/usr/lib/python2.7/dist-packages/evdev/events.py is in python-evdev 0.4.7-0ubuntu4.
This file is owned by root:root, with mode 0o644.
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'''
This module provides the :class:`InputEvent` class, which closely
resembles the ``input_event`` struct defined in ``linux/input.h``:
.. code-block:: c
struct input_event {
struct timeval time;
__u16 type;
__u16 code;
__s32 value;
};
This module also defines several :class:`InputEvent` sub-classes that
know more about the different types of events (key, abs, rel etc). The
:data:`event_factory` dictionary maps event types to these classes.
Assuming you use the :func:`evdev.util.categorize()` function to
categorize events according to their type, adding or replacing a class
for a specific event type becomes a matter of modifying
:data:`event_factory`.
All classes in this module have reasonable ``str()`` and ``repr()``
methods::
>>> print(event)
event at 1337197425.477827, code 04, type 04, val 458792
>>> print(repr(event))
InputEvent(1337197425L, 477827L, 4, 4, 458792L)
>>> print(key_event)
key event at 1337197425.477835, 28 (KEY_ENTER), up
>>> print(repr(key_event))
KeyEvent(InputEvent(1337197425L, 477835L, 1, 28, 0L))
'''
# event type descriptions have been taken mot-a-mot from:
# http://www.kernel.org/doc/Documentation/input/event-codes.txt
from evdev.ecodes import keys, KEY, SYN, REL, ABS, EV_KEY, EV_REL, EV_ABS, EV_SYN
class InputEvent(object):
'''A generic input event.'''
__slots__ = 'sec', 'usec', 'type', 'code', 'value'
def __init__(self, sec, usec, type, code, value):
#: Time in seconds since epoch at which event occurred.
self.sec = sec
#: Microsecond portion of the timestamp.
self.usec = usec
#: Event type - one of ``ecodes.EV_*``.
self.type = type
#: Event code related to the event type.
self.code = code
#: Event value related to the event type.
self.value = value
def timestamp(self):
'''Return event timestamp as a float.'''
return self.sec + (self.usec / 1000000.0)
def __str__(s):
msg = 'event at {:f}, code {:02d}, type {:02d}, val {:02d}'
return msg.format(s.timestamp(), s.code, s.type, s.value)
def __repr__(s):
msg = '{}({!r}, {!r}, {!r}, {!r}, {!r})'
return msg.format(s.__class__.__name__,
s.sec, s.usec, s.type, s.code, s.value)
class KeyEvent(object):
'''An event generated by a keyboard, button or other key-like devices.'''
key_up = 0x0
key_down = 0x1
key_hold = 0x2
__slots__ = 'scancode', 'keycode', 'keystate', 'event'
def __init__(self, event):
if event.value == 0:
self.keystate = KeyEvent.key_up
elif event.value == 2:
self.keystate = KeyEvent.key_hold
elif event.value == 1:
self.keystate = KeyEvent.key_down
self.keycode = keys[event.code] # :todo:
self.scancode = event.code
#: Reference to an :class:`InputEvent` instance.
self.event = event
def __str__(self):
try:
ks = ('up', 'down', 'hold')[self.keystate]
except IndexError:
ks = 'unknown'
msg = 'key event at {:f}, {} ({}), {}'
return msg.format(self.event.timestamp(),
self.scancode, self.keycode, ks)
def __repr__(s):
return '{}({!r})'.format(s.__class__.__name__, s.event)
class RelEvent(object):
'''A relative axis event (e.g moving the mouse 5 units to the left).'''
__slots__ = 'event'
def __init__(self, event):
#: Reference to an :class:`InputEvent` instance.
self.event = event
def __str__(self):
msg = 'relative axis event at {:f}, {} '
return msg.format(self.event.timestamp(), REL[self.event.code])
def __repr__(s):
return '{}({!r})'.format(s.__class__.__name__, s.event)
class AbsEvent(object):
'''An absolute axis event (e.g the coordinates of a tap on a touchscreen).'''
__slots__ = 'event'
def __init__(self, event):
#: Reference to an :class:`InputEvent` instance.
self.event = event
def __str__(self):
msg = 'absolute axis event at {:f}, {} '
return msg.format(self.event.timestamp(), ABS[self.event.code])
def __repr__(s):
return '{}({!r})'.format(s.__class__.__name__, s.event)
class SynEvent(object):
'''
A synchronization event. Synchronization events are used as
markers to separate event. Used as markers to separate
events. Events may be separated in time or in space, such as with
the multitouch protocol.
'''
__slots__ = 'event'
def __init__(self, event):
#: Reference to an :class:`InputEvent` instance.
self.event = event
def __str__(self):
msg = 'synchronization event at {:f}, {} '
return msg.format(self.event.timestamp(), SYN[self.event.code])
def __repr__(s):
return '{}({!r})'.format(s.__class__.__name__, s.event)
#: A mapping of event types to :class:`InputEvent` sub-classes. Used
#: by :func:`evdev.util.categorize()`
event_factory = {
EV_KEY: KeyEvent,
EV_REL: RelEvent,
EV_ABS: AbsEvent,
EV_SYN: SynEvent,
}
__all__ = ('InputEvent', 'KeyEvent', 'RelEvent', 'SynEvent',
'AbsEvent', 'event_factory')
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