input-remapper/tests/testcases/test_groups.py

264 lines
8.0 KiB
Python

#!/usr/bin/python3
# -*- coding: utf-8 -*-
# key-mapper - GUI for device specific keyboard mappings
# Copyright (C) 2021 sezanzeb <proxima@sezanzeb.de>
#
# This file is part of key-mapper.
#
# key-mapper is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# key-mapper is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with key-mapper. If not, see <https://www.gnu.org/licenses/>.
import os
import unittest
import json
import evdev
from evdev.ecodes import EV_KEY, KEY_A
from keymapper.paths import CONFIG_PATH
from keymapper.groups import _FindGroups, groups, classify, \
GAMEPAD, MOUSE, UNKNOWN, GRAPHICS_TABLET, TOUCHPAD, \
KEYBOARD, _Group
from tests.test import quick_cleanup, fixtures
class FakePipe:
groups = None
def send(self, groups):
self.groups = groups
class TestGroups(unittest.TestCase):
def tearDown(self):
quick_cleanup()
def test_group(self):
group = _Group(
paths=['/dev/a', '/dev/b', '/dev/c'],
names=['name_bar', 'name_a', 'name_foo'],
types=[MOUSE, KEYBOARD, UNKNOWN],
key='key'
)
self.assertEqual(group.name, 'name_a')
self.assertEqual(group.key, 'key')
self.assertEqual(
group.get_preset_path('preset1234'),
os.path.join(CONFIG_PATH, 'presets', group.name, 'preset1234.json')
)
def test_find_groups(self):
pipe = FakePipe()
_FindGroups(pipe).run()
self.assertIsInstance(pipe.groups, str)
groups.loads(pipe.groups)
self.maxDiff = None
self.assertEqual(groups.dumps(), json.dumps([
json.dumps({
'paths': [
'/dev/input/event1',
],
'names': [
'Foo Device'
],
'types': [KEYBOARD],
'key': 'Foo Device'
}),
json.dumps({
'paths': [
'/dev/input/event11',
'/dev/input/event10',
'/dev/input/event13'
],
'names': [
'Foo Device foo',
'Foo Device',
'Foo Device'
],
'types': [KEYBOARD, MOUSE],
'key': 'Foo Device 2'
}),
json.dumps({
'paths': ['/dev/input/event20'],
'names': ['Bar Device'],
'types': [KEYBOARD],
'key': 'Bar Device'
}),
json.dumps({
'paths': ['/dev/input/event30'],
'names': ['gamepad'],
'types': [GAMEPAD],
'key': 'gamepad'
}),
json.dumps({
'paths': ['/dev/input/event40'],
'names': ['key-mapper Bar Device'],
'types': [KEYBOARD],
'key': 'key-mapper Bar Device'
}),
]))
groups2 = json.dumps([
group.dumps() for group in
groups.filter(include_keymapper=True)
])
self.assertEqual(pipe.groups, groups2)
def test_list_group_names(self):
self.assertListEqual(groups.list_group_names(), [
'Foo Device',
'Foo Device',
'Bar Device',
'gamepad',
])
def test_filter(self):
# by default no key-mapper devices are present
filtered = groups.filter()
keys = [group.key for group in filtered]
self.assertIn('Foo Device 2', keys)
self.assertNotIn('key-mapper Bar Device', keys)
def test_skip_camera(self):
fixtures['/foo/bar'] = {
'name': 'camera', 'phys': 'abcd1',
'info': evdev.DeviceInfo(1, 2, 3, 4),
'capabilities': {
evdev.ecodes.EV_KEY: [
evdev.ecodes.KEY_CAMERA
]
}
}
groups.refresh()
self.assertIsNone(groups.find(name='camera'))
self.assertIsNotNone(groups.find(name='gamepad'))
def test_device_with_only_ev_abs(self):
# could be anything, a lot of devices have ABS_X capabilities,
# so it is not treated as gamepad joystick and since it also
# doesn't have key capabilities, there is nothing to map.
fixtures['/foo/bar'] = {
'name': 'qux', 'phys': 'abcd2',
'info': evdev.DeviceInfo(1, 2, 3, 4),
'capabilities': {
evdev.ecodes.EV_ABS: [
evdev.ecodes.ABS_X
]
}
}
groups.refresh()
self.assertIsNotNone(groups.find(name='gamepad'))
self.assertIsNone(groups.find(name='qux'))
# verify this test even works at all
fixtures['/foo/bar']['capabilities'][EV_KEY] = [KEY_A]
groups.refresh()
self.assertIsNotNone(groups.find(name='qux'))
def test_duplicate_device(self):
fixtures['/dev/input/event20']['name'] = 'Foo Device'
groups.refresh()
group1 = groups.find(key='Foo Device')
group2 = groups.find(key='Foo Device 2')
group3 = groups.find(key='Foo Device 3')
self.assertIn('/dev/input/event1', group1.paths)
self.assertIn('/dev/input/event10', group2.paths)
self.assertIn('/dev/input/event20', group3.paths)
self.assertEqual(group1.key, 'Foo Device')
self.assertEqual(group2.key, 'Foo Device 2')
self.assertEqual(group3.key, 'Foo Device 3')
self.assertEqual(group1.name, 'Foo Device')
self.assertEqual(group2.name, 'Foo Device')
self.assertEqual(group3.name, 'Foo Device')
def test_classify(self):
# properly detects if the device is a gamepad
EV_ABS = evdev.ecodes.EV_ABS
EV_KEY = evdev.ecodes.EV_KEY
EV_REL = evdev.ecodes.EV_REL
class FakeDevice:
def __init__(self, capabilities):
self.c = capabilities
def capabilities(self, absinfo):
assert not absinfo
return self.c
"""gamepads"""
self.assertEqual(classify(FakeDevice({
EV_ABS: [evdev.ecodes.ABS_X, evdev.ecodes.ABS_Y],
EV_KEY: [evdev.ecodes.BTN_A]
})), GAMEPAD)
"""mice"""
self.assertEqual(classify(FakeDevice({
EV_REL: [evdev.ecodes.REL_X, evdev.ecodes.REL_Y, evdev.ecodes.REL_WHEEL],
EV_KEY: [evdev.ecodes.BTN_LEFT]
})), MOUSE)
"""keyboard"""
self.assertEqual(classify(FakeDevice({
EV_KEY: [evdev.ecodes.KEY_A]
})), KEYBOARD)
"""touchpads"""
self.assertEqual(classify(FakeDevice({
EV_KEY: [evdev.ecodes.KEY_A],
EV_ABS: [evdev.ecodes.ABS_MT_POSITION_X]
})), TOUCHPAD)
"""graphics tablets"""
self.assertEqual(classify(FakeDevice({
EV_ABS: [evdev.ecodes.ABS_X, evdev.ecodes.ABS_Y],
EV_KEY: [evdev.ecodes.BTN_STYLUS]
})), GRAPHICS_TABLET)
"""weird combos"""
self.assertEqual(classify(FakeDevice({
EV_ABS: [evdev.ecodes.ABS_X, evdev.ecodes.ABS_Y],
EV_KEY: [evdev.ecodes.KEY_1]
})), UNKNOWN)
self.assertEqual(classify(FakeDevice({
EV_ABS: [evdev.ecodes.ABS_X],
EV_KEY: [evdev.ecodes.BTN_A]
})), UNKNOWN)
self.assertEqual(classify(FakeDevice({
EV_KEY: [evdev.ecodes.BTN_A]
})), UNKNOWN)
self.assertEqual(classify(FakeDevice({
EV_ABS: [evdev.ecodes.ABS_X]
})), UNKNOWN)
if __name__ == "__main__":
unittest.main()