1 /* ebrowse.c --- parsing files for the ebrowse C++ browser
3 Copyright (C) 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001,
4 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2011
5 Free Software Foundation, Inc.
7 This file is part of GNU Emacs.
9 GNU Emacs is free software: you can redistribute it and/or modify
10 it under the terms of the GNU General Public License as published by
11 the Free Software Foundation, either version 3 of the License, or
12 (at your option) any later version.
14 GNU Emacs is distributed in the hope that it will be useful,
15 but WITHOUT ANY WARRANTY; without even the implied warranty of
16 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
17 GNU General Public License for more details.
19 You should have received a copy of the GNU General Public License
20 along with GNU Emacs. If not, see <http://www.gnu.org/licenses/>. */
35 /* The SunOS compiler doesn't have SEEK_END. */
40 /* Conditionalize function prototypes. */
42 /* Value is non-zero if strings X and Y compare equal. */
44 #define streq(X, Y) (*(X) == *(Y) && strcmp ((X) + 1, (Y) + 1) == 0)
46 /* The ubiquitous `max' and `min' macros. */
49 #define max(X, Y) ((X) > (Y) ? (X) : (Y))
50 #define min(X, Y) ((X) < (Y) ? (X) : (Y))
53 /* Files are read in chunks of this number of bytes. */
55 #define READ_CHUNK_SIZE (100 * 1024)
57 /* The character used as a separator in path lists (like $PATH). */
59 #if defined(__MSDOS__)
60 #define PATH_LIST_SEPARATOR ';'
61 #define FILENAME_EQ(X,Y) (strcasecmp(X,Y) == 0)
63 #if defined(WINDOWSNT)
64 #define PATH_LIST_SEPARATOR ';'
65 #define FILENAME_EQ(X,Y) (stricmp(X,Y) == 0)
67 #define PATH_LIST_SEPARATOR ':'
68 #define FILENAME_EQ(X,Y) (streq(X,Y))
71 /* The default output file name. */
73 #define DEFAULT_OUTFILE "BROWSE"
75 /* A version string written to the output file. Change this whenever
76 the structure of the output file changes. */
78 #define EBROWSE_FILE_VERSION "ebrowse 5.0"
80 /* The output file consists of a tree of Lisp objects, with major
81 nodes built out of Lisp structures. These are the heads of the
82 Lisp structs with symbols identifying their type. */
84 #define TREE_HEADER_STRUCT "[ebrowse-hs "
85 #define TREE_STRUCT "[ebrowse-ts "
86 #define MEMBER_STRUCT "[ebrowse-ms "
87 #define BROWSE_STRUCT "[ebrowse-bs "
88 #define CLASS_STRUCT "[ebrowse-cs "
90 /* The name of the symbol table entry for global functions, variables,
91 defines etc. This name also appears in the browser display. */
93 #define GLOBALS_NAME "*Globals*"
95 /* Token definitions. */
99 YYEOF
= 0, /* end of file */
100 CSTRING
= 256, /* string constant */
101 CCHAR
, /* character constant */
102 CINT
, /* integral constant */
103 CFLOAT
, /* real constant */
106 LSHIFTASGN
, /* <<= */
107 RSHIFTASGN
, /* >>= */
109 IDENT
, /* identifier */
132 /* Keywords. The undef's are there because these
133 three symbols are very likely to be defined somewhere. */
146 CONTINUE
, /* continue */
147 DEFAULT
, /* default */
159 T_INLINE
, /* inline */
163 OPERATOR
, /* operator */
164 PRIVATE
, /* private */
165 PROTECTED
, /* protected */
167 REGISTER
, /* register */
175 TEMPLATE
, /* template */
179 TYPEDEF
, /* typedef */
181 UNSIGNED
, /* unsigned */
182 VIRTUAL
, /* virtual */
184 VOLATILE
, /* volatile */
186 MUTABLE
, /* mutable */
190 SIGNATURE
, /* signature (GNU extension) */
191 NAMESPACE
, /* namespace */
192 EXPLICIT
, /* explicit */
193 TYPENAME
, /* typename */
194 CONST_CAST
, /* const_cast */
195 DYNAMIC_CAST
, /* dynamic_cast */
196 REINTERPRET_CAST
, /* reinterpret_cast */
197 STATIC_CAST
, /* static_cast */
203 /* Storage classes, in a wider sense. */
208 SC_MEMBER
, /* Is an instance member. */
209 SC_STATIC
, /* Is static member. */
210 SC_FRIEND
, /* Is friend function. */
211 SC_TYPE
/* Is a type definition. */
214 /* Member visibility. */
225 #define F_VIRTUAL 1 /* Is virtual function. */
226 #define F_INLINE 2 /* Is inline function. */
227 #define F_CONST 4 /* Is const. */
228 #define F_PURE 8 /* Is pure virtual function. */
229 #define F_MUTABLE 16 /* Is mutable. */
230 #define F_TEMPLATE 32 /* Is a template. */
231 #define F_EXPLICIT 64 /* Is explicit constructor. */
232 #define F_THROW 128 /* Has a throw specification. */
233 #define F_EXTERNC 256 /* Is declared extern "C". */
234 #define F_DEFINE 512 /* Is a #define. */
236 /* Two macros to set and test a bit in an int. */
238 #define SET_FLAG(F, FLAG) ((F) |= (FLAG))
239 #define HAS_FLAG(F, FLAG) (((F) & (FLAG)) != 0)
241 /* Structure describing a class member. */
245 struct member
*next
; /* Next in list of members. */
246 struct member
*anext
; /* Collision chain in member_table. */
247 struct member
**list
; /* Pointer to list in class. */
248 unsigned param_hash
; /* Hash value for parameter types. */
249 int vis
; /* Visibility (public, ...). */
250 int flags
; /* See F_* above. */
251 char *regexp
; /* Matching regular expression. */
252 const char *filename
; /* Don't free this shared string. */
253 int pos
; /* Buffer position of occurrence. */
254 char *def_regexp
; /* Regular expression matching definition. */
255 const char *def_filename
; /* File name of definition. */
256 int def_pos
; /* Buffer position of definition. */
257 char name
[1]; /* Member name. */
260 /* Structures of this type are used to connect class structures with
261 their super and subclasses. */
265 struct sym
*sym
; /* The super or subclass. */
266 struct link
*next
; /* Next in list or NULL. */
269 /* Structure used to record namespace aliases. */
273 struct alias
*next
; /* Next in list. */
274 struct sym
*namesp
; /* Namespace in which defined. */
275 struct link
*aliasee
; /* List of aliased namespaces (A::B::C...). */
276 char name
[1]; /* Alias name. */
279 /* The structure used to describe a class in the symbol table,
280 or a namespace in all_namespaces. */
284 int flags
; /* Is class a template class?. */
285 unsigned char visited
; /* Used to find circles. */
286 struct sym
*next
; /* Hash collision list. */
287 struct link
*subs
; /* List of subclasses. */
288 struct link
*supers
; /* List of superclasses. */
289 struct member
*vars
; /* List of instance variables. */
290 struct member
*fns
; /* List of instance functions. */
291 struct member
*static_vars
; /* List of static variables. */
292 struct member
*static_fns
; /* List of static functions. */
293 struct member
*friends
; /* List of friend functions. */
294 struct member
*types
; /* List of local types. */
295 char *regexp
; /* Matching regular expression. */
296 int pos
; /* Buffer position. */
297 const char *filename
; /* File in which it can be found. */
298 const char *sfilename
; /* File in which members can be found. */
299 struct sym
*namesp
; /* Namespace in which defined. . */
300 char name
[1]; /* Name of the class. */
303 /* Experimental: Print info for `--position-info'. We print
304 '(CLASS-NAME SCOPE MEMBER-NAME). */
310 struct sym
*info_cls
= NULL
;
311 struct member
*info_member
= NULL
;
313 /* Experimental. For option `--position-info', the buffer position we
314 are interested in. When this position is reached, print out
315 information about what we know about that point. */
317 int info_position
= -1;
319 /* Command line options structure for getopt_long. */
321 struct option options
[] =
323 {"append", no_argument
, NULL
, 'a'},
324 {"files", required_argument
, NULL
, 'f'},
325 {"help", no_argument
, NULL
, -2},
326 {"min-regexp-length", required_argument
, NULL
, 'm'},
327 {"max-regexp-length", required_argument
, NULL
, 'M'},
328 {"no-nested-classes", no_argument
, NULL
, 'n'},
329 {"no-regexps", no_argument
, NULL
, 'x'},
330 {"no-structs-or-unions", no_argument
, NULL
, 's'},
331 {"output-file", required_argument
, NULL
, 'o'},
332 {"position-info", required_argument
, NULL
, 'p'},
333 {"search-path", required_argument
, NULL
, 'I'},
334 {"verbose", no_argument
, NULL
, 'v'},
335 {"version", no_argument
, NULL
, -3},
336 {"very-verbose", no_argument
, NULL
, 'V'},
340 /* Semantic values of tokens. Set by yylex.. */
342 unsigned yyival
; /* Set for token CINT. */
343 char *yytext
; /* Set for token IDENT. */
350 /* Current line number. */
354 /* The name of the current input file. */
356 const char *filename
;
358 /* Three character class vectors, and macros to test membership
365 #define IDENTP(C) is_ident[(unsigned char) (C)]
366 #define DIGITP(C) is_digit[(unsigned char) (C)]
367 #define WHITEP(C) is_white[(unsigned char) (C)]
369 /* Command line flags. */
376 int f_nested_classes
= 1;
378 /* Maximum and minimum lengths of regular expressions matching a
379 member, class etc., for writing them to the output file. These are
380 overridable from the command line. */
391 /* Return the current buffer position in the input file. */
393 #define BUFFER_POS() (in - inbuffer)
395 /* If current lookahead is CSTRING, the following points to the
396 first character in the string constant. Used for recognizing
401 /* The size of the hash tables for classes.and members. Should be
404 #define TABLE_SIZE 1001
406 /* The hash table for class symbols. */
408 struct sym
*class_table
[TABLE_SIZE
];
410 /* Hash table containing all member structures. This is generally
411 faster for member lookup than traversing the member lists of a
414 struct member
*member_table
[TABLE_SIZE
];
416 /* Hash table for namespace aliases */
418 struct alias
*namespace_alias_table
[TABLE_SIZE
];
420 /* The special class symbol used to hold global functions,
423 struct sym
*global_symbols
;
425 /* The current namespace. */
427 struct sym
*current_namespace
;
429 /* The list of all known namespaces. */
431 struct sym
*all_namespaces
;
433 /* Stack of namespaces we're currently nested in, during the parse. */
435 struct sym
**namespace_stack
;
436 int namespace_stack_size
;
439 /* The current lookahead token. */
443 /* Structure describing a keyword. */
447 const char *name
; /* Spelling. */
448 int tk
; /* Token value. */
449 struct kw
*next
; /* Next in collision chain. */
452 /* Keywords are lookup up in a hash table of their own. */
454 #define KEYWORD_TABLE_SIZE 1001
455 struct kw
*keyword_table
[KEYWORD_TABLE_SIZE
];
462 struct search_path
*next
;
465 struct search_path
*search_path
;
466 struct search_path
*search_path_tail
;
468 /* Function prototypes. */
472 void re_init_parser (void);
473 const char *token_string (int);
474 char *matching_regexp (void);
475 void init_sym (void);
476 struct sym
*add_sym (const char *, struct sym
*);
477 void add_link (struct sym
*, struct sym
*);
478 void add_member_defn (struct sym
*, char *, char *,
479 int, unsigned, int, int, int);
480 void add_member_decl (struct sym
*, char *, char *, int,
481 unsigned, int, int, int, int);
482 void dump_roots (FILE *);
485 void add_global_defn (char *, char *, int, unsigned, int, int, int);
486 void add_global_decl (char *, char *, int, unsigned, int, int, int);
487 void add_define (char *, char *, int);
488 void mark_inherited_virtual (void);
489 void leave_namespace (void);
490 void enter_namespace (char *);
491 void register_namespace_alias (char *, struct link
*);
492 void insert_keyword (const char *, int);
493 void re_init_scanner (void);
494 void init_scanner (void);
495 void process_file (char *);
496 void add_search_path (char *);
497 FILE *open_file (char *);
498 int process_pp_line (void);
499 int dump_members (FILE *, struct member
*);
500 void dump_sym (FILE *, struct sym
*);
501 int dump_tree (FILE *, struct sym
*);
502 struct member
*find_member (struct sym
*, char *, int, int, unsigned);
503 struct member
*add_member (struct sym
*, char *, int, int, unsigned);
504 void mark_virtual (struct sym
*);
505 struct sym
*make_namespace (char *, struct sym
*);
506 char *sym_scope (struct sym
*);
507 char *sym_scope_1 (struct sym
*);
509 void skip_matching (void);
510 void member (struct sym
*, int);
511 void class_body (struct sym
*, int);
512 void class_definition (struct sym
*, int, int, int);
513 void declaration (int);
514 unsigned parm_list (int *);
515 char *operator_name (int *);
516 struct sym
*parse_classname (void);
517 struct sym
*parse_qualified_ident_or_type (char **);
518 void parse_qualified_param_ident_or_type (char **);
520 void yyerror (const char *, const char *);
521 void usage (int) NO_RETURN
;
522 void version (void) NO_RETURN
;
526 /***********************************************************************
528 ***********************************************************************/
530 /* Print an error in a printf-like style with the current input file
531 name and line number. */
534 yyerror (const char *format
, const char *s
)
536 fprintf (stderr
, "%s:%d: ", filename
, yyline
);
537 fprintf (stderr
, format
, s
);
542 /* Like malloc but print an error and exit if not enough memory is
548 void *p
= malloc (nbytes
);
551 yyerror ("out of memory", NULL
);
558 /* Like realloc but print an error and exit if out of memory. */
561 xrealloc (void *p
, int sz
)
566 yyerror ("out of memory", NULL
);
573 /* Like strdup, but print an error and exit if not enough memory is
574 available.. If S is null, return null. */
580 s
= strcpy (xmalloc (strlen (s
) + 1), s
);
586 /***********************************************************************
588 ***********************************************************************/
590 /* Initialize the symbol table. This currently only sets up the
591 special symbol for globals (`*Globals*'). */
596 global_symbols
= add_sym (GLOBALS_NAME
, NULL
);
600 /* Add a symbol for class NAME to the symbol table. NESTED_IN_CLASS
601 is the class in which class NAME was found. If it is null,
602 this means the scope of NAME is the current namespace.
604 If a symbol for NAME already exists, return that. Otherwise
605 create a new symbol and set it to default values. */
608 add_sym (const char *name
, struct sym
*nested_in_class
)
613 struct sym
*scope
= nested_in_class
? nested_in_class
: current_namespace
;
615 for (s
= name
, h
= 0; *s
; ++s
)
619 for (sym
= class_table
[h
]; sym
; sym
= sym
->next
)
620 if (streq (name
, sym
->name
)
621 && ((!sym
->namesp
&& !scope
)
622 || (sym
->namesp
&& scope
623 && streq (sym
->namesp
->name
, scope
->name
))))
634 sym
= (struct sym
*) xmalloc (sizeof *sym
+ strlen (name
));
635 memset (sym
, 0, sizeof *sym
);
636 strcpy (sym
->name
, name
);
638 sym
->next
= class_table
[h
];
639 class_table
[h
] = sym
;
646 /* Add links between superclass SUPER and subclass SUB. */
649 add_link (struct sym
*super
, struct sym
*sub
)
651 struct link
*lnk
, *lnk2
, *p
, *prev
;
653 /* See if a link already exists. */
654 for (p
= super
->subs
, prev
= NULL
;
655 p
&& strcmp (sub
->name
, p
->sym
->name
) > 0;
656 prev
= p
, p
= p
->next
)
659 /* Avoid duplicates. */
660 if (p
== NULL
|| p
->sym
!= sub
)
662 lnk
= (struct link
*) xmalloc (sizeof *lnk
);
663 lnk2
= (struct link
*) xmalloc (sizeof *lnk2
);
674 lnk2
->next
= sub
->supers
;
680 /* Find in class CLS member NAME.
682 VAR non-zero means look for a member variable; otherwise a function
683 is searched. SC specifies what kind of member is searched---a
684 static, or per-instance member etc. HASH is a hash code for the
685 parameter types of functions. Value is a pointer to the member
686 found or null if not found. */
689 find_member (struct sym
*cls
, char *name
, int var
, int sc
, unsigned int hash
)
691 struct member
**list
;
693 unsigned name_hash
= 0;
700 list
= &cls
->friends
;
708 list
= var
? &cls
->static_vars
: &cls
->static_fns
;
712 list
= var
? &cls
->vars
: &cls
->fns
;
716 for (s
= name
; *s
; ++s
)
717 name_hash
= (name_hash
<< 1) ^ *s
;
718 i
= name_hash
% TABLE_SIZE
;
720 for (p
= member_table
[i
]; p
; p
= p
->anext
)
721 if (p
->list
== list
&& p
->param_hash
== hash
&& streq (name
, p
->name
))
728 /* Add to class CLS information for the declaration of member NAME.
729 REGEXP is a regexp matching the declaration, if non-null. POS is
730 the position in the source where the declaration is found. HASH is
731 a hash code for the parameter list of the member, if it's a
732 function. VAR non-zero means member is a variable or type. SC
733 specifies the type of member (instance member, static, ...). VIS
734 is the member's visibility (public, protected, private). FLAGS is
735 a bit set giving additional information about the member (see the
739 add_member_decl (struct sym
*cls
, char *name
, char *regexp
, int pos
, unsigned int hash
, int var
, int sc
, int vis
, int flags
)
743 m
= find_member (cls
, name
, var
, sc
, hash
);
745 m
= add_member (cls
, name
, var
, sc
, hash
);
747 /* Have we seen a new filename? If so record that. */
748 if (!cls
->filename
|| !FILENAME_EQ (cls
->filename
, filename
))
749 m
->filename
= filename
;
762 m
->vis
= V_PROTECTED
;
776 /* Add to class CLS information for the definition of member NAME.
777 REGEXP is a regexp matching the declaration, if non-null. POS is
778 the position in the source where the declaration is found. HASH is
779 a hash code for the parameter list of the member, if it's a
780 function. VAR non-zero means member is a variable or type. SC
781 specifies the type of member (instance member, static, ...). VIS
782 is the member's visibility (public, protected, private). FLAGS is
783 a bit set giving additional information about the member (see the
787 add_member_defn (struct sym
*cls
, char *name
, char *regexp
, int pos
, unsigned int hash
, int var
, int sc
, int flags
)
791 if (sc
== SC_UNKNOWN
)
793 m
= find_member (cls
, name
, var
, SC_MEMBER
, hash
);
796 m
= find_member (cls
, name
, var
, SC_STATIC
, hash
);
798 m
= add_member (cls
, name
, var
, sc
, hash
);
803 m
= find_member (cls
, name
, var
, sc
, hash
);
805 m
= add_member (cls
, name
, var
, sc
, hash
);
809 cls
->sfilename
= filename
;
811 if (!FILENAME_EQ (cls
->sfilename
, filename
))
812 m
->def_filename
= filename
;
814 m
->def_regexp
= regexp
;
824 /* Add a symbol for a define named NAME to the symbol table.
825 REGEXP is a regular expression matching the define in the source,
826 if it is non-null. POS is the position in the file. */
829 add_define (char *name
, char *regexp
, int pos
)
831 add_global_defn (name
, regexp
, pos
, 0, 1, SC_FRIEND
, F_DEFINE
);
832 add_global_decl (name
, regexp
, pos
, 0, 1, SC_FRIEND
, F_DEFINE
);
836 /* Add information for the global definition of NAME.
837 REGEXP is a regexp matching the declaration, if non-null. POS is
838 the position in the source where the declaration is found. HASH is
839 a hash code for the parameter list of the member, if it's a
840 function. VAR non-zero means member is a variable or type. SC
841 specifies the type of member (instance member, static, ...). VIS
842 is the member's visibility (public, protected, private). FLAGS is
843 a bit set giving additional information about the member (see the
847 add_global_defn (char *name
, char *regexp
, int pos
, unsigned int hash
, int var
, int sc
, int flags
)
852 /* Try to find out for which classes a function is a friend, and add
853 what we know about it to them. */
855 for (i
= 0; i
< TABLE_SIZE
; ++i
)
856 for (sym
= class_table
[i
]; sym
; sym
= sym
->next
)
857 if (sym
!= global_symbols
&& sym
->friends
)
858 if (find_member (sym
, name
, 0, SC_FRIEND
, hash
))
859 add_member_defn (sym
, name
, regexp
, pos
, hash
, 0,
862 /* Add to global symbols. */
863 add_member_defn (global_symbols
, name
, regexp
, pos
, hash
, var
, sc
, flags
);
867 /* Add information for the global declaration of NAME.
868 REGEXP is a regexp matching the declaration, if non-null. POS is
869 the position in the source where the declaration is found. HASH is
870 a hash code for the parameter list of the member, if it's a
871 function. VAR non-zero means member is a variable or type. SC
872 specifies the type of member (instance member, static, ...). VIS
873 is the member's visibility (public, protected, private). FLAGS is
874 a bit set giving additional information about the member (see the
878 add_global_decl (char *name
, char *regexp
, int pos
, unsigned int hash
, int var
, int sc
, int flags
)
880 /* Add declaration only if not already declared. Header files must
881 be processed before source files for this to have the right effect.
882 I do not want to handle implicit declarations at the moment. */
884 struct member
*found
;
886 m
= found
= find_member (global_symbols
, name
, var
, sc
, hash
);
888 m
= add_member (global_symbols
, name
, var
, sc
, hash
);
890 /* Definition already seen => probably last declaration implicit.
891 Override. This means that declarations must always be added to
892 the symbol table before definitions. */
895 if (!global_symbols
->filename
896 || !FILENAME_EQ (global_symbols
->filename
, filename
))
897 m
->filename
= filename
;
905 info_cls
= global_symbols
;
911 /* Add a symbol for member NAME to class CLS.
912 VAR non-zero means it's a variable. SC specifies the kind of
913 member. HASH is a hash code for the parameter types of a function.
914 Value is a pointer to the member's structure. */
917 add_member (struct sym
*cls
, char *name
, int var
, int sc
, unsigned int hash
)
919 struct member
*m
= (struct member
*) xmalloc (sizeof *m
+ strlen (name
));
920 struct member
**list
;
923 unsigned name_hash
= 0;
927 strcpy (m
->name
, name
);
928 m
->param_hash
= hash
;
935 m
->def_regexp
= NULL
;
936 m
->def_filename
= NULL
;
939 assert (cls
!= NULL
);
944 list
= &cls
->friends
;
952 list
= var
? &cls
->static_vars
: &cls
->static_fns
;
956 list
= var
? &cls
->vars
: &cls
->fns
;
960 for (s
= name
; *s
; ++s
)
961 name_hash
= (name_hash
<< 1) ^ *s
;
962 i
= name_hash
% TABLE_SIZE
;
963 m
->anext
= member_table
[i
];
967 /* Keep the member list sorted. It's cheaper to do it here than to
968 sort them in Lisp. */
969 for (prev
= NULL
, p
= *list
;
970 p
&& strcmp (name
, p
->name
) > 0;
971 prev
= p
, p
= p
->next
)
983 /* Given the root R of a class tree, step through all subclasses
984 recursively, marking functions as virtual that are declared virtual
988 mark_virtual (struct sym
*r
)
991 struct member
*m
, *m2
;
993 for (p
= r
->subs
; p
; p
= p
->next
)
995 for (m
= r
->fns
; m
; m
= m
->next
)
996 if (HAS_FLAG (m
->flags
, F_VIRTUAL
))
998 for (m2
= p
->sym
->fns
; m2
; m2
= m2
->next
)
999 if (m
->param_hash
== m2
->param_hash
&& streq (m
->name
, m2
->name
))
1000 SET_FLAG (m2
->flags
, F_VIRTUAL
);
1003 mark_virtual (p
->sym
);
1008 /* For all roots of the class tree, mark functions as virtual that
1009 are virtual because of a virtual declaration in a base class. */
1012 mark_inherited_virtual (void)
1017 for (i
= 0; i
< TABLE_SIZE
; ++i
)
1018 for (r
= class_table
[i
]; r
; r
= r
->next
)
1019 if (r
->supers
== NULL
)
1024 /* Create and return a symbol for a namespace with name NAME. */
1027 make_namespace (char *name
, struct sym
*context
)
1029 struct sym
*s
= (struct sym
*) xmalloc (sizeof *s
+ strlen (name
));
1030 memset (s
, 0, sizeof *s
);
1031 strcpy (s
->name
, name
);
1032 s
->next
= all_namespaces
;
1033 s
->namesp
= context
;
1039 /* Find the symbol for namespace NAME. If not found, retrun NULL */
1042 check_namespace (char *name
, struct sym
*context
)
1044 struct sym
*p
= NULL
;
1046 for (p
= all_namespaces
; p
; p
= p
->next
)
1048 if (streq (p
->name
, name
) && (p
->namesp
== context
))
1055 /* Find the symbol for namespace NAME. If not found, add a new symbol
1056 for NAME to all_namespaces. */
1059 find_namespace (char *name
, struct sym
*context
)
1061 struct sym
*p
= check_namespace (name
, context
);
1064 p
= make_namespace (name
, context
);
1070 /* Find namespace alias with name NAME. If not found return NULL. */
1073 check_namespace_alias (char *name
)
1075 struct link
*p
= NULL
;
1080 for (s
= name
, h
= 0; *s
; ++s
)
1084 for (al
= namespace_alias_table
[h
]; al
; al
= al
->next
)
1085 if (streq (name
, al
->name
) && (al
->namesp
== current_namespace
))
1094 /* Register the name NEW_NAME as an alias for namespace list OLD_NAME. */
1097 register_namespace_alias (char *new_name
, struct link
*old_name
)
1103 for (s
= new_name
, h
= 0; *s
; ++s
)
1108 /* Is it already in the table of aliases? */
1109 for (al
= namespace_alias_table
[h
]; al
; al
= al
->next
)
1110 if (streq (new_name
, al
->name
) && (al
->namesp
== current_namespace
))
1113 al
= (struct alias
*) xmalloc (sizeof *al
+ strlen (new_name
));
1114 strcpy (al
->name
, new_name
);
1115 al
->next
= namespace_alias_table
[h
];
1116 al
->namesp
= current_namespace
;
1117 al
->aliasee
= old_name
;
1118 namespace_alias_table
[h
] = al
;
1122 /* Enter namespace with name NAME. */
1125 enter_namespace (char *name
)
1127 struct sym
*p
= find_namespace (name
, current_namespace
);
1129 if (namespace_sp
== namespace_stack_size
)
1131 int size
= max (10, 2 * namespace_stack_size
);
1133 = (struct sym
**) xrealloc ((void *)namespace_stack
,
1134 size
* sizeof *namespace_stack
);
1135 namespace_stack_size
= size
;
1138 namespace_stack
[namespace_sp
++] = current_namespace
;
1139 current_namespace
= p
;
1143 /* Leave the current namespace. */
1146 leave_namespace (void)
1148 assert (namespace_sp
> 0);
1149 current_namespace
= namespace_stack
[--namespace_sp
];
1154 /***********************************************************************
1155 Writing the Output File
1156 ***********************************************************************/
1158 /* Write string S to the output file FP in a Lisp-readable form.
1159 If S is null, write out `()'. */
1161 #define PUTSTR(s, fp) \
1178 /* A dynamically allocated buffer for constructing a scope name. */
1181 int scope_buffer_size
;
1182 int scope_buffer_len
;
1185 /* Make sure scope_buffer has enough room to add LEN chars to it. */
1188 ensure_scope_buffer_room (int len
)
1190 if (scope_buffer_len
+ len
>= scope_buffer_size
)
1192 int new_size
= max (2 * scope_buffer_size
, scope_buffer_len
+ len
);
1193 scope_buffer
= (char *) xrealloc (scope_buffer
, new_size
);
1194 scope_buffer_size
= new_size
;
1199 /* Recursively add the scope names of symbol P and the scopes of its
1200 namespaces to scope_buffer. Value is a pointer to the complete
1201 scope name constructed. */
1204 sym_scope_1 (struct sym
*p
)
1209 sym_scope_1 (p
->namesp
);
1213 ensure_scope_buffer_room (3);
1214 strcat (scope_buffer
, "::");
1215 scope_buffer_len
+= 2;
1218 len
= strlen (p
->name
);
1219 ensure_scope_buffer_room (len
+ 1);
1220 strcat (scope_buffer
, p
->name
);
1221 scope_buffer_len
+= len
;
1223 if (HAS_FLAG (p
->flags
, F_TEMPLATE
))
1225 ensure_scope_buffer_room (3);
1226 strcat (scope_buffer
, "<>");
1227 scope_buffer_len
+= 2;
1230 return scope_buffer
;
1234 /* Return the scope of symbol P in printed representation, i.e.
1235 as it would appear in a C*+ source file. */
1238 sym_scope (struct sym
*p
)
1242 scope_buffer_size
= 1024;
1243 scope_buffer
= (char *) xmalloc (scope_buffer_size
);
1246 *scope_buffer
= '\0';
1247 scope_buffer_len
= 0;
1250 sym_scope_1 (p
->namesp
);
1252 return scope_buffer
;
1256 /* Dump the list of members M to file FP. Value is the length of the
1260 dump_members (FILE *fp
, struct member
*m
)
1266 for (n
= 0; m
; m
= m
->next
, ++n
)
1268 fputs (MEMBER_STRUCT
, fp
);
1269 PUTSTR (m
->name
, fp
);
1270 PUTSTR (NULL
, fp
); /* FIXME? scope for globals */
1271 fprintf (fp
, "%u ", (unsigned) m
->flags
);
1272 PUTSTR (m
->filename
, fp
);
1273 PUTSTR (m
->regexp
, fp
);
1274 fprintf (fp
, "%u ", (unsigned) m
->pos
);
1275 fprintf (fp
, "%u ", (unsigned) m
->vis
);
1277 PUTSTR (m
->def_filename
, fp
);
1278 PUTSTR (m
->def_regexp
, fp
);
1279 fprintf (fp
, "%u", (unsigned) m
->def_pos
);
1290 /* Dump class ROOT to stream FP. */
1293 dump_sym (FILE *fp
, struct sym
*root
)
1295 fputs (CLASS_STRUCT
, fp
);
1296 PUTSTR (root
->name
, fp
);
1298 /* Print scope, if any. */
1300 PUTSTR (sym_scope (root
), fp
);
1305 fprintf (fp
, "%u", root
->flags
);
1306 PUTSTR (root
->filename
, fp
);
1307 PUTSTR (root
->regexp
, fp
);
1308 fprintf (fp
, "%u", (unsigned) root
->pos
);
1309 PUTSTR (root
->sfilename
, fp
);
1315 /* Dump class ROOT and its subclasses to file FP. Value is the
1316 number of classes written. */
1319 dump_tree (FILE *fp
, struct sym
*root
)
1324 dump_sym (fp
, root
);
1334 for (lk
= root
->subs
; lk
; lk
= lk
->next
)
1336 fputs (TREE_STRUCT
, fp
);
1337 n
+= dump_tree (fp
, lk
->sym
);
1343 dump_members (fp
, root
->vars
);
1344 n
+= dump_members (fp
, root
->fns
);
1345 dump_members (fp
, root
->static_vars
);
1346 n
+= dump_members (fp
, root
->static_fns
);
1347 n
+= dump_members (fp
, root
->friends
);
1348 dump_members (fp
, root
->types
);
1363 /* Dump the entire class tree to file FP. */
1366 dump_roots (FILE *fp
)
1371 /* Output file header containing version string, command line
1375 fputs (TREE_HEADER_STRUCT
, fp
);
1376 PUTSTR (EBROWSE_FILE_VERSION
, fp
);
1389 /* Mark functions as virtual that are so because of functions
1390 declared virtual in base classes. */
1391 mark_inherited_virtual ();
1393 /* Dump the roots of the graph. */
1394 for (i
= 0; i
< TABLE_SIZE
; ++i
)
1395 for (r
= class_table
[i
]; r
; r
= r
->next
)
1398 fputs (TREE_STRUCT
, fp
);
1399 n
+= dump_tree (fp
, r
);
1409 /***********************************************************************
1411 ***********************************************************************/
1414 #define INCREMENT_LINENO \
1416 if (f_very_verbose) \
1419 printf ("%d:\n", yyline); \
1425 #define INCREMENT_LINENO ++yyline
1428 /* Define two macros for accessing the input buffer (current input
1429 file). GET(C) sets C to the next input character and advances the
1430 input pointer. UNGET retracts the input pointer. */
1432 #define GET(C) ((C) = *in++)
1433 #define UNGET() (--in)
1436 /* Process a preprocessor line. Value is the next character from the
1437 input buffer not consumed. */
1440 process_pp_line (void)
1442 int in_comment
= 0, in_string
= 0;
1446 /* Skip over white space. The `#' has been consumed already. */
1447 while (WHITEP (GET (c
)))
1450 /* Read the preprocessor command (if any). */
1457 /* Is it a `define'? */
1460 if (*yytext
&& streq (yytext
, "define"))
1475 char *regexp
= matching_regexp ();
1476 int pos
= BUFFER_POS ();
1477 add_define (yytext
, regexp
, pos
);
1481 while (c
&& (c
!= '\n' || in_comment
|| in_string
))
1485 else if (c
== '/' && !in_comment
)
1490 else if (c
== '*' && in_comment
)
1496 in_string
= !in_string
;
1508 /* Value is the next token from the input buffer. */
1519 while (WHITEP (GET (c
)))
1541 /* String and character constants. */
1544 while (GET (c
) && c
!= end_char
)
1549 /* Escape sequences. */
1552 if (end_char
== '\'')
1553 yyerror ("EOF in character constant", NULL
);
1555 yyerror ("EOF in string constant", NULL
);
1573 /* Hexadecimal escape sequence. */
1575 for (i
= 0; i
< 2; ++i
)
1579 if (c
>= '0' && c
<= '7')
1581 else if (c
>= 'a' && c
<= 'f')
1583 else if (c
>= 'A' && c
<= 'F')
1596 /* Octal escape sequence. */
1598 for (i
= 0; i
< 3; ++i
)
1602 if (c
>= '0' && c
<= '7')
1619 if (end_char
== '\'')
1620 yyerror ("newline in character constant", NULL
);
1622 yyerror ("newline in string constant", NULL
);
1632 return end_char
== '\'' ? CCHAR
: CSTRING
;
1634 case 'a': case 'b': case 'c': case 'd': case 'e': case 'f': case 'g':
1635 case 'h': case 'i': case 'j': case 'k': case 'l': case 'm': case 'n':
1636 case 'o': case 'p': case 'q': case 'r': case 's': case 't': case 'u':
1637 case 'v': case 'w': case 'x': case 'y': case 'z':
1638 case 'A': case 'B': case 'C': case 'D': case 'E': case 'F': case 'G':
1639 case 'H': case 'I': case 'J': case 'K': case 'L': case 'M': case 'N':
1640 case 'O': case 'P': case 'Q': case 'R': case 'S': case 'T': case 'U':
1641 case 'V': case 'W': case 'X': case 'Y': case 'Z': case '_':
1643 /* Identifier and keywords. */
1650 while (IDENTP (GET (*p
)))
1652 hash
= (hash
<< 1) ^ *p
++;
1653 if (p
== yytext_end
- 1)
1655 int size
= yytext_end
- yytext
;
1656 yytext
= (char *) xrealloc (yytext
, 2 * size
);
1657 yytext_end
= yytext
+ 2 * size
;
1658 p
= yytext
+ size
- 1;
1665 for (k
= keyword_table
[hash
% KEYWORD_TABLE_SIZE
]; k
; k
= k
->next
)
1666 if (streq (k
->name
, yytext
))
1673 /* C and C++ comments, '/' and '/='. */
1701 while (GET (c
) && c
!= '\n')
1703 /* Don't try to read past the end of the input buffer if
1704 the file ends in a C++ comment without a newline. */
1781 yyerror ("invalid token '..' ('...' assumed)", NULL
);
1785 else if (!DIGITP (c
))
1839 c
= process_pp_line ();
1844 case '(': case ')': case '[': case ']': case '{': case '}':
1845 case ';': case ',': case '?': case '~':
1851 if (GET (c
) == 'x' || c
== 'X')
1856 yyival
= yyival
* 16 + c
- '0';
1857 else if (c
>= 'a' && c
<= 'f')
1858 yyival
= yyival
* 16 + c
- 'a' + 10;
1859 else if (c
>= 'A' && c
<= 'F')
1860 yyival
= yyival
* 16 + c
- 'A' + 10;
1870 while (c
>= '0' && c
<= '7')
1872 yyival
= (yyival
<< 3) + c
- '0';
1877 /* Integer suffixes. */
1883 case '1': case '2': case '3': case '4': case '5': case '6':
1884 case '7': case '8': case '9':
1885 /* Integer or floating constant, part before '.'. */
1888 while (GET (c
) && DIGITP (c
))
1889 yyival
= 10 * yyival
+ c
- '0';
1895 /* Digits following '.'. */
1899 /* Optional exponent. */
1900 if (c
== 'E' || c
== 'e')
1902 if (GET (c
) == '-' || c
== '+')
1909 /* Optional type suffixes. */
1922 /* Actually local to matching_regexp. These variables must be in
1923 global scope for the case that `static' get's defined away. */
1925 static char *matching_regexp_buffer
, *matching_regexp_end_buf
;
1928 /* Value is the string from the start of the line to the current
1929 position in the input buffer, or maybe a bit more if that string is
1930 shorter than min_regexp. */
1933 matching_regexp (void)
1942 if (matching_regexp_buffer
== NULL
)
1944 matching_regexp_buffer
= (char *) xmalloc (max_regexp
);
1945 matching_regexp_end_buf
= &matching_regexp_buffer
[max_regexp
] - 1;
1948 /* Scan back to previous newline of buffer start. */
1949 for (p
= in
- 1; p
> inbuffer
&& *p
!= '\n'; --p
)
1954 while (in
- p
< min_regexp
&& p
> inbuffer
)
1956 /* Line probably not significant enough */
1957 for (--p
; p
> inbuffer
&& *p
!= '\n'; --p
)
1964 /* Copy from end to make sure significant portions are included.
1965 This implies that in the browser a regular expressing of the form
1966 `^.*{regexp}' has to be used. */
1967 for (s
= matching_regexp_end_buf
- 1, t
= in
;
1968 s
> matching_regexp_buffer
&& t
> p
;)
1972 if (*s
== '"' || *s
== '\\')
1976 *(matching_regexp_end_buf
- 1) = '\0';
1981 /* Return a printable representation of token T. */
1984 token_string (int t
)
1990 case CSTRING
: return "string constant";
1991 case CCHAR
: return "char constant";
1992 case CINT
: return "int constant";
1993 case CFLOAT
: return "floating constant";
1994 case ELLIPSIS
: return "...";
1995 case LSHIFTASGN
: return "<<=";
1996 case RSHIFTASGN
: return ">>=";
1997 case ARROWSTAR
: return "->*";
1998 case IDENT
: return "identifier";
1999 case DIVASGN
: return "/=";
2000 case INC
: return "++";
2001 case ADDASGN
: return "+=";
2002 case DEC
: return "--";
2003 case ARROW
: return "->";
2004 case SUBASGN
: return "-=";
2005 case MULASGN
: return "*=";
2006 case MODASGN
: return "%=";
2007 case LOR
: return "||";
2008 case ORASGN
: return "|=";
2009 case LAND
: return "&&";
2010 case ANDASGN
: return "&=";
2011 case XORASGN
: return "^=";
2012 case POINTSTAR
: return ".*";
2013 case DCOLON
: return "::";
2014 case EQ
: return "==";
2015 case NE
: return "!=";
2016 case LE
: return "<=";
2017 case LSHIFT
: return "<<";
2018 case GE
: return ">=";
2019 case RSHIFT
: return ">>";
2020 case ASM
: return "asm";
2021 case AUTO
: return "auto";
2022 case BREAK
: return "break";
2023 case CASE
: return "case";
2024 case CATCH
: return "catch";
2025 case CHAR
: return "char";
2026 case CLASS
: return "class";
2027 case CONST
: return "const";
2028 case CONTINUE
: return "continue";
2029 case DEFAULT
: return "default";
2030 case DELETE
: return "delete";
2031 case DO
: return "do";
2032 case DOUBLE
: return "double";
2033 case ELSE
: return "else";
2034 case ENUM
: return "enum";
2035 case EXTERN
: return "extern";
2036 case FLOAT
: return "float";
2037 case FOR
: return "for";
2038 case FRIEND
: return "friend";
2039 case GOTO
: return "goto";
2040 case IF
: return "if";
2041 case T_INLINE
: return "inline";
2042 case INT
: return "int";
2043 case LONG
: return "long";
2044 case NEW
: return "new";
2045 case OPERATOR
: return "operator";
2046 case PRIVATE
: return "private";
2047 case PROTECTED
: return "protected";
2048 case PUBLIC
: return "public";
2049 case REGISTER
: return "register";
2050 case RETURN
: return "return";
2051 case SHORT
: return "short";
2052 case SIGNED
: return "signed";
2053 case SIZEOF
: return "sizeof";
2054 case STATIC
: return "static";
2055 case STRUCT
: return "struct";
2056 case SWITCH
: return "switch";
2057 case TEMPLATE
: return "template";
2058 case THIS
: return "this";
2059 case THROW
: return "throw";
2060 case TRY
: return "try";
2061 case TYPEDEF
: return "typedef";
2062 case UNION
: return "union";
2063 case UNSIGNED
: return "unsigned";
2064 case VIRTUAL
: return "virtual";
2065 case VOID
: return "void";
2066 case VOLATILE
: return "volatile";
2067 case WHILE
: return "while";
2068 case MUTABLE
: return "mutable";
2069 case BOOL
: return "bool";
2070 case TRUE
: return "true";
2071 case FALSE
: return "false";
2072 case SIGNATURE
: return "signature";
2073 case NAMESPACE
: return "namespace";
2074 case EXPLICIT
: return "explicit";
2075 case TYPENAME
: return "typename";
2076 case CONST_CAST
: return "const_cast";
2077 case DYNAMIC_CAST
: return "dynamic_cast";
2078 case REINTERPRET_CAST
: return "reinterpret_cast";
2079 case STATIC_CAST
: return "static_cast";
2080 case TYPEID
: return "typeid";
2081 case USING
: return "using";
2082 case WCHAR
: return "wchar_t";
2083 case YYEOF
: return "EOF";
2098 /* Reinitialize the scanner for a new input file. */
2101 re_init_scanner (void)
2109 yytext
= (char *) xmalloc (size
* sizeof *yytext
);
2110 yytext_end
= yytext
+ size
;
2115 /* Insert a keyword NAME with token value TK into the keyword hash
2119 insert_keyword (const char *name
, int tk
)
2123 struct kw
*k
= (struct kw
*) xmalloc (sizeof *k
);
2125 for (s
= name
; *s
; ++s
)
2128 h
%= KEYWORD_TABLE_SIZE
;
2131 k
->next
= keyword_table
[h
];
2132 keyword_table
[h
] = k
;
2136 /* Initialize the scanner for the first file. This sets up the
2137 character class vectors and fills the keyword hash table. */
2144 /* Allocate the input buffer */
2145 inbuffer_size
= READ_CHUNK_SIZE
+ 1;
2146 inbuffer
= in
= (char *) xmalloc (inbuffer_size
);
2149 /* Set up character class vectors. */
2150 for (i
= 0; i
< sizeof is_ident
; ++i
)
2152 if (i
== '_' || isalnum (i
))
2155 if (i
>= '0' && i
<= '9')
2158 if (i
== ' ' || i
== '\t' || i
== '\f' || i
== '\v')
2162 /* Fill keyword hash table. */
2163 insert_keyword ("and", LAND
);
2164 insert_keyword ("and_eq", ANDASGN
);
2165 insert_keyword ("asm", ASM
);
2166 insert_keyword ("auto", AUTO
);
2167 insert_keyword ("bitand", '&');
2168 insert_keyword ("bitor", '|');
2169 insert_keyword ("bool", BOOL
);
2170 insert_keyword ("break", BREAK
);
2171 insert_keyword ("case", CASE
);
2172 insert_keyword ("catch", CATCH
);
2173 insert_keyword ("char", CHAR
);
2174 insert_keyword ("class", CLASS
);
2175 insert_keyword ("compl", '~');
2176 insert_keyword ("const", CONST
);
2177 insert_keyword ("const_cast", CONST_CAST
);
2178 insert_keyword ("continue", CONTINUE
);
2179 insert_keyword ("default", DEFAULT
);
2180 insert_keyword ("delete", DELETE
);
2181 insert_keyword ("do", DO
);
2182 insert_keyword ("double", DOUBLE
);
2183 insert_keyword ("dynamic_cast", DYNAMIC_CAST
);
2184 insert_keyword ("else", ELSE
);
2185 insert_keyword ("enum", ENUM
);
2186 insert_keyword ("explicit", EXPLICIT
);
2187 insert_keyword ("extern", EXTERN
);
2188 insert_keyword ("false", FALSE
);
2189 insert_keyword ("float", FLOAT
);
2190 insert_keyword ("for", FOR
);
2191 insert_keyword ("friend", FRIEND
);
2192 insert_keyword ("goto", GOTO
);
2193 insert_keyword ("if", IF
);
2194 insert_keyword ("inline", T_INLINE
);
2195 insert_keyword ("int", INT
);
2196 insert_keyword ("long", LONG
);
2197 insert_keyword ("mutable", MUTABLE
);
2198 insert_keyword ("namespace", NAMESPACE
);
2199 insert_keyword ("new", NEW
);
2200 insert_keyword ("not", '!');
2201 insert_keyword ("not_eq", NE
);
2202 insert_keyword ("operator", OPERATOR
);
2203 insert_keyword ("or", LOR
);
2204 insert_keyword ("or_eq", ORASGN
);
2205 insert_keyword ("private", PRIVATE
);
2206 insert_keyword ("protected", PROTECTED
);
2207 insert_keyword ("public", PUBLIC
);
2208 insert_keyword ("register", REGISTER
);
2209 insert_keyword ("reinterpret_cast", REINTERPRET_CAST
);
2210 insert_keyword ("return", RETURN
);
2211 insert_keyword ("short", SHORT
);
2212 insert_keyword ("signed", SIGNED
);
2213 insert_keyword ("sizeof", SIZEOF
);
2214 insert_keyword ("static", STATIC
);
2215 insert_keyword ("static_cast", STATIC_CAST
);
2216 insert_keyword ("struct", STRUCT
);
2217 insert_keyword ("switch", SWITCH
);
2218 insert_keyword ("template", TEMPLATE
);
2219 insert_keyword ("this", THIS
);
2220 insert_keyword ("throw", THROW
);
2221 insert_keyword ("true", TRUE
);
2222 insert_keyword ("try", TRY
);
2223 insert_keyword ("typedef", TYPEDEF
);
2224 insert_keyword ("typeid", TYPEID
);
2225 insert_keyword ("typename", TYPENAME
);
2226 insert_keyword ("union", UNION
);
2227 insert_keyword ("unsigned", UNSIGNED
);
2228 insert_keyword ("using", USING
);
2229 insert_keyword ("virtual", VIRTUAL
);
2230 insert_keyword ("void", VOID
);
2231 insert_keyword ("volatile", VOLATILE
);
2232 insert_keyword ("wchar_t", WCHAR
);
2233 insert_keyword ("while", WHILE
);
2234 insert_keyword ("xor", '^');
2235 insert_keyword ("xor_eq", XORASGN
);
2240 /***********************************************************************
2242 ***********************************************************************/
2244 /* Match the current lookahead token and set it to the next token. */
2246 #define MATCH() (tk = yylex ())
2248 /* Return the lookahead token. If current lookahead token is cleared,
2249 read a new token. */
2251 #define LA1 (tk == -1 ? (tk = yylex ()) : tk)
2253 /* Is the current lookahead equal to the token T? */
2255 #define LOOKING_AT(T) (tk == (T))
2257 /* Is the current lookahead one of T1 or T2? */
2259 #define LOOKING_AT2(T1, T2) (tk == (T1) || tk == (T2))
2261 /* Is the current lookahead one of T1, T2 or T3? */
2263 #define LOOKING_AT3(T1, T2, T3) (tk == (T1) || tk == (T2) || tk == (T3))
2265 /* Is the current lookahead one of T1...T4? */
2267 #define LOOKING_AT4(T1, T2, T3, T4) \
2268 (tk == (T1) || tk == (T2) || tk == (T3) || tk == (T4))
2270 /* Match token T if current lookahead is T. */
2272 #define MATCH_IF(T) if (LOOKING_AT (T)) MATCH (); else ((void) 0)
2274 /* Skip to matching token if current token is T. */
2276 #define SKIP_MATCHING_IF(T) \
2277 if (LOOKING_AT (T)) skip_matching (); else ((void) 0)
2280 /* Skip forward until a given token TOKEN or YYEOF is seen and return
2281 the current lookahead token after skipping. */
2286 while (!LOOKING_AT2 (YYEOF
, token
))
2291 /* Skip over pairs of tokens (parentheses, square brackets,
2292 angle brackets, curly brackets) matching the current lookahead. */
2295 skip_matching (void)
2323 if (LOOKING_AT (open
))
2325 else if (LOOKING_AT (close
))
2327 else if (LOOKING_AT (YYEOF
))
2338 skip_initializer (void)
2362 /* Build qualified namespace alias (A::B::c) and return it. */
2365 match_qualified_namespace_alias (void)
2367 struct link
*head
= NULL
;
2368 struct link
*cur
= NULL
;
2369 struct link
*tmp
= NULL
;
2377 tmp
= (struct link
*) xmalloc (sizeof *cur
);
2378 tmp
->sym
= find_namespace (yytext
, cur
? cur
->sym
: NULL
);
2382 cur
= cur
->next
= tmp
;
2399 /* Re-initialize the parser by resetting the lookahead token. */
2402 re_init_parser (void)
2408 /* Parse a parameter list, including the const-specifier,
2409 pure-specifier, and throw-list that may follow a parameter list.
2410 Return in FLAGS what was seen following the parameter list.
2411 Returns a hash code for the parameter types. This value is used to
2412 distinguish between overloaded functions. */
2415 parm_list (int *flags
)
2420 while (!LOOKING_AT2 (YYEOF
, ')'))
2424 /* Skip over grouping parens or parameter lists in parameter
2430 /* Next parameter. */
2436 /* Ignore the scope part of types, if any. This is because
2437 some types need scopes when defined outside of a class body,
2438 and don't need them inside the class body. This means that
2439 we have to look for the last IDENT in a sequence of
2440 IDENT::IDENT::... */
2445 unsigned ident_type_hash
= 0;
2447 parse_qualified_param_ident_or_type (&last_id
);
2450 /* LAST_ID null means something like `X::*'. */
2451 for (; *last_id
; ++last_id
)
2452 ident_type_hash
= (ident_type_hash
<< 1) ^ *last_id
;
2453 hash
= (hash
<< 1) ^ ident_type_hash
;
2462 /* This distinction is made to make `func (void)' equivalent
2466 if (!LOOKING_AT (')'))
2467 hash
= (hash
<< 1) ^ VOID
;
2470 case BOOL
: case CHAR
: case CLASS
: case CONST
:
2471 case DOUBLE
: case ENUM
: case FLOAT
: case INT
:
2472 case LONG
: case SHORT
: case SIGNED
: case STRUCT
:
2473 case UNION
: case UNSIGNED
: case VOLATILE
: case WCHAR
:
2476 hash
= (hash
<< 1) ^ LA1
;
2480 case '*': case '&': case '[': case ']':
2481 hash
= (hash
<< 1) ^ LA1
;
2491 if (LOOKING_AT (')'))
2495 if (LOOKING_AT (CONST
))
2497 /* We can overload the same function on `const' */
2498 hash
= (hash
<< 1) ^ CONST
;
2499 SET_FLAG (*flags
, F_CONST
);
2503 if (LOOKING_AT (THROW
))
2506 SKIP_MATCHING_IF ('(');
2507 SET_FLAG (*flags
, F_THROW
);
2510 if (LOOKING_AT ('='))
2513 if (LOOKING_AT (CINT
) && yyival
== 0)
2516 SET_FLAG (*flags
, F_PURE
);
2525 /* Print position info to stdout. */
2530 if (info_position
>= 0 && BUFFER_POS () <= info_position
)
2532 printf ("(\"%s\" \"%s\" \"%s\" %d)\n",
2533 info_cls
->name
, sym_scope (info_cls
),
2534 info_member
->name
, info_where
);
2538 /* Parse a member declaration within the class body of CLS. VIS is
2539 the access specifier for the member (private, protected,
2543 member (struct sym
*cls
, int vis
)
2547 char *regexp
= NULL
;
2558 while (!LOOKING_AT4 (';', '{', '}', YYEOF
))
2566 /* A function or class may follow. */
2569 SET_FLAG (flags
, F_TEMPLATE
);
2570 /* Skip over template argument list */
2571 SKIP_MATCHING_IF ('<');
2575 SET_FLAG (flags
, F_EXPLICIT
);
2579 SET_FLAG (flags
, F_MUTABLE
);
2583 SET_FLAG (flags
, F_INLINE
);
2587 SET_FLAG (flags
, F_VIRTUAL
);
2616 /* Remember IDENTS seen so far. Among these will be the member
2618 id
= (char *) xrealloc (id
, strlen (yytext
) + 2);
2622 strcpy (id
+ 1, yytext
);
2625 strcpy (id
, yytext
);
2631 char *s
= operator_name (&sc
);
2632 id
= (char *) xrealloc (id
, strlen (s
) + 1);
2638 /* Most probably the beginning of a parameter list. */
2644 if (!(is_constructor
= streq (id
, cls
->name
)))
2645 regexp
= matching_regexp ();
2650 pos
= BUFFER_POS ();
2651 hash
= parm_list (&flags
);
2654 regexp
= matching_regexp ();
2656 if (id
&& cls
!= NULL
)
2657 add_member_decl (cls
, id
, regexp
, pos
, hash
, 0, sc
, vis
, flags
);
2659 while (!LOOKING_AT3 (';', '{', YYEOF
))
2662 if (LOOKING_AT ('{') && id
&& cls
)
2663 add_member_defn (cls
, id
, regexp
, pos
, hash
, 0, sc
, flags
);
2670 case STRUCT
: case UNION
: case CLASS
:
2677 /* More than one ident here to allow for MS-DOS specialties
2678 like `_export class' etc. The last IDENT seen counts
2679 as the class name. */
2680 while (!LOOKING_AT4 (YYEOF
, ';', ':', '{'))
2682 if (LOOKING_AT (IDENT
))
2687 if (LOOKING_AT2 (':', '{'))
2688 class_definition (anonymous
? NULL
: cls
, class_tag
, flags
, 1);
2693 case INT
: case CHAR
: case LONG
: case UNSIGNED
:
2694 case SIGNED
: case CONST
: case DOUBLE
: case VOID
:
2695 case SHORT
: case VOLATILE
: case BOOL
: case WCHAR
:
2704 if (LOOKING_AT (';'))
2706 /* The end of a member variable, a friend declaration or an access
2707 declaration. We don't want to add friend classes as members. */
2708 if (id
&& sc
!= SC_FRIEND
&& cls
)
2710 regexp
= matching_regexp ();
2711 pos
= BUFFER_POS ();
2715 if (type_seen
|| !paren_seen
)
2716 add_member_decl (cls
, id
, regexp
, pos
, 0, 1, sc
, vis
, 0);
2718 add_member_decl (cls
, id
, regexp
, pos
, hash
, 0, sc
, vis
, 0);
2725 else if (LOOKING_AT ('{'))
2728 if (sc
== SC_TYPE
&& id
&& cls
)
2730 regexp
= matching_regexp ();
2731 pos
= BUFFER_POS ();
2735 add_member_decl (cls
, id
, regexp
, pos
, 0, 1, sc
, vis
, 0);
2736 add_member_defn (cls
, id
, regexp
, pos
, 0, 1, sc
, 0);
2748 /* Parse the body of class CLS. TAG is the tag of the class (struct,
2752 class_body (struct sym
*cls
, int tag
)
2754 int vis
= tag
== CLASS
? PRIVATE
: PUBLIC
;
2757 while (!LOOKING_AT2 (YYEOF
, '}'))
2761 case PRIVATE
: case PROTECTED
: case PUBLIC
:
2765 if (LOOKING_AT (':'))
2772 /* Probably conditional compilation for inheritance list.
2773 We don't known whether there comes more of this.
2774 This is only a crude fix that works most of the time. */
2779 while (LOOKING_AT2 (IDENT
, ',')
2780 || LOOKING_AT3 (PUBLIC
, PROTECTED
, PRIVATE
));
2789 /* Try to synchronize */
2790 case CHAR
: case CLASS
: case CONST
:
2791 case DOUBLE
: case ENUM
: case FLOAT
: case INT
:
2792 case LONG
: case SHORT
: case SIGNED
: case STRUCT
:
2793 case UNION
: case UNSIGNED
: case VOID
: case VOLATILE
:
2794 case TYPEDEF
: case STATIC
: case T_INLINE
: case FRIEND
:
2795 case VIRTUAL
: case TEMPLATE
: case IDENT
: case '~':
2796 case BOOL
: case WCHAR
: case EXPLICIT
: case MUTABLE
:
2808 /* Parse a qualified identifier. Current lookahead is IDENT. A
2809 qualified ident has the form `X<..>::Y<...>::T<...>. Returns a
2810 symbol for that class. */
2813 parse_classname (void)
2815 struct sym
*last_class
= NULL
;
2817 while (LOOKING_AT (IDENT
))
2819 last_class
= add_sym (yytext
, last_class
);
2822 if (LOOKING_AT ('<'))
2825 SET_FLAG (last_class
->flags
, F_TEMPLATE
);
2828 if (!LOOKING_AT (DCOLON
))
2838 /* Parse an operator name. Add the `static' flag to *SC if an
2839 implicitly static operator has been parsed. Value is a pointer to
2840 a static buffer holding the constructed operator name string. */
2843 operator_name (int *sc
)
2845 static int id_size
= 0;
2846 static char *id
= NULL
;
2852 if (LOOKING_AT2 (NEW
, DELETE
))
2854 /* `new' and `delete' are implicitly static. */
2855 if (*sc
!= SC_FRIEND
)
2858 s
= token_string (LA1
);
2861 len
= strlen (s
) + 10;
2864 int new_size
= max (len
, 2 * id_size
);
2865 id
= (char *) xrealloc (id
, new_size
);
2870 /* Vector new or delete? */
2871 if (LOOKING_AT ('['))
2876 if (LOOKING_AT (']'))
2885 int tokens_matched
= 0;
2890 int new_size
= max (len
, 2 * id_size
);
2891 id
= (char *) xrealloc (id
, new_size
);
2894 strcpy (id
, "operator");
2896 /* Beware access declarations of the form "X::f;" Beware of
2897 `operator () ()'. Yet another difficulty is found in
2898 GCC 2.95's STL: `operator == __STL_NULL_TMPL_ARGS (...'. */
2899 while (!(LOOKING_AT ('(') && tokens_matched
)
2900 && !LOOKING_AT2 (';', YYEOF
))
2902 s
= token_string (LA1
);
2903 len
+= strlen (s
) + 2;
2906 int new_size
= max (len
, 2 * id_size
);
2907 id
= (char *) xrealloc (id
, new_size
);
2911 if (*s
!= ')' && *s
!= ']')
2916 /* If this is a simple operator like `+', stop now. */
2917 if (!isalpha ((unsigned char) *s
) && *s
!= '(' && *s
!= '[')
2928 /* This one consumes the last IDENT of a qualified member name like
2929 `X::Y::z'. This IDENT is returned in LAST_ID. Value is the
2930 symbol structure for the ident. */
2933 parse_qualified_ident_or_type (char **last_id
)
2935 struct sym
*cls
= NULL
;
2940 while (LOOKING_AT (IDENT
))
2942 int len
= strlen (yytext
) + 1;
2945 id
= (char *) xrealloc (id
, len
);
2948 strcpy (id
, yytext
);
2952 SKIP_MATCHING_IF ('<');
2954 if (LOOKING_AT (DCOLON
))
2956 struct sym
*pcn
= NULL
;
2957 struct link
*pna
= check_namespace_alias (id
);
2962 enter_namespace (pna
->sym
->name
);
2968 else if ((pcn
= check_namespace (id
, current_namespace
)))
2970 enter_namespace (pcn
->name
);
2974 cls
= add_sym (id
, cls
);
2993 /* This one consumes the last IDENT of a qualified member name like
2994 `X::Y::z'. This IDENT is returned in LAST_ID. Value is the
2995 symbol structure for the ident. */
2998 parse_qualified_param_ident_or_type (char **last_id
)
3000 struct sym
*cls
= NULL
;
3001 static char *id
= NULL
;
3002 static int id_size
= 0;
3004 while (LOOKING_AT (IDENT
))
3006 int len
= strlen (yytext
) + 1;
3009 id
= (char *) xrealloc (id
, len
);
3012 strcpy (id
, yytext
);
3016 SKIP_MATCHING_IF ('<');
3018 if (LOOKING_AT (DCOLON
))
3020 cls
= add_sym (id
, cls
);
3030 /* Parse a class definition.
3032 CONTAINING is the class containing the class being parsed or null.
3033 This may also be null if NESTED != 0 if the containing class is
3034 anonymous. TAG is the tag of the class (struct, union, class).
3035 NESTED is non-zero if we are parsing a nested class.
3037 Current lookahead is the class name. */
3040 class_definition (struct sym
*containing
, int tag
, int flags
, int nested
)
3042 struct sym
*current
;
3043 struct sym
*base_class
;
3045 /* Set CURRENT to null if no entry has to be made for the class
3046 parsed. This is the case for certain command line flag
3048 if ((tag
!= CLASS
&& !f_structs
) || (nested
&& !f_nested_classes
))
3052 current
= add_sym (yytext
, containing
);
3053 current
->pos
= BUFFER_POS ();
3054 current
->regexp
= matching_regexp ();
3055 current
->filename
= filename
;
3056 current
->flags
= flags
;
3059 /* If at ':', base class list follows. */
3060 if (LOOKING_AT (':'))
3069 case VIRTUAL
: case PUBLIC
: case PROTECTED
: case PRIVATE
:
3074 base_class
= parse_classname ();
3075 if (base_class
&& current
&& base_class
!= current
)
3076 add_link (base_class
, current
);
3079 /* The `,' between base classes or the end of the base
3080 class list. Add the previously found base class.
3081 It's done this way to skip over sequences of
3082 `A::B::C' until we reach the end.
3084 FIXME: it is now possible to handle `class X : public B::X'
3085 because we have enough information. */
3091 /* A syntax error, possibly due to preprocessor constructs
3097 class A : private B.
3099 MATCH until we see something like `;' or `{'. */
3100 while (!LOOKING_AT3 (';', YYEOF
, '{'))
3111 /* Parse the class body if there is one. */
3112 if (LOOKING_AT ('{'))
3114 if (tag
!= CLASS
&& !f_structs
)
3119 class_body (current
, tag
);
3121 if (LOOKING_AT ('}'))
3124 if (LOOKING_AT (';') && !nested
)
3131 /* Add to class *CLS information for the declaration of variable or
3132 type *ID. If *CLS is null, this means a global declaration. SC is
3133 the storage class of *ID. FLAGS is a bit set giving additional
3134 information about the member (see the F_* defines). */
3137 add_declarator (struct sym
**cls
, char **id
, int flags
, int sc
)
3139 if (LOOKING_AT2 (';', ','))
3141 /* The end of a member variable or of an access declaration
3142 `X::f'. To distinguish between them we have to know whether
3143 type information has been seen. */
3146 char *regexp
= matching_regexp ();
3147 int pos
= BUFFER_POS ();
3150 add_member_defn (*cls
, *id
, regexp
, pos
, 0, 1, SC_UNKNOWN
, flags
);
3152 add_global_defn (*id
, regexp
, pos
, 0, 1, sc
, flags
);
3158 else if (LOOKING_AT ('{'))
3160 if (sc
== SC_TYPE
&& *id
)
3162 /* A named enumeration. */
3163 char *regexp
= matching_regexp ();
3164 int pos
= BUFFER_POS ();
3165 add_global_defn (*id
, regexp
, pos
, 0, 1, sc
, flags
);
3177 /* Parse a declaration. */
3180 declaration (int flags
)
3183 struct sym
*cls
= NULL
;
3184 char *regexp
= NULL
;
3190 while (!LOOKING_AT3 (';', '{', YYEOF
))
3213 case INT
: case CHAR
: case LONG
: case UNSIGNED
:
3214 case SIGNED
: case CONST
: case DOUBLE
: case VOID
:
3215 case SHORT
: case VOLATILE
: case BOOL
: case WCHAR
:
3219 case CLASS
: case STRUCT
: case UNION
:
3220 /* This is for the case `STARTWRAP class X : ...' or
3221 `declare (X, Y)\n class A : ...'. */
3229 /* Assumed to be the start of an initialization in this
3231 skip_initializer ();
3235 add_declarator (&cls
, &id
, flags
, sc
);
3240 char *s
= operator_name (&sc
);
3241 id
= (char *) xrealloc (id
, strlen (s
) + 1);
3247 SET_FLAG (flags
, F_INLINE
);
3253 if (LOOKING_AT (IDENT
))
3255 id
= (char *) xrealloc (id
, strlen (yytext
) + 2);
3257 strcpy (id
+ 1, yytext
);
3263 cls
= parse_qualified_ident_or_type (&id
);
3267 /* Most probably the beginning of a parameter list. */
3274 if (!(is_constructor
= streq (id
, cls
->name
)))
3275 regexp
= matching_regexp ();
3280 pos
= BUFFER_POS ();
3281 hash
= parm_list (&flags
);
3284 regexp
= matching_regexp ();
3287 add_member_defn (cls
, id
, regexp
, pos
, hash
, 0,
3292 /* This may be a C functions, but also a macro
3293 call of the form `declare (A, B)' --- such macros
3294 can be found in some class libraries. */
3299 regexp
= matching_regexp ();
3300 pos
= BUFFER_POS ();
3301 hash
= parm_list (&flags
);
3302 add_global_decl (id
, regexp
, pos
, hash
, 0, sc
, flags
);
3305 /* This is for the case that the function really is
3306 a macro with no `;' following it. If a CLASS directly
3307 follows, we would miss it otherwise. */
3308 if (LOOKING_AT3 (CLASS
, STRUCT
, UNION
))
3312 while (!LOOKING_AT3 (';', '{', YYEOF
))
3315 if (!cls
&& id
&& LOOKING_AT ('{'))
3316 add_global_defn (id
, regexp
, pos
, hash
, 0, sc
, flags
);
3324 add_declarator (&cls
, &id
, flags
, sc
);
3328 /* Parse a list of top-level declarations/definitions. START_FLAGS
3329 says in which context we are parsing. If it is F_EXTERNC, we are
3330 parsing in an `extern "C"' block. Value is 1 if EOF is reached, 0
3334 globals (int start_flags
)
3338 int flags
= start_flags
;
3350 if (LOOKING_AT (IDENT
))
3352 char *namespace_name
= xstrdup (yytext
);
3355 if (LOOKING_AT ('='))
3357 struct link
*qna
= match_qualified_namespace_alias ();
3359 register_namespace_alias (namespace_name
, qna
);
3361 if (skip_to (';') == ';')
3364 else if (LOOKING_AT ('{'))
3367 enter_namespace (namespace_name
);
3373 free (namespace_name
);
3380 if (LOOKING_AT (CSTRING
) && *string_start
== 'C'
3381 && *(string_start
+ 1) == '"')
3383 /* This is `extern "C"'. */
3386 if (LOOKING_AT ('{'))
3389 globals (F_EXTERNC
);
3393 SET_FLAG (flags
, F_EXTERNC
);
3399 SKIP_MATCHING_IF ('<');
3400 SET_FLAG (flags
, F_TEMPLATE
);
3403 case CLASS
: case STRUCT
: case UNION
:
3408 /* More than one ident here to allow for MS-DOS and OS/2
3409 specialties like `far', `_Export' etc. Some C++ libs
3410 have constructs like `_OS_DLLIMPORT(_OS_CLIENT)' in front
3411 of the class name. */
3412 while (!LOOKING_AT4 (YYEOF
, ';', ':', '{'))
3414 if (LOOKING_AT (IDENT
))
3419 /* Don't add anonymous unions. */
3420 if (LOOKING_AT2 (':', '{') && !anonymous
)
3421 class_definition (NULL
, class_tk
, flags
, 0);
3424 if (skip_to (';') == ';')
3428 flags
= start_flags
;
3438 declaration (flags
);
3439 flags
= start_flags
;
3444 yyerror ("parse error", NULL
);
3449 /* Parse the current input file. */
3454 while (globals (0) == 0)
3460 /***********************************************************************
3462 ***********************************************************************/
3464 /* Add the list of paths PATH_LIST to the current search path for
3468 add_search_path (char *path_list
)
3472 char *start
= path_list
;
3473 struct search_path
*p
;
3475 while (*path_list
&& *path_list
!= PATH_LIST_SEPARATOR
)
3478 p
= (struct search_path
*) xmalloc (sizeof *p
);
3479 p
->path
= (char *) xmalloc (path_list
- start
+ 1);
3480 memcpy (p
->path
, start
, path_list
- start
);
3481 p
->path
[path_list
- start
] = '\0';
3484 if (search_path_tail
)
3486 search_path_tail
->next
= p
;
3487 search_path_tail
= p
;
3490 search_path
= search_path_tail
= p
;
3492 while (*path_list
== PATH_LIST_SEPARATOR
)
3498 /* Open FILE and return a file handle for it, or -1 if FILE cannot be
3499 opened. Try to find FILE in search_path first, then try the
3500 unchanged file name. */
3503 open_file (char *file
)
3506 static char *buffer
;
3507 static int buffer_size
;
3508 struct search_path
*path
;
3509 int flen
= strlen (file
) + 1; /* +1 for the slash */
3511 filename
= xstrdup (file
);
3513 for (path
= search_path
; path
&& fp
== NULL
; path
= path
->next
)
3515 int len
= strlen (path
->path
) + flen
;
3517 if (len
+ 1 >= buffer_size
)
3519 buffer_size
= max (len
+ 1, 2 * buffer_size
);
3520 buffer
= (char *) xrealloc (buffer
, buffer_size
);
3523 strcpy (buffer
, path
->path
);
3524 strcat (buffer
, "/");
3525 strcat (buffer
, file
);
3526 fp
= fopen (buffer
, "r");
3529 /* Try the original file name. */
3531 fp
= fopen (file
, "r");
3534 yyerror ("cannot open", NULL
);
3540 /* Display usage information and exit program. */
3543 Usage: ebrowse [options] {files}\n\
3545 -a, --append append output to existing file\n\
3546 -f, --files=FILES read input file names from FILE\n\
3547 -I, --search-path=LIST set search path for input files\n\
3548 -m, --min-regexp-length=N set minimum regexp length to N\n\
3549 -M, --max-regexp-length=N set maximum regexp length to N\n\
3550 -n, --no-nested-classes exclude nested classes\n\
3551 -o, --output-file=FILE set output file name to FILE\n\
3552 -p, --position-info print info about position in file\n\
3553 -s, --no-structs-or-unions don't record structs or unions\n\
3554 -v, --verbose be verbose\n\
3555 -V, --very-verbose be very verbose\n\
3556 -x, --no-regexps don't record regular expressions\n\
3557 --help display this help\n\
3558 --version display version info\n\
3565 exit (error
? EXIT_FAILURE
: EXIT_SUCCESS
);
3569 /* Display version and copyright info. The VERSION macro is set
3570 from the Makefile and contains the Emacs version. */
3573 # define VERSION "21"
3579 /* Makes it easier to update automatically. */
3580 char emacs_copyright
[] = "Copyright (C) 2011 Free Software Foundation, Inc.";
3582 printf ("ebrowse %s\n", VERSION
);
3583 puts (emacs_copyright
);
3584 puts ("This program is distributed under the same terms as Emacs.");
3585 exit (EXIT_SUCCESS
);
3589 /* Parse one input file FILE, adding classes and members to the symbol
3593 process_file (char *file
)
3597 fp
= open_file (file
);
3602 /* Give a progress indication if needed. */
3614 /* Read file to inbuffer. */
3617 if (nread
+ READ_CHUNK_SIZE
>= inbuffer_size
)
3619 inbuffer_size
= nread
+ READ_CHUNK_SIZE
+ 1;
3620 inbuffer
= (char *) xrealloc (inbuffer
, inbuffer_size
);
3623 nbytes
= fread (inbuffer
+ nread
, 1, READ_CHUNK_SIZE
, fp
);
3630 inbuffer
[nread
] = '\0';
3632 /* Reinitialize scanner and parser for the new input file. */
3636 /* Parse it and close the file. */
3643 /* Read a line from stream FP and return a pointer to a static buffer
3644 containing its contents without the terminating newline. Value
3645 is null when EOF is reached. */
3648 read_line (FILE *fp
)
3650 static char *buffer
;
3651 static int buffer_size
;
3654 while ((c
= getc (fp
)) != EOF
&& c
!= '\n')
3656 if (i
>= buffer_size
)
3658 buffer_size
= max (100, buffer_size
* 2);
3659 buffer
= (char *) xrealloc (buffer
, buffer_size
);
3665 if (c
== EOF
&& i
== 0)
3668 if (i
== buffer_size
)
3670 buffer_size
= max (100, buffer_size
* 2);
3671 buffer
= (char *) xrealloc (buffer
, buffer_size
);
3675 if (i
> 0 && buffer
[i
- 1] == '\r')
3676 buffer
[i
- 1] = '\0';
3681 /* Main entry point. */
3684 main (int argc
, char **argv
)
3687 int any_inputfiles
= 0;
3688 static const char *out_filename
= DEFAULT_OUTFILE
;
3689 static char **input_filenames
= NULL
;
3690 static int input_filenames_size
= 0;
3691 static int n_input_files
;
3693 filename
= "command line";
3696 while ((i
= getopt_long (argc
, argv
, "af:I:m:M:no:p:svVx",
3697 options
, NULL
)) != EOF
)
3703 info_position
= atoi (optarg
);
3707 f_nested_classes
= 0;
3714 /* Add the name of a file containing more input files. */
3716 if (n_input_files
== input_filenames_size
)
3718 input_filenames_size
= max (10, 2 * input_filenames_size
);
3719 input_filenames
= (char **) xrealloc ((void *)input_filenames
,
3720 input_filenames_size
);
3722 input_filenames
[n_input_files
++] = xstrdup (optarg
);
3725 /* Append new output to output file instead of truncating it. */
3730 /* Include structs in the output */
3735 /* Be verbose (give a progress indication). */
3740 /* Be very verbose (print file names as they are processed). */
3746 /* Change the name of the output file. */
3748 out_filename
= optarg
;
3751 /* Set minimum length for regular expression strings
3752 when recorded in the output file. */
3754 min_regexp
= atoi (optarg
);
3757 /* Set maximum length for regular expression strings
3758 when recorded in the output file. */
3760 max_regexp
= atoi (optarg
);
3763 /* Add to search path. */
3765 add_search_path (optarg
);
3779 /* Call init_scanner after command line flags have been processed to be
3780 able to add keywords depending on command line (not yet
3785 /* Open output file */
3790 /* Check that the file to append to exists, and is not
3791 empty. More specifically, it should be a valid file
3792 produced by a previous run of ebrowse, but that's too
3793 difficult to check. */
3797 fp
= fopen (out_filename
, "r");
3800 yyerror ("file `%s' must exist for --append", out_filename
);
3801 exit (EXIT_FAILURE
);
3804 rc
= fseek (fp
, 0, SEEK_END
);
3807 yyerror ("error seeking in file `%s'", out_filename
);
3808 exit (EXIT_FAILURE
);
3814 yyerror ("error getting size of file `%s'", out_filename
);
3815 exit (EXIT_FAILURE
);
3820 yyerror ("file `%s' is empty", out_filename
);
3821 /* It may be ok to use an empty file for appending.
3822 exit (EXIT_FAILURE); */
3828 yyout
= fopen (out_filename
, f_append
? "a" : "w");
3831 yyerror ("cannot open output file `%s'", out_filename
);
3832 exit (EXIT_FAILURE
);
3836 /* Process input files specified on the command line. */
3837 while (optind
< argc
)
3839 process_file (argv
[optind
++]);
3843 /* Process files given on stdin if no files specified. */
3844 if (!any_inputfiles
&& n_input_files
== 0)
3847 while ((file
= read_line (stdin
)) != NULL
)
3848 process_file (file
);
3852 /* Process files from `--files=FILE'. Every line in FILE names
3853 one input file to process. */
3854 for (i
= 0; i
< n_input_files
; ++i
)
3856 FILE *fp
= fopen (input_filenames
[i
], "r");
3859 yyerror ("cannot open input file `%s'", input_filenames
[i
]);
3863 while ((file
= read_line (fp
)) != NULL
)
3864 process_file (file
);
3870 /* Write output file. */
3873 /* Close output file. */
3874 if (yyout
!= stdout
)
3877 return EXIT_SUCCESS
;
3880 /* ebrowse.c ends here */