| blob | 6b7594e6a260bff6b63e33d6303bd1299bee95a9 |
1 /* Build expressions with type checking for C compiler.
2 Copyright (C) 1987, 1988, 1991, 1992, 1993, 1994, 1995, 1996, 1997, 1998,
3 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008
4 Free Software Foundation, Inc.
6 This file is part of GCC.
8 GCC is free software; you can redistribute it and/or modify it under
9 the terms of the GNU General Public License as published by the Free
10 Software Foundation; either version 3, or (at your option) any later
11 version.
13 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
14 WARRANTY; without even the implied warranty of MERCHANTABILITY or
15 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
16 for more details.
18 You should have received a copy of the GNU General Public License
19 along with GCC; see the file COPYING3. If not see
20 <http://www.gnu.org/licenses/>. */
23 /* This file is part of the C front end.
24 It contains routines to build C expressions given their operands,
25 including computing the types of the result, C-specific error checks,
26 and some optimization. */
48 /* Possible cases of implicit bad conversions. Used to select
49 diagnostic messages in convert_for_assignment. */
51 ic_argpass,
52 ic_argpass_nonproto,
53 ic_assign,
54 ic_init,
55 ic_return
56 };
58 /* The level of nesting inside "__alignof__". */
61 /* The level of nesting inside "sizeof". */
64 /* The level of nesting inside "typeof". */
70 /* Nonzero if we've already printed a "missing braces around initializer"
71 message within this initializer. */
109 \f
110 /* Return true if EXP is a null pointer constant, false otherwise. */
112 static bool
114 {
115 /* This should really operate on c_expr structures, but they aren't
116 yet available everywhere required. */
125 }
130 const_tree t1;
131 const_tree t2;
132 /* The return value of tagged_types_tu_compatible_p if we had seen
133 these two types already. */
135 };
140 /* Do `exp = require_complete_type (exp);' to make sure exp
141 does not have an incomplete type. (That includes void types.) */
143 tree
145 {
151 /* First, detect a valid value with a complete type. */
157 }
159 /* Print an error message for invalid use of an incomplete type.
160 VALUE is the expression that was used (or 0 if that isn't known)
161 and TYPE is the type that was invalid. */
163 void
165 {
168 /* Avoid duplicate error message. */
175 else
176 {
177 retry:
178 /* We must print an error message. Be clever about what it says. */
181 {
200 {
202 {
205 }
208 }
214 }
219 else
220 /* If this type has a typedef-name, the TYPE_NAME is a TYPE_DECL. */
222 }
223 }
225 /* Given a type, apply default promotions wrt unnamed function
226 arguments and return the new type. */
228 tree
230 {
235 {
236 /* Preserve unsignedness if not really getting any wider. */
241 }
244 }
246 /* Return a variant of TYPE which has all the type qualifiers of LIKE
247 as well as those of TYPE. */
249 static tree
251 {
254 }
256 /* Return true iff the given tree T is a variable length array. */
258 bool
260 {
265 }
266 \f
267 /* Return the composite type of two compatible types.
269 We assume that comptypes has already been done and returned
270 nonzero; if that isn't so, this may crash. In particular, we
271 assume that qualifiers match. */
273 tree
275 {
278 tree attributes;
280 /* Save time if the two types are the same. */
284 /* If one type is nonsense, use the other. */
293 /* Merge the attributes. */
296 /* If one is an enumerated type and the other is the compatible
297 integer type, the composite type might be either of the two
298 (DR#013 question 3). For consistency, use the enumerated type as
299 the composite type. */
309 {
311 /* For two pointers, do this recursively on the target type. */
312 {
319 }
322 {
325 tree unqual_elt;
331 /* We should not have any type quals on arrays at all. */
337 d1_variable = (!d1_zero
340 d2_variable = (!d2_zero
346 /* Save space: see if the result is identical to one of the args. */
359 /* Merge the element types, and have a size if either arg has
360 one. We may have qualifiers on the element types. To set
361 up TYPE_MAIN_VARIANT correctly, we need to form the
362 composite of the unqualified types and add the qualifiers
363 back at the end. */
368 && (d2_variable
369 || d2_zero
371 ? t1
375 }
381 {
382 /* Try harder not to create a new aggregate type. */
387 }
391 /* Function types: prefer the one that specified arg types.
392 If both do, merge the arg types. Also merge the return types. */
393 {
401 /* Save space: see if the result is identical to one of the args. */
407 /* Simple way if one arg fails to specify argument types. */
409 {
413 }
415 {
419 }
421 /* If both args specify argument types, we must merge the two
422 lists, argument by argument. */
423 /* Tell global_bindings_p to return false so that variable_size
424 doesn't die on VLAs in parameter types. */
437 {
438 /* A null type means arg type is not specified.
439 Take whatever the other function type has. */
441 {
444 }
446 {
449 }
451 /* Given wait (union {union wait *u; int *i} *)
452 and wait (union wait *),
453 prefer union wait * as type of parm. */
456 {
457 tree memb;
464 {
470 {
476 }
477 }
478 }
481 {
482 tree memb;
489 {
495 {
501 }
502 }
503 }
505 parm_done: ;
506 }
511 /* ... falls through ... */
512 }
516 }
518 }
520 /* Return the type of a conditional expression between pointers to
521 possibly differently qualified versions of compatible types.
523 We assume that comp_target_types has already been done and returned
524 nonzero; if that isn't so, this may crash. */
526 static tree
528 {
529 tree attributes;
532 tree target;
535 /* Save time if the two types are the same. */
539 /* If one type is nonsense, use the other. */
548 /* Merge the attributes. */
551 /* Find the composite type of the target types, and combine the
552 qualifiers of the two types' targets. Do not lose qualifiers on
553 array element types by taking the TYPE_MAIN_VARIANT. */
562 /* For function types do not merge const qualifiers, but drop them
563 if used inconsistently. The middle-end uses these to mark const
564 and noreturn functions. */
567 else
571 }
573 /* Return the common type for two arithmetic types under the usual
574 arithmetic conversions. The default conversions have already been
575 applied, and enumerated types converted to their compatible integer
576 types. The resulting type is unqualified and has no attributes.
578 This is the type for the result of most arithmetic operations
579 if the operands have the given two types. */
581 static tree
583 {
587 /* If one type is nonsense, use the other. */
605 /* Save time if the two types are the same. */
619 /* When one operand is a decimal float type, the other operand cannot be
620 a generic float type or a complex type. We also disallow vector types
621 here. */
624 {
626 {
629 }
631 {
634 }
636 {
639 }
640 }
642 /* If one type is a vector type, return that type. (How the usual
643 arithmetic conversions apply to the vector types extension is not
644 precisely specified.) */
651 /* If one type is complex, form the common type of the non-complex
652 components, then make that complex. Use T1 or T2 if it is the
653 required type. */
655 {
664 else
666 }
668 /* If only one is real, use it as the result. */
676 /* If both are real and either are decimal floating point types, use
677 the decimal floating point type with the greater precision. */
680 {
690 }
692 /* Deal with fixed-point types. */
694 {
702 /* If one input type is saturating, the result type is saturating. */
706 /* If both fixed-point types are unsigned, the result type is unsigned.
707 When mixing fixed-point and integer types, follow the sign of the
708 fixed-point type.
709 Otherwise, the result type is signed. */
718 /* The result type is signed. */
720 {
721 /* If the input type is unsigned, we need to convert to the
722 signed type. */
724 {
730 else
733 }
735 {
741 else
744 }
745 }
748 {
751 }
752 else
753 {
755 /* Signed integers need to subtract one sign bit. */
757 }
760 {
763 }
764 else
765 {
767 /* Signed integers need to subtract one sign bit. */
769 }
774 satp);
775 }
777 /* Both real or both integers; use the one with greater precision. */
784 /* Same precision. Prefer long longs to longs to ints when the
785 same precision, following the C99 rules on integer type rank
786 (which are equivalent to the C90 rules for C90 types). */
794 {
797 else
799 }
807 {
808 /* But preserve unsignedness from the other type,
809 since long cannot hold all the values of an unsigned int. */
812 else
814 }
816 /* Likewise, prefer long double to double even if same size. */
821 /* Otherwise prefer the unsigned one. */
825 else
827 }
828 \f
829 /* Wrapper around c_common_type that is used by c-common.c and other
830 front end optimizations that remove promotions. ENUMERAL_TYPEs
831 are allowed here and are converted to their compatible integer types.
832 BOOLEAN_TYPEs are allowed here and return either boolean_type_node or
833 preferably a non-Boolean type as the common type. */
834 tree
836 {
842 /* If both types are BOOLEAN_TYPE, then return boolean_type_node. */
847 /* If either type is BOOLEAN_TYPE, then return the other. */
854 }
856 /* Return 1 if TYPE1 and TYPE2 are compatible types for assignment
857 or various other operations. Return 2 if they are compatible
858 but a warning may be needed if you use them together. */
860 int
862 {
870 }
871 \f
872 /* Return 1 if TYPE1 and TYPE2 are compatible types for assignment
873 or various other operations. Return 2 if they are compatible
874 but a warning may be needed if you use them together. This
875 differs from comptypes, in that we don't free the seen types. */
877 static int
879 {
884 /* Suppress errors caused by previously reported errors. */
890 /* If either type is the internal version of sizetype, return the
891 language version. */
901 /* Enumerated types are compatible with integer types, but this is
902 not transitive: two enumerated types in the same translation unit
903 are compatible with each other only if they are the same type. */
913 /* Different classes of types can't be compatible. */
918 /* Qualifiers must match. C99 6.7.3p9 */
923 /* Allow for two different type nodes which have essentially the same
924 definition. Note that we already checked for equality of the type
925 qualifiers (just above). */
931 /* 1 if no need for warning yet, 2 if warning cause has been seen. */
935 /* 1 if no need for warning yet, 2 if warning cause has been seen. */
939 {
941 /* Do not remove mode or aliasing information. */
954 {
961 /* Target types must match incl. qualifiers. */
966 /* Sizes must match unless one is missing or variable. */
973 d1_variable = (!d1_zero
976 d2_variable = (!d2_zero
992 }
998 {
1009 }
1019 }
1021 }
1023 /* Return 1 if TTL and TTR are pointers to types that are equivalent,
1024 ignoring their qualifiers. */
1026 static int
1028 {
1032 /* Do not lose qualifiers on element types of array types that are
1033 pointer targets by taking their TYPE_MAIN_VARIANT. */
1045 }
1046 \f
1047 /* Subroutines of `comptypes'. */
1049 /* Determine whether two trees derive from the same translation unit.
1050 If the CONTEXT chain ends in a null, that tree's context is still
1051 being parsed, so if two trees have context chains ending in null,
1052 they're in the same translation unit. */
1053 int
1055 {
1058 {
1066 }
1070 {
1078 }
1081 }
1083 /* Allocate the seen two types, assuming that they are compatible. */
1087 {
1095 /* The C standard says that two structures in different translation
1096 units are compatible with each other only if the types of their
1097 fields are compatible (among other things). We assume that they
1098 are compatible until proven otherwise when building the cache.
1099 An example where this can occur is:
1100 struct a
1101 {
1102 struct a *next;
1103 };
1104 If we are comparing this against a similar struct in another TU,
1105 and did not assume they were compatible, we end up with an infinite
1106 loop. */
1109 }
1111 /* Free the seen types until we get to TU_TIL. */
1113 static void
1115 {
1118 {
1123 }
1125 }
1127 /* Return 1 if two 'struct', 'union', or 'enum' types T1 and T2 are
1128 compatible. If the two types are not the same (which has been
1129 checked earlier), this can only happen when multiple translation
1130 units are being compiled. See C99 6.2.7 paragraph 1 for the exact
1131 rules. */
1133 static int
1135 {
1139 /* We have to verify that the tags of the types are the same. This
1140 is harder than it looks because this may be a typedef, so we have
1141 to go look at the original type. It may even be a typedef of a
1142 typedef...
1143 In the case of compiler-created builtin structs the TYPE_DECL
1144 may be a dummy, with no DECL_ORIGINAL_TYPE. Don't fault. */
1155 /* C90 didn't have the requirement that the two tags be the same. */
1159 /* C90 didn't say what happened if one or both of the types were
1160 incomplete; we choose to follow C99 rules here, which is that they
1161 are compatible. */
1166 {
1171 }
1174 {
1176 {
1178 /* Speed up the case where the type values are in the same order. */
1183 {
1185 }
1188 {
1192 {
1195 }
1196 }
1199 {
1201 }
1203 {
1206 }
1209 {
1212 }
1215 {
1219 {
1222 }
1223 }
1225 }
1228 {
1231 {
1234 }
1236 /* Speed up the common case where the fields are in the same order. */
1239 {
1249 {
1252 }
1259 {
1262 }
1263 }
1265 {
1268 }
1271 {
1276 {
1284 {
1287 }
1298 }
1300 {
1303 }
1304 }
1307 }
1310 {
1316 {
1331 }
1334 else
1337 }
1341 }
1342 }
1344 /* Return 1 if two function types F1 and F2 are compatible.
1345 If either type specifies no argument types,
1346 the other must specify a fixed number of self-promoting arg types.
1347 Otherwise, if one type specifies only the number of arguments,
1348 the other must specify that number of self-promoting arg types.
1349 Otherwise, the argument types must match. */
1351 static int
1353 {
1355 /* 1 if no need for warning yet, 2 if warning cause has been seen. */
1363 /* 'volatile' qualifiers on a function's return type used to mean
1364 the function is noreturn. */
1380 /* An unspecified parmlist matches any specified parmlist
1381 whose argument types don't need default promotions. */
1384 {
1387 /* If one of these types comes from a non-prototype fn definition,
1388 compare that with the other type's arglist.
1389 If they don't match, ask for a warning (but no error). */
1394 }
1396 {
1403 }
1405 /* Both types have argument lists: compare them and propagate results. */
1408 }
1410 /* Check two lists of types for compatibility,
1411 returning 0 for incompatible, 1 for compatible,
1412 or 2 for compatible with warning. */
1414 static int
1416 {
1417 /* 1 if no need for warning yet, 2 if warning cause has been seen. */
1422 {
1426 /* If one list is shorter than the other,
1427 they fail to match. */
1436 /* A null pointer instead of a type
1437 means there is supposed to be an argument
1438 but nothing is specified about what type it has.
1439 So match anything that self-promotes. */
1441 {
1444 }
1446 {
1449 }
1450 /* If one of the lists has an error marker, ignore this arg. */
1453 ;
1455 {
1456 /* Allow wait (union {union wait *u; int *i} *)
1457 and wait (union wait *) to be compatible. */
1464 {
1465 tree memb;
1468 {
1475 }
1478 }
1485 {
1486 tree memb;
1489 {
1496 }
1499 }
1500 else
1502 }
1504 /* comptypes said ok, but record if it said to warn. */
1510 }
1511 }
1512 \f
1513 /* Compute the size to increment a pointer by. */
1515 static tree
1517 {
1524 {
1527 }
1529 /* Convert in case a char is more than one unit. */
1533 }
1534 \f
1535 /* Return either DECL or its known constant value (if it has one). */
1537 tree
1539 {
1541 in a place where a variable is invalid. Note that DECL_INITIAL
1542 isn't valid for a PARM_DECL. */
1549 /* This is invalid if initial value is not constant.
1550 If it has either a function call, a memory reference,
1551 or a variable, then re-evaluating it could give different results. */
1553 /* Check for cases where this is sub-optimal, even though valid. */
1557 }
1559 /* Return either DECL or its known constant value (if it has one), but
1560 return DECL if pedantic or DECL has mode BLKmode. This is for
1561 bug-compatibility with the old behavior of decl_constant_value
1562 (before GCC 3.0); every use of this function is a bug and it should
1563 be removed before GCC 3.1. It is not appropriate to use pedantic
1564 in a way that affects optimization, and BLKmode is probably not the
1565 right test for avoiding misoptimizations either. */
1567 static tree
1569 {
1570 tree ret;
1576 /* Avoid unwanted tree sharing between the initializer and current
1577 function's body where the tree can be modified e.g. by the
1578 gimplifier. */
1582 }
1584 /* Convert the array expression EXP to a pointer. */
1585 static tree
1587 {
1590 tree adr;
1592 tree ptrtype;
1607 {
1608 /* We are making an ADDR_EXPR of ptrtype. This is a valid
1609 ADDR_EXPR because it's the best way of representing what
1610 happens in C when we take the address of an array and place
1611 it in a pointer to the element type. */
1617 }
1619 /* This way is better for a COMPONENT_REF since it can
1620 simplify the offset for a component. */
1623 }
1625 /* Convert the function expression EXP to a pointer. */
1626 static tree
1628 {
1639 }
1641 /* Perform the default conversion of arrays and functions to pointers.
1642 Return the result of converting EXP. For any other expression, just
1643 return EXP after removing NOPs. */
1645 struct c_expr
1647 {
1653 {
1655 {
1662 {
1666 }
1673 {
1674 /* Before C99, non-lvalue arrays do not decay to pointers.
1675 Normally, using such an array would be invalid; but it can
1676 be used correctly inside sizeof or as a statement expression.
1677 Thus, do not give an error here; an error will result later. */
1679 }
1682 }
1692 }
1695 }
1698 /* EXP is an expression of integer type. Apply the integer promotions
1699 to it and return the promoted value. */
1701 tree
1703 {
1709 /* Normally convert enums to int,
1710 but convert wide enums to something wider. */
1712 {
1720 }
1722 /* ??? This should no longer be needed now bit-fields have their
1723 proper types. */
1726 /* If it's thinner than an int, promote it like a
1727 c_promoting_integer_type_p, otherwise leave it alone. */
1733 {
1734 /* Preserve unsignedness if not really getting any wider. */
1740 }
1743 }
1746 /* Perform default promotions for C data used in expressions.
1747 Enumeral types or short or char are converted to int.
1748 In addition, manifest constants symbols are replaced by their values. */
1750 tree
1752 {
1753 tree orig_exp;
1757 /* Functions and arrays have been converted during parsing. */
1762 /* Constants can be used directly unless they're not loadable. */
1766 /* Replace a nonvolatile const static variable with its value unless
1767 it is an array, in which case we must be sure that taking the
1768 address of the array produces consistent results. */
1770 {
1773 }
1775 /* Strip no-op conversions. */
1783 {
1786 }
1796 }
1797 \f
1798 /* Look up COMPONENT in a structure or union DECL.
1800 If the component name is not found, returns NULL_TREE. Otherwise,
1801 the return value is a TREE_LIST, with each TREE_VALUE a FIELD_DECL
1802 stepping down the chain to the component, which is in the last
1803 TREE_VALUE of the list. Normally the list is of length one, but if
1804 the component is embedded within (nested) anonymous structures or
1805 unions, the list steps down the chain to the component. */
1807 static tree
1809 {
1811 tree field;
1813 /* If TYPE_LANG_SPECIFIC is set, then it is a sorted array of pointers
1814 to the field elements. Use a binary search on this array to quickly
1815 find the element. Otherwise, do a linear search. TYPE_LANG_SPECIFIC
1816 will always be set for structures which have many elements. */
1819 {
1827 {
1832 {
1833 /* Step through all anon unions in linear fashion. */
1835 {
1839 {
1844 }
1845 }
1847 /* Entire record is only anon unions. */
1851 /* Restart the binary search, with new lower bound. */
1853 }
1859 else
1861 }
1867 }
1868 else
1869 {
1871 {
1875 {
1880 }
1884 }
1888 }
1891 }
1893 /* Make an expression to refer to the COMPONENT field of
1894 structure or union value DATUM. COMPONENT is an IDENTIFIER_NODE. */
1896 tree
1898 {
1902 tree ref;
1907 /* See if there is a field or component with name COMPONENT. */
1910 {
1912 {
1915 }
1920 {
1923 }
1925 /* Chain the COMPONENT_REFs if necessary down to the FIELD.
1926 This might be better solved in future the way the C++ front
1927 end does it - by giving the anonymous entities each a
1928 separate name and type, and then have build_component_ref
1929 recursively call itself. We can't do that here. */
1930 do
1931 {
1934 tree subtype;
1944 NULL_TREE);
1956 }
1960 }
1963 component);
1966 }
1967 \f
1968 /* Given an expression PTR for a pointer, return an expression
1969 for the value pointed to.
1970 ERRORSTRING is the name of the operator to appear in error messages. */
1972 tree
1974 {
1979 {
1982 {
1983 /* If a warning is issued, mark it to avoid duplicates from
1984 the backend. This only needs to be done at
1985 warn_strict_aliasing > 2. */
1990 }
1996 else
1997 {
1999 tree ref;
2004 {
2007 }
2011 /* We *must* set TREE_READONLY when dereferencing a pointer to const,
2012 so that we get the proper error message if the result is used
2013 to assign to. Also, &* is supposed to be a no-op.
2014 And ANSI C seems to specify that the type of the result
2015 should be the const type. */
2016 /* A de-reference of a pointer to const is not a const. It is valid
2017 to change it via some other pointer. */
2023 }
2024 }
2028 }
2030 /* This handles expressions of the form "a[i]", which denotes
2031 an array reference.
2033 This is logically equivalent in C to *(a+i), but we may do it differently.
2034 If A is a variable or a member, we generate a primitive ARRAY_REF.
2035 This avoids forcing the array out of registers, and can work on
2036 arrays that are not lvalues (for example, members of structures returned
2037 by functions). */
2039 tree
2041 {
2049 {
2050 tree temp;
2053 {
2056 }
2061 }
2064 {
2067 }
2070 {
2073 }
2075 /* ??? Existing practice has been to warn only when the char
2076 index is syntactically the index, not for char[array]. */
2080 /* Apply default promotions *after* noticing character types. */
2086 {
2089 /* An array that is indexed by a non-constant
2090 cannot be stored in a register; we must be able to do
2091 address arithmetic on its address.
2092 Likewise an array of elements of variable size. */
2096 {
2099 }
2100 /* An array that is indexed by a constant value which is not within
2101 the array bounds cannot be stored in a register either; because we
2102 would get a crash in store_bit_field/extract_bit_field when trying
2103 to access a non-existent part of the register. */
2107 {
2110 }
2113 {
2121 }
2125 /* Array ref is const/volatile if the array elements are
2126 or if the array is. */
2135 /* This was added by rms on 16 Nov 91.
2136 It fixes vol struct foo *a; a->elts[1]
2137 in an inline function.
2138 Hope it doesn't break something else. */
2141 }
2142 else
2143 {
2154 }
2155 }
2156 \f
2157 /* Build an external reference to identifier ID. FUN indicates
2158 whether this will be used for a function call. LOC is the source
2159 location of the identifier. */
2160 tree
2162 {
2163 tree ref;
2166 /* In Objective-C, an instance variable (ivar) may be preferred to
2167 whatever lookup_name() found. */
2173 /* Implicit function declaration. */
2176 /* Don't complain about something that's already been
2177 complained about. */
2179 else
2180 {
2183 }
2191 /* Recursive call does not count as usage. */
2193 {
2197 }
2200 {
2207 }
2210 {
2214 }
2220 {
2225 }
2226 /* C99 6.7.4p3: An inline definition of a function with external
2227 linkage ... shall not contain a reference to an identifier with
2228 internal linkage. */
2240 }
2242 /* Record details of decls possibly used inside sizeof or typeof. */
2243 struct maybe_used_decl
2244 {
2245 /* The decl. */
2246 tree decl;
2247 /* The level seen at (in_sizeof + in_typeof). */
2249 /* The next one at this level or above, or NULL. */
2251 };
2255 /* Record that DECL, an undefined static function reference seen
2256 inside sizeof or typeof, might be used if the operand of sizeof is
2257 a VLA type or the operand of typeof is a variably modified
2258 type. */
2260 static void
2262 {
2268 }
2270 /* Pop the stack of decls possibly used inside sizeof or typeof. If
2271 USED is false, just discard them. If it is true, mark them used
2272 (if no longer inside sizeof or typeof) or move them to the next
2273 level up (if still inside sizeof or typeof). */
2275 void
2277 {
2281 {
2283 {
2286 else
2288 }
2290 }
2293 }
2295 /* Return the result of sizeof applied to EXPR. */
2297 struct c_expr
2299 {
2302 {
2306 }
2307 else
2308 {
2312 {
2313 /* sizeof is evaluated when given a vla (C99 6.5.3.4p2). */
2315 }
2317 }
2319 }
2321 /* Return the result of sizeof applied to T, a structure for the type
2322 name passed to sizeof (rather than the type itself). */
2324 struct c_expr
2326 {
2327 tree type;
2335 }
2337 /* Build a function call to function FUNCTION with parameters PARAMS.
2338 PARAMS is a list--a chain of TREE_LIST nodes--in which the
2339 TREE_VALUE of each node is a parameter-expression.
2340 FUNCTION's data type may be a function type or a pointer-to-function. */
2342 tree
2344 {
2347 tree tem;
2352 /* Strip NON_LVALUE_EXPRs, etc., since we aren't using as an lvalue. */
2355 /* Convert anything with function type to a pointer-to-function. */
2357 {
2358 /* Implement type-directed function overloading for builtins.
2359 resolve_overloaded_builtin and targetm.resolve_overloaded_builtin
2360 handle all the type checking. The result is a complete expression
2361 that implements this function call. */
2368 }
2372 /* For Objective-C, convert any calls via a cast to OBJC_TYPE_REF
2373 expressions, like those used for ObjC messenger dispatches. */
2383 {
2386 }
2391 /* fntype now gets the type of function pointed to. */
2394 /* Check that the function is called through a compatible prototype.
2395 If it is not, replace the call by a trap, wrapped up in a compound
2396 expression if necessary. This has the nice side-effect to prevent
2397 the tree-inliner from generating invalid assignment trees which may
2398 blow up in the RTL expander later. */
2403 {
2406 NULL_TREE);
2408 /* This situation leads to run-time undefined behavior. We can't,
2409 therefore, simply error unless we can prove that all possible
2410 executions of the program must execute the code. */
2413 /* We can, however, treat "undefined" any way we please.
2414 Call abort to encourage the user to fix the program. */
2419 else
2420 {
2421 tree rhs;
2426 else
2430 }
2431 }
2433 /* Convert the parameters to the types declared in the
2434 function prototype, or apply default promotions. */
2443 /* Check that arguments to builtin functions match the expectations. */
2450 /* Check that the arguments to the function are valid. */
2455 {
2462 }
2463 else
2470 }
2471 \f
2472 /* Convert the argument expressions in the list VALUES
2473 to the types in the list TYPELIST. The resulting arguments are
2474 stored in the array ARGARRAY which has size NARGS.
2476 If TYPELIST is exhausted, or when an element has NULL as its type,
2477 perform the default conversions.
2479 PARMLIST is the chain of parm decls for the function being called.
2480 It may be 0, if that info is not available.
2481 It is used only for generating error messages.
2483 FUNCTION is a tree for the called function. It is used only for
2484 error messages, where it is formatted with %qE.
2486 This is also where warnings about wrong number of args are generated.
2488 VALUES is a chain of TREE_LIST nodes with the elements of the list
2489 in the TREE_VALUE slots of those nodes.
2491 Returns the actual number of arguments processed (which may be less
2492 than NARGS in some error situations), or -1 on failure. */
2494 static int
2497 {
2502 tree selector;
2504 /* Change pointer to function to the function itself for
2505 diagnostics. */
2510 /* Handle an ObjC selector specially for diagnostics. */
2513 /* Scan the given expressions and types, producing individual
2514 converted arguments and storing them in ARGARRAY. */
2517 valtail;
2519 {
2527 {
2530 }
2533 {
2536 }
2543 {
2544 /* Formal parm type is specified by a function prototype. */
2545 tree parmval;
2548 {
2551 }
2552 else
2553 {
2554 /* Optionally warn about conversions that
2555 differ from the default conversions. */
2557 {
2590 /* ??? At some point, messages should be written about
2591 conversions between complex types, but that's too messy
2592 to do now. */
2595 {
2596 /* Warn if any argument is passed as `float',
2597 since without a prototype it would be `double'. */
2604 /* Warn if mismatch between argument and prototype
2605 for decimal float types. Warn of conversions with
2606 binary float types and of precision narrowing due to
2607 prototype. */
2615 && (formal_prec
2619 != dfloat64_type_node
2629 }
2630 /* Detect integer changing in width or signedness.
2631 These warnings are only activated with
2632 -Wtraditional-conversion, not with -Wtraditional. */
2635 {
2642 /* No warning if function asks for enum
2643 and the actual arg is that enum type. */
2644 ;
2650 ;
2651 /* Don't complain if the formal parameter type
2652 is an enum, because we can't tell now whether
2653 the value was an enum--even the same enum. */
2655 ;
2658 /* Change in signedness doesn't matter
2659 if a constant value is unaffected. */
2660 ;
2661 /* If the value is extended from a narrower
2662 unsigned type, it doesn't matter whether we
2663 pass it as signed or unsigned; the value
2664 certainly is the same either way. */
2667 ;
2672 else
2675 }
2676 }
2686 }
2688 }
2693 {
2696 else
2697 /* Convert `float' to `double'. */
2699 }
2702 {
2705 }
2706 else
2707 /* Convert `short' and `char' to full-size `int'. */
2712 }
2717 {
2720 }
2723 }
2724 \f
2725 /* This is the entry point used by the parser to build unary operators
2726 in the input. CODE, a tree_code, specifies the unary operator, and
2727 ARG is the operand. For unary plus, the C parser currently uses
2728 CONVERT_EXPR for code. */
2730 struct c_expr
2732 {
2742 }
2744 /* This is the entry point used by the parser to build binary operators
2745 in the input. CODE, a tree_code, specifies the binary operator, and
2746 ARG1 and ARG2 are the operands. In addition to constructing the
2747 expression, we check for operands that were written with other binary
2748 operators in a way that is likely to confuse the user. */
2750 struct c_expr
2753 {
2765 /* Check for cases such as x+y<<z which users are likely
2766 to misinterpret. */
2773 /* Warn about comparisons against string literals, with the exception
2774 of testing for equality or inequality of a string literal with NULL. */
2776 {
2780 }
2791 }
2792 \f
2793 /* Return a tree for the difference of pointers OP0 and OP1.
2794 The resulting tree has type int. */
2796 static tree
2798 {
2806 {
2811 }
2813 /* If the conversion to ptrdiff_type does anything like widening or
2814 converting a partial to an integral mode, we get a convert_expression
2815 that is in the way to do any simplifications.
2816 (fold-const.c doesn't know that the extra bits won't be needed.
2817 split_tree uses STRIP_SIGN_NOPS, which leaves conversions to a
2818 different mode in place.)
2819 So first try to find a common term here 'by hand'; we want to cover
2820 at least the cases that occur in legal static initializers. */
2825 else
2831 else
2835 {
2838 }
2839 else
2843 {
2846 }
2847 else
2851 {
2854 }
2857 /* First do the subtraction as integers;
2858 then drop through to build the divide operator.
2859 Do not do default conversions on the minus operator
2860 in case restype is a short type. */
2864 /* This generates an error if op1 is pointer to incomplete type. */
2868 /* This generates an error if op0 is pointer to incomplete type. */
2871 /* Divide by the size, in easiest possible way. */
2873 }
2874 \f
2875 /* Construct and perhaps optimize a tree representation
2876 for a unary operation. CODE, a tree_code, specifies the operation
2877 and XARG is the operand.
2878 For any CODE other than ADDR_EXPR, FLAG nonzero suppresses
2879 the default promotions (such as from short to int).
2880 For ADDR_EXPR, the default promotions are not applied; FLAG nonzero
2881 allows non-lvalues; this is only used to handle conversion of non-lvalue
2882 arrays to pointers in C99. */
2884 tree
2886 {
2887 /* No default_conversion here. It causes trouble for ADDR_EXPR. */
2891 tree val;
2906 {
2909 }
2912 {
2914 /* This is used for unary plus, because a CONVERT_EXPR
2915 is enough to prevent anybody from looking inside for
2916 associativity, but won't generate any code. */
2920 {
2923 }
2933 {
2936 }
2942 /* ~ works on integer types and non float vectors. */
2946 {
2949 }
2951 {
2957 }
2958 else
2959 {
2962 }
2967 {
2970 }
2976 /* Conjugating a real value is a no-op, but allow it anyway. */
2979 {
2982 }
2991 {
2994 }
3003 else
3011 else
3019 /* Increment or decrement the real part of the value,
3020 and don't change the imaginary part. */
3022 {
3037 }
3039 /* Report invalid types. */
3043 {
3046 else
3050 }
3052 {
3053 tree inc;
3059 /* Compute the increment. */
3062 {
3063 /* If pointer target is an undefined struct,
3064 we just cannot know how to do the arithmetic. */
3066 {
3069 else
3071 }
3075 {
3078 else
3080 }
3084 }
3086 {
3087 /* For signed fract types, we invert ++ to -- or
3088 -- to ++, and change inc from 1 to -1, because
3089 it is not possible to represent 1 in signed fract constants.
3090 For unsigned fract types, the result always overflows and
3091 we get an undefined (original) or the maximum value. */
3103 }
3104 else
3105 {
3108 }
3110 /* Complain about anything else that is not a true lvalue. */
3113 ? lv_increment
3117 /* Report a read-only lvalue. */
3119 {
3125 }
3129 else
3136 }
3139 /* Note that this operation never does default_conversion. */
3141 /* Let &* cancel out to simplify resulting code. */
3143 {
3144 /* Don't let this be an lvalue. */
3148 }
3150 /* For &x[y], return x+y */
3152 {
3161 }
3163 /* Anything not already handled and not a true memory reference
3164 or a non-lvalue array is an error. */
3169 /* Ordinary case; arg is a COMPONENT_REF or a decl. */
3172 /* If the lvalue is const or volatile, merge that into the type
3173 to which the address will point. Note that you can't get a
3174 restricted pointer by taking the address of something, so we
3175 only have to deal with `const' and `volatile' here. */
3190 /* ??? Cope with user tricks that amount to offsetof. Delete this
3191 when we have proper support for integer constant expressions. */
3195 {
3200 }
3208 }
3214 }
3216 /* Return nonzero if REF is an lvalue valid for this language.
3217 Lvalues can be assigned, unless their type has TYPE_READONLY.
3218 Lvalues can have their address taken, unless they have C_DECL_REGISTER. */
3220 static int
3222 {
3226 {
3250 }
3251 }
3252 \f
3253 /* Give an error for storing in something that is 'const'. */
3255 static void
3257 {
3260 /* Using this macro rather than (for example) arrays of messages
3261 ensures that all the format strings are checked at compile
3262 time. */
3263 #define READONLY_MSG(A, I, D, AS) (use == lv_assign ? (A) \
3264 : (use == lv_increment ? (I) \
3265 : (use == lv_decrement ? (D) : (AS))))
3267 {
3270 else
3276 }
3282 arg);
3283 else
3288 arg);
3289 }
3292 /* Return nonzero if REF is an lvalue valid for this language;
3293 otherwise, print an error message and return zero. USE says
3294 how the lvalue is being used and so selects the error message. */
3296 static int
3298 {
3305 }
3306 \f
3307 /* Mark EXP saying that we need to be able to take the
3308 address of it; it should not be allocated in a register.
3309 Returns true if successful. */
3311 bool
3313 {
3318 {
3321 {
3322 error
3325 }
3327 /* ... fall through ... */
3347 {
3349 {
3350 error
3353 }
3355 }
3357 {
3360 else
3363 }
3365 /* drops in */
3368 /* drops out */
3371 }
3372 }
3373 \f
3374 /* Build and return a conditional expression IFEXP ? OP1 : OP2. */
3376 tree
3378 {
3379 tree type1;
3380 tree type2;
3386 /* Promote both alternatives. */
3403 /* C90 does not permit non-lvalue arrays in conditional expressions.
3404 In C99 they will be pointers by now. */
3406 {
3409 }
3411 /* Quickly detect the usual case where op1 and op2 have the same type
3412 after promotion. */
3414 {
3417 else
3419 }
3424 {
3427 /* If -Wsign-compare, warn here if type1 and type2 have
3428 different signedness. We'll promote the signed to unsigned
3429 and later code won't know it used to be different.
3430 Do this check on the original types, so that explicit casts
3431 will be considered, but default promotions won't. */
3433 {
3438 {
3441 /* Do not warn if the result type is signed, since the
3442 signed type will only be chosen if it can represent
3443 all the values of the unsigned type. */
3446 /* Do not warn if the signed quantity is an unsuffixed
3447 integer literal (or some static constant expression
3448 involving such literals) and it is non-negative. */
3451 || (unsigned_op1
3454 else
3456 }
3457 }
3458 }
3460 {
3464 }
3466 {
3474 {
3480 }
3482 {
3488 }
3489 else
3490 {
3493 }
3494 }
3496 {
3499 else
3500 {
3502 }
3504 }
3506 {
3509 else
3510 {
3512 }
3514 }
3517 {
3520 else
3521 {
3524 }
3525 }
3527 /* Merge const and volatile flags of the incoming types. */
3528 result_type
3539 }
3540 \f
3541 /* Return a compound expression that performs two expressions and
3542 returns the value of the second of them. */
3544 tree
3546 {
3548 {
3549 /* The left-hand operand of a comma expression is like an expression
3550 statement: with -Wunused, we should warn if it doesn't have
3551 any side-effects, unless it was explicitly cast to (void). */
3553 {
3561 else
3564 }
3565 }
3567 /* With -Wunused, we should also warn if the left-hand operand does have
3568 side-effects, but computes a value which is not used. For example, in
3569 `foo() + bar(), baz()' the result of the `+' operator is not used,
3570 so we should issue a warning. */
3578 }
3580 /* Build an expression representing a cast to type TYPE of expression EXPR. */
3582 tree
3584 {
3590 /* The ObjC front-end uses TYPE_MAIN_VARIANT to tie together types differing
3591 only in <protocol> qualifications. But when constructing cast expressions,
3592 the protocols do matter and must be kept around. */
3599 {
3602 }
3605 {
3608 }
3611 {
3615 }
3618 {
3620 {
3624 }
3625 }
3627 {
3628 tree field;
3637 {
3638 tree t;
3647 }
3650 }
3651 else
3652 {
3660 /* Optionally warn about potentially worrisome casts. */
3665 {
3671 /* Check that the qualifiers on IN_TYPE are a superset of
3672 the qualifiers of IN_OTYPE. The outermost level of
3673 POINTER_TYPE nodes is uninteresting and we stop as soon
3674 as we hit a non-POINTER_TYPE node on either type. */
3675 do
3676 {
3680 /* GNU C allows cv-qualified function types. 'const'
3681 means the function is very pure, 'volatile' means it
3682 can't return. We need to warn when such qualifiers
3683 are added, not when they're taken away. */
3687 else
3689 }
3697 /* There are qualifiers present in IN_OTYPE that are not
3698 present in IN_TYPE. */
3700 }
3702 /* Warn about possible alignment problems. */
3708 /* Don't warn about opaque types, where the actual alignment
3709 restriction is unknown. */
3720 /* Unlike conversion of integers to pointers, where the
3721 warning is disabled for converting constants because
3722 of cases such as SIG_*, warn about converting constant
3723 pointers to integers. In some cases it may cause unwanted
3724 sign extension, and a warning is appropriate. */
3736 /* Don't warn about converting any constant. */
3744 /* If pedantic, warn for conversions between function and object
3745 pointer types, except for converting a null pointer constant
3746 to function pointer type. */
3765 /* Ignore any integer overflow caused by the cast. */
3767 {
3769 {
3771 {
3772 /* Avoid clobbering a shared constant. */
3775 }
3776 }
3778 /* Reset VALUE's overflow flags, ensuring constant sharing. */
3782 }
3783 }
3785 /* Don't let a cast be an lvalue. */
3790 }
3792 /* Interpret a cast of expression EXPR to type TYPE. */
3793 tree
3795 {
3796 tree type;
3799 /* This avoids warnings about unprototyped casts on
3800 integers. E.g. "#define SIG_DFL (void(*)())0". */
3807 }
3808 \f
3809 /* Build an assignment expression of lvalue LHS from value RHS.
3810 MODIFYCODE is the code for a binary operator that we use
3811 to combine the old value of LHS with RHS to get the new value.
3812 Or else MODIFYCODE is NOP_EXPR meaning do a simple assignment. */
3814 tree
3816 {
3817 tree result;
3818 tree newrhs;
3822 /* Types that aren't fully specified cannot be used in assignments. */
3825 /* Avoid duplicate error messages from operands that had errors. */
3836 /* If a binary op has been requested, combine the old LHS value with the RHS
3837 producing the value we should actually store into the LHS. */
3840 {
3843 }
3845 /* Give an error for storing in something that is 'const'. */
3851 {
3854 }
3856 /* If storing into a structure or union member,
3857 it has probably been given type `int'.
3858 Compute the type that would go with
3859 the actual amount of storage the member occupies. */
3868 /* If storing in a field that is in actuality a short or narrower than one,
3869 we must store in the field in its actual type. */
3872 {
3875 }
3877 /* Convert new value to destination type. */
3884 /* Emit ObjC write barrier, if necessary. */
3886 {
3890 }
3892 /* Scan operands. */
3897 /* If we got the LHS in a different type for storing in,
3898 convert the result back to the nominal type of LHS
3899 so that the value we return always has the same type
3900 as the LHS argument. */
3906 }
3907 \f
3908 /* Convert value RHS to type TYPE as preparation for an assignment
3909 to an lvalue of type TYPE.
3910 The real work of conversion is done by `convert'.
3911 The purpose of this function is to generate error messages
3912 for assignments that are not allowed in C.
3913 ERRTYPE says whether it is argument passing, assignment,
3914 initialization or return.
3916 FUNCTION is a tree for the function being called.
3917 PARMNUM is the number of the argument, for printing in error messages. */
3919 static tree
3922 {
3924 tree rhstype;
3930 {
3931 tree selector;
3932 /* Change pointer to function to the function itself for
3933 diagnostics. */
3938 /* Handle an ObjC selector specially for diagnostics. */
3942 {
3945 }
3946 }
3948 /* This macro is used to emit diagnostics to ensure that all format
3949 strings are complete sentences, visible to gettext and checked at
3950 compile time. */
3951 #define WARN_FOR_ASSIGNMENT(AR, AS, IN, RE) \
3952 do { \
3953 switch (errtype) \
3954 { \
3955 case ic_argpass: \
3956 pedwarn (AR, parmnum, rname); \
3957 break; \
3958 case ic_argpass_nonproto: \
3959 warning (0, AR, parmnum, rname); \
3960 break; \
3961 case ic_assign: \
3962 pedwarn (AS); \
3963 break; \
3964 case ic_init: \
3965 pedwarn (IN); \
3966 break; \
3967 case ic_return: \
3968 pedwarn (RE); \
3969 break; \
3970 default: \
3971 gcc_unreachable (); \
3972 } \
3973 } while (0)
3988 {
3992 {
4008 }
4011 }
4017 {
4018 /* Except for passing an argument to an unprototyped function,
4019 this is a constraint violation. When passing an argument to
4020 an unprototyped function, it is compile-time undefined;
4021 making it a constraint in that case was rejected in
4022 DR#252. */
4025 }
4029 /* A type converts to a reference to it.
4030 This code doesn't fully support references, it's just for the
4031 special case of va_start and va_copy. */
4034 {
4036 {
4039 }
4044 /* We already know that these two types are compatible, but they
4045 may not be exactly identical. In fact, `TREE_TYPE (type)' is
4046 likely to be __builtin_va_list and `TREE_TYPE (rhs)' is
4047 likely to be va_list, a typedef to __builtin_va_list, which
4048 is different enough that it will cause problems later. */
4054 }
4055 /* Some types can interconvert without explicit casts. */
4059 /* Arithmetic types all interconvert, and enum is treated like int. */
4070 /* Aggregates in different TUs might need conversion. */
4076 /* Conversion to a transparent union from its member types.
4077 This applies only to function arguments. */
4080 {
4084 {
4095 {
4099 /* Any non-function converts to a [const][volatile] void *
4100 and vice versa; otherwise, targets must be the same.
4101 Meanwhile, the lhs target must have all the qualifiers of
4102 the rhs. */
4105 {
4106 /* If this type won't generate any warnings, use it. */
4116 /* Keep looking for a better type, but remember this one. */
4119 }
4120 }
4122 /* Can convert integer zero to any pointer type. */
4124 {
4127 }
4128 }
4131 {
4133 {
4134 /* We have only a marginally acceptable member type;
4135 it needs a warning. */
4139 /* Const and volatile mean something different for function
4140 types, so the usual warnings are not appropriate. */
4143 {
4144 /* Because const and volatile on functions are
4145 restrictions that say the function will not do
4146 certain things, it is okay to use a const or volatile
4147 function where an ordinary one is wanted, but not
4148 vice-versa. */
4151 "makes qualified function "
4154 "function pointer from "
4157 "function pointer from "
4161 }
4173 }
4180 }
4181 }
4183 /* Conversions among pointers */
4186 {
4198 /* Opaque pointers are treated like void pointers. */
4201 /* C++ does not allow the implicit conversion void* -> T*. However,
4202 for the purpose of reducing the number of false positives, we
4203 tolerate the special case of
4205 int *p = NULL;
4207 where NULL is typically defined in C to be '(void *) 0'. */
4212 /* Check if the right-hand side has a format attribute but the
4213 left-hand side doesn't. */
4216 {
4218 {
4222 "argument %d of %qE might be "
4228 "assignment left-hand side might be "
4233 "initialization left-hand side might be "
4238 "return type might be "
4243 }
4244 }
4246 /* Any non-function converts to a [const][volatile] void *
4247 and vice versa; otherwise, targets must be the same.
4248 Meanwhile, the lhs target must have all the qualifiers of the rhs. */
4251 || is_opaque_pointer
4254 {
4257 ||
4262 "%qE between function pointer "
4270 /* Const and volatile mean something different for function types,
4271 so the usual warnings are not appropriate. */
4274 {
4276 {
4277 /* Types differing only by the presence of the 'volatile'
4278 qualifier are acceptable if the 'volatile' has been added
4279 in by the Objective-C EH machinery. */
4289 }
4290 /* If this is not a case of ignoring a mismatch in signedness,
4291 no warning. */
4294 ;
4295 /* If there is a mismatch, do warn. */
4305 }
4308 {
4309 /* Because const and volatile on functions are restrictions
4310 that say the function will not do certain things,
4311 it is okay to use a const or volatile function
4312 where an ordinary one is wanted, but not vice-versa. */
4315 "qualified function pointer "
4323 }
4324 }
4325 else
4326 /* Avoid warning about the volatile ObjC EH puts on decls. */
4336 }
4338 {
4339 /* ??? This should not be an error when inlining calls to
4340 unprototyped functions. */
4343 }
4345 {
4346 /* An explicit constant 0 can convert to a pointer,
4347 or one that results from arithmetic, even including
4348 a cast to integer type. */
4360 }
4362 {
4372 }
4377 {
4380 /* ??? This should not be an error when inlining calls to
4381 unprototyped functions. */
4395 }
4398 }
4399 \f
4400 /* If VALUE is a compound expr all of whose expressions are constant, then
4401 return its value. Otherwise, return error_mark_node.
4403 This is for handling COMPOUND_EXPRs as initializer elements
4404 which is allowed with a warning when -pedantic is specified. */
4406 static tree
4408 {
4410 {
4415 endtype);
4416 }
4419 else
4421 }
4422 \f
4423 /* Perform appropriate conversions on the initial value of a variable,
4424 store it in the declaration DECL,
4425 and print any error messages that are appropriate.
4426 If the init is invalid, store an ERROR_MARK. */
4428 void
4430 {
4433 /* If variable's type was invalidly declared, just ignore it. */
4439 /* Digest the specified initializer into an expression. */
4443 /* Store the expression if valid; else report error. */
4452 /* ANSI wants warnings about out-of-range constant initializers. */
4457 /* Check if we need to set array size from compound literal size. */
4461 {
4468 {
4472 {
4473 /* For int foo[] = (int [3]){1}; we need to set array size
4474 now since later on array initializer will be just the
4475 brace enclosed list of the compound literal. */
4481 }
4482 }
4483 }
4484 }
4485 \f
4486 /* Methods for storing and printing names for error messages. */
4488 /* Implement a spelling stack that allows components of a name to be pushed
4489 and popped. Each element on the stack is this structure. */
4491 struct spelling
4492 {
4494 union
4495 {
4499 };
4501 #define SPELLING_STRING 1
4502 #define SPELLING_MEMBER 2
4503 #define SPELLING_BOUNDS 3
4509 /* Macros to save and restore the spelling stack around push_... functions.
4510 Alternative to SAVE_SPELLING_STACK. */
4512 #define SPELLING_DEPTH() (spelling - spelling_base)
4513 #define RESTORE_SPELLING_DEPTH(DEPTH) (spelling = spelling_base + (DEPTH))
4515 /* Push an element on the spelling stack with type KIND and assign VALUE
4516 to MEMBER. */
4518 #define PUSH_SPELLING(KIND, VALUE, MEMBER) \
4519 { \
4520 int depth = SPELLING_DEPTH (); \
4521 \
4522 if (depth >= spelling_size) \
4523 { \
4524 spelling_size += 10; \
4525 spelling_base = XRESIZEVEC (struct spelling, spelling_base, \
4526 spelling_size); \
4527 RESTORE_SPELLING_DEPTH (depth); \
4528 } \
4529 \
4530 spelling->kind = (KIND); \
4531 spelling->MEMBER = (VALUE); \
4532 spelling++; \
4533 }
4535 /* Push STRING on the stack. Printed literally. */
4537 static void
4539 {
4541 }
4543 /* Push a member name on the stack. Printed as '.' STRING. */
4545 static void
4547 {
4551 }
4553 /* Push an array bounds on the stack. Printed as [BOUNDS]. */
4555 static void
4557 {
4559 }
4561 /* Compute the maximum size in bytes of the printed spelling. */
4563 static int
4565 {
4570 {
4573 else
4575 }
4578 }
4580 /* Print the spelling to BUFFER and return it. */
4584 {
4590 {
4593 }
4594 else
4595 {
4600 ;
4601 }
4604 }
4606 /* Issue an error message for a bad initializer component.
4607 MSGID identifies the message.
4608 The component name is taken from the spelling stack. */
4610 void
4612 {
4619 }
4621 /* Issue a pedantic warning for a bad initializer component.
4622 MSGID identifies the message.
4623 The component name is taken from the spelling stack. */
4625 void
4627 {
4634 }
4636 /* Issue a warning for a bad initializer component.
4638 OPT is the OPT_W* value corresponding to the warning option that
4639 controls this warning. MSGID identifies the message. The
4640 component name is taken from the spelling stack. */
4642 static void
4644 {
4651 }
4652 \f
4653 /* If TYPE is an array type and EXPR is a parenthesized string
4654 constant, warn if pedantic that EXPR is being used to initialize an
4655 object of type TYPE. */
4657 void
4659 {
4665 }
4667 /* Digest the parser output INIT as an initializer for type TYPE.
4668 Return a C expression of type TYPE to represent the initial value.
4670 If INIT is a string constant, STRICT_STRING is true if it is
4671 unparenthesized or we should not warn here for it being parenthesized.
4672 For other types of INIT, STRICT_STRING is not used.
4674 REQUIRE_CONSTANT requests an error if non-constant initializers or
4675 elements are seen. */
4677 static tree
4679 {
4684 || !init
4693 /* Initialization of an array of chars from a string constant
4694 optionally enclosed in braces. */
4698 {
4700 /* Note that an array could be both an array of character type
4701 and an array of wchar_t if wchar_t is signed char or unsigned
4702 char. */
4708 {
4715 char_string
4724 {
4727 }
4729 {
4732 }
4738 /* Subtract 1 (or sizeof (wchar_t))
4739 because it's ok to ignore the terminating null char
4740 that is counted in the length of the constant. */
4751 }
4753 {
4757 }
4758 }
4760 /* Build a VECTOR_CST from a *constant* vector constructor. If the
4761 vector constructor is not constant (e.g. {1,2,3,foo()}) then punt
4762 below and handle as a constructor. */
4767 {
4774 {
4776 tree value;
4779 /* Iterate through elements and check if all constructor
4780 elements are *_CSTs. */
4783 {
4786 }
4791 }
4792 }
4794 /* Any type can be initialized
4795 from an expression of the same type, optionally with braces. */
4808 {
4810 {
4812 {
4816 else
4817 {
4820 }
4821 }
4822 }
4825 /* Although the types are compatible, we may require a
4826 conversion. */
4832 {
4833 /* As an extension, allow initializing objects with static storage
4834 duration with compound literals (which are then treated just as
4835 the brace enclosed list they contain). Also allow this for
4836 vectors, as we can only assign them with compound literals. */
4839 }
4843 {
4846 }
4851 /* Compound expressions can only occur here if -pedantic or
4852 -pedantic-errors is specified. In the later case, we always want
4853 an error. In the former case, we simply want a warning. */
4856 {
4857 inside_init
4862 else
4866 }
4870 {
4873 }
4875 /* Added to enable additional -Wmissing-format-attribute warnings. */
4880 }
4882 /* Handle scalar types, including conversions. */
4887 {
4892 inside_init
4896 /* Check to see if we have already given an error message. */
4898 ;
4900 {
4903 }
4907 {
4910 }
4913 }
4915 /* Come here only for records and arrays. */
4918 {
4921 }
4925 }
4926 \f
4927 /* Handle initializers that use braces. */
4929 /* Type of object we are accumulating a constructor for.
4930 This type is always a RECORD_TYPE, UNION_TYPE or ARRAY_TYPE. */
4933 /* For a RECORD_TYPE or UNION_TYPE, this is the chain of fields
4934 left to fill. */
4937 /* For an ARRAY_TYPE, this is the specified index
4938 at which to store the next element we get. */
4941 /* For an ARRAY_TYPE, this is the maximum index. */
4944 /* For a RECORD_TYPE, this is the first field not yet written out. */
4947 /* For an ARRAY_TYPE, this is the index of the first element
4948 not yet written out. */
4951 /* In a RECORD_TYPE, the byte index of the next consecutive field.
4952 This is so we can generate gaps between fields, when appropriate. */
4955 /* If we are saving up the elements rather than allocating them,
4956 this is the list of elements so far (in reverse order,
4957 most recent first). */
4960 /* 1 if constructor should be incrementally stored into a constructor chain,
4961 0 if all the elements should be kept in AVL tree. */
4964 /* 1 if so far this constructor's elements are all compile-time constants. */
4967 /* 1 if so far this constructor's elements are all valid address constants. */
4970 /* 1 if this constructor is erroneous so far. */
4973 /* Structure for managing pending initializer elements, organized as an
4974 AVL tree. */
4976 struct init_node
4977 {
4981 tree purpose;
4982 tree value;
4983 };
4985 /* Tree of pending elements at this constructor level.
4986 These are elements encountered out of order
4987 which belong at places we haven't reached yet in actually
4988 writing the output.
4989 Will never hold tree nodes across GC runs. */
4992 /* The SPELLING_DEPTH of this constructor. */
4995 /* DECL node for which an initializer is being read.
4996 0 means we are reading a constructor expression
4997 such as (struct foo) {...}. */
5000 /* Nonzero if this is an initializer for a top-level decl. */
5003 /* Nonzero if there were any member designators in this initializer. */
5006 /* Nesting depth of designator list. */
5009 /* Nonzero if there were diagnosed errors in this designator list. */
5012 \f
5013 /* This stack has a level for each implicit or explicit level of
5014 structuring in the initializer, including the outermost one. It
5015 saves the values of most of the variables above. */
5019 struct constructor_stack
5020 {
5022 tree type;
5023 tree fields;
5024 tree index;
5025 tree max_index;
5026 tree unfilled_index;
5027 tree unfilled_fields;
5028 tree bit_index;
5033 /* If value nonzero, this value should replace the entire
5034 constructor at this level. */
5044 };
5048 /* This stack represents designators from some range designator up to
5049 the last designator in the list. */
5051 struct constructor_range_stack
5052 {
5055 tree range_start;
5056 tree index;
5057 tree range_end;
5058 tree fields;
5059 };
5063 /* This stack records separate initializers that are nested.
5064 Nested initializers can't happen in ANSI C, but GNU C allows them
5065 in cases like { ... (struct foo) { ... } ... }. */
5067 struct initializer_stack
5068 {
5070 tree decl;
5080 };
5083 \f
5084 /* Prepare to parse and output the initializer for variable DECL. */
5086 void
5088 {
5110 {
5112 require_constant_elements
5114 /* For a scalar, you can always use any value to initialize,
5115 even within braces. */
5121 }
5122 else
5123 {
5127 }
5140 }
5142 void
5144 {
5147 /* Free the whole constructor stack of this initializer. */
5149 {
5153 }
5157 /* Pop back to the data of the outer initializer (if any). */
5172 }
5173 \f
5174 /* Call here when we see the initializer is surrounded by braces.
5175 This is instead of a call to push_init_level;
5176 it is matched by a call to pop_init_level.
5178 TYPE is the type to initialize, for a constructor expression.
5179 For an initializer for a decl, TYPE is zero. */
5181 void
5183 {
5228 {
5230 /* Skip any nameless bit fields at the beginning. */
5237 }
5239 {
5241 {
5242 constructor_max_index
5245 /* Detect non-empty initializations of zero-length arrays. */
5250 /* constructor_max_index needs to be an INTEGER_CST. Attempts
5251 to initialize VLAs will cause a proper error; avoid tree
5252 checking errors as well by setting a safe value. */
5257 constructor_index
5260 }
5261 else
5262 {
5265 }
5268 }
5270 {
5271 /* Vectors are like simple fixed-size arrays. */
5272 constructor_max_index =
5276 }
5277 else
5278 {
5279 /* Handle the case of int x = {5}; */
5282 }
5283 }
5284 \f
5285 /* Push down into a subobject, for initialization.
5286 If this is for an explicit set of braces, IMPLICIT is 0.
5287 If it is because the next element belongs at a lower level,
5288 IMPLICIT is 1 (or 2 if the push is because of designator list). */
5290 void
5292 {
5296 /* If we've exhausted any levels that didn't have braces,
5297 pop them now. If implicit == 1, this will have been done in
5298 process_init_element; do not repeat it here because in the case
5299 of excess initializers for an empty aggregate this leads to an
5300 infinite cycle of popping a level and immediately recreating
5301 it. */
5303 {
5305 {
5311 && constructor_max_index
5313 constructor_index))
5315 else
5317 }
5318 }
5320 /* Unless this is an explicit brace, we need to preserve previous
5321 content if any. */
5323 {
5330 }
5364 {
5369 }
5371 /* Don't die if an entire brace-pair level is superfluous
5372 in the containing level. */
5374 ;
5377 {
5378 /* Don't die if there are extra init elts at the end. */
5381 else
5382 {
5385 constructor_depth++;
5386 }
5387 }
5389 {
5392 constructor_depth++;
5393 }
5396 {
5401 }
5404 {
5412 }
5415 {
5418 }
5422 {
5424 /* Skip any nameless bit fields at the beginning. */
5431 }
5433 {
5434 /* Vectors are like simple fixed-size arrays. */
5435 constructor_max_index =
5439 }
5441 {
5443 {
5444 constructor_max_index
5447 /* Detect non-empty initializations of zero-length arrays. */
5452 /* constructor_max_index needs to be an INTEGER_CST. Attempts
5453 to initialize VLAs will cause a proper error; avoid tree
5454 checking errors as well by setting a safe value. */
5459 constructor_index
5462 }
5463 else
5468 {
5469 /* We need to split the char/wchar array into individual
5470 characters, so that we don't have to special case it
5471 everywhere. */
5473 }
5474 }
5475 else
5476 {
5481 }
5482 }
5484 /* At the end of an implicit or explicit brace level,
5485 finish up that level of constructor. If a single expression
5486 with redundant braces initialized that level, return the
5487 c_expr structure for that expression. Otherwise, the original_code
5488 element is set to ERROR_MARK.
5489 If we were outputting the elements as they are read, return 0 as the value
5490 from inner levels (process_init_element ignores that),
5491 but return error_mark_node as the value from the outermost level
5492 (that's what we want to put in DECL_INITIAL).
5493 Otherwise, return a CONSTRUCTOR expression as the value. */
5495 struct c_expr
5497 {
5504 {
5505 /* When we come to an explicit close brace,
5506 pop any inner levels that didn't have explicit braces. */
5511 }
5513 /* Now output all pending elements. */
5519 /* Error for initializing a flexible array member, or a zero-length
5520 array member in an inappropriate context. */
5525 {
5526 /* Silently discard empty initializations. The parser will
5527 already have pedwarned for empty brackets. */
5530 else
5531 {
5539 /* We have already issued an error message for the existence
5540 of a flexible array member not at the end of the structure.
5541 Discard the initializer so that we do not die later. */
5544 }
5545 }
5547 /* Warn when some struct elements are implicitly initialized to zero. */
5549 && constructor_type
5552 {
5553 /* Do not warn for flexible array members or zero-length arrays. */
5559 /* Do not warn if this level of the initializer uses member
5560 designators; it is likely to be deliberate. */
5562 {
5567 }
5568 }
5570 /* Pad out the end of the structure. */
5572 /* If this closes a superfluous brace pair,
5573 just pass out the element between them. */
5576 ;
5581 {
5582 /* A nonincremental scalar initializer--just return
5583 the element, after verifying there is just one. */
5585 {
5589 }
5591 {
5594 }
5595 else
5597 }
5598 else
5599 {
5602 else
5603 {
5605 constructor_elements);
5610 }
5611 }
5638 }
5640 /* Common handling for both array range and field name designators.
5641 ARRAY argument is nonzero for array ranges. Returns zero for success. */
5643 static int
5645 {
5646 tree subtype;
5649 /* Don't die if an entire brace-pair level is superfluous
5650 in the containing level. */
5654 /* If there were errors in this designator list already, bail out
5655 silently. */
5660 {
5663 /* Designator list starts at the level of closest explicit
5664 braces. */
5669 }
5672 {
5684 }
5688 {
5691 }
5693 {
5696 }
5701 }
5703 /* If there are range designators in designator list, push a new designator
5704 to constructor_range_stack. RANGE_END is end of such stack range or
5705 NULL_TREE if there is no range designator at this level. */
5707 static void
5709 {
5723 }
5725 /* Within an array initializer, specify the next index to be initialized.
5726 FIRST is that index. If LAST is nonzero, then initialize a range
5727 of indices, running from FIRST through LAST. */
5729 void
5731 {
5739 {
5742 }
5755 else
5756 {
5760 {
5764 {
5767 }
5768 else
5769 {
5773 {
5776 }
5777 }
5778 }
5780 designator_depth++;
5784 }
5785 }
5787 /* Within a struct initializer, specify the next field to be initialized. */
5789 void
5791 {
5792 tree tail;
5801 {
5804 }
5808 {
5811 }
5815 else
5816 {
5818 designator_depth++;
5822 }
5823 }
5824 \f
5825 /* Add a new initializer to the tree of pending initializers. PURPOSE
5826 identifies the initializer, either array index or field in a structure.
5827 VALUE is the value of that index or field. */
5829 static void
5831 {
5838 {
5840 {
5846 else
5847 {
5854 }
5855 }
5856 }
5857 else
5858 {
5859 tree bitpos;
5863 {
5869 else
5870 {
5877 }
5878 }
5879 }
5892 {
5896 {
5900 {
5902 {
5903 /* L rotation. */
5916 {
5919 else
5921 }
5922 else
5924 }
5925 else
5926 {
5927 /* LR rotation. */
5949 {
5952 else
5954 }
5955 else
5957 }
5959 }
5960 else
5961 {
5962 /* p->balance == +1; growth of left side balances the node. */
5965 }
5966 }
5968 {
5970 /* Growth propagation from right side. */
5973 {
5975 {
5976 /* R rotation. */
5989 {
5992 else
5994 }
5995 else
5997 }
5999 {
6000 /* RL rotation */
6022 {
6025 else
6027 }
6028 else
6030 }
6032 }
6033 else
6034 {
6035 /* p->balance == -1; growth of right side balances the node. */
6038 }
6039 }
6043 }
6044 }
6046 /* Build AVL tree from a sorted chain. */
6048 static void
6050 {
6062 {
6064 /* Skip any nameless bit fields at the beginning. */
6070 }
6072 {
6074 constructor_unfilled_index
6077 else
6079 }
6081 }
6083 /* Build AVL tree from a string constant. */
6085 static void
6087 {
6098 else
6099 {
6103 }
6112 {
6114 {
6117 }
6118 else
6119 {
6123 {
6126 else
6131 }
6132 }
6135 {
6138 {
6140 {
6143 }
6144 }
6146 {
6149 }
6154 }
6158 }
6161 }
6163 /* Return value of FIELD in pending initializer or zero if the field was
6164 not initialized yet. */
6166 static tree
6168 {
6172 {
6179 {
6184 else
6186 }
6187 }
6189 {
6193 && (!constructor_unfilled_fields
6200 {
6205 else
6207 }
6208 }
6210 {
6215 }
6217 }
6219 /* "Output" the next constructor element.
6220 At top level, really output it to assembler code now.
6221 Otherwise, collect it in a list from which we will make a CONSTRUCTOR.
6222 TYPE is the data type that the containing data type wants here.
6223 FIELD is the field (a FIELD_DECL) or the index that this element fills.
6224 If VALUE is a string constant, STRICT_STRING is true if it is
6225 unparenthesized or we should not warn here for it being parenthesized.
6226 For other types of VALUE, STRICT_STRING is not used.
6228 PENDING if non-nil means output pending elements that belong
6229 right after this element. (PENDING is normally 1;
6230 it is 0 while outputting pending elements, to avoid recursion.) */
6232 static void
6235 {
6239 {
6242 }
6255 {
6256 /* As an extension, allow initializing objects with static storage
6257 duration with compound literals (which are then treated just as
6258 the brace enclosed list they contain). */
6261 }
6275 {
6277 {
6280 }
6283 }
6285 /* If this field is empty (and not at the end of structure),
6286 don't do anything other than checking the initializer. */
6297 {
6300 }
6302 /* If this element doesn't come next in sequence,
6303 put it on constructor_pending_elts. */
6305 && (!constructor_incremental
6307 {
6314 }
6316 && (!constructor_incremental
6318 {
6319 /* We do this for records but not for unions. In a union,
6320 no matter which field is specified, it can be initialized
6321 right away since it starts at the beginning of the union. */
6323 {
6326 else
6327 {
6335 }
6336 }
6340 }
6343 {
6350 /* We can have just one union field set. */
6352 }
6354 /* Otherwise, output this element either to
6355 constructor_elements or to the assembler file. */
6361 /* Advance the variable that indicates sequential elements output. */
6363 constructor_unfilled_index
6365 bitsize_one_node);
6367 {
6368 constructor_unfilled_fields
6371 /* Skip any nameless bit fields. */
6375 constructor_unfilled_fields =
6377 }
6381 /* Now output any pending elements which have become next. */
6384 }
6386 /* Output any pending elements which have become next.
6387 As we output elements, constructor_unfilled_{fields,index}
6388 advances, which may cause other elements to become next;
6389 if so, they too are output.
6391 If ALL is 0, we return when there are
6392 no more pending elements to output now.
6394 If ALL is 1, we output space as necessary so that
6395 we can output all the pending elements. */
6397 static void
6399 {
6401 tree next;
6403 retry:
6405 /* Look through the whole pending tree.
6406 If we find an element that should be output now,
6407 output it. Otherwise, set NEXT to the element
6408 that comes first among those still pending. */
6412 {
6414 {
6416 constructor_unfilled_index))
6422 {
6423 /* Advance to the next smaller node. */
6426 else
6427 {
6428 /* We have reached the smallest node bigger than the
6429 current unfilled index. Fill the space first. */
6432 }
6433 }
6434 else
6435 {
6436 /* Advance to the next bigger node. */
6439 else
6440 {
6441 /* We have reached the biggest node in a subtree. Find
6442 the parent of it, which is the next bigger node. */
6448 {
6451 }
6452 }
6453 }
6454 }
6457 {
6460 /* If the current record is complete we are done. */
6466 /* We can't compare fields here because there might be empty
6467 fields in between. */
6469 {
6473 }
6475 {
6476 /* Advance to the next smaller node. */
6479 else
6480 {
6481 /* We have reached the smallest node bigger than the
6482 current unfilled field. Fill the space first. */
6485 }
6486 }
6487 else
6488 {
6489 /* Advance to the next bigger node. */
6492 else
6493 {
6494 /* We have reached the biggest node in a subtree. Find
6495 the parent of it, which is the next bigger node. */
6502 {
6505 }
6506 }
6507 }
6508 }
6509 }
6511 /* Ordinarily return, but not if we want to output all
6512 and there are elements left. */
6516 /* If it's not incremental, just skip over the gap, so that after
6517 jumping to retry we will output the next successive element. */
6524 /* ELT now points to the node in the pending tree with the next
6525 initializer to output. */
6527 }
6528 \f
6529 /* Add one non-braced element to the current constructor level.
6530 This adjusts the current position within the constructor's type.
6531 This may also start or terminate implicit levels
6532 to handle a partly-braced initializer.
6534 Once this has found the correct level for the new element,
6535 it calls output_init_element. */
6537 void
6539 {
6547 /* Handle superfluous braces around string cst as in
6548 char x[] = {"foo"}; */
6550 && constructor_type
6554 {
6559 }
6562 {
6565 }
6567 /* Ignore elements of a brace group if it is entirely superfluous
6568 and has already been diagnosed. */
6572 /* If we've exhausted any levels that didn't have braces,
6573 pop them now. */
6575 {
6583 constructor_index)))
6585 else
6587 }
6589 /* In the case of [LO ... HI] = VALUE, only evaluate VALUE once. */
6591 {
6592 /* If value is a compound literal and we'll be just using its
6593 content, don't put it into a SAVE_EXPR. */
6595 || !require_constant_value
6598 }
6601 {
6603 {
6604 tree fieldtype;
6608 {
6611 }
6618 /* Error for non-static initialization of a flexible array member. */
6620 && !require_constant_value
6623 {
6626 }
6628 /* Accept a string constant to initialize a subarray. */
6634 /* Otherwise, if we have come to a subaggregate,
6635 and we don't have an element of its type, push into it. */
6641 {
6644 }
6647 {
6652 }
6653 else
6654 /* Do the bookkeeping for an element that was
6655 directly output as a constructor. */
6656 {
6657 /* For a record, keep track of end position of last field. */
6659 constructor_bit_index
6664 /* If the current field was the first one not yet written out,
6665 it isn't now, so update. */
6667 {
6669 /* Skip any nameless bit fields. */
6673 constructor_unfilled_fields =
6675 }
6676 }
6679 /* Skip any nameless bit fields at the beginning. */
6684 }
6686 {
6687 tree fieldtype;
6691 {
6694 }
6701 /* Warn that traditional C rejects initialization of unions.
6702 We skip the warning if the value is zero. This is done
6703 under the assumption that the zero initializer in user
6704 code appears conditioned on e.g. __STDC__ to avoid
6705 "missing initializer" warnings and relies on default
6706 initialization to zero in the traditional C case.
6707 We also skip the warning if the initializer is designated,
6708 again on the assumption that this must be conditional on
6709 __STDC__ anyway (and we've already complained about the
6710 member-designator already). */
6717 /* Accept a string constant to initialize a subarray. */
6723 /* Otherwise, if we have come to a subaggregate,
6724 and we don't have an element of its type, push into it. */
6730 {
6733 }
6736 {
6741 }
6742 else
6743 /* Do the bookkeeping for an element that was
6744 directly output as a constructor. */
6745 {
6748 }
6751 }
6753 {
6757 /* Accept a string constant to initialize a subarray. */
6763 /* Otherwise, if we have come to a subaggregate,
6764 and we don't have an element of its type, push into it. */
6770 {
6773 }
6778 {
6781 }
6783 /* Now output the actual element. */
6785 {
6790 }
6792 constructor_index
6796 /* If we are doing the bookkeeping for an element that was
6797 directly output as a constructor, we must update
6798 constructor_unfilled_index. */
6800 }
6802 {
6805 /* Do a basic check of initializer size. Note that vectors
6806 always have a fixed size derived from their type. */
6808 {
6811 }
6813 /* Now output the actual element. */
6818 constructor_index
6822 /* If we are doing the bookkeeping for an element that was
6823 directly output as a constructor, we must update
6824 constructor_unfilled_index. */
6826 }
6828 /* Handle the sole element allowed in a braced initializer
6829 for a scalar variable. */
6832 {
6835 }
6836 else
6837 {
6842 }
6844 /* Handle range initializers either at this level or anywhere higher
6845 in the designator stack. */
6847 {
6854 {
6857 }
6861 {
6864 }
6871 {
6875 {
6878 }
6886 }
6891 }
6894 }
6897 }
6898 \f
6899 /* Build a complete asm-statement, whose components are a CV_QUALIFIER
6900 (guaranteed to be 'volatile' or null) and ARGS (represented using
6901 an ASM_EXPR node). */
6902 tree
6904 {
6908 }
6910 /* Build an asm-expr, whose components are a STRING, some OUTPUTS,
6911 some INPUTS, and some CLOBBERS. The latter three may be NULL.
6912 SIMPLE indicates whether there was anything at all after the
6913 string in the asm expression -- asm("blah") and asm("blah" : )
6914 are subtly different. We use a ASM_EXPR node to represent this. */
6915 tree
6918 {
6919 tree tail;
6920 tree args;
6933 /* Remove output conversions that change the type but not the mode. */
6935 {
6938 /* ??? Really, this should not be here. Users should be using a
6939 proper lvalue, dammit. But there's a long history of using casts
6940 in the output operands. In cases like longlong.h, this becomes a
6941 primitive form of typechecking -- if the cast can be removed, then
6942 the output operand had a type of the proper width; otherwise we'll
6943 get an error. Gross, but ... */
6962 {
6963 /* If the operand is going to end up in memory,
6964 mark it addressable. */
6967 }
6968 else
6972 }
6975 {
6976 tree input;
6983 {
6984 /* If the operand is going to end up in memory,
6985 mark it addressable. */
6987 {
6988 /* Strip the nops as we allow this case. FIXME, this really
6989 should be rejected or made deprecated. */
6993 }
6994 }
6995 else
6999 }
7003 /* asm statements without outputs, including simple ones, are treated
7004 as volatile. */
7009 }
7010 \f
7011 /* Generate a goto statement to LABEL. */
7013 tree
7015 {
7021 {
7024 }
7027 {
7030 }
7033 {
7034 /* No jump from outside this statement expression context, so
7035 record that there is a jump from within this context. */
7041 }
7044 {
7045 /* No jump from outside this context context of identifiers with
7046 variably modified type, so record that there is a jump from
7047 within this context. */
7053 }
7057 }
7059 /* Generate a computed goto statement to EXPR. */
7061 tree
7063 {
7068 }
7070 /* Generate a C `return' statement. RETVAL is the expression for what
7071 to return, or a null pointer for `return;' with no value. */
7073 tree
7075 {
7083 {
7087 {
7091 }
7092 }
7094 {
7100 }
7101 else
7102 {
7106 tree inner;
7114 /* Strip any conversions, additions, and subtractions, and see if
7115 we are returning the address of a local variable. Warn if so. */
7117 {
7119 {
7126 /* If the second operand of the MINUS_EXPR has a pointer
7127 type (or is converted from it), this may be valid, so
7128 don't give a warning. */
7129 {
7142 }
7160 }
7163 }
7166 }
7171 }
7172 \f
7174 /* The SWITCH_EXPR being built. */
7175 tree switch_expr;
7177 /* The original type of the testing expression, i.e. before the
7178 default conversion is applied. */
7179 tree orig_type;
7181 /* A splay-tree mapping the low element of a case range to the high
7182 element, or NULL_TREE if there is no high element. Used to
7183 determine whether or not a new case label duplicates an old case
7184 label. We need a tree, rather than simply a hash table, because
7185 of the GNU case range extension. */
7186 splay_tree cases;
7188 /* Number of nested statement expressions within this switch
7189 statement; if nonzero, case and default labels may not
7190 appear. */
7193 /* Scope of outermost declarations of identifiers with variably
7194 modified type within this switch statement; if nonzero, case and
7195 default labels may not appear. */
7198 /* The next node on the stack. */
7200 };
7202 /* A stack of the currently active switch statements. The innermost
7203 switch statement is on the top of the stack. There is no need to
7204 mark the stack for garbage collection because it is only active
7205 during the processing of the body of a function, and we never
7206 collect at that point. */
7210 /* Start a C switch statement, testing expression EXP. Return the new
7211 SWITCH_EXPR. */
7213 tree
7215 {
7220 {
7224 {
7226 {
7229 }
7231 }
7232 else
7233 {
7243 }
7244 }
7246 /* Add this new SWITCH_EXPR to the stack. */
7257 }
7259 /* Process a case label. */
7261 tree
7263 {
7268 {
7275 }
7277 {
7281 else
7284 }
7286 {
7290 else
7293 }
7296 else
7300 }
7302 /* Finish the switch statement. */
7304 void
7306 {
7308 location_t switch_location;
7312 /* We must not be within a statement expression nested in the switch
7313 at this point; we might, however, be within the scope of an
7314 identifier with variably modified type nested in the switch. */
7317 /* Emit warnings as needed. */
7320 else
7326 /* Pop the stack. */
7330 }
7331 \f
7332 /* Emit an if statement. IF_LOCUS is the location of the 'if'. COND,
7333 THEN_BLOCK and ELSE_BLOCK are expressions to be used; ELSE_BLOCK
7334 may be null. NESTED_IF is true if THEN_BLOCK contains another IF
7335 statement, and was not surrounded with parenthesis. */
7337 void
7340 {
7341 tree stmt;
7343 /* Diagnose an ambiguous else if if-then-else is nested inside if-then. */
7345 {
7348 /* We know from the grammar productions that there is an IF nested
7349 within THEN_BLOCK. Due to labels and c99 conditional declarations,
7350 it might not be exactly THEN_BLOCK, but should be the last
7351 non-container statement within. */
7354 {
7369 }
7370 found:
7376 }
7383 }
7385 /* Emit a general-purpose loop construct. START_LOCUS is the location of
7386 the beginning of the loop. COND is the loop condition. COND_IS_FIRST
7387 is false for DO loops. INCR is the FOR increment expression. BODY is
7388 the statement controlled by the loop. BLAB is the break label. CLAB is
7389 the continue label. Everything is allowed to be NULL. */
7391 void
7394 {
7397 /* If the condition is zero don't generate a loop construct. */
7399 {
7401 {
7405 }
7406 }
7407 else
7408 {
7411 /* If we have an exit condition, then we build an IF with gotos either
7412 out of the loop, or to the top of it. If there's no exit condition,
7413 then we just build a jump back to the top. */
7417 {
7418 /* Canonicalize the loop condition to the end. This means
7419 generating a branch to the loop condition. Reuse the
7420 continue label, if possible. */
7422 {
7424 {
7427 }
7428 else
7432 }
7438 else
7440 }
7443 }
7457 }
7459 tree
7461 {
7465 /* In switch statements break is sometimes stylistically used after
7466 a return statement. This can lead to spurious warnings about
7467 control reaching the end of a non-void function when it is
7468 inlined. Note that we are calling block_may_fallthru with
7469 language specific tree nodes; this works because
7470 block_may_fallthru returns true when given something it does not
7471 understand. */
7475 {
7478 }
7480 ;
7482 {
7486 else
7497 }
7506 }
7508 /* A helper routine for c_process_expr_stmt and c_finish_stmt_expr. */
7510 static void
7512 {
7514 ;
7516 {
7520 }
7521 else
7523 }
7525 /* Process an expression as if it were a complete statement. Emit
7526 diagnostics, but do not call ADD_STMT. */
7528 tree
7530 {
7542 /* If we're not processing a statement expression, warn about unused values.
7543 Warnings for statement expressions will be emitted later, once we figure
7544 out which is the result. */
7549 /* If the expression is not of a type to which we cannot assign a line
7550 number, wrap the thing in a no-op NOP_EXPR. */
7558 }
7560 /* Emit an expression as a statement. */
7562 tree
7564 {
7567 else
7569 }
7571 /* Do the opposite and emit a statement as an expression. To begin,
7572 create a new binding level and return it. */
7574 tree
7576 {
7577 tree ret;
7581 /* We must force a BLOCK for this level so that, if it is not expanded
7582 later, there is a way to turn off the entire subtree of blocks that
7583 are contained in it. */
7587 {
7590 }
7594 {
7596 }
7603 /* Mark the current statement list as belonging to a statement list. */
7607 }
7609 tree
7611 {
7618 {
7621 }
7622 /* It is no longer possible to jump to labels defined within this
7623 statement expression. */
7627 {
7629 }
7630 /* It is again possible to define labels with a goto just outside
7631 this statement expression. */
7635 {
7638 }
7641 else
7646 /* Locate the last statement in BODY. See c_end_compound_stmt
7647 about always returning a BIND_EXPR. */
7651 continue_searching:
7653 {
7654 tree_stmt_iterator i;
7656 /* This can happen with degenerate cases like ({ }). No value. */
7660 /* If we're supposed to generate side effects warnings, process
7661 all of the statements except the last. */
7663 {
7666 }
7667 else
7671 }
7673 /* If the end of the list is exception related, then the list was split
7674 by a call to push_cleanup. Continue searching. */
7677 {
7681 }
7683 /* In the case that the BIND_EXPR is not necessary, return the
7684 expression out from inside it. */
7688 {
7689 /* Do not warn if the return value of a statement expression is
7690 unused. */
7694 }
7696 /* Extract the type of said expression. */
7699 /* If we're not returning a value at all, then the BIND_EXPR that
7700 we already have is a fine expression to return. */
7704 /* Now that we've located the expression containing the value, it seems
7705 silly to make voidify_wrapper_expr repeat the process. Create a
7706 temporary of the appropriate type and stick it in a TARGET_EXPR. */
7709 /* Unwrap a no-op NOP_EXPR as added by c_finish_expr_stmt. This avoids
7710 tree_expr_nonnegative_p giving up immediately. */
7720 }
7722 /* Begin the scope of an identifier of variably modified type, scope
7723 number SCOPE. Jumping from outside this scope to inside it is not
7724 permitted. */
7726 void
7728 {
7734 /* At file_scope, we don't have to do any processing. */
7743 {
7745 }
7752 }
7754 /* End a scope which may contain identifiers of variably modified
7755 type, scope number SCOPE. */
7757 void
7759 {
7764 /* We may have a number of nested scopes of identifiers with
7765 variably modified type, all at this depth. Pop each in turn. */
7767 {
7770 /* It is no longer possible to jump to labels defined within this
7771 scope. */
7775 {
7777 }
7778 /* It is again possible to define labels with a goto just outside
7779 this scope. */
7783 {
7786 }
7789 else
7793 }
7794 }
7795 \f
7796 /* Begin and end compound statements. This is as simple as pushing
7797 and popping new statement lists from the tree. */
7799 tree
7801 {
7806 }
7808 tree
7810 {
7814 {
7818 }
7823 /* If this compound statement is nested immediately inside a statement
7824 expression, then force a BIND_EXPR to be created. Otherwise we'll
7825 do the wrong thing for ({ { 1; } }) or ({ 1; { } }). In particular,
7826 STATEMENT_LISTs merge, and thus we can lose track of what statement
7827 was really last. */
7831 {
7834 }
7837 }
7839 /* Queue a cleanup. CLEANUP is an expression/statement to be executed
7840 when the current scope is exited. EH_ONLY is true when this is not
7841 meant to apply to normal control flow transfer. */
7843 void
7845 {
7857 }
7858 \f
7859 /* Build a binary-operation expression without default conversions.
7860 CODE is the kind of expression to build.
7861 This function differs from `build' in several ways:
7862 the data type of the result is computed and recorded in it,
7863 warnings are generated if arg data types are invalid,
7864 special handling for addition and subtraction of pointers is known,
7865 and some optimization is done (operations on narrow ints
7866 are done in the narrower type when that gives the same result).
7867 Constant folding is also done before the result is returned.
7869 Note that the operands will never have enumeral types, or function
7870 or array types, because either they will have the default conversions
7871 performed or they have both just been converted to some other type in which
7872 the arithmetic is to be done. */
7874 tree
7877 {
7883 /* Expression code to give to the expression when it is built.
7884 Normally this is CODE, which is what the caller asked for,
7885 but in some special cases we change it. */
7888 /* Data type in which the computation is to be performed.
7889 In the simplest cases this is the common type of the arguments. */
7892 /* Nonzero means operands have already been type-converted
7893 in whatever way is necessary.
7894 Zero means they need to be converted to RESULT_TYPE. */
7897 /* Nonzero means create the expression with this type, rather than
7898 RESULT_TYPE. */
7901 /* Nonzero means after finally constructing the expression
7902 convert it to this type. */
7905 /* Nonzero if this is an operation like MIN or MAX which can
7906 safely be computed in short if both args are promoted shorts.
7907 Also implies COMMON.
7908 -1 indicates a bitwise operation; this makes a difference
7909 in the exact conditions for when it is safe to do the operation
7910 in a narrower mode. */
7913 /* Nonzero if this is a comparison operation;
7914 if both args are promoted shorts, compare the original shorts.
7915 Also implies COMMON. */
7918 /* Nonzero if this is a right-shift operation, which can be computed on the
7919 original short and then promoted if the operand is a promoted short. */
7922 /* Nonzero means set RESULT_TYPE to the common type of the args. */
7925 /* True means types are compatible as far as ObjC is concerned. */
7929 {
7932 }
7933 else
7934 {
7937 }
7942 /* The expression codes of the data types of the arguments tell us
7943 whether the arguments are integers, floating, pointers, etc. */
7947 /* Strip NON_LVALUE_EXPRs, etc., since we aren't using as an lvalue. */
7951 /* If an error was already reported for one of the arguments,
7952 avoid reporting another error. */
7959 {
7962 }
7967 {
7969 /* Handle the pointer + int case. */
7974 else
7979 /* Subtraction of two similar pointers.
7980 We must subtract them as integers, then divide by object size. */
7984 /* Handle pointer minus int. Just like pointer plus int. */
7987 else
8008 {
8019 else
8020 /* Although it would be tempting to shorten always here, that
8021 loses on some targets, since the modulo instruction is
8022 undefined if the quotient can't be represented in the
8023 computation mode. We shorten only if unsigned or if
8024 dividing by something we know != -1. */
8029 }
8037 /* Allow vector types which are not floating point types. */
8050 {
8051 /* Although it would be tempting to shorten always here, that loses
8052 on some targets, since the modulo instruction is undefined if the
8053 quotient can't be represented in the computation mode. We shorten
8054 only if unsigned or if dividing by something we know != -1. */
8059 }
8073 {
8074 /* Result of these operations is always an int,
8075 but that does not mean the operands should be
8076 converted to ints! */
8081 }
8084 /* Shift operations: result has same type as first operand;
8085 always convert second operand to int.
8086 Also set SHORT_SHIFT if shifting rightward. */
8091 {
8093 {
8096 else
8097 {
8103 }
8104 }
8106 /* Use the type of the value to be shifted. */
8108 /* Convert the shift-count to an integer, regardless of size
8109 of value being shifted. */
8112 /* Avoid converting op1 to result_type later. */
8114 }
8120 {
8122 {
8128 }
8130 /* Use the type of the value to be shifted. */
8132 /* Convert the shift-count to an integer, regardless of size
8133 of value being shifted. */
8136 /* Avoid converting op1 to result_type later. */
8138 }
8146 /* Result of comparison is always int,
8147 but don't convert the args to int! */
8155 {
8158 /* Anything compares with void *. void * compares with anything.
8159 Otherwise, the targets must be compatible
8160 and both must be object or both incomplete. */
8164 {
8165 /* op0 != orig_op0 detects the case of something
8166 whose value is 0 but which isn't a valid null ptr const. */
8171 }
8173 {
8178 }
8179 else
8180 /* Avoid warning about the volatile ObjC EH puts on decls. */
8186 }
8188 {
8194 }
8196 {
8202 }
8204 {
8207 }
8209 {
8212 }
8226 {
8228 {
8236 }
8237 else
8238 {
8241 }
8242 }
8244 {
8248 }
8250 {
8254 }
8256 {
8259 }
8261 {
8264 }
8269 }
8278 {
8281 }
8285 &&
8288 {
8292 {
8296 }
8298 /* For certain operations (which identify themselves by shorten != 0)
8299 if both args were extended from the same smaller type,
8300 do the arithmetic in that type and then extend.
8302 shorten !=0 and !=1 indicates a bitwise operation.
8303 For them, this optimization is safe only if
8304 both args are zero-extended or both are sign-extended.
8305 Otherwise, we might change the result.
8306 Eg, (short)-1 | (unsigned short)-1 is (int)-1
8307 but calculated in (unsigned short) it would be (unsigned short)-1. */
8310 {
8314 tree type;
8316 /* Cast OP0 and OP1 to RESULT_TYPE. Doing so prevents
8317 excessive narrowing when we call get_narrower below. For
8318 example, suppose that OP0 is of unsigned int extended
8319 from signed char and that RESULT_TYPE is long long int.
8320 If we explicitly cast OP0 to RESULT_TYPE, OP0 would look
8321 like
8323 (long long int) (unsigned int) signed_char
8325 which get_narrower would narrow down to
8327 (unsigned int) signed char
8329 If we do not cast OP0 first, get_narrower would return
8330 signed_char, which is inconsistent with the case of the
8331 explicit cast. */
8338 /* UNS is 1 if the operation to be done is an unsigned one. */
8343 /* Handle the case that OP0 (or OP1) does not *contain* a conversion
8344 but it *requires* conversion to FINAL_TYPE. */
8355 /* Now UNSIGNED0 is 1 if ARG0 zero-extends to FINAL_TYPE. */
8357 /* For bitwise operations, signedness of nominal type
8358 does not matter. Consider only how operands were extended. */
8362 /* Note that in all three cases below we refrain from optimizing
8363 an unsigned operation on sign-extended args.
8364 That would not be valid. */
8366 /* Both args variable: if both extended in same way
8367 from same width, do it in that width.
8368 Do it unsigned if args were zero-extended. */
8375 result_type
8376 = c_common_signed_or_unsigned_type
8382 && (type
8392 && (type
8398 }
8400 /* Shifts can be shortened if shifting right. */
8403 {
8413 /* We can shorten only if the shift count is less than the
8414 number of bits in the smaller type size. */
8416 /* We cannot drop an unsigned shift after sign-extension. */
8418 {
8419 /* Do an unsigned shift if the operand was zero-extended. */
8420 result_type
8423 /* Convert value-to-be-shifted to that type. */
8427 }
8428 }
8430 /* Comparison operations are shortened too but differently.
8431 They identify themselves by setting short_compare = 1. */
8434 {
8435 /* Don't write &op0, etc., because that would prevent op0
8436 from being kept in a register.
8437 Instead, make copies of the our local variables and
8438 pass the copies by reference, then copy them back afterward. */
8441 tree val
8452 {
8464 /* Give warnings for comparisons between signed and unsigned
8465 quantities that may fail.
8467 Do the checking based on the original operand trees, so that
8468 casts will be considered, but default promotions won't be.
8470 Do not warn if the comparison is being done in a signed type,
8471 since the signed type will only be chosen if it can represent
8472 all the values of the unsigned type. */
8475 /* Do not warn if both operands are the same signedness. */
8478 else
8479 {
8485 else
8488 /* Do not warn if the signed quantity is an
8489 unsuffixed integer literal (or some static
8490 constant expression involving such literals or a
8491 conditional expression involving such literals)
8492 and it is non-negative. */
8495 /* Do not warn if the comparison is an equality operation,
8496 the unsigned quantity is an integral constant, and it
8497 would fit in the result if the result were signed. */
8500 && int_fits_type_p
8503 /* Do not warn if the unsigned quantity is an enumeration
8504 constant and its maximum value would fit in the result
8505 if the result were signed. */
8508 && int_fits_type_p
8512 else
8514 }
8516 /* Warn if two unsigned values are being compared in a size
8517 larger than their original size, and one (and only one) is the
8518 result of a `~' operator. This comparison will always fail.
8520 Also warn if one operand is a constant, and the constant
8521 does not have all bits set that are set in the ~ operand
8522 when it is extended. */
8526 {
8530 else
8535 {
8536 tree primop;
8541 {
8545 }
8546 else
8547 {
8551 }
8556 {
8560 }
8561 }
8568 }
8569 }
8570 }
8571 }
8573 /* At this point, RESULT_TYPE must be nonzero to avoid an error message.
8574 If CONVERTED is zero, both args will be converted to type RESULT_TYPE.
8575 Then the expression will be built.
8576 It will be given type FINAL_TYPE if that is nonzero;
8577 otherwise, it will be given type RESULT_TYPE. */
8580 {
8583 }
8586 {
8592 /* This can happen if one operand has a vector type, and the other
8593 has a different type. */
8596 }
8601 {
8602 /* Treat expressions in initializers specially as they can't trap. */
8604 build_type,
8612 }
8613 }
8616 /* Convert EXPR to be a truth-value, validating its type for this
8617 purpose. */
8619 tree
8621 {
8623 {
8641 }
8643 /* ??? Should we also give an error for void and vectors rather than
8644 leaving those to give errors later? */
8646 }
8647 \f
8649 /* Convert EXPR to a contained DECL, updating *TC, *TI and *SE as
8650 required. */
8652 tree
8654 {
8656 {
8658 /* Executing a compound literal inside a function reinitializes
8659 it. */
8663 }
8664 else
8666 }
8667 \f
8668 /* Like c_begin_compound_stmt, except force the retention of the BLOCK. */
8670 tree
8672 {
8673 tree block;
8679 }
8681 /* Generate OMP_PARALLEL, with CLAUSES and BLOCK as its compound statement. */
8683 tree
8685 {
8686 tree stmt;
8696 }
8698 /* Like c_begin_compound_stmt, except force the retention of the BLOCK. */
8700 tree
8702 {
8703 tree block;
8709 }
8711 /* Generate OMP_TASK, with CLAUSES and BLOCK as its compound statement. */
8713 tree
8715 {
8716 tree stmt;
8726 }
8728 /* For all elements of CLAUSES, validate them vs OpenMP constraints.
8729 Remove any elements from the list that are invalid. */
8731 tree
8733 {
8744 {
8750 {
8768 {
8771 }
8773 {
8778 {
8800 }
8802 {
8806 }
8807 }
8818 {
8821 }
8824 check_dup_generic:
8827 {
8830 }
8834 {
8837 }
8838 else
8848 {
8851 }
8854 {
8857 }
8858 else
8868 {
8871 }
8874 {
8877 }
8878 else
8895 }
8898 {
8902 {
8906 }
8909 {
8915 {
8926 }
8928 {
8932 }
8933 }
8934 }
8938 else
8940 }
8944 }
8946 /* Make a variant type in the proper way for C/C++, propagating qualifiers
8947 down to the element type of an array. */
8949 tree
8951 {
8956 {
8957 tree t;
8959 type_quals);
8961 /* See if we already have an identically qualified type. */
8963 {
8970 }
8972 {
8983 {
8984 tree unqualified_canon
8990 }
8991 else
8993 }
8995 }
8997 /* A restrict-qualified pointer type must be a pointer to object or
8998 incomplete type. Note that the use of POINTER_TYPE_P also allows
8999 REFERENCE_TYPEs, which is appropriate for C++. */
9003 {
9006 }
9009 }