input-remapper/tests/unit/test_mapping.py

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2022-04-17 10:19:23 +00:00
#!/usr/bin/python3
# -*- coding: utf-8 -*-
# input-remapper - GUI for device specific keyboard mappings
# Copyright (C) 2022 sezanzeb <proxima@sezanzeb.de>
#
# This file is part of input-remapper.
#
# input-remapper 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.
#
# input-remapper 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 input-remapper. If not, see <https://www.gnu.org/licenses/>.
import unittest
from functools import partial
from evdev.ecodes import EV_KEY
from pydantic import ValidationError
from inputremapper.configs.mapping import Mapping
from inputremapper.configs.system_mapping import system_mapping
from inputremapper.input_event import EventActions
from inputremapper.event_combination import EventCombination
class TestMapping(unittest.IsolatedAsyncioTestCase):
def test_init(self):
"""Test init and that defaults are set."""
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cfg = {
"event_combination": "1,2,1",
"target_uinput": "keyboard",
"output_symbol": "a",
}
m = Mapping(**cfg)
self.assertEqual(m.event_combination, EventCombination.validate("1,2,1"))
self.assertEqual(m.target_uinput, "keyboard")
self.assertEqual(m.output_symbol, "a")
self.assertIsNone(m.output_code)
self.assertIsNone(m.output_type)
self.assertEqual(m.macro_key_sleep_ms, 20)
self.assertEqual(m.deadzone, 0.1)
self.assertEqual(m.gain, 1)
self.assertEqual(m.expo, 0)
self.assertEqual(m.rate, 60)
self.assertEqual(m.rel_speed, 100)
self.assertEqual(m.rel_input_cutoff, 100)
self.assertEqual(m.release_timeout, 0.05)
def test_get_output_type_code(self):
cfg = {
"event_combination": "1,2,1",
"target_uinput": "keyboard",
"output_symbol": "a",
}
m = Mapping(**cfg)
a = system_mapping.get("a")
self.assertEqual(m.get_output_type_code(), (EV_KEY, a))
m.output_symbol = "key(a)"
self.assertIsNone(m.get_output_type_code())
cfg = {
"event_combination": "1,2,1+3,1,0",
"target_uinput": "keyboard",
"output_type": 2,
"output_code": 3,
}
m = Mapping(**cfg)
self.assertEqual(m.get_output_type_code(), (2, 3))
def test_init_sets_event_actions(self):
"""Test that InputEvent.actions are set properly."""
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cfg = {
"event_combination": "1,2,1+2,1,1+3,1,0",
"target_uinput": "keyboard",
"output_type": 2,
"output_code": 3,
}
m = Mapping(**cfg)
expected_actions = [EventActions.as_key, EventActions.as_key, EventActions.none]
actions = [event.action for event in m.event_combination]
self.assertEqual(expected_actions, actions)
# copy keeps the event action
m2 = m.copy()
actions = [event.action for event in m2.event_combination]
self.assertEqual(expected_actions, actions)
# changing the combination sets the action
m3 = m.copy()
m3.event_combination = "1,2,1+2,1,0+3,1,10"
expected_actions = [EventActions.as_key, EventActions.none, EventActions.as_key]
actions = [event.action for event in m3.event_combination]
self.assertEqual(expected_actions, actions)
def test_combination_changed_callback(self):
cfg = {
"event_combination": "1,1,1",
"target_uinput": "keyboard",
"output_symbol": "a",
}
m = Mapping(**cfg)
arguments = []
def callback(*args):
arguments.append(tuple(args))
m.set_combination_changed_callback(callback)
m.event_combination = "1,1,2"
m.event_combination = "1,1,3"
# make sure a copy works as expected and keeps the callback
m2 = m.copy()
m2.event_combination = "1,1,4"
m2.remove_combination_changed_callback()
m.remove_combination_changed_callback()
m.event_combination = "1,1,5"
m2.event_combination = "1,1,6"
self.assertEqual(
arguments,
[
(
EventCombination.from_string("1,1,2"),
EventCombination.from_string("1,1,1"),
),
(
EventCombination.from_string("1,1,3"),
EventCombination.from_string("1,1,2"),
),
(
EventCombination.from_string("1,1,4"),
EventCombination.from_string("1,1,3"),
),
],
)
m.remove_combination_changed_callback()
def test_init_fails(self):
"""Test that the init fails with invalid data."""
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test = partial(self.assertRaises, ValidationError, Mapping)
cfg = {
"event_combination": "1,2,3",
"target_uinput": "keyboard",
"output_symbol": "a",
}
Mapping(**cfg)
# missing output symbol
del cfg["output_symbol"]
test(**cfg)
cfg["output_code"] = 1
test(**cfg)
cfg["output_type"] = 1
Mapping(**cfg)
# matching type, code and symbol
a = system_mapping.get("a")
cfg["output_code"] = a
cfg["output_symbol"] = "a"
cfg["output_type"] = EV_KEY
Mapping(**cfg)
# macro + type and code
cfg["output_symbol"] = "key(a)"
test(**cfg)
cfg["output_symbol"] = "a"
Mapping(**cfg)
# mismatching type, code and symbol
cfg["output_symbol"] = "b"
test(**cfg)
del cfg["output_type"]
del cfg["output_code"]
Mapping(**cfg) # no error
# empty symbol string without type and code
cfg["output_symbol"] = ""
test(**cfg)
cfg["output_symbol"] = "a"
# missing target
del cfg["target_uinput"]
test(**cfg)
# unknown target
cfg["target_uinput"] = "foo"
test(**cfg)
cfg["target_uinput"] = "keyboard"
Mapping(**cfg)
# missing event_combination
del cfg["event_combination"]
test(**cfg)
cfg["event_combination"] = "1,2,3"
Mapping(**cfg)
# no macro and not a known symbol
cfg["output_symbol"] = "qux"
test(**cfg)
cfg["output_symbol"] = "key(a)"
Mapping(**cfg)
# invalid macro
cfg["output_symbol"] = "key('a')"
test(**cfg)
cfg["output_symbol"] = "a"
Mapping(**cfg)
# map axis but no output type and code given
cfg["event_combination"] = "3,0,0"
test(**cfg)
del cfg["output_symbol"]
cfg["output_code"] = 1
cfg["output_type"] = 3
Mapping(**cfg)
# empty symbol string is allowed when type and code is set
cfg["output_symbol"] = ""
Mapping(**cfg)
del cfg["output_symbol"]
# multiple axis as axis in event combination
cfg["event_combination"] = "3,0,0+3,1,0"
test(**cfg)
cfg["event_combination"] = "3,0,0"
Mapping(**cfg)
del cfg["output_type"]
del cfg["output_code"]
cfg["event_combination"] = "1,2,3"
cfg["output_symbol"] = "a"
Mapping(**cfg)
# map EV_ABS as key with trigger point out of range
cfg["event_combination"] = "3,0,100"
test(**cfg)
cfg["event_combination"] = "3,0,99"
Mapping(**cfg)
cfg["event_combination"] = "3,0,-100"
test(**cfg)
cfg["event_combination"] = "3,0,-99"
Mapping(**cfg)
cfg["event_combination"] = "1,2,3"
Mapping(**cfg)
# deadzone out of range
test(**cfg, deadzone=1.01)
test(**cfg, deadzone=-0.01)
Mapping(**cfg, deadzone=1)
Mapping(**cfg, deadzone=0)
# expo out of range
test(**cfg, expo=1.01)
test(**cfg, expo=-1.01)
Mapping(**cfg, expo=1)
Mapping(**cfg, expo=-1)
# negative rate
test(**cfg, rate=-1)
test(**cfg, rate=0)
Mapping(**cfg, rate=1)
Mapping(**cfg, rate=200)
# negative rel_speed
test(**cfg, rel_speed=-1)
test(**cfg, rel_speed=0)
Mapping(**cfg, rel_speed=1)
Mapping(**cfg, rel_speed=200)
# negative rel_input_cutoff
test(**cfg, rel_input_cutoff=-1)
test(**cfg, rel_input_cutoff=0)
Mapping(**cfg, rel_input_cutoff=1)
Mapping(**cfg, rel_input_cutoff=200)
# negative release timeout
test(**cfg, release_timeout=-0.1)
test(**cfg, release_timeout=0)
Mapping(**cfg, release_timeout=0.05)
Mapping(**cfg, release_timeout=0.3)
def test_revalidate_at_assignment(self):
cfg = {
"event_combination": "1,1,1",
"target_uinput": "keyboard",
"output_symbol": "a",
}
m = Mapping(**cfg)
test = partial(self.assertRaises, ValidationError, m.__setattr__)
# invalid input event
test("event_combination", "1,2,3,4")
# unknown target
test("target_uinput", "foo")
# invalid macro
test("output_symbol", "key()")
# we could do a lot more tests here but since pydantic uses the same validation
# code as for the initialization we only need to make sure that the
# assignment validation is active
def test_set_invalid_combination_with_callback(self):
cfg = {
"event_combination": "1,1,1",
"target_uinput": "keyboard",
"output_symbol": "a",
}
m = Mapping(**cfg)
m.set_combination_changed_callback(lambda *args: None)
self.assertRaises(ValidationError, m.__setattr__, "event_combination", "1,2")
m.event_combination = "1,2,3"
m.event_combination = "1,2,3"
def test_is_valid(self):
cfg = {
"event_combination": "1,1,1",
"target_uinput": "keyboard",
"output_symbol": "a",
}
m = Mapping(**cfg)
self.assertTrue(m.is_valid())
if __name__ == "__main__":
unittest.main()