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1 /* Part of CPP library. (Macro and #define handling.)
2 Copyright (C) 1986-2014 Free Software Foundation, Inc.
3 Written by Per Bothner, 1994.
4 Based on CCCP program by Paul Rubin, June 1986
5 Adapted to ANSI C, Richard Stallman, Jan 1987
7 This program is free software; you can redistribute it and/or modify it
8 under the terms of the GNU General Public License as published by the
9 Free Software Foundation; either version 3, or (at your option) any
10 later version.
12 This program is distributed in the hope that it will be useful,
13 but WITHOUT ANY WARRANTY; without even the implied warranty of
14 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 GNU General Public License for more details.
17 You should have received a copy of the GNU General Public License
18 along with this program; see the file COPYING3. If not see
19 <http://www.gnu.org/licenses/>.
21 In other words, you are welcome to use, share and improve this program.
22 You are forbidden to forbid anyone else to use, share and improve
23 what you give them. Help stamp out software-hoarding! */
31 /* This structure represents the tokens of a macro argument. These
32 tokens can be macro themselves, in which case they can be either
33 expanded or unexpanded. When they are expanded, this data
34 structure keeps both the expanded and unexpanded forms. */
35 struct macro_arg
36 {
43 unexpanded tokens are stored. */
45 expanded tokens are
46 stored. */
47 };
49 /* The kind of macro tokens which the instance of
50 macro_arg_token_iter is supposed to iterate over. */
52 MACRO_ARG_TOKEN_NORMAL,
53 /* This is a macro argument token that got transformed into a string
54 litteral, e.g. #foo. */
55 MACRO_ARG_TOKEN_STRINGIFIED,
56 /* This is a token resulting from the expansion of a macro
57 argument that was itself a macro. */
58 MACRO_ARG_TOKEN_EXPANDED
59 };
61 /* An iterator over tokens coming from a function-like macro
62 argument. */
64 struct macro_arg_token_iter
65 {
66 /* Whether or not -ftrack-macro-expansion is used. */
68 /* The kind of token over which we are supposed to iterate. */
70 /* A pointer to the current token pointed to by the iterator. */
72 /* A pointer to the "full" location of the current token. If
73 -ftrack-macro-expansion is used this location tracks loci across
74 macro expansion. */
76 #ifdef ENABLE_CHECKING
77 /* The number of times the iterator went forward. This useful only
78 when checking is enabled. */
80 #endif
81 };
83 /* Macro expansion. */
123 static source_location macro_arg_token_iter_get_location
127 source_location **);
131 source_location *,
133 source_location,
134 source_location,
139 source_location *,
141 source_location,
142 source_location,
152 /* #define directive parsing and handling. */
164 source_location *);
171 /* Statistical counter tracking the number of macros that got
172 expanded. */
174 /* Statistical counter tracking the total number tokens resulting
175 from macro expansion. */
178 /* Emits a warning if NODE is a macro defined in the main file that
179 has not been used. */
180 int
183 {
185 {
192 }
195 }
197 /* Allocates and returns a CPP_STRING token, containing TEXT of length
198 LEN, after null-terminating it. TEXT must be in permanent storage. */
201 {
210 }
213 {
216 };
218 /* Helper function for builtin_macro. Returns the text generated by
219 a builtin macro. */
222 {
227 {
234 {
241 {
242 /* Initialize timestamp value of the assotiated file. */
245 {
246 /* Generate __TIMESTAMP__ string, that represents
247 the date and time of the last modification
248 of the current source file. The string constant
249 looks like "Sun Sep 16 01:03:52 1973". */
255 {
263 }
264 else
265 {
269 }
270 }
271 }
273 }
277 {
285 else
286 {
290 }
298 }
302 /* The line map depth counts the primary source as level 1, but
303 historically __INCLUDE_DEPTH__ has called the primary source
304 level 0. */
309 /* If __LINE__ is embedded in a macro, it must expand to the
310 line of the macro's invocation, not its definition.
311 Otherwise things like assert() will not work properly. */
318 /* __STDC__ has the value 1 under normal circumstances.
319 However, if (a) we are in a system header, (b) the option
320 stdc_0_in_system_headers is true (set by target config), and
321 (c) we are not in strictly conforming mode, then it has the
322 value 0. (b) and (c) are already checked in cpp_init_builtins. */
326 else
336 {
337 /* Allocate __DATE__ and __TIME__ strings from permanent
338 storage. We only do this once, and don't generate them
339 at init time, because time() and localtime() are very
340 slow on some systems. */
344 /* (time_t) -1 is a legitimate value for "number of seconds
345 since the Epoch", so we have to do a little dance to
346 distinguish that from a genuine error. */
353 {
364 }
365 else
366 {
372 }
373 }
377 else
387 }
390 {
391 /* 21 bytes holds all NUL-terminated unsigned 64-bit numbers. */
394 }
397 }
399 /* Convert builtin macros like __FILE__ to a token and push it on the
400 context stack. Also handles _Pragma, for which a new token may not
401 be created. Returns 1 if it generates a new token context, 0 to
402 return the token to the caller. LOC is the location of the expansion
403 point of the macro. */
404 static int
406 {
412 {
413 /* Don't interpret _Pragma within directives. The standard is
414 not clear on this, but to me this makes most sense. */
419 }
430 /* Set pfile->cur_token as required by _cpp_lex_direct. */
433 /* We should point to the expansion point of the builtin macro. */
436 {
437 /* We are tracking tokens resulting from macro expansion.
438 Create a macro line map and generate a virtual location for
439 the token resulting from the expansion of the built-in
440 macro. */
453 }
454 else
462 }
464 /* Copies SRC, of length LEN, to DEST, adding backslashes before all
465 backslashes and double quotes. DEST must be of sufficient size.
466 Returns a pointer to the end of the string. */
467 uchar *
469 {
471 {
475 {
478 }
479 else
481 }
484 }
486 /* Convert a token sequence ARG to a single string token according to
487 the rules of the ISO C #-operator. */
490 {
501 /* Loop, reading in the argument's tokens. */
503 {
507 {
513 }
523 /* Room for each char being written in octal, initial space and
524 final quote and NUL. */
531 {
535 }
537 /* Leading white space? */
539 {
544 }
548 {
554 }
555 else
559 backslash_count++;
560 else
562 }
564 /* Ignore the final \ of invalid string literals. */
566 {
569 dest--;
570 }
572 /* Commit the memory, including NUL, and return the token. */
577 }
579 /* Try to paste two tokens. On success, return nonzero. In any
580 case, PLHS is updated to point to the pasted token, which is
581 guaranteed to not have the PASTE_LEFT flag set. LOCATION is
582 the virtual location used for error reporting. */
583 static bool
586 {
595 /* Avoid comment headers, since they are still processed in stage 3.
596 It is simpler to insert a space here, rather than modifying the
597 lexer to ignore comments in some circumstances. Simply returning
598 false doesn't work, since we want to clear the PASTE_LEFT flag. */
601 /* In one obscure case we might see padding here. */
609 /* Set pfile->cur_token as required by _cpp_lex_direct. */
613 {
620 /* We have to remove the PASTE_LEFT flag from the old lhs, but
621 we want to keep the new location. */
627 /* Mandatory error for all apart from assembler. */
633 }
638 }
640 /* Handles an arbitrarily long sequence of ## operators, with initial
641 operand LHS. This implementation is left-associative,
642 non-recursive, and finishes a paste before handling succeeding
643 ones. If a paste fails, we back up to the RHS of the failing ##
644 operator before pushing the context containing the result of prior
645 successful pastes, with the effect that the RHS appears in the
646 output stream after the pasted LHS normally. */
647 static void
649 {
654 /* We are expanding a macro and we must have been called on a token
655 that appears at the left hand side of a ## operator. */
661 /* The caller must have called consume_next_token_from_context
662 right before calling us. That has incremented the pointer to
663 the current virtual location. So it now points to the location
664 of the token that comes right after *LHS. We want the
665 resulting pasted token to have the location of the current
666 *LHS, though. */
668 else
669 /* We are not tracking macro expansion. So the best virtual
670 location we can get here is the expansion point of the macro we
671 are currently expanding. */
674 do
675 {
676 /* Take the token directly from the current context. We can do
677 this, because we are in the replacement list of either an
678 object-like macro, or a function-like macro with arguments
679 inserted. In either case, the constraints to #define
680 guarantee we have at least one more token. */
686 {
687 /* So we are in presence of an extended token context, which
688 means that each token in this context has a virtual
689 location attached to it. So let's not forget to update
690 the pointer to the current virtual location of the
691 current token when we update the pointer to the current
692 token */
695 /* context->c.mc must be non-null, as if we were not in a
696 macro context, context->tokens_kind could not be equal to
697 TOKENS_KIND_EXTENDED. */
699 }
702 {
705 }
708 }
711 /* Put the resulting token in its own context. */
713 {
721 }
722 else
724 }
726 /* Returns TRUE if the number of arguments ARGC supplied in an
727 invocation of the MACRO referenced by NODE is valid. An empty
728 invocation to a macro with no parameters should pass ARGC as zero.
730 Note that MACRO cannot necessarily be deduced from NODE, in case
731 NODE was redefined whilst collecting arguments. */
732 bool
733 _cpp_arguments_ok (cpp_reader *pfile, cpp_macro *macro, const cpp_hashnode *node, unsigned int argc)
734 {
739 {
740 /* As an extension, variadic arguments are allowed to not appear in
741 the invocation at all.
742 e.g. #define debug(format, args...) something
743 debug("string");
745 This is exactly the same as if an empty variadic list had been
746 supplied - debug("string", ). */
749 {
751 {
754 "ISO C++11 requires at least one argument "
756 else
758 "ISO C99 requires at least one argument "
760 }
762 }
767 }
768 else
774 }
776 /* Reads and returns the arguments to a function-like macro
777 invocation. Assumes the opening parenthesis has been processed.
778 If there is an error, emits an appropriate diagnostic and returns
779 NULL. Each argument is terminated by a CPP_EOF token, for the
780 future benefit of expand_arg(). If there are any deferred
781 #pragma directives among macro arguments, store pointers to the
782 CPP_PRAGMA ... CPP_PRAGMA_EOL tokens into *PRAGMA_BUFF buffer.
784 What is returned is the buffer that contains the memory allocated
785 to hold the macro arguments. NODE is the name of the macro this
786 function is dealing with. If NUM_ARGS is non-NULL, *NUM_ARGS is
787 set to the actual number of macro arguments allocated in the
788 returned buffer. */
792 {
798 source_location virt_loc;
805 else
808 #define DEFAULT_NUM_TOKENS_PER_MACRO_ARG 50
809 #define ARG_TOKENS_EXTENT 1000
820 /* Collect the tokens making up each argument. We don't yet know
821 how many arguments have been supplied, whether too many or too
822 few. Hence the slightly bizarre usage of "argc" and "arg". */
823 do
824 {
828 num_args_alloced++;
830 argc++;
833 {
836 virt_locs_capacity);
837 }
840 {
841 /* Require space for 2 new tokens (including a CPP_EOF). */
843 {
845 ARG_TOKENS_EXTENT
848 }
851 {
855 virt_locs_capacity);
856 }
861 {
862 /* Drop leading padding. */
865 }
867 paren_depth++;
869 {
872 }
874 {
875 /* A comma does not terminate an argument within
876 parentheses or as part of a variable argument. */
880 }
885 {
888 /* CPP_PRAGMA token lives in directive_result, which will
889 be overwritten on the next directive. */
892 do
893 {
896 {
899 *pragma_buff
901 else
902 {
904 *pragma_buff
909 }
910 }
916 }
919 /* In deferred pragmas parsing_args and prevent_expansion
920 had been changed, reset it. */
926 else
928 }
932 ntokens++;
933 }
935 /* Drop trailing padding. */
937 ntokens--;
944 /* Terminate the argument. Excess arguments loop back and
945 overwrite the final legitimate argument, before failing. */
947 {
950 arg++;
951 }
952 }
956 {
957 /* We still need the CPP_EOF to end directives, and to end
958 pre-expansion of a macro argument. Step back is not
959 unconditional, since we don't want to return a CPP_EOF to our
960 callers at the end of an -include-d file. */
966 }
967 else
968 {
969 /* A single empty argument is counted as no argument. */
973 {
974 /* GCC has special semantics for , ## b where b is a varargs
975 parameter: we remove the comma if b was omitted entirely.
976 If b was merely an empty argument, the comma is retained.
977 If the macro takes just one (varargs) parameter, then we
978 retain the comma only if we are standards conforming.
980 If FIRST is NULL replace_args () swallows the comma. */
988 }
989 }
991 /* An error occurred. */
994 }
996 /* Search for an opening parenthesis to the macro of NODE, in such a
997 way that, if none is found, we don't lose the information in any
998 intervening padding tokens. If we find the parenthesis, collect
999 the arguments and return the buffer containing them. PRAGMA_BUFF
1000 argument is the same as in collect_args. If NUM_ARGS is non-NULL,
1001 *NUM_ARGS is set to the number of arguments contained in the
1002 returned buffer. */
1006 {
1010 {
1017 }
1020 {
1023 }
1025 /* CPP_EOF can be the end of macro arguments, or the end of the
1026 file. We mustn't back up over the latter. Ugh. */
1028 {
1029 /* Back up. We may have skipped padding, in which case backing
1030 up more than one token when expanding macros is in general
1031 too difficult. We re-insert it in its own context. */
1035 }
1038 }
1040 /* Return the real number of tokens in the expansion of MACRO. */
1043 {
1051 }
1053 /* Push the context of a macro with hash entry NODE onto the context
1054 stack. If we can successfully expand the macro, we push a context
1055 containing its yet-to-be-rescanned replacement list and return one.
1056 If there were additionally any unexpanded deferred #pragma
1057 directives among macro arguments, push another context containing
1058 the pragma tokens before the yet-to-be-rescanned replacement list
1059 and return two. Otherwise, we don't push a context and return
1060 zero. LOCATION is the location of the expansion point of the
1061 macro. */
1062 static int
1065 {
1066 /* The presence of a macro invalidates a file's controlling macro. */
1071 /* From here to when we push the context for the macro later down
1072 this function, we need to flag the fact that we are about to
1073 expand a macro. This is useful when -ftrack-macro-expansion is
1074 turned off. In that case, we need to record the location of the
1075 expansion point of the top-most macro we are about to to expand,
1076 into pfile->invocation_location. But we must not record any such
1077 location once the process of expanding the macro starts; that is,
1078 we must not do that recording between now and later down this
1079 function where set this flag to FALSE. */
1083 {
1089 }
1091 /* Handle standard macros. */
1093 {
1098 {
1112 {
1123 }
1128 location);
1129 /* Free the memory used by the arguments of this
1130 function-like macro. This memory has been allocated by
1131 funlike_invocation_p and by replace_args. */
1133 }
1135 /* Disable the macro within its expansion. */
1139 {
1143 }
1151 {
1154 {
1159 _cpp_buff *macro_tokens
1162 /* Create a macro map to record the locations of the
1163 tokens that are involved in the expansion. LOCATION
1164 is the location of the macro expansion point. */
1168 {
1173 }
1175 macro_tokens,
1176 virt_locs,
1179 tokens_count);
1180 }
1181 else
1183 tokens_count);
1185 }
1188 {
1192 do
1193 {
1201 tokens_count);
1206 }
1210 }
1214 }
1217 /* Handle built-in macros and the _Pragma operator. */
1219 }
1221 /* De-allocate the memory used by BUFF which is an array of instances
1222 of macro_arg. NUM_ARGS is the number of instances of macro_arg
1223 present in BUFF. */
1224 static void
1226 {
1235 /* Walk instances of macro_arg to free their expanded tokens as well
1236 as their macro_arg::virt_locs members. */
1238 {
1240 {
1243 }
1245 {
1248 }
1250 {
1253 }
1254 }
1256 }
1258 /* Set the INDEXth token of the macro argument ARG. TOKEN is the token
1259 to set, LOCATION is its virtual location. "Virtual" location means
1260 the location that encodes loci across macro expansion. Otherwise
1261 it has to be TOKEN->SRC_LOC. KIND is the kind of tokens the
1262 argument ARG is supposed to contain. Note that ARG must be
1263 tailored so that it has enough room to contain INDEX + 1 numbers of
1264 tokens, at least. */
1265 static void
1270 {
1274 token_ptr =
1280 {
1281 #ifdef ENABLE_CHECKING
1284 /* We can't set the location of a stringified argument
1285 token and we can't set any location if we aren't tracking
1286 macro expansion locations. */
1288 #endif
1290 }
1291 }
1293 /* Get the pointer to the location of the argument token of the
1294 function-like macro argument ARG. This function must be called
1295 only when we -ftrack-macro-expansion is on. */
1299 {
1308 }
1310 /* Return the pointer to the INDEXth token of the macro argument ARG.
1311 KIND specifies the kind of token the macro argument ARG contains.
1312 If VIRT_LOCATION is non NULL, *VIRT_LOCATION is set to the address
1313 of the virtual location of the returned token if the
1314 -ftrack-macro-expansion flag is on; otherwise, it's set to the
1315 spelling location of the returned token. */
1320 {
1324 {
1334 }
1337 /* This can happen for e.g, an empty token argument to a
1338 funtion-like macro. */
1342 {
1350 }
1352 }
1354 /* Initialize an iterator so that it iterates over the tokens of a
1355 function-like macro argument. KIND is the kind of tokens we want
1356 ITER to iterate over. TOKEN_PTR points the first token ITER will
1357 iterate over. */
1358 static void
1364 {
1368 /* Unconditionally initialize this so that the compiler doesn't warn
1369 about iter->location_ptr being possibly uninitialized later after
1370 this code has been inlined somewhere. */
1374 #ifdef ENABLE_CHECKING
1380 #endif
1381 }
1383 /* Move the iterator one token forward. Note that if IT was
1384 initialized on an argument that has a stringified token, moving it
1385 forward doesn't make sense as a stringified token is essentially one
1386 string. */
1387 static void
1389 {
1391 {
1399 #ifdef ENABLE_CHECKING
1402 #endif
1404 }
1406 #ifdef ENABLE_CHECKING
1408 #endif
1409 }
1411 /* Return the token pointed to by the iterator. */
1414 {
1415 #ifdef ENABLE_CHECKING
1419 #endif
1423 }
1425 /* Return the location of the token pointed to by the iterator.*/
1426 static source_location
1428 {
1429 #ifdef ENABLE_CHECKING
1433 #endif
1436 else
1438 }
1440 /* Return the index of a token [resulting from macro expansion] inside
1441 the total list of tokens resulting from a given macro
1442 expansion. The index can be different depending on whether if we
1443 want each tokens resulting from function-like macro arguments
1444 expansion to have a different location or not.
1446 E.g, consider this function-like macro:
1448 #define M(x) x - 3
1450 Then consider us "calling" it (and thus expanding it) like:
1452 M(1+4)
1454 It will be expanded into:
1456 1+4-3
1458 Let's consider the case of the token '4'.
1460 Its index can be 2 (it's the third token of the set of tokens
1461 resulting from the expansion) or it can be 0 if we consider that
1462 all tokens resulting from the expansion of the argument "1+2" have
1463 the same index, which is 0. In this later case, the index of token
1464 '-' would then be 1 and the index of token '3' would be 2.
1466 The later case is useful to use less memory e.g, for the case of
1467 the user using the option -ftrack-macro-expansion=1.
1469 ABSOLUTE_TOKEN_INDEX is the index of the macro argument token we
1470 are interested in. CUR_REPLACEMENT_TOKEN is the token of the macro
1471 parameter (inside the macro replacement list) that corresponds to
1472 the macro argument for which ABSOLUTE_TOKEN_INDEX is a token index
1473 of.
1475 If we refer to the example above, for the '4' argument token,
1476 ABSOLUTE_TOKEN_INDEX would be set to 2, and CUR_REPLACEMENT_TOKEN
1477 would be set to the token 'x', in the replacement list "x - 3" of
1478 macro M.
1480 This is a subroutine of replace_args. */
1485 {
1489 }
1491 /* Replace the parameters in a function-like macro of NODE with the
1492 actual ARGS, and place the result in a newly pushed token context.
1493 Expand each argument before replacing, unless it is operated upon
1494 by the # or ## operators. EXPANSION_POINT_LOC is the location of
1495 the expansion point of the macro. E.g, the location of the
1496 function-like macro invocation. */
1497 static void
1500 {
1511 /* First, fully macro-expand arguments, calculating the number of
1512 tokens in the final expansion as we go. The ordering of the if
1513 statements below is subtle; we must handle stringification before
1514 pasting. */
1516 /* EXP_COUNT is the number of tokens in the macro replacement
1517 list. TOTAL is the number of tokens /after/ macro parameters
1518 have been replaced by their arguments. */
1525 {
1526 /* Leading and trailing padding tokens. */
1528 /* Account for leading and padding tokens in exp_count too.
1529 This is going to be important later down this function,
1530 when we want to handle the case of (track_macro_exp <
1531 2). */
1534 /* We have an argument. If it is not being stringified or
1535 pasted it is macro-replaced before insertion. */
1539 {
1542 }
1546 else
1547 {
1551 }
1552 }
1554 /* When the compiler is called with the -ftrack-macro-expansion
1555 flag, we need to keep track of the location of each token that
1556 results from macro expansion.
1558 A token resulting from macro expansion is not a new token. It is
1559 simply the same token as the token coming from the macro
1560 definition. The new things that are allocated are the buffer
1561 that holds the tokens resulting from macro expansion and a new
1562 location that records many things like the locus of the expansion
1563 point as well as the original locus inside the definition of the
1564 macro. This location is called a virtual location.
1566 So the buffer BUFF holds a set of cpp_token*, and the buffer
1567 VIRT_LOCS holds the virtual locations of the tokens held by BUFF.
1569 Both of these two buffers are going to be hung off of the macro
1570 context, when the latter is pushed. The memory allocated to
1571 store the tokens and their locations is going to be freed once
1572 the context of macro expansion is popped.
1574 As far as tokens are concerned, the memory overhead of
1575 -ftrack-macro-expansion is proportional to the number of
1576 macros that get expanded multiplied by sizeof (source_location).
1577 The good news is that extra memory gets freed when the macro
1578 context is freed, i.e shortly after the macro got expanded. */
1580 /* Is the -ftrack-macro-expansion flag in effect? */
1583 /* Now allocate memory space for tokens and locations resulting from
1584 the macro expansion, copy the tokens and replace the arguments.
1585 This memory must be freed when the context of the macro MACRO is
1586 popped. */
1591 /* Create a macro map to record the locations of the tokens that are
1592 involved in the expansion. Note that the expansion point is set
1593 to the location of the closing parenthesis. Otherwise, the
1594 subsequent map created for the first token that comes after the
1595 macro map might have a wrong line number. That would lead to
1596 tokens with wrong line numbers after the macro expansion. This
1597 adds up to the memory overhead of the -ftrack-macro-expansion
1598 flag; for every macro that is expanded, a "macro map" is
1599 created. */
1601 {
1604 /* Then the number of macro tokens won't take in account the
1605 fact that function-like macro arguments can expand to
1606 multiple tokens. This is to save memory at the expense of
1607 accuracy.
1609 Suppose we have #define SQARE(A) A * A
1611 And then we do SQARE(2+3)
1613 Then the tokens 2, +, 3, will have the same location,
1614 saying they come from the expansion of the argument A. */
1617 expansion_point_loc,
1618 num_macro_tokens);
1619 }
1622 {
1624 macro_arg_token_iter from;
1629 {
1630 /* Allocate a virtual location for token SRC, and add that
1631 token and its virtual location into the buffers BUFF and
1632 VIRT_LOCS. */
1639 }
1643 /* SRC is a macro parameter that we need to replace with its
1644 corresponding argument. So at some point we'll need to
1645 iterate over the tokens of the macro argument and copy them
1646 into the "place" now holding the correspondig macro
1647 parameter. We are going to use the iterator type
1648 macro_argo_token_iter to handle that iterating. The 'if'
1649 below is to initialize the iterator depending on the type of
1650 tokens the macro argument has. It also does some adjustment
1651 related to padding tokens and some pasting corner cases. */
1653 {
1657 track_macro_expansion),
1658 MACRO_ARG_TOKEN_STRINGIFIED,
1660 }
1662 {
1666 track_macro_expansion),
1667 MACRO_ARG_TOKEN_NORMAL,
1669 }
1671 {
1676 track_macro_expansion),
1677 MACRO_ARG_TOKEN_NORMAL,
1683 {
1684 /* So the current parameter token is pasted to the previous
1685 token in the replacement list. Let's look at what
1686 we have as previous and current arguments. */
1688 /* This is the previous argument's token ... */
1694 {
1695 /* ... which is a comma; and the current parameter
1696 is the last parameter of a variadic function-like
1697 macro. If the argument to the current last
1698 parameter is NULL, then swallow the comma,
1699 otherwise drop the paste flag. */
1702 else
1704 }
1705 /* Remove the paste flag if the RHS is a placemarker. */
1708 }
1709 }
1710 else
1711 {
1715 track_macro_expansion),
1716 MACRO_ARG_TOKEN_EXPANDED,
1718 }
1720 /* Padding on the left of an argument (unless RHS of ##). */
1723 {
1726 /* Allocate a virtual location for the padding token and
1727 append the token and its location to BUFF and
1728 VIRT_LOCS. */
1732 }
1735 {
1736 /* So now we've got the number of tokens that make up the
1737 argument that is going to replace the current parameter
1738 in the macro's replacement list. */
1741 {
1742 /* So if track_macro_exp is < 2, the user wants to
1743 save extra memory while tracking macro expansion
1744 locations. So in that case here is what we do:
1746 Suppose we have #define SQARE(A) A * A
1748 And then we do SQARE(2+3)
1750 Then the tokens 2, +, 3, will have the same location,
1751 saying they come from the expansion of the argument
1752 A.
1754 So that means we are going to ignore the COUNT tokens
1755 resulting from the expansion of the current macro
1756 arugment. In other words all the ARG_TOKENS_COUNT tokens
1757 resulting from the expansion of the macro argument will
1758 have the index I. Normally, each of those token should
1759 have index I+J. */
1771 }
1773 /* With a non-empty argument on the LHS of ##, the last
1774 token should be flagged PASTE_LEFT. */
1776 paste_flag =
1778 }
1782 {
1785 "invoking macro %s argument %d: "
1786 "empty macro arguments are undefined"
1792 "invoking macro %s argument %d: "
1793 "empty macro arguments are undefined"
1797 }
1803 "invoking macro %s argument %d: "
1804 "empty macro arguments are undefined"
1809 /* Avoid paste on RHS (even case count == 0). */
1811 {
1816 }
1818 /* Add a new paste flag, or remove an unwanted one. */
1820 {
1826 else
1829 }
1832 }
1837 else
1842 }
1844 /* Return a special padding token, with padding inherited from SOURCE. */
1847 {
1852 /* Data in GCed data structures cannot be made const so far, so we
1853 need a cast here. */
1857 }
1859 /* Get a new uninitialized context. Create a new one if we cannot
1860 re-use an old one. */
1863 {
1867 {
1873 }
1877 }
1879 /* Push a list of pointers to tokens. */
1880 static void
1883 {
1891 }
1893 /* Push a list of tokens.
1895 A NULL macro means that we should continue the current macro
1896 expansion, in essence. That means that if we are currently in a
1897 macro expansion context, we'll make the new pfile->context refer to
1898 the current macro. */
1899 void
1902 {
1914 }
1916 /* Build a context containing a list of tokens as well as their
1917 virtual locations and push it. TOKENS_BUFF is the buffer that
1918 contains the tokens pointed to by FIRST. If TOKENS_BUFF is
1919 non-NULL, it means that the context owns it, meaning that
1920 _cpp_pop_context will free it as well as VIRT_LOCS_BUFF that
1921 contains the virtual locations.
1923 A NULL macro means that we should continue the current macro
1924 expansion, in essence. That means that if we are currently in a
1925 macro expansion context, we'll make the new pfile->context refer to
1926 the current macro. */
1927 static void
1934 {
1952 }
1954 /* Push a traditional macro's replacement text. */
1955 void
1958 {
1967 }
1969 /* Creates a buffer that holds tokens a.k.a "token buffer", usually
1970 for the purpose of storing them on a cpp_context. If VIRT_LOCS is
1971 non-null (which means that -ftrack-macro-expansion is on),
1972 *VIRT_LOCS is set to a newly allocated buffer that is supposed to
1973 hold the virtual locations of the tokens resulting from macro
1974 expansion. */
1978 {
1985 }
1987 /* Returns the number of tokens contained in a token buffer. The
1988 buffer holds a set of cpp_token*. */
1989 static size_t
1991 {
1993 }
1995 /* Return a pointer to the last token contained in the token buffer
1996 BUFF. */
1999 {
2001 }
2003 /* Remove the last token contained in the token buffer TOKENS_BUFF.
2004 If VIRT_LOCS_BUFF is non-NULL, it should point at the buffer
2005 containing the virtual locations of the tokens in TOKENS_BUFF; in
2006 which case the function updates that buffer as well. */
2010 {
2014 }
2016 /* Insert a token into the token buffer at the position pointed to by
2017 DEST. Note that the buffer is not enlarged so the previous token
2018 that was at *DEST is overwritten. VIRT_LOC_DEST, if non-null,
2019 means -ftrack-macro-expansion is effect; it then points to where to
2020 insert the virtual location of TOKEN. TOKEN is the token to
2021 insert. VIRT_LOC is the virtual location of the token, i.e, the
2022 location possibly encoding its locus across macro expansion. If
2023 TOKEN is an argument of a function-like macro (inside a macro
2024 replacement list), PARM_DEF_LOC is the spelling location of the
2025 macro parameter that TOKEN is replacing, in the replacement list of
2026 the macro. If TOKEN is not an argument of a function-like macro or
2027 if it doesn't come from a macro expansion, then VIRT_LOC can just
2028 be set to the same value as PARM_DEF_LOC. If MAP is non null, it
2029 means TOKEN comes from a macro expansion and MAP is the macro map
2030 associated to the macro. MACRO_TOKEN_INDEX points to the index of
2031 the token in the macro map; it is not considered if MAP is NULL.
2033 Upon successful completion this function returns the a pointer to
2034 the position of the token coming right after the insertion
2035 point. */
2040 source_location virt_loc,
2041 source_location parm_def_loc,
2044 {
2049 {
2050 /* -ftrack-macro-expansion is on. */
2055 }
2060 }
2062 /* Adds a token at the end of the tokens contained in BUFFER. Note
2063 that this function doesn't enlarge BUFFER when the number of tokens
2064 reaches BUFFER's size; it aborts in that situation.
2066 TOKEN is the token to append. VIRT_LOC is the virtual location of
2067 the token, i.e, the location possibly encoding its locus across
2068 macro expansion. If TOKEN is an argument of a function-like macro
2069 (inside a macro replacement list), PARM_DEF_LOC is the location of
2070 the macro parameter that TOKEN is replacing. If TOKEN doesn't come
2071 from a macro expansion, then VIRT_LOC can just be set to the same
2072 value as PARM_DEF_LOC. If MAP is non null, it means TOKEN comes
2073 from a macro expansion and MAP is the macro map associated to the
2074 macro. MACRO_TOKEN_INDEX points to the index of the token in the
2075 macro map; It is not considered if MAP is NULL. If VIRT_LOCS is
2076 non-null, it means -ftrack-macro-expansion is on; in which case
2077 this function adds the virtual location DEF_LOC to the VIRT_LOCS
2078 array, at the same index as the one of TOKEN in BUFFER. Upon
2079 successful completion this function returns the a pointer to the
2080 position of the token coming right after the insertion point. */
2085 source_location virt_loc,
2086 source_location parm_def_loc,
2089 {
2095 /* Abort if we pass the end the buffer. */
2102 result =
2109 }
2111 /* Allocate space for the function-like macro argument ARG to store
2112 the tokens resulting from the macro-expansion of the tokens that
2113 make up ARG itself. That space is allocated in ARG->expanded and
2114 needs to be freed using free. */
2115 static void
2117 {
2118 #ifdef ENABLE_CHECKING
2122 #endif
2127 }
2129 /* If necessary, enlarge ARG->expanded to so that it can contain SIZE
2130 tokens. */
2131 static void
2134 {
2145 {
2148 else
2151 size);
2152 }
2153 }
2155 /* Expand an argument ARG before replacing parameters in a
2156 function-like macro. This works by pushing a context with the
2157 argument's tokens, and then expanding that into a temporary buffer
2158 as if it were a normal part of the token stream. collect_args()
2159 has terminated the argument's tokens with a CPP_EOF so that we know
2160 when we have fully expanded the argument. */
2161 static void
2163 {
2172 /* Don't warn about funlike macros when pre-expanding. */
2176 /* Loop, reading in the tokens of the argument. */
2185 else
2190 {
2192 source_location location;
2206 }
2211 }
2213 /* Returns the macro associated to the current context if we are in
2214 the context a macro expansion, NULL otherwise. */
2217 {
2224 }
2226 /* Return TRUE iff we are expanding a macro or are about to start
2227 expanding one. If we are effectively expanding a macro, the
2228 function macro_of_context returns a pointer to the macro being
2229 expanded. */
2230 static bool
2232 {
2238 }
2240 /* Pop the current context off the stack, re-enabling the macro if the
2241 context represented a macro's replacement list. Initially the
2242 context structure was not freed so that we can re-use it later, but
2243 now we do free it to reduce peak memory consumption. */
2244 void
2246 {
2249 /* We should not be popping the base context. */
2254 {
2257 {
2260 /* If context->buff is set, it means the life time of tokens
2261 is bound to the life time of this context; so we must
2262 free the tokens; that means we must free the virtual
2263 locations of these tokens too. */
2265 {
2268 }
2271 }
2272 else
2275 /* Beware that MACRO can be NULL in cases like when we are
2276 called from expand_arg. In those cases, a dummy context with
2277 tokens is pushed just for the purpose of walking them using
2278 cpp_get_token_1. In that case, no 'macro' field is set into
2279 the dummy context. */
2281 /* Several contiguous macro expansion contexts can be
2282 associated to the same macro; that means it's the same
2283 macro expansion that spans across all these (sub)
2284 contexts. So we should re-enable an expansion-disabled
2285 macro only when we are sure we are really out of that
2286 macro expansion. */
2289 }
2292 {
2293 /* Decrease memory peak consumption by freeing the memory used
2294 by the context. */
2296 }
2299 /* decrease peak memory consumption by feeing the context. */
2302 }
2304 /* Return TRUE if we reached the end of the set of tokens stored in
2305 CONTEXT, FALSE otherwise. */
2308 {
2314 else
2316 }
2318 /* Consume the next token contained in the current context of PFILE,
2319 and return it in *TOKEN. It's "full location" is returned in
2320 *LOCATION. If -ftrack-macro-location is in effeect, fFull location"
2321 means the location encoding the locus of the token across macro
2322 expansion; otherwise it's just is the "normal" location of the
2323 token which (*TOKEN)->src_loc. */
2328 {
2332 {
2336 }
2338 {
2342 }
2344 {
2348 {
2351 }
2352 else
2355 }
2356 else
2358 }
2360 /* In the traditional mode of the preprocessor, if we are currently in
2361 a directive, the location of a token must be the location of the
2362 start of the directive line. This function returns the proper
2363 location if we are in the traditional mode, and just returns
2364 LOCATION otherwise. */
2368 {
2370 {
2373 }
2375 }
2377 /* Routine to get a token as well as its location.
2379 Macro expansions and directives are transparently handled,
2380 including entering included files. Thus tokens are post-macro
2381 expansion, and after any intervening directives. External callers
2382 see CPP_EOF only at EOF. Internal callers also see it when meeting
2383 a directive inside a macro call, when at the end of a directive and
2384 state.in_directive is still 1, and at the end of argument
2385 pre-expansion.
2387 LOC is an out parameter; *LOC is set to the location "as expected
2388 by the user". Please read the comment of
2389 cpp_get_token_with_location to learn more about the meaning of this
2390 location. */
2393 {
2395 /* This token is a virtual token that either encodes a location
2396 related to macro expansion or a spelling location. */
2398 /* pfile->about_to_expand_macro_p can be overriden by indirect calls
2399 to functions that push macro contexts. So let's save it so that
2400 we can restore it when we are about to leave this routine. */
2404 {
2408 /* Context->prev == 0 <=> base context. */
2410 {
2413 }
2415 {
2419 {
2425 }
2426 }
2427 else
2428 {
2436 }
2450 {
2452 /* If not in a macro context, and we're going to start an
2453 expansion, record the location. */
2459 /* Conditional macros require that a predicate be evaluated
2460 first. */
2462 {
2464 {
2473 virt_loc);
2475 {
2476 /* If macro_to_expand hook returned NULL and it
2477 ate some tokens, see if we don't need to add
2478 a padding token in between this and the
2479 next token. */
2486 }
2487 }
2488 }
2489 else
2491 virt_loc);
2493 {
2498 }
2499 }
2500 else
2501 {
2502 /* Flag this token as always unexpandable. FIXME: move this
2503 to collect_args()?. */
2509 }
2512 }
2514 out:
2516 {
2523 /* We are in a macro expansion context, are not tracking
2524 virtual location, but were asked to report the location
2525 of the expansion point of the macro being expanded. */
2529 }
2533 }
2535 /* External routine to get a token. Also used nearly everywhere
2536 internally, except for places where we know we can safely call
2537 _cpp_lex_token directly, such as lexing a directive name.
2539 Macro expansions and directives are transparently handled,
2540 including entering included files. Thus tokens are post-macro
2541 expansion, and after any intervening directives. External callers
2542 see CPP_EOF only at EOF. Internal callers also see it when meeting
2543 a directive inside a macro call, when at the end of a directive and
2544 state.in_directive is still 1, and at the end of argument
2545 pre-expansion. */
2548 {
2550 }
2552 /* Like cpp_get_token, but also returns a virtual token location
2553 separate from the spelling location carried by the returned token.
2555 LOC is an out parameter; *LOC is set to the location "as expected
2556 by the user". This matters when a token results from macro
2557 expansion; in that case the token's spelling location indicates the
2558 locus of the token in the definition of the macro but *LOC
2559 virtually encodes all the other meaningful locuses associated to
2560 the token.
2562 What? virtual location? Yes, virtual location.
2564 If the token results from macro expansion and if macro expansion
2565 location tracking is enabled its virtual location encodes (at the
2566 same time):
2568 - the spelling location of the token
2570 - the locus of the macro expansion point
2572 - the locus of the point where the token got instantiated as part
2573 of the macro expansion process.
2575 You have to use the linemap API to get the locus you are interested
2576 in from a given virtual location.
2578 Note however that virtual locations are not necessarily ordered for
2579 relations '<' and '>'. One must use the function
2580 linemap_location_before_p instead of using the relational operator
2581 '<'.
2583 If macro expansion tracking is off and if the token results from
2584 macro expansion the virtual location is the expansion point of the
2585 macro that got expanded.
2587 When the token doesn't result from macro expansion, the virtual
2588 location is just the same thing as its spelling location. */
2592 {
2594 }
2596 /* Returns true if we're expanding an object-like macro that was
2597 defined in a system header. Just checks the macro at the top of
2598 the stack. Used for diagnostic suppression. */
2599 int
2601 {
2606 else
2610 }
2612 /* Read each token in, until end of the current file. Directives are
2613 transparently processed. */
2614 void
2616 {
2617 /* Request a CPP_EOF token at the end of this file, rather than
2618 transparently continuing with the including file. */
2626 ;
2627 else
2629 ;
2633 }
2635 /* Step back one or more tokens obtained from the lexer. */
2636 void
2638 {
2641 {
2644 /* Possible with -fpreprocessed and no leading #line. */
2646 {
2649 }
2650 }
2651 }
2653 /* Step back one (or more) tokens. Can only step back more than 1 if
2654 they are from the lexer, and not from macro expansion. */
2655 void
2657 {
2660 else
2661 {
2669 {
2672 {
2675 #ifdef ENABLE_CHECKING
2678 #endif
2679 }
2680 else
2682 }
2683 else
2685 }
2686 }
2688 /* #define directive parsing and handling. */
2690 /* Returns nonzero if a macro redefinition warning is required. */
2691 static bool
2694 {
2698 /* Some redefinitions need to be warned about regardless. */
2702 /* Suppress warnings for builtins that lack the NODE_WARN flag,
2703 unless Wbuiltin-macro-redefined. */
2709 /* Redefinitions of conditional (context-sensitive) macros, on
2710 the other hand, must be allowed silently. */
2714 /* Redefinition of a macro is allowed if and only if the old and new
2715 definitions are the same. (6.10.3 paragraph 2). */
2718 /* Don't check count here as it can be different in valid
2719 traditional redefinitions with just whitespace differences. */
2725 /* Check parameter spellings. */
2730 /* Check the replacement text or tokens. */
2742 }
2744 /* Free the definition of hashnode H. */
2745 void
2747 {
2748 /* Macros and assertions no longer have anything to free. */
2750 /* Clear builtin flag in case of redefinition. */
2752 }
2754 /* Save parameter NODE to the parameter list of macro MACRO. Returns
2755 zero on success, nonzero if the parameter is a duplicate. */
2756 bool
2758 {
2760 /* Constraint 6.10.3.6 - duplicate parameter names. */
2762 {
2766 }
2776 {
2778 len);
2780 }
2786 }
2788 /* Check the syntax of the parameters in a MACRO definition. Returns
2789 false if an error occurs. */
2790 static bool
2792 {
2796 {
2800 {
2802 /* Allow/ignore comments in parameter lists if we are
2803 preserving comments in macro expansions. */
2815 {
2819 }
2830 /* Fall through to pick up the error. */
2833 {
2836 }
2843 {
2850 {
2852 cpp_pedwarning
2855 else
2856 cpp_pedwarning
2859 }
2864 }
2867 {
2871 else
2874 }
2876 /* We're at the end, and just expect a closing parenthesis. */
2880 /* Fall through. */
2885 }
2886 }
2887 }
2889 /* Allocate room for a token from a macro's replacement list. */
2892 {
2897 }
2899 /* Lex a token from the expansion of MACRO, but mark parameters as we
2900 find them and warn of traditional stringification. */
2903 {
2911 /* Is this a parameter? */
2914 {
2917 }
2923 }
2925 static bool
2927 {
2935 /* Get the first token of the expansion (or the '(' of a
2936 function-like macro). */
2940 {
2946 /* Success. Commit or allocate the parameter array. */
2948 {
2955 }
2956 else
2959 }
2961 {
2962 /* While ISO C99 requires whitespace before replacement text
2963 in a macro definition, ISO C90 with TC1 allows characters
2964 from the basic source character set there. */
2966 {
2970 else
2973 }
2974 else
2975 {
2978 {
2982 /* '@' is not in basic character set. */
2986 /* Basic character set sans letters, digits and _. */
2992 /* All other tokens start with a character from basic
2993 character set. */
2995 }
2998 }
2999 }
3003 else
3004 {
3007 }
3010 {
3011 /* Check the stringifying # constraint 6.10.3.2.1 of
3012 function-like macros when lexing the subsequent token. */
3014 {
3016 {
3026 }
3027 /* Let assembler get away with murder. */
3029 {
3033 }
3034 }
3037 {
3038 /* Paste operator constraint 6.10.3.3.1:
3039 Token-paste ##, can appear in both object-like and
3040 function-like macros, but not at the end. */
3042 {
3045 }
3047 }
3049 /* Paste operator constraint 6.10.3.3.1. */
3051 {
3052 /* Token-paste ##, can appear in both object-like and
3053 function-like macros, but not at the beginning. */
3055 {
3058 }
3061 {
3063 num_extra_tokens++;
3065 }
3066 else
3067 {
3074 }
3075 }
3079 }
3084 /* Don't count the CPP_EOF. */
3087 /* Clear whitespace on first token for warn_of_redefinition(). */
3091 /* Commit or allocate the memory. */
3093 {
3098 {
3099 /* Place second and subsequent ## or %:%: tokens in
3100 sequences of consecutive such tokens at the end of the
3101 list to preserve information about where they appear, how
3102 they are spelt and whether they are preceded by
3103 whitespace without otherwise interfering with macro
3104 expansion. */
3109 {
3112 else
3114 }
3115 }
3116 else
3119 }
3120 else
3124 }
3126 /* Parse a macro and save its expansion. Returns nonzero on success. */
3127 bool
3129 {
3137 else
3147 /* To suppress some diagnostics. */
3152 else
3153 {
3156 /* We set the type for SEEN_EOL() in directives.c.
3158 Longer term we should lex the whole line before coming here,
3159 and just copy the expansion. */
3161 /* Stop the lexer accepting __VA_ARGS__. */
3163 }
3165 /* Clear the fast argument lookup indices. */
3167 {
3171 }
3177 {
3182 {
3196 }
3197 }
3202 /* Enter definition in hash table. */
3207 /* __STDC_LIMIT_MACROS and __STDC_CONSTANT_MACROS are mentioned
3208 in the C standard, as something that one must use in C++.
3209 However DR#593 and C++11 indicate that they play no role in C++.
3210 We special-case them anyway. */
3215 /* If user defines one of the conditional macros, remove the
3216 conditional flag */
3220 }
3222 /* Warn if a token in STRING matches one of a function-like MACRO's
3223 parameters. */
3224 static void
3227 {
3231 /* Loop over the string. */
3234 {
3235 /* Find the start of an identifier. */
3237 p++;
3239 /* Find the end of the identifier. */
3242 q++;
3246 /* Loop over the function macro arguments to see if the
3247 identifier inside the string matches one of them. */
3249 {
3254 {
3259 }
3260 }
3261 }
3262 }
3264 /* Returns the name, arguments and expansion of a macro, in a format
3265 suitable to be read back in again, and therefore also for DWARF 2
3266 debugging info. e.g. "PASTE(X, Y) X ## Y", or "MACNAME EXPANSION".
3267 Caller is expected to generate the "#define" bit if needed. The
3268 returned text is temporary, and automatically freed later. */
3271 {
3277 {
3281 {
3286 }
3287 }
3290 /* Calculate length. */
3293 {
3295 varargs (we have + 1 below). */
3298 }
3300 /* This should match below where we fill in the buffer. */
3303 else
3304 {
3307 {
3312 else
3321 }
3322 }
3325 {
3329 }
3331 /* Fill in the buffer. Start with the macro name. */
3336 /* Parameter names. */
3338 {
3341 {
3345 {
3348 }
3351 /* Don't emit a space after the comma here; we're trying
3352 to emit a Dwarf-friendly definition, and the Dwarf spec
3353 forbids spaces in the argument list. */
3357 }
3359 }
3361 /* The Dwarf spec requires a space after the macro name, even if the
3362 definition is the empty string. */
3368 /* Expansion tokens. */
3369 {
3372 {
3381 {
3386 }
3387 else
3391 {
3395 /* Next has PREV_WHITE; see _cpp_create_definition. */
3396 }
3397 }
3398 }
3402 }