Difficult-Rocket/libs/pyglet/input/x11_xinput.py

# ----------------------------------------------------------------------------
# pyglet
# Copyright (c) 2006-2008 Alex Holkner
# Copyright (c) 2008-2022 pyglet contributors
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions
# are met:
#
#  * Redistributions of source code must retain the above copyright
#    notice, this list of conditions and the following disclaimer.
#  * Redistributions in binary form must reproduce the above copyright
#    notice, this list of conditions and the following disclaimer in
#    the documentation and/or other materials provided with the
#    distribution.
#  * Neither the name of pyglet nor the names of its
#    contributors may be used to endorse or promote products
#    derived from this software without specific prior written
#    permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
# FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
# COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
# INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
# BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
# LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
# CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
# LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
# ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
# POSSIBILITY OF SUCH DAMAGE.
# ----------------------------------------------------------------------------

import ctypes
import pyglet
from pyglet.input.base import Device, DeviceOpenException
from pyglet.input.base import Button, RelativeAxis, AbsoluteAxis
from pyglet.libs.x11 import xlib
from pyglet.util import asstr

try:
    from pyglet.libs.x11 import xinput as xi

    _have_xinput = True
except:
    _have_xinput = False


def ptr_add(ptr, offset):
    address = ctypes.addressof(ptr.contents) + offset
    return ctypes.pointer(type(ptr.contents).from_address(address))


class DeviceResponder:
    def _key_press(self, e):
        pass

    def _key_release(self, e):
        pass

    def _button_press(self, e):
        pass

    def _button_release(self, e):
        pass

    def _motion(self, e):
        pass

    def _proximity_in(self, e):
        pass

    def _proximity_out(self, e):
        pass


class XInputDevice(DeviceResponder, Device):
    def __init__(self, display, device_info):
        super(XInputDevice, self).__init__(display, asstr(device_info.name))

        self._device_id = device_info.id
        self._device = None

        # Read device info
        self.buttons = []
        self.keys = []
        self.axes = []

        ptr = device_info.inputclassinfo
        for i in range(device_info.num_classes):
            cp = ctypes.cast(ptr, ctypes.POINTER(xi.XAnyClassInfo))
            cls_class = getattr(cp.contents, 'class')

            if cls_class == xi.KeyClass:
                cp = ctypes.cast(ptr, ctypes.POINTER(xi.XKeyInfo))
                self.min_keycode = cp.contents.min_keycode
                num_keys = cp.contents.num_keys
                for i in range(num_keys):
                    self.keys.append(Button('key%d' % i))

            elif cls_class == xi.ButtonClass:
                cp = ctypes.cast(ptr, ctypes.POINTER(xi.XButtonInfo))
                num_buttons = cp.contents.num_buttons
                # Pointer buttons start at index 1, with 0 as 'AnyButton'
                for i in range(num_buttons + 1):
                    self.buttons.append(Button('button%d' % i))

            elif cls_class == xi.ValuatorClass:
                cp = ctypes.cast(ptr, ctypes.POINTER(xi.XValuatorInfo))
                num_axes = cp.contents.num_axes
                mode = cp.contents.mode
                axes = ctypes.cast(cp.contents.axes,
                                   ctypes.POINTER(xi.XAxisInfo))
                for i in range(num_axes):
                    axis = axes[i]
                    if mode == xi.Absolute:
                        self.axes.append(AbsoluteAxis('axis%d' % i, axis.min_value, axis.max_value))
                    elif mode == xi.Relative:
                        self.axes.append(RelativeAxis('axis%d' % i))

            cls = cp.contents
            ptr = ptr_add(ptr, cls.length)

        self.controls = self.buttons + self.keys + self.axes

        # Can't detect proximity class event without opening device.  Just
        # assume there is the possibility of a control if there are any axes.
        if self.axes:
            self.proximity_control = Button('proximity')
            self.controls.append(self.proximity_control)
        else:
            self.proximity_control = None

    def get_controls(self):
        return self.controls

    def open(self, window=None, exclusive=False):
        # Checks for is_open and raises if already open.
        # TODO allow opening on multiple windows.
        super(XInputDevice, self).open(window, exclusive)

        if window is None:
            self.is_open = False
            raise DeviceOpenException('XInput devices require a window')

        if window.display._display != self.display._display:
            self.is_open = False
            raise DeviceOpenException('Window and device displays differ')

        if exclusive:
            self.is_open = False
            raise DeviceOpenException('Cannot open XInput device exclusive')

        self._device = xi.XOpenDevice(self.display._display, self._device_id)
        if not self._device:
            self.is_open = False
            raise DeviceOpenException('Cannot open device')

        self._install_events(window)

    def close(self):
        super(XInputDevice, self).close()

        if not self._device:
            return

        # TODO: uninstall events
        xi.XCloseDevice(self.display._display, self._device)

    def _install_events(self, window):
        dispatcher = XInputWindowEventDispatcher.get_dispatcher(window)
        dispatcher.open_device(self._device_id, self._device, self)

    # DeviceResponder interface

    def _key_press(self, e):
        self.keys[e.keycode - self.min_keycode].value = True

    def _key_release(self, e):
        self.keys[e.keycode - self.min_keycode].value = False

    def _button_press(self, e):
        self.buttons[e.button].value = True

    def _button_release(self, e):
        self.buttons[e.button].value = False

    def _motion(self, e):
        for i in range(e.axes_count):
            self.axes[i].value = e.axis_data[i]

    def _proximity_in(self, e):
        if self.proximity_control:
            self.proximity_control.value = True

    def _proximity_out(self, e):
        if self.proximity_control:
            self.proximity_control.value = False


class XInputWindowEventDispatcher:
    def __init__(self, window):
        self.window = window
        self._responders = {}

    @staticmethod
    def get_dispatcher(window):
        try:
            dispatcher = window.__xinput_window_event_dispatcher
        except AttributeError:
            dispatcher = window.__xinput_window_event_dispatcher = XInputWindowEventDispatcher(window)
        return dispatcher

    def set_responder(self, device_id, responder):
        self._responders[device_id] = responder

    def remove_responder(self, device_id):
        del self._responders[device_id]

    def open_device(self, device_id, device, responder):
        self.set_responder(device_id, responder)
        device = device.contents
        if not device.num_classes:
            return

        # Bind matching extended window events to bound instance methods
        # on this object.
        #
        # This is inspired by test.c of xinput package by Frederic
        # Lepied available at x.org.
        #
        # In C, this stuff is normally handled by the macro DeviceKeyPress and
        # friends. Since we don't have access to those macros here, we do it
        # this way.
        events = []

        def add(class_info, event, handler):
            _type = class_info.event_type_base + event
            _class = device_id << 8 | _type
            events.append(_class)
            self.window._event_handlers[_type] = handler

        for i in range(device.num_classes):
            class_info = device.classes[i]
            if class_info.input_class == xi.KeyClass:
                add(class_info, xi._deviceKeyPress, self._event_xinput_key_press)
                add(class_info, xi._deviceKeyRelease, self._event_xinput_key_release)

            elif class_info.input_class == xi.ButtonClass:
                add(class_info, xi._deviceButtonPress, self._event_xinput_button_press)
                add(class_info, xi._deviceButtonRelease, self._event_xinput_button_release)

            elif class_info.input_class == xi.ValuatorClass:
                add(class_info, xi._deviceMotionNotify, self._event_xinput_motion)

            elif class_info.input_class == xi.ProximityClass:
                add(class_info, xi._proximityIn, self._event_xinput_proximity_in)
                add(class_info, xi._proximityOut, self._event_xinput_proximity_out)

            elif class_info.input_class == xi.FeedbackClass:
                pass

            elif class_info.input_class == xi.FocusClass:
                pass

            elif class_info.input_class == xi.OtherClass:
                pass

        array = (xi.XEventClass * len(events))(*events)
        xi.XSelectExtensionEvent(self.window._x_display, self.window._window, array, len(array))

    @pyglet.window.xlib.XlibEventHandler(0)
    def _event_xinput_key_press(self, ev):
        e = ctypes.cast(ctypes.byref(ev), ctypes.POINTER(xi.XDeviceKeyEvent)).contents

        device = self._responders.get(e.deviceid)
        if device is not None:
            device._key_press(e)

    @pyglet.window.xlib.XlibEventHandler(0)
    def _event_xinput_key_release(self, ev):
        e = ctypes.cast(ctypes.byref(ev), ctypes.POINTER(xi.XDeviceKeyEvent)).contents

        device = self._responders.get(e.deviceid)
        if device is not None:
            device._key_release(e)

    @pyglet.window.xlib.XlibEventHandler(0)
    def _event_xinput_button_press(self, ev):
        e = ctypes.cast(ctypes.byref(ev), ctypes.POINTER(xi.XDeviceButtonEvent)).contents

        device = self._responders.get(e.deviceid)
        if device is not None:
            device._button_press(e)

    @pyglet.window.xlib.XlibEventHandler(0)
    def _event_xinput_button_release(self, ev):
        e = ctypes.cast(ctypes.byref(ev), ctypes.POINTER(xi.XDeviceButtonEvent)).contents

        device = self._responders.get(e.deviceid)
        if device is not None:
            device._button_release(e)

    @pyglet.window.xlib.XlibEventHandler(0)
    def _event_xinput_motion(self, ev):
        e = ctypes.cast(ctypes.byref(ev), ctypes.POINTER(xi.XDeviceMotionEvent)).contents

        device = self._responders.get(e.deviceid)
        if device is not None:
            device._motion(e)

    @pyglet.window.xlib.XlibEventHandler(0)
    def _event_xinput_proximity_in(self, ev):
        e = ctypes.cast(ctypes.byref(ev), ctypes.POINTER(xi.XProximityNotifyEvent)).contents

        device = self._responders.get(e.deviceid)
        if device is not None:
            device._proximity_in(e)

    @pyglet.window.xlib.XlibEventHandler(-1)
    def _event_xinput_proximity_out(self, ev):
        e = ctypes.cast(ctypes.byref(ev), ctypes.POINTER(xi.XProximityNotifyEvent)).contents

        device = self._responders.get(e.deviceid)
        if device is not None:
            device._proximity_out(e)


def _check_extension(display):
    major_opcode = ctypes.c_int()
    first_event = ctypes.c_int()
    first_error = ctypes.c_int()
    xlib.XQueryExtension(display._display,
                         b'XInputExtension',
                         ctypes.byref(major_opcode),
                         ctypes.byref(first_event),
                         ctypes.byref(first_error))
    return bool(major_opcode.value)


def get_devices(display=None):
    if display is None:
        display = pyglet.canvas.get_display()

    if not _have_xinput or not _check_extension(display):
        return []

    devices = []
    count = ctypes.c_int(0)
    device_list = xi.XListInputDevices(display._display, count)

    for i in range(count.value):
        device_info = device_list[i]
        devices.append(XInputDevice(display, device_info))

    xi.XFreeDeviceList(device_list)

    return devices