/* Tags file maker to go with GNU Emacs Copyright (C) 1984, 87, 88, 89, 93, 94, 95, 98, 99 Free Software Foundation, Inc. and Ken Arnold This file is not considered part of GNU Emacs. This program 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 2 of the License, or (at your option) any later version. This program 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 this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /* * Authors: * Ctags originally by Ken Arnold. * Fortran added by Jim Kleckner. * Ed Pelegri-Llopart added C typedefs. * Gnu Emacs TAGS format and modifications by RMS? * Sam Kendall added C++. * Francesco Potorti` reorganised C and C++ based on work by Joe Wells. * Regexp tags by Tom Tromey. * * Francesco Potorti` (F.Potorti@cnuce.cnr.it) is the current maintainer. */ char pot_etags_version[] = "@(#) pot revision number is 13.31"; #define TRUE 1 #define FALSE 0 #define _GNU_SOURCE /* enables some compiler checks on GNU */ #ifndef DEBUG # define DEBUG FALSE #endif #ifdef HAVE_CONFIG_H # include /* On some systems, Emacs defines static as nothing for the sake of unexec. We don't want that here since we don't use unexec. */ # undef static # define ETAGS_REGEXPS /* use the regexp features */ # define LONG_OPTIONS /* accept long options */ #endif /* HAVE_CONFIG_H */ #ifdef MSDOS # include # include # include # ifndef HAVE_CONFIG_H # define DOS_NT # include # endif #endif /* MSDOS */ #ifdef WINDOWSNT # include # include # include # include # define MAXPATHLEN _MAX_PATH # ifdef HAVE_CONFIG_H # undef HAVE_NTGUI # else # define DOS_NT # endif /* not HAVE_CONFIG_H */ # ifndef HAVE_GETCWD # define HAVE_GETCWD # endif /* undef HAVE_GETCWD */ #endif /* WINDOWSNT */ #if !defined (WINDOWSNT) && defined (STDC_HEADERS) #include #include #endif #ifdef HAVE_UNISTD_H # include #else # ifdef HAVE_GETCWD extern char *getcwd (); # endif #endif /* HAVE_UNISTD_H */ #include #include #include #ifndef errno extern int errno; #endif #include #include #if !defined (S_ISREG) && defined (S_IFREG) # define S_ISREG(m) (((m) & S_IFMT) == S_IFREG) #endif #ifdef LONG_OPTIONS # include #else # define getopt_long(argc,argv,optstr,lopts,lind) getopt (argc, argv, optstr) extern char *optarg; extern int optind, opterr; #endif /* LONG_OPTIONS */ #ifdef ETAGS_REGEXPS # include #endif /* ETAGS_REGEXPS */ /* Define CTAGS to make the program "ctags" compatible with the usual one. Leave it undefined to make the program "etags", which makes emacs-style tag tables and tags typedefs, #defines and struct/union/enum by default. */ #ifdef CTAGS # undef CTAGS # define CTAGS TRUE #else # define CTAGS FALSE #endif /* Exit codes for success and failure. */ #ifdef VMS # define GOOD 1 # define BAD 0 #else # define GOOD 0 # define BAD 1 #endif /* C extensions. */ #define C_PLPL 0x00001 /* C++ */ #define C_STAR 0x00003 /* C* */ #define C_JAVA 0x00005 /* JAVA */ #define YACC 0x10000 /* yacc file */ #define streq(s,t) ((DEBUG && (s) == NULL && (t) == NULL \ && (abort (), 1)) || !strcmp (s, t)) #define strneq(s,t,n) ((DEBUG && (s) == NULL && (t) == NULL \ && (abort (), 1)) || !strncmp (s, t, n)) #define lowcase(c) tolower ((char)c) #define CHARS 256 /* 2^sizeof(char) */ #define CHAR(x) ((unsigned int)x & (CHARS - 1)) #define iswhite(c) (_wht[CHAR(c)]) /* c is white */ #define notinname(c) (_nin[CHAR(c)]) /* c is not in a name */ #define begtoken(c) (_btk[CHAR(c)]) /* c can start token */ #define intoken(c) (_itk[CHAR(c)]) /* c can be in token */ #define endtoken(c) (_etk[CHAR(c)]) /* c ends tokens */ /* * xnew, xrnew -- allocate, reallocate storage * * SYNOPSIS: Type *xnew (int n, Type); * Type *xrnew (OldPointer, int n, Type); */ #ifdef chkmalloc # include "chkmalloc.h" # define xnew(n,Type) ((Type *) trace_malloc (__FILE__, __LINE__, \ (n) * sizeof (Type))) # define xrnew(op,n,Type) ((Type *) trace_realloc (__FILE__, __LINE__, \ (op), (n) * sizeof (Type))) #else # define xnew(n,Type) ((Type *) xmalloc ((n) * sizeof (Type))) # define xrnew(op,n,Type) ((Type *) xrealloc ((op), (n) * sizeof (Type))) #endif typedef int bool; typedef void Lang_function (); typedef struct { char *suffix; char *command; /* Takes one arg and decompresses to stdout */ } compressor; typedef struct { char *name; Lang_function *function; char **suffixes; char **interpreters; } language; extern char *getenv (); /* Many compilers barf on this: Lang_function Ada_funcs; so let's write it this way */ void Ada_funcs (); void Asm_labels (); void C_entries (); void default_C_entries (); void plain_C_entries (); void Cjava_entries (); void Cobol_paragraphs (); void Cplusplus_entries (); void Cstar_entries (); void Erlang_functions (); void Fortran_functions (); void Yacc_entries (); void Lisp_functions (); void Pascal_functions (); void Perl_functions (); void Postscript_functions (); void Prolog_functions (); void Python_functions (); void Scheme_functions (); void TeX_functions (); void just_read_file (); compressor *get_compressor_from_suffix (); language *get_language_from_name (); language *get_language_from_interpreter (); language *get_language_from_suffix (); int total_size_of_entries (); long readline (), readline_internal (); void get_tag (); #ifdef ETAGS_REGEXPS void analyse_regex (); void add_regex (); void free_patterns (); #endif /* ETAGS_REGEXPS */ void error (); void suggest_asking_for_help (); void fatal (), pfatal (); void add_node (); void init (); void initbuffer (); void find_entries (); void free_tree (); void pfnote (), new_pfnote (); void process_file (); void put_entries (); void takeprec (); char *concat (); char *skip_spaces (), *skip_non_spaces (); char *savenstr (), *savestr (); char *etags_strchr (), *etags_strrchr (); char *etags_getcwd (); char *relative_filename (), *absolute_filename (), *absolute_dirname (); bool filename_is_absolute (); void canonicalize_filename (); void grow_linebuffer (); long *xmalloc (), *xrealloc (); char searchar = '/'; /* use /.../ searches */ char *tagfile; /* output file */ char *progname; /* name this program was invoked with */ char *cwd; /* current working directory */ char *tagfiledir; /* directory of tagfile */ FILE *tagf; /* ioptr for tags file */ char *curfile; /* current input file name */ language *curlang; /* current language */ int lineno; /* line number of current line */ long charno; /* current character number */ long linecharno; /* charno of start of current line */ char *dbp; /* pointer to start of current tag */ typedef struct node_st { /* sorting structure */ char *name; /* function or type name */ char *file; /* file name */ bool is_func; /* use pattern or line no */ bool been_warned; /* set if noticed dup */ int lno; /* line number tag is on */ long cno; /* character number line starts on */ char *pat; /* search pattern */ struct node_st *left, *right; /* left and right sons */ } node; node *head; /* the head of the binary tree of tags */ /* * A `linebuffer' is a structure which holds a line of text. * `readline_internal' reads a line from a stream into a linebuffer * and works regardless of the length of the line. * SIZE is the size of BUFFER, LEN is the length of the string in * BUFFER after readline reads it. */ typedef struct { long size; int len; char *buffer; } linebuffer; linebuffer lb; /* the current line */ linebuffer token_name; /* used by C_entries as a temporary area */ struct { long linepos; linebuffer lb; /* used by C_entries instead of lb */ } lbs[2]; /* boolean "functions" (see init) */ bool _wht[CHARS], _nin[CHARS], _itk[CHARS], _btk[CHARS], _etk[CHARS]; char /* white chars */ *white = " \f\t\n\r", /* not in a name */ *nonam = " \f\t\n\r(=,[;", /* token ending chars */ *endtk = " \t\n\r\"'#()[]{}=-+%*/&|^~!<>;,.:?", /* token starting chars */ *begtk = "ABCDEFGHIJKLMNOPQRSTUVWXYZ_abcdefghijklmnopqrstuvwxyz$~@", /* valid in-token chars */ *midtk = "ABCDEFGHIJKLMNOPQRSTUVWXYZ_abcdefghijklmnopqrstuvwxyz$0123456789"; bool append_to_tagfile; /* -a: append to tags */ /* The following four default to TRUE for etags, but to FALSE for ctags. */ bool typedefs; /* -t: create tags for C and Ada typedefs */ bool typedefs_and_cplusplus; /* -T: create tags for C typedefs, level */ /* 0 struct/enum/union decls, and C++ */ /* member functions. */ bool constantypedefs; /* -d: create tags for C #define, enum */ /* constants and variables. */ /* -D: opposite of -d. Default under ctags. */ bool declarations; /* --declarations: tag them and extern in C&Co*/ bool globals; /* create tags for global variables */ bool members; /* create tags for C member variables */ bool update; /* -u: update tags */ bool vgrind_style; /* -v: create vgrind style index output */ bool no_warnings; /* -w: suppress warnings */ bool cxref_style; /* -x: create cxref style output */ bool cplusplus; /* .[hc] means C++, not C */ bool noindentypedefs; /* -I: ignore indentation in C */ bool packages_only; /* --packages-only: in Ada, only tag packages*/ #ifdef LONG_OPTIONS struct option longopts[] = { { "packages-only", no_argument, &packages_only, TRUE }, { "append", no_argument, NULL, 'a' }, { "backward-search", no_argument, NULL, 'B' }, { "c++", no_argument, NULL, 'C' }, { "cxref", no_argument, NULL, 'x' }, { "defines", no_argument, NULL, 'd' }, { "declarations", no_argument, &declarations, TRUE }, { "no-defines", no_argument, NULL, 'D' }, { "globals", no_argument, &globals, TRUE }, { "no-globals", no_argument, &globals, FALSE }, { "help", no_argument, NULL, 'h' }, { "help", no_argument, NULL, 'H' }, { "ignore-indentation", no_argument, NULL, 'I' }, { "include", required_argument, NULL, 'i' }, { "language", required_argument, NULL, 'l' }, { "members", no_argument, &members, TRUE }, { "no-members", no_argument, &members, FALSE }, { "no-warn", no_argument, NULL, 'w' }, { "output", required_argument, NULL, 'o' }, #ifdef ETAGS_REGEXPS { "regex", required_argument, NULL, 'r' }, { "no-regex", no_argument, NULL, 'R' }, { "ignore-case-regex", required_argument, NULL, 'c' }, #endif /* ETAGS_REGEXPS */ { "typedefs", no_argument, NULL, 't' }, { "typedefs-and-c++", no_argument, NULL, 'T' }, { "update", no_argument, NULL, 'u' }, { "version", no_argument, NULL, 'V' }, { "vgrind", no_argument, NULL, 'v' }, { NULL } }; #endif /* LONG_OPTIONS */ #ifdef ETAGS_REGEXPS /* Structure defining a regular expression. Elements are the compiled pattern, and the name string. */ typedef struct pattern { struct pattern *p_next; language *language; char *regex; struct re_pattern_buffer *pattern; struct re_registers regs; char *name_pattern; bool error_signaled; } pattern; /* List of all regexps. */ pattern *p_head = NULL; /* How many characters in the character set. (From regex.c.) */ #define CHAR_SET_SIZE 256 /* Translation table for case-insensitive matching. */ char lc_trans[CHAR_SET_SIZE]; #endif /* ETAGS_REGEXPS */ compressor compressors[] = { { "z", "gzip -d -c"}, { "Z", "gzip -d -c"}, { "gz", "gzip -d -c"}, { "GZ", "gzip -d -c"}, { "bz2", "bzip2 -d -c" }, { NULL } }; /* * Language stuff. */ /* Non-NULL if language fixed. */ language *forced_lang = NULL; /* Ada code */ char *Ada_suffixes [] = { "ads", "adb", "ada", NULL }; /* Assembly code */ char *Asm_suffixes [] = { "a", /* Unix assembler */ "asm", /* Microcontroller assembly */ "def", /* BSO/Tasking definition includes */ "inc", /* Microcontroller include files */ "ins", /* Microcontroller include files */ "s", "sa", /* Unix assembler */ "S", /* cpp-processed Unix assembler */ "src", /* BSO/Tasking C compiler output */ NULL }; /* Note that .c and .h can be considered C++, if the --c++ flag was given. That is why default_C_entries is called here. */ char *default_C_suffixes [] = { "c", "h", NULL }; char *Cplusplus_suffixes [] = { "C", "H", "c++", "cc", "cpp", "cxx", "h++", "hh", "hpp", "hxx", "M", /* Objective C++ */ "pdb", /* Postscript with C syntax */ NULL }; char *Cjava_suffixes [] = { "java", NULL }; char *Cobol_suffixes [] = { "COB", "cob", NULL }; char *Cstar_suffixes [] = { "cs", "hs", NULL }; char *Erlang_suffixes [] = { "erl", "hrl", NULL }; char *Fortran_suffixes [] = { "F", "f", "f90", "for", NULL }; char *Lisp_suffixes [] = { "cl", "clisp", "el", "l", "lisp", "lsp", "ml", NULL }; char *Pascal_suffixes [] = { "p", "pas", NULL }; char *Perl_suffixes [] = { "pl", "pm", NULL }; char *Perl_interpreters [] = { "perl", "@PERL@", NULL }; char *plain_C_suffixes [] = { "pc", /* Pro*C file */ "m", /* Objective C file */ "lm", /* Objective lex file */ NULL }; char *Postscript_suffixes [] = { "ps", "psw", NULL }; /* .psw is for PSWrap */ char *Prolog_suffixes [] = { "prolog", NULL }; char *Python_suffixes [] = { "py", NULL }; /* Can't do the `SCM' or `scm' prefix with a version number. */ char *Scheme_suffixes [] = { "SCM", "SM", "oak", "sch", "scheme", "scm", "sm", "ss", "t", NULL }; char *TeX_suffixes [] = { "TeX", "bib", "clo", "cls", "ltx", "sty", "tex", NULL }; char *Yacc_suffixes [] = { "y", "ym", "yy", "yxx", "y++", NULL }; /* .ym is Objective yacc file */ /* * Table of languages. * * It is ok for a given function to be listed under more than one * name. I just didn't. */ language lang_names [] = { { "ada", Ada_funcs, Ada_suffixes, NULL }, { "asm", Asm_labels, Asm_suffixes, NULL }, { "c", default_C_entries, default_C_suffixes, NULL }, { "c++", Cplusplus_entries, Cplusplus_suffixes, NULL }, { "c*", Cstar_entries, Cstar_suffixes, NULL }, { "cobol", Cobol_paragraphs, Cobol_suffixes, NULL }, { "erlang", Erlang_functions, Erlang_suffixes, NULL }, { "fortran", Fortran_functions, Fortran_suffixes, NULL }, { "java", Cjava_entries, Cjava_suffixes, NULL }, { "lisp", Lisp_functions, Lisp_suffixes, NULL }, { "pascal", Pascal_functions, Pascal_suffixes, NULL }, { "perl", Perl_functions, Perl_suffixes, Perl_interpreters }, { "postscript", Postscript_functions, Postscript_suffixes, NULL }, { "proc", plain_C_entries, plain_C_suffixes, NULL }, { "prolog", Prolog_functions, Prolog_suffixes, NULL }, { "python", Python_functions, Python_suffixes, NULL }, { "scheme", Scheme_functions, Scheme_suffixes, NULL }, { "tex", TeX_functions, TeX_suffixes, NULL }, { "yacc", Yacc_entries, Yacc_suffixes, NULL }, { "auto", NULL }, /* default guessing scheme */ { "none", just_read_file }, /* regexp matching only */ { NULL, NULL } /* end of list */ }; void print_language_names () { language *lang; char **ext; puts ("\nThese are the currently supported languages, along with the\n\ default file name suffixes:"); for (lang = lang_names; lang->name != NULL; lang++) { printf ("\t%s\t", lang->name); if (lang->suffixes != NULL) for (ext = lang->suffixes; *ext != NULL; ext++) printf (" .%s", *ext); puts (""); } puts ("Where `auto' means use default language for files based on file\n\ name suffix, and `none' means only do regexp processing on files.\n\ If no language is specified and no matching suffix is found,\n\ the first line of the file is read for a sharp-bang (#!) sequence\n\ followed by the name of an interpreter. If no such sequence is found,\n\ Fortran is tried first; if no tags are found, C is tried next.\n\ Compressed files are supported using gzip and bzip2."); } #ifndef VERSION # define VERSION "20" #endif void print_version () { printf ("%s (GNU Emacs %s)\n", (CTAGS) ? "ctags" : "etags", VERSION); puts ("Copyright (C) 1999 Free Software Foundation, Inc. and Ken Arnold"); puts ("This program is distributed under the same terms as Emacs"); exit (GOOD); } void print_help () { printf ("Usage: %s [options] [[regex-option ...] file-name] ...\n\ \n\ These are the options accepted by %s.\n", progname, progname); #ifdef LONG_OPTIONS puts ("You may use unambiguous abbreviations for the long option names."); #else puts ("Long option names do not work with this executable, as it is not\n\ linked with GNU getopt."); #endif /* LONG_OPTIONS */ puts ("A - as file name means read names from stdin (one per line)."); if (!CTAGS) printf (" Absolute names are stored in the output file as they are.\n\ Relative ones are stored relative to the output file's directory."); puts ("\n"); puts ("-a, --append\n\ Append tag entries to existing tags file."); puts ("--packages-only\n\ For Ada files, only generate tags for packages ."); if (CTAGS) puts ("-B, --backward-search\n\ Write the search commands for the tag entries using '?', the\n\ backward-search command instead of '/', the forward-search command."); puts ("-C, --c++\n\ Treat files whose name suffix defaults to C language as C++ files."); puts ("--declarations\n\ In C and derived languages, create tags for function declarations,"); if (CTAGS) puts ("\tand create tags for extern variables if --globals is used."); else puts ("\tand create tags for extern variables unless --no-globals is used."); if (CTAGS) puts ("-d, --defines\n\ Create tag entries for C #define constants and enum constants, too."); else puts ("-D, --no-defines\n\ Don't create tag entries for C #define constants and enum constants.\n\ This makes the tags file smaller."); if (!CTAGS) { puts ("-i FILE, --include=FILE\n\ Include a note in tag file indicating that, when searching for\n\ a tag, one should also consult the tags file FILE after\n\ checking the current file."); puts ("-l LANG, --language=LANG\n\ Force the following files to be considered as written in the\n\ named language up to the next --language=LANG option."); } if (CTAGS) puts ("--globals\n\ Create tag entries for global variables in some languages."); else puts ("--no-globals\n\ Do not create tag entries for global variables in some\n\ languages. This makes the tags file smaller."); puts ("--members\n\ Create tag entries for member variables in C and derived languages."); #ifdef ETAGS_REGEXPS puts ("-r /REGEXP/, --regex=/REGEXP/ or --regex=@regexfile\n\ Make a tag for each line matching pattern REGEXP in the following\n\ files. {LANGUAGE}/REGEXP/ uses REGEXP for LANGUAGE files only.\n\ regexfile is a file containing one REGEXP per line.\n\ REGEXP is anchored (as if preceded by ^).\n\ The form /REGEXP/NAME/ creates a named tag.\n\ For example Tcl named tags can be created with:\n\ --regex=/proc[ \\t]+\\([^ \\t]+\\)/\\1/."); puts ("-c /REGEXP/, --ignore-case-regex=/REGEXP/ or --ignore-case-regex=@regexfile\n\ Like -r, --regex but ignore case when matching expressions."); puts ("-R, --no-regex\n\ Don't create tags from regexps for the following files."); #endif /* ETAGS_REGEXPS */ puts ("-o FILE, --output=FILE\n\ Write the tags to FILE."); puts ("-I, --ignore-indentation\n\ Don't rely on indentation quite as much as normal. Currently,\n\ this means not to assume that a closing brace in the first\n\ column is the final brace of a function or structure\n\ definition in C and C++."); if (CTAGS) { puts ("-t, --typedefs\n\ Generate tag entries for C and Ada typedefs."); puts ("-T, --typedefs-and-c++\n\ Generate tag entries for C typedefs, C struct/enum/union tags,\n\ and C++ member functions."); puts ("-u, --update\n\ Update the tag entries for the given files, leaving tag\n\ entries for other files in place. Currently, this is\n\ implemented by deleting the existing entries for the given\n\ files and then rewriting the new entries at the end of the\n\ tags file. It is often faster to simply rebuild the entire\n\ tag file than to use this."); puts ("-v, --vgrind\n\ Generates an index of items intended for human consumption,\n\ similar to the output of vgrind. The index is sorted, and\n\ gives the page number of each item."); puts ("-w, --no-warn\n\ Suppress warning messages about entries defined in multiple\n\ files."); puts ("-x, --cxref\n\ Like --vgrind, but in the style of cxref, rather than vgrind.\n\ The output uses line numbers instead of page numbers, but\n\ beyond that the differences are cosmetic; try both to see\n\ which you like."); } puts ("-V, --version\n\ Print the version of the program.\n\ -h, --help\n\ Print this help message."); print_language_names (); puts (""); puts ("Report bugs to bug-gnu-emacs@gnu.org"); exit (GOOD); } enum argument_type { at_language, at_regexp, at_filename, at_icregexp }; /* This structure helps us allow mixing of --lang and file names. */ typedef struct { enum argument_type arg_type; char *what; language *lang; /* language of the regexp */ } argument; #ifdef VMS /* VMS specific functions */ #define EOS '\0' /* This is a BUG! ANY arbitrary limit is a BUG! Won't someone please fix this? */ #define MAX_FILE_SPEC_LEN 255 typedef struct { short curlen; char body[MAX_FILE_SPEC_LEN + 1]; } vspec; /* v1.05 nmm 26-Jun-86 fn_exp - expand specification of list of file names returning in each successive call the next file name matching the input spec. The function expects that each in_spec passed to it will be processed to completion; in particular, up to and including the call following that in which the last matching name is returned, the function ignores the value of in_spec, and will only start processing a new spec with the following call. If an error occurs, on return out_spec contains the value of in_spec when the error occurred. With each successive file name returned in out_spec, the function's return value is one. When there are no more matching names the function returns zero. If on the first call no file matches in_spec, or there is any other error, -1 is returned. */ #include #include #define OUTSIZE MAX_FILE_SPEC_LEN short fn_exp (out, in) vspec *out; char *in; { static long context = 0; static struct dsc$descriptor_s o; static struct dsc$descriptor_s i; static bool pass1 = TRUE; long status; short retval; if (pass1) { pass1 = FALSE; o.dsc$a_pointer = (char *) out; o.dsc$w_length = (short)OUTSIZE; i.dsc$a_pointer = in; i.dsc$w_length = (short)strlen(in); i.dsc$b_dtype = DSC$K_DTYPE_T; i.dsc$b_class = DSC$K_CLASS_S; o.dsc$b_dtype = DSC$K_DTYPE_VT; o.dsc$b_class = DSC$K_CLASS_VS; } if ((status = lib$find_file(&i, &o, &context, 0, 0)) == RMS$_NORMAL) { out->body[out->curlen] = EOS; return 1; } else if (status == RMS$_NMF) retval = 0; else { strcpy(out->body, in); retval = -1; } lib$find_file_end(&context); pass1 = TRUE; return retval; } /* v1.01 nmm 19-Aug-85 gfnames - return in successive calls the name of each file specified by the provided arg expanding wildcards. */ char * gfnames (arg, p_error) char *arg; bool *p_error; { static vspec filename = {MAX_FILE_SPEC_LEN, "\0"}; switch (fn_exp (&filename, arg)) { case 1: *p_error = FALSE; return filename.body; case 0: *p_error = FALSE; return NULL; default: *p_error = TRUE; return filename.body; } } #ifndef OLD /* Newer versions of VMS do provide `system'. */ system (cmd) char *cmd; { error ("%s", "system() function not implemented under VMS"); } #endif #define VERSION_DELIM ';' char *massage_name (s) char *s; { char *start = s; for ( ; *s; s++) if (*s == VERSION_DELIM) { *s = EOS; break; } else *s = lowcase (*s); return start; } #endif /* VMS */ int main (argc, argv) int argc; char *argv[]; { int i; unsigned int nincluded_files; char **included_files; char *this_file; argument *argbuffer; int current_arg, file_count; linebuffer filename_lb; #ifdef VMS bool got_err; #endif #ifdef DOS_NT _fmode = O_BINARY; /* all of files are treated as binary files */ #endif /* DOS_NT */ progname = argv[0]; nincluded_files = 0; included_files = xnew (argc, char *); current_arg = 0; file_count = 0; /* Allocate enough no matter what happens. Overkill, but each one is small. */ argbuffer = xnew (argc, argument); #ifdef ETAGS_REGEXPS /* Set syntax for regular expression routines. */ re_set_syntax (RE_SYNTAX_EMACS | RE_INTERVALS); /* Translation table for case-insensitive search. */ for (i = 0; i < CHAR_SET_SIZE; i++) lc_trans[i] = lowcase (i); #endif /* ETAGS_REGEXPS */ /* * If etags, always find typedefs and structure tags. Why not? * Also default is to find macro constants, enum constants and * global variables. */ if (!CTAGS) { typedefs = typedefs_and_cplusplus = constantypedefs = TRUE; globals = TRUE; members = FALSE; } while (1) { int opt; char *optstring; #ifdef ETAGS_REGEXPS optstring = "-aCdDf:Il:o:r:c:RStTi:BuvxwVhH"; #else optstring = "-aCdDf:Il:o:StTi:BuvxwVhH"; #endif /* ETAGS_REGEXPS */ #ifndef LONG_OPTIONS optstring = optstring + 1; #endif /* LONG_OPTIONS */ opt = getopt_long (argc, argv, optstring, longopts, 0); if (opt == EOF) break; switch (opt) { case 0: /* If getopt returns 0, then it has already processed a long-named option. We should do nothing. */ break; case 1: /* This means that a file name has been seen. Record it. */ argbuffer[current_arg].arg_type = at_filename; argbuffer[current_arg].what = optarg; ++current_arg; ++file_count; break; /* Common options. */ case 'a': append_to_tagfile = TRUE; break; case 'C': cplusplus = TRUE; break; case 'd': constantypedefs = TRUE; break; case 'D': constantypedefs = FALSE; break; case 'f': /* for compatibility with old makefiles */ case 'o': if (tagfile) { error ("-%c option may only be given once.", opt); suggest_asking_for_help (); } tagfile = optarg; break; case 'I': case 'S': /* for backward compatibility */ noindentypedefs = TRUE; break; case 'l': { language *lang = get_language_from_name (optarg); if (lang != NULL) { argbuffer[current_arg].lang = lang; argbuffer[current_arg].arg_type = at_language; ++current_arg; } } break; #ifdef ETAGS_REGEXPS case 'r': argbuffer[current_arg].arg_type = at_regexp; argbuffer[current_arg].what = optarg; ++current_arg; break; case 'R': argbuffer[current_arg].arg_type = at_regexp; argbuffer[current_arg].what = NULL; ++current_arg; break; case 'c': argbuffer[current_arg].arg_type = at_icregexp; argbuffer[current_arg].what = optarg; ++current_arg; break; #endif /* ETAGS_REGEXPS */ case 'V': print_version (); break; case 'h': case 'H': print_help (); break; case 't': typedefs = TRUE; break; case 'T': typedefs = typedefs_and_cplusplus = TRUE; break; #if (!CTAGS) /* Etags options */ case 'i': included_files[nincluded_files++] = optarg; break; #else /* CTAGS */ /* Ctags options. */ case 'B': searchar = '?'; break; case 'u': update = TRUE; break; case 'v': vgrind_style = TRUE; /*FALLTHRU*/ case 'x': cxref_style = TRUE; break; case 'w': no_warnings = TRUE; break; #endif /* CTAGS */ default: suggest_asking_for_help (); } } for (; optind < argc; ++optind) { argbuffer[current_arg].arg_type = at_filename; argbuffer[current_arg].what = argv[optind]; ++current_arg; ++file_count; } if (nincluded_files == 0 && file_count == 0) { error ("no input files specified.", 0); suggest_asking_for_help (); } if (tagfile == NULL) tagfile = CTAGS ? "tags" : "TAGS"; cwd = etags_getcwd (); /* the current working directory */ if (cwd[strlen (cwd) - 1] != '/') { char *oldcwd = cwd; cwd = concat (oldcwd, "/", ""); free (oldcwd); } if (streq (tagfile, "-")) tagfiledir = cwd; else tagfiledir = absolute_dirname (tagfile, cwd); init (); /* set up boolean "functions" */ initbuffer (&lb); initbuffer (&token_name); initbuffer (&lbs[0].lb); initbuffer (&lbs[1].lb); initbuffer (&filename_lb); if (!CTAGS) { if (streq (tagfile, "-")) { tagf = stdout; #ifdef DOS_NT /* Switch redirected `stdout' to binary mode (setting `_fmode' doesn't take effect until after `stdout' is already open). */ if (!isatty (fileno (stdout))) setmode (fileno (stdout), O_BINARY); #endif /* DOS_NT */ } else tagf = fopen (tagfile, append_to_tagfile ? "a" : "w"); if (tagf == NULL) pfatal (tagfile); } /* * Loop through files finding functions. */ for (i = 0; i < current_arg; ++i) { switch (argbuffer[i].arg_type) { case at_language: forced_lang = argbuffer[i].lang; break; #ifdef ETAGS_REGEXPS case at_regexp: analyse_regex (argbuffer[i].what, FALSE); break; case at_icregexp: analyse_regex (argbuffer[i].what, TRUE); break; #endif case at_filename: #ifdef VMS while ((this_file = gfnames (argbuffer[i].what, &got_err)) != NULL) { if (got_err) { error ("can't find file %s\n", this_file); argc--, argv++; } else { this_file = massage_name (this_file); } #else this_file = argbuffer[i].what; #endif /* Input file named "-" means read file names from stdin (one per line) and use them. */ if (streq (this_file, "-")) while (readline_internal (&filename_lb, stdin) > 0) process_file (filename_lb.buffer); else process_file (this_file); #ifdef VMS } #endif break; } } #ifdef ETAGS_REGEXPS free_patterns (); #endif /* ETAGS_REGEXPS */ if (!CTAGS) { while (nincluded_files-- > 0) fprintf (tagf, "\f\n%s,include\n", *included_files++); fclose (tagf); exit (GOOD); } /* If CTAGS, we are here. process_file did not write the tags yet, because we want them ordered. Let's do it now. */ if (cxref_style) { put_entries (head); free_tree (head); head = NULL; exit (GOOD); } if (update) { char cmd[BUFSIZ]; for (i = 0; i < current_arg; ++i) { if (argbuffer[i].arg_type != at_filename) continue; sprintf (cmd, "mv %s OTAGS;fgrep -v '\t%s\t' OTAGS >%s;rm OTAGS", tagfile, argbuffer[i].what, tagfile); if (system (cmd) != GOOD) fatal ("failed to execute shell command", (char *)NULL); } append_to_tagfile = TRUE; } tagf = fopen (tagfile, append_to_tagfile ? "a" : "w"); if (tagf == NULL) pfatal (tagfile); put_entries (head); free_tree (head); head = NULL; fclose (tagf); if (update) { char cmd[BUFSIZ]; sprintf (cmd, "sort %s -o %s", tagfile, tagfile); exit (system (cmd)); } return GOOD; } /* * Return a compressor given the file name. If EXTPTR is non-zero, * return a pointer into FILE where the compressor-specific * extension begins. If no compressor is found, NULL is returned * and EXTPTR is not significant. * Idea by Vladimir Alexiev */ compressor * get_compressor_from_suffix (file, extptr) char *file; char **extptr; { compressor *compr; char *slash, *suffix; /* This relies on FN to be after canonicalize_filename, so we don't need to consider backslashes on DOS_NT. */ slash = etags_strrchr (file, '/'); suffix = etags_strrchr (file, '.'); if (suffix == NULL || suffix < slash) return NULL; if (extptr != NULL) *extptr = suffix; suffix += 1; /* Let those poor souls who live with DOS 8+3 file name limits get some solace by treating foo.cgz as if it were foo.c.gz, etc. Only the first do loop is run if not MSDOS */ do { for (compr = compressors; compr->suffix != NULL; compr++) if (streq (compr->suffix, suffix)) return compr; #ifndef MSDOS break; #endif if (extptr != NULL) *extptr = ++suffix; } while (*suffix != '\0'); return NULL; } /* * Return a language given the name. */ language * get_language_from_name (name) char *name; { language *lang; if (name == NULL) error ("empty language name", (char *)NULL); else { for (lang = lang_names; lang->name != NULL; lang++) if (streq (name, lang->name)) return lang; error ("unknown language \"%s\"", name); } return NULL; } /* * Return a language given the interpreter name. */ language * get_language_from_interpreter (interpreter) char *interpreter; { language *lang; char **iname; if (interpreter == NULL) return NULL; for (lang = lang_names; lang->name != NULL; lang++) if (lang->interpreters != NULL) for (iname = lang->interpreters; *iname != NULL; iname++) if (streq (*iname, interpreter)) return lang; return NULL; } /* * Return a language given the file name. */ language * get_language_from_suffix (file) char *file; { language *lang; char **ext, *suffix; suffix = etags_strrchr (file, '.'); if (suffix == NULL) return NULL; suffix += 1; for (lang = lang_names; lang->name != NULL; lang++) if (lang->suffixes != NULL) for (ext = lang->suffixes; *ext != NULL; ext++) if (streq (*ext, suffix)) return lang; return NULL; } /* * This routine is called on each file argument. */ void process_file (file) char *file; { struct stat stat_buf; FILE *inf; compressor *compr; char *compressed_name, *uncompressed_name; char *ext, *real_name; canonicalize_filename (file); if (streq (file, tagfile) && !streq (tagfile, "-")) { error ("skipping inclusion of %s in self.", file); return; } if ((compr = get_compressor_from_suffix (file, &ext)) == NULL) { compressed_name = NULL; real_name = uncompressed_name = savestr (file); } else { real_name = compressed_name = savestr (file); uncompressed_name = savenstr (file, ext - file); } /* If the canonicalised uncompressed name has already be dealt with, skip it silently, else add it to the list. */ { typedef struct processed_file { char *filename; struct processed_file *next; } processed_file; static processed_file *pf_head = NULL; register processed_file *fnp; for (fnp = pf_head; fnp != NULL; fnp = fnp->next) if (streq (uncompressed_name, fnp->filename)) goto exit; fnp = pf_head; pf_head = xnew (1, struct processed_file); pf_head->filename = savestr (uncompressed_name); pf_head->next = fnp; } if (stat (real_name, &stat_buf) != 0) { /* Reset real_name and try with a different name. */ real_name = NULL; if (compressed_name != NULL) /* try with the given suffix */ { if (stat (uncompressed_name, &stat_buf) == 0) real_name = uncompressed_name; } else /* try all possible suffixes */ { for (compr = compressors; compr->suffix != NULL; compr++) { compressed_name = concat (file, ".", compr->suffix); if (stat (compressed_name, &stat_buf) != 0) { #ifdef MSDOS char *suf = compressed_name + strlen (file); size_t suflen = strlen (compr->suffix) + 1; for ( ; suf[1]; suf++, suflen--) { memmove (suf, suf + 1, suflen); if (stat (compressed_name, &stat_buf) == 0) { real_name = compressed_name; break; } } if (real_name != NULL) break; #endif free (compressed_name); compressed_name = NULL; } else { real_name = compressed_name; break; } } } if (real_name == NULL) { perror (file); goto exit; } } /* try with a different name */ if (!S_ISREG (stat_buf.st_mode)) { error ("skipping %s: it is not a regular file.", real_name); goto exit; } if (real_name == compressed_name) { char *cmd = concat (compr->command, " ", real_name); inf = popen (cmd, "r"); free (cmd); } else inf = fopen (real_name, "r"); if (inf == NULL) { perror (real_name); goto exit; } find_entries (uncompressed_name, inf); if (real_name == compressed_name) pclose (inf); else fclose (inf); if (!CTAGS) { char *filename; if (filename_is_absolute (uncompressed_name)) { /* file is an absolute file name. Canonicalise it. */ filename = absolute_filename (uncompressed_name, cwd); } else { /* file is a file name relative to cwd. Make it relative to the directory of the tags file. */ filename = relative_filename (uncompressed_name, tagfiledir); } fprintf (tagf, "\f\n%s,%d\n", filename, total_size_of_entries (head)); free (filename); put_entries (head); free_tree (head); head = NULL; } exit: if (compressed_name) free(compressed_name); if (uncompressed_name) free(uncompressed_name); return; } /* * This routine sets up the boolean pseudo-functions which work * by setting boolean flags dependent upon the corresponding character. * Every char which is NOT in that string is not a white char. Therefore, * all of the array "_wht" is set to FALSE, and then the elements * subscripted by the chars in "white" are set to TRUE. Thus "_wht" * of a char is TRUE if it is the string "white", else FALSE. */ void init () { register char *sp; register int i; for (i = 0; i < CHARS; i++) iswhite(i) = notinname(i) = begtoken(i) = intoken(i) = endtoken(i) = FALSE; for (sp = white; *sp != '\0'; sp++) iswhite (*sp) = TRUE; for (sp = nonam; *sp != '\0'; sp++) notinname (*sp) = TRUE; for (sp = begtk; *sp != '\0'; sp++) begtoken (*sp) = TRUE; for (sp = midtk; *sp != '\0'; sp++) intoken (*sp) = TRUE; for (sp = endtk; *sp != '\0'; sp++) endtoken (*sp) = TRUE; iswhite('\0') = iswhite('\n'); notinname('\0') = notinname('\n'); begtoken('\0') = begtoken('\n'); intoken('\0') = intoken('\n'); endtoken('\0') = endtoken('\n'); } /* * This routine opens the specified file and calls the function * which finds the function and type definitions. */ node *last_node = NULL; void find_entries (file, inf) char *file; FILE *inf; { char *cp; language *lang; node *old_last_node; /* Memory leakage here: the string pointed by curfile is never released, because curfile is copied into np->file for each node, to be used in CTAGS mode. The amount of memory leaked here is the sum of the lengths of the file names. */ curfile = savestr (file); /* If user specified a language, use it. */ lang = forced_lang; if (lang != NULL && lang->function != NULL) { curlang = lang; lang->function (inf); return; } /* Try to guess the language given the file name. */ lang = get_language_from_suffix (file); if (lang != NULL && lang->function != NULL) { curlang = lang; lang->function (inf); return; } /* Look for sharp-bang as the first two characters. */ if (readline_internal (&lb, inf) > 0 && lb.len >= 2 && lb.buffer[0] == '#' && lb.buffer[1] == '!') { char *lp; /* Set lp to point at the first char after the last slash in the line or, if no slashes, at the first nonblank. Then set cp to the first successive blank and terminate the string. */ lp = etags_strrchr (lb.buffer+2, '/'); if (lp != NULL) lp += 1; else lp = skip_spaces (lb.buffer + 2); cp = skip_non_spaces (lp); *cp = '\0'; if (strlen (lp) > 0) { lang = get_language_from_interpreter (lp); if (lang != NULL && lang->function != NULL) { curlang = lang; lang->function (inf); return; } } } /* We rewind here, even if inf may be a pipe. We fail if the length of the first line is longer than the pipe block size, which is unlikely. */ rewind (inf); /* Try Fortran. */ old_last_node = last_node; curlang = get_language_from_name ("fortran"); Fortran_functions (inf); /* No Fortran entries found. Try C. */ if (old_last_node == last_node) { /* We do not tag if rewind fails. Only the file name will be recorded in the tags file. */ rewind (inf); curlang = get_language_from_name (cplusplus ? "c++" : "c"); default_C_entries (inf); } return; } /* Record a tag. */ void pfnote (name, is_func, linestart, linelen, lno, cno) char *name; /* tag name, or NULL if unnamed */ bool is_func; /* tag is a function */ char *linestart; /* start of the line where tag is */ int linelen; /* length of the line where tag is */ int lno; /* line number */ long cno; /* character number */ { register node *np; if (CTAGS && name == NULL) return; np = xnew (1, node); /* If ctags mode, change name "main" to M. */ if (CTAGS && !cxref_style && streq (name, "main")) { register char *fp = etags_strrchr (curfile, '/'); np->name = concat ("M", fp == NULL ? curfile : fp + 1, ""); fp = etags_strrchr (np->name, '.'); if (fp != NULL && fp[1] != '\0' && fp[2] == '\0') fp[0] = '\0'; } else np->name = name; np->been_warned = FALSE; np->file = curfile; np->is_func = is_func; np->lno = lno; /* Our char numbers are 0-base, because of C language tradition? ctags compatibility? old versions compatibility? I don't know. Anyway, since emacs's are 1-base we expect etags.el to take care of the difference. If we wanted to have 1-based numbers, we would uncomment the +1 below. */ np->cno = cno /* + 1 */ ; np->left = np->right = NULL; if (CTAGS && !cxref_style) { if (strlen (linestart) < 50) np->pat = concat (linestart, "$", ""); else np->pat = savenstr (linestart, 50); } else np->pat = savenstr (linestart, linelen); add_node (np, &head); } /* Date: Wed, 22 Jan 1997 02:56:31 -0500 [last amended 18 Sep 1997] * From: Sam Kendall * Subject: Proposal for firming up the TAGS format specification * To: F.Potorti@cnuce.cnr.it * * pfnote should emit the optimized form [unnamed tag] only if: * 1. name does not contain any of the characters " \t\r\n(),;"; * 2. linestart contains name as either a rightmost, or rightmost but * one character, substring; * 3. the character, if any, immediately before name in linestart must * be one of the characters " \t(),;"; * 4. the character, if any, immediately after name in linestart must * also be one of the characters " \t(),;". * * The real implementation uses the notinname() macro, which recognises * characters slightly different form " \t\r\n(),;". See the variable * `nonam'. */ #define traditional_tag_style TRUE void new_pfnote (name, namelen, is_func, linestart, linelen, lno, cno) char *name; /* tag name, or NULL if unnamed */ int namelen; /* tag length */ bool is_func; /* tag is a function */ char *linestart; /* start of the line where tag is */ int linelen; /* length of the line where tag is */ int lno; /* line number */ long cno; /* character number */ { register char *cp; bool named; named = TRUE; if (!CTAGS) { for (cp = name; !notinname (*cp); cp++) continue; if (*cp == '\0') /* rule #1 */ { cp = linestart + linelen - namelen; if (notinname (linestart[linelen-1])) cp -= 1; /* rule #4 */ if (cp >= linestart /* rule #2 */ && (cp == linestart || notinname (cp[-1])) /* rule #3 */ && strneq (name, cp, namelen)) /* rule #2 */ named = FALSE; /* use unnamed tag */ } } if (named) name = savenstr (name, namelen); else name = NULL; pfnote (name, is_func, linestart, linelen, lno, cno); } /* * free_tree () * recurse on left children, iterate on right children. */ void free_tree (np) register node *np; { while (np) { register node *node_right = np->right; free_tree (np->left); if (np->name != NULL) free (np->name); free (np->pat); free (np); np = node_right; } } /* * add_node () * Adds a node to the tree of nodes. In etags mode, we don't keep * it sorted; we just keep a linear list. In ctags mode, maintain * an ordered tree, with no attempt at balancing. * * add_node is the only function allowed to add nodes, so it can * maintain state. */ void add_node (np, cur_node_p) node *np, **cur_node_p; { register int dif; register node *cur_node = *cur_node_p; if (cur_node == NULL) { *cur_node_p = np; last_node = np; return; } if (!CTAGS) { /* Etags Mode */ if (last_node == NULL) fatal ("internal error in add_node", (char *)NULL); last_node->right = np; last_node = np; } else { /* Ctags Mode */ dif = strcmp (np->name, cur_node->name); /* * If this tag name matches an existing one, then * do not add the node, but maybe print a warning. */ if (!dif) { if (streq (np->file, cur_node->file)) { if (!no_warnings) { fprintf (stderr, "Duplicate entry in file %s, line %d: %s\n", np->file, lineno, np->name); fprintf (stderr, "Second entry ignored\n"); } } else if (!cur_node->been_warned && !no_warnings) { fprintf (stderr, "Duplicate entry in files %s and %s: %s (Warning only)\n", np->file, cur_node->file, np->name); cur_node->been_warned = TRUE; } return; } /* Actually add the node */ add_node (np, dif < 0 ? &cur_node->left : &cur_node->right); } } void put_entries (np) register node *np; { register char *sp; if (np == NULL) return; /* Output subentries that precede this one */ put_entries (np->left); /* Output this entry */ if (!CTAGS) { if (np->name != NULL) fprintf (tagf, "%s\177%s\001%d,%ld\n", np->pat, np->name, np->lno, np->cno); else fprintf (tagf, "%s\177%d,%ld\n", np->pat, np->lno, np->cno); } else { if (np->name == NULL) error ("internal error: NULL name in ctags mode.", (char *)NULL); if (cxref_style) { if (vgrind_style) fprintf (stdout, "%s %s %d\n", np->name, np->file, (np->lno + 63) / 64); else fprintf (stdout, "%-16s %3d %-16s %s\n", np->name, np->lno, np->file, np->pat); } else { fprintf (tagf, "%s\t%s\t", np->name, np->file); if (np->is_func) { /* a function */ putc (searchar, tagf); putc ('^', tagf); for (sp = np->pat; *sp; sp++) { if (*sp == '\\' || *sp == searchar) putc ('\\', tagf); putc (*sp, tagf); } putc (searchar, tagf); } else { /* a typedef; text pattern inadequate */ fprintf (tagf, "%d", np->lno); } putc ('\n', tagf); } } /* Output subentries that follow this one */ put_entries (np->right); } /* Length of a number's decimal representation. */ int number_len (num) long num; { int len = 1; while ((num /= 10) > 0) len += 1; return len; } /* * Return total number of characters that put_entries will output for * the nodes in the subtree of the specified node. Works only if * we are not ctags, but called only in that case. This count * is irrelevant with the new tags.el, but is still supplied for * backward compatibility. */ int total_size_of_entries (np) register node *np; { register int total; if (np == NULL) return 0; for (total = 0; np != NULL; np = np->right) { /* Count left subentries. */ total += total_size_of_entries (np->left); /* Count this entry */ total += strlen (np->pat) + 1; total += number_len ((long) np->lno) + 1 + number_len (np->cno) + 1; if (np->name != NULL) total += 1 + strlen (np->name); /* \001name */ } return total; } /* * The C symbol tables. */ enum sym_type { st_none, st_C_objprot, st_C_objimpl, st_C_objend, st_C_gnumacro, st_C_ignore, st_C_javastruct, st_C_operator, st_C_struct, st_C_extern, st_C_enum, st_C_define, st_C_typedef, st_C_typespec }; /* Feed stuff between (but not including) %[ and %] lines to: gperf -c -k 1,3 -o -p -r -t %[ struct C_stab_entry { char *name; int c_ext; enum sym_type type; } %% if, 0, st_C_ignore for, 0, st_C_ignore while, 0, st_C_ignore switch, 0, st_C_ignore return, 0, st_C_ignore @interface, 0, st_C_objprot @protocol, 0, st_C_objprot @implementation,0, st_C_objimpl @end, 0, st_C_objend import, C_JAVA, st_C_ignore package, C_JAVA, st_C_ignore friend, C_PLPL, st_C_ignore extends, C_JAVA, st_C_javastruct implements, C_JAVA, st_C_javastruct interface, C_JAVA, st_C_struct class, C_PLPL, st_C_struct namespace, C_PLPL, st_C_struct domain, C_STAR, st_C_struct union, 0, st_C_struct struct, 0, st_C_struct extern, 0, st_C_extern enum, 0, st_C_enum typedef, 0, st_C_typedef define, 0, st_C_define operator, C_PLPL, st_C_operator bool, C_PLPL, st_C_typespec long, 0, st_C_typespec short, 0, st_C_typespec int, 0, st_C_typespec char, 0, st_C_typespec float, 0, st_C_typespec double, 0, st_C_typespec signed, 0, st_C_typespec unsigned, 0, st_C_typespec auto, 0, st_C_typespec void, 0, st_C_typespec static, 0, st_C_typespec const, 0, st_C_typespec volatile, 0, st_C_typespec explicit, C_PLPL, st_C_typespec mutable, C_PLPL, st_C_typespec typename, C_PLPL, st_C_typespec # DEFUN used in emacs, the next three used in glibc (SYSCALL only for mach). DEFUN, 0, st_C_gnumacro SYSCALL, 0, st_C_gnumacro ENTRY, 0, st_C_gnumacro PSEUDO, 0, st_C_gnumacro # These are defined inside C functions, so currently they are not met. # EXFUN used in glibc, DEFVAR_* in emacs. #EXFUN, 0, st_C_gnumacro #DEFVAR_, 0, st_C_gnumacro %] and replace lines between %< and %> with its output. */ /*%<*/ /* C code produced by gperf version 2.7.1 (19981006 egcs) */ /* Command-line: gperf -c -k 1,3 -o -p -r -t */ struct C_stab_entry { char *name; int c_ext; enum sym_type type; }; #define TOTAL_KEYWORDS 46 #define MIN_WORD_LENGTH 2 #define MAX_WORD_LENGTH 15 #define MIN_HASH_VALUE 13 #define MAX_HASH_VALUE 123 /* maximum key range = 111, duplicates = 0 */ #ifdef __GNUC__ __inline #endif static unsigned int hash (str, len) register const char *str; register unsigned int len; { static unsigned char asso_values[] = { 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 3, 124, 124, 124, 43, 6, 11, 124, 124, 124, 124, 124, 124, 124, 124, 124, 11, 124, 124, 58, 7, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 57, 7, 42, 4, 14, 52, 0, 124, 53, 124, 124, 29, 11, 6, 35, 32, 124, 29, 34, 59, 58, 51, 24, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124, 124 }; register int hval = len; switch (hval) { default: case 3: hval += asso_values[(unsigned char)str[2]]; case 2: case 1: hval += asso_values[(unsigned char)str[0]]; break; } return hval; } #ifdef __GNUC__ __inline #endif struct C_stab_entry * in_word_set (str, len) register const char *str; register unsigned int len; { static struct C_stab_entry wordlist[] = { {""}, {""}, {""}, {""}, {""}, {""}, {""}, {""}, {""}, {""}, {""}, {""}, {""}, {"@end", 0, st_C_objend}, {""}, {""}, {""}, {""}, {"ENTRY", 0, st_C_gnumacro}, {"@interface", 0, st_C_objprot}, {""}, {"domain", C_STAR, st_C_struct}, {""}, {"PSEUDO", 0, st_C_gnumacro}, {""}, {""}, {"namespace", C_PLPL, st_C_struct}, {""}, {""}, {"@implementation",0, st_C_objimpl}, {""}, {""}, {""}, {""}, {""}, {""}, {""}, {""}, {""}, {"long", 0, st_C_typespec}, {"signed", 0, st_C_typespec}, {"@protocol", 0, st_C_objprot}, {""}, {""}, {""}, {""}, {"bool", C_PLPL, st_C_typespec}, {""}, {""}, {""}, {""}, {""}, {""}, {"const", 0, st_C_typespec}, {"explicit", C_PLPL, st_C_typespec}, {"if", 0, st_C_ignore}, {""}, {"operator", C_PLPL, st_C_operator}, {""}, {"DEFUN", 0, st_C_gnumacro}, {""}, {""}, {"define", 0, st_C_define}, {""}, {""}, {""}, {""}, {""}, {"double", 0, st_C_typespec}, {"struct", 0, st_C_struct}, {""}, {""}, {""}, {""}, {"short", 0, st_C_typespec}, {""}, {"enum", 0, st_C_enum}, {"mutable", C_PLPL, st_C_typespec}, {""}, {"extern", 0, st_C_extern}, {"extends", C_JAVA, st_C_javastruct}, {"package", C_JAVA, st_C_ignore}, {"while", 0, st_C_ignore}, {""}, {"for", 0, st_C_ignore}, {""}, {""}, {""}, {"volatile", 0, st_C_typespec}, {""}, {""}, {"import", C_JAVA, st_C_ignore}, {"float", 0, st_C_typespec}, {"switch", 0, st_C_ignore}, {"return", 0, st_C_ignore}, {"implements", C_JAVA, st_C_javastruct}, {""}, {"static", 0, st_C_typespec}, {"typedef", 0, st_C_typedef}, {"typename", C_PLPL, st_C_typespec}, {"unsigned", 0, st_C_typespec}, {""}, {""}, {"char", 0, st_C_typespec}, {"class", C_PLPL, st_C_struct}, {""}, {""}, {""}, {"void", 0, st_C_typespec}, {""}, {""}, {"friend", C_PLPL, st_C_ignore}, {""}, {""}, {""}, {"int", 0, st_C_typespec}, {"union", 0, st_C_struct}, {""}, {""}, {""}, {"auto", 0, st_C_typespec}, {"interface", C_JAVA, st_C_struct}, {""}, {"SYSCALL", 0, st_C_gnumacro} }; if (len <= MAX_WORD_LENGTH && len >= MIN_WORD_LENGTH) { register int key = hash (str, len); if (key <= MAX_HASH_VALUE && key >= 0) { register const char *s = wordlist[key].name; if (*str == *s && !strncmp (str + 1, s + 1, len - 1)) return &wordlist[key]; } } return 0; } /*%>*/ enum sym_type C_symtype (str, len, c_ext) char *str; int len; int c_ext; { register struct C_stab_entry *se = in_word_set (str, len); if (se == NULL || (se->c_ext && !(c_ext & se->c_ext))) return st_none; return se->type; } /* * C functions and variables are recognized using a simple * finite automaton. fvdef is its state variable. */ enum { fvnone, /* nothing seen */ foperator, /* func: operator keyword seen (cplpl) */ fvnameseen, /* function or variable name seen */ fstartlist, /* func: just after open parenthesis */ finlist, /* func: in parameter list */ flistseen, /* func: after parameter list */ fignore, /* func: before open brace */ vignore /* var-like: ignore until ';' */ } fvdef; bool fvextern; /* func or var: extern keyword seen; */ /* * typedefs are recognized using a simple finite automaton. * typdef is its state variable. */ enum { tnone, /* nothing seen */ tkeyseen, /* typedef keyword seen */ ttypeseen, /* defined type seen */ tinbody, /* inside typedef body */ tend, /* just before typedef tag */ tignore /* junk after typedef tag */ } typdef; /* * struct-like structures (enum, struct and union) are recognized * using another simple finite automaton. `structdef' is its state * variable. */ enum { snone, /* nothing seen yet */ skeyseen, /* struct-like keyword seen */ stagseen, /* struct-like tag seen */ scolonseen, /* colon seen after struct-like tag */ sinbody /* in struct body: recognize member func defs*/ } structdef; /* * When structdef is stagseen, scolonseen, or sinbody, structtag is the * struct tag, and structtype is the type of the preceding struct-like * keyword. */ char *structtag = ""; enum sym_type structtype; /* * When objdef is different from onone, objtag is the name of the class. */ char *objtag = ""; /* * Yet another little state machine to deal with preprocessor lines. */ enum { dnone, /* nothing seen */ dsharpseen, /* '#' seen as first char on line */ ddefineseen, /* '#' and 'define' seen */ dignorerest /* ignore rest of line */ } definedef; /* * State machine for Objective C protocols and implementations. * Tom R.Hageman */ enum { onone, /* nothing seen */ oprotocol, /* @interface or @protocol seen */ oimplementation, /* @implementations seen */ otagseen, /* class name seen */ oparenseen, /* parenthesis before category seen */ ocatseen, /* category name seen */ oinbody, /* in @implementation body */ omethodsign, /* in @implementation body, after +/- */ omethodtag, /* after method name */ omethodcolon, /* after method colon */ omethodparm, /* after method parameter */ oignore /* wait for @end */ } objdef; /* * Use this structure to keep info about the token read, and how it * should be tagged. Used by the make_C_tag function to build a tag. */ typedef struct { bool valid; char *str; bool named; int linelen; int lineno; long linepos; char *buffer; } token; token tok; /* latest token read */ /* * Set this to TRUE, and the next token considered is called a function. * Used only for GNU emacs's function-defining macros. */ bool next_token_is_func; /* * TRUE in the rules part of a yacc file, FALSE outside (parse as C). */ bool yacc_rules; /* * methodlen is the length of the method name stored in token_name. */ int methodlen; /* * consider_token () * checks to see if the current token is at the start of a * function or variable, or corresponds to a typedef, or * is a struct/union/enum tag, or #define, or an enum constant. * * *IS_FUNC gets TRUE iff the token is a function or #define macro * with args. C_EXT is which language we are looking at. * * Globals * fvdef IN OUT * structdef IN OUT * definedef IN OUT * typdef IN OUT * objdef IN OUT * next_token_is_func IN OUT */ bool consider_token (str, len, c, c_ext, cblev, parlev, is_func_or_var) register char *str; /* IN: token pointer */ register int len; /* IN: token length */ register char c; /* IN: first char after the token */ int c_ext; /* IN: C extensions mask */ int cblev; /* IN: curly brace level */ int parlev; /* IN: parenthesis level */ bool *is_func_or_var; /* OUT: function or variable found */ { enum sym_type toktype = C_symtype (str, len, c_ext); /* * Advance the definedef state machine. */ switch (definedef) { case dnone: /* We're not on a preprocessor line. */ break; case dsharpseen: if (toktype == st_C_define) { definedef = ddefineseen; } else { definedef = dignorerest; } return FALSE; case ddefineseen: /* * Make a tag for any macro, unless it is a constant * and constantypedefs is FALSE. */ definedef = dignorerest; *is_func_or_var = (c == '('); if (!*is_func_or_var && !constantypedefs) return FALSE; else return TRUE; case dignorerest: return FALSE; default: error ("internal error: definedef value.", (char *)NULL); } /* * Now typedefs */ switch (typdef) { case tnone: if (toktype == st_C_typedef) { if (typedefs) typdef = tkeyseen; fvextern = FALSE; fvdef = fvnone; return FALSE; } break; case tkeyseen: switch (toktype) { case st_none: case st_C_typespec: case st_C_struct: case st_C_enum: typdef = ttypeseen; break; } /* Do not return here, so the structdef stuff has a chance. */ break; case tend: switch (toktype) { case st_C_typespec: case st_C_struct: case st_C_enum: return FALSE; } return TRUE; } /* * This structdef business is currently only invoked when cblev==0. * It should be recursively invoked whatever the curly brace level, * and a stack of states kept, to allow for definitions of structs * within structs. * * This structdef business is NOT invoked when we are ctags and the * file is plain C. This is because a struct tag may have the same * name as another tag, and this loses with ctags. */ switch (toktype) { case st_C_javastruct: if (structdef == stagseen) structdef = scolonseen; return FALSE; case st_C_struct: case st_C_enum: if (typdef == tkeyseen || (typedefs_and_cplusplus && cblev == 0 && structdef == snone)) { structdef = skeyseen; structtype = toktype; } return FALSE; } if (structdef == skeyseen) { /* Save the tag for struct/union/class, for functions and variables that may be defined inside. */ if (structtype == st_C_struct) structtag = savenstr (str, len); else structtag = ""; structdef = stagseen; return TRUE; } if (typdef != tnone) definedef = dnone; /* Detect GNU macros. Writers of emacs code are recommended to put the first two args of a DEFUN on the same line. The DEFUN macro, used in emacs C source code, has a first arg that is a string (the lisp function name), and a second arg that is a C function name. Since etags skips strings, the second arg is tagged. This is unfortunate, as it would be better to tag the first arg. The simplest way to deal with this problem would be to name the tag with a name built from the function name, by removing the initial 'F' character and substituting '-' for '_'. Anyway, this assumes that the conventions of naming lisp functions will never change. Currently, this method is not implemented. */ if (definedef == dnone && toktype == st_C_gnumacro) { next_token_is_func = TRUE; return FALSE; } if (next_token_is_func) { next_token_is_func = FALSE; fvdef = fignore; *is_func_or_var = TRUE; return TRUE; } /* Detect Objective C constructs. */ switch (objdef) { case onone: switch (toktype) { case st_C_objprot: objdef = oprotocol; return FALSE; case st_C_objimpl: objdef = oimplementation; return FALSE; } break; case oimplementation: /* Save the class tag for functions or variables defined inside. */ objtag = savenstr (str, len); objdef = oinbody; return FALSE; case oprotocol: /* Save the class tag for categories. */ objtag = savenstr (str, len); objdef = otagseen; *is_func_or_var = TRUE; return TRUE; case oparenseen: objdef = ocatseen; *is_func_or_var = TRUE; return TRUE; case oinbody: break; case omethodsign: if (parlev == 0) { objdef = omethodtag; methodlen = len; grow_linebuffer (&token_name, methodlen + 1); strncpy (token_name.buffer, str, len); token_name.buffer[methodlen] = '\0'; token_name.len = methodlen; return TRUE; } return FALSE; case omethodcolon: if (parlev == 0) objdef = omethodparm; return FALSE; case omethodparm: if (parlev == 0) { objdef = omethodtag; methodlen += len; grow_linebuffer (&token_name, methodlen + 1); strncat (token_name.buffer, str, len); token_name.len = methodlen; return TRUE; } return FALSE; case oignore: if (toktype == st_C_objend) { /* Memory leakage here: the string pointed by objtag is never released, because many tests would be needed to avoid breaking on incorrect input code. The amount of memory leaked here is the sum of the lengths of the class tags. free (objtag); */ objdef = onone; } return FALSE; } /* A function, variable or enum constant? */ switch (toktype) { case st_C_extern: fvextern = TRUE; /* FALLTHRU */ case st_C_typespec: if (fvdef != finlist && fvdef != fignore && fvdef != vignore) fvdef = fvnone; /* should be useless */ return FALSE; case st_C_ignore: fvextern = FALSE; fvdef = vignore; return FALSE; case st_C_operator: fvdef = foperator; *is_func_or_var = TRUE; return TRUE; case st_none: if ((c_ext & C_PLPL) && strneq (str+len-10, "::operator", 10)) { fvdef = foperator; *is_func_or_var = TRUE; return TRUE; } if (constantypedefs && structdef == sinbody && structtype == st_C_enum) return TRUE; if (fvdef == fvnone) { fvdef = fvnameseen; /* function or variable */ *is_func_or_var = TRUE; return TRUE; } break; } return FALSE; } /* * C_entries () * This routine finds functions, variables, typedefs, * #define's, enum constants and struct/union/enum definitions in * C syntax and adds them to the list. */ #define current_lb_is_new (newndx == curndx) #define switch_line_buffers() (curndx = 1 - curndx) #define curlb (lbs[curndx].lb) #define othlb (lbs[1-curndx].lb) #define newlb (lbs[newndx].lb) #define curlinepos (lbs[curndx].linepos) #define othlinepos (lbs[1-curndx].linepos) #define newlinepos (lbs[newndx].linepos) #define CNL_SAVE_DEFINEDEF() \ do { \ curlinepos = charno; \ lineno++; \ linecharno = charno; \ charno += readline (&curlb, inf); \ lp = curlb.buffer; \ quotednl = FALSE; \ newndx = curndx; \ } while (0) #define CNL() \ do { \ CNL_SAVE_DEFINEDEF(); \ if (savetok.valid) \ { \ tok = savetok; \ savetok.valid = FALSE; \ } \ definedef = dnone; \ } while (0) void make_C_tag (isfun) bool isfun; { /* This function should never be called when tok.valid is FALSE, but we must protect against invalid input or internal errors. */ if (tok.valid) { if (traditional_tag_style) { /* This was the original code. Now we call new_pfnote instead, which uses the new method for naming tags (see new_pfnote). */ char *name = NULL; if (CTAGS || tok.named) name = savestr (token_name.buffer); pfnote (name, isfun, tok.buffer, tok.linelen, tok.lineno, tok.linepos); } else new_pfnote (token_name.buffer, token_name.len, isfun, tok.buffer, tok.linelen, tok.lineno, tok.linepos); tok.valid = FALSE; } else if (DEBUG) abort (); } void C_entries (c_ext, inf) int c_ext; /* extension of C */ FILE *inf; /* input file */ { register char c; /* latest char read; '\0' for end of line */ register char *lp; /* pointer one beyond the character `c' */ int curndx, newndx; /* indices for current and new lb */ register int tokoff; /* offset in line of start of current token */ register int toklen; /* length of current token */ char *qualifier; /* string used to qualify names */ int qlen; /* length of qualifier */ int cblev; /* current curly brace level */ int parlev; /* current parenthesis level */ bool incomm, inquote, inchar, quotednl, midtoken; bool purec, cplpl, cjava; token savetok; /* token saved during preprocessor handling */ tokoff = toklen = 0; /* keep compiler quiet */ curndx = newndx = 0; lineno = 0; charno = 0; lp = curlb.buffer; *lp = 0; fvdef = fvnone; fvextern = FALSE; typdef = tnone; structdef = snone; definedef = dnone; objdef = onone; next_token_is_func = yacc_rules = FALSE; midtoken = inquote = inchar = incomm = quotednl = FALSE; tok.valid = savetok.valid = FALSE; cblev = 0; parlev = 0; purec = !(c_ext & ~YACC); /* no extensions (apart from possibly yacc) */ cplpl = (c_ext & C_PLPL) == C_PLPL; cjava = (c_ext & C_JAVA) == C_JAVA; if (cjava) { qualifier = "."; qlen = 1; } else { qualifier = "::"; qlen = 2; } while (!feof (inf)) { c = *lp++; if (c == '\\') { /* If we're at the end of the line, the next character is a '\0'; don't skip it, because it's the thing that tells us to read the next line. */ if (*lp == '\0') { quotednl = TRUE; continue; } lp++; c = ' '; } else if (incomm) { switch (c) { case '*': if (*lp == '/') { c = *lp++; incomm = FALSE; } break; case '\0': /* Newlines inside comments do not end macro definitions in traditional cpp. */ CNL_SAVE_DEFINEDEF (); break; } continue; } else if (inquote) { switch (c) { case '"': inquote = FALSE; break; case '\0': /* Newlines inside strings do not end macro definitions in traditional cpp, even though compilers don't usually accept them. */ CNL_SAVE_DEFINEDEF (); break; } continue; } else if (inchar) { switch (c) { case '\0': /* Hmmm, something went wrong. */ CNL (); /* FALLTHRU */ case '\'': inchar = FALSE; break; } continue; } else switch (c) { case '"': inquote = TRUE; if (fvdef != finlist && fvdef != fignore && fvdef !=vignore) { fvextern = FALSE; fvdef = fvnone; } continue; case '\'': inchar = TRUE; if (fvdef != finlist && fvdef != fignore && fvdef !=vignore) { fvextern = FALSE; fvdef = fvnone; } continue; case '/': if (*lp == '*') { lp++; incomm = TRUE; continue; } else if (/* cplpl && */ *lp == '/') { c = '\0'; break; } else break; case '%': if ((c_ext & YACC) && *lp == '%') { /* entering or exiting rules section in yacc file */ lp++; definedef = dnone; fvdef = fvnone; fvextern = FALSE; typdef = tnone; structdef = snone; next_token_is_func = FALSE; midtoken = inquote = inchar = incomm = quotednl = FALSE; cblev = 0; yacc_rules = !yacc_rules; continue; } else break; case '#': if (definedef == dnone) { char *cp; bool cpptoken = TRUE; /* Look back on this line. If all blanks, or nonblanks followed by an end of comment, this is a preprocessor token. */ for (cp = newlb.buffer; cp < lp-1; cp++) if (!iswhite (*cp)) { if (*cp == '*' && *(cp+1) == '/') { cp++; cpptoken = TRUE; } else cpptoken = FALSE; } if (cpptoken) definedef = dsharpseen; } /* if (definedef == dnone) */ continue; } /* switch (c) */ /* Consider token only if some complicated conditions are satisfied. */ if ((definedef != dnone || (cblev == 0 && structdef != scolonseen) || (cblev == 1 && cplpl && structdef == sinbody) || (structdef == sinbody && purec)) && typdef != tignore && definedef != dignorerest && fvdef != finlist) { if (midtoken) { if (endtoken (c)) { bool funorvar = FALSE; if (c == ':' && cplpl && *lp == ':' && begtoken (lp[1])) { /* * This handles :: in the middle, but not at the * beginning of an identifier. Also, space-separated * :: is not recognised. */ lp += 2; toklen += 2; c = lp[-1]; goto intoken; } else { if (yacc_rules || consider_token (newlb.buffer + tokoff, toklen, c, c_ext, cblev, parlev, &funorvar)) { if (fvdef == foperator) { char *oldlp = lp; lp = skip_spaces (lp-1); if (*lp != '\0') lp += 1; while (*lp != '\0' && !isspace (*lp) && *lp != '(') lp += 1; c = *lp++; toklen += lp - oldlp; } tok.named = FALSE; if (!purec && funorvar && definedef == dnone && structdef == sinbody) /* function or var defined in C++ class body */ { int len = strlen (structtag) + qlen + toklen; grow_linebuffer (&token_name, len + 1); strcpy (token_name.buffer, structtag); strcat (token_name.buffer, qualifier); strncat (token_name.buffer, newlb.buffer + tokoff, toklen); token_name.len = len; tok.named = TRUE; } else if (objdef == ocatseen) /* Objective C category */ { int len = strlen (objtag) + 2 + toklen; grow_linebuffer (&token_name, len + 1); strcpy (token_name.buffer, objtag); strcat (token_name.buffer, "("); strncat (token_name.buffer, newlb.buffer + tokoff, toklen); strcat (token_name.buffer, ")"); token_name.len = len; tok.named = TRUE; } else if (objdef == omethodtag || objdef == omethodparm) /* Objective C method */ { tok.named = TRUE; } else { grow_linebuffer (&token_name, toklen + 1); strncpy (token_name.buffer, newlb.buffer + tokoff, toklen); token_name.buffer[toklen] = '\0'; token_name.len = toklen; /* Name macros and members. */ tok.named = (structdef == stagseen || typdef == ttypeseen || typdef == tend || (funorvar && definedef == dignorerest) || (funorvar && definedef == dnone && structdef == sinbody)); } tok.lineno = lineno; tok.linelen = tokoff + toklen + 1; tok.buffer = newlb.buffer; tok.linepos = newlinepos; tok.valid = TRUE; if (definedef == dnone && (fvdef == fvnameseen || fvdef == foperator || structdef == stagseen || typdef == tend || objdef != onone)) { if (current_lb_is_new) switch_line_buffers (); } else make_C_tag (funorvar); } midtoken = FALSE; } } /* if (endtoken (c)) */ else if (intoken (c)) intoken: { toklen++; continue; } } /* if (midtoken) */ else if (begtoken (c)) { switch (definedef) { case dnone: switch (fvdef) { case fstartlist: fvdef = finlist; continue; case flistseen: make_C_tag (TRUE); /* a function */ fvdef = fignore; break; case fvnameseen: fvdef = fvnone; break; } if (structdef == stagseen && !cjava) structdef = snone; break; case dsharpseen: savetok = tok; } if (!yacc_rules || lp == newlb.buffer + 1) { tokoff = lp - 1 - newlb.buffer; toklen = 1; midtoken = TRUE; } continue; } /* if (begtoken) */ } /* if must look at token */ /* Detect end of line, colon, comma, semicolon and various braces after having handled a token.*/ switch (c) { case ':': if (definedef != dnone) break; switch (objdef) { case otagseen: objdef = oignore; make_C_tag (TRUE); /* an Objective C class */ break; case omethodtag: case omethodparm: objdef = omethodcolon; methodlen += 1; grow_linebuffer (&token_name, methodlen + 1); strcat (token_name.buffer, ":"); token_name.len = methodlen; break; } if (structdef == stagseen) structdef = scolonseen; else switch (fvdef) { case fvnameseen: if (yacc_rules) { make_C_tag (FALSE); /* a yacc function */ fvdef = fignore; } break; case fstartlist: fvextern = FALSE; fvdef = fvnone; break; } break; case ';': if (definedef != dnone) break; if (cblev == 0) switch (typdef) { case tend: make_C_tag (FALSE); /* a typedef */ /* FALLTHRU */ default: typdef = tnone; } switch (fvdef) { case fignore: break; case fvnameseen: if ((members && cblev == 1) || (globals && cblev == 0 && (!fvextern || declarations))) make_C_tag (FALSE); /* a variable */ fvextern = FALSE; fvdef = fvnone; tok.valid = FALSE; break; case flistseen: if (declarations && (cblev == 0 || cblev == 1)) make_C_tag (TRUE); /* a function declaration */ /* FALLTHRU */ default: fvextern = FALSE; fvdef = fvnone; /* The following instruction invalidates the token. Probably the token should be invalidated in all other cases where some state machine is reset. */ tok.valid = FALSE; } if (structdef == stagseen) structdef = snone; break; case ',': if (definedef != dnone) break; switch (objdef) { case omethodtag: case omethodparm: make_C_tag (TRUE); /* an Objective C method */ objdef = oinbody; break; } switch (fvdef) { case foperator: case finlist: case fignore: case vignore: break; case fvnameseen: if ((members && cblev == 1) || (globals && cblev == 0 && (!fvextern || declarations))) make_C_tag (FALSE); /* a variable */ break; default: fvdef = fvnone; } if (structdef == stagseen) structdef = snone; break; case '[': if (definedef != dnone) break; if (cblev == 0 && typdef == tend) { typdef = tignore; make_C_tag (FALSE); /* a typedef */ break; } switch (fvdef) { case foperator: case finlist: case fignore: case vignore: break; case fvnameseen: if ((members && cblev == 1) || (globals && cblev == 0 && (!fvextern || declarations))) make_C_tag (FALSE); /* a variable */ /* FALLTHRU */ default: fvdef = fvnone; } if (structdef == stagseen) structdef = snone; break; case '(': if (definedef != dnone) break; if (objdef == otagseen && parlev == 0) objdef = oparenseen; switch (fvdef) { case fvnameseen: if (typdef == ttypeseen && tok.valid && *lp != '*' && structdef != sinbody) { /* This handles constructs like: typedef void OperatorFun (int fun); */ make_C_tag (FALSE); typdef = tignore; } /* FALLTHRU */ case foperator: fvdef = fstartlist; break; case flistseen: fvdef = finlist; break; } parlev++; break; case ')': if (definedef != dnone) break; if (objdef == ocatseen && parlev == 1) { make_C_tag (TRUE); /* an Objective C category */ objdef = oignore; } if (--parlev == 0) { switch (fvdef) { case fstartlist: case finlist: fvdef = flistseen; break; } if (cblev == 0 && (typdef == tend)) { typdef = tignore; make_C_tag (FALSE); /* a typedef */ } } else if (parlev < 0) /* can happen due to ill-conceived #if's. */ parlev = 0; break; case '{': if (definedef != dnone) break; if (typdef == ttypeseen) typdef = tinbody; switch (structdef) { case skeyseen: /* unnamed struct */ structdef = sinbody; structtag = "_anonymous_"; break; case stagseen: case scolonseen: /* named struct */ structdef = sinbody; make_C_tag (FALSE); /* a struct */ break; } switch (fvdef) { case flistseen: make_C_tag (TRUE); /* a function */ /* FALLTHRU */ case fignore: fvdef = fvnone; break; case fvnone: switch (objdef) { case otagseen: make_C_tag (TRUE); /* an Objective C class */ objdef = oignore; break; case omethodtag: case omethodparm: make_C_tag (TRUE); /* an Objective C method */ objdef = oinbody; break; default: /* Neutralize `extern "C" {' grot. */ if (cblev == 0 && structdef == snone && typdef == tnone) cblev = -1; } } cblev++; break; case '*': if (definedef != dnone) break; if (fvdef == fstartlist) fvdef = fvnone; /* avoid tagging `foo' in `foo (*bar()) ()' */ break; case '}': if (definedef != dnone) break; if (!noindentypedefs && lp == newlb.buffer + 1) { cblev = 0; /* reset curly brace level if first column */ parlev = 0; /* also reset paren level, just in case... */ } else if (cblev > 0) cblev--; if (cblev == 0) { if (typdef == tinbody) typdef = tend; /* Memory leakage here: the string pointed by structtag is never released, because I fear to miss something and break things while freeing the area. The amount of memory leaked here is the sum of the lengths of the struct tags. if (structdef == sinbody) free (structtag); */ structdef = snone; structtag = ""; } break; case '=': if (definedef != dnone) break; switch (fvdef) { case foperator: case finlist: case fignore: case vignore: break; case fvnameseen: if ((members && cblev == 1) || (globals && cblev == 0 && (!fvextern || declarations))) make_C_tag (FALSE); /* a variable */ /* FALLTHRU */ default: fvdef = vignore; } break; case '+': case '-': if (objdef == oinbody && cblev == 0) { objdef = omethodsign; break; } /* FALLTHRU */ case '#': case '~': case '&': case '%': case '/': case '|': case '^': case '!': case '<': case '>': case '.': case '?': case ']': if (definedef != dnone) break; /* These surely cannot follow a function tag in C. */ switch (fvdef) { case foperator: case finlist: case fignore: case vignore: break; default: fvdef = fvnone; } break; case '\0': if (objdef == otagseen) { make_C_tag (TRUE); /* an Objective C class */ objdef = oignore; } /* If a macro spans multiple lines don't reset its state. */ if (quotednl) CNL_SAVE_DEFINEDEF (); else CNL (); break; } /* switch (c) */ } /* while not eof */ } /* * Process either a C++ file or a C file depending on the setting * of a global flag. */ void default_C_entries (inf) FILE *inf; { C_entries (cplusplus ? C_PLPL : 0, inf); } /* Always do plain ANSI C. */ void plain_C_entries (inf) FILE *inf; { C_entries (0, inf); } /* Always do C++. */ void Cplusplus_entries (inf) FILE *inf; { C_entries (C_PLPL, inf); } /* Always do Java. */ void Cjava_entries (inf) FILE *inf; { C_entries (C_JAVA, inf); } /* Always do C*. */ void Cstar_entries (inf) FILE *inf; { C_entries (C_STAR, inf); } /* Always do Yacc. */ void Yacc_entries (inf) FILE *inf; { C_entries (YACC, inf); } /* A useful macro. */ #define LOOP_ON_INPUT_LINES(file_pointer, line_buffer, char_pointer) \ for (lineno = charno = 0; /* loop initialization */ \ !feof (file_pointer) /* loop test */ \ && (lineno++, /* instructions at start of loop */ \ linecharno = charno, \ charno += readline (&line_buffer, file_pointer), \ char_pointer = lb.buffer, \ TRUE); \ ) /* * Read a file, but do no processing. This is used to do regexp * matching on files that have no language defined. */ void just_read_file (inf) FILE *inf; { register char *dummy; LOOP_ON_INPUT_LINES (inf, lb, dummy) continue; } /* Fortran parsing */ bool tail (cp) char *cp; { register int len = 0; while (*cp != '\0' && lowcase (*cp) == lowcase (dbp[len])) cp++, len++; if (*cp == '\0' && !intoken (dbp[len])) { dbp += len; return TRUE; } return FALSE; } void takeprec () { dbp = skip_spaces (dbp); if (*dbp != '*') return; dbp++; dbp = skip_spaces (dbp); if (strneq (dbp, "(*)", 3)) { dbp += 3; return; } if (!isdigit (*dbp)) { --dbp; /* force failure */ return; } do dbp++; while (isdigit (*dbp)); } void getit (inf) FILE *inf; { register char *cp; dbp = skip_spaces (dbp); if (*dbp == '\0') { lineno++; linecharno = charno; charno += readline (&lb, inf); dbp = lb.buffer; if (dbp[5] != '&') return; dbp += 6; dbp = skip_spaces (dbp); } if (!isalpha (*dbp) && *dbp != '_' && *dbp != '$') return; for (cp = dbp + 1; *cp != '\0' && intoken (*cp); cp++) continue; pfnote (savenstr (dbp, cp-dbp), TRUE, lb.buffer, cp - lb.buffer + 1, lineno, linecharno); } void Fortran_functions (inf) FILE *inf; { LOOP_ON_INPUT_LINES (inf, lb, dbp) { if (*dbp == '%') dbp++; /* Ratfor escape to fortran */ dbp = skip_spaces (dbp); if (*dbp == '\0') continue; switch (lowcase (*dbp)) { case 'i': if (tail ("integer")) takeprec (); break; case 'r': if (tail ("real")) takeprec (); break; case 'l': if (tail ("logical")) takeprec (); break; case 'c': if (tail ("complex") || tail ("character")) takeprec (); break; case 'd': if (tail ("double")) { dbp = skip_spaces (dbp); if (*dbp == '\0') continue; if (tail ("precision")) break; continue; } break; } dbp = skip_spaces (dbp); if (*dbp == '\0') continue; switch (lowcase (*dbp)) { case 'f': if (tail ("function")) getit (inf); continue; case 's': if (tail ("subroutine")) getit (inf); continue; case 'e': if (tail ("entry")) getit (inf); continue; case 'b': if (tail ("blockdata") || tail ("block data")) { dbp = skip_spaces (dbp); if (*dbp == '\0') /* assume un-named */ pfnote (savestr ("blockdata"), TRUE, lb.buffer, dbp - lb.buffer, lineno, linecharno); else getit (inf); /* look for name */ } continue; } } } /* * Philippe Waroquiers , 1998-04-24 * Ada parsing */ /* Once we are positioned after an "interesting" keyword, let's get the real tag value necessary. */ void adagetit (inf, name_qualifier) FILE *inf; char *name_qualifier; { register char *cp; char *name; char c; while (!feof (inf)) { dbp = skip_spaces (dbp); if (*dbp == '\0' || (dbp[0] == '-' && dbp[1] == '-')) { lineno++; linecharno = charno; charno += readline (&lb, inf); dbp = lb.buffer; } switch (*dbp) { case 'b': case 'B': if (tail ("body")) { /* Skipping body of procedure body or package body or .... resetting qualifier to body instead of spec. */ name_qualifier = "/b"; continue; } break; case 't': case 'T': /* Skipping type of task type or protected type ... */ if (tail ("type")) continue; break; } if (*dbp == '"') { dbp += 1; for (cp = dbp; *cp != '\0' && *cp != '"'; cp++) continue; } else { dbp = skip_spaces (dbp); for (cp = dbp; (*cp != '\0' && (isalpha (*cp) || isdigit (*cp) || *cp == '_' || *cp == '.')); cp++) continue; if (cp == dbp) return; } c = *cp; *cp = '\0'; name = concat (dbp, name_qualifier, ""); *cp = c; pfnote (name, TRUE, lb.buffer, cp - lb.buffer + 1, lineno, linecharno); if (c == '"') dbp = cp + 1; return; } } void Ada_funcs (inf) FILE *inf; { bool inquote = FALSE; LOOP_ON_INPUT_LINES (inf, lb, dbp) { while (*dbp != '\0') { /* Skip a string i.e. "abcd". */ if (inquote || (*dbp == '"')) { dbp = etags_strchr ((inquote) ? dbp : dbp+1, '"'); if (dbp != NULL) { inquote = FALSE; dbp += 1; continue; /* advance char */ } else { inquote = TRUE; break; /* advance line */ } } /* Skip comments. */ if (dbp[0] == '-' && dbp[1] == '-') break; /* advance line */ /* Skip character enclosed in single quote i.e. 'a' and skip single quote starting an attribute i.e. 'Image. */ if (*dbp == '\'') { dbp++ ; if (*dbp != '\0') dbp++; continue; } /* Search for beginning of a token. */ if (!begtoken (*dbp)) { dbp++; continue; /* advance char */ } /* We are at the beginning of a token. */ switch (*dbp) { case 'f': case 'F': if (!packages_only && tail ("function")) adagetit (inf, "/f"); else break; /* from switch */ continue; /* advance char */ case 'p': case 'P': if (!packages_only && tail ("procedure")) adagetit (inf, "/p"); else if (tail ("package")) adagetit (inf, "/s"); else if (tail ("protected")) /* protected type */ adagetit (inf, "/t"); else break; /* from switch */ continue; /* advance char */ case 't': case 'T': if (!packages_only && tail ("task")) adagetit (inf, "/k"); else if (typedefs && !packages_only && tail ("type")) { adagetit (inf, "/t"); while (*dbp != '\0') dbp += 1; } else break; /* from switch */ continue; /* advance char */ } /* Look for the end of the token. */ while (!endtoken (*dbp)) dbp++; } /* advance char */ } /* advance line */ } /* * Bob Weiner, Motorola Inc., 4/3/94 * Unix and microcontroller assembly tag handling * look for '^[a-zA-Z_.$][a-zA_Z0-9_.$]*[: ^I^J]' */ void Asm_labels (inf) FILE *inf; { register char *cp; LOOP_ON_INPUT_LINES (inf, lb, cp) { /* If first char is alphabetic or one of [_.$], test for colon following identifier. */ if (isalpha (*cp) || *cp == '_' || *cp == '.' || *cp == '$') { /* Read past label. */ cp++; while (isalnum (*cp) || *cp == '_' || *cp == '.' || *cp == '$') cp++; if (*cp == ':' || isspace (*cp)) { /* Found end of label, so copy it and add it to the table. */ pfnote (savenstr(lb.buffer, cp-lb.buffer), TRUE, lb.buffer, cp - lb.buffer + 1, lineno, linecharno); } } } } /* * Perl support by Bart Robinson * enhanced by Michael Ernst * Perl sub names: look for /^sub[ \t\n]+[^ \t\n{]+/ * Perl variable names: /^(my|local).../ */ void Perl_functions (inf) FILE *inf; { register char *cp; LOOP_ON_INPUT_LINES (inf, lb, cp) { if (*cp++ == 's' && *cp++ == 'u' && *cp++ == 'b' && isspace (*cp++)) { cp = skip_spaces (cp); if (*cp != '\0') { char *sp = cp; while (*cp != '\0' && !isspace (*cp) && *cp != '{' && *cp != '(') cp++; pfnote (savenstr (sp, cp-sp), TRUE, lb.buffer, cp - lb.buffer + 1, lineno, linecharno); } } else if (globals /* only if tagging global vars is enabled */ && ((cp = lb.buffer, *cp++ == 'm' && *cp++ == 'y') || (cp = lb.buffer, *cp++ == 'l' && *cp++ == 'o' && *cp++ == 'c' && *cp++ == 'a' && *cp++ == 'l')) && (*cp == '(' || isspace (*cp))) { /* After "my" or "local", but before any following paren or space. */ char *varname = NULL; cp = skip_spaces (cp); if (*cp == '$' || *cp == '@' || *cp == '%') { char* varstart = ++cp; while (isalnum (*cp) || *cp == '_') cp++; varname = savenstr (varstart, cp-varstart); } else { /* Should be examining a variable list at this point; could insist on seeing an open parenthesis. */ while (*cp != '\0' && *cp != ';' && *cp != '=' && *cp != ')') cp++; } /* Perhaps I should back cp up one character, so the TAGS table doesn't mention (and so depend upon) the following char. */ pfnote ((CTAGS) ? savenstr (lb.buffer, cp-lb.buffer) : varname, FALSE, lb.buffer, cp - lb.buffer + 1, lineno, linecharno); } } } /* * Python support by Eric S. Raymond * Look for /^def[ \t\n]+[^ \t\n(:]+/ or /^class[ \t\n]+[^ \t\n(:]+/ */ void Python_functions (inf) FILE *inf; { register char *cp; LOOP_ON_INPUT_LINES (inf, lb, cp) { if (*cp++ == 'd' && *cp++ == 'e' && *cp++ == 'f' && isspace (*cp++)) { cp = skip_spaces (cp); while (*cp != '\0' && !isspace (*cp) && *cp != '(' && *cp != ':') cp++; pfnote (NULL, TRUE, lb.buffer, cp - lb.buffer + 1, lineno, linecharno); } cp = lb.buffer; if (*cp++ == 'c' && *cp++ == 'l' && *cp++ == 'a' && *cp++ == 's' && *cp++ == 's' && isspace (*cp++)) { cp = skip_spaces (cp); while (*cp != '\0' && !isspace (*cp) && *cp != '(' && *cp != ':') cp++; pfnote (NULL, TRUE, lb.buffer, cp - lb.buffer + 1, lineno, linecharno); } } } /* Idea by Corny de Souza * Cobol tag functions * We could look for anything that could be a paragraph name. * i.e. anything that starts in column 8 is one word and ends in a full stop. */ void Cobol_paragraphs (inf) FILE *inf; { register char *bp, *ep; LOOP_ON_INPUT_LINES (inf, lb, bp) { if (lb.len < 9) continue; bp += 8; /* If eoln, compiler option or comment ignore whole line. */ if (bp[-1] != ' ' || !isalnum (bp[0])) continue; for (ep = bp; isalnum (*ep) || *ep == '-'; ep++) continue; if (*ep++ == '.') pfnote (savenstr (bp, ep-bp), TRUE, lb.buffer, ep - lb.buffer + 1, lineno, linecharno); } } /* Added by Mosur Mohan, 4/22/88 */ /* Pascal parsing */ /* * Locates tags for procedures & functions. Doesn't do any type- or * var-definitions. It does look for the keyword "extern" or * "forward" immediately following the procedure statement; if found, * the tag is skipped. */ void Pascal_functions (inf) FILE *inf; { linebuffer tline; /* mostly copied from C_entries */ long save_lcno; int save_lineno, save_len; char c, *cp, *namebuf; bool /* each of these flags is TRUE iff: */ incomment, /* point is inside a comment */ inquote, /* point is inside '..' string */ get_tagname, /* point is after PROCEDURE/FUNCTION keyword, so next item = potential tag */ found_tag, /* point is after a potential tag */ inparms, /* point is within parameter-list */ verify_tag; /* point has passed the parm-list, so the next token will determine whether this is a FORWARD/EXTERN to be ignored, or whether it is a real tag */ save_lcno = save_lineno = save_len = 0; /* keep compiler quiet */ namebuf = NULL; /* keep compiler quiet */ lineno = 0; charno = 0; dbp = lb.buffer; *dbp = '\0'; initbuffer (&tline); incomment = inquote = FALSE; found_tag = FALSE; /* have a proc name; check if extern */ get_tagname = FALSE; /* have found "procedure" keyword */ inparms = FALSE; /* found '(' after "proc" */ verify_tag = FALSE; /* check if "extern" is ahead */ while (!feof (inf)) /* long main loop to get next char */ { c = *dbp++; if (c == '\0') /* if end of line */ { lineno++; linecharno = charno; charno += readline (&lb, inf); dbp = lb.buffer; if (*dbp == '\0') continue; if (!((found_tag && verify_tag) || get_tagname)) c = *dbp++; /* only if don't need *dbp pointing to the beginning of the name of the procedure or function */ } if (incomment) { if (c == '}') /* within { } comments */ incomment = FALSE; else if (c == '*' && *dbp == ')') /* within (* *) comments */ { dbp++; incomment = FALSE; } continue; } else if (inquote) { if (c == '\'') inquote = FALSE; continue; } else switch (c) { case '\'': inquote = TRUE; /* found first quote */ continue; case '{': /* found open { comment */ incomment = TRUE; continue; case '(': if (*dbp == '*') /* found open (* comment */ { incomment = TRUE; dbp++; } else if (found_tag) /* found '(' after tag, i.e., parm-list */ inparms = TRUE; continue; case ')': /* end of parms list */ if (inparms) inparms = FALSE; continue; case ';': if (found_tag && !inparms) /* end of proc or fn stmt */ { verify_tag = TRUE; break; } continue; } if (found_tag && verify_tag && (*dbp != ' ')) { /* check if this is an "extern" declaration */ if (*dbp == '\0') continue; if (lowcase (*dbp == 'e')) { if (tail ("extern")) /* superfluous, really! */ { found_tag = FALSE; verify_tag = FALSE; } } else if (lowcase (*dbp) == 'f') { if (tail ("forward")) /* check for forward reference */ { found_tag = FALSE; verify_tag = FALSE; } } if (found_tag && verify_tag) /* not external proc, so make tag */ { found_tag = FALSE; verify_tag = FALSE; pfnote (namebuf, TRUE, tline.buffer, save_len, save_lineno, save_lcno); continue; } } if (get_tagname) /* grab name of proc or fn */ { if (*dbp == '\0') continue; /* save all values for later tagging */ grow_linebuffer (&tline, lb.len + 1); strcpy (tline.buffer, lb.buffer); save_lineno = lineno; save_lcno = linecharno; /* grab block name */ for (cp = dbp + 1; *cp != '\0' && !endtoken (*cp); cp++) continue; namebuf = savenstr (dbp, cp-dbp); dbp = cp; /* set dbp to e-o-token */ save_len = dbp - lb.buffer + 1; get_tagname = FALSE; found_tag = TRUE; continue; /* and proceed to check for "extern" */ } else if (!incomment && !inquote && !found_tag) { /* check for proc/fn keywords */ switch (lowcase (c)) { case 'p': if (tail ("rocedure")) /* c = 'p', dbp has advanced */ get_tagname = TRUE; continue; case 'f': if (tail ("unction")) get_tagname = TRUE; continue; } } } /* while not eof */ free (tline.buffer); } /* * lisp tag functions * look for (def or (DEF, quote or QUOTE */ int L_isdef (strp) register char *strp; { return ((strp[1] == 'd' || strp[1] == 'D') && (strp[2] == 'e' || strp[2] == 'E') && (strp[3] == 'f' || strp[3] == 'F')); } int L_isquote (strp) register char *strp; { return ((*++strp == 'q' || *strp == 'Q') && (*++strp == 'u' || *strp == 'U') && (*++strp == 'o' || *strp == 'O') && (*++strp == 't' || *strp == 'T') && (*++strp == 'e' || *strp == 'E') && isspace (*++strp)); } void L_getit () { register char *cp; if (*dbp == '\'') /* Skip prefix quote */ dbp++; else if (*dbp == '(') { if (L_isquote (dbp)) dbp += 7; /* Skip "(quote " */ else dbp += 1; /* Skip "(" before name in (defstruct (foo)) */ dbp = skip_spaces (dbp); } for (cp = dbp /*+1*/; *cp != '\0' && *cp != '(' && !isspace(*cp) && *cp != ')'; cp++) continue; if (cp == dbp) return; pfnote (savenstr (dbp, cp-dbp), TRUE, lb.buffer, cp - lb.buffer + 1, lineno, linecharno); } void Lisp_functions (inf) FILE *inf; { LOOP_ON_INPUT_LINES (inf, lb, dbp) { if (dbp[0] == '(') { if (L_isdef (dbp)) { dbp = skip_non_spaces (dbp); dbp = skip_spaces (dbp); L_getit (); } else { /* Check for (foo::defmumble name-defined ... */ do dbp++; while (*dbp != '\0' && !isspace (*dbp) && *dbp != ':' && *dbp != '(' && *dbp != ')'); if (*dbp == ':') { do dbp++; while (*dbp == ':'); if (L_isdef (dbp - 1)) { dbp = skip_non_spaces (dbp); dbp = skip_spaces (dbp); L_getit (); } } } } } } /* * Postscript tag functions * Just look for lines where the first character is '/' * Richard Mlynarik * Also look at "defineps" for PSWrap * suggested by Masatake YAMATO */ void Postscript_functions (inf) FILE *inf; { register char *bp, *ep; LOOP_ON_INPUT_LINES (inf, lb, bp) { if (bp[0] == '/') { for (ep = bp+1; *ep != '\0' && *ep != ' ' && *ep != '{'; ep++) continue; pfnote (savenstr (bp, ep-bp), TRUE, lb.buffer, ep - lb.buffer + 1, lineno, linecharno); } else if (strneq (bp, "defineps", 8)) { bp = skip_non_spaces (bp); bp = skip_spaces (bp); get_tag (bp); } } } /* * Scheme tag functions * look for (def... xyzzy * look for (def... (xyzzy * look for (def ... ((...(xyzzy .... * look for (set! xyzzy */ void get_scheme (); void Scheme_functions (inf) FILE *inf; { register char *bp; LOOP_ON_INPUT_LINES (inf, lb, bp) { if (bp[0] == '(' && (bp[1] == 'D' || bp[1] == 'd') && (bp[2] == 'E' || bp[2] == 'e') && (bp[3] == 'F' || bp[3] == 'f')) { bp = skip_non_spaces (bp); /* Skip over open parens and white space */ while (isspace (*bp) || *bp == '(') bp++; get_tag (bp); } if (bp[0] == '(' && (bp[1] == 'S' || bp[1] == 's') && (bp[2] == 'E' || bp[2] == 'e') && (bp[3] == 'T' || bp[3] == 't') && (bp[4] == '!' || bp[4] == '!') && (isspace (bp[5]))) { bp = skip_non_spaces (bp); bp = skip_spaces (bp); get_tag (bp); } } } /* Find tags in TeX and LaTeX input files. */ /* TEX_toktab is a table of TeX control sequences that define tags. Each TEX_tabent records one such control sequence. CONVERT THIS TO USE THE Stab TYPE!! */ struct TEX_tabent { char *name; int len; }; struct TEX_tabent *TEX_toktab = NULL; /* Table with tag tokens */ /* Default set of control sequences to put into TEX_toktab. The value of environment var TEXTAGS is prepended to this. */ char *TEX_defenv = "\ :chapter:section:subsection:subsubsection:eqno:label:ref:cite:bibitem\ :part:appendix:entry:index"; void TEX_mode (); struct TEX_tabent *TEX_decode_env (); int TEX_Token (); char TEX_esc = '\\'; char TEX_opgrp = '{'; char TEX_clgrp = '}'; /* * TeX/LaTeX scanning loop. */ void TeX_functions (inf) FILE *inf; { char *cp, *lasthit; register int i; /* Select either \ or ! as escape character. */ TEX_mode (inf); /* Initialize token table once from environment. */ if (!TEX_toktab) TEX_toktab = TEX_decode_env ("TEXTAGS", TEX_defenv); LOOP_ON_INPUT_LINES (inf, lb, cp) { lasthit = cp; /* Look at each esc in line. */ while ((cp = etags_strchr (cp, TEX_esc)) != NULL) { if (*++cp == '\0') break; linecharno += cp - lasthit; lasthit = cp; i = TEX_Token (lasthit); if (i >= 0) { /* We seem to include the TeX command in the tag name. register char *p; for (p = lasthit + TEX_toktab[i].len; *p != '\0' && *p != TEX_clgrp; p++) continue; */ pfnote (/*savenstr (lasthit, p-lasthit)*/ (char *)NULL, TRUE, lb.buffer, lb.len, lineno, linecharno); break; /* We only tag a line once */ } } } } #define TEX_LESC '\\' #define TEX_SESC '!' #define TEX_cmt '%' /* Figure out whether TeX's escapechar is '\\' or '!' and set grouping chars accordingly. */ void TEX_mode (inf) FILE *inf; { int c; while ((c = getc (inf)) != EOF) { /* Skip to next line if we hit the TeX comment char. */ if (c == TEX_cmt) while (c != '\n') c = getc (inf); else if (c == TEX_LESC || c == TEX_SESC ) break; } if (c == TEX_LESC) { TEX_esc = TEX_LESC; TEX_opgrp = '{'; TEX_clgrp = '}'; } else { TEX_esc = TEX_SESC; TEX_opgrp = '<'; TEX_clgrp = '>'; } /* If the input file is compressed, inf is a pipe, and rewind may fail. No attempt is made to correct the situation. */ rewind (inf); } /* Read environment and prepend it to the default string. Build token table. */ struct TEX_tabent * TEX_decode_env (evarname, defenv) char *evarname; char *defenv; { register char *env, *p; struct TEX_tabent *tab; int size, i; /* Append default string to environment. */ env = getenv (evarname); if (!env) env = defenv; else { char *oldenv = env; env = concat (oldenv, defenv, ""); } /* Allocate a token table */ for (size = 1, p = env; p;) if ((p = etags_strchr (p, ':')) && *++p != '\0') size++; /* Add 1 to leave room for null terminator. */ tab = xnew (size + 1, struct TEX_tabent); /* Unpack environment string into token table. Be careful about */ /* zero-length strings (leading ':', "::" and trailing ':') */ for (i = 0; *env;) { p = etags_strchr (env, ':'); if (!p) /* End of environment string. */ p = env + strlen (env); if (p - env > 0) { /* Only non-zero strings. */ tab[i].name = savenstr (env, p - env); tab[i].len = strlen (tab[i].name); i++; } if (*p) env = p + 1; else { tab[i].name = NULL; /* Mark end of table. */ tab[i].len = 0; break; } } return tab; } /* If the text at CP matches one of the tag-defining TeX command names, return the pointer to the first occurrence of that command in TEX_toktab. Otherwise return -1. Keep the capital `T' in `token' for dumb truncating compilers (this distinguishes it from `TEX_toktab' */ int TEX_Token (cp) char *cp; { int i; for (i = 0; TEX_toktab[i].len > 0; i++) if (strneq (TEX_toktab[i].name, cp, TEX_toktab[i].len)) return i; return -1; } /* * Prolog support (rewritten) by Anders Lindgren, Mar. 96 * * Assumes that the predicate starts at column 0. * Only the first clause of a predicate is added. */ int prolog_pred (); void prolog_skip_comment (); int prolog_atom (); void Prolog_functions (inf) FILE *inf; { char *cp, *last; int len; int allocated; allocated = 0; len = 0; last = NULL; LOOP_ON_INPUT_LINES (inf, lb, cp) { if (cp[0] == '\0') /* Empty line */ continue; else if (isspace (cp[0])) /* Not a predicate */ continue; else if (cp[0] == '/' && cp[1] == '*') /* comment. */ prolog_skip_comment (&lb, inf); else if ((len = prolog_pred (cp, last)) > 0) { /* Predicate. Store the function name so that we only generate a tag for the first clause. */ if (last == NULL) last = xnew(len + 1, char); else if (len + 1 > allocated) last = xrnew (last, len + 1, char); allocated = len + 1; strncpy (last, cp, len); last[len] = '\0'; } } } void prolog_skip_comment (plb, inf) linebuffer *plb; FILE *inf; { char *cp; do { for (cp = plb->buffer; *cp != '\0'; cp++) if (cp[0] == '*' && cp[1] == '/') return; lineno++; linecharno += readline (plb, inf); } while (!feof(inf)); } /* * A predicate definition is added if it matches: * ( * * It is added to the tags database if it doesn't match the * name of the previous clause header. * * Return the size of the name of the predicate, or 0 if no header * was found. */ int prolog_pred (s, last) char *s; char *last; /* Name of last clause. */ { int pos; int len; pos = prolog_atom (s, 0); if (pos < 1) return 0; len = pos; pos = skip_spaces (s + pos) - s; if ((s[pos] == '(') || (s[pos] == '.')) { if (s[pos] == '(') pos++; /* Save only the first clause. */ if (last == NULL || len != (int)strlen (last) || !strneq (s, last, len)) { pfnote (savenstr (s, len), TRUE, s, pos, lineno, linecharno); return len; } } return 0; } /* * Consume a Prolog atom. * Return the number of bytes consumed, or -1 if there was an error. * * A prolog atom, in this context, could be one of: * - An alphanumeric sequence, starting with a lower case letter. * - A quoted arbitrary string. Single quotes can escape themselves. * Backslash quotes everything. */ int prolog_atom (s, pos) char *s; int pos; { int origpos; origpos = pos; if (islower(s[pos]) || (s[pos] == '_')) { /* The atom is unquoted. */ pos++; while (isalnum(s[pos]) || (s[pos] == '_')) { pos++; } return pos - origpos; } else if (s[pos] == '\'') { pos++; while (1) { if (s[pos] == '\'') { pos++; if (s[pos] != '\'') break; pos++; /* A double quote */ } else if (s[pos] == '\0') /* Multiline quoted atoms are ignored. */ return -1; else if (s[pos] == '\\') { if (s[pos+1] == '\0') return -1; pos += 2; } else pos++; } return pos - origpos; } else return -1; } /* * Support for Erlang -- Anders Lindgren, Feb 1996. * * Generates tags for functions, defines, and records. * * Assumes that Erlang functions start at column 0. */ int erlang_func (); void erlang_attribute (); int erlang_atom (); void Erlang_functions (inf) FILE *inf; { char *cp, *last; int len; int allocated; allocated = 0; len = 0; last = NULL; LOOP_ON_INPUT_LINES (inf, lb, cp) { if (cp[0] == '\0') /* Empty line */ continue; else if (isspace (cp[0])) /* Not function nor attribute */ continue; else if (cp[0] == '%') /* comment */ continue; else if (cp[0] == '"') /* Sometimes, strings start in column one */ continue; else if (cp[0] == '-') /* attribute, e.g. "-define" */ { erlang_attribute (cp); last = NULL; } else if ((len = erlang_func (cp, last)) > 0) { /* * Function. Store the function name so that we only * generates a tag for the first clause. */ if (last == NULL) last = xnew (len + 1, char); else if (len + 1 > allocated) last = xrnew (last, len + 1, char); allocated = len + 1; strncpy (last, cp, len); last[len] = '\0'; } } } /* * A function definition is added if it matches: * ( * * It is added to the tags database if it doesn't match the * name of the previous clause header. * * Return the size of the name of the function, or 0 if no function * was found. */ int erlang_func (s, last) char *s; char *last; /* Name of last clause. */ { int pos; int len; pos = erlang_atom (s, 0); if (pos < 1) return 0; len = pos; pos = skip_spaces (s + pos) - s; /* Save only the first clause. */ if (s[pos++] == '(' && (last == NULL || len != (int)strlen (last) || !strneq (s, last, len))) { pfnote (savenstr (s, len), TRUE, s, pos, lineno, linecharno); return len; } return 0; } /* * Handle attributes. Currently, tags are generated for defines * and records. * * They are on the form: * -define(foo, bar). * -define(Foo(M, N), M+N). * -record(graph, {vtab = notable, cyclic = true}). */ void erlang_attribute (s) char *s; { int pos; int len; if (strneq (s, "-define", 7) || strneq (s, "-record", 7)) { pos = skip_spaces (s + 7) - s; if (s[pos++] == '(') { pos = skip_spaces (s + pos) - s; len = erlang_atom (s, pos); if (len != 0) pfnote (savenstr (& s[pos], len), TRUE, s, pos + len, lineno, linecharno); } } return; } /* * Consume an Erlang atom (or variable). * Return the number of bytes consumed, or -1 if there was an error. */ int erlang_atom (s, pos) char *s; int pos; { int origpos; origpos = pos; if (isalpha (s[pos]) || s[pos] == '_') { /* The atom is unquoted. */ pos++; while (isalnum (s[pos]) || s[pos] == '_') pos++; return pos - origpos; } else if (s[pos] == '\'') { pos++; while (1) { if (s[pos] == '\'') { pos++; break; } else if (s[pos] == '\0') /* Multiline quoted atoms are ignored. */ return -1; else if (s[pos] == '\\') { if (s[pos+1] == '\0') return -1; pos += 2; } else pos++; } return pos - origpos; } else return -1; } #ifdef ETAGS_REGEXPS /* Take a string like "/blah/" and turn it into "blah", making sure that the first and last characters are the same, and handling quoted separator characters. Actually, stops on the occurrence of an unquoted separator. Also turns "\t" into a Tab character. Returns pointer to terminating separator. Works in place. Null terminates name string. */ char * scan_separators (name) char *name; { char sep = name[0]; char *copyto = name; bool quoted = FALSE; for (++name; *name != '\0'; ++name) { if (quoted) { if (*name == 't') *copyto++ = '\t'; else if (*name == sep) *copyto++ = sep; else { /* Something else is quoted, so preserve the quote. */ *copyto++ = '\\'; *copyto++ = *name; } quoted = FALSE; } else if (*name == '\\') quoted = TRUE; else if (*name == sep) break; else *copyto++ = *name; } /* Terminate copied string. */ *copyto = '\0'; return name; } /* Look at the argument of --regex or --no-regex and do the right thing. Same for each line of a regexp file. */ void analyse_regex (regex_arg, ignore_case) char *regex_arg; bool ignore_case; { if (regex_arg == NULL) free_patterns (); /* --no-regex: remove existing regexps */ /* A real --regexp option or a line in a regexp file. */ switch (regex_arg[0]) { /* Comments in regexp file or null arg to --regex. */ case '\0': case ' ': case '\t': break; /* Read a regex file. This is recursive and may result in a loop, which will stop when the file descriptors are exhausted. */ case '@': { FILE *regexfp; linebuffer regexbuf; char *regexfile = regex_arg + 1; /* regexfile is a file containing regexps, one per line. */ regexfp = fopen (regexfile, "r"); if (regexfp == NULL) { pfatal (regexfile); return; } initbuffer (®exbuf); while (readline_internal (®exbuf, regexfp) > 0) analyse_regex (regexbuf.buffer, ignore_case); free (regexbuf.buffer); fclose (regexfp); } break; /* Regexp to be used for a specific language only. */ case '{': { language *lang; char *lang_name = regex_arg + 1; char *cp; for (cp = lang_name; *cp != '}'; cp++) if (*cp == '\0') { error ("unterminated language name in regex: %s", regex_arg); return; } *cp = '\0'; lang = get_language_from_name (lang_name); if (lang == NULL) return; add_regex (cp + 1, ignore_case, lang); } break; /* Regexp to be used for any language. */ default: add_regex (regex_arg, ignore_case, NULL); break; } } /* Turn a name, which is an ed-style (but Emacs syntax) regular expression, into a real regular expression by compiling it. */ void add_regex (regexp_pattern, ignore_case, lang) char *regexp_pattern; bool ignore_case; language *lang; { char *name; const char *err; struct re_pattern_buffer *patbuf; pattern *pp; if (regexp_pattern[strlen(regexp_pattern)-1] != regexp_pattern[0]) { error ("%s: unterminated regexp", regexp_pattern); return; } name = scan_separators (regexp_pattern); if (regexp_pattern[0] == '\0') { error ("null regexp", (char *)NULL); return; } (void) scan_separators (name); patbuf = xnew (1, struct re_pattern_buffer); /* Translation table to fold case if appropriate. */ patbuf->translate = (ignore_case) ? lc_trans : NULL; patbuf->fastmap = NULL; patbuf->buffer = NULL; patbuf->allocated = 0; err = re_compile_pattern (regexp_pattern, strlen (regexp_pattern), patbuf); if (err != NULL) { error ("%s while compiling pattern", err); return; } pp = p_head; p_head = xnew (1, pattern); p_head->regex = savestr (regexp_pattern); p_head->p_next = pp; p_head->language = lang; p_head->pattern = patbuf; p_head->name_pattern = savestr (name); p_head->error_signaled = FALSE; } /* * Do the substitutions indicated by the regular expression and * arguments. */ char * substitute (in, out, regs) char *in, *out; struct re_registers *regs; { char *result, *t; int size, dig, diglen; result = NULL; size = strlen (out); /* Pass 1: figure out how much to allocate by finding all \N strings. */ if (out[size - 1] == '\\') fatal ("pattern error in \"%s\"", out); for (t = etags_strchr (out, '\\'); t != NULL; t = etags_strchr (t + 2, '\\')) if (isdigit (t[1])) { dig = t[1] - '0'; diglen = regs->end[dig] - regs->start[dig]; size += diglen - 2; } else size -= 1; /* Allocate space and do the substitutions. */ result = xnew (size + 1, char); for (t = result; *out != '\0'; out++) if (*out == '\\' && isdigit (*++out)) { /* Using "dig2" satisfies my debugger. Bleah. */ dig = *out - '0'; diglen = regs->end[dig] - regs->start[dig]; strncpy (t, in + regs->start[dig], diglen); t += diglen; } else *t++ = *out; *t = '\0'; if (DEBUG && (t > result + size || t - result != (int)strlen (result))) abort (); return result; } /* Deallocate all patterns. */ void free_patterns () { pattern *pp; while (p_head != NULL) { pp = p_head->p_next; free (p_head->regex); free (p_head->name_pattern); free (p_head); p_head = pp; } return; } void get_tag (bp) register char *bp; { register char *cp; if (*bp == '\0') return; /* Go till you get to white space or a syntactic break */ for (cp = bp + 1; *cp != '\0' && *cp != '(' && *cp != ')' && !isspace (*cp); cp++) continue; pfnote (savenstr (bp, cp-bp), TRUE, lb.buffer, cp - lb.buffer + 1, lineno, linecharno); } #endif /* ETAGS_REGEXPS */ /* Initialize a linebuffer for use */ void initbuffer (lbp) linebuffer *lbp; { lbp->size = 200; lbp->buffer = xnew (200, char); } /* * Read a line of text from `stream' into `lbp', excluding the * newline or CR-NL, if any. Return the number of characters read from * `stream', which is the length of the line including the newline. * * On DOS or Windows we do not count the CR character, if any, before the * NL, in the returned length; this mirrors the behavior of emacs on those * platforms (for text files, it translates CR-NL to NL as it reads in the * file). */ long readline_internal (lbp, stream) linebuffer *lbp; register FILE *stream; { char *buffer = lbp->buffer; register char *p = lbp->buffer; register char *pend; int chars_deleted; pend = p + lbp->size; /* Separate to avoid 386/IX compiler bug. */ while (1) { register int c = getc (stream); if (p == pend) { /* We're at the end of linebuffer: expand it. */ lbp->size *= 2; buffer = xrnew (buffer, lbp->size, char); p += buffer - lbp->buffer; pend = buffer + lbp->size; lbp->buffer = buffer; } if (c == EOF) { *p = '\0'; chars_deleted = 0; break; } if (c == '\n') { if (p > buffer && p[-1] == '\r') { p -= 1; #ifdef DOS_NT /* Assume CRLF->LF translation will be performed by Emacs when loading this file, so CRs won't appear in the buffer. It would be cleaner to compensate within Emacs; however, Emacs does not know how many CRs were deleted before any given point in the file. */ chars_deleted = 1; #else chars_deleted = 2; #endif } else { chars_deleted = 1; } *p = '\0'; break; } *p++ = c; } lbp->len = p - buffer; return lbp->len + chars_deleted; } /* * Like readline_internal, above, but in addition try to match the * input line against relevant regular expressions. */ long readline (lbp, stream) linebuffer *lbp; FILE *stream; { /* Read new line. */ long result = readline_internal (lbp, stream); #ifdef ETAGS_REGEXPS int match; pattern *pp; /* Match against relevant patterns. */ if (lbp->len > 0) for (pp = p_head; pp != NULL; pp = pp->p_next) { /* Only use generic regexps or those for the current language. */ if (pp->language != NULL && pp->language != curlang) continue; match = re_match (pp->pattern, lbp->buffer, lbp->len, 0, &pp->regs); switch (match) { case -2: /* Some error. */ if (!pp->error_signaled) { error ("error while matching \"%s\"", pp->regex); pp->error_signaled = TRUE; } break; case -1: /* No match. */ break; default: /* Match occurred. Construct a tag. */ if (pp->name_pattern[0] != '\0') { /* Make a named tag. */ char *name = substitute (lbp->buffer, pp->name_pattern, &pp->regs); if (name != NULL) pfnote (name, TRUE, lbp->buffer, match, lineno, linecharno); } else { /* Make an unnamed tag. */ pfnote ((char *)NULL, TRUE, lbp->buffer, match, lineno, linecharno); } break; } } #endif /* ETAGS_REGEXPS */ return result; } /* * Return a pointer to a space of size strlen(cp)+1 allocated * with xnew where the string CP has been copied. */ char * savestr (cp) char *cp; { return savenstr (cp, strlen (cp)); } /* * Return a pointer to a space of size LEN+1 allocated with xnew where * the string CP has been copied for at most the first LEN characters. */ char * savenstr (cp, len) char *cp; int len; { register char *dp; dp = xnew (len + 1, char); strncpy (dp, cp, len); dp[len] = '\0'; return dp; } /* * Return the ptr in sp at which the character c last * appears; NULL if not found * * Identical to System V strrchr, included for portability. */ char * etags_strrchr (sp, c) register char *sp, c; { register char *r; r = NULL; do { if (*sp == c) r = sp; } while (*sp++); return r; } /* * Return the ptr in sp at which the character c first * appears; NULL if not found * * Identical to System V strchr, included for portability. */ char * etags_strchr (sp, c) register char *sp, c; { do { if (*sp == c) return sp; } while (*sp++); return NULL; } /* Skip spaces, return new pointer. */ char * skip_spaces (cp) char *cp; { while (isspace (*cp)) /* isspace('\0')==FALSE */ cp++; return cp; } /* Skip non spaces, return new pointer. */ char * skip_non_spaces (cp) char *cp; { while (!iswhite (*cp)) /* iswhite('\0')==TRUE */ cp++; return cp; } /* Print error message and exit. */ void fatal (s1, s2) char *s1, *s2; { error (s1, s2); exit (BAD); } void pfatal (s1) char *s1; { perror (s1); exit (BAD); } void suggest_asking_for_help () { fprintf (stderr, "\tTry `%s %s' for a complete list of options.\n", progname, #ifdef LONG_OPTIONS "--help" #else "-h" #endif ); exit (BAD); } /* Print error message. `s1' is printf control string, `s2' is arg for it. */ void error (s1, s2) char *s1, *s2; { fprintf (stderr, "%s: ", progname); fprintf (stderr, s1, s2); fprintf (stderr, "\n"); } /* Return a newly-allocated string whose contents concatenate those of s1, s2, s3. */ char * concat (s1, s2, s3) char *s1, *s2, *s3; { int len1 = strlen (s1), len2 = strlen (s2), len3 = strlen (s3); char *result = xnew (len1 + len2 + len3 + 1, char); strcpy (result, s1); strcpy (result + len1, s2); strcpy (result + len1 + len2, s3); result[len1 + len2 + len3] = '\0'; return result; } /* Does the same work as the system V getcwd, but does not need to guess the buffer size in advance. */ char * etags_getcwd () { #ifdef HAVE_GETCWD int bufsize = 200; char *path = xnew (bufsize, char); while (getcwd (path, bufsize) == NULL) { if (errno != ERANGE) pfatal ("getcwd"); bufsize *= 2; free (path); path = xnew (bufsize, char); } canonicalize_filename (path); return path; #else /* not HAVE_GETCWD */ #ifdef MSDOS char *p, path[MAXPATHLEN + 1]; /* Fixed size is safe on MSDOS. */ getwd (path); for (p = path; *p != '\0'; p++) if (*p == '\\') *p = '/'; else *p = lowcase (*p); return strdup (path); #else /* not MSDOS */ linebuffer path; FILE *pipe; initbuffer (&path); pipe = (FILE *) popen ("pwd 2>/dev/null", "r"); if (pipe == NULL || readline_internal (&path, pipe) == 0) pfatal ("pwd"); pclose (pipe); return path.buffer; #endif /* not MSDOS */ #endif /* not HAVE_GETCWD */ } /* Return a newly allocated string containing the file name of FILE relative to the absolute directory DIR (which should end with a slash). */ char * relative_filename (file, dir) char *file, *dir; { char *fp, *dp, *afn, *res; int i; /* Find the common root of file and dir (with a trailing slash). */ afn = absolute_filename (file, cwd); fp = afn; dp = dir; while (*fp++ == *dp++) continue; fp--, dp--; /* back to the first differing char */ #ifdef DOS_NT if (fp == afn && afn[0] != '/') /* cannot build a relative name */ return afn; #endif do /* look at the equal chars until '/' */ fp--, dp--; while (*fp != '/'); /* Build a sequence of "../" strings for the resulting relative file name. */ i = 0; while ((dp = etags_strchr (dp + 1, '/')) != NULL) i += 1; res = xnew (3*i + strlen (fp + 1) + 1, char); res[0] = '\0'; while (i-- > 0) strcat (res, "../"); /* Add the file name relative to the common root of file and dir. */ strcat (res, fp + 1); free (afn); return res; } /* Return a newly allocated string containing the absolute file name of FILE given DIR (which should end with a slash). */ char * absolute_filename (file, dir) char *file, *dir; { char *slashp, *cp, *res; if (filename_is_absolute (file)) res = savestr (file); #ifdef DOS_NT /* We don't support non-absolute file names with a drive letter, like `d:NAME' (it's too much hassle). */ else if (file[1] == ':') fatal ("%s: relative file names with drive letters not supported", file); #endif else res = concat (dir, file, ""); /* Delete the "/dirname/.." and "/." substrings. */ slashp = etags_strchr (res, '/'); while (slashp != NULL && slashp[0] != '\0') { if (slashp[1] == '.') { if (slashp[2] == '.' && (slashp[3] == '/' || slashp[3] == '\0')) { cp = slashp; do cp--; while (cp >= res && !filename_is_absolute (cp)); if (cp < res) cp = slashp; /* the absolute name begins with "/.." */ #ifdef DOS_NT /* Under MSDOS and NT we get `d:/NAME' as absolute file name, so the luser could say `d:/../NAME'. We silently treat this as `d:/NAME'. */ else if (cp[0] != '/') cp = slashp; #endif strcpy (cp, slashp + 3); slashp = cp; continue; } else if (slashp[2] == '/' || slashp[2] == '\0') { strcpy (slashp, slashp + 2); continue; } } slashp = etags_strchr (slashp + 1, '/'); } if (res[0] == '\0') return savestr ("/"); else return res; } /* Return a newly allocated string containing the absolute file name of dir where FILE resides given DIR (which should end with a slash). */ char * absolute_dirname (file, dir) char *file, *dir; { char *slashp, *res; char save; canonicalize_filename (file); slashp = etags_strrchr (file, '/'); if (slashp == NULL) return savestr (dir); save = slashp[1]; slashp[1] = '\0'; res = absolute_filename (file, dir); slashp[1] = save; return res; } /* Whether the argument string is an absolute file name. The argument string must have been canonicalized with canonicalize_filename. */ bool filename_is_absolute (fn) char *fn; { return (fn[0] == '/' #ifdef DOS_NT || (isalpha(fn[0]) && fn[1] == ':' && fn[2] == '/') #endif ); } /* Translate backslashes into slashes. Works in place. */ void canonicalize_filename (fn) register char *fn; { #ifdef DOS_NT /* Convert backslashes to slashes. */ for (; *fn != '\0'; fn++) if (*fn == '\\') *fn = '/'; /* Canonicalize drive letter case. */ if (islower (path[0])) path[0] = toupper (path[0]); #else /* No action. */ fn = NULL; /* shut up the compiler */ #endif } /* Increase the size of a linebuffer. */ void grow_linebuffer (lbp, toksize) linebuffer *lbp; int toksize; { while (lbp->size < toksize) lbp->size *= 2; lbp->buffer = xrnew (lbp->buffer, lbp->size, char); } /* Like malloc but get fatal error if memory is exhausted. */ long * xmalloc (size) unsigned int size; { long *result = (long *) malloc (size); if (result == NULL) fatal ("virtual memory exhausted", (char *)NULL); return result; } long * xrealloc (ptr, size) char *ptr; unsigned int size; { long *result = (long *) realloc (ptr, size); if (result == NULL) fatal ("virtual memory exhausted", (char *)NULL); return result; }