'''
Native support of Wacom tablet from linuxwacom driver
=====================================================
To configure LinuxWacom, add this to your configuration::
[input]
pen = linuxwacom,/dev/input/event2,mode=pen
finger = linuxwacom,/dev/input/event3,mode=touch
.. note::
You must have read access to the input event.
You can use a custom range for the X, Y and pressure values.
On some drivers, the range reported is invalid.
To fix that, you can add these options to the argument line:
* invert_x : 1 to invert X axis
* invert_y : 1 to invert Y axis
* min_position_x : X minimum
* max_position_x : X maximum
* min_position_y : Y minimum
* max_position_y : Y maximum
* min_pressure : pressure minimum
* max_pressure : pressure maximum
'''
__all__ = ('LinuxWacomMotionEventProvider', 'LinuxWacomMotionEvent')
import os
from kivy.input.motionevent import MotionEvent
from kivy.input.shape import ShapeRect
[docs]class LinuxWacomMotionEvent(MotionEvent):
[docs] def depack(self, args):
self.is_touch = True
self.sx = args['x']
self.sy = args['y']
self.profile = ['pos']
if 'size_w' in args and 'size_h' in args:
self.shape = ShapeRect()
self.shape.width = args['size_w']
self.shape.height = args['size_h']
self.profile.append('shape')
if 'pressure' in args:
self.pressure = args['pressure']
self.profile.append('pressure')
super(LinuxWacomMotionEvent, self).depack(args)
def __str__(self):
return '<LinuxWacomMotionEvent id=%d pos=(%f, %f) device=%s>' \
% (self.id, self.sx, self.sy, self.device)
if 'KIVY_DOC' in os.environ:
# documentation hack
LinuxWacomMotionEventProvider = None
else:
import threading
import collections
import struct
import fcntl
from kivy.input.provider import MotionEventProvider
from kivy.input.factory import MotionEventFactory
from kivy.logger import Logger
#
# This part is taken from linux-source-2.6.32/include/linux/input.h
#
# Event types
EV_SYN = 0x00
EV_KEY = 0x01
EV_REL = 0x02
EV_ABS = 0x03
EV_MSC = 0x04
EV_SW = 0x05
EV_LED = 0x11
EV_SND = 0x12
EV_REP = 0x14
EV_FF = 0x15
EV_PWR = 0x16
EV_FF_STATUS = 0x17
EV_MAX = 0x1f
EV_CNT = (EV_MAX + 1)
KEY_MAX = 0x2ff
# Synchronization events
SYN_REPORT = 0
SYN_CONFIG = 1
SYN_MT_REPORT = 2
# Misc events
MSC_SERIAL = 0x00
MSC_PULSELED = 0x01
MSC_GESTURE = 0x02
MSC_RAW = 0x03
MSC_SCAN = 0x04
MSC_MAX = 0x07
MSC_CNT = (MSC_MAX + 1)
ABS_X = 0x00
ABS_Y = 0x01
ABS_PRESSURE = 0x18
ABS_MISC = 0x28 # if 0, it's touch up
ABS_MT_TOUCH_MAJOR = 0x30 # Major axis of touching ellipse
ABS_MT_TOUCH_MINOR = 0x31 # Minor axis (omit if circular)
ABS_MT_WIDTH_MAJOR = 0x32 # Major axis of approaching ellipse
ABS_MT_WIDTH_MINOR = 0x33 # Minor axis (omit if circular)
ABS_MT_ORIENTATION = 0x34 # Ellipse orientation
ABS_MT_POSITION_X = 0x35 # Center X ellipse position
ABS_MT_POSITION_Y = 0x36 # Center Y ellipse position
ABS_MT_TOOL_TYPE = 0x37 # Type of touching device
ABS_MT_BLOB_ID = 0x38 # Group a set of packets as a blob
ABS_MT_TRACKING_ID = 0x39 # Unique ID of initiated contact
ABS_MT_PRESSURE = 0x3a # Pressure on contact area
# some ioctl base (with 0 value)
EVIOCGNAME = 2147501318
EVIOCGBIT = 2147501344
EVIOCGABS = 2149074240
# sizeof(struct input_event)
struct_input_event_sz = struct.calcsize('LLHHi')
struct_input_absinfo_sz = struct.calcsize('iiiiii')
sz_l = struct.calcsize('Q')
class LinuxWacomMotionEventProvider(MotionEventProvider):
options = ('min_position_x', 'max_position_x',
'min_position_y', 'max_position_y',
'min_pressure', 'max_pressure',
'invert_x', 'invert_y')
def __init__(self, device, args):
super(LinuxWacomMotionEventProvider, self).__init__(device, args)
self.input_fn = None
self.default_ranges = dict()
self.mode = 'touch'
# split arguments
args = args.split(',')
if not args:
Logger.error('LinuxWacom: No filename given in config')
Logger.error('LinuxWacom: Use /dev/input/event0 for example')
return
# read filename
self.input_fn = args[0]
Logger.info('LinuxWacom: Read event from <%s>' % self.input_fn)
# read parameters
for arg in args[1:]:
if arg == '':
continue
arg = arg.split('=')
# ensure it's a key = value
if len(arg) != 2:
err = 'LinuxWacom: Bad parameter' \
'%s: Not in key=value format.' % arg
Logger.error(err)
continue
# ensure the key exist
key, value = arg
if key == 'mode':
self.mode = value
continue
if key not in LinuxWacomMotionEventProvider.options:
Logger.error('LinuxWacom: unknown %s option' % key)
continue
# ensure the value
try:
self.default_ranges[key] = int(value)
except ValueError:
err = 'LinuxWacom: value %s invalid for %s' % (key, value)
Logger.error(err)
continue
# all good!
msg = 'LinuxWacom: Set custom %s to %d' % (key, int(value))
Logger.info(msg)
Logger.info('LinuxWacom: mode is <%s>' % self.mode)
def start(self):
if self.input_fn is None:
return
self.uid = 0
self.queue = collections.deque()
self.thread = threading.Thread(
target=self._thread_run,
kwargs=dict(
queue=self.queue,
input_fn=self.input_fn,
device=self.device,
default_ranges=self.default_ranges))
self.thread.daemon = True
self.thread.start()
def _thread_run(self, **kwargs):
input_fn = kwargs.get('input_fn')
queue = kwargs.get('queue')
device = kwargs.get('device')
drs = kwargs.get('default_ranges').get
touches = {}
touches_sent = []
l_points = {}
# prepare some vars to get limit of some component
range_min_position_x = 0
range_max_position_x = 2048
range_min_position_y = 0
range_max_position_y = 2048
range_min_pressure = 0
range_max_pressure = 255
invert_x = int(bool(drs('invert_x', 0)))
invert_y = int(bool(drs('invert_y', 0)))
reset_touch = False
def process(points):
actives = list(points.keys())
for args in points.values():
tid = args['id']
try:
touch = touches[tid]
except KeyError:
touch = LinuxWacomMotionEvent(device, tid, args)
touches[touch.id] = touch
if touch.sx == args['x'] \
and touch.sy == args['y'] \
and tid in touches_sent:
continue
touch.move(args)
if tid not in touches_sent:
queue.append(('begin', touch))
touches_sent.append(tid)
queue.append(('update', touch))
for tid in list(touches.keys())[:]:
if tid not in actives:
touch = touches[tid]
if tid in touches_sent:
touch.update_time_end()
queue.append(('end', touch))
touches_sent.remove(tid)
del touches[tid]
def normalize(value, vmin, vmax):
return (value - vmin) / float(vmax - vmin)
# open the input
try:
fd = open(input_fn, 'rb')
except IOError:
Logger.exception('Unable to open %s' % input_fn)
return
# get the controler name (EVIOCGNAME)
device_name = fcntl.ioctl(fd, EVIOCGNAME + (256 << 16),
" " * 256).split('\x00')[0]
Logger.info('LinuxWacom: using <%s>' % device_name)
# get abs infos
bit = fcntl.ioctl(fd, EVIOCGBIT + (EV_MAX << 16), ' ' * sz_l)
bit, = struct.unpack('Q', bit)
for x in range(EV_MAX):
# preserve this, we may want other things than EV_ABS
if x != EV_ABS:
continue
# EV_ABS available for this device ?
if (bit & (1 << x)) == 0:
continue
# ask abs info keys to the devices
sbit = fcntl.ioctl(fd, EVIOCGBIT + x + (KEY_MAX << 16),
' ' * sz_l)
sbit, = struct.unpack('Q', sbit)
for y in range(KEY_MAX):
if (sbit & (1 << y)) == 0:
continue
absinfo = fcntl.ioctl(fd, EVIOCGABS + y +
(struct_input_absinfo_sz << 16),
' ' * struct_input_absinfo_sz)
abs_value, abs_min, abs_max, abs_fuzz, \
abs_flat, abs_res = struct.unpack('iiiiii', absinfo)
if y == ABS_X:
range_min_position_x = drs('min_position_x', abs_min)
range_max_position_x = drs('max_position_x', abs_max)
Logger.info('LinuxWacom: ' +
'<%s> range position X is %d - %d' % (
device_name, abs_min, abs_max))
elif y == ABS_Y:
range_min_position_y = drs('min_position_y', abs_min)
range_max_position_y = drs('max_position_y', abs_max)
Logger.info('LinuxWacom: ' +
'<%s> range position Y is %d - %d' % (
device_name, abs_min, abs_max))
elif y == ABS_PRESSURE:
range_min_pressure = drs('min_pressure', abs_min)
range_max_pressure = drs('max_pressure', abs_max)
Logger.info('LinuxWacom: ' +
'<%s> range pressure is %d - %d' % (
device_name, abs_min, abs_max))
# read until the end
changed = False
touch_id = 0
touch_x = 0
touch_y = 0
touch_pressure = 0
while fd:
data = fd.read(struct_input_event_sz)
if len(data) < struct_input_event_sz:
break
# extract each event
for i in range(len(data) / struct_input_event_sz):
ev = data[i * struct_input_event_sz:]
# extract timeval + event infos
tv_sec, tv_usec, ev_type, ev_code, ev_value = \
struct.unpack('LLHHi', ev[:struct_input_event_sz])
if ev_type == EV_SYN and ev_code == SYN_REPORT:
if touch_id in l_points:
p = l_points[touch_id]
else:
p = dict()
l_points[touch_id] = p
p['id'] = touch_id
if not reset_touch:
p['x'] = touch_x
p['y'] = touch_y
p['pressure'] = touch_pressure
if self.mode == 'pen' \
and touch_pressure == 0 \
and not reset_touch:
del l_points[touch_id]
if changed:
if 'x' not in p:
reset_touch = False
continue
process(l_points)
changed = False
if reset_touch:
l_points.clear()
reset_touch = False
process(l_points)
elif ev_type == EV_MSC and ev_code == MSC_SERIAL:
touch_id = ev_value
elif ev_type == EV_ABS and ev_code == ABS_X:
val = normalize(ev_value,
range_min_position_x,
range_max_position_x)
if invert_x:
val = 1. - val
touch_x = val
changed = True
elif ev_type == EV_ABS and ev_code == ABS_Y:
val = 1. - normalize(ev_value,
range_min_position_y,
range_max_position_y)
if invert_y:
val = 1. - val
touch_y = val
changed = True
elif ev_type == EV_ABS and ev_code == ABS_PRESSURE:
touch_pressure = normalize(ev_value,
range_min_pressure,
range_max_pressure)
changed = True
elif ev_type == EV_ABS and ev_code == ABS_MISC:
if ev_value == 0:
reset_touch = True
def update(self, dispatch_fn):
# dispatch all event from threads
try:
while True:
event_type, touch = self.queue.popleft()
dispatch_fn(event_type, touch)
except:
pass
MotionEventFactory.register('linuxwacom', LinuxWacomMotionEventProvider)