Mercurial > hg > xemacs-beta
view lib-src/make-po.c @ 934:c925bacdda60
[xemacs-hg @ 2002-07-29 09:21:12 by michaels]
2002-07-17 Marcus Crestani <crestani@informatik.uni-tuebingen.de>
Markus Kaltenbach <makalten@informatik.uni-tuebingen.de>
Mike Sperber <mike@xemacs.org>
configure flag to turn these changes on: --use-kkcc
First we added a dumpable flag to lrecord_implementation. It shows,
if the object is dumpable and should be processed by the dumper.
* lrecord.h (struct lrecord_implementation): added dumpable flag
(MAKE_LRECORD_IMPLEMENTATION): fitted the different makro definitions
to the new lrecord_implementation and their calls.
Then we changed mark_object, that it no longer needs a mark method for
those types that have pdump descritions.
* alloc.c:
(mark_object): If the object has a description, the new mark algorithm
is called, and the object is marked according to its description.
Otherwise it uses the mark method like before.
These procedures mark objects according to their descriptions. They
are modeled on the corresponding pdumper procedures.
(mark_with_description):
(get_indirect_count):
(structure_size):
(mark_struct_contents):
These procedures still call mark_object, this is needed while there are
Lisp_Objects without descriptions left.
We added pdump descriptions for many Lisp_Objects:
* extents.c: extent_auxiliary_description
* database.c: database_description
* gui.c: gui_item_description
* scrollbar.c: scrollbar_instance_description
* toolbar.c: toolbar_button_description
* event-stream.c: command_builder_description
* mule-charset.c: charset_description
* device-msw.c: devmode_description
* dialog-msw.c: mswindows_dialog_id_description
* eldap.c: ldap_description
* postgresql.c: pgconn_description
pgresult_description
* tooltalk.c: tooltalk_message_description
tooltalk_pattern_description
* ui-gtk.c: emacs_ffi_description
emacs_gtk_object_description
* events.c:
* events.h:
* event-stream.c:
* event-Xt.c:
* event-gtk.c:
* event-tty.c:
To write a pdump description for Lisp_Event, we converted every struct
in the union event to a Lisp_Object. So we created nine new
Lisp_Objects: Lisp_Key_Data, Lisp_Button_Data, Lisp_Motion_Data,
Lisp_Process_Data, Lisp_Timeout_Data, Lisp_Eval_Data,
Lisp_Misc_User_Data, Lisp_Magic_Data, Lisp_Magic_Eval_Data.
We also wrote makro selectors and mutators for the fields of the new
designed Lisp_Event and added everywhere these new abstractions.
We implemented XD_UNION support in (mark_with_description), so
we can describe exspecially console/device specific data with XD_UNION.
To describe with XD_UNION, we added a field to these objects, which
holds the variant type of the object. This field is initialized in
the appendant constructor. The variant is an integer, it has also to
be described in an description, if XD_UNION is used.
XD_UNION is used in following descriptions:
* console.c: console_description
(get_console_variant): returns the variant
(create_console): added variant initialization
* console.h (console_variant): the different console types
* console-impl.h (struct console): added enum console_variant contype
* device.c: device_description
(Fmake_device): added variant initialization
* device-impl.h (struct device): added enum console_variant devtype
* objects.c: image_instance_description
font_instance_description
(Fmake_color_instance): added variant initialization
(Fmake_font_instance): added variant initialization
* objects-impl.h (struct Lisp_Color_Instance): added color_instance_type
* objects-impl.h (struct Lisp_Font_Instance): added font_instance_type
* process.c: process_description
(make_process_internal): added variant initialization
* process.h (process_variant): the different process types
| author | michaels |
|---|---|
| date | Mon, 29 Jul 2002 09:21:25 +0000 |
| parents | 576fb035e263 |
| children |
line wrap: on
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/* Generate .po file from doc-string file. Scan specified doc-string file, creating .po format messages for processing with msgfmt. The results go to standard output or to a file specified with -a or -o (-a to append, -o to start from nothing). Kludge to make up for shortcoming in make-docfile and Snarf-documentation: If arg before input filename is -p, we are scanning an add-on package, which requires slightly different processing. */ #include <stdio.h> #include <stdlib.h> #ifndef EXIT_SUCCESS #define EXIT_SUCCESS 0 #define EXIT_FAILURE 1 #endif /* #define BUFSIZE 8192 */ /* #define BUFSIZE 16384 */ #define BUFSIZE 32768 #define NEWSTRING 31 /* Character signalling start of new doc string */ #define LINEEND "\\n" #define ENDSTRING "\"\n" #define LINEBEGIN " \"" #define LINEBREAK ENDSTRING LINEBEGIN /* some brain-dead headers define this ... */ #undef FALSE #undef TRUE enum boolean { FALSE, TRUE }; /***********************/ /* buffer pseudo-class */ /***********************/ typedef struct _buffer { size_t index; /* current position in buf[] */ size_t size; /* size of buf */ char *buf; } buffer_struct; #define BUF_NULL {0, 0, NULL} int buf_init (buffer_struct *buffer, size_t size); void buf_free (buffer_struct *buffer); void buf_clear (buffer_struct *buffer); int buf_putc (buffer_struct *buffer, int c); int buf_print (buffer_struct *buffer, const char *s); /********************/ /* global variables */ /********************/ FILE *infile = NULL; FILE *outfile = NULL; buffer_struct buf = BUF_NULL; void scan_file (enum boolean package); void initialize (void); void clean_exit (int status); void buf_putc_safe (int c); void buf_print_safe (const char *s); void terminate_string (void); main (int argc, char *argv[]) { register int i; enum boolean package = FALSE; /* TRUE if scanning add-on package */ initialize (); outfile = stdout; /* If first two args are -o FILE, output to FILE. */ i = 1; if (argc > i + 1 && strcmp (argv[i], "-o") == 0) { outfile = fopen (argv[++i], "w"); ++i; } /* ...Or if args are -a FILE, append to FILE. */ if (argc > i + 1 && strcmp (argv[i], "-a") == 0) { outfile = fopen (argv[++i], "a"); ++i; } if (!outfile) { fprintf (stderr, "Unable to open output file %s\n", argv[--i]); return 1; } if (argc > i && !strcmp (argv[i], "-p")) { package = TRUE; ++i; } infile = fopen (argv[i], "r"); if (!infile) { fprintf (stderr, "Unable to open input file %s\n", argv[i]); return 1; } scan_file (package); clean_exit (EXIT_SUCCESS); } void scan_file (enum boolean package) { register int c; /* Character read in */ fprintf (outfile, "###############\n"); fprintf (outfile, "# DOC strings #\n"); fprintf (outfile, "###############\n"); while (c = getc (infile), !feof (infile)) { if (c == NEWSTRING) { /* If a string was being processed, terminate it. */ if (buf.index > 0) terminate_string (); /* Skip function or variable name. */ while (c != '\n') c = getc (infile); c = getc (infile); /* Begin a new string. */ fprintf (outfile, "msgid \""); buf_print_safe ("msgstr \""); } if (c == '\n') { /* Peek at next character. */ c = getc (infile); ungetc (c, infile); /* For add-on (i.e., non-preloaded) documentation, ignore the last carriage return of a string. */ if (!(package && c == NEWSTRING)) { fprintf (outfile, LINEEND); buf_print_safe (LINEEND); } /* If not end of string, continue it on the next line. */ if (c != NEWSTRING) { fprintf (outfile, LINEBREAK); buf_print_safe (LINEBREAK); } } else { /* If character is \ or ", precede it by a backslash. */ if (c == '\\' || c == '\"') { putc ('\\', outfile); buf_putc_safe ('\\'); } putc (c, outfile); buf_putc_safe (c); } } terminate_string (); } /* initialize sets up the global variables. */ void initialize (void) { if (buf_init (&buf, BUFSIZE) != 0) clean_exit (EXIT_FAILURE); } /* clean_exit returns any resources and terminates the program. An error message is printed if status is EXIT_FAILURE. */ void clean_exit (int status) { if (buf.size > 0) buf_free (&buf); if (outfile) fclose (outfile); if (infile) fclose (infile); if (status == EXIT_FAILURE) fprintf (stderr, "make-po abnormally terminated\n"); exit (status); } /* buf_putc_safe writes the character c on the global buffer buf, checking to make sure that the operation was successful. */ void buf_putc_safe (int c) { register int status; status = buf_putc (&buf, c); if (status == EOF) clean_exit (EXIT_FAILURE); } /* buf_putc_safe writes the string s on the global buffer buf, checking to make sure that the operation was successful. */ void buf_print_safe (const char *s) { register int status; status = buf_print (&buf, s); if (status < 0) clean_exit (EXIT_FAILURE); } /* terminate_string terminates the current doc string and outputs the buffer. */ void terminate_string (void) { fprintf (outfile, ENDSTRING); /* Make the "translation" different from the original string. */ buf_print_safe ("_X"); buf_print_safe (ENDSTRING); fprintf (outfile, "%s", buf.buf); buf_clear (&buf); } /*********************************/ /* buffer pseudo-class functions */ /*********************************/ /* buf_init initializes a buffer to the specified size. It returns non-zero if the attempt fails. */ int buf_init (buffer_struct *buffer, size_t size) { buffer->buf = malloc (size); if (buffer->buf == NULL) return 1; buffer->size = size; buf_clear (buffer); return 0; } /* buf_free releases the memory allocated for the buffer. */ void buf_free (buffer_struct *buffer) { free (buffer->buf); buffer->size = 0; } /* buf_clear resets a buffer to an empty string. */ void buf_clear (buffer_struct *buffer) { buffer->index = 0; buffer->buf[0] = '\0'; } /* buf_putc writes the character c on the buffer. It returns the character written, or EOF for error. */ int buf_putc (buffer_struct *buffer, int c) { if (buffer->index >= buffer->size) return EOF; buffer->buf[buffer->index++] = c; return c; } /* buf_print writes the string s on the buffer. It returns the number of characters written, or negative if an error occurred. */ int buf_print (buffer_struct *buffer, const char *s) { register int len; len = strlen (s); if (buffer->index + len >= buffer->size) return -1; sprintf (&(buffer->buf[buffer->index]), s); buffer->index += len; return len; }