115 lines
3.9 KiB
Python
Executable File
115 lines
3.9 KiB
Python
Executable File
#!/usr/bin/env python2
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import os
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import os.path
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import re
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import subprocess
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import sys
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import time
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from collections import namedtuple
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devicename = 'NTRG0001:01 1B96:1B05'
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freq = 5.0
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MONITOR_CONNECTED_RE = re.compile(r'\bconnected\b')
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DIGITIZER_RE = re.compile(r'NTRG0001\:01\s+1B96\:1B05')
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PEN_RE = re.compile(r'\bPen (stylus|eraser)\b')
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PROXIMITY_RE = re.compile(r'\bProximity\=(\w+)', re.M)
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current_orientation = ''
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currently_proximate = False
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xinput_statemap = {True: 'disable', False: 'enable'}
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def find_accelerometers():
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spath = '/sys/bus/iio/devices/'
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dpath = [os.path.join(spath, p) for p in os.listdir('/sys/bus/iio/devices/')
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if re.match('iio\:device\d', p) and os.path.exists(os.path.join(spath, p, 'in_accel_scale'))]
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if not dpath:
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sys.stderr.write("Could not find iio device to monitor.")
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sys.exit(1)
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return (os.path.join(dpath[0], 'in_accel_x_raw'),
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os.path.join(dpath[0], 'in_accel_y_raw'))
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x_accel_path, y_accel_path = find_accelerometers()
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def refreshtouch():
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os.system('xinput disable "NTRG0001:01 1B96:1B05"')
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os.system('xinput enable "NTRG0001:01 1B96:1B05"')
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def countdisplays():
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return int(len([l for l in subprocess.check_output(['xrandr', '--current']).splitlines()
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if MONITOR_CONNECTED_RE.search(l)]))
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# Landscape
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def lsx(thex): return thex >= 65000 or thex <= 650
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# Portrait
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def ptx(thex): return not lsx(thex)
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# Left
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def lfy(they): return they <= 65000 and they >= 64000
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# Right
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def rgy(they): return not lfy(they)
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# It's a little odd that X labels it 'left' when you've just turned
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# the tablet to the right, and vice versa, but that's the convention,
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# I guess.
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Transform = namedtuple('Tranform', ['name', 'mode', 'matrix', 'xrule', 'yrule'])
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transforms = [
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Transform('normal', 0, '1 0 0 0 1 0 0 0 1', lsx, lfy),
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Transform('inverted', 1, '-1 0 1 0 -1 1 0 0 1', lsx, rgy),
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Transform('left', 2, '0 -1 1 1 0 0 0 0 1', ptx, rgy),
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Transform('right', 3, '0 1 0 -1 0 1 0 0 1', ptx, lfy)
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]
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def is_in(pen):
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res = PROXIMITY_RE.search(subprocess.check_output(['xinput', 'query-state', pen]))
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return (res and res.group(1).lower() == 'in')
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while True:
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int_displays = countdisplays()
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time.sleep(1.0/freq)
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if int_displays == 1:
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# Check accelerometers
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# Do we need to check the touch_devices list every time? I
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# think we do; the list will change dynamically if we
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# dynamically load the stylus driver after the system has
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# booted.
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touch_devices = filter(lambda n: DIGITIZER_RE.match(n),
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subprocess.check_output(['xinput', '--list', '--name-only']).splitlines())
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with open(x_accel_path, 'r') as fx:
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with open(y_accel_path, 'r') as fy:
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thex = float(fx.readline())
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they = float(fy.readline())
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for check in transforms:
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if check.xrule(thex) and check.yrule(they):
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if current_orientation != check.name:
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print "Switching to orientation %s" % check.name
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os.system('xrandr -o %s' % check.name)
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for device in touch_devices:
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os.system("xinput set-prop '%s' 'Coordinate Transformation Matrix' %s" %
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(device, check.matrix))
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current_orientation = check.name
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refreshtouch()
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# Palm rejection (sort-of):
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pen_devices = [p for p in touch_devices if PEN_RE.search(p)]
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pen_status = bool([p for p in pen_devices if is_in(p)])
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if pen_status != currently_proximate:
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print "%s palm rejection" % ("Activating" if pen_status else "Deactivating")
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currently_proximate = pen_status
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os.system("xinput %s '%s'" % (xinput_statemap[pen_status], devicename))
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