| blob | d1c17f00fee84a3623281c493176233a46eec7bf |
1 /* Primary expression subroutines
2 Copyright (C) 2000-2015 Free Software Foundation, Inc.
3 Contributed by Andy Vaught
5 This file is part of GCC.
7 GCC is free software; you can redistribute it and/or modify it under
8 the terms of the GNU General Public License as published by the Free
9 Software Foundation; either version 3, or (at your option) any later
10 version.
12 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
13 WARRANTY; without even the implied warranty of MERCHANTABILITY or
14 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
15 for more details.
17 You should have received a copy of the GNU General Public License
18 along with GCC; see the file COPYING3. If not see
19 <http://www.gnu.org/licenses/>. */
33 /* Matches a kind-parameter expression, which is either a named
34 symbolic constant or a nonnegative integer constant. If
35 successful, sets the kind value to the correct integer.
36 The argument 'is_iso_c' signals whether the kind is an ISO_C_BINDING
37 symbol like e.g. 'c_int'. */
39 static match
41 {
45 match m;
81 }
84 /* Get a trailing kind-specification for non-character variables.
85 Returns:
86 * the integer kind value or
87 * -1 if an error was generated,
88 * -2 if no kind was found.
89 The argument 'is_iso_c' signals whether the kind is an ISO_C_BINDING
90 symbol like e.g. 'c_int'. */
92 static int
94 {
96 match m;
108 }
111 /* Given a character and a radix, see if the character is a valid
112 digit in that radix. */
114 int
116 {
120 {
139 }
142 }
145 /* Match the digit string part of an integer if signflag is not set,
146 the signed digit string part if signflag is set. If the buffer
147 is NULL, we just count characters for the resolution pass. Returns
148 the number of characters matched, -1 for no match. */
150 static int
152 {
153 locus old_loc;
161 {
166 length++;
167 }
172 length++;
177 {
186 length++;
187 }
192 }
195 /* Match an integer (digit string and optional kind).
196 A sign will be accepted if signflag is set. */
198 static match
200 {
202 locus old_loc;
231 {
234 }
240 {
246 }
250 }
253 /* Match a Hollerith constant. */
255 static match
257 {
258 locus old_loc;
269 {
275 {
278 }
280 {
284 }
286 {
290 }
291 else
292 {
297 /* Calculate padding needed to fit default integer memory. */
303 {
306 {
310 }
313 }
315 /* Now pad with blanks and end with a null char. */
325 }
326 }
332 cleanup:
335 }
338 /* Match a binary, octal or hexadecimal constant that can be found in
339 a DATA statement. The standard permits b'010...', o'73...', and
340 z'a1...' where b, o, and z can be capital letters. This function
341 also accepts postfixed forms of the constants: '01...'b, '73...'o,
342 and 'a1...'z. An additional extension is the use of x for z. */
344 static match
346 {
357 {
368 /* Fall through. */
374 /* Fall through. */
382 }
384 /* No whitespace allowed here. */
401 {
404 }
407 {
410 }
413 {
415 {
423 /* Fall through. */
429 }
434 }
446 /* In section 5.2.5 and following C567 in the Fortran 2003 standard, we find
447 "If a data-stmt-constant is a boz-literal-constant, the corresponding
448 variable shall be of type integer. The boz-literal-constant is treated
449 as if it were an int-literal-constant with a kind-param that specifies
450 the representation method with the largest decimal exponent range
451 supported by the processor." */
456 /* Mark as boz variable. */
460 {
464 }
474 backup:
477 }
480 /* Match a real constant of some sort. Allow a signed constant if signflag
481 is nonzero. */
483 static match
485 {
505 {
511 }
513 /* Scan significand. */
515 {
517 {
521 /* Check to see if "." goes with a following operator like
522 ".eq.". */
527 {
531 }
539 }
542 {
545 }
548 }
556 {
562 "Extension: exponent-letter %<q%> in real-literal-constant "
564 }
566 /* Scan exponent. */
568 count++;
573 count++;
574 }
577 {
580 }
583 {
585 count++;
586 }
588 done:
589 /* Check that we have a numeric constant. */
591 {
594 }
596 /* Convert the number. */
606 {
609 }
611 /* Hack for mpfr_set_str(). */
613 {
616 else
618 p++;
623 }
630 {
633 {
637 }
641 {
648 }
651 {
658 }
663 {
667 }
669 /* The maximum possible real kind type parameter is 16. First, try
670 that for the kind, then fallback to trying kind=10 (Intel 80 bit)
671 extended precision. If neither value works, just given up. */
674 {
677 {
681 }
682 }
690 {
697 }
700 {
707 }
710 {
713 }
714 }
722 {
737 }
739 /* Warn about trailing digits which suggest the user added too many
740 trailing digits, which may cause the appearance of higher pecision
741 than the kind kan support.
743 This is done by replacing the rightmost non-zero digit with zero
744 and comparing with the original value. If these are equal, we
745 assume the user supplied more digits than intended (or forgot to
746 convert to the correct kind).
747 */
750 {
751 mpfr_t r;
761 {
766 {
770 }
771 }
774 {
788 }
789 }
794 cleanup:
797 }
800 /* Match a substring reference. */
802 static match
804 {
806 locus old_loc;
808 match m;
820 {
823 else
827 {
830 }
835 }
838 {
841 else
852 }
854 /* Optimize away the (:) reference. */
857 else
858 {
869 }
874 syntax:
878 cleanup:
884 }
887 /* Reads the next character of a string constant, taking care to
888 return doubled delimiters on the input as a single instance of
889 the delimiter.
891 Special return values for "ret" argument are:
892 -1 End of the string, as determined by the delimiter
893 -2 Unterminated string detected
895 Backslash codes are also expanded at this time. */
897 static gfc_char_t
899 {
900 locus old_locus;
901 gfc_char_t c;
907 {
910 }
913 {
921 }
935 }
938 /* Special case of gfc_match_name() that matches a parameter kind name
939 before a string constant. This takes case of the weird but legal
940 case of:
942 kind_____'string'
944 where kind____ is a parameter. gfc_match_name() will happily slurp
945 up all the underscores, which leads to problems. If we return
946 MATCH_YES, the parse pointer points to the final underscore, which
947 is not part of the name. We never return MATCH_ERROR-- errors in
948 the name will be detected later. */
950 static match
952 {
953 locus old_loc;
966 {
971 {
975 {
979 }
980 }
990 }
993 }
996 /* See if the current input matches a character constant. Lots of
997 contortions have to be done to match the kind parameter which comes
998 before the actual string. The main consideration is that we don't
999 want to error out too quickly. For example, we don't actually do
1000 any validation of the kinds until we have actually seen a legal
1001 delimiter. Using match_kind_param() generates errors too quickly. */
1003 static match
1005 {
1012 match m;
1021 {
1025 }
1028 {
1032 {
1037 }
1039 }
1040 else
1041 {
1055 }
1058 {
1061 }
1075 {
1078 {
1081 }
1083 }
1086 {
1089 }
1091 got_delim:
1092 /* Scan the string into a block of memory by first figuring out how
1093 long it is, allocating the structure, then re-reading it. This
1094 isn't particularly efficient, but string constants aren't that
1095 common in most code. TODO: Use obstacks? */
1101 {
1106 {
1110 }
1112 length++;
1113 }
1115 /* Peek at the next character to see if it is a b, o, z, or x for the
1116 postfixed BOZ literal constants. */
1125 /* We disable the warning for the following loop as the warning has already
1126 been printed in the loop above. */
1132 {
1136 {
1141 }
1144 }
1160 no_match:
1163 }
1166 /* Match a .true. or .false. Returns 1 if a .true. was found,
1167 0 if a .false. was found, and -1 otherwise. */
1168 static int
1170 {
1175 {
1178 {
1184 /* Matched ".false.". */
1186 }
1188 {
1193 /* Matched ".true.". */
1195 }
1196 }
1199 }
1201 /* Match a .true. or .false. */
1203 static match
1205 {
1220 {
1223 }
1230 }
1233 /* Match a real or imaginary part of a complex constant that is a
1234 symbolic constant. */
1236 static match
1238 {
1242 match m;
1252 {
1255 }
1261 {
1264 }
1267 {
1270 }
1277 {
1296 }
1301 error:
1304 }
1307 /* Match a real or imaginary part of a complex number. */
1309 static match
1311 {
1312 match m;
1323 }
1326 /* Try to match a complex constant. */
1328 static match
1330 {
1332 gfc_error_buffer old_error;
1333 gfc_typespec target;
1334 locus old_loc;
1336 match m;
1349 {
1352 }
1355 {
1359 }
1361 /* If m is error, then something was wrong with the real part and we
1362 assume we have a complex constant because we've seen the ','. An
1363 ambiguous case here is the start of an iterator list of some
1364 sort. These sort of lists are matched prior to coming here. */
1367 {
1370 }
1381 {
1382 /* Give the matcher for implied do-loops a chance to run. This
1383 yields a much saner error message for (/ (i, 4=i, 6) /). */
1385 {
1388 }
1389 else
1391 }
1396 /* Decide on the kind of this complex number. */
1398 {
1401 else
1403 }
1404 else
1405 {
1408 else
1410 }
1429 syntax:
1433 cleanup:
1440 }
1443 /* Match constants in any of several forms. Returns nonzero for a
1444 match, zero for no match. */
1446 match
1448 {
1449 match m;
1480 }
1483 /* This checks if a symbol is the return value of an encompassing function.
1484 Function nesting can be maximally two levels deep, but we may have
1485 additional local namespaces like BLOCK etc. */
1487 bool
1489 {
1493 {
1497 }
1499 }
1502 /* Match a single actual argument value. An actual argument is
1503 usually an expression, but can also be a procedure name. If the
1504 argument is a single name, it is not always possible to tell
1505 whether the name is a dummy procedure or not. We treat these cases
1506 by creating an argument that looks like a dummy procedure and
1507 fixing things later during resolution. */
1509 static match
1511 {
1522 {
1540 /* Handle error elsewhere. */
1542 /* Eliminate a couple of common cases where we know we don't
1543 have a function argument. */
1545 {
1548 }
1549 else
1550 {
1560 {
1565 }
1567 /* If the symbol is a function with itself as the result and
1568 is being defined, then we have a variable. */
1570 {
1577 {
1586 }
1587 }
1588 }
1598 }
1602 }
1605 /* Match a keyword argument. */
1607 static match
1609 {
1612 locus name_locus;
1613 match m;
1621 {
1624 }
1630 /* Make sure this name has not appeared yet. */
1633 {
1636 {
1640 }
1641 }
1646 cleanup:
1649 }
1652 /* Match an argument list function, such as %VAL. */
1654 static match
1656 {
1658 locus old_locus;
1659 match m;
1664 {
1667 }
1674 {
1676 {
1679 {
1682 }
1685 {
1688 }
1691 {
1694 }
1698 }
1699 }
1702 {
1705 }
1712 {
1715 }
1719 cleanup:
1722 }
1725 /* Matches an actual argument list of a function or subroutine, from
1726 the opening parenthesis to the closing parenthesis. The argument
1727 list is assumed to allow keyword arguments because we don't know if
1728 the symbol associated with the procedure has an implicit interface
1729 or not. We make sure keywords are unique. If sub_flag is set,
1730 we're matching the argument list of a subroutine. */
1732 match
1734 {
1738 locus old_loc;
1739 match m;
1753 matching_actual_arglist++;
1756 {
1759 else
1760 {
1763 }
1766 {
1779 }
1781 /* After the first keyword argument is seen, the following
1782 arguments must also have keywords. */
1784 {
1790 {
1793 }
1795 }
1796 else
1797 {
1798 /* Try an argument list function, like %VAL. */
1803 /* See if we have the first keyword argument. */
1805 {
1811 }
1814 {
1815 /* Try for a non-keyword argument. */
1821 }
1822 }
1825 next:
1830 }
1833 matching_actual_arglist--;
1836 syntax:
1839 cleanup:
1842 matching_actual_arglist--;
1844 }
1847 /* Used by gfc_match_varspec() to extend the reference list by one
1848 element. */
1852 {
1855 else
1856 {
1861 }
1864 }
1867 /* Match any additional specifications associated with the current
1868 variable like member references or substrings. If equiv_flag is
1869 set we only match stuff that is allowed inside an EQUIVALENCE
1870 statement. sub_flag tells whether we expect a type-bound procedure found
1871 to be a subroutine as part of CALL or a FUNCTION. For procedure pointer
1872 components, 'ppc_arg' determines whether the PPC may be called (with an
1873 argument list), or whether it may just be referred to as a pointer. */
1875 match
1878 {
1883 match m;
1891 {
1895 {
1899 }
1903 {
1907 }
1908 }
1910 /* For associate names, we may not yet know whether they are arrays or not.
1911 Thus if we have one and parentheses follow, we have to assume that it
1912 actually is one for now. The final decision will be made at
1913 resolution time, of course. */
1925 && !(gfc_matching_procptr_assignment
1930 {
1936 /* In EQUIVALENCE, we don't know yet whether we are seeing
1937 an array, character variable or array of character
1938 variables. We'll leave the decision till resolve time. */
1944 else
1954 {
1961 }
1962 }
1974 {
1977 }
1980 {
1984 }
1993 {
2005 else
2009 {
2025 else
2037 else
2045 {
2048 else
2049 {
2052 }
2053 }
2056 }
2071 {
2072 /* Procedure pointer component call: Look for argument list. */
2080 {
2084 }
2090 }
2093 {
2101 }
2104 {
2109 equiv_flag,
2113 }
2120 }
2122 check_substring:
2125 {
2127 {
2131 }
2132 }
2135 {
2138 {
2142 else
2155 {
2158 }
2163 }
2164 }
2166 /* F2008, C727. */
2168 {
2171 }
2174 }
2177 /* Given an expression that is a variable, figure out what the
2178 ultimate variable's type and attribute is, traversing the reference
2179 structures if necessary.
2181 This subroutine is trickier than it looks. We start at the base
2182 symbol and store the attribute. Component references load a
2183 completely new attribute.
2185 A couple of rules come into play. Subobjects of targets are always
2186 targets themselves. If we see a component that goes through a
2187 pointer, then the expression must also be a target, since the
2188 pointer is associated with something (if it isn't core will soon be
2189 dumped). If we see a full part or section of an array, the
2190 expression is also an array.
2192 We can have at most one full array reference. */
2194 symbol_attribute
2196 {
2198 symbol_attribute attr;
2210 {
2215 }
2216 else
2217 {
2222 }
2233 {
2237 {
2248 /* Handle coarrays. */
2254 /* If any of start, end or stride is not integer, there will
2255 already have been an error issued. */
2257 {
2262 ||
2265 ||
2270 }
2273 }
2281 {
2283 /* Don't set the string length if a substring reference
2284 follows. */
2288 }
2291 {
2295 }
2296 else
2297 {
2301 }
2310 }
2320 }
2323 /* Return the attribute from a general expression. */
2325 symbol_attribute
2327 {
2328 symbol_attribute attr;
2331 {
2340 {
2344 {
2348 }
2349 }
2350 else
2353 /* TODO: NULL() returns pointers. May have to take care of this
2354 here. */
2361 }
2364 }
2367 /* Match a structure constructor. The initial symbol has already been
2368 seen. */
2371 {
2374 locus where;
2376 }
2377 gfc_structure_ctor_component;
2379 #define gfc_get_structure_ctor_component() XCNEW (gfc_structure_ctor_component)
2381 static void
2383 {
2387 }
2390 /* Translate the component list into the actual constructor by sorting it in
2391 the order required; this also checks along the way that each and every
2392 component actually has an initializer and handles default initializers
2393 for components without explicit value given. */
2394 static bool
2397 {
2402 {
2406 /* Try to find the initializer for the current component by name. */
2409 {
2413 }
2415 /* If an extension, try building the parent derived type by building
2416 a value expression for the parent derived type and calling self. */
2418 {
2427 {
2430 }
2434 }
2436 /* If it was not found, try the default initializer if there's any;
2437 otherwise, it's an error unless this is a deferred parameter. */
2439 {
2441 {
2446 }
2450 {
2452 "allocatable component '%qs' given in the "
2455 }
2457 {
2461 }
2462 }
2463 else
2466 /* Add the value to the constructor chain built. */
2469 /* Remove the entry from the component list. We don't want the expression
2470 value to be free'd, so set it to NULL. */
2472 {
2476 }
2477 }
2479 }
2482 bool
2486 {
2492 locus old_locus;
2499 else
2505 {
2509 }
2514 {
2519 else
2520 {
2523 }
2525 {
2533 }
2534 else
2535 {
2536 /* Components without name are not allowed after the first named
2537 component initializer! */
2539 {
2545 else
2550 }
2553 }
2555 /* Find the current component in the structure definition and check
2556 its access is not private. */
2559 else
2560 {
2564 }
2566 /* Here we can check if a component name is given which does not
2567 correspond to any component of the defined structure. */
2576 /* Check if this component is already given a value. */
2579 {
2582 {
2588 }
2589 }
2591 /* F2008, R457/C725, for PURE C1283. */
2594 {
2599 }
2601 /* If not explicitly a parent constructor, gather up the components
2602 and build one. */
2607 ||
2609 {
2624 {
2627 }
2628 }
2637 }
2642 /* No component should be left, as this should have caused an error in the
2643 loop constructing the component-list (name that does not correspond to any
2644 component in the structure definition). */
2646 {
2648 {
2652 }
2654 }
2655 else
2659 {
2664 }
2665 else
2666 {
2672 }
2679 cleanup:
2683 {
2687 }
2691 }
2694 match
2696 {
2697 match m;
2714 {
2717 }
2720 {
2723 }
2727 }
2730 /* If the symbol is an implicit do loop index and implicitly typed,
2731 it should not be host associated. Provide a symtree from the
2732 current namespace. */
2733 static match
2735 {
2741 {
2747 }
2749 }
2752 /* Procedure pointer as function result: Replace the function symbol by the
2753 auto-generated hidden result variable named "ppr@". */
2755 static bool
2757 {
2758 /* Check for procedure pointer result variable. */
2765 {
2766 /* Automatic replacement with "hidden" result variable. */
2771 }
2773 }
2776 /* Matches a variable name followed by anything that might follow it--
2777 array reference, argument list of a function, etc. */
2779 match
2781 {
2802 else
2814 /* If this is an implicit do loop index and implicitly typed,
2815 it should not be host associated. */
2824 {
2825 /* See if this is a directly recursive function call. */
2831 {
2833 "and so refers to the result variable. Use an "
2834 "explicit RESULT variable for direct recursion "
2837 }
2845 {
2851 }
2852 }
2864 {
2866 variable:
2876 /* A statement of the form "REAL, parameter :: a(0:10) = 1" will
2877 end up here. Unfortunately, sym->value->expr_type is set to
2878 EXPR_CONSTANT, and so the if () branch would be followed without
2879 the !sym->as check. */
2882 else
2883 {
2886 }
2894 /* Variable array references to derived type parameters cause
2895 all sorts of headaches in simplification. Treating such
2896 expressions as variable works just fine for all array
2897 references. */
2899 {
2914 }
2922 else
2926 /* If we're here, then the name is known to be the name of a
2927 procedure, yet it is not sure to be the name of a function. */
2930 /* Procedure Pointer Assignments. */
2931 procptr0:
2933 {
2936 /* Parse functions returning a procptr. */
2946 {
2949 }
2951 }
2954 {
2959 }
2961 /* At this point, the name has to be a non-statement function.
2962 If the name is the same as the current function being
2963 compiled, then we have a variable reference (to the function
2964 result) if the name is non-recursive. */
2972 {
2979 }
2981 /* Match a function reference. */
2982 function0:
2985 {
2989 else
2995 }
2998 {
3001 }
3022 {
3025 }
3027 /* Check here for the existence of at least one argument for the
3028 iso_c_binding functions C_LOC, C_FUNLOC, and C_ASSOCIATED. The
3029 argument(s) given will be checked in gfc_iso_c_func_interface,
3030 during resolution of the function call. */
3036 {
3037 /* make sure we were given a param */
3039 {
3043 }
3044 }
3054 /* Special case for derived type variables that get their types
3055 via an IMPLICIT statement. This can't wait for the
3056 resolution phase. */
3063 /* If the symbol has a (co)dimension attribute, the expression is a
3064 variable. */
3067 {
3069 {
3072 }
3079 }
3084 {
3086 {
3089 }
3096 }
3098 /* Name is not an array, so we peek to see if a '(' implies a
3099 function call or a substring reference. Otherwise the
3100 variable is just a scalar. */
3104 {
3105 /* Assume a scalar variable */
3111 {
3114 }
3116 /*FIXME:??? gfc_match_varspec does set this for us: */
3120 }
3122 /* See if this is a function reference with a keyword argument
3123 as first argument. We do this because otherwise a spurious
3124 symbol would end up in the symbol table. */
3134 {
3135 /* Try to figure out whether we're dealing with a character type.
3136 We're peeking ahead here, because we don't want to call
3137 match_substring if we're dealing with an implicitly typed
3138 non-character variable. */
3141 {
3145 }
3147 /* See if this could possibly be a substring reference of a name
3148 that we're not sure is a variable yet. */
3152 {
3159 {
3162 }
3166 {
3169 }
3176 }
3177 }
3179 /* Give up, assume we have a function. */
3187 {
3190 }
3199 {
3202 }
3204 /* If our new function returns a character, array or structure
3205 type, it might have subsequent references. */
3213 generic_function:
3221 {
3224 }
3232 }
3235 {
3238 }
3239 else
3243 }
3246 /* Match a variable, i.e. something that can be assigned to. This
3247 starts as a symbol, can be a structure component or an array
3248 reference. It can be a function if the function doesn't have a
3249 separate RESULT variable. If the symbol has not been previously
3250 seen, we assume it is a variable.
3252 This function is called by two interface functions:
3253 gfc_match_variable, which has host_flag = 1, and
3254 gfc_match_equiv_variable, with host_flag = 0, to restrict the
3255 match of the symbol to the local scope. */
3257 static match
3259 {
3263 locus where;
3264 match m;
3266 /* Since nothing has any business being an lvalue in a module
3267 specification block, an interface block or a contains section,
3268 we force the changed_symbols mechanism to work by setting
3269 host_flag to 0. This prevents valid symbols that have the name
3270 of keywords, such as 'end', being turned into variables by
3271 failed matching to assignments for, e.g., END INTERFACE. */
3285 /* If this is an implicit do loop index and implicitly typed,
3286 it should not be host associated. */
3295 {
3297 /* Everything is alright. */
3301 {
3310 /* If it is not a procedure, is not typed and is host associated,
3311 we cannot give it a flavor yet. */
3316 /* These are definitive indicators that this is a variable. */
3324 }
3329 {
3332 }
3333 /* Otherwise this is checked for and an error given in the
3334 variable definition context checks. */
3338 /* Check for a nonrecursive function result variable. */
3347 {
3348 /* If a function result is a derived type, then the derived
3349 type may still have to be resolved. */
3355 }
3361 /* Fall through to error */
3366 }
3368 /* Special case for derived type variables that get their types
3369 via an IMPLICIT statement. This can't wait for the
3370 resolution phase. */
3372 {
3377 else
3384 }
3393 /* Now see if we have to do more. */
3396 {
3399 }
3403 }
3406 match
3408 {
3410 }
3413 match
3415 {
3417 }