bsnes/hiro/gtk/application.cpp

166 lines
5.7 KiB
C++
Executable File

#if defined(Hiro_Application)
namespace hiro {
auto Log_Ignore(const char* logDomain, GLogLevelFlags logLevel, const char* message, void* userData) -> void {
}
auto pApplication::modal() -> bool {
return Application::state().modal > 0;
}
auto pApplication::run() -> void {
while(!Application::state().quit) {
Application::doMain();
processEvents();
//avoid spinlooping the thread when there is no main loop ...
//when there is one, Application::onMain() is expected to sleep when possible instead
if(!Application::state().onMain) usleep(2000);
}
}
auto pApplication::pendingEvents() -> bool {
return gtk_events_pending();
}
auto pApplication::processEvents() -> void {
//GTK can sometimes return gtk_pending_events() == true forever,
//no matter how many times gtk_main_iteration_do() is called.
//implement a timeout to prevent hiro from hanging forever in this case.
auto time = chrono::millisecond();
while(pendingEvents() && chrono::millisecond() - time < 50) {
gtk_main_iteration_do(false);
}
for(auto& window : state().windows) window->_synchronizeGeometry();
}
auto pApplication::quit() -> void {
//if gtk_main() was invoked, call gtk_main_quit()
if(gtk_main_level()) gtk_main_quit();
#if defined(DISPLAY_XORG)
if(state().display) {
if(state().screenSaverXDG && state().screenSaverWindow) {
//this needs to run synchronously, so that XUnmapWindow() won't happen before xdg-screensaver is finished
execute("xdg-screensaver", "resume", string{"0x", hex(state().screenSaverWindow)});
XUnmapWindow(state().display, state().screenSaverWindow);
state().screenSaverWindow = 0;
}
XCloseDisplay(state().display);
state().display = nullptr;
}
#endif
}
auto pApplication::setScreenSaver(bool screenSaver) -> void {
#if defined(DISPLAY_XORG)
if(state().screenSaverXDG && state().screenSaverWindow) {
invoke("xdg-screensaver", screenSaver ? "resume" : "suspend", string{"0x", hex(state().screenSaverWindow)});
}
#endif
}
auto pApplication::state() -> State& {
static State state;
return state;
}
auto pApplication::initialize() -> void {
#if defined(DISPLAY_XORG)
state().display = XOpenDisplay(nullptr);
state().screenSaverXDG = (bool)execute("xdg-screensaver", "--version").output.find("xdg-screensaver");
if(state().screenSaverXDG) {
auto screen = DefaultScreen(state().display);
auto rootWindow = RootWindow(state().display, screen);
XSetWindowAttributes attributes{};
attributes.background_pixel = BlackPixel(state().display, screen);
attributes.border_pixel = 0;
attributes.override_redirect = true;
state().screenSaverWindow = XCreateWindow(state().display, rootWindow,
0, 0, 1, 1, 0, DefaultDepth(state().display, screen),
InputOutput, DefaultVisual(state().display, screen),
CWBackPixel | CWBorderPixel | CWOverrideRedirect, &attributes
);
//note: hopefully xdg-screensaver does not require the window to be mapped ...
//if it does, we're in trouble: a small 1x1 black pixel window will be visible in said case
XMapWindow(state().display, state().screenSaverWindow);
XFlush(state().display);
}
#endif
//prevent useless terminal messages:
//GVFS-RemoteVolumeMonitor: "invoking List() failed for type GProxyVolumeMonitorHal: method not implemented"
g_log_set_handler("GVFS-RemoteVolumeMonitor", G_LOG_LEVEL_MASK, Log_Ignore, nullptr);
//set WM_CLASS to Application::name()
auto name = Application::state().name ? Application::state().name : string{"hiro"};
gdk_set_program_class(name);
#if defined(BUILD_DEBUG)
//force a trap on Gtk-CRITICAL and Gtk-WARNING messages
//this allows gdb to perform a backtrace to find an error's origin point
int argc = 3;
char* argv[] = {name.get(), new char[7], new char[19], nullptr};
strcpy(argv[1], "--sync");
strcpy(argv[2], "--g-fatal-warnings");
g_log_set_always_fatal(GLogLevelFlags(G_LOG_LEVEL_ERROR | G_LOG_LEVEL_CRITICAL | G_LOG_LEVEL_WARNING));
#else
int argc = 1;
char* argv[] = {name.get(), nullptr};
#endif
char** argvp = argv;
gtk_init(&argc, &argvp);
GtkSettings* gtkSettings = gtk_settings_get_default();
//allow buttons to show icons
g_type_class_unref(g_type_class_ref(GTK_TYPE_BUTTON));
g_object_set(gtkSettings, "gtk-button-images", true, nullptr);
#if defined(DISPLAY_WINDOWS)
//there is a serious bug in GTK 2.24 for Windows with the "ime" (Windows IME) input method:
//by default, it will be impossible to type in text fields at all.
//there are various tricks to get around this; but they are unintuitive and unreliable.
//the "ime" method is chosen when various international system locales (eg Japanese) are selected.
//here, we override the default input method to use the "Simple" type instead to avoid the bug.
//obviously, this has a drawback: in-place editing for IMEs will not work in this mode.
g_object_set(gtkSettings, "gtk-im-module", "gtk-im-context-simple", nullptr);
#endif
#if HIRO_GTK==2
gtk_rc_parse_string(R"(
style "HiroWindow"
{
GtkWindow::resize-grip-width = 0
GtkWindow::resize-grip-height = 0
}
class "GtkWindow" style "HiroWindow"
style "HiroTreeView"
{
GtkTreeView::vertical-separator = 0
}
class "GtkTreeView" style "HiroTreeView"
style "HiroTabFrameCloseButton"
{
GtkWidget::focus-line-width = 0
GtkWidget::focus-padding = 0
GtkButton::default-border = {0, 0, 0, 0}
GtkButton::default-outer-border = {0, 0, 0, 0}
GtkButton::inner-border = {0, 1, 0, 0}
}
widget_class "*.<GtkNotebook>.<GtkHBox>.<GtkButton>" style "HiroTabFrameCloseButton"
)");
#elif HIRO_GTK==3
//TODO: is there any alternative here with GTK3?
#endif
pKeyboard::initialize();
}
}
#endif