static void *doAtSpiScreenOpen(void *arg) {
AccessibleEventListener *evListener;
sem_t *SPI_init_sem = (sem_t *)arg;
int res;
static const char *events[] = {
"object:text-changed",
"object:text-caret-moved",
"object:state-changed:focused",
"focus:",
};
const char **event;
if ((res=SPI_init())) {
logMessage(LOG_ERR,"SPI_init returned %d",res);
return 0;
}
if (!(evListener = SPI_createAccessibleEventListener(evListenerCB,NULL)))
logMessage(LOG_ERR,"SPI_createAccessibleEventListener failed");
else for (event=events; event<&events[sizeof(events)/sizeof(*events)]; event++)
if (!(SPI_registerGlobalEventListener(evListener,*event)))
logMessage(LOG_ERR,"SPI_registerGlobalEventListener(%s) failed",*event);
sem_post(SPI_init_sem);
SPI_event_main();
if (!(SPI_deregisterGlobalEventListenerAll(evListener)))
logMessage(LOG_ERR,"SPI_deregisterGlobalEventListenerAll failed");
AccessibleEventListener_unref(evListener);
if (curFocus)
finiTerm();
if ((res=SPI_exit()))
logMessage(LOG_ERR,"SPI_exit returned %d",res);
return NULL;
}
int
main (int argc, char **argv)
{
AccessibleKeySet switch_set;
if ((argc > 1) && (!strncmp (argv[1], "-h", 2)))
{
printf ("Usage: keysynth-demo\n");
exit (1);
}
gtk_init (&argc, &argv); /* must call, because this program uses GTK+ */
SPI_init ();
key_listener = SPI_createAccessibleKeystrokeListener (is_command_key, NULL);
/* will listen only to Alt-key combinations */
SPI_registerAccessibleKeystrokeListener (key_listener,
(AccessibleKeySet *) SPI_KEYSET_ALL_KEYS,
SPI_KEYMASK_ALT | SPI_KEYMASK_CONTROL,
(unsigned long) ( KeyPress | KeyRelease),
SPI_KEYLISTENER_CANCONSUME | SPI_KEYLISTENER_ALL_WINDOWS);
create_vkbd ();
/*
* Register a listener on an 'unused' key, to serve as a 'single switch'.
* On most Intel boxes there is at least one 'special' system key that does not
* have a non-zero keycode assigned in the Xserver, so we will intercept any keycode
* that is 'zero'. Often these the are the "windows" or the "menu" keys.
*/
switch_set.keysyms = g_new0 (unsigned long, 1);
switch_set.keycodes = g_new0 (unsigned short, 1);
switch_set.keystrings = g_new0 (char *, 1);
switch_set.len = 1;
switch_set.keysyms[0] = (unsigned long) 0;
switch_set.keycodes[0] = (unsigned short) 0;
switch_set.keystrings[0] = "";
switch_listener = SPI_createAccessibleKeystrokeListener (switch_callback, NULL);
SPI_registerAccessibleKeystrokeListener (switch_listener,
&switch_set,
SPI_KEYMASK_UNMODIFIED,
(unsigned long) ( SPI_KEY_PRESSED | SPI_KEY_RELEASED ),
SPI_KEYLISTENER_NOSYNC);
SPI_event_main ();
return SPI_exit ();
}
int Server::run(int argc, char* argv[])
{
int ret;
if ((ret = SPI_init())) return ret;
shutdownOnInterrupt();
Ice::ObjectAdapterPtr adapter = communicator()->
createObjectAdapterWithEndpoints("Guitar", "default -p 10000");
guitarlib::ApplicationI *app = new guitarlib::ApplicationI(adapter);
adapter->add(app, communicator()->stringToIdentity("Application"));
adapter->activate();
communicator()->waitForShutdown();
ret = SPI_exit();
return ret;
}
int
main (int argc, char **argv)
{
int leaked, i;
TestWindow *win;
const char *modules;
AccessibleEventListener *global_listener;
modules = g_getenv ("GTK_MODULES");
if (!modules || modules [0] == '\0')
putenv ("GTK_MODULES=gail:atk-bridge");
modules = NULL;
for (i = 1; i < argc; i++) {
if (!g_strcasecmp (argv [i], "--poke"))
do_poke = TRUE;
}
gtk_init (&argc, &argv);
g_assert (!SPI_init ());
g_assert (SPI_init ());
g_assert (SPI_getDesktopCount () == 1);
test_roles ();
test_misc ();
test_desktop ();
test_keylisteners ();
win = create_test_window ();
global_listener = SPI_createAccessibleEventListener (global_listener_cb, win);
g_assert (SPI_registerGlobalEventListener (global_listener, "focus:"));
fprintf (stderr, "Waiting for focus event ...\n");
gtk_main ();
g_assert (SPI_deregisterGlobalEventListenerAll (global_listener));
AccessibleEventListener_unref (global_listener);
test_window_destroy (win);
/* Wait for any pending events from the registry */
g_usleep (500*1000);
for (i = 0; i < 100; i++)
dbus_connection_read_write_dispatch (SPI_bus(), 5);
if ((leaked = SPI_exit ()))
g_error ("Leaked %d SPI handles", leaked);
g_assert (!SPI_exit ());
fprintf (stderr, "All tests passed\n");
if (g_getenv ("_MEMPROF_SOCKET")) {
fprintf (stderr, "Waiting for memprof\n");
gtk_main ();
}
putenv ("AT_BRIDGE_SHUTDOWN=1");
return 0;
}
void windows_deinit_subsystem ()
{
SPI_exit();
}
int
main (int argc, char **argv)
{
const char *tab_strings[1] = {"Tab"};
short keycodes[] = {65, 64, 23};
SPIBoolean retval = FALSE;
SPI_init ();
/* prepare the keyboard snoopers */
command_key_listener = SPI_createAccessibleKeystrokeListener (report_command_key_event, NULL);
ordinary_key_listener = SPI_createAccessibleKeystrokeListener (report_ordinary_key_event, NULL);
synchronous_key_listener = SPI_createAccessibleKeystrokeListener (report_synchronous_key_event, NULL);
tab_key_listener = SPI_createAccessibleKeystrokeListener (report_tab_key_event, NULL);
all_key_listener = SPI_createAccessibleKeystrokeListener (report_all_key_event, NULL);
command_keyset = SPI_createAccessibleKeySet (1, "q", NULL, NULL);
async_keyset = SPI_createAccessibleKeySet (3, NULL, keycodes, NULL);
sync_keyset = SPI_createAccessibleKeySet (3, "def", NULL, NULL);
tab_keyset = SPI_createAccessibleKeySet (1, NULL, NULL, tab_strings);
retval = SPI_registerAccessibleKeystrokeListener(command_key_listener,
command_keyset,
SPI_KEYMASK_ALT | SPI_KEYMASK_CONTROL,
(unsigned long) ( SPI_KEY_PRESSED ),
SPI_KEYLISTENER_ALL_WINDOWS);
fprintf (stderr, "Command key registry: result %s\n", retval ? "succeeded" :
"failed");
retval = SPI_registerAccessibleKeystrokeListener(ordinary_key_listener,
async_keyset,
SPI_KEYMASK_UNMODIFIED,
(unsigned long) ( SPI_KEY_PRESSED | SPI_KEY_RELEASED ),
SPI_KEYLISTENER_NOSYNC);
retval = SPI_registerAccessibleKeystrokeListener(synchronous_key_listener,
sync_keyset,
SPI_KEYMASK_UNMODIFIED,
(unsigned long) ( SPI_KEY_PRESSED | SPI_KEY_RELEASED ),
SPI_KEYLISTENER_CANCONSUME);
retval = SPI_registerAccessibleKeystrokeListener(tab_key_listener,
tab_keyset,
SPI_KEYMASK_ALT,
(unsigned long) ( SPI_KEY_PRESSED | SPI_KEY_RELEASED ),
SPI_KEYLISTENER_ALL_WINDOWS);
fprintf (stderr, "tab listener registry: %s\n", retval ? "succeeded" : "failed");
retval = SPI_registerAccessibleKeystrokeListener(all_key_listener,
SPI_KEYSET_ALL_KEYS,
SPI_KEYMASK_CONTROL | SPI_KEYMASK_SHIFT,
(unsigned long) ( SPI_KEY_PRESSED | SPI_KEY_RELEASED ),
SPI_KEYLISTENER_ALL_WINDOWS);
fprintf (stderr, "all key registry: %s\n", retval ? "succeeded" : "failed" );
SPI_registerAccessibleKeystrokeListener(all_key_listener,
SPI_KEYSET_ALL_KEYS,
SPI_KEYMASK_SHIFT,
(unsigned long) ( SPI_KEY_PRESSED ),
SPI_KEYLISTENER_NOSYNC | SPI_KEYLISTENER_CANCONSUME);
SPI_event_main ();
putenv ("AT_BRIDGE_SHUTDOWN=1");
return SPI_exit ();
}
int
main (int argc, char **argv)
{
pid_t pid;
gboolean delay_click = FALSE;
gboolean dwell_click = FALSE;
gdouble delay_time = -1.;
gdouble dwell_time = -1.;
gboolean shutdown = FALSE;
gboolean ctw = FALSE;
gboolean animate = FALSE;
gchar *mode = NULL;
gint pos_x = -1;
gint pos_y = -1;
gint threshold = -1;
GOptionContext *context;
GOptionEntry entries[] = {
{"enable-dwell", 0, 0, G_OPTION_ARG_NONE, &dwell_click,
N_("Enable dwell click"), 0},
{"enable-secondary", 0, 0, G_OPTION_ARG_NONE, &delay_click,
N_("Enable simulated secondary click"), 0},
{"dwell-time", 0, 0, G_OPTION_ARG_DOUBLE, &dwell_time,
N_("Time to wait before a dwell click"), "[0.2-3.0]"},
{"secondary-time", 0, 0, G_OPTION_ARG_DOUBLE, &delay_time,
N_("Time to wait before a simulated secondary click"), "[0.5-3.0]"},
{"dwell-mode", 'm', 0, G_OPTION_ARG_STRING, &mode,
N_("Dwell mode to use"), "[window|gesture]"},
{"show-ctw", 'c', 0, G_OPTION_ARG_NONE, &ctw,
N_("Show click type window"), 0},
{"ctw-x", 'x', 0, G_OPTION_ARG_INT, &pos_x,
N_("Window x position"), 0},
{"ctw-y", 'y', 0, G_OPTION_ARG_INT, &pos_y,
N_("Window y position"), 0},
{"threshold", 't', 0, G_OPTION_ARG_INT, &threshold,
N_("Ignore small pointer movements"), "[0-30]"},
{"animate-cursor", 'a', 0, G_OPTION_ARG_NONE, &animate,
N_("Show elapsed time as cursor overlay"), 0},
{"shutdown", 's', 0, G_OPTION_ARG_NONE, &shutdown,
N_("Shut down mousetweaks"), 0},
{ NULL }
};
bindtextdomain (GETTEXT_PACKAGE, LOCALEDIR);
bind_textdomain_codeset (GETTEXT_PACKAGE, "UTF-8");
textdomain (GETTEXT_PACKAGE);
setlocale (LC_ALL, "");
context = g_option_context_new (_("- GNOME mousetweaks daemon"));
g_option_context_add_main_entries (context, entries, GETTEXT_PACKAGE);
g_option_context_parse (context, &argc, &argv, NULL);
g_option_context_free (context);
if (shutdown) {
int ret;
if ((ret = mt_pidfile_kill_wait (SIGINT, 5)) < 0)
g_print ("Shutdown failed or nothing to shut down.\n");
else
g_print ("Shutdown successful.\n");
return ret < 0 ? 1 : 0;
}
if ((pid = mt_pidfile_is_running ()) >= 0) {
g_print ("Daemon is already running. (PID %u)\n", pid);
return 1;
}
g_print ("Starting daemon.\n");
if ((pid = fork ()) < 0) {
g_error ("fork() failed.");
return 1;
}
else if (pid) {
/* Parent return */
return 0;
}
else {
/* Child process */
MTClosure *mt;
MtCursorManager *manager;
MtListener *listener;
gint spi_status;
gint spi_leaks = 0;
if (mt_pidfile_create () < 0)
return 1;
signal (SIGINT, signal_handler);
signal (SIGTERM, signal_handler);
signal (SIGQUIT, signal_handler);
signal (SIGHUP, signal_handler);
gtk_init (&argc, &argv);
g_set_application_name ("Mousetweaks");
mt = mt_closure_init ();
if (!mt)
goto FINISH;
spi_status = SPI_init ();
if (!accessibility_enabled (mt, spi_status)) {
mt_closure_free (mt);
goto FINISH;
}
/* command-line options */
if (dwell_click)
gconf_client_set_bool (mt->client, OPT_DWELL, TRUE, NULL);
if (delay_click)
gconf_client_set_bool (mt->client, OPT_DELAY, TRUE, NULL);
if (delay_time >= .5 && delay_time <= 3.)
gconf_client_set_float (mt->client, OPT_DELAY_T, delay_time, NULL);
if (dwell_time >= .2 && dwell_time <= 3.)
gconf_client_set_float (mt->client, OPT_DWELL_T, dwell_time, NULL);
if (threshold >= 0 && threshold <= 30)
gconf_client_set_int (mt->client, OPT_THRESHOLD, threshold, NULL);
if (ctw)
gconf_client_set_bool (mt->client, OPT_CTW, TRUE, NULL);
if (animate)
gconf_client_set_bool (mt->client, OPT_ANIMATE, TRUE, NULL);
if (mode) {
if (g_str_equal (mode, "gesture"))
gconf_client_set_int (mt->client, OPT_MODE,
DWELL_MODE_GESTURE, NULL);
else if (g_str_equal (mode, "window"))
gconf_client_set_int (mt->client, OPT_MODE,
DWELL_MODE_CTW, NULL);
g_free (mode);
}
get_gconf_options (mt);
if (!mt_ctw_init (mt, pos_x, pos_y))
goto CLEANUP;
/* init cursor animation */
manager = mt_cursor_manager_get_default ();
g_signal_connect (manager, "cursor_changed",
G_CALLBACK (cursor_changed), mt);
g_signal_connect (manager, "cache_cleared",
G_CALLBACK (cursor_cache_cleared), mt);
mt->cursor = mt_cursor_manager_current_cursor (manager);
/* init at-spi signals */
listener = mt_listener_get_default ();
g_signal_connect (listener, "motion_event",
G_CALLBACK (global_motion_event), mt);
g_signal_connect (listener, "button_event",
G_CALLBACK (global_button_event), mt);
g_signal_connect (listener, "focus_changed",
G_CALLBACK (global_focus_event), mt);
gtk_main ();
mt_cursor_manager_restore_all (manager);
g_object_unref (manager);
g_object_unref (listener);
CLEANUP:
spi_leaks = SPI_exit ();
mt_closure_free (mt);
FINISH:
mt_pidfile_remove ();
if (spi_leaks)
g_warning ("AT-SPI reported %i leak%s.",
spi_leaks, spi_leaks != 1 ? "s" : "");
}
return 0;
}
static void closedown( Driver* dp ) {
Accessible_unref( dp->frame );
int leaks = SPI_exit();
report_if_error( "There were %d SPI memory leaks.", leaks );
}
int main(int argc, char** argv) {
SPI_init();
SPI_exit();
return 0;
}
