mirror of
https://github.com/sezanzeb/input-remapper
synced 2024-11-08 07:10:36 +00:00
381 lines
14 KiB
Python
381 lines
14 KiB
Python
#!/usr/bin/python3
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# -*- coding: utf-8 -*-
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# key-mapper - GUI for device specific keyboard mappings
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# Copyright (C) 2021 sezanzeb <proxima@hip70890b.de>
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#
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# This file is part of key-mapper.
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#
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# key-mapper is free software: you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation, either version 3 of the License, or
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# (at your option) any later version.
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#
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# key-mapper is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with key-mapper. If not, see <https://www.gnu.org/licenses/>.
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import time
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import unittest
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import asyncio
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from keymapper.dev.macros import parse, _Macro, _extract_params, \
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is_this_a_macro, _parse_recurse
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from keymapper.config import config
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from keymapper.mapping import Mapping
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from keymapper.state import system_mapping
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class TestMacros(unittest.TestCase):
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def setUp(self):
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self.result = []
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self.loop = asyncio.get_event_loop()
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self.mapping = Mapping()
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def tearDown(self):
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self.result = []
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self.mapping.clear_config()
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def handler(self, code, value):
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"""Where macros should write codes to."""
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self.result.append((code, value))
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def test_is_this_a_macro(self):
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self.assertTrue(is_this_a_macro('k(1)'))
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self.assertTrue(is_this_a_macro('k(1).k(2)'))
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self.assertTrue(is_this_a_macro('r(1, k(1).k(2))'))
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self.assertFalse(is_this_a_macro('1'))
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self.assertFalse(is_this_a_macro('key_kp1'))
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self.assertFalse(is_this_a_macro('btn_left'))
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self.assertFalse(is_this_a_macro('minus'))
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self.assertFalse(is_this_a_macro('k'))
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def test_extract_params(self):
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def expect(raw, expectation):
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self.assertListEqual(_extract_params(raw), expectation)
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expect('a', ['a'])
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expect('a,b', ['a', 'b'])
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expect('a,b,c', ['a', 'b', 'c'])
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expect('k(a)', ['k(a)'])
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expect('k(a).k(b), k(a)', ['k(a).k(b)', 'k(a)'])
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expect('k(a), k(a).k(b)', ['k(a)', 'k(a).k(b)'])
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expect('r(1, k(a))', ['r(1, k(a))'])
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expect('r(1, k(a)), r(1, k(b))', ['r(1, k(a))', 'r(1, k(b))'])
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expect(
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'r(1, k(a)), r(1, k(b)), r(1, k(c))',
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['r(1, k(a))', 'r(1, k(b))', 'r(1, k(c))']
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)
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expect('', [''])
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expect(',', ['', ''])
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expect(',,', ['', '', ''])
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def test_set_handler(self):
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macro = parse('r(1, r(1, k(1)))', self.mapping)
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one_code = system_mapping.get('1')
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self.assertSetEqual(macro.get_capabilities(), {one_code})
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self.loop.run_until_complete(macro.run())
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self.assertListEqual(self.result, [])
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macro.set_handler(self.handler)
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self.loop.run_until_complete(macro.run())
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self.assertListEqual(self.result, [(one_code, 1), (one_code, 0)])
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def test_fails(self):
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self.assertIsNone(parse('r(1, a)', self.mapping))
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self.assertIsNone(parse('r(a, k(b))', self.mapping))
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self.assertIsNone(parse('m(a, b)', self.mapping))
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def test_parse_params(self):
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self.assertEqual(_parse_recurse('', self.mapping), None)
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self.assertEqual(_parse_recurse('5', self.mapping), 5)
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self.assertEqual(_parse_recurse('foo', self.mapping), 'foo')
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def test_0(self):
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macro = parse('k(1)', self.mapping)
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macro.set_handler(self.handler)
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one_code = system_mapping.get('1')
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self.assertSetEqual(macro.get_capabilities(), {one_code})
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self.loop.run_until_complete(macro.run())
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self.assertListEqual(self.result, [(one_code, 1), (one_code, 0)])
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self.assertEqual(len(macro.child_macros), 0)
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def test_1(self):
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macro = parse('k(1).k(a).k(3)', self.mapping)
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macro.set_handler(self.handler)
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self.assertSetEqual(macro.get_capabilities(), {
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system_mapping.get('1'),
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system_mapping.get('a'),
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system_mapping.get('3')
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})
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self.loop.run_until_complete(macro.run())
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self.assertListEqual(self.result, [
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(system_mapping.get('1'), 1), (system_mapping.get('1'), 0),
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(system_mapping.get('a'), 1), (system_mapping.get('a'), 0),
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(system_mapping.get('3'), 1), (system_mapping.get('3'), 0),
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])
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self.assertEqual(len(macro.child_macros), 0)
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def test_return_errors(self):
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error = parse('k(1).h(k(a)).k(3)', self.mapping, return_errors=True)
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self.assertIsNone(error)
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error = parse('k(1))', self.mapping, return_errors=True)
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self.assertIn('bracket', error)
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error = parse('k((1)', self.mapping, return_errors=True)
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self.assertIn('bracket', error)
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error = parse('k((1).k)', self.mapping, return_errors=True)
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self.assertIsNotNone(error)
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error = parse('r(a, k(1))', self.mapping, return_errors=True)
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self.assertIsNotNone(error)
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error = parse('k()', self.mapping, return_errors=True)
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self.assertIsNotNone(error)
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error = parse('k(1)', self.mapping, return_errors=True)
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self.assertIsNone(error)
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error = parse('k(1, 1)', self.mapping, return_errors=True)
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self.assertIsNotNone(error)
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error = parse('h(1, 1)', self.mapping, return_errors=True)
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self.assertIsNotNone(error)
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error = parse('h(h(h(1, 1)))', self.mapping, return_errors=True)
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self.assertIsNotNone(error)
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error = parse('r(1)', self.mapping, return_errors=True)
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self.assertIsNotNone(error)
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error = parse('r(1, 1)', self.mapping, return_errors=True)
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self.assertIsNotNone(error)
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error = parse('r(k(1), 1)', self.mapping, return_errors=True)
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self.assertIsNotNone(error)
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error = parse('r(1, k(1))', self.mapping, return_errors=True)
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self.assertIsNone(error)
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def test_hold(self):
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macro = parse('k(1).h(k(a)).k(3)', self.mapping)
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macro.set_handler(self.handler)
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self.assertSetEqual(macro.get_capabilities(), {
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system_mapping.get('1'),
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system_mapping.get('a'),
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system_mapping.get('3')
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})
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macro.press_key()
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asyncio.ensure_future(macro.run())
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self.loop.run_until_complete(asyncio.sleep(0.2))
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self.assertTrue(macro.is_holding())
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self.assertGreater(len(self.result), 2)
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macro.release_key()
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self.loop.run_until_complete(asyncio.sleep(0.05))
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self.assertFalse(macro.is_holding())
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self.assertEqual(self.result[0], (system_mapping.get('1'), 1))
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self.assertEqual(self.result[-1], (system_mapping.get('3'), 0))
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code_a = system_mapping.get('a')
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self.assertGreater(self.result.count((code_a, 1)), 2)
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self.assertEqual(len(macro.child_macros), 1)
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def test_dont_hold(self):
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macro = parse('k(1).h(k(a)).k(3)', self.mapping)
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macro.set_handler(self.handler)
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self.assertSetEqual(macro.get_capabilities(), {
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system_mapping.get('1'),
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system_mapping.get('a'),
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system_mapping.get('3')
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})
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asyncio.ensure_future(macro.run())
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self.loop.run_until_complete(asyncio.sleep(0.2))
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self.assertFalse(macro.is_holding())
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# press_key was never called, so the macro completes right away
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# and the child macro of hold is never called.
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self.assertEqual(len(self.result), 4)
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self.assertEqual(self.result[0], (system_mapping.get('1'), 1))
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self.assertEqual(self.result[-1], (system_mapping.get('3'), 0))
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self.assertEqual(len(macro.child_macros), 1)
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def test_just_hold(self):
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macro = parse('k(1).h().k(3)', self.mapping)
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macro.set_handler(self.handler)
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self.assertSetEqual(macro.get_capabilities(), {
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system_mapping.get('1'),
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system_mapping.get('3')
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})
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macro.press_key()
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asyncio.ensure_future(macro.run())
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self.loop.run_until_complete(asyncio.sleep(0.1))
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self.assertTrue(macro.is_holding())
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self.assertEqual(len(self.result), 2)
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self.loop.run_until_complete(asyncio.sleep(0.1))
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# doesn't do fancy stuff, is blocking until the release
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self.assertEqual(len(self.result), 2)
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macro.release_key()
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self.loop.run_until_complete(asyncio.sleep(0.05))
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self.assertFalse(macro.is_holding())
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self.assertEqual(len(self.result), 4)
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self.assertEqual(self.result[0], (system_mapping.get('1'), 1))
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self.assertEqual(self.result[-1], (system_mapping.get('3'), 0))
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self.assertEqual(len(macro.child_macros), 0)
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def test_dont_just_hold(self):
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macro = parse('k(1).h().k(3)', self.mapping)
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macro.set_handler(self.handler)
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self.assertSetEqual(macro.get_capabilities(), {
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system_mapping.get('1'),
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system_mapping.get('3')
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})
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asyncio.ensure_future(macro.run())
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self.loop.run_until_complete(asyncio.sleep(0.1))
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self.assertFalse(macro.is_holding())
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# since press_key was never called it just does the macro
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# completely
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self.assertEqual(len(self.result), 4)
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self.assertEqual(self.result[0], (system_mapping.get('1'), 1))
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self.assertEqual(self.result[-1], (system_mapping.get('3'), 0))
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self.assertEqual(len(macro.child_macros), 0)
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def test_2(self):
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start = time.time()
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repeats = 20
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macro = parse(f'r({repeats}, k(k)).r(1, k(k))', self.mapping)
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macro.set_handler(self.handler)
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k_code = system_mapping.get('k')
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self.assertSetEqual(macro.get_capabilities(), {k_code})
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self.loop.run_until_complete(macro.run())
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keystroke_sleep = self.mapping.get('macros.keystroke_sleep_ms')
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sleep_time = 2 * repeats * keystroke_sleep / 1000
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self.assertGreater(time.time() - start, sleep_time * 0.9)
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self.assertLess(time.time() - start, sleep_time * 1.1)
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self.assertListEqual(
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self.result,
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[(k_code, 1), (k_code, 0)] * (repeats + 1)
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)
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self.assertEqual(len(macro.child_macros), 2)
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self.assertEqual(len(macro.child_macros[0].child_macros), 0)
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def test_3(self):
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start = time.time()
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macro = parse('r(3, k(m).w(100))', self.mapping)
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macro.set_handler(self.handler)
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m_code = system_mapping.get('m')
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self.assertSetEqual(macro.get_capabilities(), {m_code})
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self.loop.run_until_complete(macro.run())
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keystroke_time = 6 * self.mapping.get('macros.keystroke_sleep_ms')
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total_time = keystroke_time + 300
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total_time /= 1000
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self.assertGreater(time.time() - start, total_time * 0.9)
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self.assertLess(time.time() - start, total_time * 1.1)
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self.assertListEqual(self.result, [
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(m_code, 1), (m_code, 0),
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(m_code, 1), (m_code, 0),
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(m_code, 1), (m_code, 0),
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])
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self.assertEqual(len(macro.child_macros), 1)
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self.assertEqual(len(macro.child_macros[0].child_macros), 0)
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def test_4(self):
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macro = parse(' r(2,\nk(\nr ).k(minus\n )).k(m) ', self.mapping)
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macro.set_handler(self.handler)
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r = system_mapping.get('r')
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minus = system_mapping.get('minus')
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m = system_mapping.get('m')
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self.assertSetEqual(macro.get_capabilities(), {r, minus, m})
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self.loop.run_until_complete(macro.run())
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self.assertListEqual(self.result, [
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(r, 1), (r, 0),
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(minus, 1), (minus, 0),
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(r, 1), (r, 0),
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(minus, 1), (minus, 0),
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(m, 1), (m, 0),
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])
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self.assertEqual(len(macro.child_macros), 1)
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self.assertEqual(len(macro.child_macros[0].child_macros), 0)
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def test_5(self):
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start = time.time()
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macro = parse('w(200).r(2,m(w,\nr(2,\tk(BtN_LeFt))).w(10).k(k))', self.mapping)
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macro.set_handler(self.handler)
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self.assertEqual(len(macro.child_macros), 1)
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self.assertEqual(len(macro.child_macros[0].child_macros), 1)
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w = system_mapping.get('w')
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left = system_mapping.get('bTn_lEfT')
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k = system_mapping.get('k')
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self.assertSetEqual(macro.get_capabilities(), {w, left, k})
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self.loop.run_until_complete(macro.run())
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num_pauses = 8 + 6 + 4
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keystroke_time = num_pauses * self.mapping.get('macros.keystroke_sleep_ms')
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wait_time = 220
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total_time = (keystroke_time + wait_time) / 1000
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self.assertLess(time.time() - start, total_time * 1.1)
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self.assertGreater(time.time() - start, total_time * 0.9)
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expected = [(w, 1)]
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expected += [(left, 1), (left, 0)] * 2
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expected += [(w, 0)]
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expected += [(k, 1), (k, 0)]
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expected *= 2
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self.assertListEqual(self.result, expected)
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def test_6(self):
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# does nothing without .run
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macro = parse('k(a).r(3, k(b))', self.mapping)
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macro.set_handler(self.handler)
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self.assertIsInstance(macro, _Macro)
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self.assertListEqual(self.result, [])
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def test_keystroke_sleep_config(self):
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# global config as fallback
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config.set('macros.keystroke_sleep_ms', 100)
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start = time.time()
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macro = parse('k(a).k(b)', self.mapping)
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self.loop.run_until_complete(macro.run())
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delta = time.time() - start
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# is currently over 400, k(b) adds another sleep afterwards
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# that doesn't do anything
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self.assertGreater(delta, 0.300)
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# now set the value in the mapping, which is prioritized
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self.mapping.set('macros.keystroke_sleep_ms', 50)
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start = time.time()
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macro = parse('k(a).k(b)', self.mapping)
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self.loop.run_until_complete(macro.run())
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delta = time.time() - start
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self.assertGreater(delta, 0.150)
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self.assertLess(delta, 0.300)
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if __name__ == '__main__':
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unittest.main()
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