#!/usr/bin/env python # # A library that provides a Python interface to the Telegram Bot API # Copyright (C) 2015-2018 # 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 logging from time import sleep import pytest from telegram import (CallbackQuery, Chat, ChosenInlineResult, InlineQuery, Message, PreCheckoutQuery, ShippingQuery, Update, User, MessageEntity) from telegram.ext import (ConversationHandler, CommandHandler, CallbackQueryHandler, MessageHandler, Filters, InlineQueryHandler) @pytest.fixture(scope='class') def user1(): return User(first_name='Misses Test', id=123, is_bot=False) @pytest.fixture(scope='class') def user2(): return User(first_name='Mister Test', id=124, is_bot=False) class TestConversationHandler(object): # State definitions # At first we're thirsty. Then we brew coffee, we drink it # and then we can start coding! END, THIRSTY, BREWING, DRINKING, CODING = range(-1, 4) # Drinking state definitions (nested) # At first we're holding the cup. Then we sip coffee, and last we swallow it HOLDING, SIPPING, SWALLOWING, REPLENISHING, STOPPING = map(chr, range(ord('a'), ord('f'))) current_state, entry_points, states, fallbacks = None, None, None, None group = Chat(0, Chat.GROUP) second_group = Chat(1, Chat.GROUP) # Test related @pytest.fixture(autouse=True) def reset(self): self.current_state = dict() self.entry_points = [CommandHandler('start', self.start)] self.states = { self.THIRSTY: [CommandHandler('brew', self.brew), CommandHandler('wait', self.start)], self.BREWING: [CommandHandler('pourCoffee', self.drink)], self.DRINKING: [CommandHandler('startCoding', self.code), CommandHandler('drinkMore', self.drink), CommandHandler('end', self.end)], self.CODING: [ CommandHandler('keepCoding', self.code), CommandHandler('gettingThirsty', self.start), CommandHandler('drinkMore', self.drink) ] } self.fallbacks = [CommandHandler('eat', self.start)] self.is_timeout = False # for nesting tests self.nested_states = { self.THIRSTY: [CommandHandler('brew', self.brew), CommandHandler('wait', self.start)], self.BREWING: [CommandHandler('pourCoffee', self.drink)], self.CODING: [ CommandHandler('keepCoding', self.code), CommandHandler('gettingThirsty', self.start), CommandHandler('drinkMore', self.drink) ], } self.drinking_entry_points = [CommandHandler('hold', self.hold)] self.drinking_states = { self.HOLDING: [CommandHandler('sip', self.sip)], self.SIPPING: [CommandHandler('swallow', self.swallow)], self.SWALLOWING: [CommandHandler('hold', self.hold)] } self.drinking_fallbacks = [CommandHandler('replenish', self.replenish), CommandHandler('stop', self.stop), CommandHandler('end', self.end), CommandHandler('startCoding', self.code), CommandHandler('drinkMore', self.drink)] self.drinking_entry_points.extend(self.drinking_fallbacks) # Map nested states to parent states: self.drinking_map_to_parent = { # Option 1 - Map a fictional internal state to an external parent state self.REPLENISHING: self.BREWING, # Option 2 - Map a fictional internal state to the END state on the parent self.STOPPING: self.END, # Option 3 - Map the internal END state to an external parent state self.END: self.CODING, # Option 4 - Map an external state to the same external parent state self.CODING: self.CODING, # Option 5 - Map an external state to the internal entry point self.DRINKING: self.DRINKING } # State handlers def _set_state(self, update, state): self.current_state[update.message.from_user.id] = state return state # Actions def start(self, bot, update): return self._set_state(update, self.THIRSTY) def end(self, bot, update): return self._set_state(update, self.END) def start_end(self, bot, update): return self._set_state(update, self.END) def start_none(self, bot, update): return self._set_state(update, None) def brew(self, bot, update): return self._set_state(update, self.BREWING) def drink(self, bot, update): return self._set_state(update, self.DRINKING) def code(self, bot, update): return self._set_state(update, self.CODING) def passout(self, bot, update): assert update.message.text == '/brew' self.is_timeout = True def passout2(self, bot, update): self.is_timeout = True # Drinking actions (nested) def hold(self, bot, update): return self._set_state(update, self.HOLDING) def sip(self, bot, update): return self._set_state(update, self.SIPPING) def swallow(self, bot, update): return self._set_state(update, self.SWALLOWING) def replenish(self, bot, update): return self._set_state(update, self.REPLENISHING) def stop(self, bot, update): return self._set_state(update, self.STOPPING) # Tests def test_per_all_false(self): with pytest.raises(ValueError, match="can't all be 'False'"): ConversationHandler(self.entry_points, self.states, self.fallbacks, per_chat=False, per_user=False, per_message=False) def test_name_and_persistent(self, dp): with pytest.raises(ValueError, match="when handler is unnamed"): dp.add_handler(ConversationHandler([], {}, [], persistent=True)) c = ConversationHandler([], {}, [], name="handler", persistent=True) assert c.name == "handler" def test_conversation_handler(self, dp, bot, user1, user2): handler = ConversationHandler(entry_points=self.entry_points, states=self.states, fallbacks=self.fallbacks) dp.add_handler(handler) # User one, starts the state machine. message = Message(0, user1, None, self.group, text='/start', entities=[MessageEntity(type=MessageEntity.BOT_COMMAND, offset=0, length=len('/start'))], bot=bot) dp.process_update(Update(update_id=0, message=message)) assert self.current_state[user1.id] == self.THIRSTY # The user is thirsty and wants to brew coffee. message.text = '/brew' message.entities[0].length = len('/brew') dp.process_update(Update(update_id=0, message=message)) assert self.current_state[user1.id] == self.BREWING # Lets see if an invalid command makes sure, no state is changed. message.text = '/nothing' message.entities[0].length = len('/nothing') dp.process_update(Update(update_id=0, message=message)) assert self.current_state[user1.id] == self.BREWING # Lets see if the state machine still works by pouring coffee. message.text = '/pourCoffee' message.entities[0].length = len('/pourCoffee') dp.process_update(Update(update_id=0, message=message)) assert self.current_state[user1.id] == self.DRINKING # Let's now verify that for another user, who did not start yet, # the state has not been changed. message.from_user = user2 dp.process_update(Update(update_id=0, message=message)) with pytest.raises(KeyError): self.current_state[user2.id] def test_conversation_handler_end(self, caplog, dp, bot, user1): handler = ConversationHandler(entry_points=self.entry_points, states=self.states, fallbacks=self.fallbacks) dp.add_handler(handler) message = Message(0, user1, None, self.group, text='/start', entities=[MessageEntity(type=MessageEntity.BOT_COMMAND, offset=0, length=len('/start'))], bot=bot) dp.process_update(Update(update_id=0, message=message)) message.text = '/brew' message.entities[0].length = len('/brew') dp.process_update(Update(update_id=0, message=message)) message.text = '/pourCoffee' message.entities[0].length = len('/pourCoffee') dp.process_update(Update(update_id=0, message=message)) message.text = '/end' message.entities[0].length = len('/end') caplog.clear() with caplog.at_level(logging.ERROR): dp.process_update(Update(update_id=0, message=message)) assert len(caplog.records) == 0 assert self.current_state[user1.id] == self.END with pytest.raises(KeyError): print(handler.conversations[(self.group.id, user1.id)]) def test_conversation_handler_fallback(self, dp, bot, user1, user2): handler = ConversationHandler(entry_points=self.entry_points, states=self.states, fallbacks=self.fallbacks) dp.add_handler(handler) # first check if fallback will not trigger start when not started message = Message(0, user1, None, self.group, text='/eat', entities=[MessageEntity(type=MessageEntity.BOT_COMMAND, offset=0, length=len('/eat'))], bot=bot) dp.process_update(Update(update_id=0, message=message)) with pytest.raises(KeyError): self.current_state[user1.id] # User starts the state machine. message.text = '/start' message.entities[0].length = len('/start') dp.process_update(Update(update_id=0, message=message)) assert self.current_state[user1.id] == self.THIRSTY # The user is thirsty and wants to brew coffee. message.text = '/brew' message.entities[0].length = len('/brew') dp.process_update(Update(update_id=0, message=message)) assert self.current_state[user1.id] == self.BREWING # Now a fallback command is issued message.text = '/eat' message.entities[0].length = len('/eat') dp.process_update(Update(update_id=0, message=message)) assert self.current_state[user1.id] == self.THIRSTY def test_conversation_handler_per_chat(self, dp, bot, user1, user2): handler = ConversationHandler( entry_points=self.entry_points, states=self.states, fallbacks=self.fallbacks, per_user=False) dp.add_handler(handler) # User one, starts the state machine. message = Message(0, user1, None, self.group, text='/start', entities=[MessageEntity(type=MessageEntity.BOT_COMMAND, offset=0, length=len('/start'))], bot=bot) dp.process_update(Update(update_id=0, message=message)) # The user is thirsty and wants to brew coffee. message.text = '/brew' message.entities[0].length = len('/brew') dp.process_update(Update(update_id=0, message=message)) # Let's now verify that for another user, who did not start yet, # the state will be changed because they are in the same group. message.from_user = user2 message.text = '/pourCoffee' message.entities[0].length = len('/pourCoffee') dp.process_update(Update(update_id=0, message=message)) assert handler.conversations[(self.group.id,)] == self.DRINKING def test_conversation_handler_per_user(self, dp, bot, user1): handler = ConversationHandler( entry_points=self.entry_points, states=self.states, fallbacks=self.fallbacks, per_chat=False) dp.add_handler(handler) # User one, starts the state machine. message = Message(0, user1, None, self.group, text='/start', entities=[MessageEntity(type=MessageEntity.BOT_COMMAND, offset=0, length=len('/start'))], bot=bot) dp.process_update(Update(update_id=0, message=message)) # The user is thirsty and wants to brew coffee. message.text = '/brew' message.entities[0].length = len('/brew') dp.process_update(Update(update_id=0, message=message)) # Let's now verify that for the same user in a different group, the state will still be # updated message.chat = self.second_group message.text = '/pourCoffee' message.entities[0].length = len('/pourCoffee') dp.process_update(Update(update_id=0, message=message)) assert handler.conversations[(user1.id,)] == self.DRINKING def test_conversation_handler_per_message(self, dp, bot, user1, user2): def entry(bot, update): return 1 def one(bot, update): return 2 def two(bot, update): return ConversationHandler.END handler = ConversationHandler( entry_points=[CallbackQueryHandler(entry)], states={1: [CallbackQueryHandler(one)], 2: [CallbackQueryHandler(two)]}, fallbacks=[], per_message=True) dp.add_handler(handler) # User one, starts the state machine. message = Message(0, user1, None, self.group, text='msg w/ inlinekeyboard', bot=bot) cbq = CallbackQuery(0, user1, None, message=message, data='data', bot=bot) dp.process_update(Update(update_id=0, callback_query=cbq)) assert handler.conversations[(self.group.id, user1.id, message.message_id)] == 1 dp.process_update(Update(update_id=0, callback_query=cbq)) assert handler.conversations[(self.group.id, user1.id, message.message_id)] == 2 # Let's now verify that for a different user in the same group, the state will not be # updated cbq.from_user = user2 dp.process_update(Update(update_id=0, callback_query=cbq)) assert handler.conversations[(self.group.id, user1.id, message.message_id)] == 2 def test_end_on_first_message(self, dp, bot, user1): handler = ConversationHandler( entry_points=[CommandHandler('start', self.start_end)], states={}, fallbacks=[]) dp.add_handler(handler) # User starts the state machine and immediately ends it. message = Message(0, user1, None, self.group, text='/start', entities=[MessageEntity(type=MessageEntity.BOT_COMMAND, offset=0, length=len('/start'))], bot=bot) dp.process_update(Update(update_id=0, message=message)) assert len(handler.conversations) == 0 def test_end_on_first_message_async(self, dp, bot, user1): start_end_async = (lambda bot, update: dp.run_async(self.start_end, bot, update)) handler = ConversationHandler( entry_points=[CommandHandler('start', start_end_async)], states={}, fallbacks=[]) dp.add_handler(handler) # User starts the state machine with an async function that immediately ends the # conversation. Async results are resolved when the users state is queried next time. message = Message(0, user1, None, self.group, text='/start', entities=[MessageEntity(type=MessageEntity.BOT_COMMAND, offset=0, length=len('/start'))], bot=bot) dp.update_queue.put(Update(update_id=0, message=message)) sleep(.1) # Assert that the Promise has been accepted as the new state assert len(handler.conversations) == 1 message.text = 'resolve promise pls' message.entities[0].length = len('resolve promise pls') dp.update_queue.put(Update(update_id=0, message=message)) sleep(.1) # Assert that the Promise has been resolved and the conversation ended. assert len(handler.conversations) == 0 def test_none_on_first_message(self, dp, bot, user1): handler = ConversationHandler( entry_points=[CommandHandler('start', self.start_none)], states={}, fallbacks=[]) dp.add_handler(handler) # User starts the state machine and a callback function returns None message = Message(0, user1, None, self.group, text='/start', bot=bot) dp.process_update(Update(update_id=0, message=message)) assert len(handler.conversations) == 0 def test_none_on_first_message_async(self, dp, bot, user1): start_none_async = (lambda bot, update: dp.run_async(self.start_none, bot, update)) handler = ConversationHandler( entry_points=[CommandHandler('start', start_none_async)], states={}, fallbacks=[]) dp.add_handler(handler) # User starts the state machine with an async function that returns None # Async results are resolved when the users state is queried next time. message = Message(0, user1, None, self.group, text='/start', entities=[MessageEntity(type=MessageEntity.BOT_COMMAND, offset=0, length=len('/start'))], bot=bot) dp.update_queue.put(Update(update_id=0, message=message)) sleep(.1) # Assert that the Promise has been accepted as the new state assert len(handler.conversations) == 1 message.text = 'resolve promise pls' dp.update_queue.put(Update(update_id=0, message=message)) sleep(.1) # Assert that the Promise has been resolved and the conversation ended. assert len(handler.conversations) == 0 def test_per_chat_message_without_chat(self, bot, user1): handler = ConversationHandler( entry_points=[CommandHandler('start', self.start_end)], states={}, fallbacks=[]) cbq = CallbackQuery(0, user1, None, None, bot=bot) update = Update(0, callback_query=cbq) assert not handler.check_update(update) def test_channel_message_without_chat(self, bot): handler = ConversationHandler(entry_points=[CommandHandler('start', self.start_end)], states={}, fallbacks=[]) message = Message(0, None, None, Chat(0, Chat.CHANNEL, 'Misses Test'), bot=bot) update = Update(0, message=message) assert not handler.check_update(update) def test_all_update_types(self, dp, bot, user1): handler = ConversationHandler(entry_points=[CommandHandler('start', self.start_end)], states={}, fallbacks=[]) message = Message(0, user1, None, self.group, text='ignore', bot=bot) callback_query = CallbackQuery(0, user1, None, message=message, data='data', bot=bot) chosen_inline_result = ChosenInlineResult(0, user1, 'query', bot=bot) inline_query = InlineQuery(0, user1, 'query', 0, bot=bot) pre_checkout_query = PreCheckoutQuery(0, user1, 'USD', 100, [], bot=bot) shipping_query = ShippingQuery(0, user1, [], None, bot=bot) assert not handler.check_update(Update(0, callback_query=callback_query)) assert not handler.check_update(Update(0, chosen_inline_result=chosen_inline_result)) assert not handler.check_update(Update(0, inline_query=inline_query)) assert not handler.check_update(Update(0, message=message)) assert not handler.check_update(Update(0, pre_checkout_query=pre_checkout_query)) assert not handler.check_update(Update(0, shipping_query=shipping_query)) def test_conversation_timeout(self, dp, bot, user1): handler = ConversationHandler(entry_points=self.entry_points, states=self.states, fallbacks=self.fallbacks, conversation_timeout=0.5) dp.add_handler(handler) # Start state machine, then reach timeout message = Message(0, user1, None, self.group, text='/start', entities=[MessageEntity(type=MessageEntity.BOT_COMMAND, offset=0, length=len('/start'))], bot=bot) dp.process_update(Update(update_id=0, message=message)) assert handler.conversations.get((self.group.id, user1.id)) == self.THIRSTY sleep(0.5) dp.job_queue.tick() assert handler.conversations.get((self.group.id, user1.id)) is None # Start state machine, do something, then reach timeout dp.process_update(Update(update_id=1, message=message)) assert handler.conversations.get((self.group.id, user1.id)) == self.THIRSTY message.text = '/brew' message.entities[0].length = len('/brew') dp.job_queue.tick() dp.process_update(Update(update_id=2, message=message)) assert handler.conversations.get((self.group.id, user1.id)) == self.BREWING sleep(0.5) dp.job_queue.tick() assert handler.conversations.get((self.group.id, user1.id)) is None def test_conversation_timeout_keeps_extending(self, dp, bot, user1): handler = ConversationHandler(entry_points=self.entry_points, states=self.states, fallbacks=self.fallbacks, conversation_timeout=0.5) dp.add_handler(handler) # Start state machine, wait, do something, verify the timeout is extended. # t=0 /start (timeout=.5) # t=.25 /brew (timeout=.75) # t=.5 original timeout # t=.6 /pourCoffee (timeout=1.1) # t=.75 second timeout # t=1.1 actual timeout message = Message(0, user1, None, self.group, text='/start', entities=[MessageEntity(type=MessageEntity.BOT_COMMAND, offset=0, length=len('/start'))], bot=bot) dp.process_update(Update(update_id=0, message=message)) assert handler.conversations.get((self.group.id, user1.id)) == self.THIRSTY sleep(0.25) # t=.25 dp.job_queue.tick() assert handler.conversations.get((self.group.id, user1.id)) == self.THIRSTY message.text = '/brew' message.entities[0].length = len('/brew') dp.process_update(Update(update_id=0, message=message)) assert handler.conversations.get((self.group.id, user1.id)) == self.BREWING sleep(0.35) # t=.6 dp.job_queue.tick() assert handler.conversations.get((self.group.id, user1.id)) == self.BREWING message.text = '/pourCoffee' message.entities[0].length = len('/pourCoffee') dp.process_update(Update(update_id=0, message=message)) assert handler.conversations.get((self.group.id, user1.id)) == self.DRINKING sleep(.4) # t=1 dp.job_queue.tick() assert handler.conversations.get((self.group.id, user1.id)) == self.DRINKING sleep(.1) # t=1.1 dp.job_queue.tick() assert handler.conversations.get((self.group.id, user1.id)) is None def test_conversation_timeout_two_users(self, dp, bot, user1, user2): handler = ConversationHandler(entry_points=self.entry_points, states=self.states, fallbacks=self.fallbacks, conversation_timeout=0.5) dp.add_handler(handler) # Start state machine, do something as second user, then reach timeout message = Message(0, user1, None, self.group, text='/start', entities=[MessageEntity(type=MessageEntity.BOT_COMMAND, offset=0, length=len('/start'))], bot=bot) dp.process_update(Update(update_id=0, message=message)) assert handler.conversations.get((self.group.id, user1.id)) == self.THIRSTY message.text = '/brew' message.entities[0].length = len('/brew') message.entities[0].length = len('/brew') message.from_user = user2 dp.job_queue.tick() dp.process_update(Update(update_id=0, message=message)) assert handler.conversations.get((self.group.id, user2.id)) is None message.text = '/start' message.entities[0].length = len('/start') dp.job_queue.tick() dp.process_update(Update(update_id=0, message=message)) assert handler.conversations.get((self.group.id, user2.id)) == self.THIRSTY sleep(0.5) dp.job_queue.tick() assert handler.conversations.get((self.group.id, user1.id)) is None assert handler.conversations.get((self.group.id, user2.id)) is None def test_conversation_handler_timeout_state(self, dp, bot, user1): states = self.states states.update({ConversationHandler.TIMEOUT: [ CommandHandler('brew', self.passout), MessageHandler(~Filters.regex('oding'), self.passout2) ]}) handler = ConversationHandler(entry_points=self.entry_points, states=states, fallbacks=self.fallbacks, conversation_timeout=0.5) dp.add_handler(handler) # CommandHandler timeout message = Message(0, user1, None, self.group, text='/start', entities=[MessageEntity(type=MessageEntity.BOT_COMMAND, offset=0, length=len('/start'))], bot=bot) dp.process_update(Update(update_id=0, message=message)) message.text = '/brew' message.entities[0].length = len('/brew') dp.process_update(Update(update_id=0, message=message)) sleep(0.5) dp.job_queue.tick() assert handler.conversations.get((self.group.id, user1.id)) is None assert self.is_timeout # MessageHandler timeout self.is_timeout = False message.text = '/start' message.entities[0].length = len('/start') dp.process_update(Update(update_id=1, message=message)) sleep(0.5) dp.job_queue.tick() assert handler.conversations.get((self.group.id, user1.id)) is None assert self.is_timeout # Timeout but no valid handler self.is_timeout = False dp.process_update(Update(update_id=0, message=message)) message.text = '/brew' message.entities[0].length = len('/brew') dp.process_update(Update(update_id=0, message=message)) message.text = '/startCoding' message.entities[0].length = len('/startCoding') dp.process_update(Update(update_id=0, message=message)) sleep(0.5) dp.job_queue.tick() assert handler.conversations.get((self.group.id, user1.id)) is None assert not self.is_timeout def test_per_message_warning_is_only_shown_once(self, recwarn): ConversationHandler( entry_points=self.entry_points, states={ self.THIRSTY: [CommandHandler('pourCoffee', self.drink)], self.BREWING: [CommandHandler('startCoding', self.code)] }, fallbacks=self.fallbacks, per_message=True ) assert len(recwarn) == 1 assert str(recwarn[0].message) == ( "If 'per_message=True', all entry points and state handlers" " must be 'CallbackQueryHandler', since no other handlers" " have a message context." ) def test_per_message_false_warning_is_only_shown_once(self, recwarn): ConversationHandler( entry_points=self.entry_points, states={ self.THIRSTY: [CallbackQueryHandler(self.drink)], self.BREWING: [CallbackQueryHandler(self.code)], }, fallbacks=self.fallbacks, per_message=False ) assert len(recwarn) == 1 assert str(recwarn[0].message) == ( "If 'per_message=False', 'CallbackQueryHandler' will not be " "tracked for every message." ) def test_warnings_per_chat_is_only_shown_once(self, recwarn): def hello(bot, update): return self.BREWING def bye(bot, update): return ConversationHandler.END ConversationHandler( entry_points=self.entry_points, states={ self.THIRSTY: [InlineQueryHandler(hello)], self.BREWING: [InlineQueryHandler(bye)] }, fallbacks=self.fallbacks, per_chat=True ) assert len(recwarn) == 1 assert str(recwarn[0].message) == ( "If 'per_chat=True', 'InlineQueryHandler' can not be used," " since inline queries have no chat context." ) def test_nested_conversation_handler(self, dp, bot, user1, user2): self.nested_states[self.DRINKING] = [ConversationHandler( entry_points=self.drinking_entry_points, states=self.drinking_states, fallbacks=self.drinking_fallbacks, map_to_parent=self.drinking_map_to_parent)] handler = ConversationHandler(entry_points=self.entry_points, states=self.nested_states, fallbacks=self.fallbacks) dp.add_handler(handler) # User one, starts the state machine. message = Message(0, user1, None, self.group, text='/start', bot=bot, entities=[MessageEntity(type=MessageEntity.BOT_COMMAND, offset=0, length=len('/start'))]) dp.process_update(Update(update_id=0, message=message)) assert self.current_state[user1.id] == self.THIRSTY # The user is thirsty and wants to brew coffee. message.text = '/brew' message.entities[0].length = len('/brew') dp.process_update(Update(update_id=0, message=message)) assert self.current_state[user1.id] == self.BREWING # Lets pour some coffee. message.text = '/pourCoffee' message.entities[0].length = len('/pourCoffee') dp.process_update(Update(update_id=0, message=message)) assert self.current_state[user1.id] == self.DRINKING # The user is holding the cup message.text = '/hold' message.entities[0].length = len('/hold') dp.process_update(Update(update_id=0, message=message)) assert self.current_state[user1.id] == self.HOLDING # The user is sipping coffee message.text = '/sip' message.entities[0].length = len('/sip') dp.process_update(Update(update_id=0, message=message)) assert self.current_state[user1.id] == self.SIPPING # The user is swallowing message.text = '/swallow' message.entities[0].length = len('/swallow') dp.process_update(Update(update_id=0, message=message)) assert self.current_state[user1.id] == self.SWALLOWING # The user is holding the cup again message.text = '/hold' message.entities[0].length = len('/hold') dp.process_update(Update(update_id=0, message=message)) assert self.current_state[user1.id] == self.HOLDING # The user wants to replenish the coffee supply message.text = '/replenish' message.entities[0].length = len('/replenish') dp.process_update(Update(update_id=0, message=message)) assert self.current_state[user1.id] == self.REPLENISHING assert handler.conversations[(0, user1.id)] == self.BREWING # The user wants to drink their coffee again message.text = '/pourCoffee' message.entities[0].length = len('/pourCoffee') dp.process_update(Update(update_id=0, message=message)) assert self.current_state[user1.id] == self.DRINKING # The user is now ready to start coding message.text = '/startCoding' message.entities[0].length = len('/startCoding') dp.process_update(Update(update_id=0, message=message)) assert self.current_state[user1.id] == self.CODING # The user decides it's time to drink again message.text = '/drinkMore' message.entities[0].length = len('/drinkMore') dp.process_update(Update(update_id=0, message=message)) assert self.current_state[user1.id] == self.DRINKING # The user is holding their cup message.text = '/hold' message.entities[0].length = len('/hold') dp.process_update(Update(update_id=0, message=message)) assert self.current_state[user1.id] == self.HOLDING # The user wants to end with the drinking and go back to coding message.text = '/end' message.entities[0].length = len('/end') dp.process_update(Update(update_id=0, message=message)) assert self.current_state[user1.id] == self.END assert handler.conversations[(0, user1.id)] == self.CODING # The user wants to drink once more message.text = '/drinkMore' message.entities[0].length = len('/drinkMore') dp.process_update(Update(update_id=0, message=message)) assert self.current_state[user1.id] == self.DRINKING # The user wants to stop altogether message.text = '/stop' message.entities[0].length = len('/stop') dp.process_update(Update(update_id=0, message=message)) assert self.current_state[user1.id] == self.STOPPING assert handler.conversations.get((0, user1.id)) is None