/* ebrowse.c --- parsing files for the ebrowse C++ browser Copyright (C) 1992-2022 Free Software Foundation, Inc. This file is part of GNU Emacs. GNU Emacs is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. GNU Emacs is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GNU Emacs. If not, see . */ #include #include #include #include #include #include #include #include #include #include #include /* The SunOS compiler doesn't have SEEK_END. */ #ifndef SEEK_END #define SEEK_END 2 #endif /* Files are read in chunks of this number of bytes. */ enum { READ_CHUNK_SIZE = 100 * 1024 }; /* Value is true if strings X and Y compare equal. */ static bool streq (char const *x, char const *y) { return strcmp (x, y) == 0; } static bool filename_eq (char const *x, char const *y) { #ifdef __MSDOS__ return strcasecmp (x, y) == 0; #elif defined WINDOWSNT return stricmp (x, y) == 0; #else return streq (x, y); #endif } /* The default output file name. */ #define DEFAULT_OUTFILE "BROWSE" /* A version string written to the output file. Change this whenever the structure of the output file changes. */ #define EBROWSE_FILE_VERSION "ebrowse 5.0" /* The output file consists of a tree of Lisp objects, with major nodes built out of Lisp structures. These are the heads of the Lisp structs with symbols identifying their type. */ #define TREE_HEADER_STRUCT "[ebrowse-hs " #define TREE_STRUCT "[ebrowse-ts " #define MEMBER_STRUCT "[ebrowse-ms " #define CLASS_STRUCT "[ebrowse-cs " /* The name of the symbol table entry for global functions, variables, defines etc. This name also appears in the browser display. */ #define GLOBALS_NAME "*Globals*" /* Token definitions. */ enum token { YYEOF = 0, /* end of file */ CSTRING = 256, /* string constant */ CCHAR, /* character constant */ CINT, /* integral constant */ CFLOAT, /* real constant */ ELLIPSIS, /* ... */ LSHIFTASGN, /* <<= */ RSHIFTASGN, /* >>= */ ARROWSTAR, /* ->* */ IDENT, /* identifier */ DIVASGN, /* /= */ INC, /* ++ */ ADDASGN, /* += */ DEC, /* -- */ ARROW, /* -> */ SUBASGN, /* -= */ MULASGN, /* *= */ MODASGN, /* %= */ LOR, /* || */ ORASGN, /* |= */ LAND, /* && */ ANDASGN, /* &= */ XORASGN, /* ^= */ POINTSTAR, /* .* */ DCOLON, /* :: */ EQ, /* == */ NE, /* != */ LE, /* <= */ LSHIFT, /* << */ GE, /* >= */ RSHIFT, /* >> */ /* Keywords. The undef's are there because these three symbols are very likely to be defined somewhere. */ #undef BOOL #undef TRUE #undef FALSE ASM, /* asm */ AUTO, /* auto */ BREAK, /* break */ CASE, /* case */ CATCH, /* catch */ CHAR, /* char */ CLASS, /* class */ CONST, /* const */ CONTINUE, /* continue */ DEFAULT, /* default */ DELETE, /* delete */ DO, /* do */ DOUBLE, /* double */ ELSE, /* else */ ENUM, /* enum */ EXTERN, /* extern */ FLOAT, /* float */ FOR, /* for */ FRIEND, /* friend */ GOTO, /* goto */ IF, /* if */ T_INLINE, /* inline */ INT, /* int */ LONG, /* long */ NEW, /* new */ OPERATOR, /* operator */ PRIVATE, /* private */ PROTECTED, /* protected */ PUBLIC, /* public */ REGISTER, /* register */ RETURN, /* return */ SHORT, /* short */ SIGNED, /* signed */ SIZEOF, /* sizeof */ STATIC, /* static */ STRUCT, /* struct */ SWITCH, /* switch */ TEMPLATE, /* template */ THIS, /* this */ THROW, /* throw */ TRY, /* try */ TYPEDEF, /* typedef */ UNION, /* union */ UNSIGNED, /* unsigned */ VIRTUAL, /* virtual */ VOID, /* void */ VOLATILE, /* volatile */ WHILE, /* while */ MUTABLE, /* mutable */ BOOL, /* bool */ TRUE, /* true */ FALSE, /* false */ SIGNATURE, /* signature (GNU extension) */ NAMESPACE, /* namespace */ EXPLICIT, /* explicit */ TYPENAME, /* typename */ CONST_CAST, /* const_cast */ DYNAMIC_CAST, /* dynamic_cast */ REINTERPRET_CAST, /* reinterpret_cast */ STATIC_CAST, /* static_cast */ TYPEID, /* typeid */ USING, /* using */ WCHAR, /* wchar_t */ FINAL /* final */ }; /* Storage classes, in a wider sense. */ enum sc { SC_UNKNOWN, SC_MEMBER, /* Is an instance member. */ SC_STATIC, /* Is static member. */ SC_FRIEND, /* Is friend function. */ SC_TYPE /* Is a type definition. */ }; /* Member visibility. */ enum visibility { V_PUBLIC, V_PROTECTED, V_PRIVATE }; /* Member flags. */ #define F_VIRTUAL 1 /* Is virtual function. */ #define F_INLINE 2 /* Is inline function. */ #define F_CONST 4 /* Is const. */ #define F_PURE 8 /* Is pure virtual function. */ #define F_MUTABLE 16 /* Is mutable. */ #define F_TEMPLATE 32 /* Is a template. */ #define F_EXPLICIT 64 /* Is explicit constructor. */ #define F_THROW 128 /* Has a throw specification. */ #define F_EXTERNC 256 /* Is declared extern "C". */ #define F_DEFINE 512 /* Is a #define. */ /* Set and test a bit in an int. */ static void set_flag (int *f, int flag) { *f |= flag; } static bool has_flag (int f, int flag) { return (f & flag) != 0; } /* Structure describing a class member. */ struct member { struct member *next; /* Next in list of members. */ struct member *anext; /* Collision chain in member_table. */ struct member **list; /* Pointer to list in class. */ unsigned param_hash; /* Hash value for parameter types. */ int vis; /* Visibility (public, ...). */ int flags; /* See F_* above. */ char *regexp; /* Matching regular expression. */ const char *filename; /* Don't free this shared string. */ int pos; /* Buffer position of occurrence. */ char *def_regexp; /* Regular expression matching definition. */ const char *def_filename; /* File name of definition. */ int def_pos; /* Buffer position of definition. */ char name[FLEXIBLE_ARRAY_MEMBER]; /* Member name. */ }; /* Structures of this type are used to connect class structures with their super and subclasses. */ struct link { struct sym *sym; /* The super or subclass. */ struct link *next; /* Next in list or NULL. */ }; /* Structure used to record namespace aliases. */ struct alias { struct alias *next; /* Next in list. */ struct sym *namesp; /* Namespace in which defined. */ struct link *aliasee; /* List of aliased namespaces (A::B::C...). */ char name[FLEXIBLE_ARRAY_MEMBER]; /* Alias name. */ }; /* The structure used to describe a class in the symbol table, or a namespace in all_namespaces. */ struct sym { int flags; /* Is class a template class?. */ unsigned char visited; /* Used to find circles. */ struct sym *next; /* Hash collision list. */ struct link *subs; /* List of subclasses. */ struct link *supers; /* List of superclasses. */ struct member *vars; /* List of instance variables. */ struct member *fns; /* List of instance functions. */ struct member *static_vars; /* List of static variables. */ struct member *static_fns; /* List of static functions. */ struct member *friends; /* List of friend functions. */ struct member *types; /* List of local types. */ char *regexp; /* Matching regular expression. */ int pos; /* Buffer position. */ const char *filename; /* File in which it can be found. */ const char *sfilename; /* File in which members can be found. */ struct sym *namesp; /* Namespace in which defined. . */ char name[FLEXIBLE_ARRAY_MEMBER]; /* Name of the class. */ }; /* Experimental: Print info for `--position-info'. We print '(CLASS-NAME SCOPE MEMBER-NAME). */ #define P_DEFN 1 #define P_DECL 2 static int info_where; static struct sym *info_cls = NULL; static struct member *info_member = NULL; /* Experimental. For option `--position-info', the buffer position we are interested in. When this position is reached, print out information about what we know about that point. */ static int info_position = -1; /* Command line options structure for getopt_long. */ static struct option const options[] = { {"append", no_argument, NULL, 'a'}, {"files", required_argument, NULL, 'f'}, {"help", no_argument, NULL, -2}, {"min-regexp-length", required_argument, NULL, 'm'}, {"max-regexp-length", required_argument, NULL, 'M'}, {"no-nested-classes", no_argument, NULL, 'n'}, {"no-regexps", no_argument, NULL, 'x'}, {"no-structs-or-unions", no_argument, NULL, 's'}, {"output-file", required_argument, NULL, 'o'}, {"position-info", required_argument, NULL, 'p'}, {"search-path", required_argument, NULL, 'I'}, {"verbose", no_argument, NULL, 'v'}, {"version", no_argument, NULL, -3}, {"very-verbose", no_argument, NULL, 'V'}, {NULL, 0, NULL, 0} }; /* Semantic values of tokens. Set by yylex.. */ static unsigned yyival; /* Set for token CINT. */ static char *yytext; /* Set for token IDENT. */ static char *yytext_end; /* Output file. */ static FILE *yyout; /* Current line number. */ static int yyline; /* The name of the current input file. */ static const char *filename; /* Three character class vectors, and macros to test membership of characters. */ static char is_ident[255]; static char is_digit[255]; static char is_white[255]; #define IDENTP(C) is_ident[(unsigned char) (C)] #define DIGITP(C) is_digit[(unsigned char) (C)] #define WHITEP(C) is_white[(unsigned char) (C)] /* Command line flags. */ static int f_append; static int f_verbose; static int f_very_verbose; static int f_structs = 1; static int f_regexps = 1; static int f_nested_classes = 1; /* Maximum and minimum lengths of regular expressions matching a member, class etc., for writing them to the output file. These are overridable from the command line. */ static int min_regexp = 5; static int max_regexp = 50; /* Input buffer. */ static char *inbuffer; static char *in; static size_t inbuffer_size; /* Return the current buffer position in the input file. */ #define BUFFER_POS() (in - inbuffer) /* If current lookahead is CSTRING, the following points to the first character in the string constant. Used for recognizing extern "C". */ static char *string_start; /* The size of the hash tables for classes.and members. Should be prime. */ #define TABLE_SIZE 1001 /* The hash table for class symbols. */ static struct sym *class_table[TABLE_SIZE]; /* Hash table containing all member structures. This is generally faster for member lookup than traversing the member lists of a `struct sym'. */ static struct member *member_table[TABLE_SIZE]; /* Hash table for namespace aliases */ static struct alias *namespace_alias_table[TABLE_SIZE]; /* The special class symbol used to hold global functions, variables etc. */ static struct sym *global_symbols; /* The current namespace. */ static struct sym *current_namespace; /* The list of all known namespaces. */ static struct sym *all_namespaces; /* Stack of namespaces we're currently nested in, during the parse. */ static struct sym **namespace_stack; static int namespace_stack_size; static int namespace_sp; /* The current lookahead token. */ static int tk = -1; /* Structure describing a keyword. */ struct kw { const char *name; /* Spelling. */ int tk; /* Token value. */ struct kw *next; /* Next in collision chain. */ }; /* Keywords are lookup up in a hash table of their own. */ #define KEYWORD_TABLE_SIZE 1001 static struct kw *keyword_table[KEYWORD_TABLE_SIZE]; /* Search path. */ struct search_path { char *path; struct search_path *next; }; static struct search_path *search_path; static struct search_path *search_path_tail; /* Function prototypes. */ static char *matching_regexp (void); static struct sym *add_sym (const char *, struct sym *); static void add_global_defn (char *, char *, int, unsigned, int, int, int); static void add_global_decl (char *, char *, int, unsigned, int, int, int); static struct member *add_member (struct sym *, char *, int, int, unsigned); static void class_definition (struct sym *, const char *, int, int, int); static char *operator_name (int *); static void parse_qualified_param_ident_or_type (char **); /*********************************************************************** Utilities ***********************************************************************/ /* Print an error in a printf-like style with the current input file name and line number. */ static void yyerror (const char *format, const char *s) { fprintf (stderr, "%s:%d: ", filename, yyline); fprintf (stderr, format, s); putc ('\n', stderr); } /* Like malloc but print an error and exit if not enough memory is available. */ static void * ATTRIBUTE_MALLOC xmalloc (size_t nbytes) { void *p = malloc (nbytes); if (p == NULL) { yyerror ("out of memory", NULL); exit (EXIT_FAILURE); } return p; } /* Like realloc but print an error and exit if out of memory. */ static void * xrealloc (void *p, size_t sz) { p = realloc (p, sz); if (p == NULL) { yyerror ("out of memory", NULL); exit (EXIT_FAILURE); } return p; } /* Like strdup, but print an error and exit if not enough memory is available.. If S is null, return null. */ static char * xstrdup (char *s) { if (s) return strcpy (xmalloc (strlen (s) + 1), s); return s; } /*********************************************************************** Symbols ***********************************************************************/ /* Initialize the symbol table. This currently only sets up the special symbol for globals (`*Globals*'). */ static void init_sym (void) { global_symbols = add_sym (GLOBALS_NAME, NULL); } /* Add a symbol for class NAME to the symbol table. NESTED_IN_CLASS is the class in which class NAME was found. If it is null, this means the scope of NAME is the current namespace. If a symbol for NAME already exists, return that. Otherwise create a new symbol and set it to default values. */ static struct sym * add_sym (const char *name, struct sym *nested_in_class) { struct sym *sym; unsigned h; const char *s; struct sym *scope = nested_in_class ? nested_in_class : current_namespace; for (s = name, h = 0; *s; ++s) h = (h << 1) ^ *s; h %= TABLE_SIZE; for (sym = class_table[h]; sym; sym = sym->next) if (streq (name, sym->name) && ((!sym->namesp && !scope) || (sym->namesp && scope && streq (sym->namesp->name, scope->name)))) break; if (sym == NULL) { if (f_very_verbose) { putchar ('\t'); puts (name); } sym = xmalloc (FLEXSIZEOF (struct sym, name, strlen (name) + 1)); memset (sym, 0, offsetof (struct sym, name)); strcpy (sym->name, name); sym->namesp = scope; sym->next = class_table[h]; class_table[h] = sym; } return sym; } /* Add links between superclass SUPER and subclass SUB. */ static void add_link (struct sym *super, struct sym *sub) { struct link *lnk, *lnk2, *p, *prev; /* See if a link already exists. */ for (p = super->subs, prev = NULL; p && strcmp (sub->name, p->sym->name) > 0; prev = p, p = p->next) ; /* Avoid duplicates. */ if (p == NULL || p->sym != sub) { lnk = (struct link *) xmalloc (sizeof *lnk); lnk2 = (struct link *) xmalloc (sizeof *lnk2); lnk->sym = sub; lnk->next = p; if (prev) prev->next = lnk; else super->subs = lnk; lnk2->sym = super; lnk2->next = sub->supers; sub->supers = lnk2; } } /* Find in class CLS member NAME. VAR non-zero means look for a member variable; otherwise a function is searched. SC specifies what kind of member is searched---a static, or per-instance member etc. HASH is a hash code for the parameter types of functions. Value is a pointer to the member found or null if not found. */ static struct member * find_member (struct sym *cls, char *name, int var, int sc, unsigned int hash) { struct member **list; struct member *p; unsigned name_hash = 0; char *s; int i; switch (sc) { case SC_FRIEND: list = &cls->friends; break; case SC_TYPE: list = &cls->types; break; case SC_STATIC: list = var ? &cls->static_vars : &cls->static_fns; break; default: list = var ? &cls->vars : &cls->fns; break; } for (s = name; *s; ++s) name_hash = (name_hash << 1) ^ *s; i = name_hash % TABLE_SIZE; for (p = member_table[i]; p; p = p->anext) if (p->list == list && p->param_hash == hash && streq (name, p->name)) break; return p; } /* Add to class CLS information for the declaration of member NAME. REGEXP is a regexp matching the declaration, if non-null. POS is the position in the source where the declaration is found. HASH is a hash code for the parameter list of the member, if it's a function. VAR non-zero means member is a variable or type. SC specifies the type of member (instance member, static, ...). VIS is the member's visibility (public, protected, private). FLAGS is a bit set giving additional information about the member (see the F_* defines). */ static void add_member_decl (struct sym *cls, char *name, char *regexp, int pos, unsigned int hash, int var, int sc, int vis, int flags) { struct member *m; m = find_member (cls, name, var, sc, hash); if (m == NULL) m = add_member (cls, name, var, sc, hash); /* Have we seen a new filename? If so record that. */ if (!cls->filename || !filename_eq (cls->filename, filename)) m->filename = filename; m->regexp = regexp; m->pos = pos; m->flags = flags; switch (vis) { case PRIVATE: m->vis = V_PRIVATE; break; case PROTECTED: m->vis = V_PROTECTED; break; case PUBLIC: m->vis = V_PUBLIC; break; } info_where = P_DECL; info_cls = cls; info_member = m; } /* Add to class CLS information for the definition of member NAME. REGEXP is a regexp matching the declaration, if non-null. POS is the position in the source where the declaration is found. HASH is a hash code for the parameter list of the member, if it's a function. VAR non-zero means member is a variable or type. SC specifies the type of member (instance member, static, ...). VIS is the member's visibility (public, protected, private). FLAGS is a bit set giving additional information about the member (see the F_* defines). */ static void add_member_defn (struct sym *cls, char *name, char *regexp, int pos, unsigned int hash, int var, int sc, int flags) { struct member *m; if (sc == SC_UNKNOWN) { m = find_member (cls, name, var, SC_MEMBER, hash); if (m == NULL) { m = find_member (cls, name, var, SC_STATIC, hash); if (m == NULL) m = add_member (cls, name, var, sc, hash); } } else { m = find_member (cls, name, var, sc, hash); if (m == NULL) m = add_member (cls, name, var, sc, hash); } if (!cls->sfilename) cls->sfilename = filename; if (!filename_eq (cls->sfilename, filename)) m->def_filename = filename; m->def_regexp = regexp; m->def_pos = pos; m->flags |= flags; info_where = P_DEFN; info_cls = cls; info_member = m; } /* Add a symbol for a define named NAME to the symbol table. REGEXP is a regular expression matching the define in the source, if it is non-null. POS is the position in the file. */ static void add_define (char *name, char *regexp, int pos) { add_global_defn (name, regexp, pos, 0, 1, SC_FRIEND, F_DEFINE); add_global_decl (name, regexp, pos, 0, 1, SC_FRIEND, F_DEFINE); } /* Add information for the global definition of NAME. REGEXP is a regexp matching the declaration, if non-null. POS is the position in the source where the declaration is found. HASH is a hash code for the parameter list of the member, if it's a function. VAR non-zero means member is a variable or type. SC specifies the type of member (instance member, static, ...). VIS is the member's visibility (public, protected, private). FLAGS is a bit set giving additional information about the member (see the F_* defines). */ static void add_global_defn (char *name, char *regexp, int pos, unsigned int hash, int var, int sc, int flags) { int i; struct sym *sym; /* Try to find out for which classes a function is a friend, and add what we know about it to them. */ if (!var) for (i = 0; i < TABLE_SIZE; ++i) for (sym = class_table[i]; sym; sym = sym->next) if (sym != global_symbols && sym->friends) if (find_member (sym, name, 0, SC_FRIEND, hash)) add_member_defn (sym, name, regexp, pos, hash, 0, SC_FRIEND, flags); /* Add to global symbols. */ add_member_defn (global_symbols, name, regexp, pos, hash, var, sc, flags); } /* Add information for the global declaration of NAME. REGEXP is a regexp matching the declaration, if non-null. POS is the position in the source where the declaration is found. HASH is a hash code for the parameter list of the member, if it's a function. VAR non-zero means member is a variable or type. SC specifies the type of member (instance member, static, ...). VIS is the member's visibility (public, protected, private). FLAGS is a bit set giving additional information about the member (see the F_* defines). */ static void add_global_decl (char *name, char *regexp, int pos, unsigned int hash, int var, int sc, int flags) { /* Add declaration only if not already declared. Header files must be processed before source files for this to have the right effect. I do not want to handle implicit declarations at the moment. */ struct member *m; struct member *found; m = found = find_member (global_symbols, name, var, sc, hash); if (m == NULL) m = add_member (global_symbols, name, var, sc, hash); /* Definition already seen => probably last declaration implicit. Override. This means that declarations must always be added to the symbol table before definitions. */ if (!found) { if (!global_symbols->filename || !filename_eq (global_symbols->filename, filename)) m->filename = filename; m->regexp = regexp; m->pos = pos; m->vis = V_PUBLIC; m->flags = flags; info_where = P_DECL; info_cls = global_symbols; info_member = m; } } /* Add a symbol for member NAME to class CLS. VAR non-zero means it's a variable. SC specifies the kind of member. HASH is a hash code for the parameter types of a function. Value is a pointer to the member's structure. */ static struct member * add_member (struct sym *cls, char *name, int var, int sc, unsigned int hash) { struct member *m = xmalloc (FLEXSIZEOF (struct member, name, strlen (name) + 1)); struct member **list; struct member *p; struct member *prev; unsigned name_hash = 0; int i; char *s; strcpy (m->name, name); m->param_hash = hash; m->vis = 0; m->flags = 0; m->regexp = NULL; m->filename = NULL; m->pos = 0; m->def_regexp = NULL; m->def_filename = NULL; m->def_pos = 0; assert (cls != NULL); switch (sc) { case SC_FRIEND: list = &cls->friends; break; case SC_TYPE: list = &cls->types; break; case SC_STATIC: list = var ? &cls->static_vars : &cls->static_fns; break; default: list = var ? &cls->vars : &cls->fns; break; } for (s = name; *s; ++s) name_hash = (name_hash << 1) ^ *s; i = name_hash % TABLE_SIZE; m->anext = member_table[i]; member_table[i] = m; m->list = list; /* Keep the member list sorted. It's cheaper to do it here than to sort them in Lisp. */ for (prev = NULL, p = *list; p && strcmp (name, p->name) > 0; prev = p, p = p->next) ; m->next = p; if (prev) prev->next = m; else *list = m; return m; } /* Given the root R of a class tree, step through all subclasses recursively, marking functions as virtual that are declared virtual in base classes. */ static void mark_virtual (struct sym *r) { struct link *p; struct member *m, *m2; for (p = r->subs; p; p = p->next) { for (m = r->fns; m; m = m->next) if (has_flag (m->flags, F_VIRTUAL)) { for (m2 = p->sym->fns; m2; m2 = m2->next) if (m->param_hash == m2->param_hash && streq (m->name, m2->name)) set_flag (&m2->flags, F_VIRTUAL); } mark_virtual (p->sym); } } /* For all roots of the class tree, mark functions as virtual that are virtual because of a virtual declaration in a base class. */ static void mark_inherited_virtual (void) { struct sym *r; int i; for (i = 0; i < TABLE_SIZE; ++i) for (r = class_table[i]; r; r = r->next) if (r->supers == NULL) mark_virtual (r); } /* Create and return a symbol for a namespace with name NAME. */ static struct sym * make_namespace (char *name, struct sym *context) { struct sym *s = xmalloc (FLEXSIZEOF (struct sym, name, strlen (name) + 1)); memset (s, 0, offsetof (struct sym, name)); strcpy (s->name, name); s->next = all_namespaces; s->namesp = context; all_namespaces = s; return s; } /* Find the symbol for namespace NAME. If not found, return NULL */ static struct sym * check_namespace (char *name, struct sym *context) { struct sym *p = NULL; for (p = all_namespaces; p; p = p->next) { if (streq (p->name, name) && (p->namesp == context)) break; } return p; } /* Find the symbol for namespace NAME. If not found, add a new symbol for NAME to all_namespaces. */ static struct sym * find_namespace (char *name, struct sym *context) { struct sym *p = check_namespace (name, context); if (p == NULL) p = make_namespace (name, context); return p; } /* Find namespace alias with name NAME. If not found return NULL. */ static struct link * check_namespace_alias (char *name) { struct link *p = NULL; struct alias *al; unsigned h; char *s; for (s = name, h = 0; *s; ++s) h = (h << 1) ^ *s; h %= TABLE_SIZE; for (al = namespace_alias_table[h]; al; al = al->next) if (streq (name, al->name) && (al->namesp == current_namespace)) { p = al->aliasee; break; } return p; } /* Register the name NEW_NAME as an alias for namespace list OLD_NAME. */ static void register_namespace_alias (char *new_name, struct link *old_name) { unsigned h; char *s; struct alias *al; for (s = new_name, h = 0; *s; ++s) h = (h << 1) ^ *s; h %= TABLE_SIZE; /* Is it already in the table of aliases? */ for (al = namespace_alias_table[h]; al; al = al->next) if (streq (new_name, al->name) && (al->namesp == current_namespace)) return; al = xmalloc (FLEXSIZEOF (struct alias, name, strlen (new_name) + 1)); strcpy (al->name, new_name); al->next = namespace_alias_table[h]; al->namesp = current_namespace; al->aliasee = old_name; namespace_alias_table[h] = al; } /* Enter namespace with name NAME. */ static void enter_namespace (char *name) { struct sym *p = find_namespace (name, current_namespace); if (namespace_sp == namespace_stack_size) { int size = max (10, 2 * namespace_stack_size); namespace_stack = (struct sym **) xrealloc ((void *)namespace_stack, size * sizeof *namespace_stack); namespace_stack_size = size; } namespace_stack[namespace_sp++] = current_namespace; current_namespace = p; } /* Leave the current namespace. */ static void leave_namespace (void) { assert (namespace_sp > 0); current_namespace = namespace_stack[--namespace_sp]; } /*********************************************************************** Writing the Output File ***********************************************************************/ /* Write string S to the output file FP in a Lisp-readable form. If S is null, write out `()'. */ static void putstr (const char *s, FILE *fp) { if (!s) { putc ('(', fp); putc (')', fp); putc (' ', fp); } else { putc ('"', fp); fputs (s, fp); putc ('"', fp); putc (' ', fp); } } /* A dynamically allocated buffer for constructing a scope name. */ static char *scope_buffer; static int scope_buffer_size; static int scope_buffer_len; /* Make sure scope_buffer has enough room to add LEN chars to it. */ static void ensure_scope_buffer_room (int len) { if (scope_buffer_len + len >= scope_buffer_size) { int new_size = max (2 * scope_buffer_size, scope_buffer_len + len); scope_buffer = (char *) xrealloc (scope_buffer, new_size); scope_buffer_size = new_size; } } /* Recursively add the scope names of symbol P and the scopes of its namespaces to scope_buffer. Value is a pointer to the complete scope name constructed. */ static char * sym_scope_1 (struct sym *p) { int len; if (p->namesp) sym_scope_1 (p->namesp); if (*scope_buffer) { ensure_scope_buffer_room (3); strcpy (scope_buffer + scope_buffer_len, "::"); scope_buffer_len += 2; } len = strlen (p->name); ensure_scope_buffer_room (len + 1); strcpy (scope_buffer + scope_buffer_len, p->name); scope_buffer_len += len; if (has_flag (p->flags, F_TEMPLATE)) { ensure_scope_buffer_room (3); strcpy (scope_buffer + scope_buffer_len, "<>"); scope_buffer_len += 2; } return scope_buffer; } /* Return the scope of symbol P in printed representation, i.e. as it would appear in a C*+ source file. */ static char * sym_scope (struct sym *p) { if (!scope_buffer) { scope_buffer_size = 1024; scope_buffer = (char *) xmalloc (scope_buffer_size); } *scope_buffer = '\0'; scope_buffer_len = 0; if (p->namesp) sym_scope_1 (p->namesp); return scope_buffer; } /* Dump the list of members M to file FP. */ static void dump_members (FILE *fp, struct member *m) { putc ('(', fp); for (; m; m = m->next) { fputs (MEMBER_STRUCT, fp); putstr (m->name, fp); putstr (NULL, fp); /* FIXME? scope for globals */ fprintf (fp, "%u ", (unsigned) m->flags); putstr (m->filename, fp); putstr (m->regexp, fp); fprintf (fp, "%u ", (unsigned) m->pos); fprintf (fp, "%u ", (unsigned) m->vis); putc (' ', fp); putstr (m->def_filename, fp); putstr (m->def_regexp, fp); fprintf (fp, "%u", (unsigned) m->def_pos); putc (']', fp); putc ('\n', fp); } putc (')', fp); putc ('\n', fp); } /* Dump class ROOT to stream FP. */ static void dump_sym (FILE *fp, struct sym *root) { fputs (CLASS_STRUCT, fp); putstr (root->name, fp); /* Print scope, if any. */ if (root->namesp) putstr (sym_scope (root), fp); else putstr (NULL, fp); /* Print flags. */ fprintf (fp, "%d", root->flags); putstr (root->filename, fp); putstr (root->regexp, fp); fprintf (fp, "%u", (unsigned) root->pos); putstr (root->sfilename, fp); putc (']', fp); putc ('\n', fp); } /* Dump class ROOT and its subclasses to file FP. */ static void dump_tree (FILE *fp, struct sym *root) { dump_sym (fp, root); if (f_verbose) { putchar ('+'); fflush (stdout); } putc ('(', fp); for (struct link *lk = root->subs; lk; lk = lk->next) { fputs (TREE_STRUCT, fp); dump_tree (fp, lk->sym); putc (']', fp); } putc (')', fp); dump_members (fp, root->vars); dump_members (fp, root->fns); dump_members (fp, root->static_vars); dump_members (fp, root->static_fns); dump_members (fp, root->friends); dump_members (fp, root->types); /* Superclasses. */ putc ('(', fp); putc (')', fp); /* Mark slot. */ putc ('(', fp); putc (')', fp); putc ('\n', fp); } /* Dump the entire class tree to file FP. */ static void dump_roots (FILE *fp) { /* Output file header containing version string, command line options etc. */ if (!f_append) { fputs (TREE_HEADER_STRUCT, fp); putstr (EBROWSE_FILE_VERSION, fp); putc ('\"', fp); if (!f_structs) fputs (" -s", fp); if (f_regexps) fputs (" -x", fp); putc ('\"', fp); fputs (" ()", fp); fputs (" ()", fp); putc (']', fp); } /* Mark functions as virtual that are so because of functions declared virtual in base classes. */ mark_inherited_virtual (); /* Dump the roots of the graph. */ for (int i = 0; i < TABLE_SIZE; ++i) for (struct sym *r = class_table[i]; r; r = r->next) if (!r->supers) { fputs (TREE_STRUCT, fp); dump_tree (fp, r); putc (']', fp); } if (f_verbose) putchar ('\n'); } /*********************************************************************** Scanner ***********************************************************************/ #ifdef DEBUG #define INCREMENT_LINENO \ do { \ if (f_very_verbose) \ { \ ++yyline; \ printf ("%d:\n", yyline); \ } \ else \ ++yyline; \ } while (0) #else #define INCREMENT_LINENO ++yyline #endif /* Define two macros for accessing the input buffer (current input file). GET(C) sets C to the next input character and advances the input pointer. UNGET retracts the input pointer. */ #define GET(C) ((C) = *in++) #define UNGET() (--in) /* Process a preprocessor line. Value is the next character from the input buffer not consumed. */ static int process_pp_line (void) { int in_comment = 0, in_string = 0; int c; char *p = yytext; /* Skip over white space. The `#' has been consumed already. */ while (WHITEP (GET (c))) ; /* Read the preprocessor command (if any). */ while (IDENTP (c)) { *p++ = c; GET (c); } /* Is it a `define'? */ *p = '\0'; if (*yytext && streq (yytext, "define")) { p = yytext; while (WHITEP (c)) GET (c); while (IDENTP (c)) { *p++ = c; GET (c); } *p = '\0'; if (*yytext) { char *regexp = matching_regexp (); int pos = BUFFER_POS (); add_define (yytext, regexp, pos); } } while (c && (c != '\n' || in_comment || in_string)) { if (c == '\\') GET (c); else if (c == '/' && !in_comment) { if (GET (c) == '*') in_comment = 1; } else if (c == '*' && in_comment) { if (GET (c) == '/') in_comment = 0; } else if (c == '"') in_string = !in_string; if (c == '\n') INCREMENT_LINENO; GET (c); } return c; } /* Value is the next token from the input buffer. */ static int yylex (void) { int c; char end_char; char *p; for (;;) { while (WHITEP (GET (c))) ; switch (c) { case '\n': INCREMENT_LINENO; break; case '\r': break; case 0: /* End of file. */ return YYEOF; case '\\': GET (c); break; case '"': case '\'': /* String and character constants. */ end_char = c; string_start = in; while (GET (c) && c != end_char) { switch (c) { case '\\': /* Escape sequences. */ if (!GET (c)) { if (end_char == '\'') yyerror ("EOF in character constant", NULL); else yyerror ("EOF in string constant", NULL); goto end_string; } else switch (c) { case '\n': INCREMENT_LINENO; case 'a': case 'b': case 'f': case 'n': case 'r': case 't': case 'v': break; case 'x': { /* Hexadecimal escape sequence. */ int i; for (i = 0; i < 2; ++i) { GET (c); if (c >= '0' && c <= '7') ; else if (c >= 'a' && c <= 'f') ; else if (c >= 'A' && c <= 'F') ; else { UNGET (); break; } } } break; case '0': { /* Octal escape sequence. */ int i; for (i = 0; i < 3; ++i) { GET (c); if (c >= '0' && c <= '7') ; else { UNGET (); break; } } } break; default: break; } break; case '\n': if (end_char == '\'') yyerror ("newline in character constant", NULL); else yyerror ("newline in string constant", NULL); INCREMENT_LINENO; break; default: break; } } end_string: return end_char == '\'' ? CCHAR : CSTRING; case 'a': case 'b': case 'c': case 'd': case 'e': case 'f': case 'g': case 'h': case 'i': case 'j': case 'k': case 'l': case 'm': case 'n': case 'o': case 'p': case 'q': case 'r': case 's': case 't': case 'u': case 'v': case 'w': case 'x': case 'y': case 'z': case 'A': case 'B': case 'C': case 'D': case 'E': case 'F': case 'G': case 'H': case 'I': case 'J': case 'K': case 'L': case 'M': case 'N': case 'O': case 'P': case 'Q': case 'R': case 'S': case 'T': case 'U': case 'V': case 'W': case 'X': case 'Y': case 'Z': case '_': { /* Identifier and keywords. */ unsigned hash; struct kw *k; p = yytext; *p++ = hash = c; while (IDENTP (GET (*p))) { hash = (hash << 1) ^ *p++; if (p == yytext_end - 1) { int size = yytext_end - yytext; yytext = (char *) xrealloc (yytext, 2 * size); yytext_end = yytext + 2 * size; p = yytext + size - 1; } } UNGET (); *p = 0; for (k = keyword_table[hash % KEYWORD_TABLE_SIZE]; k; k = k->next) if (streq (k->name, yytext)) return k->tk; return IDENT; } case '/': /* C and C++ comments, '/' and '/='. */ switch (GET (c)) { case '*': while (GET (c)) { switch (c) { case '*': if (GET (c) == '/') goto comment_end; UNGET (); break; case '\\': GET (c); break; case '\n': INCREMENT_LINENO; break; } } comment_end:; break; case '=': return DIVASGN; case '/': while (GET (c) && c != '\n') ; /* Don't try to read past the end of the input buffer if the file ends in a C++ comment without a newline. */ if (c == 0) return YYEOF; INCREMENT_LINENO; break; default: UNGET (); return '/'; } break; case '+': if (GET (c) == '+') return INC; else if (c == '=') return ADDASGN; UNGET (); return '+'; case '-': switch (GET (c)) { case '-': return DEC; case '>': if (GET (c) == '*') return ARROWSTAR; UNGET (); return ARROW; case '=': return SUBASGN; } UNGET (); return '-'; case '*': if (GET (c) == '=') return MULASGN; UNGET (); return '*'; case '%': if (GET (c) == '=') return MODASGN; UNGET (); return '%'; case '|': if (GET (c) == '|') return LOR; else if (c == '=') return ORASGN; UNGET (); return '|'; case '&': if (GET (c) == '&') return LAND; else if (c == '=') return ANDASGN; UNGET (); return '&'; case '^': if (GET (c) == '=') return XORASGN; UNGET (); return '^'; case '.': if (GET (c) == '*') return POINTSTAR; else if (c == '.') { if (GET (c) != '.') yyerror ("invalid token '..' ('...' assumed)", NULL); UNGET (); return ELLIPSIS; } else if (!DIGITP (c)) { UNGET (); return '.'; } goto mantissa; case ':': if (GET (c) == ':') return DCOLON; UNGET (); return ':'; case '=': if (GET (c) == '=') return EQ; UNGET (); return '='; case '!': if (GET (c) == '=') return NE; UNGET (); return '!'; case '<': switch (GET (c)) { case '=': return LE; case '<': if (GET (c) == '=') return LSHIFTASGN; UNGET (); return LSHIFT; } UNGET (); return '<'; case '>': switch (GET (c)) { case '=': return GE; case '>': if (GET (c) == '=') return RSHIFTASGN; UNGET (); return RSHIFT; } UNGET (); return '>'; case '#': c = process_pp_line (); if (c == 0) return YYEOF; break; case '(': case ')': case '[': case ']': case '{': case '}': case ';': case ',': case '?': case '~': return c; case '0': yyival = 0; if (GET (c) == 'x' || c == 'X') { while (GET (c)) { if (DIGITP (c)) yyival = yyival * 16 + c - '0'; else if (c >= 'a' && c <= 'f') yyival = yyival * 16 + c - 'a' + 10; else if (c >= 'A' && c <= 'F') yyival = yyival * 16 + c - 'A' + 10; else break; } goto int_suffixes; } else if (c == '.') goto mantissa; while (c >= '0' && c <= '7') { yyival = (yyival << 3) + c - '0'; GET (c); } int_suffixes: /* Integer suffixes. */ while (isalpha (c)) GET (c); UNGET (); return CINT; case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': /* Integer or floating constant, part before '.'. */ yyival = c - '0'; while (GET (c) && DIGITP (c)) yyival = 10 * yyival + c - '0'; if (c != '.') goto int_suffixes; mantissa: /* Digits following '.'. */ while (DIGITP (c)) GET (c); /* Optional exponent. */ if (c == 'E' || c == 'e') { if (GET (c) == '-' || c == '+') GET (c); while (DIGITP (c)) GET (c); } /* Optional type suffixes. */ while (isalpha (c)) GET (c); UNGET (); return CFLOAT; default: break; } } } /* Actually local to matching_regexp. These variables must be in global scope for the case that `static' gets defined away. */ static char *matching_regexp_buffer, *matching_regexp_end_buf; /* Value is the string from the start of the line to the current position in the input buffer, or maybe a bit more if that string is shorter than min_regexp. */ static char * matching_regexp (void) { char *p; char *s; char *t; if (!f_regexps) return NULL; if (matching_regexp_buffer == NULL) { matching_regexp_buffer = (char *) xmalloc (max_regexp); matching_regexp_end_buf = &matching_regexp_buffer[max_regexp] - 1; } /* Scan back to previous newline of buffer start. */ for (p = in - 1; p > inbuffer && *p != '\n'; --p) ; if (*p == '\n') { while (in - p < min_regexp && p > inbuffer) { /* Line probably not significant enough */ for (--p; p > inbuffer && *p != '\n'; --p) ; } if (*p == '\n') ++p; } /* Copy from end to make sure significant portions are included. This implies that in the browser a regular expressing of the form `^.*{regexp}' has to be used. */ for (s = matching_regexp_end_buf - 1, t = in; s > matching_regexp_buffer && t > p;) { *--s = *--t; if (*s == '"' || *s == '\\') { if (s > matching_regexp_buffer) *--s = '\\'; else { s++; break; } } } *(matching_regexp_end_buf - 1) = '\0'; return xstrdup (s); } /* Return a printable representation of token T. */ static const char * token_string (int t) { static char b[3]; switch (t) { case CSTRING: return "string constant"; case CCHAR: return "char constant"; case CINT: return "int constant"; case CFLOAT: return "floating constant"; case ELLIPSIS: return "..."; case LSHIFTASGN: return "<<="; case RSHIFTASGN: return ">>="; case ARROWSTAR: return "->*"; case IDENT: return "identifier"; case DIVASGN: return "/="; case INC: return "++"; case ADDASGN: return "+="; case DEC: return "--"; case ARROW: return "->"; case SUBASGN: return "-="; case MULASGN: return "*="; case MODASGN: return "%="; case LOR: return "||"; case ORASGN: return "|="; case LAND: return "&&"; case ANDASGN: return "&="; case XORASGN: return "^="; case POINTSTAR: return ".*"; case DCOLON: return "::"; case EQ: return "=="; case NE: return "!="; case LE: return "<="; case LSHIFT: return "<<"; case GE: return ">="; case RSHIFT: return ">>"; case ASM: return "asm"; case AUTO: return "auto"; case BREAK: return "break"; case CASE: return "case"; case CATCH: return "catch"; case CHAR: return "char"; case CLASS: return "class"; case CONST: return "const"; case CONTINUE: return "continue"; case DEFAULT: return "default"; case DELETE: return "delete"; case DO: return "do"; case DOUBLE: return "double"; case ELSE: return "else"; case ENUM: return "enum"; case EXTERN: return "extern"; case FLOAT: return "float"; case FOR: return "for"; case FRIEND: return "friend"; case GOTO: return "goto"; case IF: return "if"; case T_INLINE: return "inline"; case INT: return "int"; case LONG: return "long"; case NEW: return "new"; case OPERATOR: return "operator"; case PRIVATE: return "private"; case PROTECTED: return "protected"; case PUBLIC: return "public"; case REGISTER: return "register"; case RETURN: return "return"; case SHORT: return "short"; case SIGNED: return "signed"; case SIZEOF: return "sizeof"; case STATIC: return "static"; case STRUCT: return "struct"; case SWITCH: return "switch"; case TEMPLATE: return "template"; case THIS: return "this"; case THROW: return "throw"; case TRY: return "try"; case TYPEDEF: return "typedef"; case UNION: return "union"; case UNSIGNED: return "unsigned"; case VIRTUAL: return "virtual"; case VOID: return "void"; case VOLATILE: return "volatile"; case WHILE: return "while"; case MUTABLE: return "mutable"; case BOOL: return "bool"; case TRUE: return "true"; case FALSE: return "false"; case SIGNATURE: return "signature"; case NAMESPACE: return "namespace"; case EXPLICIT: return "explicit"; case TYPENAME: return "typename"; case CONST_CAST: return "const_cast"; case DYNAMIC_CAST: return "dynamic_cast"; case REINTERPRET_CAST: return "reinterpret_cast"; case STATIC_CAST: return "static_cast"; case TYPEID: return "typeid"; case USING: return "using"; case WCHAR: return "wchar_t"; case YYEOF: return "EOF"; case FINAL: return "final"; default: if (t < 255) { b[0] = t; b[1] = '\0'; return b; } else return "???"; } } /* Reinitialize the scanner for a new input file. */ static void re_init_scanner (void) { in = inbuffer; yyline = 1; if (yytext == NULL) { int size = 256; yytext = (char *) xmalloc (size * sizeof *yytext); yytext_end = yytext + size; } } /* Insert a keyword NAME with token value TKV into the keyword hash table. */ static void insert_keyword (const char *name, int tkv) { const char *s; unsigned h = 0; struct kw *k = (struct kw *) xmalloc (sizeof *k); for (s = name; *s; ++s) h = (h << 1) ^ *s; h %= KEYWORD_TABLE_SIZE; k->name = name; k->tk = tkv; k->next = keyword_table[h]; keyword_table[h] = k; } /* Initialize the scanner for the first file. This sets up the character class vectors and fills the keyword hash table. */ static void init_scanner (void) { int i; /* Allocate the input buffer */ inbuffer_size = READ_CHUNK_SIZE + 1; inbuffer = in = (char *) xmalloc (inbuffer_size); yyline = 1; /* Set up character class vectors. */ for (i = 0; i < sizeof is_ident; ++i) { if (i == '_' || isalnum (i)) is_ident[i] = 1; if (i >= '0' && i <= '9') is_digit[i] = 1; if (i == ' ' || i == '\t' || i == '\f' || i == '\v') is_white[i] = 1; } /* Fill keyword hash table. */ insert_keyword ("and", LAND); insert_keyword ("and_eq", ANDASGN); insert_keyword ("asm", ASM); insert_keyword ("auto", AUTO); insert_keyword ("bitand", '&'); insert_keyword ("bitor", '|'); insert_keyword ("bool", BOOL); insert_keyword ("break", BREAK); insert_keyword ("case", CASE); insert_keyword ("catch", CATCH); insert_keyword ("char", CHAR); insert_keyword ("class", CLASS); insert_keyword ("compl", '~'); insert_keyword ("const", CONST); insert_keyword ("const_cast", CONST_CAST); insert_keyword ("continue", CONTINUE); insert_keyword ("default", DEFAULT); insert_keyword ("delete", DELETE); insert_keyword ("do", DO); insert_keyword ("double", DOUBLE); insert_keyword ("dynamic_cast", DYNAMIC_CAST); insert_keyword ("else", ELSE); insert_keyword ("enum", ENUM); insert_keyword ("explicit", EXPLICIT); insert_keyword ("extern", EXTERN); insert_keyword ("false", FALSE); insert_keyword ("final", FINAL); insert_keyword ("float", FLOAT); insert_keyword ("for", FOR); insert_keyword ("friend", FRIEND); insert_keyword ("goto", GOTO); insert_keyword ("if", IF); insert_keyword ("inline", T_INLINE); insert_keyword ("int", INT); insert_keyword ("long", LONG); insert_keyword ("mutable", MUTABLE); insert_keyword ("namespace", NAMESPACE); insert_keyword ("new", NEW); insert_keyword ("not", '!'); insert_keyword ("not_eq", NE); insert_keyword ("operator", OPERATOR); insert_keyword ("or", LOR); insert_keyword ("or_eq", ORASGN); insert_keyword ("private", PRIVATE); insert_keyword ("protected", PROTECTED); insert_keyword ("public", PUBLIC); insert_keyword ("register", REGISTER); insert_keyword ("reinterpret_cast", REINTERPRET_CAST); insert_keyword ("return", RETURN); insert_keyword ("short", SHORT); insert_keyword ("signed", SIGNED); insert_keyword ("sizeof", SIZEOF); insert_keyword ("static", STATIC); insert_keyword ("static_cast", STATIC_CAST); insert_keyword ("struct", STRUCT); insert_keyword ("switch", SWITCH); insert_keyword ("template", TEMPLATE); insert_keyword ("this", THIS); insert_keyword ("throw", THROW); insert_keyword ("true", TRUE); insert_keyword ("try", TRY); insert_keyword ("typedef", TYPEDEF); insert_keyword ("typeid", TYPEID); insert_keyword ("typename", TYPENAME); insert_keyword ("union", UNION); insert_keyword ("unsigned", UNSIGNED); insert_keyword ("using", USING); insert_keyword ("virtual", VIRTUAL); insert_keyword ("void", VOID); insert_keyword ("volatile", VOLATILE); insert_keyword ("wchar_t", WCHAR); insert_keyword ("while", WHILE); insert_keyword ("xor", '^'); insert_keyword ("xor_eq", XORASGN); } /*********************************************************************** Parser ***********************************************************************/ /* Match the current lookahead token and set it to the next token. */ #define MATCH() (tk = yylex ()) /* Return the lookahead token. If current lookahead token is cleared, read a new token. */ #define LA1 (tk == -1 ? (tk = yylex ()) : tk) /* Is the current lookahead equal to the token T? */ #define LOOKING_AT(T) (tk == (T)) /* Is the current lookahead one of T1 or T2? */ #define LOOKING_AT2(T1, T2) (tk == (T1) || tk == (T2)) /* Is the current lookahead one of T1, T2 or T3? */ #define LOOKING_AT3(T1, T2, T3) (tk == (T1) || tk == (T2) || tk == (T3)) /* Is the current lookahead one of T1...T4? */ #define LOOKING_AT4(T1, T2, T3, T4) \ (tk == (T1) || tk == (T2) || tk == (T3) || tk == (T4)) /* Match token T if current lookahead is T. */ #define MATCH_IF(T) if (LOOKING_AT (T)) MATCH (); else ((void) 0) /* Skip to matching token if current token is T. */ #define SKIP_MATCHING_IF(T) \ if (LOOKING_AT (T)) skip_matching (); else ((void) 0) /* Skip forward until a given token TOKEN or YYEOF is seen and return the current lookahead token after skipping. */ static int skip_to (int token) { while (!LOOKING_AT2 (YYEOF, token)) MATCH (); return tk; } /* Skip over pairs of tokens (parentheses, square brackets, angle brackets, curly brackets) matching the current lookahead. */ static void skip_matching (void) { int open, close, n; switch (open = LA1) { case '{': close = '}'; break; case '(': close = ')'; break; case '<': close = '>'; break; case '[': close = ']'; break; default: abort (); } for (n = 0;;) { if (LOOKING_AT (open)) ++n; else if (LOOKING_AT (close)) --n; else if (LOOKING_AT (YYEOF)) break; MATCH (); if (n == 0) break; } } static void skip_initializer (void) { for (;;) { switch (LA1) { case ';': case ',': case YYEOF: return; case '{': case '[': case '(': skip_matching (); break; default: MATCH (); break; } } } /* Build qualified namespace alias (A::B::c) and return it. */ static struct link * match_qualified_namespace_alias (void) { struct link *head = NULL; struct link *cur = NULL; struct link *tmp = NULL; for (;;) { MATCH (); switch (LA1) { case IDENT: tmp = (struct link *) xmalloc (sizeof *cur); tmp->sym = find_namespace (yytext, cur ? cur->sym : NULL); tmp->next = NULL; if (head) { cur = cur->next = tmp; } else { head = cur = tmp; } break; case DCOLON: /* Just skip */ break; default: return head; break; } } } /* Re-initialize the parser by resetting the lookahead token. */ static void re_init_parser (void) { tk = -1; } /* Parse a parameter list, including the const-specifier, pure-specifier, and throw-list that may follow a parameter list. Return in FLAGS what was seen following the parameter list. Returns a hash code for the parameter types. This value is used to distinguish between overloaded functions. */ static unsigned parm_list (int *flags) { unsigned hash = 0; int type_seen = 0; while (!LOOKING_AT2 (YYEOF, ')')) { switch (LA1) { /* Skip over grouping parens or parameter lists in parameter declarations. */ case '(': skip_matching (); break; /* Next parameter. */ case ',': MATCH (); type_seen = 0; break; /* Ignore the scope part of types, if any. This is because some types need scopes when defined outside of a class body, and don't need them inside the class body. This means that we have to look for the last IDENT in a sequence of IDENT::IDENT::... */ case IDENT: if (!type_seen) { char *last_id; unsigned ident_type_hash = 0; parse_qualified_param_ident_or_type (&last_id); if (last_id) { /* LAST_ID null means something like `X::*'. */ for (; *last_id; ++last_id) ident_type_hash = (ident_type_hash << 1) ^ *last_id; hash = (hash << 1) ^ ident_type_hash; type_seen = 1; } } else MATCH (); break; case VOID: /* This distinction is made to make `func (void)' equivalent to `func ()'. */ type_seen = 1; MATCH (); if (!LOOKING_AT (')')) hash = (hash << 1) ^ VOID; break; case BOOL: case CHAR: case CLASS: case CONST: case DOUBLE: case ENUM: case FLOAT: case INT: case LONG: case SHORT: case SIGNED: case STRUCT: case UNION: case UNSIGNED: case VOLATILE: case WCHAR: case ELLIPSIS: type_seen = 1; hash = (hash << 1) ^ LA1; MATCH (); break; case '*': case '&': case '[': case ']': hash = (hash << 1) ^ LA1; MATCH (); break; default: MATCH (); break; } } if (LOOKING_AT (')')) { MATCH (); if (LOOKING_AT (CONST)) { /* We can overload the same function on `const' */ hash = (hash << 1) ^ CONST; set_flag (flags, F_CONST); MATCH (); } if (LOOKING_AT (THROW)) { MATCH (); SKIP_MATCHING_IF ('('); set_flag (flags, F_THROW); } if (LOOKING_AT ('=')) { MATCH (); if (LOOKING_AT (CINT) && yyival == 0) { MATCH (); set_flag (flags, F_PURE); } } } return hash; } /* Print position info to stdout. */ static void print_info (void) { if (info_position >= 0 && BUFFER_POS () <= info_position) if (info_cls) printf ("(\"%s\" \"%s\" \"%s\" %d)\n", info_cls->name, sym_scope (info_cls), info_member->name, info_where); } /* Parse a member declaration within the class body of CLS. VIS is the access specifier for the member (private, protected, public). */ static void member (struct sym *cls, int vis) { char *id = NULL; int sc = SC_MEMBER; char *regexp = NULL; int pos; int is_constructor; int flags = 0; int class_tag; char *class_name; int type_seen = 0; int paren_seen = 0; unsigned hash = 0; int tilde = 0; while (!LOOKING_AT4 (';', '{', '}', YYEOF)) { switch (LA1) { default: MATCH (); break; /* A function or class may follow. */ case TEMPLATE: MATCH (); set_flag (&flags, F_TEMPLATE); /* Skip over template argument list */ SKIP_MATCHING_IF ('<'); break; case EXPLICIT: set_flag (&flags, F_EXPLICIT); goto typeseen; case MUTABLE: set_flag (&flags, F_MUTABLE); goto typeseen; case T_INLINE: set_flag (&flags, F_INLINE); goto typeseen; case VIRTUAL: set_flag (&flags, F_VIRTUAL); goto typeseen; case '[': skip_matching (); break; case ENUM: sc = SC_TYPE; goto typeseen; case TYPEDEF: sc = SC_TYPE; goto typeseen; case FRIEND: sc = SC_FRIEND; goto typeseen; case STATIC: sc = SC_STATIC; goto typeseen; case '~': tilde = 1; MATCH (); break; case IDENT: /* Remember IDENTS seen so far. Among these will be the member name. */ id = (char *) xrealloc (id, strlen (yytext) + 2); if (tilde) { *id = '~'; strcpy (id + 1, yytext); } else strcpy (id, yytext); MATCH (); break; case OPERATOR: { char *s = operator_name (&sc); id = (char *) xrealloc (id, strlen (s) + 1); strcpy (id, s); } break; case '(': /* Most probably the beginning of a parameter list. */ MATCH (); paren_seen = 1; if (id && cls) { if (!(is_constructor = streq (id, cls->name))) regexp = matching_regexp (); } else is_constructor = 0; pos = BUFFER_POS (); hash = parm_list (&flags); if (is_constructor) regexp = matching_regexp (); if (id && cls != NULL) add_member_decl (cls, id, regexp, pos, hash, 0, sc, vis, flags); while (!LOOKING_AT3 (';', '{', YYEOF)) MATCH (); if (LOOKING_AT ('{') && id && cls) add_member_defn (cls, id, regexp, pos, hash, 0, sc, flags); free (id); id = NULL; sc = SC_MEMBER; break; case STRUCT: case UNION: case CLASS: /* Nested class */ class_tag = LA1; type_seen = 1; MATCH (); class_name = NULL; /* More than one ident here to allow for MS-DOS specialties like `_export class' etc. The last IDENT seen counts as the class name. */ while (!LOOKING_AT4 (YYEOF, ';', ':', '{')) { if (LOOKING_AT (IDENT)) { if (class_name) { int size = strlen (yytext); if(strlen (class_name) < size) { class_name = (char *) xrealloc(class_name, size + 1); } memcpy(class_name, yytext, size + 1); } else { class_name = xstrdup(yytext); } } MATCH (); } if (LOOKING_AT2 (':', '{')) class_definition (class_name ? cls : NULL, class_name ? class_name : yytext, class_tag, flags, 1); else skip_to (';'); free(class_name); break; case INT: case CHAR: case LONG: case UNSIGNED: case SIGNED: case CONST: case DOUBLE: case VOID: case SHORT: case VOLATILE: case BOOL: case WCHAR: case TYPENAME: typeseen: type_seen = 1; MATCH (); break; } } if (LOOKING_AT (';')) { /* The end of a member variable, a friend declaration or an access declaration. We don't want to add friend classes as members. */ if (id && sc != SC_FRIEND && cls) { regexp = matching_regexp (); pos = BUFFER_POS (); if (cls != NULL) { if (type_seen || !paren_seen) add_member_decl (cls, id, regexp, pos, 0, 1, sc, vis, 0); else add_member_decl (cls, id, regexp, pos, hash, 0, sc, vis, 0); } } MATCH (); print_info (); } else if (LOOKING_AT ('{')) { /* A named enum. */ if (sc == SC_TYPE && id && cls) { regexp = matching_regexp (); pos = BUFFER_POS (); if (cls != NULL) { add_member_decl (cls, id, regexp, pos, 0, 1, sc, vis, 0); add_member_defn (cls, id, regexp, pos, 0, 1, sc, 0); } } skip_matching (); print_info (); } free (id); } /* Parse the body of class CLS. TAG is the tag of the class (struct, union, class). */ static void class_body (struct sym *cls, int tag) { int vis = tag == CLASS ? PRIVATE : PUBLIC; int temp; while (!LOOKING_AT2 (YYEOF, '}')) { switch (LA1) { case PRIVATE: case PROTECTED: case PUBLIC: temp = LA1; MATCH (); if (LOOKING_AT (':')) { vis = temp; MATCH (); } else { /* Probably conditional compilation for inheritance list. We don't known whether there comes more of this. This is only a crude fix that works most of the time. */ do { MATCH (); } while (LOOKING_AT2 (IDENT, ',') || LOOKING_AT3 (PUBLIC, PROTECTED, PRIVATE)); } break; case TYPENAME: case USING: skip_to (';'); break; /* Try to synchronize */ case CHAR: case CLASS: case CONST: case DOUBLE: case ENUM: case FLOAT: case INT: case LONG: case SHORT: case SIGNED: case STRUCT: case UNION: case UNSIGNED: case VOID: case VOLATILE: case TYPEDEF: case STATIC: case T_INLINE: case FRIEND: case VIRTUAL: case TEMPLATE: case IDENT: case '~': case BOOL: case WCHAR: case EXPLICIT: case MUTABLE: member (cls, vis); break; default: MATCH (); break; } } } /* Parse a qualified identifier. Current lookahead is IDENT. A qualified ident has the form `X<..>::Y<...>::T<...>. Returns a symbol for that class. */ static struct sym * parse_classname (void) { struct sym *last_class = NULL; while (LOOKING_AT (IDENT)) { last_class = add_sym (yytext, last_class); MATCH (); if (LOOKING_AT ('<')) { skip_matching (); set_flag (&last_class->flags, F_TEMPLATE); } if (!LOOKING_AT (DCOLON)) break; MATCH (); } return last_class; } /* Parse an operator name. Add the `static' flag to *SC if an implicitly static operator has been parsed. Value is a pointer to a static buffer holding the constructed operator name string. */ static char * operator_name (int *sc) { static size_t id_size = 0; static char *id = NULL; const char *s; size_t len; MATCH (); if (LOOKING_AT2 (NEW, DELETE)) { /* `new' and `delete' are implicitly static. */ if (*sc != SC_FRIEND) *sc = SC_STATIC; s = token_string (LA1); MATCH (); ptrdiff_t slen = strlen (s); len = slen + 10; if (len > id_size) { size_t new_size = max (len, 2 * id_size); id = (char *) xrealloc (id, new_size); id_size = new_size; } char *z = stpcpy (id, s); /* Vector new or delete? */ if (LOOKING_AT ('[')) { z = stpcpy (z, "["); MATCH (); if (LOOKING_AT (']')) { strcpy (z, "]"); MATCH (); } } } else { size_t tokens_matched = 0; len = 20; if (len > id_size) { int new_size = max (len, 2 * id_size); id = (char *) xrealloc (id, new_size); id_size = new_size; } char *z = stpcpy (id, "operator"); /* Beware access declarations of the form "X::f;" Beware of `operator () ()'. Yet another difficulty is found in GCC 2.95's STL: `operator == __STL_NULL_TMPL_ARGS (...'. */ while (!(LOOKING_AT ('(') && tokens_matched) && !LOOKING_AT2 (';', YYEOF)) { s = token_string (LA1); len += strlen (s) + 2; if (len > id_size) { ptrdiff_t idlen = z - id; size_t new_size = max (len, 2 * id_size); id = (char *) xrealloc (id, new_size); id_size = new_size; z = id + idlen; } if (*s != ')' && *s != ']') *z++ = ' '; z = stpcpy (z, s); MATCH (); /* If this is a simple operator like `+', stop now. */ if (!isalpha ((unsigned char) *s) && *s != '(' && *s != '[') break; ++tokens_matched; } } return id; } /* This one consumes the last IDENT of a qualified member name like `X::Y::z'. This IDENT is returned in LAST_ID. Value is the symbol structure for the ident. */ static struct sym * parse_qualified_ident_or_type (char **last_id) { struct sym *cls = NULL; char *id = NULL; size_t id_size = 0; int enter = 0; while (LOOKING_AT (IDENT)) { int len = strlen (yytext) + 1; if (len > id_size) { id = (char *) xrealloc (id, len); id_size = len; } strcpy (id, yytext); *last_id = id; MATCH (); SKIP_MATCHING_IF ('<'); if (LOOKING_AT (DCOLON)) { struct sym *pcn = NULL; struct link *pna = check_namespace_alias (id); if (pna) { do { enter_namespace (pna->sym->name); enter++; pna = pna->next; } while (pna); } else if ((pcn = check_namespace (id, current_namespace))) { enter_namespace (pcn->name); enter++; } else cls = add_sym (id, cls); *last_id = NULL; free (id); id = NULL; id_size = 0; MATCH (); } else break; } while (enter--) leave_namespace (); return cls; } /* This one consumes the last IDENT of a qualified member name like `X::Y::z'. This IDENT is returned in LAST_ID. Value is the symbol structure for the ident. */ static void parse_qualified_param_ident_or_type (char **last_id) { struct sym *cls = NULL; static char *id = NULL; static int id_size = 0; assert (LOOKING_AT (IDENT)); do { int len = strlen (yytext) + 1; if (len > id_size) { id = (char *) xrealloc (id, len); id_size = len; } strcpy (id, yytext); *last_id = id; MATCH (); SKIP_MATCHING_IF ('<'); if (LOOKING_AT (DCOLON)) { cls = add_sym (id, cls); *last_id = NULL; MATCH (); } else break; } while (LOOKING_AT (IDENT)); } /* Parse a class definition. CONTAINING is the class containing the class being parsed or null. This may also be null if NESTED != 0 if the containing class is anonymous. TAG is the tag of the class (struct, union, class). NESTED is non-zero if we are parsing a nested class. Current lookahead is the class name. */ static void class_definition (struct sym *containing, const char *class_name, int tag, int flags, int nested) { struct sym *current; struct sym *base_class; /* Set CURRENT to null if no entry has to be made for the class parsed. This is the case for certain command line flag settings. */ if ((tag != CLASS && !f_structs) || (nested && !f_nested_classes)) current = NULL; else { current = add_sym (class_name, containing); current->pos = BUFFER_POS (); current->regexp = matching_regexp (); current->filename = filename; current->flags = flags; } /* If at ':', base class list follows. */ if (LOOKING_AT (':')) { int done = 0; MATCH (); while (!done) { switch (LA1) { case VIRTUAL: case PUBLIC: case PROTECTED: case PRIVATE: MATCH (); break; case IDENT: base_class = parse_classname (); if (base_class && current && base_class != current) add_link (base_class, current); break; /* The `,' between base classes or the end of the base class list. Add the previously found base class. It's done this way to skip over sequences of `A::B::C' until we reach the end. FIXME: it is now possible to handle `class X : public B::X' because we have enough information. */ case ',': MATCH (); break; default: /* A syntax error, possibly due to preprocessor constructs like #ifdef SOMETHING class A : public B #else class A : private B. MATCH until we see something like `;' or `{'. */ while (!LOOKING_AT3 (';', YYEOF, '{')) MATCH (); FALLTHROUGH; case '{': done = 1; break; } } } /* Parse the class body if there is one. */ if (LOOKING_AT ('{')) { if (tag != CLASS && !f_structs) skip_matching (); else { MATCH (); class_body (current, tag); if (LOOKING_AT ('}')) { MATCH (); if (LOOKING_AT (';') && !nested) MATCH (); } } } } /* Add to class *CLS information for the declaration of variable or type *ID. If *CLS is null, this means a global declaration. SC is the storage class of *ID. FLAGS is a bit set giving additional information about the member (see the F_* defines). */ static void add_declarator (struct sym **cls, char **id, int flags, int sc) { if (LOOKING_AT2 (';', ',')) { /* The end of a member variable or of an access declaration `X::f'. To distinguish between them we have to know whether type information has been seen. */ if (*id) { char *regexp = matching_regexp (); int pos = BUFFER_POS (); if (*cls) add_member_defn (*cls, *id, regexp, pos, 0, 1, SC_UNKNOWN, flags); else add_global_defn (*id, regexp, pos, 0, 1, sc, flags); } MATCH (); print_info (); } else if (LOOKING_AT ('{')) { if (sc == SC_TYPE && *id) { /* A named enumeration. */ char *regexp = matching_regexp (); int pos = BUFFER_POS (); add_global_defn (*id, regexp, pos, 0, 1, sc, flags); } skip_matching (); print_info (); } free (*id); *id = NULL; *cls = NULL; } /* Parse a declaration. */ static void declaration (int flags) { char *id = NULL; struct sym *cls = NULL; char *regexp = NULL; int pos = 0; unsigned hash = 0; int is_constructor; int sc = 0; while (!LOOKING_AT3 (';', '{', YYEOF)) { switch (LA1) { default: MATCH (); break; case '[': skip_matching (); break; case ENUM: case TYPEDEF: sc = SC_TYPE; MATCH (); break; case STATIC: sc = SC_STATIC; MATCH (); break; case INT: case CHAR: case LONG: case UNSIGNED: case SIGNED: case CONST: case DOUBLE: case VOID: case SHORT: case VOLATILE: case BOOL: case WCHAR: MATCH (); break; case CLASS: case STRUCT: case UNION: /* This is for the case `STARTWRAP class X : ...' or `declare (X, Y)\n class A : ...'. */ if (id) { free (id); return; } FALLTHROUGH; case '=': /* Assumed to be the start of an initialization in this context. */ skip_initializer (); break; case ',': add_declarator (&cls, &id, flags, sc); break; case OPERATOR: { char *s = operator_name (&sc); id = (char *) xrealloc (id, strlen (s) + 1); strcpy (id, s); } break; case T_INLINE: set_flag (&flags, F_INLINE); MATCH (); break; case '~': MATCH (); if (LOOKING_AT (IDENT)) { id = (char *) xrealloc (id, strlen (yytext) + 2); *id = '~'; strcpy (id + 1, yytext); MATCH (); } break; case IDENT: cls = parse_qualified_ident_or_type (&id); break; case '(': /* Most probably the beginning of a parameter list. */ if (cls) { MATCH (); if (id && cls) { if (!(is_constructor = streq (id, cls->name))) regexp = matching_regexp (); } else is_constructor = 0; pos = BUFFER_POS (); hash = parm_list (&flags); if (is_constructor) regexp = matching_regexp (); if (id && cls) add_member_defn (cls, id, regexp, pos, hash, 0, SC_UNKNOWN, flags); } else { /* This may be a C functions, but also a macro call of the form `declare (A, B)' --- such macros can be found in some class libraries. */ MATCH (); if (id) { regexp = matching_regexp (); pos = BUFFER_POS (); hash = parm_list (&flags); add_global_decl (id, regexp, pos, hash, 0, sc, flags); } /* This is for the case that the function really is a macro with no `;' following it. If a CLASS directly follows, we would miss it otherwise. */ if (LOOKING_AT3 (CLASS, STRUCT, UNION)) return; } while (!LOOKING_AT3 (';', '{', YYEOF)) MATCH (); if (!cls && id && LOOKING_AT ('{')) add_global_defn (id, regexp, pos, hash, 0, sc, flags); free (id); id = NULL; break; } } add_declarator (&cls, &id, flags, sc); } /* Parse a list of top-level declarations/definitions. START_FLAGS says in which context we are parsing. If it is F_EXTERNC, we are parsing in an `extern "C"' block. Value is 1 if EOF is reached, 0 otherwise. */ static int globals (int start_flags) { int class_tk; char *class_name; int flags = start_flags; for (;;) { char *prev_in = in; switch (LA1) { case NAMESPACE: { MATCH (); if (LOOKING_AT (IDENT)) { char *namespace_name = xstrdup (yytext); MATCH (); if (LOOKING_AT ('=')) { struct link *qna = match_qualified_namespace_alias (); if (qna) register_namespace_alias (namespace_name, qna); if (skip_to (';') == ';') MATCH (); } else if (LOOKING_AT ('{')) { MATCH (); enter_namespace (namespace_name); globals (0); leave_namespace (); MATCH_IF ('}'); } free (namespace_name); } } break; case EXTERN: MATCH (); if (LOOKING_AT (CSTRING) && *string_start == 'C' && *(string_start + 1) == '"') { /* This is `extern "C"'. */ MATCH (); if (LOOKING_AT ('{')) { MATCH (); globals (F_EXTERNC); MATCH_IF ('}'); } else set_flag (&flags, F_EXTERNC); } break; case TEMPLATE: MATCH (); SKIP_MATCHING_IF ('<'); set_flag (&flags, F_TEMPLATE); break; case CLASS: case STRUCT: case UNION: class_tk = LA1; MATCH (); class_name = NULL; /* More than one ident here to allow for MS-DOS and OS/2 specialties like `far', `_Export' etc. Some C++ libs have constructs like `_OS_DLLIMPORT(_OS_CLIENT)' in front of the class name. */ while (!LOOKING_AT4 (YYEOF, ';', ':', '{')) { if (LOOKING_AT (IDENT)) { if (class_name) { int size = strlen (yytext); if(strlen (class_name) < size) { class_name = (char *) xrealloc(class_name, size + 1); } memcpy(class_name, yytext, size + 1); } else { class_name = xstrdup(yytext); } } MATCH (); } /* Don't add anonymous unions. */ if (LOOKING_AT2 (':', '{') && class_name) class_definition (NULL, class_name, class_tk, flags, 0); else { if (skip_to (';') == ';') MATCH (); } free(class_name); flags = start_flags; break; case YYEOF: return 1; case '}': return 0; default: declaration (flags); flags = start_flags; break; } if (prev_in == in) yyerror ("parse error", NULL); } } /* Parse the current input file. */ static void yyparse (void) { while (globals (0) == 0) MATCH_IF ('}'); } /*********************************************************************** Main Program ***********************************************************************/ /* Add the list of paths PATH_LIST to the current search path for input files. */ static void add_search_path (char *path_list) { while (*path_list) { char *start = path_list; struct search_path *p; while (*path_list && *path_list != SEPCHAR) ++path_list; p = (struct search_path *) xmalloc (sizeof *p); p->path = (char *) xmalloc (path_list - start + 1); memcpy (p->path, start, path_list - start); p->path[path_list - start] = '\0'; p->next = NULL; if (search_path_tail) { search_path_tail->next = p; search_path_tail = p; } else search_path = search_path_tail = p; while (*path_list == SEPCHAR) ++path_list; } } /* Open FILE and return a file handle for it, or -1 if FILE cannot be opened. Try to find FILE in search_path first, then try the unchanged file name. */ static FILE * open_file (char *file) { FILE *fp = NULL; static char *buffer; static int buffer_size; struct search_path *path; int flen = strlen (file) + 1; /* +1 for the slash */ filename = xstrdup (file); for (path = search_path; path && fp == NULL; path = path->next) { int len = strlen (path->path) + flen; if (len + 1 >= buffer_size) { buffer_size = max (len + 1, 2 * buffer_size); buffer = (char *) xrealloc (buffer, buffer_size); } char *z = stpcpy (buffer, path->path); *z++ = '/'; strcpy (z, file); fp = fopen (buffer, "r"); } /* Try the original file name. */ if (fp == NULL) fp = fopen (file, "r"); if (fp == NULL) yyerror ("cannot open", NULL); return fp; } /* Display usage information and exit program. */ static char const *const usage_message[] = { "\ Usage: ebrowse [options] {files}\n\ \n\ -a, --append append output to existing file\n\ -f, --files=FILES read input file names from FILE\n\ -I, --search-path=LIST set search path for input files\n\ -m, --min-regexp-length=N set minimum regexp length to N\n\ -M, --max-regexp-length=N set maximum regexp length to N\n\ ", "\ -n, --no-nested-classes exclude nested classes\n\ -o, --output-file=FILE set output file name to FILE\n\ -p, --position-info print info about position in file\n\ -s, --no-structs-or-unions don't record structs or unions\n\ -v, --verbose be verbose\n\ -V, --very-verbose be very verbose\n\ -x, --no-regexps don't record regular expressions\n\ --help display this help\n\ --version display version info\n\ \n\ " }; static _Noreturn void usage (int error) { int i; for (i = 0; i < sizeof usage_message / sizeof *usage_message; i++) fputs (usage_message[i], stdout); exit (error ? EXIT_FAILURE : EXIT_SUCCESS); } /* Display version and copyright info. */ static _Noreturn void version (void) { fputs (("ebrowse " PACKAGE_VERSION "\n" COPYRIGHT "\n" "This program is distributed under the same terms as Emacs.\n"), stdout); exit (EXIT_SUCCESS); } /* Parse one input file FILE, adding classes and members to the symbol table. */ static void process_file (char *file) { FILE *fp; fp = open_file (file); if (fp) { size_t nread, nbytes; /* Give a progress indication if needed. */ if (f_very_verbose) { puts (filename); fflush (stdout); } else if (f_verbose) { putchar ('.'); fflush (stdout); } /* Read file to inbuffer. */ for (nread = 0;;) { if (nread + READ_CHUNK_SIZE >= inbuffer_size) { inbuffer_size = nread + READ_CHUNK_SIZE + 1; inbuffer = (char *) xrealloc (inbuffer, inbuffer_size); } nbytes = fread (inbuffer + nread, 1, READ_CHUNK_SIZE, fp); if (nbytes == 0) break; nread += nbytes; } inbuffer[nread] = '\0'; /* Reinitialize scanner and parser for the new input file. */ re_init_scanner (); re_init_parser (); /* Parse it and close the file. */ yyparse (); fclose (fp); } } /* Read a line from stream FP and return a pointer to a static buffer containing its contents without the terminating newline. Value is null when EOF is reached. */ static char * read_line (FILE *fp) { static char *buffer; static int buffer_size; int i = 0, c; while ((c = getc (fp)) != EOF && c != '\n') { if (i >= buffer_size) { buffer_size = max (100, buffer_size * 2); buffer = (char *) xrealloc (buffer, buffer_size); } buffer[i++] = c; } if (c == EOF && i == 0) return NULL; if (i == buffer_size) { buffer_size = max (100, buffer_size * 2); buffer = (char *) xrealloc (buffer, buffer_size); } buffer[i] = '\0'; if (i > 0 && buffer[i - 1] == '\r') buffer[i - 1] = '\0'; return buffer; } /* Main entry point. */ int main (int argc, char **argv) { int i; int any_inputfiles = 0; static const char *out_filename = DEFAULT_OUTFILE; static char **input_filenames = NULL; static int input_filenames_size = 0; static int n_input_files; filename = "command line"; yyout = stdout; while ((i = getopt_long (argc, argv, "af:I:m:M:no:p:svVx", options, NULL)) != EOF) { switch (i) { /* Experimental. */ case 'p': info_position = atoi (optarg); break; case 'n': f_nested_classes = 0; break; case 'x': f_regexps = 0; break; /* Add the name of a file containing more input files. */ case 'f': if (n_input_files == input_filenames_size) { input_filenames_size = max (10, 2 * input_filenames_size); input_filenames = (char **) xrealloc ((void *)input_filenames, input_filenames_size); } input_filenames[n_input_files++] = xstrdup (optarg); break; /* Append new output to output file instead of truncating it. */ case 'a': f_append = 1; break; /* Include structs in the output */ case 's': f_structs = 0; break; /* Be verbose (give a progress indication). */ case 'v': f_verbose = 1; break; /* Be very verbose (print file names as they are processed). */ case 'V': f_verbose = 1; f_very_verbose = 1; break; /* Change the name of the output file. */ case 'o': out_filename = optarg; break; /* Set minimum length for regular expression strings when recorded in the output file. */ case 'm': min_regexp = atoi (optarg); break; /* Set maximum length for regular expression strings when recorded in the output file. */ case 'M': max_regexp = atoi (optarg); break; /* Add to search path. */ case 'I': add_search_path (optarg); break; /* Display help */ case -2: usage (0); break; case -3: version (); break; } } /* Call init_scanner after command line flags have been processed to be able to add keywords depending on command line (not yet implemented). */ init_scanner (); init_sym (); /* Open output file */ if (*out_filename) { if (f_append) { /* Check that the file to append to exists, and is not empty. More specifically, it should be a valid file produced by a previous run of ebrowse, but that's too difficult to check. */ FILE *fp; int rc; fp = fopen (out_filename, "r"); if (fp == NULL) { yyerror ("file '%s' must exist for --append", out_filename); exit (EXIT_FAILURE); } rc = fseek (fp, 0, SEEK_END); if (rc == -1) { yyerror ("error seeking in file '%s'", out_filename); exit (EXIT_FAILURE); } rc = ftell (fp); if (rc == -1) { yyerror ("error getting size of file '%s'", out_filename); exit (EXIT_FAILURE); } else if (rc == 0) { yyerror ("file '%s' is empty", out_filename); /* It may be ok to use an empty file for appending. exit (EXIT_FAILURE); */ } fclose (fp); } yyout = fopen (out_filename, f_append ? "a" : "w"); if (yyout == NULL) { yyerror ("cannot open output file '%s'", out_filename); exit (EXIT_FAILURE); } } /* Process input files specified on the command line. */ while (optind < argc) { process_file (argv[optind++]); any_inputfiles = 1; } /* Process files given on stdin if no files specified. */ if (!any_inputfiles && n_input_files == 0) { char *file; while ((file = read_line (stdin)) != NULL) process_file (file); } else { /* Process files from `--files=FILE'. Every line in FILE names one input file to process. */ for (i = 0; i < n_input_files; ++i) { FILE *fp = fopen (input_filenames[i], "r"); if (fp == NULL) yyerror ("cannot open input file '%s'", input_filenames[i]); else { char *file; while ((file = read_line (fp)) != NULL) process_file (file); fclose (fp); } } } /* Write output file. */ dump_roots (yyout); /* Close output file. */ if (yyout != stdout) fclose (yyout); return EXIT_SUCCESS; } /* ebrowse.c ends here */