/* * viking -- GPS Data and Topo Analyzer, Explorer, and Manager * * Copyright (C) 2003-2005, Evan Battaglia * Copyright (C) 2006, Alex Foobarian * Copyright (C) 2012-2015, Rob Norris * * 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 * */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #ifdef HAVE_UNISTD_H #include #endif #include #include #include #include "datasource_gps.h" #include "viking.h" #include "babel.h" #include "gpx.h" #include "acquire.h" static gboolean gps_acquire_in_progress = FALSE; static gint last_active = -1; static gpointer datasource_gps_init_func ( acq_vik_t *avt ); static void datasource_gps_get_process_options ( gpointer user_data, ProcessOptions *po, gpointer not_used, const gchar *not_used2, const gchar *not_used3 ); static void datasource_gps_cleanup ( gpointer user_data ); static void datasource_gps_progress ( BabelProgressCode c, gpointer data, acq_dialog_widgets_t *w ); static void datasource_gps_add_setup_widgets ( GtkWidget *dialog, VikViewport *vvp, gpointer user_data ); static void datasource_gps_add_progress_widgets ( GtkWidget *dialog, gpointer user_data ); static void datasource_gps_off ( gpointer add_widgets_data_not_used, gchar **babelargs, gchar **input_file ); VikDataSourceInterface vik_datasource_gps_interface = { N_("Acquire from GPS"), N_("Acquired from GPS"), VIK_DATASOURCE_AUTO_LAYER_MANAGEMENT, VIK_DATASOURCE_INPUTTYPE_NONE, TRUE, TRUE, TRUE, (VikDataSourceInitFunc) datasource_gps_init_func, (VikDataSourceCheckExistenceFunc) NULL, (VikDataSourceAddSetupWidgetsFunc) datasource_gps_add_setup_widgets, (VikDataSourceGetProcessOptionsFunc) datasource_gps_get_process_options, (VikDataSourceProcessFunc) a_babel_convert_from, (VikDataSourceProgressFunc) datasource_gps_progress, (VikDataSourceAddProgressWidgetsFunc) datasource_gps_add_progress_widgets, (VikDataSourceCleanupFunc) datasource_gps_cleanup, (VikDataSourceOffFunc) datasource_gps_off, NULL, 0, NULL, NULL, 0 }; /********************************************************* * Definitions and routines for acquiring data from GPS *********************************************************/ /* widgets in setup dialog specific to GPS */ /* widgets in progress dialog specific to GPS */ /* also counts needed for progress */ typedef struct { /* setup dialog */ GtkWidget *proto_l; GtkWidget *proto_b; GtkWidget *ser_l; GtkWidget *ser_b; GtkWidget *off_request_l; GtkCheckButton *off_request_b; GtkWidget *get_tracks_l; GtkCheckButton *get_tracks_b; GtkWidget *get_routes_l; GtkCheckButton *get_routes_b; GtkWidget *get_waypoints_l; GtkCheckButton *get_waypoints_b; /* progress dialog */ GtkWidget *gps_label; GtkWidget *ver_label; GtkWidget *id_label; GtkWidget *wp_label; GtkWidget *trk_label; GtkWidget *rte_label; GtkWidget *progress_label; vik_gps_xfer_type progress_type; /* state */ int total_count; int count; // Know which way xfer is so xfer setting types are only stored for download vik_gps_dir direction; } gps_user_data_t; #define VIK_SETTINGS_GPS_GET_TRACKS "gps_download_tracks" #define VIK_SETTINGS_GPS_GET_ROUTES "gps_download_routes" #define VIK_SETTINGS_GPS_GET_WAYPOINTS "gps_download_waypoints" #define VIK_SETTINGS_GPS_PROTOCOL "gps_protocol" #define VIK_SETTINGS_GPS_PORT "gps_port" #define VIK_SETTINGS_GPS_POWER_OFF "gps_power_off" static gpointer datasource_gps_init_func ( acq_vik_t *avt ) { gps_user_data_t *gps_ud = g_malloc (sizeof(gps_user_data_t)); gps_ud->direction = GPS_DOWN; return gps_ud; } /** * datasource_gps_get_protocol: * * Method to get the communication protocol of the GPS device from the widget structure */ gchar* datasource_gps_get_protocol ( gpointer user_data ) { // Uses the list of supported devices gps_user_data_t *w = (gps_user_data_t *)user_data; last_active = gtk_combo_box_get_active(GTK_COMBO_BOX(w->proto_b)); if (a_babel_device_list) { gchar *protocol = ((BabelDevice*)g_list_nth_data(a_babel_device_list, last_active))->name; a_settings_set_string ( VIK_SETTINGS_GPS_PROTOCOL, protocol ); return protocol; } return NULL; } /** * datasource_gps_get_descriptor: * * Method to get the descriptor from the widget structure * "Everything is a file" * Could actually be normal file or a serial port */ gchar* datasource_gps_get_descriptor ( gpointer user_data ) { gps_user_data_t *w = (gps_user_data_t *)user_data; #if GTK_CHECK_VERSION (2, 24, 0) gchar *descriptor = gtk_combo_box_text_get_active_text(GTK_COMBO_BOX_TEXT(w->ser_b)); #else gchar *descriptor = gtk_combo_box_get_active_text(GTK_COMBO_BOX(w->ser_b)); #endif a_settings_set_string ( VIK_SETTINGS_GPS_PORT, descriptor ); return descriptor; } /** * datasource_gps_get_do_tracks: * * Method to get the track handling behaviour from the widget structure */ gboolean datasource_gps_get_do_tracks ( gpointer user_data ) { gps_user_data_t *w = (gps_user_data_t *)user_data; gboolean get_tracks = gtk_toggle_button_get_active(GTK_TOGGLE_BUTTON(w->get_tracks_b)); if ( w->direction == GPS_DOWN ) a_settings_set_boolean ( VIK_SETTINGS_GPS_GET_TRACKS, get_tracks ); return get_tracks; } /** * datasource_gps_get_do_routes: * * Method to get the route handling behaviour from the widget structure */ gboolean datasource_gps_get_do_routes ( gpointer user_data ) { gps_user_data_t *w = (gps_user_data_t *)user_data; gboolean get_routes = gtk_toggle_button_get_active(GTK_TOGGLE_BUTTON(w->get_routes_b)); if ( w->direction == GPS_DOWN ) a_settings_set_boolean ( VIK_SETTINGS_GPS_GET_ROUTES, get_routes ); return get_routes; } /** * datasource_gps_get_do_waypoints: * * Method to get the waypoint handling behaviour from the widget structure */ gboolean datasource_gps_get_do_waypoints ( gpointer user_data ) { gps_user_data_t *w = (gps_user_data_t *)user_data; gboolean get_waypoints = gtk_toggle_button_get_active(GTK_TOGGLE_BUTTON(w->get_waypoints_b)); if ( w->direction == GPS_DOWN ) a_settings_set_boolean ( VIK_SETTINGS_GPS_GET_WAYPOINTS, get_waypoints ); return get_waypoints; } static void datasource_gps_get_process_options ( gpointer user_data, ProcessOptions *po, gpointer not_used, const gchar *not_used2, const gchar *not_used3 ) { char *device = NULL; char *tracks = NULL; char *routes = NULL; char *waypoints = NULL; if (gps_acquire_in_progress) { po->babelargs = po->filename = NULL; } gps_acquire_in_progress = TRUE; device = datasource_gps_get_protocol ( user_data ); if ( datasource_gps_get_do_tracks ( user_data ) ) tracks = "-t"; else tracks = ""; if ( datasource_gps_get_do_routes ( user_data ) ) routes = "-r"; else routes = ""; if ( datasource_gps_get_do_waypoints ( user_data ) ) waypoints = "-w"; else waypoints = ""; po->babelargs = g_strdup_printf("-D 9 %s %s %s -i %s", tracks, routes, waypoints, device); /* device points to static content => no free */ device = NULL; tracks = NULL; routes = NULL; waypoints = NULL; po->filename = g_strdup(datasource_gps_get_descriptor(user_data)); g_debug(_("using cmd '%s' and file '%s'\n"), po->babelargs, po->filename); } /** * datasource_gps_get_off: * * Method to get the off behaviour from the widget structure */ gboolean datasource_gps_get_off ( gpointer user_data ) { gps_user_data_t *w = (gps_user_data_t *)user_data; gboolean power_off = gtk_toggle_button_get_active(GTK_TOGGLE_BUTTON(w->off_request_b)); a_settings_set_boolean ( VIK_SETTINGS_GPS_POWER_OFF, power_off ); return power_off; } static void datasource_gps_off ( gpointer user_data, gchar **babelargs, gchar **file_descriptor ) { char *ser = NULL; char *device = NULL; gps_user_data_t *w = (gps_user_data_t *)user_data; if (gps_acquire_in_progress) { *babelargs = *file_descriptor = NULL; } /* See if we should turn off the device */ if (!datasource_gps_get_off ( user_data )){ return; } if (!a_babel_device_list) return; last_active = gtk_combo_box_get_active(GTK_COMBO_BOX(w->proto_b)); device = ((BabelDevice*)g_list_nth_data(a_babel_device_list, last_active))->name; if (!strcmp(device, "garmin")) { device = "garmin,power_off"; } else if (!strcmp(device, "navilink")) { device = "navilink,power_off"; } else { return; } *babelargs = g_strdup_printf("-i %s", device); /* device points to static content => no free */ device = NULL; #if GTK_CHECK_VERSION (2, 24, 0) ser = gtk_combo_box_text_get_active_text(GTK_COMBO_BOX_TEXT(w->ser_b)); #else ser = gtk_combo_box_get_active_text(GTK_COMBO_BOX(w->ser_b)); #endif *file_descriptor = g_strdup(ser); } static void datasource_gps_cleanup ( gpointer user_data ) { g_free ( user_data ); gps_acquire_in_progress = FALSE; } /** * datasource_gps_clean_up: * * External method to tidy up */ void datasource_gps_clean_up ( gpointer user_data ) { datasource_gps_cleanup ( user_data ); } static void set_total_count(gint cnt, acq_dialog_widgets_t *w) { gchar *s = NULL; gdk_threads_enter(); if (w->running) { gps_user_data_t *gps_data = (gps_user_data_t *)w->user_data; const gchar *tmp_str; switch (gps_data->progress_type) { case WPT: tmp_str = ngettext("Downloading %d waypoint...", "Downloading %d waypoints...", cnt); gps_data->total_count = cnt; break; case TRK: tmp_str = ngettext("Downloading %d trackpoint...", "Downloading %d trackpoints...", cnt); gps_data->total_count = cnt; break; default: { // Maybe a gpsbabel bug/feature (upto at least v1.4.3 or maybe my Garmin device) but the count always seems x2 too many for routepoints gint mycnt = (cnt / 2) + 1; tmp_str = ngettext("Downloading %d routepoint...", "Downloading %d routepoints...", mycnt); gps_data->total_count = mycnt; break; } } s = g_strdup_printf(tmp_str, cnt); gtk_label_set_text ( GTK_LABEL(gps_data->progress_label), s ); gtk_widget_show ( gps_data->progress_label ); } g_free(s); s = NULL; gdk_threads_leave(); } static void set_current_count(gint cnt, acq_dialog_widgets_t *w) { gchar *s = NULL; gdk_threads_enter(); if (w->running) { gps_user_data_t *gps_data = (gps_user_data_t *)w->user_data; if (cnt < gps_data->total_count) { switch (gps_data->progress_type) { case WPT: s = g_strdup_printf(_("Downloaded %d out of %d %s..."), cnt, gps_data->total_count, "waypoints"); break; case TRK: s = g_strdup_printf(_("Downloaded %d out of %d %s..."), cnt, gps_data->total_count, "trackpoints"); break; default: s = g_strdup_printf(_("Downloaded %d out of %d %s..."), cnt, gps_data->total_count, "routepoints"); break; } } else { switch (gps_data->progress_type) { case WPT: s = g_strdup_printf(_("Downloaded %d %s."), cnt, "waypoints"); break; case TRK: s = g_strdup_printf(_("Downloaded %d %s."), cnt, "trackpoints"); break; default: s = g_strdup_printf(_("Downloaded %d %s."), cnt, "routepoints"); break; } } gtk_label_set_text ( GTK_LABEL(gps_data->progress_label), s ); } g_free(s); s = NULL; gdk_threads_leave(); } static void set_gps_info(const gchar *info, acq_dialog_widgets_t *w) { gchar *s = NULL; gdk_threads_enter(); if (w->running) { s = g_strdup_printf(_("GPS Device: %s"), info); gtk_label_set_text ( GTK_LABEL(((gps_user_data_t *)w->user_data)->gps_label), s ); } g_free(s); s = NULL; gdk_threads_leave(); } /* * This routine relies on gpsbabel's diagnostic output to display the progress information. * These outputs differ when different GPS devices are used, so we will need to test * them on several and add the corresponding support. */ static void datasource_gps_progress ( BabelProgressCode c, gpointer data, acq_dialog_widgets_t *w ) { gchar *line; gps_user_data_t *gps_data = (gps_user_data_t *)w->user_data; switch(c) { case BABEL_DIAG_OUTPUT: line = (gchar *)data; gdk_threads_enter(); if (w->running) { gtk_label_set_text ( GTK_LABEL(w->status), _("Status: Working...") ); } gdk_threads_leave(); /* tells us the type of items that will follow */ if (strstr(line, "Xfer Wpt")) { gps_data->progress_label = gps_data->wp_label; gps_data->progress_type = WPT; } if (strstr(line, "Xfer Trk")) { gps_data->progress_label = gps_data->trk_label; gps_data->progress_type = TRK; } if (strstr(line, "Xfer Rte")) { gps_data->progress_label = gps_data->rte_label; gps_data->progress_type = RTE; } if (strstr(line, "PRDDAT")) { gchar **tokens = g_strsplit(line, " ", 0); gchar info[128]; int ilen = 0; int i; int n_tokens = 0; while (tokens[n_tokens]) n_tokens++; if (n_tokens > 8) { for (i=8; tokens[i] && ilen < sizeof(info)-2 && strcmp(tokens[i], "00"); i++) { guint ch; sscanf(tokens[i], "%x", &ch); info[ilen++] = ch; } info[ilen++] = 0; set_gps_info(info, w); } g_strfreev(tokens); } /* eg: "Unit:\teTrex Legend HCx Software Version 2.90\n" */ if (strstr(line, "Unit:")) { gchar **tokens = g_strsplit(line, "\t", 0); int n_tokens = 0; while (tokens[n_tokens]) n_tokens++; if (n_tokens > 1) { set_gps_info(tokens[1], w); } g_strfreev(tokens); } /* tells us how many items there will be */ if (strstr(line, "RECORD")) { int lsb, msb, cnt; if (strlen(line) > 20) { sscanf(line+17, "%x", &lsb); sscanf(line+20, "%x", &msb); cnt = lsb + msb * 256; set_total_count(cnt, w); gps_data->count = 0; } } if ( strstr(line, "WPTDAT") || strstr(line, "TRKHDR") || strstr(line, "TRKDAT") || strstr(line, "RTEHDR") || strstr(line, "RTEWPT") ) { gps_data->count++; set_current_count(gps_data->count, w); } break; case BABEL_DONE: break; default: break; } } void append_element (gpointer elem, gpointer user_data) { const gchar *text = ((BabelDevice*)elem)->label; vik_combo_box_text_append (GTK_WIDGET(user_data), text); } static gint find_entry = -1; static gint wanted_entry = -1; static void find_protocol (gpointer elem, gpointer user_data) { const gchar *name = ((BabelDevice*)elem)->name; const gchar *protocol = user_data; find_entry++; if (!strcmp(name, protocol)) { wanted_entry = find_entry; } } static void datasource_gps_add_setup_widgets ( GtkWidget *dialog, VikViewport *vvp, gpointer user_data ) { gps_user_data_t *w = (gps_user_data_t *)user_data; GtkTable *box, *data_type_box; w->proto_l = gtk_label_new (_("GPS Protocol:")); w->proto_b = vik_combo_box_text_new (); g_list_foreach (a_babel_device_list, append_element, w->proto_b); if ( last_active < 0 ) { find_entry = -1; wanted_entry = -1; gchar *protocol = NULL; if ( a_settings_get_string ( VIK_SETTINGS_GPS_PROTOCOL, &protocol ) ) { // Use setting if ( protocol ) g_list_foreach (a_babel_device_list, find_protocol, protocol); } else { // Attempt to maintain default to Garmin devices (assumed most popular/numerous device) g_list_foreach (a_babel_device_list, find_protocol, "garmin"); } // If not found set it to the first entry, otherwise use the entry last_active = ( wanted_entry < 0 ) ? 0 : wanted_entry; } gtk_combo_box_set_active (GTK_COMBO_BOX(w->proto_b), last_active); g_object_ref(w->proto_b); w->ser_l = gtk_label_new (_("Serial Port:")); #if GTK_CHECK_VERSION (2, 24, 0) w->ser_b = gtk_combo_box_text_new_with_entry (); #else w->ser_b = gtk_combo_box_entry_new_text (); #endif // Value from the settings is promoted to the top gchar *gps_port = NULL; if ( a_settings_get_string ( VIK_SETTINGS_GPS_PORT, &gps_port ) ) { // Use setting if available if ( gps_port ) { #ifndef WINDOWS if ( !strncmp (gps_port, "/dev/tty", 6) ) { if (g_access (gps_port, R_OK) == 0) { vik_combo_box_text_append (w->ser_b, gps_port); } } else #endif vik_combo_box_text_append (w->ser_b, gps_port); } } // Note avoid appending the port selected from the settings #ifdef WINDOWS if ( gps_port && strcmp (gps_port, "com1") ) vik_combo_box_text_append (w->ser_b, "com1"); #else /* Here just try to see if the device is available which gets passed onto gpsbabel List USB devices first as these will generally only be present if autogenerated by udev or similar User is still able to set their own free text entry */ if ( gps_port && strcmp (gps_port, "/dev/ttyUSB0") ) if (g_access ("/dev/ttyUSB0", R_OK) == 0) vik_combo_box_text_append (w->ser_b, "/dev/ttyUSB0"); if ( gps_port && strcmp (gps_port, "/dev/ttyUSB1") ) if (g_access ("/dev/ttyUSB1", R_OK) == 0) vik_combo_box_text_append (w->ser_b, "/dev/ttyUSB1"); if ( gps_port && strcmp (gps_port, "/dev/ttyS0") ) if (g_access ("/dev/ttyS0", R_OK) == 0) vik_combo_box_text_append (w->ser_b, "/dev/ttyS0"); if ( gps_port && strcmp (gps_port, "/dev/ttyS1") ) if (g_access ("/dev/ttyS1", R_OK) == 0) vik_combo_box_text_append (w->ser_b, "/dev/ttyS1"); #endif if ( gps_port && strcmp (gps_port, "usb:") ) vik_combo_box_text_append (w->ser_b, "usb:"); gtk_combo_box_set_active (GTK_COMBO_BOX(w->ser_b), 0); g_object_ref(w->ser_b); w->off_request_l = gtk_label_new (_("Turn Off After Transfer\n(Garmin/NAViLink Only)")); w->off_request_b = GTK_CHECK_BUTTON ( gtk_check_button_new () ); gboolean power_off; if ( ! a_settings_get_boolean ( VIK_SETTINGS_GPS_POWER_OFF, &power_off ) ) power_off = FALSE; gtk_toggle_button_set_active(GTK_TOGGLE_BUTTON(w->off_request_b), power_off); w->get_tracks_l = gtk_label_new (_("Tracks:")); w->get_tracks_b = GTK_CHECK_BUTTON ( gtk_check_button_new () ); gboolean get_tracks; if ( ! a_settings_get_boolean ( VIK_SETTINGS_GPS_GET_TRACKS, &get_tracks ) ) get_tracks = TRUE; gtk_toggle_button_set_active(GTK_TOGGLE_BUTTON(w->get_tracks_b), get_tracks); w->get_routes_l = gtk_label_new (_("Routes:")); w->get_routes_b = GTK_CHECK_BUTTON ( gtk_check_button_new () ); gboolean get_routes; if ( ! a_settings_get_boolean ( VIK_SETTINGS_GPS_GET_ROUTES, &get_routes ) ) get_routes = FALSE; gtk_toggle_button_set_active(GTK_TOGGLE_BUTTON(w->get_routes_b), get_routes); w->get_waypoints_l = gtk_label_new (_("Waypoints:")); w->get_waypoints_b = GTK_CHECK_BUTTON ( gtk_check_button_new () ); gboolean get_waypoints; if ( ! a_settings_get_boolean ( VIK_SETTINGS_GPS_GET_WAYPOINTS, &get_waypoints ) ) get_waypoints = TRUE; gtk_toggle_button_set_active(GTK_TOGGLE_BUTTON(w->get_waypoints_b), get_waypoints); box = GTK_TABLE(gtk_table_new(2, 4, FALSE)); data_type_box = GTK_TABLE(gtk_table_new(4, 1, FALSE)); gtk_table_attach_defaults(box, GTK_WIDGET(w->proto_l), 0, 1, 0, 1); gtk_table_attach_defaults(box, GTK_WIDGET(w->proto_b), 1, 2, 0, 1); gtk_table_attach_defaults(box, GTK_WIDGET(w->ser_l), 0, 1, 1, 2); gtk_table_attach_defaults(box, GTK_WIDGET(w->ser_b), 1, 2, 1, 2); gtk_table_attach_defaults(data_type_box, GTK_WIDGET(w->get_tracks_l), 0, 1, 0, 1); gtk_table_attach_defaults(data_type_box, GTK_WIDGET(w->get_tracks_b), 1, 2, 0, 1); gtk_table_attach_defaults(data_type_box, GTK_WIDGET(w->get_routes_l), 2, 3, 0, 1); gtk_table_attach_defaults(data_type_box, GTK_WIDGET(w->get_routes_b), 3, 4, 0, 1); gtk_table_attach_defaults(data_type_box, GTK_WIDGET(w->get_waypoints_l), 4, 5, 0, 1); gtk_table_attach_defaults(data_type_box, GTK_WIDGET(w->get_waypoints_b), 5, 6, 0, 1); gtk_table_attach_defaults(box, GTK_WIDGET(data_type_box), 0, 2, 2, 3); gtk_table_attach_defaults(box, GTK_WIDGET(w->off_request_l), 0, 1, 3, 4); gtk_table_attach_defaults(box, GTK_WIDGET(w->off_request_b), 1, 3, 3, 4); gtk_box_pack_start ( GTK_BOX(gtk_dialog_get_content_area(GTK_DIALOG(dialog))), GTK_WIDGET(box), FALSE, FALSE, 5 ); gtk_widget_show_all ( dialog ); } /** * datasource_gps_setup: * @dialog: The GTK dialog. The caller is responsible for managing the dialog creation/deletion * @xfer: The default type of items enabled for transfer, others disabled. * @xfer_all: When specified all items are enabled for transfer. * * Returns: A gpointer to the private structure for GPS progress/information widgets * Pass this pointer back into the other exposed datasource_gps_X functions */ gpointer datasource_gps_setup ( GtkWidget *dialog, vik_gps_xfer_type xfer, gboolean xfer_all ) { gps_user_data_t *w_gps = (gps_user_data_t *)datasource_gps_init_func ( NULL ); w_gps->direction = GPS_UP; datasource_gps_add_setup_widgets ( dialog, NULL, w_gps ); gboolean way = xfer_all; gboolean trk = xfer_all; gboolean rte = xfer_all; // Selectively turn bits on if ( !xfer_all ) { switch (xfer) { case WPT: way = TRUE; break; case RTE: rte = TRUE; break; default: trk = TRUE; break; } } // Apply gtk_toggle_button_set_active ( GTK_TOGGLE_BUTTON(w_gps->get_tracks_b), trk ); gtk_widget_set_sensitive ( GTK_WIDGET(w_gps->get_tracks_l), trk ); gtk_widget_set_sensitive ( GTK_WIDGET(w_gps->get_tracks_b), trk ); gtk_toggle_button_set_active ( GTK_TOGGLE_BUTTON(w_gps->get_routes_b), rte ); gtk_widget_set_sensitive ( GTK_WIDGET(w_gps->get_routes_l), rte ); gtk_widget_set_sensitive ( GTK_WIDGET(w_gps->get_routes_b), rte ); gtk_toggle_button_set_active ( GTK_TOGGLE_BUTTON(w_gps->get_waypoints_b), way ); gtk_widget_set_sensitive ( GTK_WIDGET(w_gps->get_waypoints_l), way ); gtk_widget_set_sensitive ( GTK_WIDGET(w_gps->get_waypoints_b), way ); return (gpointer)w_gps; } void datasource_gps_add_progress_widgets ( GtkWidget *dialog, gpointer user_data ) { GtkWidget *gpslabel, *verlabel, *idlabel, *wplabel, *trklabel, *rtelabel; gps_user_data_t *w_gps = (gps_user_data_t *)user_data; gpslabel = gtk_label_new (_("GPS device: N/A")); verlabel = gtk_label_new (""); idlabel = gtk_label_new (""); wplabel = gtk_label_new (""); trklabel = gtk_label_new (""); rtelabel = gtk_label_new (""); gtk_box_pack_start ( GTK_BOX(gtk_dialog_get_content_area(GTK_DIALOG(dialog))), gpslabel, FALSE, FALSE, 5 ); gtk_box_pack_start ( GTK_BOX(gtk_dialog_get_content_area(GTK_DIALOG(dialog))), wplabel, FALSE, FALSE, 5 ); gtk_box_pack_start ( GTK_BOX(gtk_dialog_get_content_area(GTK_DIALOG(dialog))), trklabel, FALSE, FALSE, 5 ); gtk_box_pack_start ( GTK_BOX(gtk_dialog_get_content_area(GTK_DIALOG(dialog))), rtelabel, FALSE, FALSE, 5 ); gtk_widget_show_all ( dialog ); w_gps->gps_label = gpslabel; w_gps->id_label = idlabel; w_gps->ver_label = verlabel; w_gps->progress_label = w_gps->wp_label = wplabel; w_gps->trk_label = trklabel; w_gps->rte_label = rtelabel; w_gps->total_count = -1; }