Ejemplo n.º 1
0
func testType(rl *ReadLine, inputs ...string) {
	for _, input := range inputs {
		mod := uint(0)
		if len(input) > 2 && input[:2] == "C-" {
			mod |= keys.ModControl
			input = input[2:]
		}
		for _, k := range input {
			rl.Key(keys.Key{keys.Sym(k), mod})
		}
	}
}
Ejemplo n.º 2
0
Archivo: gtk.go Proyecto: evmar/smash
//export smashGoKey
func smashGoKey(winKey unsafe.Pointer, gkey *C.GdkEventKey) {
	win := globalPointerStore.Get(winKey).(*Window)

	switch gkey.keyval {
	case C.GDK_KEY_Shift_L, C.GDK_KEY_Shift_R,
		C.GDK_KEY_Control_L, C.GDK_KEY_Control_R,
		C.GDK_KEY_Alt_L, C.GDK_KEY_Alt_R,
		C.GDK_KEY_Meta_L, C.GDK_KEY_Meta_R,
		C.GDK_KEY_Super_L, C.GDK_KEY_Super_R:
		return
	}

	rune := C.gdk_keyval_to_unicode(gkey.keyval)
	key := keys.Key{}
	key.Sym = keys.Sym(rune)
	if gkey.state&C.GDK_CONTROL_MASK != 0 {
		key.Mods |= keys.ModControl
	}
	if gkey.state&C.GDK_MOD1_MASK != 0 {
		key.Mods |= keys.ModMeta
	}
	win.delegate.Key(key)
}
Ejemplo n.º 3
0
Archivo: xlib.go Proyecto: evmar/smash
// processXEvents does one read from the X fd, then processes all pending
// events.
func (dpy *Display) processXEvents(win *Window) {
	var event C.XEvent
	events := C.XEventsQueued(dpy.dpy, C.QueuedAfterReading)
	for i := 0; i < int(events); i++ {
		C.XNextEvent(dpy.dpy, &event)
		e := &event
		typ := xEventType(*(*C.int)(unsafe.Pointer(e)))
		// log.Printf("typ %s", typ.String())
		switch typ {
		case C.ConfigureNotify:
			e := (*C.XConfigureEvent)(unsafe.Pointer(e))
			win.resize(int(e.width), int(e.height))
		case C.Expose:
			e := (*C.XExposeEvent)(unsafe.Pointer(e))
			win.repaint(int(e.x), int(e.y), int(e.width), int(e.height))
		case C.KeyPress:
			e := (*C.XKeyEvent)(unsafe.Pointer(e))

			key := keys.Key{}
			if e.state&C.ControlMask != 0 {
				key.Mods |= keys.ModControl
			}
			if e.state&C.Mod1Mask != 0 {
				key.Mods |= keys.ModMeta
			}

			var buf [8]byte
			var keysym C.KeySym
			C.XLookupString(e, (*C.char)(unsafe.Pointer(&buf)), 8, &keysym, nil)
			nulpos := bytes.Index(buf[:], []byte{0})
			if nulpos > 0 {
				if nulpos > 1 {
					log.Printf("xlib: overlong key %q", buf[:nulpos])
				}
				key.Sym = keys.Sym(buf[0])
				if key.Mods&keys.ModControl != 0 {
					// Undo Ctl-A => "ASCII control character" mapping.
					key.Sym += 'a' - 1
				}
			} else {
				// See /usr/include/X11/keysymdef.h
				switch keysym {
				case C.XK_Left:
					key.Sym = keys.Left
				case C.XK_Right:
					key.Sym = keys.Right
				case C.XK_Up:
					key.Sym = keys.Up
				case C.XK_Down:
					key.Sym = keys.Down
				case C.XK_Shift_L, C.XK_Shift_R:
				case C.XK_Control_L, C.XK_Control_R:
				case C.XK_Meta_L, C.XK_Meta_R:
				case C.XK_Alt_L, C.XK_Alt_R:
				case C.XK_Super_L, C.XK_Super_R:
				case C.XK_Hyper_L, C.XK_Hyper_R:
				case C.XK_Caps_Lock:
					// ignore for now
				default:
					log.Printf("xlib: unhandled keysym %#v: %#v", keysym, e)
				}
			}
			win.delegate.Key(key)
		case C.KeyRelease:
			// ignore
		case C.ButtonPress:
			e := (*C.XButtonEvent)(unsafe.Pointer(e))
			switch e.button {
			case 4, 5:
				dy := -1
				if e.button == 5 {
					dy = 1
				}
				win.delegate.Scroll(dy)
			case 6, 7:
				// TODO horizontal scroll.
			default:
				log.Printf("unhandled button %#v", e)
			}
		case C.MapNotify:
			win.delegate.Mapped()
		case C.ReparentNotify:
			// ignore
		default:
			if typ > C.GenericEvent {
				// Cairo triggers shm events, which show up as extension
				// events with greater ids than C.GenericEvent.
				continue
			}
			log.Printf("unhandled ev %s", typ.String())
		}
	}
	C.XFlush(dpy.dpy)
}