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author | neodarz <neodarz@neodarz.net> | 2017-03-28 11:17:38 +0200 |
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committer | neodarz <neodarz@neodarz.net> | 2017-03-28 11:17:38 +0200 |
commit | a6227d826ace025fb10153390b485711c4e0e98e (patch) | |
tree | 7c604e65b8e9c9c87bdb4c2cbc873c8ebd2996e9 | |
parent | 91b75ad2b9a80c14382ebdc7e2566ef56b1fe999 (diff) | |
download | waveshare-7inch-touchscreen-driver-a6227d826ace025fb10153390b485711c4e0e98e.tar.xz waveshare-7inch-touchscreen-driver-a6227d826ace025fb10153390b485711c4e0e98e.zip |
Add new script with new functionclone_test
-rw-r--r-- | touch_async_v2.py | 254 |
1 files changed, 254 insertions, 0 deletions
diff --git a/touch_async_v2.py b/touch_async_v2.py new file mode 100644 index 0000000..1c1855f --- /dev/null +++ b/touch_async_v2.py @@ -0,0 +1,254 @@ +#!/usr/bin/env python3 + +import traceback +import struct +import time +import math +import glob +import uinput +import pyudev +import os +import asyncio +import datetime + +class Pos(): + x = 0 + y = 0 + + def delta(self, other): + deltaPos = Pos() + deltaPos.x = other.x - self.x + deltaPos.y = other.y - self.y + + return deltaPos + + def length(self): + return math.sqrt(self.x**2 + self.y**2) + + def distance(self, other): + return self.delta(other).length() + + +class Touch: + + def __init__(self, id): + self._id = id + self._pos = Pos() + self._prevPos = Pos() + self._touchStart = Pos() + + @property + def id(self): + return self._id; + + @property + def pos(self): + return self._pos; + + @property + def active(self): + return self._active; + + def update(self, x, y, active): + self._prevActive = self._active; + self._active = active; + self._prevPos.x = self._pos.x; + self._prevPos.y = self._pos.y; + self._pos.x = x; + self._pos.y = y; + if active and not self._prevActive: + #print('Touch started!') + self._exceededThreshold = False + self._activationTime = datetime.datetime.now(); + self._touchStart.x = x + self._touchStart.y = y + elif active and self.movementSinceTouch() > 40: + self._exceededThreshold = True + #print('exceededThreshold') + + def deltaFromPrevPos(self): + return self._pos.delta(self._prevPos) + + def movementSinceTouch(self): + return self._touchStart.distance(self._pos) + + def isMoved(self): + return self._pos.x != self._prevPos.x or self._pos.y != self._prevPos.y; + + def isChanged(self): + return self.isMoved() or self.isActiveChanged(); + + def isActiveChanged(self): + return self._active != self._prevActive + + def canTreatAsRightBtn(self): + return not self._exceededThreshold + + def duration(self): + """touch duration in seconds""" + if not self.active: + return 0 + span = (datetime.datetime.now() - self._activationTime) + return span.total_seconds() + + def __str__(self): + return 'Touch({}): active: {} isMoved: {} isActiveChanged: {} duration: {}, pos: {},{} prevPos: {},{} rightClick: {}'.format(self.id, self.active, self.isMoved(), self.isActiveChanged(), self.duration(), self.pos.x, self.pos.y, self._prevPos.x, self._prevPos.y, self.canTreatAsRightBtn()) + + _activationTime = datetime.datetime.now() + + """Touch type""" + _prevPos = None + _pos = None + _touchStart = None + + _active = False + _prevActive = False + _exceededThreshold = False + +touches = [] +rightClick = False +activeTouches = 0 +trackRightClick = True + + +def check_device(thedevice): + # Currently we don't get a full udev dictionary from the device on + # Raspberry pi, so we do a hard search for the device vendor/id hex. + if '0EEF:0005' in (thedevice.get('DEVPATH')): + print("Device found at: ", thedevice.device_node) + with open(thedevice.device_node, 'rb') as f: + print("Opening device and initiating mouse emulation.") + tasks.clear() + tasks.append(asyncio.async(read_and_emulate_mouse(f))) + loop.run_until_complete(asyncio.wait(tasks)) + print("Device async task terminated.") + + +def updateTouch(touchData, input_device): + global rightClick + global activeTouches + global trackRightClick + #print('Touch data', touchData) + touchIdx = touchData[1] - 1; # since numeration goes from 1 + if touchIdx < 0: + return + touch = touches[touchIdx] + touch.update(touchData[2], touchData[3], touchData[0]) + #if touchIdx == 0: + #print(touch) + #print(touchData) + + if activeTouches > 1: + amount = touch.deltaFromPrevPos().y + #print('wheel amount', amount) + if abs(amount) > 2: + #normalize + amount /= abs(amount) + #print('wheel norm amount', amount) + input_device.emit(uinput.REL_WHEEL, int(amount), True) + + if not rightClick and touchIdx == 0 and activeTouches <= 1 and touch.isMoved(): + #print('set mouse to {},{} for touch {}'.format(touch.pos.x, touch.pos.y, touch)) + input_device.emit(uinput.ABS_X, touch.pos.x, False) + input_device.emit(uinput.ABS_Y, touch.pos.y, True) + #if not touch.isActiveChanged(): + #print('emitting additional click') + #input_device.emit_click(uinput.BTN_LEFT, True) + + if touch.isActiveChanged(): + input_device.emit(uinput.BTN_LEFT, touch.active, True) + rightClick = False + activeTouches += 1 if touch.active else -1 + #enable when no touches + trackRightClick |= activeTouches == 0 + #reset if touches exceeded 1 + trackRightClick &= activeTouches <= 1 + #print('active touches', activeTouches) + + elif ( trackRightClick and + touch.active and + not rightClick and + touch.canTreatAsRightBtn() and + touch.duration() > 1): + rightClick = True + input_device.emit(uinput.BTN_LEFT, 0, False) + input_device.emit(uinput.BTN_RIGHT, 1, False) + input_device.emit(uinput.BTN_RIGHT, 0, True) + #print('RIGHT CLICK!') + + + +@asyncio.coroutine +def async_read_data(fd, length): + yield from asyncio.sleep(0) + return fd.read(length) + + +@asyncio.coroutine +def read_and_emulate_mouse(fd): + + input_device = uinput.Device([ + uinput.BTN_LEFT, + uinput.BTN_RIGHT, + uinput.REL_WHEEL, + uinput.ABS_X, + uinput.ABS_Y, + uinput.BTN_GEAR_DOWN, + uinput.BTN_GEAR_UP, + ]) + + clicked = False + rightClicked = False + (lastX, lastY) = (0, 0) + startTime = time.time() + + while True: + try: + touch_data = yield from async_read_data(fd, 14) + if touch_data == 0: + break; + except IOError: + return 0 + + try: + #(tag) = struct.unpack_from('>ccHH', touch_data) + format = '<?BHH' + #print('raw data:', touch_data) + updateTouch(struct.unpack_from(format, touch_data, 1), input_device) + updateTouch(struct.unpack_from(format, touch_data, 7), input_device) + except Exception as e: + traceback.print_exc() + print('failed to update touch', e) + #return 0 + + fd.close() + + +if __name__ == "__main__": + os.system("modprobe uinput") + + tasks = [] + loop = asyncio.get_event_loop() + + for i in range(0,5): + touches.append(Touch(i)) + + context = pyudev.Context() + + print("Checking devices already plugged-in...") + for device in context.list_devices(subsystem='hidraw'): + print('device', device) + for device in context.list_devices(subsystem='hidraw'): + check_device(device) + + print("Seeking monitor") + monitor = pyudev.Monitor.from_netlink(context) + monitor.filter_by(subsystem='hidraw') + print("Waiting for touch device connection...") + + for device in iter(monitor.poll, None): + print("HID device notification. ACTION: ", device.get('ACTION')) +# print(device.device_node) + + if 'add' in (device.get('ACTION')): + check_device(device) |