#!/usr/bin/env python # # A library that provides a Python interface to the Telegram Bot API # Copyright (C) 2015-2024 # Leandro Toledo de Souza # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU Lesser Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program 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 Lesser Public License for more details. # # You should have received a copy of the GNU Lesser Public License # along with this program. If not, see [http://www.gnu.org/licenses/]. import pytest from telegram.ext._utils.trackingdict import TrackingDict from tests.auxil.slots import mro_slots @pytest.fixture() def td() -> TrackingDict: td = TrackingDict() td.update_no_track({1: 1}) return td @pytest.fixture() def data() -> dict: return {1: 1} class TestTrackingDict: def test_slot_behaviour(self, td): for attr in td.__slots__: assert getattr(td, attr, "err") != "err", f"got extra slot '{attr}'" assert len(mro_slots(td)) == len(set(mro_slots(td))), "duplicate slot" def test_representations(self, td, data): assert repr(td) == repr(data) assert str(td) == str(data) def test_len(self, td, data): assert len(td) == len(data) def test_boolean(self, td, data): assert bool(td) == bool(data) assert bool(TrackingDict()) == bool({}) def test_equality(self, td, data): assert td == data assert data == td assert td != TrackingDict() assert TrackingDict() != td td_2 = TrackingDict() td_2["foo"] = 7 assert td != td_2 assert td_2 != td assert td != 1 assert td != 1 assert td != 5 assert td != 5 def test_getitem(self, td): assert td[1] == 1 assert not td.pop_accessed_write_items() assert not td.pop_accessed_keys() def test_setitem(self, td): td[5] = 5 assert td[5] == 5 assert td.pop_accessed_write_items() == [(5, 5)] td[5] = 7 assert td[5] == 7 assert td.pop_accessed_keys() == {5} def test_delitem(self, td): assert not td.pop_accessed_keys() td[5] = 7 del td[1] assert 1 not in td assert td.pop_accessed_keys() == {1, 5} td[1] = 7 td[5] = 7 assert td.pop_accessed_keys() == {1, 5} del td[5] assert 5 not in td assert td.pop_accessed_write_items() == [(5, TrackingDict.DELETED)] def test_update_no_track(self, td): assert not td.pop_accessed_keys() td.update_no_track({2: 2, 3: 3}) assert td == {1: 1, 2: 2, 3: 3} assert not td.pop_accessed_keys() def test_pop(self, td): td.pop(1) assert 1 not in td assert td.pop_accessed_keys() == {1} td[1] = 7 td[5] = 8 assert 1 in td assert 5 in td assert td.pop_accessed_keys() == {1, 5} td.pop(5) assert 5 not in td assert td.pop_accessed_write_items() == [(5, TrackingDict.DELETED)] with pytest.raises(KeyError): td.pop(5) assert td.pop(5, 8) == 8 assert 5 not in td assert not td.pop_accessed_keys() assert td.pop(5, 8) == 8 assert 5 not in td assert not td.pop_accessed_write_items() def test_popitem(self, td): td.update_no_track({2: 2}) assert td.popitem() == (1, 1) assert 1 not in td assert td.pop_accessed_keys() == {1} assert td.popitem() == (2, 2) assert 2 not in td assert not td assert td.pop_accessed_write_items() == [(2, TrackingDict.DELETED)] with pytest.raises(KeyError): td.popitem() def test_clear(self, td): td.clear() assert td == {} assert td.pop_accessed_keys() == {1} td[5] = 7 assert 5 in td assert td.pop_accessed_keys() == {5} td.clear() assert td == {} assert td.pop_accessed_write_items() == [(5, TrackingDict.DELETED)] def test_set_default(self, td): assert td.setdefault(1, 2) == 1 assert td[1] == 1 assert not td.pop_accessed_keys() assert not td.pop_accessed_write_items() assert td.setdefault(2, 3) == 3 assert td[2] == 3 assert td.pop_accessed_keys() == {2} assert td.setdefault(3, 4) == 4 assert td[3] == 4 assert td.pop_accessed_write_items() == [(3, 4)] def test_iter(self, td, data): data.update({2: 2, 3: 3, 4: 4}) td.update_no_track({2: 2, 3: 3, 4: 4}) assert not td.pop_accessed_keys() assert list(iter(td)) == list(iter(data)) def test_mark_as_accessed(self, td): td[1] = 2 assert td.pop_accessed_keys() == {1} assert td.pop_accessed_keys() == set() td.mark_as_accessed(1) assert td.pop_accessed_keys() == {1}