import time import weakref import threading import pyglet from pyglet.libs.win32 import com from pyglet.event import EventDispatcher from pyglet.libs.win32.types import * from pyglet.libs.win32 import _ole32 as ole32, _oleaut32 as oleaut32 from pyglet.libs.win32.constants import CLSCTX_INPROC_SERVER from pyglet.input.base import Device, Controller, Button, AbsoluteAxis, ControllerManager for library_name in ['xinput1_4', 'xinput9_1_0', 'xinput1_3']: try: lib = ctypes.windll.LoadLibrary(library_name) break except OSError: continue else: raise OSError('Could not import XInput') XINPUT_GAMEPAD_LEFT_THUMB_DEADZONE = 7849 XINPUT_GAMEPAD_RIGHT_THUMB_DEADZONE = 8689 XINPUT_GAMEPAD_TRIGGER_THRESHOLD = 30 BATTERY_DEVTYPE_GAMEPAD = 0x00 BATTERY_DEVTYPE_HEADSET = 0x01 BATTERY_TYPE_DISCONNECTED = 0x00 BATTERY_TYPE_WIRED = 0x01 BATTERY_TYPE_ALKALINE = 0x02 BATTERY_TYPE_NIMH = 0x03 BATTERY_TYPE_UNKNOWN = 0xFF BATTERY_LEVEL_EMPTY = 0x00 BATTERY_LEVEL_LOW = 0x01 BATTERY_LEVEL_MEDIUM = 0x02 BATTERY_LEVEL_FULL = 0x03 XINPUT_GAMEPAD_DPAD_UP = 0x0001 XINPUT_GAMEPAD_DPAD_DOWN = 0x0002 XINPUT_GAMEPAD_DPAD_LEFT = 0x0004 XINPUT_GAMEPAD_DPAD_RIGHT = 0x0008 XINPUT_GAMEPAD_START = 0x0010 XINPUT_GAMEPAD_BACK = 0x0020 XINPUT_GAMEPAD_LEFT_THUMB = 0x0040 XINPUT_GAMEPAD_RIGHT_THUMB = 0x0080 XINPUT_GAMEPAD_LEFT_SHOULDER = 0x0100 XINPUT_GAMEPAD_RIGHT_SHOULDER = 0x0200 XINPUT_GAMEPAD_GUIDE = 0x0400 XINPUT_GAMEPAD_A = 0x1000 XINPUT_GAMEPAD_B = 0x2000 XINPUT_GAMEPAD_X = 0x4000 XINPUT_GAMEPAD_Y = 0x8000 XINPUT_KEYSTROKE_KEYDOWN = 0x0001 XINPUT_KEYSTROKE_KEYUP = 0x0002 XINPUT_KEYSTROKE_REPEAT = 0x0004 XINPUT_DEVTYPE_GAMEPAD = 0x01 XINPUT_DEVSUBTYPE_GAMEPAD = 0x01 XINPUT_DEVSUBTYPE_WHEEL = 0x02 XINPUT_DEVSUBTYPE_ARCADE_STICK = 0x03 XINPUT_DEVSUBTYPE_FLIGHT_SICK = 0x04 XINPUT_DEVSUBTYPE_DANCE_PAD = 0x05 XINPUT_DEVSUBTYPE_GUITAR = 0x06 XINPUT_DEVSUBTYPE_DRUM_KIT = 0x08 VK_PAD_A = 0x5800 VK_PAD_B = 0x5801 VK_PAD_X = 0x5802 VK_PAD_Y = 0x5803 VK_PAD_RSHOULDER = 0x5804 VK_PAD_LSHOULDER = 0x5805 VK_PAD_LTRIGGER = 0x5806 VK_PAD_RTRIGGER = 0x5807 VK_PAD_DPAD_UP = 0x5810 VK_PAD_DPAD_DOWN = 0x5811 VK_PAD_DPAD_LEFT = 0x5812 VK_PAD_DPAD_RIGHT = 0x5813 VK_PAD_START = 0x5814 VK_PAD_BACK = 0x5815 VK_PAD_LTHUMB_PRESS = 0x5816 VK_PAD_RTHUMB_PRESS = 0x5817 VK_PAD_LTHUMB_UP = 0x5820 VK_PAD_LTHUMB_DOWN = 0x5821 VK_PAD_LTHUMB_RIGHT = 0x5822 VK_PAD_LTHUMB_LEFT = 0x5823 VK_PAD_LTHUMB_UPLEFT = 0x5824 VK_PAD_LTHUMB_UPRIGHT = 0x5825 VK_PAD_LTHUMB_DOWNRIGHT = 0x5826 VK_PAD_LTHUMB_DOWNLEFT = 0x5827 VK_PAD_RTHUMB_UP = 0x5830 VK_PAD_RTHUMB_DOWN = 0x5831 VK_PAD_RTHUMB_RIGHT = 0x5832 VK_PAD_RTHUMB_LEFT = 0x5833 VK_PAD_RTHUMB_UPLEFT = 0x5834 VK_PAD_RTHUMB_UPRIGHT = 0x5835 VK_PAD_RTHUMB_DOWNRIGHT = 0x5836 VK_PAD_RTHUMB_DOWNLEFT = 0x5837 XUSER_MAX_COUNT = 4 # Cannot go over this number. XUSER_INDEX_ANY = 0x000000FF ERROR_DEVICE_NOT_CONNECTED = 1167 ERROR_EMPTY = 4306 ERROR_SUCCESS = 0 class XINPUT_GAMEPAD(Structure): _fields_ = [ ('wButtons', WORD), ('bLeftTrigger', UBYTE), ('bRightTrigger', UBYTE), ('sThumbLX', SHORT), ('sThumbLY', SHORT), ('sThumbRX', SHORT), ('sThumbRY', SHORT), ] class XINPUT_STATE(Structure): _fields_ = [ ('dwPacketNumber', DWORD), ('Gamepad', XINPUT_GAMEPAD) ] class XINPUT_VIBRATION(Structure): _fields_ = [ ("wLeftMotorSpeed", WORD), ("wRightMotorSpeed", WORD), ] class XINPUT_CAPABILITIES(Structure): _fields_ = [ ('Type', BYTE), ('SubType', BYTE), ('Flags', WORD), ('Gamepad', XINPUT_GAMEPAD), ('Vibration', XINPUT_VIBRATION) ] class XINPUT_BATTERY_INFORMATION(Structure): _fields_ = [ ("BatteryType", BYTE), ("BatteryLevel", BYTE), ] class XINPUT_CAPABILITIES_EX(Structure): _fields_ = [ ('Capabilities', XINPUT_CAPABILITIES), ('vendorId', WORD), ('productId', WORD), ('revisionId', WORD), ('a4', DWORD) ] # Only available for 1.4+ if library_name == "xinput1_4": XInputGetBatteryInformation = lib.XInputGetBatteryInformation XInputGetBatteryInformation.argtypes = [DWORD, BYTE, POINTER(XINPUT_BATTERY_INFORMATION)] XInputGetBatteryInformation.restype = DWORD XInputGetState = lib[100] XInputGetState.restype = DWORD XInputGetState.argtypes = [DWORD, POINTER(XINPUT_STATE)] # Hidden function XInputGetCapabilities = lib[108] XInputGetCapabilities.restype = DWORD XInputGetCapabilities.argtypes = [DWORD, DWORD, DWORD, POINTER(XINPUT_CAPABILITIES_EX)] else: XInputGetBatteryInformation = None XInputGetState = lib.XInputGetState XInputGetState.restype = DWORD XInputGetState.argtypes = [DWORD, POINTER(XINPUT_STATE)] XInputGetCapabilities = lib.XInputGetCapabilities XInputGetCapabilities.restype = DWORD XInputGetCapabilities.argtypes = [DWORD, DWORD, POINTER(XINPUT_CAPABILITIES)] XInputSetState = lib.XInputSetState XInputSetState.argtypes = [DWORD, POINTER(XINPUT_VIBRATION)] XInputSetState.restype = DWORD # wbemcli ################################################# BSTR = LPCWSTR IWbemContext = c_void_p RPC_C_AUTHN_WINNT = 10 RPC_C_AUTHZ_NONE = 0 RPC_C_AUTHN_LEVEL_CALL = 0x03 RPC_C_IMP_LEVEL_IMPERSONATE = 3 EOAC_NONE = 0 VT_BSTR = 8 CLSID_WbemLocator = com.GUID(0x4590f811, 0x1d3a, 0x11d0, 0x89, 0x1f, 0x00, 0xaa, 0x00, 0x4b, 0x2e, 0x24) IID_IWbemLocator = com.GUID(0xdc12a687, 0x737f, 0x11cf, 0x88, 0x4d, 0x00, 0xaa, 0x00, 0x4b, 0x2e, 0x24) class IWbemClassObject(com.pIUnknown): _methods_ = [ ('GetQualifierSet', com.STDMETHOD()), ('Get', com.STDMETHOD(BSTR, LONG, POINTER(VARIANT), c_void_p, c_void_p)) # ... long, unneeded ] class IEnumWbemClassObject(com.pIUnknown): _methods_ = [ ('Reset', com.STDMETHOD()), ('Next', com.STDMETHOD(LONG, ULONG, POINTER(IWbemClassObject), POINTER(ULONG))), ('NextAsync', com.STDMETHOD()), ('Clone', com.STDMETHOD()), ('Skip', com.STDMETHOD()) ] class IWbemServices(com.pIUnknown): _methods_ = [ ('OpenNamespace', com.STDMETHOD()), ('CancelAsyncCall', com.STDMETHOD()), ('QueryObjectSink', com.STDMETHOD()), ('GetObject', com.STDMETHOD()), ('GetObjectAsync', com.STDMETHOD()), ('PutClass', com.STDMETHOD()), ('PutClassAsync', com.STDMETHOD()), ('DeleteClass', com.STDMETHOD()), ('DeleteClassAsync', com.STDMETHOD()), ('CreateClassEnum', com.STDMETHOD()), ('CreateClassEnumAsync', com.STDMETHOD()), ('PutInstance', com.STDMETHOD()), ('PutInstanceAsync', com.STDMETHOD()), ('DeleteInstance', com.STDMETHOD()), ('DeleteInstanceAsync', com.STDMETHOD()), ('CreateInstanceEnum', com.STDMETHOD(BSTR, LONG, IWbemContext, POINTER(IEnumWbemClassObject))), ('CreateInstanceEnumAsync', com.STDMETHOD()), # ... much more. ] class IWbemLocator(com.pIUnknown): _methods_ = [ ('ConnectServer', com.STDMETHOD(BSTR, BSTR, BSTR, LONG, LONG, BSTR, IWbemContext, POINTER(IWbemServices))), ] def get_xinput_guids(): """We iterate over all devices in the system looking for IG_ in the device ID, which indicates it's an XInput device. Returns a list of strings containing pid/vid. Monstrosity found at: https://docs.microsoft.com/en-us/windows/win32/xinput/xinput-and-directinput """ guids_found = [] locator = IWbemLocator() services = IWbemServices() enum_devices = IEnumWbemClassObject() devices = (IWbemClassObject * 20)() ole32.CoCreateInstance(CLSID_WbemLocator, None, CLSCTX_INPROC_SERVER, IID_IWbemLocator, byref(locator)) name_space = BSTR("\\\\.\\root\\cimv2") class_name = BSTR("Win32_PNPEntity") device_id = BSTR("DeviceID") # Connect to WMI hr = locator.ConnectServer(name_space, None, None, 0, 0, None, None, byref(services)) if hr != 0: return guids_found # Switch security level to IMPERSONATE. hr = ole32.CoSetProxyBlanket(services, RPC_C_AUTHN_WINNT, RPC_C_AUTHZ_NONE, None, RPC_C_AUTHN_LEVEL_CALL, RPC_C_IMP_LEVEL_IMPERSONATE, None, EOAC_NONE) if hr != 0: return guids_found hr = services.CreateInstanceEnum(class_name, 0, None, byref(enum_devices)) if hr != 0: return guids_found var = VARIANT() oleaut32.VariantInit(byref(var)) while True: returned = ULONG() _hr = enum_devices.Next(10000, len(devices), devices, byref(returned)) if returned.value == 0: break for i in range(returned.value): result = devices[i].Get(device_id, 0, byref(var), None, None) if result == 0: if var.vt == VT_BSTR and var.bstrVal != "": if 'IG_' in var.bstrVal: guid = var.bstrVal pid_start = guid.index("PID_") + 4 dev_pid = guid[pid_start:pid_start + 4] vid_start = guid.index("VID_") + 4 dev_vid = guid[vid_start:vid_start + 4] sdl_guid = f"{dev_pid}{dev_vid}".lower() if sdl_guid not in guids_found: guids_found.append(sdl_guid) oleaut32.VariantClear(byref(var)) return guids_found # ######################################################### controller_api_to_pyglet = { XINPUT_GAMEPAD_DPAD_UP: "dpup", XINPUT_GAMEPAD_DPAD_DOWN: "dpdown", XINPUT_GAMEPAD_DPAD_LEFT: "dpleft", XINPUT_GAMEPAD_DPAD_RIGHT: "dpright", XINPUT_GAMEPAD_START: "start", XINPUT_GAMEPAD_BACK: "back", XINPUT_GAMEPAD_GUIDE: "guide", XINPUT_GAMEPAD_LEFT_THUMB: "leftstick", XINPUT_GAMEPAD_RIGHT_THUMB: "rightstick", XINPUT_GAMEPAD_LEFT_SHOULDER: "leftshoulder", XINPUT_GAMEPAD_RIGHT_SHOULDER: "rightshoulder", XINPUT_GAMEPAD_A: "a", XINPUT_GAMEPAD_B: "b", XINPUT_GAMEPAD_X: "x", XINPUT_GAMEPAD_Y: "y", } class XInputDevice(Device): def __init__(self, index, manager): super().__init__(None, f"XInput{index}") self.index = index self._manager = weakref.proxy(manager) self.connected = False self.xinput_state = XINPUT_STATE() self.packet_number = 0 self.vibration = XINPUT_VIBRATION() self.weak_duration = None self.strong_duration = None self.controls = { 'a': Button('a'), 'b': Button('b'), 'x': Button('x'), 'y': Button('y'), 'back': Button('back'), 'start': Button('start'), 'guide': Button('guide'), 'leftshoulder': Button('leftshoulder'), 'rightshoulder': Button('rightshoulder'), 'leftstick': Button('leftstick'), 'rightstick': Button('rightstick'), 'dpup': Button('dpup'), 'dpdown': Button('dpdown'), 'dpleft': Button('dpleft'), 'dpright': Button('dpright'), 'leftx': AbsoluteAxis('leftx', -32768, 32768), 'lefty': AbsoluteAxis('lefty', -32768, 32768), 'rightx': AbsoluteAxis('rightx', -32768, 32768), 'righty': AbsoluteAxis('righty', -32768, 32768), 'lefttrigger': AbsoluteAxis('lefttrigger', 0, 255), 'righttrigger': AbsoluteAxis('righttrigger', 0, 255) } def set_rumble_state(self): XInputSetState(self.index, byref(self.vibration)) def get_controls(self): return list(self.controls.values()) def get_guid(self): return "XINPUTCONTROLLER" class XInputDeviceManager(EventDispatcher): def __init__(self): self.all_devices = [XInputDevice(i, self) for i in range(XUSER_MAX_COUNT)] self._connected_devices = set() for i in range(XUSER_MAX_COUNT): device = self.all_devices[i] if XInputGetState(i, byref(device.xinput_state)) == ERROR_DEVICE_NOT_CONNECTED: continue device.connected = True self._connected_devices.add(i) self._polling_rate = 0.016 self._detection_rate = 2.0 self._exit = threading.Event() self._dev_lock = threading.Lock() self._thread = threading.Thread(target=self._get_state, daemon=True) self._thread.start() def get_devices(self): with self._dev_lock: return [dev for dev in self.all_devices if dev.connected] # Threaded method: def _get_state(self): xuser_max_count = set(range(XUSER_MAX_COUNT)) # {0, 1, 2, 3} polling_rate = self._polling_rate detect_rate = self._detection_rate elapsed = 0.0 while not self._exit.is_set(): self._dev_lock.acquire() elapsed += polling_rate # Every few seconds check for new connections: if elapsed >= detect_rate: # Only check if not currently connected: for i in xuser_max_count - self._connected_devices: device = self.all_devices[i] if XInputGetState(i, byref(device.xinput_state)) == ERROR_DEVICE_NOT_CONNECTED: continue # Found a new connection: device.connected = True self._connected_devices.add(i) # Dispatch event in main thread: pyglet.app.platform_event_loop.post_event(self, 'on_connect', device) elapsed = 0.0 # At the set polling rate, update all connected and # opened devices. Skip unopened devices to save CPU: for i in self._connected_devices.copy(): device = self.all_devices[i] result = XInputGetState(i, byref(device.xinput_state)) if result == ERROR_DEVICE_NOT_CONNECTED: # Newly disconnected device: if device.connected: device.connected = False self._connected_devices.remove(i) # Dispatch event in main thread: pyglet.app.platform_event_loop.post_event(self, 'on_disconnect', device) continue elif result == ERROR_SUCCESS and device.is_open: # Stop Rumble effects if a duration is set: if device.weak_duration: device.weak_duration -= polling_rate if device.weak_duration <= 0: device.weak_duration = None device.vibration.wRightMotorSpeed = 0 device.set_rumble_state() if device.strong_duration: device.strong_duration -= polling_rate if device.strong_duration <= 0: device.strong_duration = None device.vibration.wLeftMotorSpeed = 0 device.set_rumble_state() # Don't update the Control values if XInput has no new input: if device.xinput_state.dwPacketNumber == device.packet_number: continue for button, name in controller_api_to_pyglet.items(): device.controls[name].value = device.xinput_state.Gamepad.wButtons & button device.controls['lefttrigger'].value = device.xinput_state.Gamepad.bLeftTrigger device.controls['righttrigger'].value = device.xinput_state.Gamepad.bRightTrigger device.controls['leftx'].value = device.xinput_state.Gamepad.sThumbLX device.controls['lefty'].value = device.xinput_state.Gamepad.sThumbLY device.controls['rightx'].value = device.xinput_state.Gamepad.sThumbRX device.controls['righty'].value = device.xinput_state.Gamepad.sThumbRY device.packet_number = device.xinput_state.dwPacketNumber self._dev_lock.release() time.sleep(polling_rate) def on_connect(self, device): """A device was connected.""" def on_disconnect(self, device): """A device was disconnected""" XInputDeviceManager.register_event_type('on_connect') XInputDeviceManager.register_event_type('on_disconnect') _device_manager = XInputDeviceManager() class XInputController(Controller): def _initialize_controls(self): for button_name in controller_api_to_pyglet.values(): control = self.device.controls[button_name] self._button_controls.append(control) self._add_button(control, button_name) for axis_name in "leftx", "lefty", "rightx", "righty", "lefttrigger", "righttrigger": control = self.device.controls[axis_name] self._axis_controls.append(control) self._add_axis(control, axis_name) def _add_axis(self, control, name): tscale = 1.0 / (control.max - control.min) scale = 2.0 / (control.max - control.min) bias = -1.0 - control.min * scale if name in ("lefttrigger", "righttrigger"): @control.event def on_change(value): normalized_value = value * tscale setattr(self, name, normalized_value) self.dispatch_event('on_trigger_motion', self, name, normalized_value) elif name in ("leftx", "lefty"): @control.event def on_change(value): normalized_value = value * scale + bias setattr(self, name, normalized_value) self.dispatch_event('on_stick_motion', self, "leftstick", self.leftx, self.lefty) elif name in ("rightx", "righty"): @control.event def on_change(value): normalized_value = value * scale + bias setattr(self, name, normalized_value) self.dispatch_event('on_stick_motion', self, "rightstick", self.rightx, self.righty) def _add_button(self, control, name): if name in ("dpleft", "dpright", "dpup", "dpdown"): @control.event def on_change(value): setattr(self, name, value) self.dispatch_event('on_dpad_motion', self, self.dpleft, self.dpright, self.dpup, self.dpdown) else: @control.event def on_change(value): setattr(self, name, value) @control.event def on_press(): self.dispatch_event('on_button_press', self, name) @control.event def on_release(): self.dispatch_event('on_button_release', self, name) def rumble_play_weak(self, strength=1.0, duration=0.5): self.device.vibration.wRightMotorSpeed = int(max(min(1.0, strength), 0) * 0xFFFF) self.device.weak_duration = duration self.device.set_rumble_state() def rumble_play_strong(self, strength=1.0, duration=0.5): self.device.vibration.wLeftMotorSpeed = int(max(min(1.0, strength), 0) * 0xFFFF) self.device.strong_duration = duration self.device.set_rumble_state() def rumble_stop_weak(self): self.device.vibration.wRightMotorSpeed = 0 self.device.set_rumble_state() def rumble_stop_strong(self): self.device.vibration.wLeftMotorSpeed = 0 self.device.set_rumble_state() class XInputControllerManager(ControllerManager): def __init__(self): self._controllers = {} for device in _device_manager.all_devices: meta = {'name': device.name, 'guid': "XINPUTCONTROLLER"} self._controllers[device] = XInputController(device, meta) @_device_manager.event def on_connect(xdevice): self.dispatch_event('on_connect', self._controllers[xdevice]) @_device_manager.event def on_disconnect(xdevice): self.dispatch_event('on_disconnect', self._controllers[xdevice]) def get_controllers(self): return [ctlr for ctlr in self._controllers.values() if ctlr.device.connected] def get_devices(): return _device_manager.get_devices() def get_controllers(): return [XInputController(device, {'name': device.name, 'guid': device.get_guid()}) for device in get_devices()]