/* GDK - The GIMP Drawing Kit * 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., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ #include "config.h" /* If you don't want to use gdk's signal handlers define this */ /* #define I_NEED_TO_ACTUALLY_DEBUG_MY_PROGRAMS 1 */ #include #include #include #include #include #include #include #ifdef HAVE_SYS_SELECT_H #include #endif /* HAVE_SYS_SELECT_H_ */ #define XLIB_ILLEGAL_ACCESS #include #include #include #include #include #include #include "gdk.h" #include "gdkprivate.h" #include "gdkinput.h" #include "gdki18n.h" #include "gdkx.h" #include "gdkkeysyms.h" #ifndef X_GETTIMEOFDAY #define X_GETTIMEOFDAY(tv) gettimeofday (tv, NULL) #endif /* X_GETTIMEOFDAY */ #define DOUBLE_CLICK_TIME 250 #define TRIPLE_CLICK_TIME 500 #define DOUBLE_CLICK_DIST 5 #define TRIPLE_CLICK_DIST 5 #ifndef NO_FD_SET # define SELECT_MASK fd_set #else # ifndef _AIX typedef long fd_mask; # endif # if defined(_IBMR2) # define SELECT_MASK void # else # define SELECT_MASK int # endif #endif typedef struct _GdkInput GdkInput; typedef struct _GdkPredicate GdkPredicate; struct _GdkInput { gint tag; gint source; GdkInputCondition condition; GdkInputFunction function; gpointer data; GdkDestroyNotify destroy; }; struct _GdkPredicate { GdkEventFunc func; gpointer data; }; /* * Private function declarations */ static GdkEvent *gdk_event_new (void); static gint gdk_event_wait (void); static gint gdk_event_apply_filters (XEvent *xevent, GdkEvent *event, GList *filters); static gint gdk_event_translate (GdkEvent *event, XEvent *xevent); #if 0 static Bool gdk_event_get_type (Display *display, XEvent *xevent, XPointer arg); #endif static void gdk_synthesize_click (GdkEvent *event, gint nclicks); #ifndef HAVE_XCONVERTCASE static void gdkx_XConvertCase (KeySym symbol, KeySym *lower, KeySym *upper); #define XConvertCase gdkx_XConvertCase #endif /* * old junk from offix, we might use it though so leave it */ Window gdk_get_client_window (Display *dpy, Window win); #ifdef WE_HAVE_MOTIF_DROPS_DONE static GdkWindow * gdk_drop_get_real_window (GdkWindow *w, guint16 *x, guint16 *y); #endif static void gdk_exit_func (void); static int gdk_x_error (Display *display, XErrorEvent *error); static int gdk_x_io_error (Display *display); static RETSIGTYPE gdk_signal (int signum); GdkFilterReturn gdk_wm_protocols_filter (GdkXEvent *xev, GdkEvent *event, gpointer data); /* Private variable declarations */ static int gdk_initialized = 0; /* 1 if the library is initialized, * 0 otherwise. */ static int connection_number = 0; /* The file descriptor number of our * connection to the X server. This * is used so that we may determine * when events are pending by using * the "select" system call. */ static struct timeval start; /* The time at which the library was * last initialized. */ static struct timeval timer; /* Timeout interval to use in the call * to "select". This is used in * conjunction with "timerp" to create * a maximum time to wait for an event * to arrive. */ static struct timeval *timerp; /* The actual timer passed to "select" * This may be NULL, in which case * "select" will block until an event * arrives. */ static guint32 timer_val; /* The timeout length as specified by * the user in milliseconds. */ static GList *inputs; /* A list of the input file descriptors * that we care about. Each list node * contains a GdkInput struct that describes * when we are interested in the specified * file descriptor. That is, when it is * available for read, write or has an * exception pending. */ static guint32 button_click_time[2]; /* The last 2 button click times. Used * to determine if the latest button click * is part of a double or triple click. */ static GdkWindow *button_window[2]; /* The last 2 windows to receive button presses. * Also used to determine if the latest button * click is part of a double or triple click. */ static guint button_number[2]; /* The last 2 buttons to be pressed. */ static GdkWindowPrivate *xgrab_window = NULL; /* Window that currently holds the * x pointer grab */ static GList *client_filters; /* Filters for client messages */ static GList *putback_events = NULL; static gulong base_id; static gint autorepeat; #ifdef G_ENABLE_DEBUG static const GDebugKey gdk_debug_keys[] = { {"events", GDK_DEBUG_EVENTS}, {"misc", GDK_DEBUG_MISC}, {"dnd", GDK_DEBUG_DND}, {"color-context", GDK_DEBUG_COLOR_CONTEXT}, {"xim", GDK_DEBUG_XIM} }; static const int gdk_ndebug_keys = sizeof(gdk_debug_keys)/sizeof(GDebugKey); #endif /* G_ENABLE_DEBUG */ /* *-------------------------------------------------------------- * gdk_init * * Initialize the library for use. * * Arguments: * "argc" is the number of arguments. * "argv" is an array of strings. * * Results: * "argc" and "argv" are modified to reflect any arguments * which were not handled. (Such arguments should either * be handled by the application or dismissed). * * Side effects: * The library is initialized. * *-------------------------------------------------------------- */ void gdk_init (int *argc, char ***argv) { XKeyboardState keyboard_state; gint synchronize; gint i, j, k; XClassHint *class_hint; gchar **argv_orig = NULL; gint argc_orig = 0; if (gdk_initialized) return; if (argc && argv) { argc_orig = *argc; argv_orig = g_malloc ((argc_orig + 1) * sizeof (char*)); for (i = 0; i < argc_orig; i++) argv_orig[i] = g_strdup ((*argv)[i]); argv_orig[argc_orig] = NULL; } X_GETTIMEOFDAY (&start); #ifndef I_NEED_TO_ACTUALLY_DEBUG_MY_PROGRAMS signal (SIGHUP, gdk_signal); signal (SIGINT, gdk_signal); signal (SIGQUIT, gdk_signal); signal (SIGBUS, gdk_signal); signal (SIGSEGV, gdk_signal); signal (SIGPIPE, gdk_signal); signal (SIGTERM, gdk_signal); #endif gdk_display_name = NULL; XSetErrorHandler (gdk_x_error); XSetIOErrorHandler (gdk_x_io_error); synchronize = FALSE; #ifdef G_ENABLE_DEBUG { gchar *debug_string = getenv("GDK_DEBUG"); if (debug_string != NULL) gdk_debug_flags = g_parse_debug_string (debug_string, gdk_debug_keys, gdk_ndebug_keys); } #endif /* G_ENABLE_DEBUG */ if (argc && argv) { if (*argc > 0) { gchar *d; d = strrchr((*argv)[0],'/'); if (d != NULL) g_set_prgname (d + 1); else g_set_prgname ((*argv)[0]); } for (i = 1; i < *argc;) { #ifdef G_ENABLE_DEBUG if ((strcmp ("--gdk-debug", (*argv)[i]) == 0) || (strncmp ("--gdk-debug=", (*argv)[i], 12) == 0)) { gchar *equal_pos = strchr ((*argv)[i], '='); if (equal_pos != NULL) { gdk_debug_flags |= g_parse_debug_string (equal_pos+1, gdk_debug_keys, gdk_ndebug_keys); } else if ((i + 1) < *argc && (*argv)[i + 1]) { gdk_debug_flags |= g_parse_debug_string ((*argv)[i+1], gdk_debug_keys, gdk_ndebug_keys); (*argv)[i] = NULL; i += 1; } (*argv)[i] = NULL; } else if ((strcmp ("--gdk-no-debug", (*argv)[i]) == 0) || (strncmp ("--gdk-no-debug=", (*argv)[i], 15) == 0)) { gchar *equal_pos = strchr ((*argv)[i], '='); if (equal_pos != NULL) { gdk_debug_flags &= ~g_parse_debug_string (equal_pos+1, gdk_debug_keys, gdk_ndebug_keys); } else if ((i + 1) < *argc && (*argv)[i + 1]) { gdk_debug_flags &= ~g_parse_debug_string ((*argv)[i+1], gdk_debug_keys, gdk_ndebug_keys); (*argv)[i] = NULL; i += 1; } (*argv)[i] = NULL; } else #endif /* G_ENABLE_DEBUG */ if (strcmp ("--display", (*argv)[i]) == 0) { (*argv)[i] = NULL; if ((i + 1) < *argc && (*argv)[i + 1]) { gdk_display_name = g_strdup ((*argv)[i + 1]); (*argv)[i + 1] = NULL; i += 1; } } else if (strcmp ("--sync", (*argv)[i]) == 0) { (*argv)[i] = NULL; synchronize = TRUE; } else if (strcmp ("--no-xshm", (*argv)[i]) == 0) { (*argv)[i] = NULL; gdk_use_xshm = FALSE; } else if (strcmp ("--name", (*argv)[i]) == 0) { if ((i + 1) < *argc && (*argv)[i + 1]) { (*argv)[i++] = NULL; g_set_prgname ((*argv)[i]); (*argv)[i] = NULL; } } else if (strcmp ("--class", (*argv)[i]) == 0) { if ((i + 1) < *argc && (*argv)[i + 1]) { (*argv)[i++] = NULL; gdk_progclass = (*argv)[i]; (*argv)[i] = NULL; } } #ifdef XINPUT_GXI else if (strcmp ("--gxid_host", (*argv)[i]) == 0) { if ((i + 1) < *argc && (*argv)[i + 1]) { (*argv)[i++] = NULL; gdk_input_gxid_host = ((*argv)[i]); (*argv)[i] = NULL; } } else if (strcmp ("--gxid_port", (*argv)[i]) == 0) { if ((i + 1) < *argc && (*argv)[i + 1]) { (*argv)[i++] = NULL; gdk_input_gxid_port = atoi ((*argv)[i]); (*argv)[i] = NULL; } } #endif #ifdef USE_XIM else if (strcmp ("--xim-preedit", (*argv)[i]) == 0) { if ((i + 1) < *argc && (*argv)[i + 1]) { (*argv)[i++] = NULL; if (strcmp ("none", (*argv)[i]) == 0) gdk_im_set_best_style (GDK_IM_PREEDIT_NONE); else if (strcmp ("nothing", (*argv)[i]) == 0) gdk_im_set_best_style (GDK_IM_PREEDIT_NOTHING); else if (strcmp ("area", (*argv)[i]) == 0) gdk_im_set_best_style (GDK_IM_PREEDIT_AREA); else if (strcmp ("position", (*argv)[i]) == 0) gdk_im_set_best_style (GDK_IM_PREEDIT_POSITION); else if (strcmp ("callbacks", (*argv)[i]) == 0) gdk_im_set_best_style (GDK_IM_PREEDIT_CALLBACKS); } } else if (strcmp ("--xim-status", (*argv)[i]) == 0) { if ((i + 1) < *argc && (*argv)[i + 1]) { (*argv)[i++] = NULL; if (strcmp ("none", (*argv)[i]) == 0) gdk_im_set_best_style (GDK_IM_STATUS_NONE); else if (strcmp ("nothing", (*argv)[i]) == 0) gdk_im_set_best_style (GDK_IM_STATUS_NOTHING); else if (strcmp ("area", (*argv)[i]) == 0) gdk_im_set_best_style (GDK_IM_STATUS_AREA); else if (strcmp ("callbacks", (*argv)[i]) == 0) gdk_im_set_best_style (GDK_IM_STATUS_CALLBACKS); } } #endif i += 1; } for (i = 1; i < *argc; i++) { for (k = i; k < *argc; k++) if ((*argv)[k] != NULL) break; if (k > i) { k -= i; for (j = i + k; j < *argc; j++) (*argv)[j-k] = (*argv)[j]; *argc -= k; } } } else { g_set_prgname (""); } GDK_NOTE (MISC, g_message ("progname: \"%s\"", g_get_prgname ())); gdk_display = XOpenDisplay (gdk_display_name); if (!gdk_display) { g_warning ("cannot open display: %s", XDisplayName (gdk_display_name)); exit(1); } /* This is really crappy. We have to look into the display structure * to find the base resource id. This is only needed for recording * and playback of events. */ /* base_id = RESOURCE_BASE; */ base_id = 0; GDK_NOTE (EVENTS, g_message ("base id: %lu", base_id)); connection_number = ConnectionNumber (gdk_display); GDK_NOTE (MISC, g_message ("connection number: %d", connection_number)); if (synchronize) XSynchronize (gdk_display, True); gdk_screen = DefaultScreen (gdk_display); gdk_root_window = RootWindow (gdk_display, gdk_screen); gdk_leader_window = XCreateSimpleWindow(gdk_display, gdk_root_window, 10, 10, 10, 10, 0, 0 , 0); class_hint = XAllocClassHint(); class_hint->res_name = g_get_prgname (); if (gdk_progclass == NULL) { gdk_progclass = g_strdup (g_get_prgname ()); gdk_progclass[0] = toupper (gdk_progclass[0]); } class_hint->res_class = gdk_progclass; XSetClassHint(gdk_display, gdk_leader_window, class_hint); XSetCommand(gdk_display, gdk_leader_window, argv_orig, argc_orig); XFree (class_hint); for (i = 0; i < argc_orig; i++) g_free(argv_orig[i]); g_free(argv_orig); gdk_wm_delete_window = XInternAtom (gdk_display, "WM_DELETE_WINDOW", True); gdk_wm_take_focus = XInternAtom (gdk_display, "WM_TAKE_FOCUS", True); gdk_wm_protocols = XInternAtom (gdk_display, "WM_PROTOCOLS", True); gdk_wm_window_protocols[0] = gdk_wm_delete_window; gdk_wm_window_protocols[1] = gdk_wm_take_focus; gdk_selection_property = XInternAtom (gdk_display, "GDK_SELECTION", False); XGetKeyboardControl (gdk_display, &keyboard_state); autorepeat = keyboard_state.global_auto_repeat; timer.tv_sec = 0; timer.tv_usec = 0; timerp = NULL; button_click_time[0] = 0; button_click_time[1] = 0; button_window[0] = NULL; button_window[1] = NULL; button_number[0] = -1; button_number[1] = -1; g_atexit (gdk_exit_func); gdk_visual_init (); gdk_window_init (); gdk_image_init (); gdk_input_init (); gdk_dnd_init (); gdk_add_client_message_filter (gdk_wm_protocols, gdk_wm_protocols_filter, NULL); #ifdef USE_XIM gdk_im_open (); #endif gdk_initialized = 1; } /* *-------------------------------------------------------------- * gdk_exit * * Restores the library to an un-itialized state and exits * the program using the "exit" system call. * * Arguments: * "errorcode" is the error value to pass to "exit". * * Results: * Allocated structures are freed and the program exits * cleanly. * * Side effects: * *-------------------------------------------------------------- */ void gdk_exit (int errorcode) { /* de-initialisation is done by the gdk_exit_funct(), no need to do this here (Alex J.) */ exit (errorcode); } /* *-------------------------------------------------------------- * gdk_set_locale * * Arguments: * * Results: * * Side effects: * *-------------------------------------------------------------- */ gchar* gdk_set_locale (void) { if (!setlocale (LC_ALL,"")) g_message ("locale not supported by C library"); if (!XSupportsLocale ()) { g_message ("locale not supported by Xlib, locale set to C"); setlocale (LC_ALL, "C"); } if (!XSetLocaleModifiers ("")) { g_message ("can not set locale modifiers"); } return setlocale (LC_ALL,NULL); } /* *-------------------------------------------------------------- * gdk_events_pending * * Returns the number of events pending on the queue. * These events have already been read from the server * connection. * * Arguments: * * Results: * Returns the number of events on XLib's event queue. * * Side effects: * *-------------------------------------------------------------- */ gint gdk_events_pending (void) { gint result; GList *tmp_list; result = XPending (gdk_display); tmp_list = putback_events; while (tmp_list) { result++; tmp_list = tmp_list->next; } return result; } /* *-------------------------------------------------------------- * gdk_event_get_graphics_expose * * Waits for a GraphicsExpose or NoExpose event * * Arguments: * * Results: * For GraphicsExpose events, returns a pointer to the event * converted into a GdkEvent Otherwise, returns NULL. * * Side effects: * *-------------------------------------------------------------- */ static Bool graphics_expose_predicate (Display *display, XEvent *xevent, XPointer arg) { GdkWindowPrivate *private = (GdkWindowPrivate *)arg; g_return_val_if_fail (private != NULL, False); if ((xevent->xany.window == private->xwindow) && ((xevent->xany.type == GraphicsExpose) || (xevent->xany.type == NoExpose))) return True; else return False; } GdkEvent * gdk_event_get_graphics_expose (GdkWindow *window) { XEvent xevent; GdkEvent *event; g_return_val_if_fail (window != NULL, NULL); XIfEvent (gdk_display, &xevent, graphics_expose_predicate, (XPointer)window); if (xevent.xany.type == GraphicsExpose) { event = gdk_event_new (); if (gdk_event_translate (event, &xevent)) return event; else gdk_event_free (event); } return NULL; } /************************ * Exposure compression * ************************/ /* * The following implements simple exposure compression. It is * modelled after the way Xt does exposure compression - in * particular compress_expose = XtExposeCompressMultiple. * It compress consecutive sequences of exposure events, * but not sequences that cross other events. (This is because * if it crosses a ConfigureNotify, we could screw up and * mistakenly compress the exposures generated for the new * size - could we just check for ConfigureNotify?) * * Xt compresses to a region / bounding rectangle, we compress * to two rectangles, and try find the two rectangles of minimal * area for this - this is supposed to handle the typical * L-shaped regions generated by OpaqueMove. */ /* Given three rectangles, find the two rectangles that cover * them with the smallest area. */ static void gdk_add_rect_to_rects (GdkRectangle *rect1, GdkRectangle *rect2, GdkRectangle *new_rect) { GdkRectangle t1, t2, t3; gint size1, size2, size3; gdk_rectangle_union (rect1, rect2, &t1); gdk_rectangle_union (rect1, new_rect, &t2); gdk_rectangle_union (rect2, new_rect, &t3); size1 = t1.width * t1.height + new_rect->width * new_rect->height; size2 = t2.width * t2.height + rect2->width * rect2->height; size3 = t1.width * t1.height + rect1->width * rect1->height; if (size1 < size2) { if (size1 < size3) { *rect1 = t1; *rect2 = *new_rect; } else *rect2 = t3; } else { if (size2 < size3) *rect1 = t2; else *rect2 = t3; } } typedef struct _GdkExposeInfo GdkExposeInfo; struct _GdkExposeInfo { Window window; gboolean seen_nonmatching; }; Bool expose_predicate (Display *display, XEvent *xevent, XPointer arg) { GdkExposeInfo *info = (GdkExposeInfo *)arg; if (xevent->xany.type != Expose) { info->seen_nonmatching = TRUE; } if (info->seen_nonmatching || (xevent->xany.window != info->window)) return FALSE; else return TRUE; } void gdk_compress_exposures (XEvent *xevent, GdkWindow *window) { gint nrects = 1; gint count = 0; GdkRectangle rect1; GdkRectangle rect2; GdkRectangle tmp_rect; XEvent tmp_event; GdkFilterReturn result; GdkExposeInfo info; GdkEvent event; info.window = xevent->xany.window; info.seen_nonmatching = FALSE; rect1.x = xevent->xexpose.x; rect1.y = xevent->xexpose.y; rect1.width = xevent->xexpose.width; rect1.height = xevent->xexpose.height; while (1) { if (count == 0) { if (!XCheckIfEvent (gdk_display, &tmp_event, expose_predicate, (XPointer)&info)) break; } else XIfEvent (gdk_display, &tmp_event, expose_predicate, (XPointer)&info); /* We apply filters here, and if it was filtered, completely * ignore the return */ result = gdk_event_apply_filters (xevent, &event, window ? ((GdkWindowPrivate *)window)->filters : gdk_default_filters); if (result != GDK_FILTER_CONTINUE) { if (result == GDK_FILTER_TRANSLATE) gdk_event_put (&event); continue; } if (nrects == 1) { rect2.x = tmp_event.xexpose.x; rect2.y = tmp_event.xexpose.y; rect2.width = tmp_event.xexpose.width; rect2.height = tmp_event.xexpose.height; nrects++; } else { tmp_rect.x = tmp_event.xexpose.x; tmp_rect.y = tmp_event.xexpose.y; tmp_rect.width = tmp_event.xexpose.width; tmp_rect.height = tmp_event.xexpose.height; gdk_add_rect_to_rects (&rect1, &rect2, &tmp_rect); } count = tmp_event.xexpose.count; } if (nrects == 2) { gdk_rectangle_union (&rect1, &rect2, &tmp_rect); if ((tmp_rect.width * tmp_rect.height) < 2 * (rect1.height * rect1.width + rect2.height * rect2.width)) { rect1 = tmp_rect; nrects = 1; } } if (nrects == 2) { event.expose.type = GDK_EXPOSE; event.expose.window = window; event.expose.area.x = rect2.x; event.expose.area.y = rect2.y; event.expose.area.width = rect2.width; event.expose.area.height = rect2.height; event.expose.count = 0; gdk_event_put (&event); } xevent->xexpose.count = nrects - 1; xevent->xexpose.x = rect1.x; xevent->xexpose.y = rect1.y; xevent->xexpose.width = rect1.width; xevent->xexpose.height = rect1.height; } /* *-------------------------------------------------------------- * gdk_event_get * * Gets the next event. * * Arguments: * * Results: * If an event was received that we care about, returns * a pointer to that event, to be freed with gdk_event_free. * Otherwise, returns NULL. This function will also return * before an event is received if the timeout interval * runs out. * * Side effects: * *-------------------------------------------------------------- */ GdkEvent * gdk_event_get (void) { GdkEvent *event; GList *temp_list; XEvent xevent; #if 0 if (pred) { temp_list = putback_events; while (temp_list) { temp_event = temp_list->data; if ((* pred) (temp_event, data)) { if (event) *event = *temp_event; putback_events = g_list_remove_link (putback_events, temp_list); g_list_free (temp_list); return TRUE; } temp_list = temp_list->next; } event_pred.func = pred; event_pred.data = data; if (XCheckIfEvent (gdk_display, &xevent, gdk_event_get_type, (XPointer) & event_pred)) if (event) return gdk_event_translate (event, &xevent); } else #endif if (putback_events) { event = putback_events->data; temp_list = putback_events; putback_events = g_list_remove_link (putback_events, temp_list); g_list_free_1 (temp_list); return event; } /* Wait for an event to occur or the timeout to elapse. * If an event occurs "gdk_event_wait" will return TRUE. * If the timeout elapses "gdk_event_wait" will return * FALSE. */ if (gdk_event_wait ()) { /* If we get here we can rest assurred that an event * has occurred. Read it. */ #ifdef USE_XIM Window w = None; XNextEvent (gdk_display, &xevent); if (gdk_xim_window) switch (xevent.type) { case KeyPress: case KeyRelease: case ButtonPress: case ButtonRelease: w = GDK_WINDOW_XWINDOW (gdk_xim_window); break; } if (XFilterEvent (&xevent, w)) return NULL; #else XNextEvent (gdk_display, &xevent); #endif event = gdk_event_new (); event->any.type = GDK_NOTHING; event->any.window = NULL; event->any.send_event = FALSE; event->any.send_event = xevent.xany.send_event; if (gdk_event_translate (event, &xevent)) return event; else gdk_event_free (event); } return NULL; } void gdk_event_put (GdkEvent *event) { GdkEvent *new_event; g_return_if_fail (event != NULL); new_event = gdk_event_copy (event); putback_events = g_list_prepend (putback_events, new_event); } /* *-------------------------------------------------------------- * gdk_event_copy * * Copy a event structure into new storage. * * Arguments: * "event" is the event struct to copy. * * Results: * A new event structure. Free it with gdk_event_free. * * Side effects: * The reference count of the window in the event is increased. * *-------------------------------------------------------------- */ static GMemChunk *event_chunk; static GdkEvent* gdk_event_new (void) { GdkEvent *new_event; if (event_chunk == NULL) event_chunk = g_mem_chunk_new ("events", sizeof (GdkEvent), 4096, G_ALLOC_AND_FREE); new_event = g_chunk_new (GdkEvent, event_chunk); return new_event; } GdkEvent* gdk_event_copy (GdkEvent *event) { GdkEvent *new_event; g_return_val_if_fail (event != NULL, NULL); new_event = gdk_event_new (); *new_event = *event; gdk_window_ref (new_event->any.window); switch (event->any.type) { case GDK_KEY_PRESS: case GDK_KEY_RELEASE: new_event->key.string = g_strdup (event->key.string); break; case GDK_ENTER_NOTIFY: case GDK_LEAVE_NOTIFY: if (event->crossing.subwindow != NULL) gdk_window_ref (event->crossing.subwindow); break; case GDK_DRAG_ENTER: case GDK_DRAG_LEAVE: case GDK_DRAG_MOTION: case GDK_DRAG_STATUS: case GDK_DROP_START: case GDK_DROP_FINISHED: gdk_drag_context_ref (event->dnd.context); break; default: break; } return new_event; } /* *-------------------------------------------------------------- * gdk_event_free * * Free a event structure obtained from gdk_event_copy. Do not use * with other event structures. * * Arguments: * "event" is the event struct to free. * * Results: * * Side effects: * The reference count of the window in the event is decreased and * might be freed, too. * *-------------------------------------------------------------- */ void gdk_event_free (GdkEvent *event) { g_assert (event_chunk != NULL); g_return_if_fail (event != NULL); if (event->any.window) gdk_window_unref (event->any.window); switch (event->any.type) { case GDK_KEY_PRESS: case GDK_KEY_RELEASE: g_free (event->key.string); break; case GDK_ENTER_NOTIFY: case GDK_LEAVE_NOTIFY: if (event->crossing.subwindow != NULL) gdk_window_unref (event->crossing.subwindow); break; case GDK_DRAG_ENTER: case GDK_DRAG_LEAVE: case GDK_DRAG_MOTION: case GDK_DRAG_STATUS: case GDK_DROP_START: case GDK_DROP_FINISHED: gdk_drag_context_unref (event->dnd.context); break; default: break; } g_mem_chunk_free (event_chunk, event); } /* *-------------------------------------------------------------- * gdk_set_show_events * * Turns on/off the showing of events. * * Arguments: * "show_events" is a boolean describing whether or * not to show the events gdk receives. * * Results: * * Side effects: * When "show_events" is TRUE, calls to "gdk_event_get" * will output debugging informatin regarding the event * received to stdout. * *-------------------------------------------------------------- */ /* *-------------------------------------------------------------- * gdk_event_get_time: * Get the timestamp from an event. * arguments: * event: * results: * The event's time stamp, if it has one, otherwise * GDK_CURRENT_TIME. *-------------------------------------------------------------- */ guint32 gdk_event_get_time (GdkEvent *event) { if (event) switch (event->type) { case GDK_MOTION_NOTIFY: return event->motion.time; case GDK_BUTTON_PRESS: case GDK_2BUTTON_PRESS: case GDK_3BUTTON_PRESS: case GDK_BUTTON_RELEASE: return event->button.time; case GDK_KEY_PRESS: case GDK_KEY_RELEASE: return event->key.time; case GDK_ENTER_NOTIFY: case GDK_LEAVE_NOTIFY: return event->crossing.time; case GDK_PROPERTY_NOTIFY: return event->property.time; case GDK_SELECTION_CLEAR: case GDK_SELECTION_REQUEST: case GDK_SELECTION_NOTIFY: return event->selection.time; case GDK_PROXIMITY_IN: case GDK_PROXIMITY_OUT: return event->proximity.time; case GDK_DRAG_ENTER: case GDK_DRAG_LEAVE: case GDK_DRAG_MOTION: case GDK_DRAG_STATUS: case GDK_DROP_START: case GDK_DROP_FINISHED: return event->dnd.time; default: /* use current time */ break; } return GDK_CURRENT_TIME; } void gdk_set_show_events (int show_events) { if (show_events) gdk_debug_flags |= GDK_DEBUG_EVENTS; else gdk_debug_flags &= ~GDK_DEBUG_EVENTS; } void gdk_set_use_xshm (gint use_xshm) { gdk_use_xshm = use_xshm; } gint gdk_get_show_events (void) { return gdk_debug_flags & GDK_DEBUG_EVENTS; } gint gdk_get_use_xshm (void) { return gdk_use_xshm; } /* *-------------------------------------------------------------- * gdk_time_get * * Get the number of milliseconds since the library was * initialized. * * Arguments: * * Results: * The time since the library was initialized is returned. * This time value is accurate to milliseconds even though * a more accurate time down to the microsecond could be * returned. * * Side effects: * *-------------------------------------------------------------- */ guint32 gdk_time_get (void) { struct timeval end; struct timeval elapsed; guint32 milliseconds; X_GETTIMEOFDAY (&end); if (start.tv_usec > end.tv_usec) { end.tv_usec += 1000000; end.tv_sec--; } elapsed.tv_sec = end.tv_sec - start.tv_sec; elapsed.tv_usec = end.tv_usec - start.tv_usec; milliseconds = (elapsed.tv_sec * 1000) + (elapsed.tv_usec / 1000); return milliseconds; } /* *-------------------------------------------------------------- * gdk_timer_get * * Returns the current timer. * * Arguments: * * Results: * Returns the current timer interval. This interval is * in units of milliseconds. * * Side effects: * *-------------------------------------------------------------- */ guint32 gdk_timer_get (void) { return timer_val; } /* *-------------------------------------------------------------- * gdk_timer_set * * Sets the timer interval. * * Arguments: * "milliseconds" is the new value for the timer. * * Results: * * Side effects: * Calls to "gdk_event_get" will last for a maximum * of time of "milliseconds". However, a value of 0 * milliseconds will cause "gdk_event_get" to block * indefinately until an event is received. * *-------------------------------------------------------------- */ void gdk_timer_set (guint32 milliseconds) { timer_val = milliseconds; timer.tv_sec = milliseconds / 1000; timer.tv_usec = (milliseconds % 1000) * 1000; } void gdk_timer_enable (void) { timerp = &timer; } void gdk_timer_disable (void) { timerp = NULL; } gint gdk_input_add_full (gint source, GdkInputCondition condition, GdkInputFunction function, gpointer data, GdkDestroyNotify destroy) { static gint next_tag = 1; GList *list; GdkInput *input; gint tag; tag = 0; list = inputs; while (list) { input = list->data; list = list->next; if ((input->source == source) && (input->condition == condition)) { if (input->destroy) (input->destroy) (input->data); input->function = function; input->data = data; input->destroy = destroy; tag = input->tag; } } if (!tag) { input = g_new (GdkInput, 1); input->tag = next_tag++; input->source = source; input->condition = condition; input->function = function; input->data = data; input->destroy = destroy; tag = input->tag; inputs = g_list_prepend (inputs, input); } return tag; } gint gdk_input_add (gint source, GdkInputCondition condition, GdkInputFunction function, gpointer data) { return gdk_input_add_interp (source, condition, function, data, NULL); } void gdk_input_remove (gint tag) { GList *list; GdkInput *input; list = inputs; while (list) { input = list->data; if (input->tag == tag) { if (input->destroy) (input->destroy) (input->data); input->tag = 0; /* do not free it here */ input->condition = 0; /* it's done in gdk_event_wait */ break; } list = list->next; } } /* *-------------------------------------------------------------- * gdk_pointer_grab * * Grabs the pointer to a specific window * * Arguments: * "window" is the window which will receive the grab * "owner_events" specifies whether events will be reported as is, * or relative to "window" * "event_mask" masks only interesting events * "confine_to" limits the cursor movement to the specified window * "cursor" changes the cursor for the duration of the grab * "time" specifies the time * * Results: * * Side effects: * requires a corresponding call to gdk_pointer_ungrab * *-------------------------------------------------------------- */ gint gdk_pointer_grab (GdkWindow * window, gint owner_events, GdkEventMask event_mask, GdkWindow * confine_to, GdkCursor * cursor, guint32 time) { /* From gdkwindow.c */ extern const int nevent_masks; extern const int event_mask_table[]; gint return_val; GdkWindowPrivate *window_private; GdkWindowPrivate *confine_to_private; GdkCursorPrivate *cursor_private; guint xevent_mask; Window xwindow; Window xconfine_to; Cursor xcursor; int i; g_return_val_if_fail (window != NULL, 0); window_private = (GdkWindowPrivate*) window; confine_to_private = (GdkWindowPrivate*) confine_to; cursor_private = (GdkCursorPrivate*) cursor; xwindow = window_private->xwindow; if (!confine_to || confine_to_private->destroyed) xconfine_to = None; else xconfine_to = confine_to_private->xwindow; if (!cursor) xcursor = None; else xcursor = cursor_private->xcursor; xevent_mask = 0; for (i = 0; i < nevent_masks; i++) { if (event_mask & (1 << (i + 1))) xevent_mask |= event_mask_table[i]; } if (gdk_input_vtable.grab_pointer) return_val = gdk_input_vtable.grab_pointer (window, owner_events, event_mask, confine_to, time); else return_val = Success; if (return_val == Success) { if (!window_private->destroyed) return_val = XGrabPointer (window_private->xdisplay, xwindow, owner_events, xevent_mask, GrabModeAsync, GrabModeAsync, xconfine_to, xcursor, time); else return_val = AlreadyGrabbed; } if (return_val == GrabSuccess) xgrab_window = window_private; return return_val; } /* *-------------------------------------------------------------- * gdk_pointer_ungrab * * Releases any pointer grab * * Arguments: * * Results: * * Side effects: * *-------------------------------------------------------------- */ void gdk_pointer_ungrab (guint32 time) { if (gdk_input_vtable.ungrab_pointer) gdk_input_vtable.ungrab_pointer (time); XUngrabPointer (gdk_display, time); xgrab_window = NULL; } /* *-------------------------------------------------------------- * gdk_pointer_is_grabbed * * Tell wether there is an active x pointer grab in effect * * Arguments: * * Results: * * Side effects: * *-------------------------------------------------------------- */ gint gdk_pointer_is_grabbed (void) { return xgrab_window != NULL; } /* *-------------------------------------------------------------- * gdk_keyboard_grab * * Grabs the keyboard to a specific window * * Arguments: * "window" is the window which will receive the grab * "owner_events" specifies whether events will be reported as is, * or relative to "window" * "time" specifies the time * * Results: * * Side effects: * requires a corresponding call to gdk_keyboard_ungrab * *-------------------------------------------------------------- */ gint gdk_keyboard_grab (GdkWindow * window, gint owner_events, guint32 time) { GdkWindowPrivate *window_private; Window xwindow; g_return_val_if_fail (window != NULL, 0); window_private = (GdkWindowPrivate*) window; xwindow = window_private->xwindow; if (!window_private->destroyed) return XGrabKeyboard (window_private->xdisplay, xwindow, owner_events, GrabModeAsync, GrabModeAsync, time); else return AlreadyGrabbed; } /* *-------------------------------------------------------------- * gdk_keyboard_ungrab * * Releases any keyboard grab * * Arguments: * * Results: * * Side effects: * *-------------------------------------------------------------- */ void gdk_keyboard_ungrab (guint32 time) { XUngrabKeyboard (gdk_display, time); } /* *-------------------------------------------------------------- * gdk_screen_width * * Return the width of the screen. * * Arguments: * * Results: * * Side effects: * *-------------------------------------------------------------- */ gint gdk_screen_width (void) { gint return_val; return_val = DisplayWidth (gdk_display, gdk_screen); return return_val; } /* *-------------------------------------------------------------- * gdk_screen_height * * Return the height of the screen. * * Arguments: * * Results: * * Side effects: * *-------------------------------------------------------------- */ gint gdk_screen_height (void) { gint return_val; return_val = DisplayHeight (gdk_display, gdk_screen); return return_val; } /* *-------------------------------------------------------------- * gdk_screen_width_mm * * Return the width of the screen in millimeters. * * Arguments: * * Results: * * Side effects: * *-------------------------------------------------------------- */ gint gdk_screen_width_mm (void) { gint return_val; return_val = DisplayWidthMM (gdk_display, gdk_screen); return return_val; } /* *-------------------------------------------------------------- * gdk_screen_height * * Return the height of the screen in millimeters. * * Arguments: * * Results: * * Side effects: * *-------------------------------------------------------------- */ gint gdk_screen_height_mm (void) { gint return_val; return_val = DisplayHeightMM (gdk_display, gdk_screen); return return_val; } void gdk_key_repeat_disable (void) { XAutoRepeatOff (gdk_display); } void gdk_key_repeat_restore (void) { if (autorepeat) XAutoRepeatOn (gdk_display); else XAutoRepeatOff (gdk_display); } /* *-------------------------------------------------------------- * gdk_flush * * Flushes the Xlib output buffer and then waits * until all requests have been received and processed * by the X server. The only real use for this function * is in dealing with XShm. * * Arguments: * * Results: * * Side effects: * *-------------------------------------------------------------- */ void gdk_flush (void) { XSync (gdk_display, False); } void gdk_beep (void) { XBell(gdk_display, 100); } /* *-------------------------------------------------------------- * gdk_event_wait * * Waits until an event occurs or the timer runs out. * * Arguments: * * Results: * Returns TRUE if an event is ready to be read and FALSE * if the timer ran out. * * Side effects: * *-------------------------------------------------------------- */ static gint gdk_event_wait (void) { GList *list; GList *temp_list; GdkInput *input; GdkInputCondition condition; SELECT_MASK readfds; SELECT_MASK writefds; SELECT_MASK exceptfds; int max_input; int nfd; /* If there are no events pending we will wait for an event. * The time we wait is dependant on the "timer". If no timer * has been specified then we'll block until an event arrives. * If a timer has been specified we'll block until an event * arrives or the timer expires. (This is all done using the * "select" system call). */ if (XPending (gdk_display) == 0) { FD_ZERO (&readfds); FD_ZERO (&writefds); FD_ZERO (&exceptfds); FD_SET (connection_number, &readfds); max_input = connection_number; list = inputs; while (list) { input = list->data; if (input->tag) { if (input->condition & GDK_INPUT_READ) FD_SET (input->source, &readfds); if (input->condition & GDK_INPUT_WRITE) FD_SET (input->source, &writefds); if (input->condition & GDK_INPUT_EXCEPTION) FD_SET (input->source, &exceptfds); max_input = MAX (max_input, input->source); list = list->next; } else /* free removed inputs */ { temp_list = list; if (list->next) list->next->prev = list->prev; if (list->prev) list->prev->next = list->next; if (inputs == list) inputs = list->next; list = list->next; temp_list->next = NULL; temp_list->prev = NULL; g_free (temp_list->data); g_list_free (temp_list); } } #ifdef USE_PTHREADS if (gdk_using_threads) { gdk_select_waiting = TRUE; FD_SET (gdk_threads_pipe[0], &readfds); max_input = MAX (max_input, gdk_threads_pipe[0]); gdk_threads_leave (); } #endif nfd = select (max_input+1, &readfds, &writefds, &exceptfds, timerp); #ifdef USE_PTHREADS if (gdk_using_threads) { gchar c; gdk_threads_enter (); gdk_select_waiting = FALSE; if (FD_ISSET (gdk_threads_pipe[0], &readfds)) read (gdk_threads_pipe[0], &c, 1); } #endif timerp = NULL; timer_val = 0; if (nfd > 0) { if (FD_ISSET (connection_number, &readfds)) { if (XPending (gdk_display) == 0) { if (nfd == 1) { XNoOp (gdk_display); XFlush (gdk_display); } return FALSE; } else return TRUE; } list = inputs; while (list) { input = list->data; list = list->next; condition = 0; if (FD_ISSET (input->source, &readfds)) condition |= GDK_INPUT_READ; if (FD_ISSET (input->source, &writefds)) condition |= GDK_INPUT_WRITE; if (FD_ISSET (input->source, &exceptfds)) condition |= GDK_INPUT_EXCEPTION; if (condition && input->function) (* input->function) (input->data, input->source, condition); } } } else return TRUE; return FALSE; } static gint gdk_event_apply_filters (XEvent *xevent, GdkEvent *event, GList *filters) { GdkEventFilter *filter; GList *tmp_list; GdkFilterReturn result; tmp_list = filters; while (tmp_list) { filter = (GdkEventFilter *)tmp_list->data; result = (*filter->function)(xevent, event, filter->data); if (result != GDK_FILTER_CONTINUE) return result; tmp_list = tmp_list->next; } return GDK_FILTER_CONTINUE; } void gdk_add_client_message_filter (GdkAtom message_type, GdkFilterFunc func, gpointer data) { GdkClientFilter *filter = g_new (GdkClientFilter, 1); filter->type = message_type; filter->function = func; filter->data = data; client_filters = g_list_prepend (client_filters, filter); } static gint gdk_event_translate (GdkEvent *event, XEvent *xevent) { GdkWindow *window; GdkWindowPrivate *window_private; static XComposeStatus compose; KeySym keysym; int charcount; #ifdef USE_XIM static gchar* buf = NULL; static gint buf_len= 0; #else char buf[16]; #endif gint return_val; return_val = FALSE; /* Find the GdkWindow that this event occurred in. * * We handle events with window=None * specially - they are generated by XFree86's XInput under * some circumstances. */ if ((xevent->xany.window == None) && gdk_input_vtable.window_none_event) { return_val = gdk_input_vtable.window_none_event (event,xevent); if (return_val >= 0) /* was handled */ return return_val; else return_val = FALSE; } window = gdk_window_lookup (xevent->xany.window); window_private = (GdkWindowPrivate *) window; if (window != NULL) gdk_window_ref (window); event->any.window = window; event->any.send_event = xevent->xany.send_event; if (window_private && window_private->destroyed) { if (xevent->type != DestroyNotify) return FALSE; } else { /* Check for filters for this window */ GdkFilterReturn result; #ifdef USE_XIM if (window == NULL && xevent->type == KeyPress && gdk_xim_window && !((GdkWindowPrivate *) gdk_xim_window)->destroyed) { /* * If user presses a key in Preedit or Status window, keypress event * is sometimes sent to these windows. These windows are not managed * by GDK, so we redirect KeyPress event to gdk_xim_window. * * If someone want to use the window whitch is not managed by GDK * and want to get KeyPress event, he/she must register the filter * function to gdk_default_filters to intercept the event. */ window = gdk_xim_window; window_private = (GdkWindowPrivate *) window; gdk_window_ref (window); event->any.window = window; GDK_NOTE (XIM, g_message ("KeyPress event is redirected to gdk_xim_window: %#lx", xevent->xany.window)); } #endif /* USE_XIM */ result = gdk_event_apply_filters (xevent, event, window_private ?window_private->filters :gdk_default_filters); if (result != GDK_FILTER_CONTINUE) return (result == GDK_FILTER_TRANSLATE) ? TRUE : FALSE; } if (window == NULL) g_message ("Got event for unknown window: %#lx\n", xevent->xany.window); /* We do a "manual" conversion of the XEvent to a * GdkEvent. The structures are mostly the same so * the conversion is fairly straightforward. We also * optionally print debugging info regarding events * received. */ return_val = TRUE; switch (xevent->type) { case KeyPress: /* Lookup the string corresponding to the given keysym. */ #ifdef USE_XIM if (buf_len == 0) { buf_len = 128; buf = g_new (gchar, buf_len); } keysym = GDK_VoidSymbol; if (gdk_xim_ic && gdk_xim_ic->xic) { Status status; /* Clear keyval. Depending on status, may not be set */ charcount = XmbLookupString(gdk_xim_ic->xic, &xevent->xkey, buf, buf_len-1, &keysym, &status); if (status == XBufferOverflow) { /* retry */ /* alloc adequate size of buffer */ GDK_NOTE (XIM, g_message("XIM: overflow (required %i)", charcount)); while (buf_len <= charcount) buf_len *= 2; buf = (gchar *) g_realloc (buf, buf_len); charcount = XmbLookupString (gdk_xim_ic->xic, &xevent->xkey, buf, buf_len-1, &keysym, &status); } if (status == XLookupNone) { return_val = FALSE; break; } } else charcount = XLookupString (&xevent->xkey, buf, buf_len, &keysym, &compose); #else charcount = XLookupString (&xevent->xkey, buf, 16, &keysym, &compose); #endif event->key.keyval = keysym; if (charcount > 0 && buf[charcount-1] == '\0') charcount --; else buf[charcount] = '\0'; /* Print debugging info. */ #ifdef G_ENABLE_DEBUG if (gdk_debug_flags & GDK_DEBUG_EVENTS) { g_message ("key press:\twindow: %ld key: %12s %d", xevent->xkey.window - base_id, event->key.keyval ? XKeysymToString (event->key.keyval) : "(none)", event->key.keyval); if (charcount > 0) g_message ("\t\tlength: %4d string: \"%s\"", charcount, buf); } #endif /* G_ENABLE_DEBUG */ event->key.type = GDK_KEY_PRESS; event->key.window = window; event->key.time = xevent->xkey.time; event->key.state = (GdkModifierType) xevent->xkey.state; event->key.string = g_strdup (buf); event->key.length = charcount; break; case KeyRelease: /* Lookup the string corresponding to the given keysym. */ #ifdef USE_XIM if (buf_len == 0) { buf_len = 128; buf = g_new (gchar, buf_len); } #endif keysym = GDK_VoidSymbol; charcount = XLookupString (&xevent->xkey, buf, 16, &keysym, &compose); event->key.keyval = keysym; /* Print debugging info. */ GDK_NOTE (EVENTS, g_message ("key release:\t\twindow: %ld key: %12s %d", xevent->xkey.window - base_id, XKeysymToString (event->key.keyval), event->key.keyval)); event->key.type = GDK_KEY_RELEASE; event->key.window = window; event->key.time = xevent->xkey.time; event->key.state = (GdkModifierType) xevent->xkey.state; event->key.length = 0; event->key.string = NULL; break; case ButtonPress: /* Print debugging info. */ GDK_NOTE (EVENTS, g_message ("button press:\t\twindow: %ld x,y: %d %d button: %d", xevent->xbutton.window - base_id, xevent->xbutton.x, xevent->xbutton.y, xevent->xbutton.button)); if (window_private && (window_private->extension_events != 0) && gdk_input_ignore_core) { return_val = FALSE; break; } event->button.type = GDK_BUTTON_PRESS; event->button.window = window; event->button.time = xevent->xbutton.time; event->button.x = xevent->xbutton.x; event->button.y = xevent->xbutton.y; event->button.x_root = (gfloat)xevent->xbutton.x_root; event->button.y_root = (gfloat)xevent->xbutton.y_root; event->button.pressure = 0.5; event->button.xtilt = 0; event->button.ytilt = 0; event->button.state = (GdkModifierType) xevent->xbutton.state; event->button.button = xevent->xbutton.button; event->button.source = GDK_SOURCE_MOUSE; event->button.deviceid = GDK_CORE_POINTER; if ((event->button.time < (button_click_time[1] + TRIPLE_CLICK_TIME)) && (event->button.window == button_window[1]) && (event->button.button == button_number[1])) { gdk_synthesize_click (event, 3); button_click_time[1] = 0; button_click_time[0] = 0; button_window[1] = NULL; button_window[0] = 0; button_number[1] = -1; button_number[0] = -1; } else if ((event->button.time < (button_click_time[0] + DOUBLE_CLICK_TIME)) && (event->button.window == button_window[0]) && (event->button.button == button_number[0])) { gdk_synthesize_click (event, 2); button_click_time[1] = button_click_time[0]; button_click_time[0] = event->button.time; button_window[1] = button_window[0]; button_window[0] = event->button.window; button_number[1] = button_number[0]; button_number[0] = event->button.button; } else { button_click_time[1] = 0; button_click_time[0] = event->button.time; button_window[1] = NULL; button_window[0] = event->button.window; button_number[1] = -1; button_number[0] = event->button.button; } break; case ButtonRelease: /* Print debugging info. */ GDK_NOTE (EVENTS, g_message ("button release:\twindow: %ld x,y: %d %d button: %d", xevent->xbutton.window - base_id, xevent->xbutton.x, xevent->xbutton.y, xevent->xbutton.button)); if (window_private && (window_private->extension_events != 0) && gdk_input_ignore_core) { return_val = FALSE; break; } event->button.type = GDK_BUTTON_RELEASE; event->button.window = window; event->button.time = xevent->xbutton.time; event->button.x = xevent->xbutton.x; event->button.y = xevent->xbutton.y; event->button.x_root = (gfloat)xevent->xbutton.x_root; event->button.y_root = (gfloat)xevent->xbutton.y_root; event->button.pressure = 0.5; event->button.xtilt = 0; event->button.ytilt = 0; event->button.state = (GdkModifierType) xevent->xbutton.state; event->button.button = xevent->xbutton.button; event->button.source = GDK_SOURCE_MOUSE; event->button.deviceid = GDK_CORE_POINTER; break; case MotionNotify: /* Print debugging info. */ GDK_NOTE (EVENTS, g_message ("motion notify:\t\twindow: %ld x,y: %d %d hint: %s", xevent->xmotion.window - base_id, xevent->xmotion.x, xevent->xmotion.y, (xevent->xmotion.is_hint) ? "true" : "false")); if (window_private && (window_private->extension_events != 0) && gdk_input_ignore_core) { return_val = FALSE; break; } event->motion.type = GDK_MOTION_NOTIFY; event->motion.window = window; event->motion.time = xevent->xmotion.time; event->motion.x = xevent->xmotion.x; event->motion.y = xevent->xmotion.y; event->motion.x_root = (gfloat)xevent->xmotion.x_root; event->motion.y_root = (gfloat)xevent->xmotion.y_root; event->motion.pressure = 0.5; event->motion.xtilt = 0; event->motion.ytilt = 0; event->motion.state = (GdkModifierType) xevent->xmotion.state; event->motion.is_hint = xevent->xmotion.is_hint; event->motion.source = GDK_SOURCE_MOUSE; event->motion.deviceid = GDK_CORE_POINTER; break; case EnterNotify: /* Print debugging info. */ GDK_NOTE (EVENTS, g_message ("enter notify:\t\twindow: %ld detail: %d subwin: %ld", xevent->xcrossing.window - base_id, xevent->xcrossing.detail, xevent->xcrossing.subwindow - base_id)); /* Tell XInput stuff about it if appropriate */ if (window_private && !window_private->destroyed && (window_private->extension_events != 0) && gdk_input_vtable.enter_event) gdk_input_vtable.enter_event (&xevent->xcrossing, window); event->crossing.type = GDK_ENTER_NOTIFY; event->crossing.window = window; /* If the subwindow field of the XEvent is non-NULL, then * lookup the corresponding GdkWindow. */ if (xevent->xcrossing.subwindow != None) event->crossing.subwindow = gdk_window_lookup (xevent->xcrossing.subwindow); else event->crossing.subwindow = NULL; event->crossing.time = xevent->xcrossing.time; event->crossing.x = xevent->xcrossing.x; event->crossing.y = xevent->xcrossing.y; event->crossing.x_root = xevent->xcrossing.x_root; event->crossing.y_root = xevent->xcrossing.y_root; /* Translate the crossing mode into Gdk terms. */ switch (xevent->xcrossing.mode) { case NotifyNormal: event->crossing.mode = GDK_CROSSING_NORMAL; break; case NotifyGrab: event->crossing.mode = GDK_CROSSING_GRAB; break; case NotifyUngrab: event->crossing.mode = GDK_CROSSING_UNGRAB; break; }; /* Translate the crossing detail into Gdk terms. */ switch (xevent->xcrossing.detail) { case NotifyInferior: event->crossing.detail = GDK_NOTIFY_INFERIOR; break; case NotifyAncestor: event->crossing.detail = GDK_NOTIFY_ANCESTOR; break; case NotifyVirtual: event->crossing.detail = GDK_NOTIFY_VIRTUAL; break; case NotifyNonlinear: event->crossing.detail = GDK_NOTIFY_NONLINEAR; break; case NotifyNonlinearVirtual: event->crossing.detail = GDK_NOTIFY_NONLINEAR_VIRTUAL; break; default: event->crossing.detail = GDK_NOTIFY_UNKNOWN; break; } event->crossing.focus = xevent->xcrossing.focus; event->crossing.state = xevent->xcrossing.state; break; case LeaveNotify: /* Print debugging info. */ GDK_NOTE (EVENTS, g_message ("leave notify:\t\twindow: %ld detail: %d subwin: %ld", xevent->xcrossing.window - base_id, xevent->xcrossing.detail, xevent->xcrossing.subwindow - base_id)); event->crossing.type = GDK_LEAVE_NOTIFY; event->crossing.window = window; /* If the subwindow field of the XEvent is non-NULL, then * lookup the corresponding GdkWindow. */ if (xevent->xcrossing.subwindow != None) event->crossing.subwindow = gdk_window_lookup (xevent->xcrossing.subwindow); else event->crossing.subwindow = NULL; event->crossing.time = xevent->xcrossing.time; event->crossing.x = xevent->xcrossing.x; event->crossing.y = xevent->xcrossing.y; event->crossing.x_root = xevent->xcrossing.x_root; event->crossing.y_root = xevent->xcrossing.y_root; /* Translate the crossing mode into Gdk terms. */ switch (xevent->xcrossing.mode) { case NotifyNormal: event->crossing.mode = GDK_CROSSING_NORMAL; break; case NotifyGrab: event->crossing.mode = GDK_CROSSING_GRAB; break; case NotifyUngrab: event->crossing.mode = GDK_CROSSING_UNGRAB; break; }; /* Translate the crossing detail into Gdk terms. */ switch (xevent->xcrossing.detail) { case NotifyInferior: event->crossing.detail = GDK_NOTIFY_INFERIOR; break; case NotifyAncestor: event->crossing.detail = GDK_NOTIFY_ANCESTOR; break; case NotifyVirtual: event->crossing.detail = GDK_NOTIFY_VIRTUAL; break; case NotifyNonlinear: event->crossing.detail = GDK_NOTIFY_NONLINEAR; break; case NotifyNonlinearVirtual: event->crossing.detail = GDK_NOTIFY_NONLINEAR_VIRTUAL; break; default: event->crossing.detail = GDK_NOTIFY_UNKNOWN; break; } event->crossing.focus = xevent->xcrossing.focus; event->crossing.state = xevent->xcrossing.state; break; case FocusIn: case FocusOut: /* We only care about focus events that indicate that _this_ * window (not a ancestor or child) got or lost the focus */ switch (xevent->xfocus.detail) { case NotifyAncestor: case NotifyInferior: case NotifyNonlinear: /* Print debugging info. */ GDK_NOTE (EVENTS, g_message ("focus %s:\t\twindow: %ld", (xevent->xany.type == FocusIn) ? "in" : "out", xevent->xfocus.window - base_id)); /* gdk_keyboard_grab() causes following events. These events confuse * the XIM focus, so ignore them. */ if (xevent->xfocus.mode == NotifyGrab || xevent->xfocus.mode == NotifyUngrab) break; event->focus_change.type = GDK_FOCUS_CHANGE; event->focus_change.window = window; event->focus_change.in = (xevent->xany.type == FocusIn); break; default: return_val = FALSE; } break; case KeymapNotify: /* Print debugging info. */ GDK_NOTE (EVENTS, g_message ("keymap notify")); /* Not currently handled */ return_val = FALSE; break; case Expose: /* Print debugging info. */ GDK_NOTE (EVENTS, g_message ("expose:\t\twindow: %ld %d x,y: %d %d w,h: %d %d", xevent->xexpose.window - base_id, xevent->xexpose.count, xevent->xexpose.x, xevent->xexpose.y, xevent->xexpose.width, xevent->xexpose.height)); gdk_compress_exposures (xevent, window); event->expose.type = GDK_EXPOSE; event->expose.window = window; event->expose.area.x = xevent->xexpose.x; event->expose.area.y = xevent->xexpose.y; event->expose.area.width = xevent->xexpose.width; event->expose.area.height = xevent->xexpose.height; event->expose.count = xevent->xexpose.count; break; case GraphicsExpose: /* Print debugging info. */ GDK_NOTE (EVENTS, g_message ("graphics expose:\tdrawable: %ld", xevent->xgraphicsexpose.drawable - base_id)); event->expose.type = GDK_EXPOSE; event->expose.window = window; event->expose.area.x = xevent->xgraphicsexpose.x; event->expose.area.y = xevent->xgraphicsexpose.y; event->expose.area.width = xevent->xgraphicsexpose.width; event->expose.area.height = xevent->xgraphicsexpose.height; event->expose.count = xevent->xexpose.count; break; case NoExpose: /* Print debugging info. */ GDK_NOTE (EVENTS, g_message ("no expose:\t\tdrawable: %ld", xevent->xnoexpose.drawable - base_id)); event->no_expose.type = GDK_NO_EXPOSE; event->no_expose.window = window; break; case VisibilityNotify: /* Print debugging info. */ #ifdef G_ENABLE_DEBUG if (gdk_debug_flags & GDK_DEBUG_EVENTS) switch (xevent->xvisibility.state) { case VisibilityFullyObscured: g_message ("visibility notify:\twindow: %ld none", xevent->xvisibility.window - base_id); break; case VisibilityPartiallyObscured: g_message ("visibility notify:\twindow: %ld partial", xevent->xvisibility.window - base_id); break; case VisibilityUnobscured: g_message ("visibility notify:\twindow: %ld full", xevent->xvisibility.window - base_id); break; } #endif /* G_ENABLE_DEBUG */ event->visibility.type = GDK_VISIBILITY_NOTIFY; event->visibility.window = window; switch (xevent->xvisibility.state) { case VisibilityFullyObscured: event->visibility.state = GDK_VISIBILITY_FULLY_OBSCURED; break; case VisibilityPartiallyObscured: event->visibility.state = GDK_VISIBILITY_PARTIAL; break; case VisibilityUnobscured: event->visibility.state = GDK_VISIBILITY_UNOBSCURED; break; } break; case CreateNotify: /* Not currently handled */ break; case DestroyNotify: /* Print debugging info. */ GDK_NOTE (EVENTS, g_message ("destroy notify:\twindow: %ld", xevent->xdestroywindow.window - base_id)); event->any.type = GDK_DESTROY; event->any.window = window; return_val = window_private && !window_private->destroyed; if(window && window_private->xwindow != GDK_ROOT_WINDOW()) gdk_window_destroy_notify (window); break; case UnmapNotify: /* Print debugging info. */ GDK_NOTE (EVENTS, g_message ("unmap notify:\t\twindow: %ld", xevent->xmap.window - base_id)); event->any.type = GDK_UNMAP; event->any.window = window; if (xgrab_window == window_private) xgrab_window = NULL; break; case MapNotify: /* Print debugging info. */ GDK_NOTE (EVENTS, g_message ("map notify:\t\twindow: %ld", xevent->xmap.window - base_id)); event->any.type = GDK_MAP; event->any.window = window; break; case ReparentNotify: /* Print debugging info. */ GDK_NOTE (EVENTS, g_message ("reparent notify:\twindow: %ld", xevent->xreparent.window - base_id)); /* Not currently handled */ return_val = FALSE; break; case ConfigureNotify: /* Print debugging info. */ while ((XPending (gdk_display) > 0) && XCheckTypedWindowEvent(gdk_display, xevent->xany.window, ConfigureNotify, xevent)) { GdkFilterReturn result; GDK_NOTE (EVENTS, g_message ("configure notify discarded:\twindow: %ld", xevent->xconfigure.window - base_id)); result = gdk_event_apply_filters (xevent, event, window_private ?window_private->filters :gdk_default_filters); /* If the result is GDK_FILTER_REMOVE, there will be * trouble, but anybody who filtering the Configure events * better know what they are doing */ if (result != GDK_FILTER_CONTINUE) { return (result == GDK_FILTER_TRANSLATE) ? TRUE : FALSE; } /*XSync (gdk_display, 0);*/ } GDK_NOTE (EVENTS, g_message ("configure notify:\twindow: %ld x,y: %d %d w,h: %d %d b-w: %d above: %ld ovr: %d", xevent->xconfigure.window - base_id, xevent->xconfigure.x, xevent->xconfigure.y, xevent->xconfigure.width, xevent->xconfigure.height, xevent->xconfigure.border_width, xevent->xconfigure.above - base_id, xevent->xconfigure.override_redirect)); if (!window_private->destroyed && (window_private->extension_events != 0) && gdk_input_vtable.configure_event) gdk_input_vtable.configure_event (&xevent->xconfigure, window); if (window_private->window_type == GDK_WINDOW_CHILD) return_val = FALSE; else { event->configure.type = GDK_CONFIGURE; event->configure.window = window; event->configure.width = xevent->xconfigure.width; event->configure.height = xevent->xconfigure.height; if (!xevent->xconfigure.x && !xevent->xconfigure.y && !window_private->destroyed) { gint tx = 0; gint ty = 0; Window child_window = 0; if (!XTranslateCoordinates (window_private->xdisplay, window_private->xwindow, gdk_root_window, 0, 0, &tx, &ty, &child_window)) g_warning ("GdkWindow %ld doesn't share root windows display?", window_private->xwindow - base_id); event->configure.x = tx; event->configure.y = ty; } else { event->configure.x = xevent->xconfigure.x; event->configure.y = xevent->xconfigure.y; } window_private->x = event->configure.x; window_private->y = event->configure.y; window_private->width = xevent->xconfigure.width; window_private->height = xevent->xconfigure.height; if (window_private->resize_count > 1) window_private->resize_count -= 1; } break; case PropertyNotify: /* Print debugging info. */ GDK_NOTE (EVENTS, g_message ("property notify:\twindow: %ld", xevent->xproperty.window - base_id)); event->property.type = GDK_PROPERTY_NOTIFY; event->property.window = window; event->property.atom = xevent->xproperty.atom; event->property.time = xevent->xproperty.time; event->property.state = xevent->xproperty.state; break; case SelectionClear: GDK_NOTE (EVENTS, g_message ("selection clear:\twindow: %ld", xevent->xproperty.window - base_id)); event->selection.type = GDK_SELECTION_CLEAR; event->selection.window = window; event->selection.selection = xevent->xselectionclear.selection; event->selection.time = xevent->xselectionclear.time; break; case SelectionRequest: GDK_NOTE (EVENTS, g_message ("selection request:\twindow: %ld", xevent->xproperty.window - base_id)); event->selection.type = GDK_SELECTION_REQUEST; event->selection.window = window; event->selection.selection = xevent->xselectionrequest.selection; event->selection.target = xevent->xselectionrequest.target; event->selection.property = xevent->xselectionrequest.property; event->selection.requestor = xevent->xselectionrequest.requestor; event->selection.time = xevent->xselectionrequest.time; break; case SelectionNotify: GDK_NOTE (EVENTS, g_message ("selection notify:\twindow: %ld", xevent->xproperty.window - base_id)); event->selection.type = GDK_SELECTION_NOTIFY; event->selection.window = window; event->selection.selection = xevent->xselection.selection; event->selection.target = xevent->xselection.target; event->selection.property = xevent->xselection.property; event->selection.time = xevent->xselection.time; break; case ColormapNotify: /* Print debugging info. */ GDK_NOTE (EVENTS, g_message ("colormap notify:\twindow: %ld", xevent->xcolormap.window - base_id)); /* Not currently handled */ return_val = FALSE; break; case ClientMessage: { GList *tmp_list; GdkFilterReturn result = GDK_FILTER_CONTINUE; /* Print debugging info. */ GDK_NOTE (EVENTS, g_message ("client message:\twindow: %ld", xevent->xclient.window - base_id)); tmp_list = client_filters; while (tmp_list) { GdkClientFilter *filter = tmp_list->data; if (filter->type == xevent->xclient.message_type) { result = (*filter->function) (xevent, event, filter->data); break; } tmp_list = tmp_list->next; } switch (result) { case GDK_FILTER_REMOVE: return_val = FALSE; break; case GDK_FILTER_TRANSLATE: return_val = TRUE; break; case GDK_FILTER_CONTINUE: /* Send unknown ClientMessage's on to Gtk for it to use */ event->client.type = GDK_CLIENT_EVENT; event->client.window = window; event->client.message_type = xevent->xclient.message_type; event->client.data_format = xevent->xclient.format; memcpy(&event->client.data, &xevent->xclient.data, sizeof(event->client.data)); } } break; case MappingNotify: /* Print debugging info. */ GDK_NOTE (EVENTS, g_message ("mapping notify")); /* Let XLib know that there is a new keyboard mapping. */ XRefreshKeyboardMapping (&xevent->xmapping); return_val = FALSE; break; default: /* something else - (e.g., a Xinput event) */ if (window_private && !window_private->destroyed && (window_private->extension_events != 0) && gdk_input_vtable.other_event) return_val = gdk_input_vtable.other_event(event, xevent, window); else return_val = FALSE; break; } if (return_val) { if (event->any.window) gdk_window_ref (event->any.window); if (((event->any.type == GDK_ENTER_NOTIFY) || (event->any.type == GDK_LEAVE_NOTIFY)) && (event->crossing.subwindow != NULL)) gdk_window_ref (event->crossing.subwindow); } else { /* Mark this event as having no resources to be freed */ event->any.window = NULL; event->any.type = GDK_NOTHING; } if (window) gdk_window_unref (window); return return_val; } GdkFilterReturn gdk_wm_protocols_filter (GdkXEvent *xev, GdkEvent *event, gpointer data) { XEvent *xevent = (XEvent *)xev; if ((Atom) xevent->xclient.data.l[0] == gdk_wm_delete_window) { /* The delete window request specifies a window * to delete. We don't actually destroy the * window because "it is only a request". (The * window might contain vital data that the * program does not want destroyed). Instead * the event is passed along to the program, * which should then destroy the window. */ GDK_NOTE (EVENTS, g_message ("delete window:\t\twindow: %ld", xevent->xclient.window - base_id)); event->any.type = GDK_DELETE; return GDK_FILTER_TRANSLATE; } else if ((Atom) xevent->xclient.data.l[0] == gdk_wm_take_focus) { } return GDK_FILTER_REMOVE; } #if 0 static Bool gdk_event_get_type (Display *display, XEvent *xevent, XPointer arg) { GdkEvent event; GdkPredicate *pred; if (gdk_event_translate (&event, xevent)) { pred = (GdkPredicate*) arg; return (* pred->func) (&event, pred->data); } return FALSE; } #endif static void gdk_synthesize_click (GdkEvent *event, gint nclicks) { GdkEvent temp_event; g_return_if_fail (event != NULL); temp_event = *event; temp_event.type = (nclicks == 2) ? GDK_2BUTTON_PRESS : GDK_3BUTTON_PRESS; gdk_event_put (&temp_event); } /* *-------------------------------------------------------------- * gdk_exit_func * * This is the "atexit" function that makes sure the * library gets a chance to cleanup. * * Arguments: * * Results: * * Side effects: * The library is un-initialized and the program exits. * *-------------------------------------------------------------- */ static void gdk_exit_func (void) { static gboolean in_gdk_exit_func = FALSE; /* This is to avoid an infinite loop if a program segfaults in an atexit() handler (and yes, it does happen, especially if a program has trounced over memory too badly for even g_message to work) */ if (in_gdk_exit_func == TRUE) return; in_gdk_exit_func = TRUE; if (gdk_initialized) { #ifdef USE_XIM /* cleanup IC */ gdk_ic_cleanup (); /* close IM */ gdk_im_close (); #endif gdk_image_exit (); gdk_input_exit (); gdk_key_repeat_restore (); XCloseDisplay (gdk_display); gdk_initialized = 0; } } /* *-------------------------------------------------------------- * gdk_x_error * * The X error handling routine. * * Arguments: * "display" is the X display the error orignated from. * "error" is the XErrorEvent that we are handling. * * Results: * Either we were expecting some sort of error to occur, * in which case we set the "gdk_error_code" flag, or this * error was unexpected, in which case we will print an * error message and exit. (Since trying to continue will * most likely simply lead to more errors). * * Side effects: * *-------------------------------------------------------------- */ static int gdk_x_error (Display *display, XErrorEvent *error) { char buf[64]; if (gdk_error_warnings) { XGetErrorText (display, error->error_code, buf, 63); g_error ("%s\n serial %ld error_code %d request_code %d minor_code %d\n", buf, error->serial, error->error_code, error->request_code, error->minor_code); } gdk_error_code = -1; return 0; } /* *-------------------------------------------------------------- * gdk_x_io_error * * The X I/O error handling routine. * * Arguments: * "display" is the X display the error orignated from. * * Results: * An X I/O error basically means we lost our connection * to the X server. There is not much we can do to * continue, so simply print an error message and exit. * * Side effects: * *-------------------------------------------------------------- */ static int gdk_x_io_error (Display *display) { g_error ("an x io error occurred"); return 0; } /* *-------------------------------------------------------------- * gdk_signal * * The signal handler. * * Arguments: * "sig_num" is the number of the signal we received. * * Results: * The signals we catch are all fatal. So we simply build * up a nice little error message and print it and exit. * If in the process of doing so another signal is received * we notice that we are already exiting and simply kill * our process. * * Side effects: * *-------------------------------------------------------------- */ static RETSIGTYPE gdk_signal (int sig_num) { static int caught_fatal_sig = 0; char *sig; if (caught_fatal_sig) kill (getpid (), sig_num); caught_fatal_sig = 1; switch (sig_num) { case SIGHUP: sig = "sighup"; break; case SIGINT: sig = "sigint"; break; case SIGQUIT: sig = "sigquit"; break; case SIGBUS: sig = "sigbus"; break; case SIGSEGV: sig = "sigsegv"; break; case SIGPIPE: sig = "sigpipe"; break; case SIGTERM: sig = "sigterm"; break; default: sig = "unknown signal"; break; } g_message ("\n** ERROR **: %s caught", sig); #ifdef G_ENABLE_DEBUG abort (); #else /* !G_ENABLE_DEBUG */ gdk_exit (1); #endif /* !G_ENABLE_DEBUG */ } /* Sends a ClientMessage to all toplevel client windows */ gboolean gdk_event_send_client_message (GdkEvent *event, guint32 xid) { XEvent sev; g_return_val_if_fail(event != NULL, FALSE); /* Set up our event to send, with the exception of its target window */ sev.xclient.type = ClientMessage; sev.xclient.display = gdk_display; sev.xclient.format = event->client.data_format; sev.xclient.window = xid; memcpy(&sev.xclient.data, &event->client.data, sizeof(sev.xclient.data)); sev.xclient.message_type = event->client.message_type; return gdk_send_xevent (xid, False, NoEventMask, &sev); } /* Sends a ClientMessage to all toplevel client windows */ gboolean gdk_event_send_client_message_to_all_recurse (XEvent *xev, guint32 xid, guint level) { static GdkAtom wm_state_atom = GDK_NONE; Atom type = None; int format; unsigned long nitems, after; unsigned char *data; Window *ret_children, ret_root, ret_parent; unsigned int ret_nchildren; int i; gboolean send = FALSE; gboolean found = FALSE; if (!wm_state_atom) wm_state_atom = gdk_atom_intern ("WM_STATE", FALSE); gdk_error_code = 0; XGetWindowProperty (gdk_display, xid, wm_state_atom, 0, 0, False, AnyPropertyType, &type, &format, &nitems, &after, &data); if (gdk_error_code) { gdk_error_code = 0; return FALSE; } if (type) { send = TRUE; XFree (data); } else { /* OK, we're all set, now let's find some windows to send this to */ if (XQueryTree(gdk_display, xid, &ret_root, &ret_parent, &ret_children, &ret_nchildren) != True) return FALSE; if (gdk_error_code) return FALSE; for(i = 0; i < ret_nchildren; i++) if (gdk_event_send_client_message_to_all_recurse(xev, ret_children[i], level + 1)) found = TRUE; XFree(ret_children); } if (send || (!found && (level == 1))) { xev->xclient.window = xid; gdk_send_xevent (xid, False, NoEventMask, xev); } return (send || found); } void gdk_event_send_clientmessage_toall (GdkEvent *event) { XEvent sev; gint old_warnings = gdk_error_warnings; g_return_if_fail(event != NULL); /* Set up our event to send, with the exception of its target window */ sev.xclient.type = ClientMessage; sev.xclient.display = gdk_display; sev.xclient.format = event->client.data_format; memcpy(&sev.xclient.data, &event->client.data, sizeof(sev.xclient.data)); sev.xclient.message_type = event->client.message_type; gdk_event_send_client_message_to_all_recurse(&sev, gdk_root_window, 0); gdk_error_warnings = old_warnings; } gchar * gdk_get_display(void) { return (gchar *)XDisplayName (gdk_display_name); } gint gdk_send_xevent (Window window, gboolean propagate, glong event_mask, XEvent *event_send) { Status result; gint old_warnings = gdk_error_warnings; gdk_error_code = 0; gdk_error_warnings = 0; result = XSendEvent (gdk_display, window, propagate, event_mask, event_send); XSync (gdk_display, False); gdk_error_warnings = old_warnings; return result && (gdk_error_code != -1); } #ifndef HAVE_XCONVERTCASE /* compatibility function from X11R6.3, since XConvertCase is not * supplied by X11R5. */ static void gdkx_XConvertCase (KeySym symbol, KeySym *lower, KeySym *upper) { register KeySym sym = symbol; g_return_if_fail (lower != NULL); g_return_if_fail (upper != NULL); *lower = sym; *upper = sym; switch (sym >> 8) { #if defined (GDK_A) && defined (GDK_Ooblique) case 0: /* Latin 1 */ if ((sym >= GDK_A) && (sym <= GDK_Z)) *lower += (GDK_a - GDK_A); else if ((sym >= GDK_a) && (sym <= GDK_z)) *upper -= (GDK_a - GDK_A); else if ((sym >= GDK_Agrave) && (sym <= GDK_Odiaeresis)) *lower += (GDK_agrave - GDK_Agrave); else if ((sym >= GDK_agrave) && (sym <= GDK_odiaeresis)) *upper -= (GDK_agrave - GDK_Agrave); else if ((sym >= GDK_Ooblique) && (sym <= GDK_Thorn)) *lower += (GDK_oslash - GDK_Ooblique); else if ((sym >= GDK_oslash) && (sym <= GDK_thorn)) *upper -= (GDK_oslash - GDK_Ooblique); break; #endif /* LATIN1 */ #if defined (GDK_Aogonek) && defined (GDK_tcedilla) case 1: /* Latin 2 */ /* Assume the KeySym is a legal value (ignore discontinuities) */ if (sym == GDK_Aogonek) *lower = GDK_aogonek; else if (sym >= GDK_Lstroke && sym <= GDK_Sacute) *lower += (GDK_lstroke - GDK_Lstroke); else if (sym >= GDK_Scaron && sym <= GDK_Zacute) *lower += (GDK_scaron - GDK_Scaron); else if (sym >= GDK_Zcaron && sym <= GDK_Zabovedot) *lower += (GDK_zcaron - GDK_Zcaron); else if (sym == GDK_aogonek) *upper = GDK_Aogonek; else if (sym >= GDK_lstroke && sym <= GDK_sacute) *upper -= (GDK_lstroke - GDK_Lstroke); else if (sym >= GDK_scaron && sym <= GDK_zacute) *upper -= (GDK_scaron - GDK_Scaron); else if (sym >= GDK_zcaron && sym <= GDK_zabovedot) *upper -= (GDK_zcaron - GDK_Zcaron); else if (sym >= GDK_Racute && sym <= GDK_Tcedilla) *lower += (GDK_racute - GDK_Racute); else if (sym >= GDK_racute && sym <= GDK_tcedilla) *upper -= (GDK_racute - GDK_Racute); break; #endif /* LATIN2 */ #if defined (GDK_Hstroke) && defined (GDK_Cabovedot) case 2: /* Latin 3 */ /* Assume the KeySym is a legal value (ignore discontinuities) */ if (sym >= GDK_Hstroke && sym <= GDK_Hcircumflex) *lower += (GDK_hstroke - GDK_Hstroke); else if (sym >= GDK_Gbreve && sym <= GDK_Jcircumflex) *lower += (GDK_gbreve - GDK_Gbreve); else if (sym >= GDK_hstroke && sym <= GDK_hcircumflex) *upper -= (GDK_hstroke - GDK_Hstroke); else if (sym >= GDK_gbreve && sym <= GDK_jcircumflex) *upper -= (GDK_gbreve - GDK_Gbreve); else if (sym >= GDK_Cabovedot && sym <= GDK_Scircumflex) *lower += (GDK_cabovedot - GDK_Cabovedot); else if (sym >= GDK_cabovedot && sym <= GDK_scircumflex) *upper -= (GDK_cabovedot - GDK_Cabovedot); break; #endif /* LATIN3 */ #if defined (GDK_Rcedilla) && defined (GDK_Amacron) case 3: /* Latin 4 */ /* Assume the KeySym is a legal value (ignore discontinuities) */ if (sym >= GDK_Rcedilla && sym <= GDK_Tslash) *lower += (GDK_rcedilla - GDK_Rcedilla); else if (sym >= GDK_rcedilla && sym <= GDK_tslash) *upper -= (GDK_rcedilla - GDK_Rcedilla); else if (sym == GDK_ENG) *lower = GDK_eng; else if (sym == GDK_eng) *upper = GDK_ENG; else if (sym >= GDK_Amacron && sym <= GDK_Umacron) *lower += (GDK_amacron - GDK_Amacron); else if (sym >= GDK_amacron && sym <= GDK_umacron) *upper -= (GDK_amacron - GDK_Amacron); break; #endif /* LATIN4 */ #if defined (GDK_Serbian_DJE) && defined (GDK_Cyrillic_yu) case 6: /* Cyrillic */ /* Assume the KeySym is a legal value (ignore discontinuities) */ if (sym >= GDK_Serbian_DJE && sym <= GDK_Serbian_DZE) *lower -= (GDK_Serbian_DJE - GDK_Serbian_dje); else if (sym >= GDK_Serbian_dje && sym <= GDK_Serbian_dze) *upper += (GDK_Serbian_DJE - GDK_Serbian_dje); else if (sym >= GDK_Cyrillic_YU && sym <= GDK_Cyrillic_HARDSIGN) *lower -= (GDK_Cyrillic_YU - GDK_Cyrillic_yu); else if (sym >= GDK_Cyrillic_yu && sym <= GDK_Cyrillic_hardsign) *upper += (GDK_Cyrillic_YU - GDK_Cyrillic_yu); break; #endif /* CYRILLIC */ #if defined (GDK_Greek_ALPHAaccent) && defined (GDK_Greek_finalsmallsigma) case 7: /* Greek */ /* Assume the KeySym is a legal value (ignore discontinuities) */ if (sym >= GDK_Greek_ALPHAaccent && sym <= GDK_Greek_OMEGAaccent) *lower += (GDK_Greek_alphaaccent - GDK_Greek_ALPHAaccent); else if (sym >= GDK_Greek_alphaaccent && sym <= GDK_Greek_omegaaccent && sym != GDK_Greek_iotaaccentdieresis && sym != GDK_Greek_upsilonaccentdieresis) *upper -= (GDK_Greek_alphaaccent - GDK_Greek_ALPHAaccent); else if (sym >= GDK_Greek_ALPHA && sym <= GDK_Greek_OMEGA) *lower += (GDK_Greek_alpha - GDK_Greek_ALPHA); else if (sym >= GDK_Greek_alpha && sym <= GDK_Greek_omega && sym != GDK_Greek_finalsmallsigma) *upper -= (GDK_Greek_alpha - GDK_Greek_ALPHA); break; #endif /* GREEK */ } } #endif gchar* gdk_keyval_name (guint keyval) { return XKeysymToString (keyval); } guint gdk_keyval_from_name (const gchar *keyval_name) { g_return_val_if_fail (keyval_name != NULL, 0); return XStringToKeysym (keyval_name); } guint gdk_keyval_to_upper (guint keyval) { if (keyval) { KeySym lower_val = 0; KeySym upper_val = 0; XConvertCase (keyval, &lower_val, &upper_val); return upper_val; } return 0; } guint gdk_keyval_to_lower (guint keyval) { if (keyval) { KeySym lower_val = 0; KeySym upper_val = 0; XConvertCase (keyval, &lower_val, &upper_val); return lower_val; } return 0; } gboolean gdk_keyval_is_upper (guint keyval) { if (keyval) { KeySym lower_val = 0; KeySym upper_val = 0; XConvertCase (keyval, &lower_val, &upper_val); return upper_val == keyval; } return TRUE; } gboolean gdk_keyval_is_lower (guint keyval) { if (keyval) { KeySym lower_val = 0; KeySym upper_val = 0; XConvertCase (keyval, &lower_val, &upper_val); return lower_val == keyval; } return TRUE; }