gimp/app/gimprc.c

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1997-11-25 06:05:25 +08:00
/* The GIMP -- an image manipulation program
* Copyright (C) 1995 Spencer Kimball and Peter Mattis
*
* 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.
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*/
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#include "config.h"
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#include <stdlib.h>
#include <stdio.h>
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#ifdef HAVE_UNISTD_H
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#include <unistd.h>
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#endif
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#include <string.h>
#include <errno.h>
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#include <sys/stat.h>
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#ifdef HAVE_SYS_PARAM_H
#include <sys/param.h>
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#endif
#include <glib.h>
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#include "app_procs.h"
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#include "appenv.h"
#include "devices.h"
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#include "errors.h"
#include "fileops.h"
#include "general.h"
#include "gimprc.h"
#include "menus.h"
#include "plug_in.h"
#include "gimage.h"
#include "session.h"
#include "tools.h"
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#include "libgimp/gimpintl.h"
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#include "libgimp/gimpenv.h"
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#define ERROR 0
#define DONE 1
#define OK 2
typedef enum {
TT_STRING,
TT_PATH,
TT_DOUBLE,
TT_FLOAT,
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TT_INT,
TT_BOOLEAN,
TT_POSITION,
TT_MEMSIZE,
TT_IMAGETYPE,
TT_XCOLORCUBE,
TT_XPREVSIZE,
TT_XRULERUNIT,
TT_XPLUGIN,
TT_XPLUGINDEF,
TT_XMENUPATH,
TT_XDEVICE,
TT_XSESSIONINFO
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} TokenType;
typedef struct _ParseFunc ParseFunc;
struct _ParseFunc
{
char *name;
TokenType type;
gpointer val1p;
gpointer val2p;
};
typedef struct _UnknownToken UnknownToken;
struct _UnknownToken
{
char *token;
char *value;
};
/* global gimprc variables */
char * plug_in_path = NULL;
char * temp_path = NULL;
char * swap_path = NULL;
char * brush_path = NULL;
char * default_brush = NULL;
char * pattern_path = NULL;
char * default_pattern = NULL;
char * palette_path = NULL;
char * default_palette = NULL;
char * gradient_path = NULL;
char * default_gradient = NULL;
char * pluginrc_path = NULL;
Bit of a large checkin this - it's basically three things: 1 - GimpModules Sun Jan 11 00:24:21 GMT 1999 Austin Donnelly <austin@greenend.org.uk> Bit of a large checkin this - it's basically three things: 1 - GimpModules using gmodules to dynamically load and initialise modules at gimp start of day. 2 - Color selectors now register themselves with a color notebook. 3 - progress bars have been cleaned up a bit, so now have progress indictations on all transform tool and gradient fill operations. Not done bucket fill, but that seems to be the next candidate. New directories: * modules/: new directory for dynamically loadable modules. New files: * modules/.cvsignore * modules/Makefile.am * modules/colorsel_gtk.c: GTK color selector wrapped up as a color selector the gimp can use. * app/gimpprogress.[ch]: progress bars within gimp core, either as popups, or in the status bar. This is mainly code moved out of plug-in.c * app/color_notebook.[ch]: color selector notebook, implementing very similar interface to color_select.h so it can be used as a drop-in replacement for it. * libgimp/color_selector.h: API color selectors need to implement to become a page in the color_notebook. * libgimp/gimpmodule.h: API gimp modules need to implement to be initialised by gimp at start of day. Modified files: * Makefile.am: add modules/ to SUBDIRS * libgimp/Makefile.am: install gimpmodule.h and color_selector.h * app/gimprc.[ch]: recognise module-path variable. * gimprc.in: set module-path variable to something sensible (currently "${gimp_dir}/modules:${gimp_plugin_dir}/modules"). * app/Makefile.am: build color notebook and gimpprogress * app/app_procs.c: register internal GIMP color selector with color notebook. * app/asupsample.c: call progress function less frequently for better performance. * app/asupsample.h: progress_func_t typedef moved to gimpprogress.h * app/blend.c: make callbacks to a progress function * app/color_area.c: use a color notebook rather than a color selector * app/color_panel.c: ditto * app/color_select.c: export color selector interface for notebook * app/color_select.h: color_select_init() prototype * app/flip_tool.c: flip the image every time, rather than every second click. * app/interface.c: move progress bar stuff out to gimpprogress.c. Make the code actually work while we're at it. * app/interface.h: move prototypes for progress functions out to gimpprogress.h * app/plug_in.c: load and initialise modules (if possible). Move progress bar handling code out to gimpprogress.c * app/plug_in.h: keep only a gimp_progress * for each plugin, not a whole bunch of GtkWidgets. * app/scale_tool.c * app/rotate_tool.c * app/shear_tool.c * app/perspective_tool.c: progress bar during operation. De-sensitise the dialog to discourage the user from running two transforms in parallel. * app/transform_core.c: recalculate grid coords when bounding box changes. Only initialise the action area of the dialog once, to avoid multiple "ok" / "reset" buttons appearing. Undraw transform tool with correct matrix to get rid of handle remains on screen. Call a progress function as we apply the transform matrix. A few new i18n markups. Invalidate floating selection marching ants after applying matrix. * app/transform_core.h: transform_core_do() takes an optional progress callback argument (and data). * plug-ins/oilify/oilify.c: send progress bar updates after every pixel region, not only if they processed a multiple of 5 pixels (which was quite unlikely, and therefore gave a jerky progress indication).
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char * module_path = NULL;
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int tile_cache_size = 4194304; /* 4 MB */
int marching_speed = 150; /* 150 ms */
double gamma_val = 1.0;
int transparency_type = 1; /* Mid-Tone Checks */
int perfectmouse = 0; /* off (fast and sloppy) */
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int transparency_size = 1; /* Medium sized */
int levels_of_undo = 2; /* 2 levels of undo default */
int last_opened_size = 4; /* 4 documents in the MRU list */
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int color_cube_shades[4] = {6, 7, 4, 24};
int install_cmap = 0;
int cycled_marching_ants = 0;
int default_threshold = 15;
int stingy_memory_use = 0;
int allow_resize_windows = 0;
int no_cursor_updating = 0;
int preview_size = 64;
int show_rulers = TRUE;
int show_statusbar = TRUE;
GUnit default_units = UNIT_INCH;
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int auto_save = TRUE;
int cubic_interpolation = FALSE;
int confirm_on_close = TRUE;
int save_session_info = TRUE;
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int save_device_status = FALSE;
int always_restore_session = FALSE;
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int default_width = 256;
int default_height = 256;
int default_type = RGB;
float default_xresolution = 72.0;
float default_yresolution = 72.0;
GUnit default_resolution_units = UNIT_INCH;
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int show_tips = TRUE;
int last_tip = -1;
int show_tool_tips = TRUE;
float monitor_xres = 72.0;
float monitor_yres = 72.0;
int using_xserver_resolution = FALSE;
int num_processors = 1;
char * image_title_format = NULL;
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static int get_next_token (void);
static int peek_next_token (void);
static int parse_statement (void);
static int parse_string (gpointer val1p, gpointer val2p);
static int parse_path (gpointer val1p, gpointer val2p);
static int parse_double (gpointer val1p, gpointer val2p);
static int parse_float (gpointer val1p, gpointer val2p);
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static int parse_int (gpointer val1p, gpointer val2p);
static int parse_boolean (gpointer val1p, gpointer val2p);
static int parse_position (gpointer val1p, gpointer val2p);
static int parse_mem_size (gpointer val1p, gpointer val2p);
static int parse_image_type (gpointer val1p, gpointer val2p);
static int parse_color_cube (gpointer val1p, gpointer val2p);
static int parse_preview_size (gpointer val1p, gpointer val2p);
static int parse_units (gpointer val1p, gpointer val2p);
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static int parse_plug_in (gpointer val1p, gpointer val2p);
static int parse_plug_in_def (gpointer val1p, gpointer val2p);
static int parse_device (gpointer val1p, gpointer val2p);
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static int parse_menu_path (gpointer val1p, gpointer val2p);
static int parse_session_info (gpointer val1p, gpointer val2p);
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static int parse_proc_def (PlugInProcDef **proc_def);
static int parse_proc_arg (ProcArg *arg);
static int parse_unknown (char *token_sym);
static char* value_to_str (char *name);
static inline char* string_to_str (gpointer val1p, gpointer val2p);
static inline char* path_to_str (gpointer val1p, gpointer val2p);
static inline char* double_to_str (gpointer val1p, gpointer val2p);
static inline char* float_to_str (gpointer val1p, gpointer val2p);
static inline char* int_to_str (gpointer val1p, gpointer val2p);
static inline char* boolean_to_str (gpointer val1p, gpointer val2p);
static inline char* position_to_str (gpointer val1p, gpointer val2p);
static inline char* mem_size_to_str (gpointer val1p, gpointer val2p);
static inline char* image_type_to_str (gpointer val1p, gpointer val2p);
static inline char* color_cube_to_str (gpointer val1p, gpointer val2p);
static inline char* preview_size_to_str (gpointer val1p, gpointer val2p);
static inline char* units_to_str (gpointer val1p, gpointer val2p);
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static char* transform_path (char *path, int destroy);
static char* gimprc_find_token (char *token);
static void gimprc_set_token (char *token, char *value);
static Argument * gimprc_query (Argument *args);
static void add_gimp_directory_token (char *gimp_dir);
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static char* open_backup_file (char *filename,
char *secondary_filename,
char **name_used,
FILE **fp_new,
FILE **fp_old);
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static ParseInfo parse_info;
static GList *unknown_tokens = NULL;
static int cur_token;
static int next_token;
static int done;
static ParseFunc funcs[] =
{
{ "temp-path", TT_PATH, &temp_path, NULL },
{ "swap-path", TT_PATH, &swap_path, NULL },
{ "brush-path", TT_PATH, &brush_path, NULL },
{ "pattern-path", TT_PATH, &pattern_path, NULL },
{ "plug-in-path", TT_PATH, &plug_in_path, NULL },
{ "palette-path", TT_PATH, &palette_path, NULL },
{ "gradient-path", TT_PATH, &gradient_path, NULL },
{ "pluginrc-path", TT_PATH, &pluginrc_path, NULL },
Bit of a large checkin this - it's basically three things: 1 - GimpModules Sun Jan 11 00:24:21 GMT 1999 Austin Donnelly <austin@greenend.org.uk> Bit of a large checkin this - it's basically three things: 1 - GimpModules using gmodules to dynamically load and initialise modules at gimp start of day. 2 - Color selectors now register themselves with a color notebook. 3 - progress bars have been cleaned up a bit, so now have progress indictations on all transform tool and gradient fill operations. Not done bucket fill, but that seems to be the next candidate. New directories: * modules/: new directory for dynamically loadable modules. New files: * modules/.cvsignore * modules/Makefile.am * modules/colorsel_gtk.c: GTK color selector wrapped up as a color selector the gimp can use. * app/gimpprogress.[ch]: progress bars within gimp core, either as popups, or in the status bar. This is mainly code moved out of plug-in.c * app/color_notebook.[ch]: color selector notebook, implementing very similar interface to color_select.h so it can be used as a drop-in replacement for it. * libgimp/color_selector.h: API color selectors need to implement to become a page in the color_notebook. * libgimp/gimpmodule.h: API gimp modules need to implement to be initialised by gimp at start of day. Modified files: * Makefile.am: add modules/ to SUBDIRS * libgimp/Makefile.am: install gimpmodule.h and color_selector.h * app/gimprc.[ch]: recognise module-path variable. * gimprc.in: set module-path variable to something sensible (currently "${gimp_dir}/modules:${gimp_plugin_dir}/modules"). * app/Makefile.am: build color notebook and gimpprogress * app/app_procs.c: register internal GIMP color selector with color notebook. * app/asupsample.c: call progress function less frequently for better performance. * app/asupsample.h: progress_func_t typedef moved to gimpprogress.h * app/blend.c: make callbacks to a progress function * app/color_area.c: use a color notebook rather than a color selector * app/color_panel.c: ditto * app/color_select.c: export color selector interface for notebook * app/color_select.h: color_select_init() prototype * app/flip_tool.c: flip the image every time, rather than every second click. * app/interface.c: move progress bar stuff out to gimpprogress.c. Make the code actually work while we're at it. * app/interface.h: move prototypes for progress functions out to gimpprogress.h * app/plug_in.c: load and initialise modules (if possible). Move progress bar handling code out to gimpprogress.c * app/plug_in.h: keep only a gimp_progress * for each plugin, not a whole bunch of GtkWidgets. * app/scale_tool.c * app/rotate_tool.c * app/shear_tool.c * app/perspective_tool.c: progress bar during operation. De-sensitise the dialog to discourage the user from running two transforms in parallel. * app/transform_core.c: recalculate grid coords when bounding box changes. Only initialise the action area of the dialog once, to avoid multiple "ok" / "reset" buttons appearing. Undraw transform tool with correct matrix to get rid of handle remains on screen. Call a progress function as we apply the transform matrix. A few new i18n markups. Invalidate floating selection marching ants after applying matrix. * app/transform_core.h: transform_core_do() takes an optional progress callback argument (and data). * plug-ins/oilify/oilify.c: send progress bar updates after every pixel region, not only if they processed a multiple of 5 pixels (which was quite unlikely, and therefore gave a jerky progress indication).
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{ "module-path", TT_PATH, &module_path, NULL },
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{ "default-brush", TT_STRING, &default_brush, NULL },
{ "default-pattern", TT_STRING, &default_pattern, NULL },
{ "default-palette", TT_STRING, &default_palette, NULL },
{ "default-gradient", TT_STRING, &default_gradient, NULL },
{ "gamma-correction", TT_DOUBLE, &gamma_val, NULL },
{ "color-cube", TT_XCOLORCUBE, NULL, NULL },
{ "tile-cache-size", TT_MEMSIZE, &tile_cache_size, NULL },
{ "marching-ants-speed", TT_INT, &marching_speed, NULL },
{ "last-opened-size", TT_INT, &last_opened_size, NULL },
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{ "undo-levels", TT_INT, &levels_of_undo, NULL },
{ "transparency-type", TT_INT, &transparency_type, NULL },
{ "perfect-mouse", TT_BOOLEAN, &perfectmouse, NULL },
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{ "transparency-size", TT_INT, &transparency_size, NULL },
{ "install-colormap", TT_BOOLEAN, &install_cmap, NULL },
{ "colormap-cycling", TT_BOOLEAN, &cycled_marching_ants, NULL },
{ "default-threshold", TT_INT, &default_threshold, NULL },
{ "stingy-memory-use", TT_BOOLEAN, &stingy_memory_use, NULL },
{ "allow-resize-windows", TT_BOOLEAN, &allow_resize_windows, NULL },
{ "dont-allow-resize-windows",
TT_BOOLEAN, NULL, &allow_resize_windows },
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{ "cursor-updating", TT_BOOLEAN, NULL, &no_cursor_updating },
{ "no-cursor-updating", TT_BOOLEAN, &no_cursor_updating, NULL },
{ "preview-size", TT_XPREVSIZE, NULL, NULL },
{ "show-rulers", TT_BOOLEAN, &show_rulers, NULL },
{ "dont-show-rulers", TT_BOOLEAN, NULL, &show_rulers },
{ "show-statusbar", TT_BOOLEAN, &show_statusbar, NULL },
{ "dont-show-statusbar", TT_BOOLEAN, NULL, &show_statusbar },
{ "default-units", TT_XRULERUNIT, &default_units, NULL },
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{ "auto-save", TT_BOOLEAN, &auto_save, NULL },
{ "dont-auto-save", TT_BOOLEAN, NULL, &auto_save },
{ "cubic-interpolation", TT_BOOLEAN, &cubic_interpolation, NULL },
{ "confirm-on-close", TT_BOOLEAN, &confirm_on_close, NULL },
{ "dont-confirm-on-close", TT_BOOLEAN, NULL, &confirm_on_close },
{ "save-session-info", TT_BOOLEAN, &save_session_info, NULL },
{ "dont-save-session-info", TT_BOOLEAN, NULL, &save_session_info},
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{ "save-device-status", TT_BOOLEAN, &save_device_status, NULL },
{ "dont-save-device-status", TT_BOOLEAN, NULL, &save_device_status},
{ "always-restore-session", TT_BOOLEAN, &always_restore_session, NULL },
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{ "show-tips", TT_BOOLEAN, &show_tips, NULL },
{ "dont-show-tips", TT_BOOLEAN, NULL, &show_tips },
{ "last-tip-shown", TT_INT, &last_tip, NULL },
{ "show-tool-tips", TT_BOOLEAN, &show_tool_tips, NULL },
{ "dont-show-tool-tips", TT_BOOLEAN, NULL, &show_tool_tips },
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{ "default-image-size", TT_POSITION, &default_width, &default_height },
{ "default-image-type", TT_IMAGETYPE, &default_type, NULL },
{ "default-xresolution", TT_FLOAT, &default_xresolution, NULL },
{ "default-yresolution", TT_FLOAT, &default_yresolution, NULL },
{ "default-resolution-units", TT_XRULERUNIT, &default_resolution_units, NULL },
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{ "plug-in", TT_XPLUGIN, NULL, NULL },
{ "plug-in-def", TT_XPLUGINDEF, NULL, NULL },
{ "menu-path", TT_XMENUPATH, NULL, NULL },
{ "device", TT_XDEVICE, NULL, NULL },
{ "session-info", TT_XSESSIONINFO, NULL, NULL},
{ "monitor-xresolution", TT_FLOAT, &monitor_xres, NULL },
{ "monitor-yresolution", TT_FLOAT, &monitor_yres, NULL },
{ "num-processors", TT_INT, &num_processors, NULL },
{ "image-title-format", TT_STRING, &image_title_format, NULL },
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};
static int nfuncs = sizeof (funcs) / sizeof (funcs[0]);
static SessionInfo *session_infos[] =
{
&toolbox_session_info,
&lc_dialog_session_info,
&info_dialog_session_info,
&tool_options_session_info,
&palette_session_info,
&brush_select_session_info,
&pattern_select_session_info,
&gradient_select_session_info,
&device_status_session_info,
&error_console_session_info
};
static int nsession_infos = sizeof (session_infos) / sizeof (session_infos[0]);
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extern char* alternate_gimprc;
extern char* alternate_system_gimprc;
#define DEFAULT_IMAGE_TITLE_FORMAT "%f-%p.%i (%t)"
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static char *
gimp_system_rc_file ()
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{
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static char *value = NULL;
if (value != NULL)
return value;
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value = g_strconcat (gimp_data_directory (), G_DIR_SEPARATOR_S, "gimprc",
NULL);
return value;
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}
void
parse_gimprc ()
{
char libfilename[MAXPATHLEN];
char filename[MAXPATHLEN];
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char *gimp_dir;
parse_info.buffer = g_new (char, 4096);
parse_info.tokenbuf = parse_info.buffer + 2048;
parse_info.buffer_size = 2048;
parse_info.tokenbuf_size = 2048;
gimp_dir = gimp_directory ();
add_gimp_directory_token (gimp_dir);
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strcpy (libfilename, gimp_system_rc_file ());
if (alternate_system_gimprc != NULL)
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strncpy (libfilename, alternate_system_gimprc, MAXPATHLEN);
app_init_update_status(_("Resource configuration"), libfilename, -1);
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parse_gimprc_file (libfilename);
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if (alternate_gimprc != NULL)
strncpy (filename, alternate_gimprc, MAXPATHLEN);
else
strncpy (filename, gimp_personal_rc_file ("gimprc"), MAXPATHLEN);
if (filename[0] != '\0' && strcmp (filename, libfilename) != 0)
{
app_init_update_status(NULL, filename, -1);
parse_gimprc_file (filename);
}
if (!image_title_format)
image_title_format = g_strdup(DEFAULT_IMAGE_TITLE_FORMAT);
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}
void
parse_gimprc_file (char *filename)
{
int status;
char rfilename[MAXPATHLEN];
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if (!g_path_is_absolute (filename))
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{
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g_snprintf (rfilename, MAXPATHLEN, "%s" G_DIR_SEPARATOR_S "%s",
g_get_home_dir (), filename);
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filename = rfilename;
}
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parse_info.fp = fopen (filename, "r");
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if (!parse_info.fp)
return;
if ((be_verbose == TRUE) || (no_splash == TRUE))
g_print (_("parsing \"%s\"\n"), filename);
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cur_token = -1;
next_token = -1;
parse_info.position = -1;
parse_info.linenum = 1;
parse_info.charnum = 1;
parse_info.inc_linenum = FALSE;
parse_info.inc_charnum = FALSE;
done = FALSE;
while ((status = parse_statement ()) == OK)
;
fclose (parse_info.fp);
if (status == ERROR)
{
g_print (_("error parsing: \"%s\"\n"), filename);
g_print (_(" at line %d column %d\n"), parse_info.linenum, parse_info.charnum);
g_print (_(" unexpected token: %s\n"), token_sym);
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}
}
static GList *
g_list_findstr (GList *list,
char *str)
{
while (list)
{
if (! strcmp ((char *) list->data, str))
break;
list = list->next;
}
return list;
}
void
save_gimprc (GList **updated_options,
GList **conflicting_options)
{
char timestamp[40];
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char *name;
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FILE *fp_new;
FILE *fp_old;
GList *option;
char *cur_line;
char *prev_line;
char *str;
char *error_msg;
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g_assert(updated_options != NULL);
g_assert(conflicting_options != NULL);
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error_msg = open_backup_file (gimp_personal_rc_file ("gimprc"),
gimp_system_rc_file (),
&name, &fp_new, &fp_old);
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if (error_msg != NULL)
1997-11-25 06:05:25 +08:00
{
g_message (error_msg);
1997-11-25 06:05:25 +08:00
return;
}
strcpy (timestamp, "by GIMP on ");
iso_8601_date_format (timestamp + strlen (timestamp), FALSE);
/* copy the old .gimprc into the new one, modifying it as needed */
prev_line = NULL;
cur_line = g_new (char, 1024);
while (!feof (fp_old))
{
if (!fgets (cur_line, 1024, fp_old))
continue;
/* special case: save lines starting with '#-' (added by GIMP) */
if ((cur_line[0] == '#') && (cur_line[1] == '-'))
{
if (prev_line != NULL)
{
fputs (prev_line, fp_new);
g_free (prev_line);
}
prev_line = g_strdup (cur_line);
continue;
}
/* see if the line contains something that we can use */
if (find_token (cur_line, name, 50))
{
/* check if that entry should be updated */
option = g_list_findstr (*updated_options, name);
if (option != NULL)
{
if (prev_line == NULL)
{
fprintf (fp_new, "#- Next line commented out %s\n",
timestamp);
fprintf (fp_new, "# %s\n", cur_line);
fprintf (fp_new, "#- Next line added %s\n",
timestamp);
}
else
{
g_free (prev_line);
prev_line = NULL;
fprintf (fp_new, "#- Next line modified %s\n",
timestamp);
}
str = value_to_str (name);
fprintf (fp_new, "(%s %s)\n", name, str);
g_free (str);
*updated_options = g_list_remove_link (*updated_options, option);
*conflicting_options = g_list_append (*conflicting_options,
(gpointer) option->data);
g_list_free_1 (option);
continue;
}
/* check if that entry should be commented out */
option = g_list_findstr (*conflicting_options, name);
if (option != NULL)
{
if (prev_line != NULL)
{
g_free (prev_line);
prev_line = NULL;
}
fprintf (fp_new, "#- Next line commented out %s\n",
timestamp);
fprintf (fp_new, "# %s\n", cur_line);
continue;
}
}
/* all lines that did not match the tests above are simply copied */
if (prev_line != NULL)
{
fputs (prev_line, fp_new);
g_free (prev_line);
prev_line = NULL;
}
fputs (cur_line, fp_new);
}
g_free (cur_line);
if (prev_line != NULL)
g_free (prev_line);
fclose (fp_old);
/* append the options that were not in the old .gimprc */
option = *updated_options;
while (option)
{
fprintf (fp_new, "#- Next line added %s\n",
timestamp);
str = value_to_str ((char *) option->data);
fprintf (fp_new, "(%s %s)\n\n", (char *) option->data, str);
g_free (str);
option = option->next;
}
fclose (fp_new);
}
static int
get_next_token ()
{
if (next_token != -1)
{
cur_token = next_token;
next_token = -1;
}
else
{
cur_token = get_token (&parse_info);
}
return cur_token;
}
static int
peek_next_token ()
{
if (next_token == -1)
next_token = get_token (&parse_info);
return next_token;
}
static int
parse_statement ()
{
int token;
int i;
token = peek_next_token ();
if (!token)
return DONE;
if (token != TOKEN_LEFT_PAREN)
return ERROR;
token = get_next_token ();
token = peek_next_token ();
if (!token || (token != TOKEN_SYMBOL))
return ERROR;
token = get_next_token ();
for (i = 0; i < nfuncs; i++)
if (strcmp (funcs[i].name, token_sym) == 0)
switch (funcs[i].type)
{
case TT_STRING:
return parse_string (funcs[i].val1p, funcs[i].val2p);
case TT_PATH:
return parse_path (funcs[i].val1p, funcs[i].val2p);
case TT_DOUBLE:
return parse_double (funcs[i].val1p, funcs[i].val2p);
case TT_FLOAT:
return parse_float (funcs[i].val1p, funcs[i].val2p);
1997-11-25 06:05:25 +08:00
case TT_INT:
return parse_int (funcs[i].val1p, funcs[i].val2p);
case TT_BOOLEAN:
return parse_boolean (funcs[i].val1p, funcs[i].val2p);
case TT_POSITION:
return parse_position (funcs[i].val1p, funcs[i].val2p);
case TT_MEMSIZE:
return parse_mem_size (funcs[i].val1p, funcs[i].val2p);
case TT_IMAGETYPE:
return parse_image_type (funcs[i].val1p, funcs[i].val2p);
case TT_XCOLORCUBE:
return parse_color_cube (funcs[i].val1p, funcs[i].val2p);
case TT_XPREVSIZE:
return parse_preview_size (funcs[i].val1p, funcs[i].val2p);
case TT_XRULERUNIT:
return parse_units (funcs[i].val1p, funcs[i].val2p);
1997-11-25 06:05:25 +08:00
case TT_XPLUGIN:
return parse_plug_in (funcs[i].val1p, funcs[i].val2p);
case TT_XPLUGINDEF:
return parse_plug_in_def (funcs[i].val1p, funcs[i].val2p);
case TT_XMENUPATH:
return parse_menu_path (funcs[i].val1p, funcs[i].val2p);
case TT_XDEVICE:
return parse_device (funcs[i].val1p, funcs[i].val2p);
case TT_XSESSIONINFO:
return parse_session_info (funcs[i].val1p, funcs[i].val2p);
1997-11-25 06:05:25 +08:00
}
return parse_unknown (token_sym);
}
static int
parse_path (gpointer val1p,
gpointer val2p)
{
int token;
char **pathp;
g_assert (val1p != NULL);
pathp = (char **)val1p;
token = peek_next_token ();
if (!token || (token != TOKEN_STRING))
return ERROR;
token = get_next_token ();
if (*pathp)
g_free (*pathp);
*pathp = g_strdup (token_str);
token = peek_next_token ();
if (!token || (token != TOKEN_RIGHT_PAREN))
{
g_free (*pathp);
*pathp = NULL;
return ERROR;
}
token = get_next_token ();
*pathp = transform_path (*pathp, TRUE);
return OK;
}
static int
parse_string (gpointer val1p,
gpointer val2p)
{
int token;
char **strp;
g_assert (val1p != NULL);
strp = (char **)val1p;
token = peek_next_token ();
if (!token || (token != TOKEN_STRING))
return ERROR;
token = get_next_token ();
if (*strp)
g_free (*strp);
*strp = g_strdup (token_str);
token = peek_next_token ();
if (!token || (token != TOKEN_RIGHT_PAREN))
{
g_free (*strp);
*strp = NULL;
return ERROR;
}
token = get_next_token ();
return OK;
}
static int
parse_double (gpointer val1p,
gpointer val2p)
{
int token;
double *nump;
g_assert (val1p != NULL);
nump = (double *)val1p;
token = peek_next_token ();
if (!token || (token != TOKEN_NUMBER))
return ERROR;
token = get_next_token ();
*nump = token_num;
token = peek_next_token ();
if (!token || (token != TOKEN_RIGHT_PAREN))
return ERROR;
token = get_next_token ();
return OK;
}
static int
parse_float (gpointer val1p,
gpointer val2p)
{
int token;
float *nump;
g_assert (val1p != NULL);
nump = (float *)val1p;
token = peek_next_token ();
if (!token || (token != TOKEN_NUMBER))
return ERROR;
token = get_next_token ();
*nump = token_num;
token = peek_next_token ();
if (!token || (token != TOKEN_RIGHT_PAREN))
return ERROR;
token = get_next_token ();
return OK;
}
1997-11-25 06:05:25 +08:00
static int
parse_int (gpointer val1p,
gpointer val2p)
{
int token;
int *nump;
g_assert (val1p != NULL);
nump = (int *)val1p;
token = peek_next_token ();
if (!token || (token != TOKEN_NUMBER))
return ERROR;
token = get_next_token ();
*nump = token_num;
token = peek_next_token ();
if (!token || (token != TOKEN_RIGHT_PAREN))
return ERROR;
token = get_next_token ();
return OK;
}
static int
parse_boolean (gpointer val1p,
gpointer val2p)
{
int token;
int *boolp;
/* The variable to be set should be passed in the first or second
* pointer. If the pointer is in val2p, then the opposite value is
* stored in the pointer. This is useful for "dont-xxx" or "no-xxx"
* type of options.
* If the expression to be parsed is written as "(option)" instead
* of "(option yes)" or "(option no)", then the default value is
* TRUE if the variable is passed in val1p, or FALSE if in val2p.
*/
g_assert (val1p != NULL || val2p != NULL);
if (val1p != NULL)
boolp = (int *)val1p;
else
boolp = (int *)val2p;
token = peek_next_token ();
if (!token)
return ERROR;
switch (token)
{
case TOKEN_RIGHT_PAREN:
*boolp = TRUE;
break;
case TOKEN_NUMBER:
token = get_next_token ();
*boolp = token_num;
token = peek_next_token ();
if (!token || (token != TOKEN_RIGHT_PAREN))
return ERROR;
break;
case TOKEN_SYMBOL:
token = get_next_token ();
if (!strcmp (token_sym, "true") || !strcmp (token_sym, "on")
|| !strcmp (token_sym, "yes"))
*boolp = TRUE;
else if (!strcmp (token_sym, "false") || !strcmp (token_sym, "off")
|| !strcmp (token_sym, "no"))
*boolp = FALSE;
else
return ERROR;
token = peek_next_token ();
if (!token || (token != TOKEN_RIGHT_PAREN))
return ERROR;
break;
default:
return ERROR;
}
if (val1p == NULL)
*boolp = !*boolp;
token = get_next_token ();
return OK;
}
static int
parse_position (gpointer val1p,
gpointer val2p)
{
int token;
int *xp;
int *yp;
g_assert (val1p != NULL && val2p != NULL);
xp = (int *)val1p;
yp = (int *)val2p;
token = peek_next_token ();
if (!token || (token != TOKEN_NUMBER))
return ERROR;
token = get_next_token ();
*xp = token_num;
token = peek_next_token ();
if (!token || (token != TOKEN_NUMBER))
return ERROR;
token = get_next_token ();
*yp = token_num;
token = peek_next_token ();
if (!token || (token != TOKEN_RIGHT_PAREN))
return ERROR;
token = get_next_token ();
return OK;
}
static int
parse_mem_size (gpointer val1p,
gpointer val2p)
{
int mult;
int suffix;
int token;
int *sizep;
g_assert (val1p != NULL);
sizep = (int *)val1p;
token = peek_next_token ();
if (!token || ((token != TOKEN_NUMBER) &&
(token != TOKEN_SYMBOL)))
return ERROR;
token = get_next_token ();
if (token == TOKEN_NUMBER)
{
*sizep = token_num * 1024;
}
else
{
*sizep = atoi (token_sym);
suffix = token_sym[strlen (token_sym) - 1];
if ((suffix == 'm') || (suffix == 'M'))
mult = 1024 * 1024;
else if ((suffix == 'k') || (suffix == 'K'))
mult = 1024;
else if ((suffix == 'b') || (suffix == 'B'))
mult = 1;
else
return FALSE;
*sizep *= mult;
}
token = peek_next_token ();
if (!token || (token != TOKEN_RIGHT_PAREN))
return ERROR;
token = get_next_token ();
return OK;
}
static int
parse_image_type (gpointer val1p,
gpointer val2p)
{
int token;
int *typep;
g_assert (val1p != NULL);
typep = (int *)val1p;
token = peek_next_token ();
if (!token || (token != TOKEN_SYMBOL))
return ERROR;
token = get_next_token ();
if (!strcmp (token_sym, "rgb"))
*typep = RGB;
else if ((!strcmp (token_sym, "gray")) || (!strcmp (token_sym, "grey")))
*typep = GRAY;
else
return ERROR;
token = peek_next_token ();
if (!token || (token != TOKEN_RIGHT_PAREN))
return ERROR;
token = get_next_token ();
return OK;
}
static int
parse_color_cube (gpointer val1p,
gpointer val2p)
{
int token;
token = peek_next_token ();
if (!token || (token != TOKEN_NUMBER))
return ERROR;
token = get_next_token ();
color_cube_shades[0] = token_num;
token = peek_next_token ();
if (!token || (token != TOKEN_NUMBER))
return ERROR;
token = get_next_token ();
color_cube_shades[1] = token_num;
token = peek_next_token ();
if (!token || (token != TOKEN_NUMBER))
return ERROR;
token = get_next_token ();
color_cube_shades[2] = token_num;
token = peek_next_token ();
if (!token || (token != TOKEN_NUMBER))
return ERROR;
token = get_next_token ();
color_cube_shades[3] = token_num;
token = peek_next_token ();
if (!token || (token != TOKEN_RIGHT_PAREN))
return ERROR;
token = get_next_token ();
return OK;
}
static int
parse_preview_size (gpointer val1p,
gpointer val2p)
{
int token;
token = peek_next_token ();
if (!token || (token != TOKEN_SYMBOL && token != TOKEN_NUMBER))
return ERROR;
token = get_next_token ();
if (token == TOKEN_SYMBOL)
{
if (strcmp (token_sym, "none") == 0)
preview_size = 0;
else if (strcmp (token_sym, "small") == 0)
preview_size = 32;
else if (strcmp (token_sym, "medium") == 0)
preview_size = 64;
else if (strcmp (token_sym, "large") == 0)
preview_size = 128;
else
preview_size = 0;
}
else if (token == TOKEN_NUMBER)
preview_size = token_num;
token = peek_next_token ();
if (!token || (token != TOKEN_RIGHT_PAREN))
return ERROR;
token = get_next_token ();
return OK;
}
static int
parse_units (gpointer val1p,
gpointer val2p)
1997-11-25 06:05:25 +08:00
{
int token;
int i;
g_assert (val1p != NULL);
1997-11-25 06:05:25 +08:00
token = peek_next_token ();
if (!token || (token != TOKEN_SYMBOL))
return ERROR;
token = get_next_token ();
*((GUnit*)val1p) = UNIT_INCH;
for (i=UNIT_INCH; i<gimp_unit_get_number_of_units (); i++)
if (strcmp (token_sym, gimp_unit_get_identifier (i)) == 0)
{
*((GUnit*)val1p) = i;
break;
}
1997-11-25 06:05:25 +08:00
token = peek_next_token ();
if (!token || (token != TOKEN_RIGHT_PAREN))
return ERROR;
token = get_next_token ();
return OK;
}
static int
parse_plug_in (gpointer val1p,
gpointer val2p)
{
char *name;
char *menu_path;
char *accelerator;
int token;
name = NULL;
menu_path = NULL;
accelerator = NULL;
token = peek_next_token ();
if (!token || (token != TOKEN_STRING))
return ERROR;
token = get_next_token ();
name = g_strdup (token_str);
token = peek_next_token ();
if (token == TOKEN_STRING)
{
menu_path = g_strdup (token_str);
token = get_next_token ();
}
token = peek_next_token ();
if (token == TOKEN_STRING)
{
accelerator = g_strdup (token_str);
token = get_next_token ();
}
token = peek_next_token ();
if (!token || (token != TOKEN_RIGHT_PAREN))
{
g_free (name);
g_free (menu_path);
g_free (accelerator);
return ERROR;
}
token = get_next_token ();
if (name && menu_path)
plug_in_add (name, menu_path, accelerator);
return OK;
}
static int
parse_plug_in_def (gpointer val1p,
gpointer val2p)
{
PlugInDef *plug_in_def;
PlugInProcDef *proc_def;
GSList *tmp_list;
int token;
token = peek_next_token ();
if (!token || (token != TOKEN_STRING))
return ERROR;
token = get_next_token ();
plug_in_def = g_new (PlugInDef, 1);
plug_in_def->prog = g_strdup (token_str);
plug_in_def->proc_defs = NULL;
plug_in_def->mtime = 0;
plug_in_def->query = FALSE;
token = peek_next_token ();
if (!token || (token != TOKEN_NUMBER))
goto error;
token = get_next_token ();
plug_in_def->mtime = token_int;
while (parse_proc_def (&proc_def))
{
proc_def->mtime = plug_in_def->mtime;
1997-11-25 06:05:25 +08:00
proc_def->prog = g_strdup (plug_in_def->prog);
plug_in_def->proc_defs = g_slist_append (plug_in_def->proc_defs, proc_def);
}
token = peek_next_token ();
if (!token || (token != TOKEN_RIGHT_PAREN))
goto error;
token = get_next_token ();
plug_in_def_add (plug_in_def);
return OK;
error:
g_message (_("error parsing pluginrc"));
1997-11-25 06:05:25 +08:00
tmp_list = plug_in_def->proc_defs;
while (tmp_list)
{
g_free (tmp_list->data);
tmp_list = tmp_list->next;
}
g_slist_free (plug_in_def->proc_defs);
g_free (plug_in_def->prog);
g_free (plug_in_def);
return ERROR;
}
static int
parse_proc_def (PlugInProcDef **proc_def)
{
PlugInProcDef *pd;
int token;
int i;
token = peek_next_token ();
if (!token || (token != TOKEN_LEFT_PAREN))
return ERROR;
token = get_next_token ();
token = peek_next_token ();
if (!token || (token != TOKEN_SYMBOL) ||
(strcmp ("proc-def", token_sym) != 0))
return ERROR;
token = get_next_token ();
pd = g_new0 (PlugInProcDef, 1);
token = peek_next_token ();
if (!token || (token != TOKEN_STRING))
goto error;
token = get_next_token ();
pd->db_info.name = g_strdup (token_str);
token = peek_next_token ();
if (!token || (token != TOKEN_NUMBER))
goto error;
token = get_next_token ();
pd->db_info.proc_type = token_int;
token = peek_next_token ();
if (!token || (token != TOKEN_STRING))
goto error;
token = get_next_token ();
pd->db_info.blurb = g_strdup (token_str);
token = peek_next_token ();
if (!token || (token != TOKEN_STRING))
goto error;
token = get_next_token ();
pd->db_info.help = g_strdup (token_str);
token = peek_next_token ();
if (!token || (token != TOKEN_STRING))
goto error;
token = get_next_token ();
pd->db_info.author = g_strdup (token_str);
token = peek_next_token ();
if (!token || (token != TOKEN_STRING))
goto error;
token = get_next_token ();
pd->db_info.copyright = g_strdup (token_str);
token = peek_next_token ();
if (!token || (token != TOKEN_STRING))
goto error;
token = get_next_token ();
pd->db_info.date = g_strdup (token_str);
token = peek_next_token ();
if (!token || (token != TOKEN_STRING))
goto error;
token = get_next_token ();
if (token_str[0] != '\0')
pd->menu_path = g_strdup (token_str);
token = peek_next_token ();
if (!token || (token != TOKEN_STRING))
goto error;
token = get_next_token ();
if (token_str[0] != '\0')
pd->extensions = g_strdup (token_str);
token = peek_next_token ();
if (!token || (token != TOKEN_STRING))
goto error;
token = get_next_token ();
if (token_str[0] != '\0')
pd->prefixes = g_strdup (token_str);
token = peek_next_token ();
if (!token || (token != TOKEN_STRING))
goto error;
token = get_next_token ();
if (token_str[0] != '\0')
pd->magics = g_strdup (token_str);
token = peek_next_token ();
if (!token || (token != TOKEN_STRING))
goto error;
token = get_next_token ();
if (token_str[0] != '\0')
{
pd->image_types = g_strdup (token_str);
pd->image_types_val = plug_in_image_types_parse (token_str);
}
token = peek_next_token ();
if (!token || (token != TOKEN_NUMBER))
goto error;
token = get_next_token ();
pd->db_info.num_args = token_int;
pd->db_info.args = g_new0 (ProcArg, pd->db_info.num_args);
token = peek_next_token ();
if (!token || (token != TOKEN_NUMBER))
goto error;
token = get_next_token ();
pd->db_info.num_values = token_int;
pd->db_info.values = NULL;
if (pd->db_info.num_values > 0)
pd->db_info.values = g_new (ProcArg, pd->db_info.num_values);
for (i = 0; i < pd->db_info.num_args; i++)
if (!parse_proc_arg (&pd->db_info.args[i]))
goto error;
for (i = 0; i < pd->db_info.num_values; i++)
if (!parse_proc_arg (&pd->db_info.values[i]))
goto error;
token = peek_next_token ();
if (!token || (token != TOKEN_RIGHT_PAREN))
goto error;
token = get_next_token ();
*proc_def = pd;
return OK;
error:
g_free (pd->db_info.name);
g_free (pd->db_info.blurb);
g_free (pd->db_info.help);
g_free (pd->db_info.author);
g_free (pd->db_info.copyright);
g_free (pd->db_info.date);
g_free (pd->menu_path);
g_free (pd->extensions);
g_free (pd->prefixes);
g_free (pd->magics);
g_free (pd->image_types);
for (i = 0; i < pd->db_info.num_args; i++)
{
g_free (pd->db_info.args[i].name);
g_free (pd->db_info.args[i].description);
}
for (i = 0; i < pd->db_info.num_values; i++)
{
g_free (pd->db_info.values[i].name);
g_free (pd->db_info.values[i].description);
}
g_free (pd->db_info.args);
g_free (pd->db_info.values);
g_free (pd);
return ERROR;
}
static int
parse_proc_arg (ProcArg *arg)
{
int token;
arg->arg_type = -1;
arg->name = NULL;
arg->description = NULL;
token = peek_next_token ();
if (!token || (token != TOKEN_LEFT_PAREN))
return ERROR;
token = get_next_token ();
token = peek_next_token ();
if (!token || (token != TOKEN_SYMBOL) ||
(strcmp ("proc-arg", token_sym) != 0))
return ERROR;
token = get_next_token ();
token = peek_next_token ();
if (!token || (token != TOKEN_NUMBER))
return ERROR;
token = get_next_token ();
arg->arg_type = token_int;
token = peek_next_token ();
if (!token || (token != TOKEN_STRING))
return ERROR;
token = get_next_token ();
arg->name = g_strdup (token_str);
token = peek_next_token ();
if (!token || (token != TOKEN_STRING))
goto error;
token = get_next_token ();
arg->description = g_strdup (token_str);
token = peek_next_token ();
if (!token || (token != TOKEN_RIGHT_PAREN))
goto error;
token = get_next_token ();
return OK;
error:
g_free (arg->name);
g_free (arg->description);
return ERROR;
}
static int
parse_menu_path (gpointer val1p,
gpointer val2p)
{
char *menu_path;
char *accelerator;
int token;
menu_path = NULL;
accelerator = NULL;
token = peek_next_token ();
if (!token || (token != TOKEN_STRING))
goto error;
token = get_next_token ();
menu_path = g_strdup (token_str);
token = peek_next_token ();
if (!token || (token != TOKEN_STRING))
goto error;
token = get_next_token ();
accelerator = g_strdup (token_str);
token = peek_next_token ();
if (!token || (token != TOKEN_RIGHT_PAREN))
goto error;
token = get_next_token ();
return OK;
error:
g_free (menu_path);
g_free (accelerator);
return ERROR;
}
static char*
transform_path (char *path,
int destroy)
{
int length;
char *new_path;
char *home;
char *token;
char *tmp;
char *tmp2;
int substituted;
int is_env;
UnknownToken *ut;
1997-11-25 06:05:25 +08:00
home = g_get_home_dir ();
1997-11-25 06:05:25 +08:00
length = 0;
substituted = FALSE;
is_env = FALSE;
1997-11-25 06:05:25 +08:00
tmp = path;
while (*tmp)
{
if (*tmp == '~')
{
length += strlen (home);
tmp += 1;
}
else if (*tmp == '$')
{
tmp += 1;
if (!*tmp || (*tmp != '{'))
return path;
tmp += 1;
token = tmp;
while (*tmp && (*tmp != '}'))
tmp += 1;
if (!*tmp)
return path;
*tmp = '\0';
tmp2 = gimprc_find_token (token);
if (tmp2 == NULL)
{
/* maybe token is an environment variable */
1999-03-07 20:56:03 +08:00
tmp2 = g_getenv (token);
if (tmp2 != NULL)
{
is_env = TRUE;
}
else
{
terminate(_("gimprc token referenced but not defined: %s"), token);
}
}
1997-11-25 06:05:25 +08:00
tmp2 = transform_path (tmp2, FALSE);
if (is_env)
{
/* then add to list of unknown tokens */
/* but only if it isn't already in list */
if (gimprc_find_token (token) == NULL)
{
ut = g_new (UnknownToken, 1);
ut->token = g_strdup (token);
ut->value = g_strdup (tmp2);
unknown_tokens = g_list_append (unknown_tokens, ut);
}
}
else
{
gimprc_set_token (token, tmp2);
}
1997-11-25 06:05:25 +08:00
length += strlen (tmp2);
*tmp = '}';
tmp += 1;
substituted = TRUE;
}
else
{
length += 1;
tmp += 1;
}
}
if ((length == strlen (path)) && !substituted)
return path;
new_path = g_new (char, length + 1);
tmp = path;
tmp2 = new_path;
while (*tmp)
{
if (*tmp == '~')
{
*tmp2 = '\0';
strcat (tmp2, home);
tmp2 += strlen (home);
tmp += 1;
}
else if (*tmp == '$')
{
tmp += 1;
if (!*tmp || (*tmp != '{'))
{
g_free (new_path);
return path;
}
tmp += 1;
token = tmp;
while (*tmp && (*tmp != '}'))
tmp += 1;
if (!*tmp)
{
g_free (new_path);
return path;
}
*tmp = '\0';
token = gimprc_find_token (token);
*tmp = '}';
*tmp2 = '\0';
strcat (tmp2, token);
tmp2 += strlen (token);
tmp += 1;
}
else
{
*tmp2++ = *tmp++;
}
}
*tmp2 = '\0';
if (destroy)
g_free (path);
return new_path;
}
/* Copied from gtk_menu_factory_parse_accelerator() */
static void
parse_device_accelerator (const char *accelerator,
GdkDeviceKey *key)
{
int done;
g_return_if_fail (accelerator != NULL);
g_return_if_fail (key != NULL);
key->modifiers = 0;
done = FALSE;
while (!done)
{
if (strncmp (accelerator, "<shift>", 7) == 0)
{
accelerator += 7;
key->modifiers |= GDK_SHIFT_MASK;
}
else if (strncmp (accelerator, "<alt>", 5) == 0)
{
accelerator += 5;
key->modifiers |= GDK_MOD1_MASK;
}
else if (strncmp (accelerator, "<control>", 9) == 0)
{
accelerator += 9;
key->modifiers |= GDK_CONTROL_MASK;
}
else
{
done = TRUE;
/* Tricky, but works... ("" => keyval = 0, or no translation) */
key->keyval = accelerator[0];
}
}
}
static int
parse_device (gpointer val1p,
gpointer val2p)
{
DeviceValues values = 0;
int i;
int token;
/* The initialized values here are meaningless */
gchar *name = NULL;
GdkInputMode mode = GDK_MODE_DISABLED;
gint num_axes = 0;
GdkAxisUse *axes = NULL;
gint num_keys = 0;
GdkDeviceKey *keys = NULL;
gchar *brush_name = NULL;
gchar *pattern_name = NULL;
ToolType tool = RECT_SELECT;
guchar foreground[3] = { 0, 0, 0 };
token = peek_next_token ();
if (!token || (token != TOKEN_STRING))
goto error;
token = get_next_token ();
name = g_strdup (token_str);
/* Parse options for device */
while ( peek_next_token () == TOKEN_LEFT_PAREN )
{
token = get_next_token ();
token = peek_next_token ();
if (!token || (token != TOKEN_SYMBOL))
goto error;
token = get_next_token ();
if (!strcmp ("mode", token_sym))
{
values |= DEVICE_MODE;
token = peek_next_token ();
if (!token || (token != TOKEN_SYMBOL))
goto error;
token = get_next_token ();
if (!strcmp ("disabled", token_sym))
mode = GDK_MODE_DISABLED;
else if (!strcmp ("window", token_sym))
mode = GDK_MODE_WINDOW;
else if (!strcmp ("screen", token_sym))
mode = GDK_MODE_SCREEN;
else
goto error;
}
else if (!strcmp ("axes", token_sym))
{
values |= DEVICE_AXES;
token = peek_next_token ();
if (!token || (token != TOKEN_NUMBER))
goto error;
token = get_next_token ();
num_axes = token_int;
axes = g_new (GdkAxisUse, num_axes);
for (i=0; i<num_axes; i++)
{
token = peek_next_token ();
if (!token || (token != TOKEN_SYMBOL))
goto error;
token = get_next_token ();
if (!strcmp ("ignore", token_sym))
axes[i] = GDK_AXIS_IGNORE;
else if (!strcmp ("x", token_sym))
axes[i] = GDK_AXIS_X;
else if (!strcmp ("y", token_sym))
axes[i] = GDK_AXIS_Y;
else if (!strcmp ("pressure", token_sym))
axes[i] = GDK_AXIS_PRESSURE;
else if (!strcmp ("xtilt", token_sym))
axes[i] = GDK_AXIS_XTILT;
else if (!strcmp ("ytilt", token_sym))
axes[i] = GDK_AXIS_YTILT;
else
goto error;
}
}
else if (!strcmp ("keys", token_sym))
{
values |= DEVICE_KEYS;
token = peek_next_token ();
if (!token || (token != TOKEN_NUMBER))
goto error;
token = get_next_token ();
num_keys = token_int;
keys = g_new (GdkDeviceKey, num_keys);
for (i=0; i<num_keys; i++)
{
token = peek_next_token ();
if (!token || (token != TOKEN_STRING))
goto error;
token = get_next_token ();
parse_device_accelerator (token_str, &keys[i]);
}
}
else if (!strcmp ("brush", token_sym))
{
values |= DEVICE_BRUSH;
token = peek_next_token ();
if (!token || (token != TOKEN_STRING))
goto error;
token = get_next_token ();
brush_name = g_strdup (token_str);
}
else if (!strcmp ("pattern", token_sym))
{
values |= DEVICE_PATTERN;
token = peek_next_token ();
if (!token || (token != TOKEN_STRING))
goto error;
token = get_next_token ();
pattern_name = g_strdup (token_str);
}
else if (!strcmp ("tool", token_sym))
{
values |= DEVICE_TOOL;
token = peek_next_token ();
if (!token || (token != TOKEN_STRING))
goto error;
token = get_next_token ();
/* FIXME: this shouldn't be hard coded like this */
for (tool = FIRST_TOOLBOX_TOOL; tool <= LAST_TOOLBOX_TOOL; tool++)
{
if (!strcmp(tool_info[tool].tool_name, token_str))
break;
}
if (tool > LAST_TOOLBOX_TOOL)
goto error;
}
else if (!strcmp ("foreground", token_sym))
{
values |= DEVICE_FOREGROUND;
for (i=0; i<3; i++)
{
token = peek_next_token ();
if (!token || (token != TOKEN_NUMBER))
goto error;
token = get_next_token ();
foreground[i] = token_int;
}
}
else
goto error;
token = peek_next_token ();
if (!token || (token != TOKEN_RIGHT_PAREN))
goto error;
token = get_next_token ();
}
if (!token || (token != TOKEN_RIGHT_PAREN))
goto error;
token = get_next_token ();
devices_rc_update (name, values, mode, num_axes, axes, num_keys, keys,
brush_name, tool, foreground,pattern_name);
g_free (brush_name);
g_free (pattern_name);
g_free (name);
g_free (axes);
g_free (keys);
return OK;
error:
g_free (pattern_name);
g_free (brush_name);
g_free (name);
g_free (axes);
g_free (keys);
return ERROR;
}
static int
parse_session_info (gpointer val1p,
gpointer val2p)
{
int i;
int token;
SessionInfo *info = NULL;
token = peek_next_token ();
if (!token || (token != TOKEN_STRING))
return ERROR;
token = get_next_token ();
for (i = 0; i < nsession_infos; i++)
{
if (strcmp (session_infos[i]->name, token_str) == 0)
info = session_infos[i];
}
if (info == NULL)
return ERROR;
/* Parse options for session info */
while ( peek_next_token () == TOKEN_LEFT_PAREN )
{
token = get_next_token ();
token = peek_next_token ();
if (!token || (token != TOKEN_SYMBOL))
return ERROR;
token = get_next_token ();
if (!strcmp ("position", token_sym))
{
token = peek_next_token ();
if (!token || (token != TOKEN_NUMBER))
return ERROR;
token = get_next_token ();
info->x = token_int;
token = peek_next_token ();
if (!token || (token != TOKEN_NUMBER))
return ERROR;
token = get_next_token ();
info->y = token_int;
}
else if (!strcmp ("size", token_sym))
{
token = peek_next_token ();
if (!token || (token != TOKEN_NUMBER))
return ERROR;
token = get_next_token ();
info->width = token_int;
token = peek_next_token ();
if (!token || (token != TOKEN_NUMBER))
return ERROR;
token = get_next_token ();
info->height = token_int;
}
else if (!strcmp ("open-on-exit", token_sym))
info->open = TRUE;
else
return ERROR;
token = peek_next_token ();
if (!token || (token != TOKEN_RIGHT_PAREN))
return ERROR;
token = get_next_token ();
}
if (!token || (token != TOKEN_RIGHT_PAREN))
return ERROR;
token = get_next_token ();
session_info_updates = g_list_append (session_info_updates, info);
return OK;
}
1997-11-25 06:05:25 +08:00
static int
parse_unknown (char *token_sym)
{
int token;
UnknownToken *ut, *tmp;
GList *list;
ut = g_new (UnknownToken, 1);
ut->token = g_strdup (token_sym);
token = peek_next_token ();
if (!token || (token != TOKEN_STRING))
{
g_free (ut->token);
g_free (ut);
return ERROR;
}
token = get_next_token ();
ut->value = g_strdup (token_str);
token = peek_next_token ();
if (!token || (token != TOKEN_RIGHT_PAREN))
{
g_free (ut->token);
g_free (ut->value);
g_free (ut);
return ERROR;
}
token = get_next_token ();
/* search through the list of unknown tokens and replace an existing entry */
list = unknown_tokens;
while (list)
{
tmp = (UnknownToken *) list->data;
list = list->next;
if (strcmp (tmp->token, ut->token) == 0)
{
unknown_tokens = g_list_remove (unknown_tokens, tmp);
g_free (tmp->token);
g_free (tmp->value);
g_free (tmp);
}
}
ut->value = transform_path (ut->value, TRUE);
unknown_tokens = g_list_append (unknown_tokens, ut);
return OK;
}
static char *
value_to_str (char *name)
{
int i;
for (i = 0; i < nfuncs; i++)
if (! strcmp (funcs[i].name, name))
switch (funcs[i].type)
{
case TT_STRING:
return string_to_str (funcs[i].val1p, funcs[i].val2p);
case TT_PATH:
return path_to_str (funcs[i].val1p, funcs[i].val2p);
case TT_DOUBLE:
return double_to_str (funcs[i].val1p, funcs[i].val2p);
case TT_FLOAT:
return float_to_str (funcs[i].val1p, funcs[i].val2p);
1997-11-25 06:05:25 +08:00
case TT_INT:
return int_to_str (funcs[i].val1p, funcs[i].val2p);
case TT_BOOLEAN:
return boolean_to_str (funcs[i].val1p, funcs[i].val2p);
case TT_POSITION:
return position_to_str (funcs[i].val1p, funcs[i].val2p);
case TT_MEMSIZE:
return mem_size_to_str (funcs[i].val1p, funcs[i].val2p);
case TT_IMAGETYPE:
return image_type_to_str (funcs[i].val1p, funcs[i].val2p);
case TT_XCOLORCUBE:
return color_cube_to_str (funcs[i].val1p, funcs[i].val2p);
case TT_XPREVSIZE:
return preview_size_to_str (funcs[i].val1p, funcs[i].val2p);
case TT_XRULERUNIT:
return units_to_str (funcs[i].val1p, funcs[i].val2p);
1997-11-25 06:05:25 +08:00
case TT_XPLUGIN:
case TT_XPLUGINDEF:
case TT_XMENUPATH:
case TT_XDEVICE:
case TT_XSESSIONINFO:
1997-11-25 06:05:25 +08:00
return NULL;
}
return NULL;
}
static inline char *
1997-11-25 06:05:25 +08:00
string_to_str (gpointer val1p,
gpointer val2p)
{
1999-03-07 20:56:03 +08:00
gchar *str = g_strescape (*((char **)val1p));
gchar *retval;
retval = g_strdup_printf ("%c%s%c", '"', str, '"');
g_free (str);
return retval;
1997-11-25 06:05:25 +08:00
}
static inline char *
1997-11-25 06:05:25 +08:00
path_to_str (gpointer val1p,
gpointer val2p)
{
return string_to_str (val1p, val2p);
1997-11-25 06:05:25 +08:00
}
static inline char *
1997-11-25 06:05:25 +08:00
double_to_str (gpointer val1p,
gpointer val2p)
{
return g_strdup_printf ("%f", *((double *)val1p));
1997-11-25 06:05:25 +08:00
}
static inline char *
float_to_str (gpointer val1p,
gpointer val2p)
{
return g_strdup_printf ("%f", (double)(*((float *)val1p)));
}
static inline char *
1997-11-25 06:05:25 +08:00
int_to_str (gpointer val1p,
gpointer val2p)
{
return g_strdup_printf ("%d", *((int *)val1p));
1997-11-25 06:05:25 +08:00
}
static inline char *
1997-11-25 06:05:25 +08:00
boolean_to_str (gpointer val1p,
gpointer val2p)
{
int v;
if (val1p != NULL)
v = *((int *)val1p);
else
v = !*((int *)val2p);
if (v)
return g_strdup ("yes");
else
return g_strdup ("no");
}
static inline char *
1997-11-25 06:05:25 +08:00
position_to_str (gpointer val1p,
gpointer val2p)
{
return g_strdup_printf ("%d %d", *((int *)val1p), *((int *)val2p));
1997-11-25 06:05:25 +08:00
}
static inline char *
1997-11-25 06:05:25 +08:00
mem_size_to_str (gpointer val1p,
gpointer val2p)
{
int size;
size = *((int *)val1p);
if (size % 1048576 == 0)
return g_strdup_printf ("%dM", size / 1048576);
1997-11-25 06:05:25 +08:00
else if (size % 1024 == 0)
return g_strdup_printf ("%dK", size / 1024);
1997-11-25 06:05:25 +08:00
else
return g_strdup_printf ("%dB", size);
1997-11-25 06:05:25 +08:00
}
static inline char *
1997-11-25 06:05:25 +08:00
image_type_to_str (gpointer val1p,
gpointer val2p)
{
int type;
type = *((int *)val1p);
if (type == GRAY)
return g_strdup ("gray");
else
return g_strdup ("rgb");
}
static inline char *
1997-11-25 06:05:25 +08:00
color_cube_to_str (gpointer val1p,
gpointer val2p)
{
return g_strdup_printf ("%d %d %d %d",
color_cube_shades[0], color_cube_shades[1],
color_cube_shades[2], color_cube_shades[3]);
1997-11-25 06:05:25 +08:00
}
static inline char *
1997-11-25 06:05:25 +08:00
preview_size_to_str (gpointer val1p,
gpointer val2p)
{
if (preview_size >= 128)
return g_strdup ("large");
else if (preview_size >= 64)
return g_strdup ("medium");
else if (preview_size >= 32)
return g_strdup ("small");
else
return g_strdup ("none");
}
static inline char *
units_to_str (gpointer val1p,
gpointer val2p)
1997-11-25 06:05:25 +08:00
{
return g_strdup (gimp_unit_get_identifier (*((GUnit*)val1p)));
1997-11-25 06:05:25 +08:00
}
static void
add_gimp_directory_token (char *gimp_dir)
{
UnknownToken *ut;
/*
The token holds data from a static buffer which is initialized
once. There should be no need to change an already-existing
value.
*/
if (NULL != gimprc_find_token ("gimp_dir"))
return;
ut = g_new (UnknownToken, 1);
ut->token = g_strdup ("gimp_dir");
ut->value = g_strdup (gimp_dir);
/* Similarly, transforming the path should be silly. */
unknown_tokens = g_list_append (unknown_tokens, ut);
1999-03-07 20:56:03 +08:00
/* While we're at it, also add the token gimp_install_dir */
ut = g_new (UnknownToken, 1);
ut->token = g_strdup ("gimp_install_dir");
ut->value = gimp_data_directory ();
unknown_tokens = g_list_append (unknown_tokens, ut);
1997-11-25 06:05:25 +08:00
}
/* Try to:
1999-03-07 20:56:03 +08:00
1. Open the personal file for reading.
1999-03-07 20:56:03 +08:00
1b. If that fails, try to open the system (overriding) file
1999-03-07 20:56:03 +08:00
2. If we could open the personal file, rename it to file.old.
3. Open personal file for writing.
On success, return NULL. On failure, return a string in English
explaining the problem.
*/
static char *
1997-11-25 06:05:25 +08:00
open_backup_file (char *filename,
1999-03-07 20:56:03 +08:00
char *secondary_filename,
char **name_used,
FILE **fp_new,
FILE **fp_old)
1997-11-25 06:05:25 +08:00
{
1999-03-07 20:56:03 +08:00
char *oldfilename = NULL;
1997-11-25 06:05:25 +08:00
1999-03-07 20:56:03 +08:00
/* Rename the file to *.old, open it for reading and create the new file. */
if ((*fp_old = fopen (filename, "r")) == NULL)
{
1999-03-07 20:56:03 +08:00
if ((*fp_old = fopen (secondary_filename, "r")) == NULL)
{
if (errno == EACCES)
return g_strdup_printf (_("Can't open %s; permission problems"),
secondary_filename);
if (errno == ENOENT)
return g_strdup_printf (_("Can't open %s; file does not exist"),
secondary_filename);
return g_strdup_printf (_("Can't open %s; reason unknown"),
secondary_filename);
}
else
*name_used = secondary_filename;
}
1999-03-07 20:56:03 +08:00
else
1997-11-25 06:05:25 +08:00
{
1999-03-07 20:56:03 +08:00
*name_used = filename;
oldfilename = g_strdup_printf ("%s.old", filename);
#ifdef NATIVE_WIN32
/* Can't rename open files... */
fclose (*fp_old);
/* Also, can't rename to an existing file name */
unlink (oldfilename);
#endif
if (rename (filename, oldfilename) < 0)
{
g_free (oldfilename);
return g_strdup_printf (_("Can't rename %s to %s.old; %s"),
filename, filename, g_strerror (errno));
}
#ifdef NATIVE_WIN32
/* Can't rename open files... */
if ((*fp_old = fopen (oldfilename, "r")) == NULL)
g_error (_("Couldn't reopen %s\n"), oldfilename);
#endif
1997-11-25 06:05:25 +08:00
}
1999-03-07 20:56:03 +08:00
if ((*fp_new = fopen (filename, "w")) == NULL)
1997-11-25 06:05:25 +08:00
{
1999-03-07 20:56:03 +08:00
if (oldfilename != NULL)
{
/* Undo the renaming... */
(void) rename (oldfilename, filename);
g_free (oldfilename);
}
return g_strdup_printf (_("Can't write to %s; %s"),
filename, g_strerror (errno));
1997-11-25 06:05:25 +08:00
}
1999-03-07 20:56:03 +08:00
if (oldfilename != NULL)
g_free (oldfilename);
return NULL;
1997-11-25 06:05:25 +08:00
}
static char*
gimprc_find_token (char *token)
{
GList *list;
UnknownToken *ut;
list = unknown_tokens;
while (list)
{
ut = (UnknownToken *) list->data;
if (strcmp (ut->token, token) == 0)
return ut->value;
list = list->next;
}
return NULL;
}
static void
gimprc_set_token (char *token,
char *value)
{
GList *list;
UnknownToken *ut;
list = unknown_tokens;
while (list)
{
ut = (UnknownToken *) list->data;
if (strcmp (ut->token, token) == 0)
{
if (ut->value != value)
{
if (ut->value)
g_free (ut->value);
ut->value = value;
}
break;
}
list = list->next;
}
}
/******************/
/* GIMPRC_QUERY */
static Argument *
gimprc_query (Argument *args)
{
Argument *return_args;
int success = TRUE;
char *token;
char *value;
token = (char *) args[0].value.pdb_pointer;
success = ((value = gimprc_find_token (token)) != NULL);
return_args = procedural_db_return_args (&gimprc_query_proc, success);
if (success)
return_args[1].value.pdb_pointer = g_strdup (value);
return return_args;
}
static ProcArg gimprc_query_args[] =
{
{ PDB_STRING,
"token",
"the token to query for"
}
};
static ProcArg gimprc_query_out_args[] =
{
{ PDB_STRING,
"value",
"the value associated with the queried token"
}
};
ProcRecord gimprc_query_proc =
{
"gimp_gimprc_query",
"Queries the gimprc file parser for information on a specified token",
"This procedure is used to locate additional information contained in the gimprc file considered extraneous to the operation of the GIMP. Plug-ins that need configuration information can expect it will be stored in the user's gimprc file and can use this procedure to retrieve it. This query procedure will return the value associated with the specified token. This corresponds _only_ to entries with the format: (<token> <value>). The value must be a string. Entries not corresponding to this format will cause warnings to be issued on gimprc parsing and will not be queryable.",
"Spencer Kimball & Peter Mattis",
"Spencer Kimball & Peter Mattis",
"1997",
PDB_INTERNAL,
/* Input arguments */
1,
gimprc_query_args,
/* Output arguments */
1,
gimprc_query_out_args,
/* Exec method */
{ { gimprc_query } },
};