#!/usr/bin/env python3 # vim: set expandtab shiftwidth=4: # -*- Mode: python; coding: utf-8; indent-tabs-mode: nil -*- */ # # Copyright © 2017 Red Hat, Inc. # # Permission is hereby granted, free of charge, to any person obtaining a # copy of this software and associated documentation files (the "Software"), # to deal in the Software without restriction, including without limitation # the rights to use, copy, modify, merge, publish, distribute, sublicense, # and/or sell copies of the Software, and to permit persons to whom the # Software is furnished to do so, subject to the following conditions: # # The above copyright notice and this permission notice (including the next # paragraph) shall be included in all copies or substantial portions of the # Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL # THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER # LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING # FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER # DEALINGS IN THE SOFTWARE. # import sys import subprocess import argparse try: import evdev import evdev.ecodes import pyudev except ModuleNotFoundError as e: print('Error: {}'.format(str(e)), file=sys.stderr) print('One or more python modules are missing. Please install those ' 'modules and re-run this tool.') sys.exit(1) class Range(object): """Class to keep a min/max of a value around""" def __init__(self): self.min = float('inf') self.max = float('-inf') def update(self, value): self.min = min(self.min, value) self.max = max(self.max, value) class Touch(object): """A single data point of a sequence (i.e. one event frame)""" def __init__(self, major=None, minor=None, orientation=None): self._major = major self._minor = minor self._orientation = orientation self.dirty = False @property def major(self): return self._major @major.setter def major(self, major): self._major = major self.dirty = True @property def minor(self): return self._minor @minor.setter def minor(self, minor): self._minor = minor self.dirty = True @property def orientation(self): return self._orientation @orientation.setter def orientation(self, orientation): self._orientation = orientation self.dirty = True def __str__(self): s = "Touch: major {:3d}".format(self.major) if self.minor is not None: s += ", minor {:3d}".format(self.minor) if self.orientation is not None: s += ", orientation {:+3d}".format(self.orientation) return s class TouchSequence(object): """A touch sequence from beginning to end""" def __init__(self, device, tracking_id): self.device = device self.tracking_id = tracking_id self.points = [] self.is_active = True self.is_down = False self.was_down = False self.is_palm = False self.was_palm = False self.major_range = Range() self.minor_range = Range() def append(self, touch): """Add a Touch to the sequence""" self.points.append(touch) self.major_range.update(touch.major) self.minor_range.update(touch.minor) if touch.major < self.device.up or \ touch.minor < self.device.up: self.is_down = False elif touch.major > self.device.down or \ touch.minor > self.device.down: self.is_down = True self.was_down = True self.is_palm = touch.major > self.device.palm if self.is_palm: self.was_palm = True def finalize(self): """Mark the TouchSequence as complete (finger is up)""" self.is_active = False def __str__(self): return self._str_state() if self.is_active else self._str_summary() def _str_summary(self): if not self.points: return "{:78s}".format("Sequence: no major/minor values recorded") s = "Sequence: major: [{:3d}..{:3d}] ".format( self.major_range.min, self.major_range.max ) if self.device.has_minor: s += "minor: [{:3d}..{:3d}] ".format( self.minor_range.min, self.minor_range.max ) if self.was_down: s += " down" if self.was_palm: s += " palm" return s def _str_state(self): touch = self.points[-1] s = "{}, tags: {} {}".format( touch, "down" if self.is_down else " ", "palm" if self.is_palm else " " ) return s class InvalidDeviceError(Exception): pass class Device(object): def __init__(self, path): if path is None: self.path = self.find_touch_device() else: self.path = path self.device = evdev.InputDevice(self.path) print("Using {}: {}\n".format(self.device.name, self.path)) # capabilities returns a dict with the EV_* codes as key, # each of which is a list of tuples of (code, AbsInfo) # # Get the abs list first (or empty list if missing), # then extract the touch major absinfo from that caps = self.device.capabilities(absinfo=True).get( evdev.ecodes.EV_ABS, [] ) codes = [cap[0] for cap in caps] if evdev.ecodes.ABS_MT_TOUCH_MAJOR not in codes: raise InvalidDeviceError("device does not have ABS_MT_TOUCH_MAJOR") self.has_minor = evdev.ecodes.ABS_MT_TOUCH_MINOR in codes self.has_orientation = evdev.ecodes.ABS_MT_ORIENTATION in codes self.up = 0 self.down = 0 self.palm = 0 self._init_thresholds_from_quirks() self.sequences = [] self.touch = Touch(0, 0) def find_touch_device(self): context = pyudev.Context() for device in context.list_devices(subsystem='input'): if not device.get('ID_INPUT_TOUCHPAD', 0) and \ not device.get('ID_INPUT_TOUCHSCREEN', 0): continue if not device.device_node or \ not device.device_node.startswith('/dev/input/event'): continue return device.device_node print("Unable to find a touch device.", file=sys.stderr) sys.exit(1) def _init_thresholds_from_quirks(self): command = ['libinput', 'quirks', 'list', self.path] cmd = subprocess.run(command, stdout=subprocess.PIPE, stderr=subprocess.PIPE) if cmd.returncode != 0: print("Error querying quirks: {}".format(cmd.stderr.decode('utf-8')), file=sys.stderr) return stdout = cmd.stdout.decode('utf-8') quirks = [q.split('=') for q in stdout.split('\n')] for q in quirks: if q[0] == 'AttrPalmSizeThreshold': self.palm = int(q[1]) elif q[0] == 'AttrTouchSizeRange': self.down, self.up = colon_tuple(q[1]) def start_new_sequence(self, tracking_id): self.sequences.append(TouchSequence(self, tracking_id)) def current_sequence(self): return self.sequences[-1] def handle_key(self, event): tapcodes = [evdev.ecodes.BTN_TOOL_DOUBLETAP, evdev.ecodes.BTN_TOOL_TRIPLETAP, evdev.ecodes.BTN_TOOL_QUADTAP, evdev.ecodes.BTN_TOOL_QUINTTAP] if event.code in tapcodes and event.value > 0: print("\rThis tool cannot handle multiple fingers, " "output will be invalid", file=sys.stderr) def handle_abs(self, event): if event.code == evdev.ecodes.ABS_MT_TRACKING_ID: if event.value > -1: self.start_new_sequence(event.value) else: s = self.current_sequence() s.finalize() print("\r{}".format(s)) elif event.code == evdev.ecodes.ABS_MT_TOUCH_MAJOR: self.touch.major = event.value elif event.code == evdev.ecodes.ABS_MT_TOUCH_MINOR: self.touch.minor = event.value elif event.code == evdev.ecodes.ABS_MT_ORIENTATION: self.touch.orientation = event.value def handle_syn(self, event): if self.touch.dirty: self.current_sequence().append(self.touch) print("\r{}".format(self.current_sequence()), end="") self.touch = Touch(major=self.touch.major, minor=self.touch.minor, orientation=self.touch.orientation) def handle_event(self, event): if event.type == evdev.ecodes.EV_ABS: self.handle_abs(event) elif event.type == evdev.ecodes.EV_KEY: self.handle_key(event) elif event.type == evdev.ecodes.EV_SYN: self.handle_syn(event) def read_events(self): print("Ready for recording data.") print("Touch sizes used: {}:{}".format(self.down, self.up)) print("Palm size used: {}".format(self.palm)) print("Place a single finger on the device to measure touch size.\n" "Ctrl+C to exit\n") for event in self.device.read_loop(): self.handle_event(event) def colon_tuple(string): try: ts = string.split(':') t = tuple([int(x) for x in ts]) if len(t) == 2 and t[0] >= t[1]: return t except: pass msg = "{} is not in format N:M (N >= M)".format(string) raise argparse.ArgumentTypeError(msg) def main(args): parser = argparse.ArgumentParser( description="Measure touch size and orientation" ) parser.add_argument('path', metavar='/dev/input/event0', nargs='?', type=str, help='Path to device (optional)') parser.add_argument('--touch-thresholds', metavar='down:up', type=colon_tuple, help='Thresholds when a touch is logically down or up') parser.add_argument('--palm-threshold', metavar='t', type=int, help='Threshold when a touch is a palm') args = parser.parse_args() try: device = Device(args.path) if args.touch_thresholds is not None: device.down, device.up = args.touch_thresholds if args.palm_threshold is not None: device.palm = args.palm_threshold device.read_events() except KeyboardInterrupt: pass except (PermissionError, OSError): print("Error: failed to open device") except InvalidDeviceError as e: print("Error: {}".format(e)) if __name__ == "__main__": main(sys.argv)