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LinVAM/keyboard/_nixkeyboard.py

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2019-04-09 00:20:07 +10:00
# -*- coding: utf-8 -*-
import struct
import traceback
from time import time as now
from collections import namedtuple
from ._keyboard_event import KeyboardEvent, KEY_DOWN, KEY_UP
from ._canonical_names import all_modifiers, normalize_name
from ._nixcommon import EV_KEY, aggregate_devices, ensure_root
# TODO: start by reading current keyboard state, as to not missing any already pressed keys.
# See: http://stackoverflow.com/questions/3649874/how-to-get-keyboard-state-in-linux
def cleanup_key(name):
""" Formats a dumpkeys format to our standard. """
name = name.lstrip('+')
is_keypad = name.startswith('KP_')
for mod in ('Meta_', 'Control_', 'dead_', 'KP_'):
if name.startswith(mod):
name = name[len(mod):]
# Dumpkeys is weird like that.
if name == 'Remove':
name = 'Delete'
elif name == 'Delete':
name = 'Backspace'
if name.endswith('_r'):
name = 'right ' + name[:-2]
if name.endswith('_l'):
name = 'left ' + name[:-2]
return normalize_name(name), is_keypad
def cleanup_modifier(modifier):
modifier = normalize_name(modifier)
if modifier in all_modifiers:
return modifier
if modifier[:-1] in all_modifiers:
return modifier[:-1]
raise ValueError('Unknown modifier {}'.format(modifier))
"""
Use `dumpkeys --keys-only` to list all scan codes and their names. We
then parse the output and built a table. For each scan code and modifiers we
have a list of names and vice-versa.
"""
from subprocess import check_output
from collections import defaultdict
import re
to_name = defaultdict(list)
from_name = defaultdict(list)
keypad_scan_codes = set()
def register_key(key_and_modifiers, name):
if name not in to_name[key_and_modifiers]:
to_name[key_and_modifiers].append(name)
if key_and_modifiers not in from_name[name]:
from_name[name].append(key_and_modifiers)
def build_tables():
if to_name and from_name: return
ensure_root()
modifiers_bits = {
'shift': 1,
'alt gr': 2,
'ctrl': 4,
'alt': 8,
}
keycode_template = r'^keycode\s+(\d+)\s+=(.*?)$'
dump = check_output(['dumpkeys', '--keys-only'], universal_newlines=True)
for str_scan_code, str_names in re.findall(keycode_template, dump, re.MULTILINE):
scan_code = int(str_scan_code)
for i, str_name in enumerate(str_names.strip().split()):
modifiers = tuple(sorted(modifier for modifier, bit in modifiers_bits.items() if i & bit))
name, is_keypad = cleanup_key(str_name)
register_key((scan_code, modifiers), name)
if is_keypad:
keypad_scan_codes.add(scan_code)
register_key((scan_code, modifiers), 'keypad ' + name)
# dumpkeys consistently misreports the Windows key, sometimes
# skipping it completely or reporting as 'alt. 125 = left win,
# 126 = right win.
if (125, ()) not in to_name or to_name[(125, ())] == 'alt':
register_key((125, ()), 'windows')
if (126, ()) not in to_name or to_name[(126, ())] == 'alt':
register_key((126, ()), 'windows')
# The menu key is usually skipped altogether, so we also add it manually.
if (127, ()) not in to_name:
register_key((127, ()), 'menu')
synonyms_template = r'^(\S+)\s+for (.+)$'
dump = check_output(['dumpkeys', '--long-info'], universal_newlines=True)
for synonym_str, original_str in re.findall(synonyms_template, dump, re.MULTILINE):
synonym, _ = cleanup_key(synonym_str)
original, _ = cleanup_key(original_str)
if synonym != original:
from_name[original].extend(from_name[synonym])
from_name[synonym].extend(from_name[original])
device = None
def build_device():
global device
if device: return
ensure_root()
device = aggregate_devices('kbd')
def init():
build_device()
build_tables()
pressed_modifiers = set()
def listen(callback):
build_device()
build_tables()
while True:
time, type, code, value, device_id = device.read_event()
if type != EV_KEY:
continue
scan_code = code
event_type = KEY_DOWN if value else KEY_UP # 0 = UP, 1 = DOWN, 2 = HOLD
pressed_modifiers_tuple = tuple(sorted(pressed_modifiers))
names = to_name[(scan_code, pressed_modifiers_tuple)] or to_name[(scan_code, ())] or ['unknown']
name = names[0]
if name in all_modifiers:
if event_type == KEY_DOWN:
pressed_modifiers.add(name)
else:
pressed_modifiers.discard(name)
is_keypad = scan_code in keypad_scan_codes
callback(KeyboardEvent(event_type=event_type, scan_code=scan_code, name=name, time=time, device=device_id, is_keypad=is_keypad, modifiers=pressed_modifiers_tuple))
def write_event(scan_code, is_down):
build_device()
device.write_event(EV_KEY, scan_code, int(is_down))
def map_name(name):
build_tables()
for entry in from_name[name]:
yield entry
parts = name.split(' ', 1)
if len(parts) > 1 and parts[0] in ('left', 'right'):
for entry in from_name[parts[1]]:
yield entry
def press(scan_code):
write_event(scan_code, True)
def release(scan_code):
write_event(scan_code, False)
def type_unicode(character):
codepoint = ord(character)
hexadecimal = hex(codepoint)[len('0x'):]
for key in ['ctrl', 'shift', 'u']:
scan_code, _ = next(map_name(key))
press(scan_code)
for key in hexadecimal:
scan_code, _ = next(map_name(key))
press(scan_code)
release(scan_code)
for key in ['ctrl', 'shift', 'u']:
scan_code, _ = next(map_name(key))
release(scan_code)
if __name__ == '__main__':
def p(e):
print(e)
listen(p)