python-telegram-bot/examples/nestedconversationbot.py
2024-09-14 08:16:39 +02:00

389 lines
13 KiB
Python

#!/usr/bin/env python
# pylint: disable=unused-argument
# This program is dedicated to the public domain under the CC0 license.
"""
First, a few callback functions are defined. Then, those functions are passed to
the Application 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-user conversation using nested ConversationHandlers.
Send /start to initiate the conversation.
Press Ctrl-C on the command line or send a signal to the process to stop the
bot.
"""
import logging
from typing import Any, Dict, Tuple
from telegram import InlineKeyboardButton, InlineKeyboardMarkup, Update
from telegram.ext import (
Application,
CallbackQueryHandler,
CommandHandler,
ContextTypes,
ConversationHandler,
MessageHandler,
filters,
)
# Enable logging
logging.basicConfig(
format="%(asctime)s - %(name)s - %(levelname)s - %(message)s", level=logging.INFO
)
# set higher logging level for httpx to avoid all GET and POST requests being logged
logging.getLogger("httpx").setLevel(logging.WARNING)
logger = logging.getLogger(__name__)
# State definitions for top level conversation
SELECTING_ACTION, ADDING_MEMBER, ADDING_SELF, DESCRIBING_SELF = map(chr, range(4))
# State definitions for second level conversation
SELECTING_LEVEL, SELECTING_GENDER = map(chr, range(4, 6))
# State definitions for descriptions conversation
SELECTING_FEATURE, TYPING = map(chr, range(6, 8))
# Meta states
STOPPING, SHOWING = map(chr, range(8, 10))
# Shortcut for ConversationHandler.END
END = ConversationHandler.END
# Different constants for this example
(
PARENTS,
CHILDREN,
SELF,
GENDER,
MALE,
FEMALE,
AGE,
NAME,
START_OVER,
FEATURES,
CURRENT_FEATURE,
CURRENT_LEVEL,
) = map(chr, range(10, 22))
# Helper
def _name_switcher(level: str) -> Tuple[str, str]:
if level == PARENTS:
return "Father", "Mother"
return "Brother", "Sister"
# Top level conversation callbacks
async def start(update: Update, context: ContextTypes.DEFAULT_TYPE) -> str:
"""Select an action: Adding parent/child or show data."""
text = (
"You may choose to add a family member, yourself, show the gathered data, or end the "
"conversation. To abort, simply type /stop."
)
buttons = [
[
InlineKeyboardButton(text="Add family member", callback_data=str(ADDING_MEMBER)),
InlineKeyboardButton(text="Add yourself", callback_data=str(ADDING_SELF)),
],
[
InlineKeyboardButton(text="Show data", callback_data=str(SHOWING)),
InlineKeyboardButton(text="Done", callback_data=str(END)),
],
]
keyboard = InlineKeyboardMarkup(buttons)
# If we're starting over we don't need to send a new message
if context.user_data.get(START_OVER):
await update.callback_query.answer()
await update.callback_query.edit_message_text(text=text, reply_markup=keyboard)
else:
await update.message.reply_text(
"Hi, I'm Family Bot and I'm here to help you gather information about your family."
)
await update.message.reply_text(text=text, reply_markup=keyboard)
context.user_data[START_OVER] = False
return SELECTING_ACTION
async def adding_self(update: Update, context: ContextTypes.DEFAULT_TYPE) -> str:
"""Add information about yourself."""
context.user_data[CURRENT_LEVEL] = SELF
text = "Okay, please tell me about yourself."
button = InlineKeyboardButton(text="Add info", callback_data=str(MALE))
keyboard = InlineKeyboardMarkup.from_button(button)
await update.callback_query.answer()
await update.callback_query.edit_message_text(text=text, reply_markup=keyboard)
return DESCRIBING_SELF
async def show_data(update: Update, context: ContextTypes.DEFAULT_TYPE) -> str:
"""Pretty print gathered data."""
def pretty_print(data: Dict[str, Any], level: str) -> str:
people = data.get(level)
if not people:
return "\nNo information yet."
return_str = ""
if level == SELF:
for person in data[level]:
return_str += f"\nName: {person.get(NAME, '-')}, Age: {person.get(AGE, '-')}"
else:
male, female = _name_switcher(level)
for person in data[level]:
gender = female if person[GENDER] == FEMALE else male
return_str += (
f"\n{gender}: Name: {person.get(NAME, '-')}, Age: {person.get(AGE, '-')}"
)
return return_str
user_data = context.user_data
text = f"Yourself:{pretty_print(user_data, SELF)}"
text += f"\n\nParents:{pretty_print(user_data, PARENTS)}"
text += f"\n\nChildren:{pretty_print(user_data, CHILDREN)}"
buttons = [[InlineKeyboardButton(text="Back", callback_data=str(END))]]
keyboard = InlineKeyboardMarkup(buttons)
await update.callback_query.answer()
await update.callback_query.edit_message_text(text=text, reply_markup=keyboard)
user_data[START_OVER] = True
return SHOWING
async def stop(update: Update, context: ContextTypes.DEFAULT_TYPE) -> int:
"""End Conversation by command."""
await update.message.reply_text("Okay, bye.")
return END
async def end(update: Update, context: ContextTypes.DEFAULT_TYPE) -> int:
"""End conversation from InlineKeyboardButton."""
await update.callback_query.answer()
text = "See you around!"
await update.callback_query.edit_message_text(text=text)
return END
# Second level conversation callbacks
async def select_level(update: Update, context: ContextTypes.DEFAULT_TYPE) -> str:
"""Choose to add a parent or a child."""
text = "You may add a parent or a child. Also you can show the gathered data or go back."
buttons = [
[
InlineKeyboardButton(text="Add parent", callback_data=str(PARENTS)),
InlineKeyboardButton(text="Add child", callback_data=str(CHILDREN)),
],
[
InlineKeyboardButton(text="Show data", callback_data=str(SHOWING)),
InlineKeyboardButton(text="Back", callback_data=str(END)),
],
]
keyboard = InlineKeyboardMarkup(buttons)
await update.callback_query.answer()
await update.callback_query.edit_message_text(text=text, reply_markup=keyboard)
return SELECTING_LEVEL
async def select_gender(update: Update, context: ContextTypes.DEFAULT_TYPE) -> str:
"""Choose to add mother or father."""
level = update.callback_query.data
context.user_data[CURRENT_LEVEL] = level
text = "Please choose, whom to add."
male, female = _name_switcher(level)
buttons = [
[
InlineKeyboardButton(text=f"Add {male}", callback_data=str(MALE)),
InlineKeyboardButton(text=f"Add {female}", callback_data=str(FEMALE)),
],
[
InlineKeyboardButton(text="Show data", callback_data=str(SHOWING)),
InlineKeyboardButton(text="Back", callback_data=str(END)),
],
]
keyboard = InlineKeyboardMarkup(buttons)
await update.callback_query.answer()
await update.callback_query.edit_message_text(text=text, reply_markup=keyboard)
return SELECTING_GENDER
async def end_second_level(update: Update, context: ContextTypes.DEFAULT_TYPE) -> int:
"""Return to top level conversation."""
context.user_data[START_OVER] = True
await start(update, context)
return END
# Third level callbacks
async def select_feature(update: Update, context: ContextTypes.DEFAULT_TYPE) -> str:
"""Select a feature to update for the person."""
buttons = [
[
InlineKeyboardButton(text="Name", callback_data=str(NAME)),
InlineKeyboardButton(text="Age", callback_data=str(AGE)),
InlineKeyboardButton(text="Done", callback_data=str(END)),
]
]
keyboard = InlineKeyboardMarkup(buttons)
# If we collect features for a new person, clear the cache and save the gender
if not context.user_data.get(START_OVER):
context.user_data[FEATURES] = {GENDER: update.callback_query.data}
text = "Please select a feature to update."
await update.callback_query.answer()
await update.callback_query.edit_message_text(text=text, reply_markup=keyboard)
# But after we do that, we need to send a new message
else:
text = "Got it! Please select a feature to update."
await update.message.reply_text(text=text, reply_markup=keyboard)
context.user_data[START_OVER] = False
return SELECTING_FEATURE
async def ask_for_input(update: Update, context: ContextTypes.DEFAULT_TYPE) -> str:
"""Prompt user to input data for selected feature."""
context.user_data[CURRENT_FEATURE] = update.callback_query.data
text = "Okay, tell me."
await update.callback_query.answer()
await update.callback_query.edit_message_text(text=text)
return TYPING
async def save_input(update: Update, context: ContextTypes.DEFAULT_TYPE) -> str:
"""Save input for feature and return to feature selection."""
user_data = context.user_data
user_data[FEATURES][user_data[CURRENT_FEATURE]] = update.message.text
user_data[START_OVER] = True
return await select_feature(update, context)
async def end_describing(update: Update, context: ContextTypes.DEFAULT_TYPE) -> int:
"""End gathering of features and return to parent conversation."""
user_data = context.user_data
level = user_data[CURRENT_LEVEL]
if not user_data.get(level):
user_data[level] = []
user_data[level].append(user_data[FEATURES])
# Print upper level menu
if level == SELF:
user_data[START_OVER] = True
await start(update, context)
else:
await select_level(update, context)
return END
async def stop_nested(update: Update, context: ContextTypes.DEFAULT_TYPE) -> str:
"""Completely end conversation from within nested conversation."""
await update.message.reply_text("Okay, bye.")
return STOPPING
def main() -> None:
"""Run the bot."""
# Create the Application and pass it your bot's token.
application = Application.builder().token("TOKEN").build()
# Set up third level ConversationHandler (collecting features)
description_conv = ConversationHandler(
entry_points=[
CallbackQueryHandler(
select_feature, pattern="^" + str(MALE) + "$|^" + str(FEMALE) + "$"
)
],
states={
SELECTING_FEATURE: [
CallbackQueryHandler(ask_for_input, pattern="^(?!" + str(END) + ").*$")
],
TYPING: [MessageHandler(filters.TEXT & ~filters.COMMAND, save_input)],
},
fallbacks=[
CallbackQueryHandler(end_describing, pattern="^" + str(END) + "$"),
CommandHandler("stop", stop_nested),
],
map_to_parent={
# Return to second level menu
END: SELECTING_LEVEL,
# End conversation altogether
STOPPING: STOPPING,
},
)
# Set up second level ConversationHandler (adding a person)
add_member_conv = ConversationHandler(
entry_points=[CallbackQueryHandler(select_level, pattern="^" + str(ADDING_MEMBER) + "$")],
states={
SELECTING_LEVEL: [
CallbackQueryHandler(select_gender, pattern=f"^{PARENTS}$|^{CHILDREN}$")
],
SELECTING_GENDER: [description_conv],
},
fallbacks=[
CallbackQueryHandler(show_data, pattern="^" + str(SHOWING) + "$"),
CallbackQueryHandler(end_second_level, pattern="^" + str(END) + "$"),
CommandHandler("stop", stop_nested),
],
map_to_parent={
# After showing data return to top level menu
SHOWING: SHOWING,
# Return to top level menu
END: SELECTING_ACTION,
# End conversation altogether
STOPPING: END,
},
)
# Set up top level ConversationHandler (selecting action)
# Because the states of the third level conversation map to the ones of the second level
# conversation, we need to make sure the top level conversation can also handle them
selection_handlers = [
add_member_conv,
CallbackQueryHandler(show_data, pattern="^" + str(SHOWING) + "$"),
CallbackQueryHandler(adding_self, pattern="^" + str(ADDING_SELF) + "$"),
CallbackQueryHandler(end, pattern="^" + str(END) + "$"),
]
conv_handler = ConversationHandler(
entry_points=[CommandHandler("start", start)],
states={
SHOWING: [CallbackQueryHandler(start, pattern="^" + str(END) + "$")],
SELECTING_ACTION: selection_handlers, # type: ignore[dict-item]
SELECTING_LEVEL: selection_handlers, # type: ignore[dict-item]
DESCRIBING_SELF: [description_conv],
STOPPING: [CommandHandler("start", start)],
},
fallbacks=[CommandHandler("stop", stop)],
)
application.add_handler(conv_handler)
# Run the bot until the user presses Ctrl-C
application.run_polling(allowed_updates=Update.ALL_TYPES)
if __name__ == "__main__":
main()