/* GTK - The GIMP Toolkit * Copyright (C) 1995-1997 Peter Mattis, Spencer Kimball and Josh MacDonald * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library 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 * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the Free * Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include #include #include "gtkbutton.h" #include "gtkhscrollbar.h" #include "gtkhseparator.h" #include "gtkmain.h" #include "gtkpreview.h" #include "gtkrc.h" #include "gtkselection.h" #include "gtksignal.h" #include "gtktable.h" #include "gtktext.h" #include "gtkvbox.h" #include "gtkvscrollbar.h" #include "gtkwidget.h" #include "gtkwindow.h" #include "gtkprivate.h" #include "../config.h" /* Private type definitions */ typedef struct _GtkInitFunction GtkInitFunction; typedef struct _GtkQuitFunction GtkQuitFunction; typedef struct _GtkTimeoutFunction GtkTimeoutFunction; typedef struct _GtkIdleFunction GtkIdleFunction; typedef struct _GtkInputFunction GtkInputFunction; typedef struct _GtkKeySnooperData GtkKeySnooperData; struct _GtkInitFunction { GtkFunction function; gpointer data; }; struct _GtkQuitFunction { gint tag; guint main_level; GtkCallbackMarshal marshal; GtkFunction function; gpointer data; GtkDestroyNotify destroy; }; struct _GtkTimeoutFunction { gint tag; guint32 start; guint32 interval; guint32 originterval; GtkFunction function; GtkCallbackMarshal marshal; gpointer data; GtkDestroyNotify destroy; }; struct _GtkIdleFunction { gint tag; gint priority; GtkCallbackMarshal marshal; GtkFunction function; gpointer data; GtkDestroyNotify destroy; }; struct _GtkInputFunction { GtkCallbackMarshal callback; gpointer data; GtkDestroyNotify destroy; }; struct _GtkKeySnooperData { GtkKeySnoopFunc func; gpointer func_data; gint id; }; static void gtk_exit_func (void); static gint gtk_quit_invoke_function (GtkQuitFunction *quitf); static void gtk_quit_destroy (GtkQuitFunction *quitf); static void gtk_timeout_insert (GtkTimeoutFunction *timeoutf); static void gtk_handle_current_timeouts (guint32 the_time); static void gtk_handle_current_idles (void); static gint gtk_invoke_key_snoopers (GtkWidget *grab_widget, GdkEvent *event); static void gtk_handle_timeouts (void); static void gtk_handle_idle (void); static void gtk_handle_timer (void); static void gtk_propagate_event (GtkWidget *widget, GdkEvent *event); static void gtk_error (gchar *str); static void gtk_warning (gchar *str); static void gtk_message (gchar *str); static void gtk_print (gchar *str); static gint gtk_idle_compare (gpointer a, gpointer b); static gint gtk_timeout_compare (gpointer a, gpointer b); const guint gtk_major_version = GTK_MAJOR_VERSION; const guint gtk_minor_version = GTK_MINOR_VERSION; const guint gtk_micro_version = GTK_MICRO_VERSION; static gboolean iteration_done = FALSE; static guint main_level = 0; static gint initialized = FALSE; static GdkEvent *next_event = NULL; static GList *current_events = NULL; static GSList *grabs = NULL; /* A stack of unique grabs. The grabbing * widget is the first one on the list. */ static GList *init_functions = NULL; /* A list of init functions. */ static GList *quit_functions = NULL; /* A list of quit functions. */ static GList *timeout_functions = NULL; /* A list of timeout functions sorted by * when the length of the time interval * remaining. Therefore, the first timeout * function to expire is at the head of * the list and the last to expire is at * the tail of the list. */ static GList *idle_functions = NULL; /* A list of idle functions. */ static GList *current_idles = NULL; static GList *current_timeouts = NULL; static GMemChunk *timeout_mem_chunk = NULL; static GMemChunk *idle_mem_chunk = NULL; static GMemChunk *quit_mem_chunk = NULL; static GSList *key_snoopers = NULL; static GdkVisual *gtk_visual; /* The visual to be used in creating new * widgets. */ static GdkColormap *gtk_colormap; /* The colormap to be used in creating new * widgets. */ guint gtk_debug_flags = 0; /* Global GTK debug flag */ #ifdef G_ENABLE_DEBUG static GDebugKey gtk_debug_keys[] = { {"objects", GTK_DEBUG_OBJECTS} }; static const int gtk_ndebug_keys = sizeof(gtk_debug_keys)/sizeof(GDebugKey); #endif /* G_ENABLE_DEBUG */ void gtk_init (int *argc, char ***argv) { if (0) { g_set_error_handler (gtk_error); g_set_warning_handler (gtk_warning); g_set_message_handler (gtk_message); g_set_print_handler (gtk_print); } /* Initialize "gdk". We pass along the 'argc' and 'argv' * parameters as they contain information that GDK uses */ gdk_init (argc, argv); #ifdef G_ENABLE_DEBUG { gchar *debug_string = getenv("GTK_DEBUG"); if (debug_string != NULL) gtk_debug_flags = g_parse_debug_string (debug_string, gtk_debug_keys, gtk_ndebug_keys); } if (argc && argv) { gint i; for (i = 1; i < *argc;) { if ((*argv)[i] == NULL) { i += 1; continue; } if (strcmp ("--gtk-debug", (*argv)[i]) == 0) { (*argv)[i] = NULL; if ((i + 1) < *argc && (*argv)[i + 1]) { gtk_debug_flags |= g_parse_debug_string ((*argv)[i+1], gtk_debug_keys, gtk_ndebug_keys); (*argv)[i + 1] = NULL; i += 1; } } else if (strcmp ("--gtk-no-debug", (*argv)[i]) == 0) { (*argv)[i] = NULL; if ((i + 1) < *argc && (*argv)[i + 1]) { gtk_debug_flags &= ~g_parse_debug_string ((*argv)[i+1], gtk_debug_keys, gtk_ndebug_keys); (*argv)[i + 1] = NULL; i += 1; } } i += 1; } } #endif /* G_ENABLE_DEBUG */ /* Initialize the default visual and colormap to be * used in creating widgets. (We want to use the system * defaults so as to be nice to the colormap). */ gtk_visual = gdk_visual_get_system (); gtk_colormap = gdk_colormap_get_system (); gtk_rc_init (); gtk_type_init (); /* Register an exit function to make sure we are able to cleanup. */ if (ATEXIT (gtk_exit_func)) g_warning ("unable to register exit function"); /* Set the 'initialized' flag. */ initialized = TRUE; } void gtk_exit (int errorcode) { /* Only if "gtk" has been initialized should we de-initialize. */ /* de-initialisation is done by the gtk_exit_funct(), * no need to do this here (Alex J.) */ gdk_exit(errorcode); } gchar* gtk_set_locale () { return gdk_set_locale (); } void gtk_main () { GList *tmp_list; GList *functions; GtkInitFunction *init; int old_done; main_level++; tmp_list = functions = init_functions; init_functions = NULL; while (tmp_list) { init = tmp_list->data; tmp_list = tmp_list->next; (* init->function) (init->data); g_free (init); } g_list_free (functions); old_done = iteration_done; while (!gtk_main_iteration ()) ; iteration_done = old_done; if (quit_functions) { GList *reinvoke_list = NULL; GtkQuitFunction *quitf; while (quit_functions) { quitf = quit_functions->data; quit_functions = g_list_remove_link (quit_functions, quit_functions); if ((quitf->main_level && quitf->main_level != main_level) || gtk_quit_invoke_function (quitf) == FALSE) { g_list_free (tmp_list); gtk_quit_destroy (quitf); } else { reinvoke_list = g_list_prepend (reinvoke_list, quitf); } } if (reinvoke_list) { GList *tmp_list; tmp_list = g_list_last (reinvoke_list); if (quit_functions) quit_functions->prev = tmp_list; tmp_list->next = quit_functions; quit_functions = tmp_list; } } main_level--; } guint gtk_main_level (void) { return main_level; } void gtk_main_quit () { iteration_done = TRUE; } gint gtk_events_pending (void) { gint result = gdk_events_pending() + ((next_event != NULL) ? 1 : 0); if (idle_functions && (((GtkIdleFunction *)idle_functions->data)->priority >= GTK_PRIORITY_INTERNAL)) result += 1; return result; } gint gtk_main_iteration () { return gtk_main_iteration_do (TRUE); } gint gtk_main_iteration_do (gboolean blocking) { GtkWidget *event_widget; GtkWidget *grab_widget; GdkEvent *event = NULL; GList *tmp_list; iteration_done = FALSE; /* If this is a recursive call, and there are pending timeouts or * idles, finish them, then return immediately to avoid blocking * in gdk_event_get() */ if (current_timeouts) { gtk_handle_current_timeouts( gdk_time_get()); return iteration_done; } if (current_idles) { gtk_handle_current_idles(); return iteration_done; } /* If there is a valid event in 'next_event' then move it to 'event' */ if (next_event) { event = next_event; next_event = NULL; } /* If we don't have an event then get one. */ if (!event) { /* Handle setting of the "gdk" timer. If there are no * timeout functions, then the timer is turned off. * If there are timeout functions, then the timer is * set to the shortest timeout interval (which is * the first timeout function). */ gtk_handle_timer (); if (blocking) event = gdk_event_get (); } /* "gdk_event_get" can return FALSE if the timer goes off * and no events are pending. Therefore, we should make * sure that we got an event before continuing. */ if (event) { /* If there are any events pending then get the next one. */ if (gdk_events_pending () > 0) next_event = gdk_event_get (); /* Try to compress enter/leave notify events. These event * pairs occur when the mouse is dragged quickly across * a window with many buttons (or through a menu). Instead * of highlighting and de-highlighting each widget that * is crossed it is better to simply de-highlight the widget * which contained the mouse initially and highlight the * widget which ends up containing the mouse. */ if (next_event) if (((event->type == GDK_ENTER_NOTIFY) || (event->type == GDK_LEAVE_NOTIFY)) && ((next_event->type == GDK_ENTER_NOTIFY) || (next_event->type == GDK_LEAVE_NOTIFY)) && (next_event->type != event->type) && (next_event->any.window == event->any.window)) { gdk_event_free (event); gdk_event_free (next_event); next_event = NULL; goto event_handling_done; } /* Find the widget which got the event. We store the widget * in the user_data field of GdkWindow's. * Ignore the event if we don't have a widget for it, except * for GDK_PROPERTY_NOTIFY events which are handled specialy. * Though this happens rarely, bogus events can occour * for e.g. destroyed GdkWindows. */ event_widget = gtk_get_event_widget (event); if (!event_widget) { /* To handle selection INCR transactions, we select * PropertyNotify events on the requestor window and create * a corresponding (fake) GdkWindow so that events get * here. There won't be a widget though, so we have to handle * them specially */ if (event->type == GDK_PROPERTY_NOTIFY) gtk_selection_incr_event (event->any.window, &event->property); gdk_event_free (event); goto event_handling_done; } /* Push the event onto a stack of current events for * gtk_current_event_get(). */ current_events = g_list_prepend (current_events, event); /* If there is a grab in effect... */ if (grabs) { grab_widget = grabs->data; /* If the grab widget is an ancestor of the event widget * then we send the event to the original event widget. * This is the key to implementing modality. */ if (gtk_widget_is_ancestor (event_widget, grab_widget)) grab_widget = event_widget; } else { grab_widget = event_widget; } /* Not all events get sent to the grabbing widget. * The delete, destroy, expose, focus change and resize * events still get sent to the event widget because * 1) these events have no meaning for the grabbing widget * and 2) redirecting these events to the grabbing widget * could cause the display to be messed up. */ switch (event->type) { case GDK_NOTHING: break; case GDK_DELETE: gtk_widget_ref (event_widget); if (gtk_widget_event (event_widget, event)) gtk_widget_destroy (event_widget); gtk_widget_unref (event_widget); break; case GDK_DESTROY: gtk_widget_ref (event_widget); gtk_widget_event (event_widget, event); gtk_widget_destroy (event_widget); gtk_widget_unref (event_widget); break; case GDK_PROPERTY_NOTIFY: case GDK_EXPOSE: case GDK_NO_EXPOSE: case GDK_FOCUS_CHANGE: case GDK_CONFIGURE: case GDK_MAP: case GDK_UNMAP: case GDK_SELECTION_CLEAR: case GDK_SELECTION_REQUEST: case GDK_SELECTION_NOTIFY: case GDK_CLIENT_EVENT: case GDK_DRAG_BEGIN: case GDK_DRAG_REQUEST: case GDK_DROP_ENTER: case GDK_DROP_LEAVE: case GDK_DROP_DATA_AVAIL: case GDK_VISIBILITY_NOTIFY: gtk_widget_event (event_widget, event); break; case GDK_KEY_PRESS: case GDK_KEY_RELEASE: if (key_snoopers) { if (gtk_invoke_key_snoopers (grab_widget, event)) break; } /* else fall through */ case GDK_MOTION_NOTIFY: case GDK_BUTTON_PRESS: case GDK_2BUTTON_PRESS: case GDK_3BUTTON_PRESS: case GDK_BUTTON_RELEASE: case GDK_PROXIMITY_IN: case GDK_PROXIMITY_OUT: case GDK_OTHER_EVENT: gtk_propagate_event (grab_widget, event); break; case GDK_ENTER_NOTIFY: if (GTK_WIDGET_IS_SENSITIVE (grab_widget)) { gtk_widget_event (grab_widget, event); if (event_widget == grab_widget) GTK_PRIVATE_SET_FLAG (event_widget, GTK_LEAVE_PENDING); } break; case GDK_LEAVE_NOTIFY: if (GTK_WIDGET_LEAVE_PENDING (event_widget)) { GTK_PRIVATE_UNSET_FLAG (event_widget, GTK_LEAVE_PENDING); gtk_widget_event (event_widget, event); } else if (GTK_WIDGET_IS_SENSITIVE (grab_widget)) gtk_widget_event (grab_widget, event); break; } tmp_list = current_events; current_events = g_list_remove_link (current_events, tmp_list); g_list_free_1 (tmp_list); gdk_event_free (event); } else { if (gdk_events_pending() == 0) gtk_handle_idle (); } event_handling_done: /* Handle timeout functions that may have expired. */ gtk_handle_timeouts (); return iteration_done; } gint gtk_true (void) { return TRUE; } gint gtk_false (void) { return FALSE; } void gtk_grab_add (GtkWidget *widget) { g_return_if_fail (widget != NULL); if (!GTK_WIDGET_HAS_GRAB (widget)) { GTK_WIDGET_SET_FLAGS (widget, GTK_HAS_GRAB); grabs = g_slist_prepend (grabs, widget); gtk_widget_ref (widget); } } GtkWidget* gtk_grab_get_current (void) { if (grabs) return GTK_WIDGET (grabs->data); return NULL; } void gtk_grab_remove (GtkWidget *widget) { g_return_if_fail (widget != NULL); if (GTK_WIDGET_HAS_GRAB (widget)) { GTK_WIDGET_UNSET_FLAGS (widget, GTK_HAS_GRAB); grabs = g_slist_remove (grabs, widget); gtk_widget_unref (widget); } } void gtk_init_add (GtkFunction function, gpointer data) { GtkInitFunction *init; init = g_new (GtkInitFunction, 1); init->function = function; init->data = data; init_functions = g_list_prepend (init_functions, init); } gint gtk_key_snooper_install (GtkKeySnoopFunc snooper, gpointer func_data) { GtkKeySnooperData *data; static guint snooper_id = 1; g_return_val_if_fail (snooper != NULL, 0); data = g_new (GtkKeySnooperData, 1); data->func = snooper; data->func_data = func_data; data->id = snooper_id++; key_snoopers = g_slist_prepend (key_snoopers, data); return data->id; } void gtk_key_snooper_remove (gint snooper_id) { GtkKeySnooperData *data = NULL; GSList *slist; slist = key_snoopers; while (slist) { data = slist->data; if (data->id == snooper_id) break; slist = slist->next; data = NULL; } if (data) key_snoopers = g_slist_remove (key_snoopers, data); } static gint gtk_invoke_key_snoopers (GtkWidget *grab_widget, GdkEvent *event) { GSList *slist; gint return_val = FALSE; slist = key_snoopers; while (slist && !return_val) { GtkKeySnooperData *data; data = slist->data; slist = slist->next; return_val = (*data->func) (grab_widget, (GdkEventKey*) event, data->func_data); } return return_val; } gint gtk_timeout_add_full (guint32 interval, GtkFunction function, GtkCallbackMarshal marshal, gpointer data, GtkDestroyNotify destroy) { static gint timeout_tag = 1; GtkTimeoutFunction *timeoutf; g_return_val_if_fail ((function != NULL) || (marshal != NULL), 0); /* Create a new timeout function structure. * The start time is the current time. */ if (!timeout_mem_chunk) timeout_mem_chunk = g_mem_chunk_new ("timeout mem chunk", sizeof (GtkTimeoutFunction), 1024, G_ALLOC_AND_FREE); timeoutf = g_chunk_new (GtkTimeoutFunction, timeout_mem_chunk); timeoutf->tag = timeout_tag++; timeoutf->start = gdk_time_get (); timeoutf->interval = interval; timeoutf->originterval = interval; timeoutf->function = function; timeoutf->marshal = marshal; timeoutf->data = data; timeoutf->destroy = destroy; gtk_timeout_insert (timeoutf); return timeoutf->tag; } static void gtk_timeout_destroy (GtkTimeoutFunction *timeoutf) { if (timeoutf->destroy) (timeoutf->destroy) (timeoutf->data); g_mem_chunk_free (timeout_mem_chunk, timeoutf); } gint gtk_timeout_add (guint32 interval, GtkFunction function, gpointer data) { return gtk_timeout_add_full (interval, function, FALSE, data, NULL); } gint gtk_timeout_add_interp (guint32 interval, GtkCallbackMarshal function, gpointer data, GtkDestroyNotify destroy) { return gtk_timeout_add_full (interval, NULL, function, data, destroy); } void gtk_timeout_remove (gint tag) { GtkTimeoutFunction *timeoutf; GList *tmp_list; /* Remove a timeout function. * (Which, basically, involves searching the * list for the tag). */ tmp_list = timeout_functions; while (tmp_list) { timeoutf = tmp_list->data; if (timeoutf->tag == tag) { timeout_functions = g_list_remove_link (timeout_functions, tmp_list); g_list_free (tmp_list); gtk_timeout_destroy (timeoutf); return; } tmp_list = tmp_list->next; } tmp_list = current_timeouts; while (tmp_list) { timeoutf = tmp_list->data; if (timeoutf->tag == tag) { current_timeouts = g_list_remove_link (current_timeouts, tmp_list); g_list_free (tmp_list); gtk_timeout_destroy (timeoutf); return; } tmp_list = tmp_list->next; } } /* We rely on some knowledge of how g_list_insert_sorted works to make * sure that we insert at the _end_ of the idles of this priority */ static gint gtk_idle_compare (gpointer a, gpointer b) { return (((GtkIdleFunction *)a)->priority < ((GtkIdleFunction *)b)->priority) ? -1 : 1; } gint gtk_quit_add_full (guint main_level, GtkFunction function, GtkCallbackMarshal marshal, gpointer data, GtkDestroyNotify destroy) { static gint quit_tag = 1; GtkQuitFunction *quitf; g_return_val_if_fail ((function != NULL) || (marshal != NULL), 0); if (!quit_mem_chunk) quit_mem_chunk = g_mem_chunk_new ("quit mem chunk", sizeof (GtkQuitFunction), 512, G_ALLOC_AND_FREE); quitf = g_chunk_new (GtkQuitFunction, quit_mem_chunk); quitf->tag = quit_tag++; quitf->main_level = main_level; quitf->function = function; quitf->marshal = marshal; quitf->data = data; quitf->destroy = destroy; quit_functions = g_list_prepend (quit_functions, quitf); return quitf->tag; } gint gtk_idle_add_full (gint priority, GtkFunction function, GtkCallbackMarshal marshal, gpointer data, GtkDestroyNotify destroy) { static gint idle_tag = 1; GtkIdleFunction *idlef; g_return_val_if_fail ((function != NULL) || (marshal != NULL), 0); if (!idle_mem_chunk) idle_mem_chunk = g_mem_chunk_new ("idle mem chunk", sizeof (GtkIdleFunction), 1024, G_ALLOC_AND_FREE); idlef = g_chunk_new (GtkIdleFunction, idle_mem_chunk); idlef->tag = idle_tag++; idlef->priority = priority; idlef->function = function; idlef->marshal = marshal; idlef->data = data; idlef->destroy = destroy; idle_functions = g_list_insert_sorted (idle_functions, idlef, gtk_idle_compare); return idlef->tag; } gint gtk_idle_add_interp (GtkCallbackMarshal marshal, gpointer data, GtkDestroyNotify destroy) { return gtk_idle_add_full (GTK_PRIORITY_DEFAULT, NULL, marshal, data, destroy); } static void gtk_idle_destroy (GtkIdleFunction *idlef) { if (idlef->destroy) idlef->destroy (idlef->data); g_mem_chunk_free (idle_mem_chunk, idlef); } static void gtk_quit_destroy (GtkQuitFunction *quitf) { if (quitf->destroy) quitf->destroy (quitf->data); g_mem_chunk_free (quit_mem_chunk, quitf); } gint gtk_quit_add (guint main_level, GtkFunction function, gpointer data) { return gtk_quit_add_full (main_level, function, NULL, data, NULL); } gint gtk_idle_add (GtkFunction function, gpointer data) { return gtk_idle_add_full (GTK_PRIORITY_DEFAULT, function, NULL, data, NULL); } gint gtk_idle_add_priority (gint priority, GtkFunction function, gpointer data) { return gtk_idle_add_full (priority, function, NULL, data, NULL); } void gtk_quit_remove (gint tag) { GtkQuitFunction *quitf; GList *tmp_list; tmp_list = quit_functions; while (tmp_list) { quitf = tmp_list->data; if (quitf->tag == tag) { quit_functions = g_list_remove_link (quit_functions, tmp_list); g_list_free (tmp_list); gtk_quit_destroy (quitf); return; } tmp_list = tmp_list->next; } } void gtk_quit_remove_by_data (gpointer data) { GtkQuitFunction *quitf; GList *tmp_list; tmp_list = quit_functions; while (tmp_list) { quitf = tmp_list->data; if (quitf->data == data) { quit_functions = g_list_remove_link (quit_functions, tmp_list); g_list_free (tmp_list); gtk_quit_destroy (quitf); return; } tmp_list = tmp_list->next; } } void gtk_idle_remove (gint tag) { GtkIdleFunction *idlef; GList *tmp_list; tmp_list = idle_functions; while (tmp_list) { idlef = tmp_list->data; if (idlef->tag == tag) { idle_functions = g_list_remove_link (idle_functions, tmp_list); g_list_free (tmp_list); gtk_idle_destroy (idlef); return; } tmp_list = tmp_list->next; } tmp_list = current_idles; while (tmp_list) { idlef = tmp_list->data; if (idlef->tag == tag) { current_idles = g_list_remove_link (current_idles, tmp_list); g_list_free (tmp_list); gtk_idle_destroy (idlef); return; } tmp_list = tmp_list->next; } } void gtk_idle_remove_by_data (gpointer data) { GtkIdleFunction *idlef; GList *tmp_list; tmp_list = idle_functions; while (tmp_list) { idlef = tmp_list->data; if (idlef->data == data) { idle_functions = g_list_remove_link (idle_functions, tmp_list); g_list_free (tmp_list); gtk_idle_destroy (idlef); return; } tmp_list = tmp_list->next; } tmp_list = current_idles; while (tmp_list) { idlef = tmp_list->data; if (idlef->data == data) { current_idles = g_list_remove_link (current_idles, tmp_list); g_list_free (tmp_list); gtk_idle_destroy (idlef); return; } tmp_list = tmp_list->next; } } static void gtk_invoke_input_function (GtkInputFunction *input, gint source, GdkInputCondition condition) { GtkArg args[3]; args[0].type = GTK_TYPE_INT; args[0].name = NULL; GTK_VALUE_INT(args[0]) = source; args[1].type = GTK_TYPE_GDK_INPUT_CONDITION; args[1].name = NULL; GTK_VALUE_FLAGS(args[1]) = condition; args[2].type = GTK_TYPE_NONE; args[2].name = NULL; input->callback (NULL, input->data, 2, args); } static void gtk_destroy_input_function (GtkInputFunction *input) { if (input->destroy) (input->destroy) (input->data); g_free (input); } gint gtk_input_add_full (gint source, GdkInputCondition condition, GdkInputFunction function, GtkCallbackMarshal marshal, gpointer data, GtkDestroyNotify destroy) { if (marshal) { GtkInputFunction *input = g_new (GtkInputFunction, 1); input->callback = marshal; input->data = data; input->destroy = destroy; return gdk_input_add_full (source, condition, (GdkInputFunction) gtk_invoke_input_function, input, (GdkDestroyNotify) gtk_destroy_input_function); } else return gdk_input_add_full (source, condition, function, data, destroy); } gint gtk_input_add_interp (gint source, GdkInputCondition condition, GtkCallbackMarshal callback, gpointer data, GtkDestroyNotify destroy) { return gtk_input_add_full (source, condition, NULL, callback, data, destroy); } void gtk_input_remove (gint tag) { gdk_input_remove (tag); } GdkEvent * gtk_get_current_event () { if (current_events) return gdk_event_copy ((GdkEvent *) current_events->data); else return NULL; } GtkWidget* gtk_get_event_widget (GdkEvent *event) { GtkWidget *widget; widget = NULL; if (event->any.window) gdk_window_get_user_data (event->any.window, (void**) &widget); return widget; } static void gtk_exit_func () { if (initialized) { initialized = FALSE; gtk_preview_uninit (); } } /* We rely on some knowledge of how g_list_insert_sorted works to make * sure that we insert after timeouts of equal interval */ static gint gtk_timeout_compare (gpointer a, gpointer b) { return (((GtkTimeoutFunction *)a)->interval < ((GtkTimeoutFunction *)b)->interval) ? -1 : 1; } static void gtk_timeout_insert (GtkTimeoutFunction *timeoutf) { g_assert (timeoutf != NULL); /* Insert the timeout function appropriately. * Appropriately meaning sort it into the list * of timeout functions. */ timeout_functions = g_list_insert_sorted (timeout_functions, timeoutf, gtk_timeout_compare); } static gint gtk_invoke_timeout_function (GtkTimeoutFunction *timeoutf) { if (!timeoutf->marshal) return timeoutf->function (timeoutf->data); else { GtkArg args[1]; gint ret_val = FALSE; args[0].name = NULL; args[0].type = GTK_TYPE_BOOL; args[0].d.pointer_data = &ret_val; ((GtkCallbackMarshal)timeoutf->function) (NULL, timeoutf->data, 0, args); return ret_val; } } static void gtk_handle_current_timeouts (guint32 the_time) { GList *tmp_list; GtkTimeoutFunction *timeoutf; while (current_timeouts) { tmp_list = current_timeouts; timeoutf = tmp_list->data; current_timeouts = g_list_remove_link (current_timeouts, tmp_list); g_list_free (tmp_list); if (gtk_invoke_timeout_function (timeoutf) == FALSE) { gtk_timeout_destroy (timeoutf); } else { timeoutf->interval = timeoutf->originterval; timeoutf->start = the_time; gtk_timeout_insert (timeoutf); } } } static void gtk_handle_timeouts () { guint32 the_time; GList *tmp_list; GList *tmp_list2; GtkTimeoutFunction *timeoutf; /* Caller must already have called gtk_handle_current_timeouts if * necessary */ g_assert (current_timeouts == NULL); if (timeout_functions) { the_time = gdk_time_get (); tmp_list = timeout_functions; while (tmp_list) { timeoutf = tmp_list->data; if (timeoutf->interval <= (the_time - timeoutf->start)) { tmp_list2 = tmp_list; tmp_list = tmp_list->next; timeout_functions = g_list_remove_link (timeout_functions, tmp_list2); current_timeouts = g_list_concat (current_timeouts, tmp_list2); } else { timeoutf->interval -= (the_time - timeoutf->start); timeoutf->start = the_time; tmp_list = tmp_list->next; } } if (current_timeouts) gtk_handle_current_timeouts(the_time); } } static gint gtk_quit_invoke_function (GtkQuitFunction *quitf) { if (!quitf->marshal) return quitf->function (quitf->data); else { GtkArg args[1]; gint ret_val = FALSE; args[0].name = NULL; args[0].type = GTK_TYPE_BOOL; args[0].d.pointer_data = &ret_val; ((GtkCallbackMarshal) quitf->marshal) (NULL, quitf->data, 0, args); return ret_val; } } static gint gtk_idle_invoke_function (GtkIdleFunction *idlef) { if (!idlef->marshal) return idlef->function (idlef->data); else { GtkArg args[1]; gint ret_val = FALSE; args[0].name = NULL; args[0].type = GTK_TYPE_BOOL; args[0].d.pointer_data = &ret_val; ((GtkCallbackMarshal) idlef->marshal) (NULL, idlef->data, 0, args); return ret_val; } } static void gtk_handle_current_idles () { GList *tmp_list; GList *tmp_list2; GtkIdleFunction *idlef; while (current_idles) { tmp_list = current_idles; idlef = tmp_list->data; current_idles = g_list_remove_link (current_idles, tmp_list); if (gtk_idle_invoke_function (idlef) == FALSE) { g_list_free (tmp_list); gtk_idle_destroy (idlef); } else { /* Insert the idle function back into the list of idle * functions at the end of the idles of this priority */ tmp_list2 = idle_functions; while (tmp_list2 && (((GtkIdleFunction *)tmp_list2->data)->priority <= idlef->priority)) tmp_list2 = tmp_list2->next; if (!tmp_list2) idle_functions = g_list_concat (idle_functions, tmp_list); else if (tmp_list2 == idle_functions) { tmp_list->next = idle_functions; if (idle_functions) idle_functions->prev = tmp_list; idle_functions = tmp_list; } else { tmp_list->prev = tmp_list2->prev; tmp_list->next = tmp_list2; tmp_list2->prev->next = tmp_list; tmp_list2->prev = tmp_list; } } } } static void gtk_handle_idle () { /* Caller must already have called gtk_handle_current_idles if * necessary */ g_assert (current_idles == NULL); /* Handle only the idle functions that have the highest priority */ if (idle_functions) { GList *tmp_list; gint top_priority; tmp_list = idle_functions; top_priority = ((GtkIdleFunction *)tmp_list->data)->priority; while (tmp_list && (((GtkIdleFunction *)tmp_list->data)->priority == top_priority)) tmp_list = tmp_list->next; current_idles = idle_functions; idle_functions = tmp_list; if (tmp_list) { tmp_list->prev->next = NULL; tmp_list->prev = NULL; } gtk_handle_current_idles(); } } static void gtk_handle_timer () { GtkTimeoutFunction *timeoutf; if (idle_functions) { gdk_timer_set (0); gdk_timer_enable (); } else if (timeout_functions) { timeoutf = timeout_functions->data; gdk_timer_set (timeoutf->interval); gdk_timer_enable (); } else { gdk_timer_set (0); gdk_timer_disable (); } } static void gtk_propagate_event (GtkWidget *widget, GdkEvent *event) { GtkWidget *parent; GtkWidget *tmp; gint handled_event; g_return_if_fail (widget != NULL); g_return_if_fail (event != NULL); handled_event = FALSE; gtk_widget_ref (widget); if ((event->type == GDK_KEY_PRESS) || (event->type == GDK_KEY_RELEASE)) { /* Only send key events to window widgets. * The window widget will in turn pass the * key event on to the currently focused widget * for that window. */ parent = gtk_widget_get_ancestor (widget, gtk_window_get_type ()); handled_event = (parent && GTK_WIDGET_IS_SENSITIVE (parent) && gtk_widget_event (parent, event)); } /* Other events get propagated up the widget tree * so that parents can see the button and motion * events of the children. */ tmp = widget; while (!handled_event && tmp) { gtk_widget_ref (tmp); handled_event = !GTK_WIDGET_IS_SENSITIVE (tmp) || gtk_widget_event (tmp, event); parent = tmp->parent; gtk_widget_unref (tmp); tmp = parent; } gtk_widget_unref (widget); } static void gtk_error (gchar *str) { gtk_print (str); } static void gtk_warning (gchar *str) { gtk_print (str); } static void gtk_message (gchar *str) { gtk_print (str); } static void gtk_print (gchar *str) { static GtkWidget *window = NULL; static GtkWidget *text; static int level = 0; GtkWidget *box1; GtkWidget *box2; GtkWidget *table; GtkWidget *hscrollbar; GtkWidget *vscrollbar; GtkWidget *separator; GtkWidget *button; if (level > 0) { fputs (str, stdout); fflush (stdout); return; } if (!window) { window = gtk_window_new (GTK_WINDOW_TOPLEVEL); gtk_signal_connect (GTK_OBJECT (window), "destroy", (GtkSignalFunc) gtk_widget_destroyed, &window); gtk_window_set_title (GTK_WINDOW (window), "Messages"); box1 = gtk_vbox_new (FALSE, 0); gtk_container_add (GTK_CONTAINER (window), box1); gtk_widget_show (box1); box2 = gtk_vbox_new (FALSE, 10); gtk_container_border_width (GTK_CONTAINER (box2), 10); gtk_box_pack_start (GTK_BOX (box1), box2, TRUE, TRUE, 0); gtk_widget_show (box2); table = gtk_table_new (2, 2, FALSE); gtk_table_set_row_spacing (GTK_TABLE (table), 0, 2); gtk_table_set_col_spacing (GTK_TABLE (table), 0, 2); gtk_box_pack_start (GTK_BOX (box2), table, TRUE, TRUE, 0); gtk_widget_show (table); text = gtk_text_new (NULL, NULL); gtk_text_set_editable (GTK_TEXT (text), FALSE); gtk_table_attach_defaults (GTK_TABLE (table), text, 0, 1, 0, 1); gtk_widget_show (text); gtk_widget_realize (text); hscrollbar = gtk_hscrollbar_new (GTK_TEXT (text)->hadj); gtk_table_attach (GTK_TABLE (table), hscrollbar, 0, 1, 1, 2, GTK_EXPAND | GTK_FILL, GTK_FILL, 0, 0); gtk_widget_show (hscrollbar); vscrollbar = gtk_vscrollbar_new (GTK_TEXT (text)->vadj); gtk_table_attach (GTK_TABLE (table), vscrollbar, 1, 2, 0, 1, GTK_FILL, GTK_EXPAND | GTK_FILL, 0, 0); gtk_widget_show (vscrollbar); separator = gtk_hseparator_new (); gtk_box_pack_start (GTK_BOX (box1), separator, FALSE, TRUE, 0); gtk_widget_show (separator); box2 = gtk_vbox_new (FALSE, 10); gtk_container_border_width (GTK_CONTAINER (box2), 10); gtk_box_pack_start (GTK_BOX (box1), box2, FALSE, TRUE, 0); gtk_widget_show (box2); button = gtk_button_new_with_label ("close"); gtk_signal_connect_object (GTK_OBJECT (button), "clicked", (GtkSignalFunc) gtk_widget_hide, GTK_OBJECT (window)); gtk_box_pack_start (GTK_BOX (box2), button, TRUE, TRUE, 0); GTK_WIDGET_SET_FLAGS (button, GTK_CAN_DEFAULT); gtk_widget_grab_default (button); gtk_widget_show (button); } level += 1; gtk_text_insert (GTK_TEXT (text), NULL, NULL, NULL, str, -1); level -= 1; if (!GTK_WIDGET_VISIBLE (window)) gtk_widget_show (window); }