#!/usr/bin/env python # A library that provides a Python interface to the Telegram Bot API # Copyright (C) 2015-2023 # 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/]. from datetime import datetime, timedelta, timezone import pytest from telegram import MessageEntity, Poll, PollAnswer, PollOption, User from telegram._utils.datetime import UTC, to_timestamp from telegram.constants import PollType from tests.auxil.slots import mro_slots @pytest.fixture(scope="module") def poll_option(): out = PollOption(text=TestPollOptionBase.text, voter_count=TestPollOptionBase.voter_count) out._unfreeze() return out class TestPollOptionBase: text = "test option" voter_count = 3 class TestPollOptionWithoutRequest(TestPollOptionBase): def test_slot_behaviour(self, poll_option): for attr in poll_option.__slots__: assert getattr(poll_option, attr, "err") != "err", f"got extra slot '{attr}'" assert len(mro_slots(poll_option)) == len(set(mro_slots(poll_option))), "duplicate slot" def test_de_json(self): json_dict = {"text": self.text, "voter_count": self.voter_count} poll_option = PollOption.de_json(json_dict, None) assert poll_option.api_kwargs == {} assert poll_option.text == self.text assert poll_option.voter_count == self.voter_count def test_to_dict(self, poll_option): poll_option_dict = poll_option.to_dict() assert isinstance(poll_option_dict, dict) assert poll_option_dict["text"] == poll_option.text assert poll_option_dict["voter_count"] == poll_option.voter_count def test_equality(self): a = PollOption("text", 1) b = PollOption("text", 1) c = PollOption("text_1", 1) d = PollOption("text", 2) e = Poll(123, "question", ["O1", "O2"], 1, False, True, Poll.REGULAR, True) assert a == b assert hash(a) == hash(b) assert a != c assert hash(a) != hash(c) assert a != d assert hash(a) != hash(d) assert a != e assert hash(a) != hash(e) @pytest.fixture(scope="module") def poll_answer(): return PollAnswer( TestPollAnswerBase.poll_id, TestPollAnswerBase.user, TestPollAnswerBase.poll_id ) class TestPollAnswerBase: poll_id = "id" user = User(1, "", False) option_ids = [2] class TestPollAnswerWithoutRequest(TestPollAnswerBase): def test_de_json(self): json_dict = { "poll_id": self.poll_id, "user": self.user.to_dict(), "option_ids": self.option_ids, } poll_answer = PollAnswer.de_json(json_dict, None) assert poll_answer.api_kwargs == {} assert poll_answer.poll_id == self.poll_id assert poll_answer.user == self.user assert poll_answer.option_ids == tuple(self.option_ids) def test_to_dict(self, poll_answer): poll_answer_dict = poll_answer.to_dict() assert isinstance(poll_answer_dict, dict) assert poll_answer_dict["poll_id"] == poll_answer.poll_id assert poll_answer_dict["user"] == poll_answer.user.to_dict() assert poll_answer_dict["option_ids"] == list(poll_answer.option_ids) def test_equality(self): a = PollAnswer(123, self.user, [2]) b = PollAnswer(123, User(1, "first", False), [2]) c = PollAnswer(123, self.user, [1, 2]) d = PollAnswer(456, self.user, [2]) e = PollOption("Text", 1) assert a == b assert hash(a) == hash(b) assert a != c assert hash(a) != hash(c) assert a != d assert hash(a) != hash(d) assert a != e assert hash(a) != hash(e) @pytest.fixture(scope="module") def poll(): poll = Poll( TestPollBase.id_, TestPollBase.question, TestPollBase.options, TestPollBase.total_voter_count, TestPollBase.is_closed, TestPollBase.is_anonymous, TestPollBase.type, TestPollBase.allows_multiple_answers, explanation=TestPollBase.explanation, explanation_entities=TestPollBase.explanation_entities, open_period=TestPollBase.open_period, close_date=TestPollBase.close_date, ) poll._unfreeze() return poll class TestPollBase: id_ = "id" question = "Test?" options = [PollOption("test", 10), PollOption("test2", 11)] total_voter_count = 0 is_closed = True is_anonymous = False type = Poll.REGULAR allows_multiple_answers = True explanation = ( b"\\U0001f469\\u200d\\U0001f469\\u200d\\U0001f467" b"\\u200d\\U0001f467\\U0001f431http://google.com" ).decode("unicode-escape") explanation_entities = [MessageEntity(13, 17, MessageEntity.URL)] open_period = 42 close_date = datetime.now(timezone.utc) class TestPollWithoutRequest(TestPollBase): def test_de_json(self, bot): json_dict = { "id": self.id_, "question": self.question, "options": [o.to_dict() for o in self.options], "total_voter_count": self.total_voter_count, "is_closed": self.is_closed, "is_anonymous": self.is_anonymous, "type": self.type, "allows_multiple_answers": self.allows_multiple_answers, "explanation": self.explanation, "explanation_entities": [self.explanation_entities[0].to_dict()], "open_period": self.open_period, "close_date": to_timestamp(self.close_date), } poll = Poll.de_json(json_dict, bot) assert poll.api_kwargs == {} assert poll.id == self.id_ assert poll.question == self.question assert poll.options == tuple(self.options) assert poll.options[0].text == self.options[0].text assert poll.options[0].voter_count == self.options[0].voter_count assert poll.options[1].text == self.options[1].text assert poll.options[1].voter_count == self.options[1].voter_count assert poll.total_voter_count == self.total_voter_count assert poll.is_closed == self.is_closed assert poll.is_anonymous == self.is_anonymous assert poll.type == self.type assert poll.allows_multiple_answers == self.allows_multiple_answers assert poll.explanation == self.explanation assert poll.explanation_entities == tuple(self.explanation_entities) assert poll.open_period == self.open_period assert abs(poll.close_date - self.close_date) < timedelta(seconds=1) assert to_timestamp(poll.close_date) == to_timestamp(self.close_date) def test_de_json_localization(self, tz_bot, bot, raw_bot): json_dict = { "id": self.id_, "question": self.question, "options": [o.to_dict() for o in self.options], "total_voter_count": self.total_voter_count, "is_closed": self.is_closed, "is_anonymous": self.is_anonymous, "type": self.type, "allows_multiple_answers": self.allows_multiple_answers, "explanation": self.explanation, "explanation_entities": [self.explanation_entities[0].to_dict()], "open_period": self.open_period, "close_date": to_timestamp(self.close_date), } poll_raw = Poll.de_json(json_dict, raw_bot) poll_bot = Poll.de_json(json_dict, bot) poll_bot_tz = Poll.de_json(json_dict, tz_bot) # comparing utcoffsets because comparing timezones is unpredicatable poll_bot_tz_offset = poll_bot_tz.close_date.utcoffset() tz_bot_offset = tz_bot.defaults.tzinfo.utcoffset( poll_bot_tz.close_date.replace(tzinfo=None) ) assert poll_raw.close_date.tzinfo == UTC assert poll_bot.close_date.tzinfo == UTC assert poll_bot_tz_offset == tz_bot_offset def test_to_dict(self, poll): poll_dict = poll.to_dict() assert isinstance(poll_dict, dict) assert poll_dict["id"] == poll.id assert poll_dict["question"] == poll.question assert poll_dict["options"] == [o.to_dict() for o in poll.options] assert poll_dict["total_voter_count"] == poll.total_voter_count assert poll_dict["is_closed"] == poll.is_closed assert poll_dict["is_anonymous"] == poll.is_anonymous assert poll_dict["type"] == poll.type assert poll_dict["allows_multiple_answers"] == poll.allows_multiple_answers assert poll_dict["explanation"] == poll.explanation assert poll_dict["explanation_entities"] == [poll.explanation_entities[0].to_dict()] assert poll_dict["open_period"] == poll.open_period assert poll_dict["close_date"] == to_timestamp(poll.close_date) def test_equality(self): a = Poll(123, "question", ["O1", "O2"], 1, False, True, Poll.REGULAR, True) b = Poll(123, "question", ["o1", "o2"], 1, True, False, Poll.REGULAR, True) c = Poll(456, "question", ["o1", "o2"], 1, True, False, Poll.REGULAR, True) d = PollOption("Text", 1) assert a == b assert hash(a) == hash(b) assert a != c assert hash(a) != hash(c) assert a != d assert hash(a) != hash(d) def test_enum_init(self): poll = Poll( type="foo", id="id", question="question", options=[], total_voter_count=0, is_closed=False, is_anonymous=False, allows_multiple_answers=False, ) assert poll.type == "foo" poll = Poll( type=PollType.QUIZ, id="id", question="question", options=[], total_voter_count=0, is_closed=False, is_anonymous=False, allows_multiple_answers=False, ) assert poll.type is PollType.QUIZ def test_parse_entity(self, poll): entity = MessageEntity(type=MessageEntity.URL, offset=13, length=17) poll.explanation_entities = [entity] assert poll.parse_explanation_entity(entity) == "http://google.com" with pytest.raises(RuntimeError, match="Poll has no"): Poll( "id", "question", [PollOption("text", voter_count=0)], total_voter_count=0, is_closed=False, is_anonymous=False, type=Poll.QUIZ, allows_multiple_answers=False, ).parse_explanation_entity(entity) def test_parse_entities(self, poll): entity = MessageEntity(type=MessageEntity.URL, offset=13, length=17) entity_2 = MessageEntity(type=MessageEntity.BOLD, offset=13, length=1) poll.explanation_entities = [entity_2, entity] assert poll.parse_explanation_entities(MessageEntity.URL) == {entity: "http://google.com"} assert poll.parse_explanation_entities() == {entity: "http://google.com", entity_2: "h"}