168 If the return value is based on the assumption that signed overflow is
7169 undefined, set *STRICT_OVERFLOW_P to true; otherwise, don't change
7170 *STRICT_OVERFLOW_P. DEPTH is the current nesting depth of the query. */
7172 static bool
7175 {
7177 {
7181 }
7183 }
7185 /* Return true if STMT is known to compute a non-negative value.
7186 If the return value is based on the assumption that signed overflow is
7187 undefined, set *STRICT_OVERFLOW_P to true; otherwise, don't change
7188 *STRICT_OVERFLOW_P. DEPTH is the current nesting depth of the query. */
7190 bool
7193 {
7195 {
7198 depth);
7201 depth);
7204 depth);
7207 }
7208 }
7210 /* Return true if the floating-point value computed by assignment STMT
7211 is known to have an integer value. We also allow +Inf, -Inf and NaN
7212 to be considered integer values. Return false for signaling NaN.
7214 DEPTH is the current nesting depth of the query. */
7216 static bool
7218 {
7221 {
7235 }
7237 }
7239 /* Return true if the floating-point value computed by call STMT is known
7240 to have an integer value. We also allow +Inf, -Inf and NaN to be
7241 considered integer values. Return false for signaling NaN.
7243 DEPTH is the current nesting depth of the query. */
7245 static bool
7247 {
7256 }
7258 /* Return true if the floating-point result of phi STMT is known to have
7259 an integer value. We also allow +Inf, -Inf and NaN to be considered
7260 integer values. Return false for signaling NaN.
7262 DEPTH is the current nesting depth of the query. */
7264 static bool
7266 {
7268 {
7272 }
7274 }
7276 /* Return true if the floating-point value computed by STMT is known
7277 to have an integer value. We also allow +Inf, -Inf and NaN to be
7278 considered integer values. Return false for signaling NaN.
7280 DEPTH is the current nesting depth of the query. */
7282 bool
7284 {
7286 {
7295 }
7296 }