python-telegram-bot/examples/inlinekeyboard2.py
Bibo-Joshi 264b2c9c72
Switch Code Formatting to Black (#2122)
* Swtich code formatting to Black

* Update docs

* Fix tests

* TRy fixing pre-commit
2020-10-09 17:22:07 +02:00

197 lines
6.6 KiB
Python

#!/usr/bin/env python
# -*- coding: utf-8 -*-
"""Simple inline keyboard bot with multiple CallbackQueryHandlers.
This Bot uses the Updater class to handle the bot.
First, a few callback functions are defined as callback query handler. Then, those functions are
passed to the Dispatcher and registered at their respective places.
Then, the bot is started and runs until we press Ctrl-C on the command line.
Usage:
Example of a bot that uses inline keyboard that has multiple CallbackQueryHandlers arranged in a
ConversationHandler.
Send /start to initiate the conversation.
Press Ctrl-C on the command line to stop the bot.
"""
from telegram import InlineKeyboardButton, InlineKeyboardMarkup
from telegram.ext import Updater, CommandHandler, CallbackQueryHandler, ConversationHandler
import logging
# Enable logging
logging.basicConfig(
format='%(asctime)s - %(name)s - %(levelname)s - %(message)s', level=logging.INFO
)
logger = logging.getLogger(__name__)
# Stages
FIRST, SECOND = range(2)
# Callback data
ONE, TWO, THREE, FOUR = range(4)
def start(update, context):
"""Send message on `/start`."""
# Get user that sent /start and log his name
user = update.message.from_user
logger.info("User %s started the conversation.", user.first_name)
# Build InlineKeyboard where each button has a displayed text
# and a string as callback_data
# The keyboard is a list of button rows, where each row is in turn
# a list (hence `[[...]]`).
keyboard = [
[
InlineKeyboardButton("1", callback_data=str(ONE)),
InlineKeyboardButton("2", callback_data=str(TWO)),
]
]
reply_markup = InlineKeyboardMarkup(keyboard)
# Send message with text and appended InlineKeyboard
update.message.reply_text("Start handler, Choose a route", reply_markup=reply_markup)
# Tell ConversationHandler that we're in state `FIRST` now
return FIRST
def start_over(update, context):
"""Prompt same text & keyboard as `start` does but not as new message"""
# Get CallbackQuery from Update
query = update.callback_query
# CallbackQueries need to be answered, even if no notification to the user is needed
# Some clients may have trouble otherwise. See https://core.telegram.org/bots/api#callbackquery
query.answer()
keyboard = [
[
InlineKeyboardButton("1", callback_data=str(ONE)),
InlineKeyboardButton("2", callback_data=str(TWO)),
]
]
reply_markup = InlineKeyboardMarkup(keyboard)
# Instead of sending a new message, edit the message that
# originated the CallbackQuery. This gives the feeling of an
# interactive menu.
query.edit_message_text(text="Start handler, Choose a route", reply_markup=reply_markup)
return FIRST
def one(update, context):
"""Show new choice of buttons"""
query = update.callback_query
query.answer()
keyboard = [
[
InlineKeyboardButton("3", callback_data=str(THREE)),
InlineKeyboardButton("4", callback_data=str(FOUR)),
]
]
reply_markup = InlineKeyboardMarkup(keyboard)
query.edit_message_text(
text="First CallbackQueryHandler, Choose a route", reply_markup=reply_markup
)
return FIRST
def two(update, context):
"""Show new choice of buttons"""
query = update.callback_query
query.answer()
keyboard = [
[
InlineKeyboardButton("1", callback_data=str(ONE)),
InlineKeyboardButton("3", callback_data=str(THREE)),
]
]
reply_markup = InlineKeyboardMarkup(keyboard)
query.edit_message_text(
text="Second CallbackQueryHandler, Choose a route", reply_markup=reply_markup
)
return FIRST
def three(update, context):
"""Show new choice of buttons"""
query = update.callback_query
query.answer()
keyboard = [
[
InlineKeyboardButton("Yes, let's do it again!", callback_data=str(ONE)),
InlineKeyboardButton("Nah, I've had enough ...", callback_data=str(TWO)),
]
]
reply_markup = InlineKeyboardMarkup(keyboard)
query.edit_message_text(
text="Third CallbackQueryHandler. Do want to start over?", reply_markup=reply_markup
)
# Transfer to conversation state `SECOND`
return SECOND
def four(update, context):
"""Show new choice of buttons"""
query = update.callback_query
query.answer()
keyboard = [
[
InlineKeyboardButton("2", callback_data=str(TWO)),
InlineKeyboardButton("4", callback_data=str(FOUR)),
]
]
reply_markup = InlineKeyboardMarkup(keyboard)
query.edit_message_text(
text="Fourth CallbackQueryHandler, Choose a route", reply_markup=reply_markup
)
return FIRST
def end(update, context):
"""Returns `ConversationHandler.END`, which tells the
ConversationHandler that the conversation is over"""
query = update.callback_query
query.answer()
query.edit_message_text(text="See you next time!")
return ConversationHandler.END
def main():
# Create the Updater and pass it your bot's token.
updater = Updater("TOKEN", use_context=True)
# Get the dispatcher to register handlers
dp = updater.dispatcher
# Setup conversation handler with the states FIRST and SECOND
# Use the pattern parameter to pass CallbackQueries with specific
# data pattern to the corresponding handlers.
# ^ means "start of line/string"
# $ means "end of line/string"
# So ^ABC$ will only allow 'ABC'
conv_handler = ConversationHandler(
entry_points=[CommandHandler('start', start)],
states={
FIRST: [
CallbackQueryHandler(one, pattern='^' + str(ONE) + '$'),
CallbackQueryHandler(two, pattern='^' + str(TWO) + '$'),
CallbackQueryHandler(three, pattern='^' + str(THREE) + '$'),
CallbackQueryHandler(four, pattern='^' + str(FOUR) + '$'),
],
SECOND: [
CallbackQueryHandler(start_over, pattern='^' + str(ONE) + '$'),
CallbackQueryHandler(end, pattern='^' + str(TWO) + '$'),
],
},
fallbacks=[CommandHandler('start', start)],
)
# Add ConversationHandler to dispatcher that will be used for handling
# updates
dp.add_handler(conv_handler)
# Start the Bot
updater.start_polling()
# Run the bot until you press Ctrl-C or the process receives SIGINT,
# SIGTERM or SIGABRT. This should be used most of the time, since
# start_polling() is non-blocking and will stop the bot gracefully.
updater.idle()
if __name__ == '__main__':
main()