The most easiest telegram package that helps you to code your bot faster
Project description
Getting started
- Installation using pip (a Python package manager):
$ pip install botte==0.6.2
While the API is production-ready, it is still under development and it has regular updates, do not forget to update it regularly by calling
pip install botte --upgrade
Writing your first bot
Prerequisites
It is presumed that you have obtained an API token with @BotFather. We will call this token TOKEN
.
Furthermore, you have basic knowledge of the Python programming language and more importantly the Telegram Bot API.
A simple echo bot
The Botte class (defined in _init_.py) encapsulates all API calls in a single class. It provides functions such as send_xyz
(send_message
, send_document
etc.) and several ways to listen for incoming messages.
Create a file called echo_bot.py
.
Then, open the file and create an instance of the Botte class.
import Botte
bot = Botte.Botte("TOKEN", parse_mode=None) # You can set parse_mode by default. HTML or MARKDOWN
Note: Make sure to actually replace TOKEN with your own API token.
After that declaration, we need to register some so-called message handlers. Message handlers define filters which a message must pass. If a message passes the filter, the decorated function is called and the incoming message is passed as an argument.
Let's define a message handler which handles incoming /start
and /help
commands.
@bot.handle_msg(commands=['start', 'help'])
def swagatam(message):
bot.reply_to(message, "Howdy, how are you doing?")
A function which is decorated by a message handler can have an arbitrary name, however, it must have only one parameter (the message).
Let's add another handler:
@bot.handle_msg(func=lambda m: True)
def echo_all(message):
bot.reply_to(message, message.text)
This one echoes all incoming text messages back to the sender. It uses a lambda function to test a message. If the lambda returns True, the message is handled by the decorated function. Since we want all messages to be handled by this function, we simply always return True.
Note: all handlers are tested in the order in which they were declared
We now have a basic bot which replies a static message to "/start" and "/help" commands and which echoes the rest of the sent messages. To start the bot, add the following to our source file:
bot.runthebot()
Alright, that's it! Our source file now looks like this:
import Botte
bot = Botte.Botte("YOUR_BOT_TOKEN")
@bot.handle_msg(commands=['start', 'help'])
def swagatam(message):
bot.reply_to(message, "Howdy, how are you doing?")
@bot.handle_msg(func=lambda message: True)
def echo_all(message):
bot.reply_to(message, message.text)
bot.runthebot()
To start the bot, simply open up a terminal and enter python echo_bot.py
to run the bot! Test it by sending commands ('/start' and '/help') and arbitrary text messages.
General API Documentation
Types
All types are defined in types.py. They are all completely in line with the Telegram API's definition of the types, except for the Message's from
field, which is renamed to from_user
(because from
is a Python reserved token). Thus, attributes such as message_id
can be accessed directly with message.message_id
. Note that message.chat
can be either an instance of User
or GroupChat
(see How can I distinguish a User and a GroupChat in message.chat?).
The Message object also has a content_type
attribute, which defines the type of the Message. content_type
can be one of the following strings:
text
, audio
, document
, animation
, game
, photo
, sticker
, video
, video_note
, voice
, location
, contact
, venue
, dice
, new_chat_members
, left_chat_member
, new_chat_title
, new_chat_photo
, delete_chat_photo
, group_chat_created
, supergroup_chat_created
, channel_chat_created
, migrate_to_chat_id
, migrate_from_chat_id
, pinned_message
, invoice
, successful_payment
, connected_website
, poll
, passport_data
, proximity_alert_triggered
, video_chat_scheduled
, video_chat_started
, video_chat_ended
, video_chat_participants_invited
, web_app_data
, message_auto_delete_timer_changed
, forum_topic_created
, forum_topic_closed
, forum_topic_reopened
, forum_topic_edited
, general_forum_topic_hidden
, general_forum_topic_unhidden
, write_access_allowed
, user_shared
, chat_shared
, story
.
You can use some types in one function. Example:
content_types=["text", "sticker", "pinned_message", "photo", "audio"]
Methods
All API methods are located in the Botte class. They are renamed to follow common Python naming conventions. E.g. getMe
is renamed to get_me
and sendMessage
to send_message
.
General use of the API
Outlined below are some general use cases of the API.
Message handlers
A message handler is a function that is decorated with the handle_msg
decorator of a Botte instance. Message handlers consist of one or multiple filters.
Each filter must return True for a certain message in order for a message handler to become eligible to handle that message. A message handler is declared in the following way (provided bot
is an instance of Botte):
@bot.handle_msg(filters)
def function_name(message):
bot.reply_to(message, "This is a message handler")
function_name
is not bound to any restrictions. Any function name is permitted with message handlers. The function must accept at most one argument, which will be the message that the function must handle.
filters
is a list of keyword arguments.
A filter is declared in the following manner: name=argument
. One handler may have multiple filters.
Botte supports the following filters:
name | argument(s) | Condition |
---|---|---|
content_types | list of strings (default ['text'] ) |
True if message.content_type is in the list of strings. |
regexp | a regular expression as a string | True if re.search(regexp_arg) returns True and message.content_type == 'text' (See Python Regular Expressions) |
commands | list of strings | True if message.content_type == 'text' and message.text starts with a command that is in the list of strings. |
chat_types | list of chat types | True if message.chat.type in your filter |
func | a function (lambda or function reference) | True if the lambda or function reference returns True |
Here are some examples of using the filters and message handlers:
import Botte
bot = Botte.Botte("TOKEN")
# Handles all text messages that contains the commands '/start' or '/help'.
@bot.handle_msg(commands=['start', 'help'])
def handle_start_help(message):
pass
# Handles all sent documents and audio files
@bot.handle_msg(content_types=['document', 'audio'])
def handle_docs_audio(message):
pass
# Handles all text messages that match the regular expression
@bot.handle_msg(regexp="SOME_REGEXP")
def handle_message(message):
pass
# Handles all messages for which the lambda returns True
@bot.handle_msg(func=lambda message: message.document.mime_type == 'text/plain', content_types=['document'])
def handle_text_doc(message):
pass
# Which could also be defined as:
def test_message(message):
return message.document.mime_type == 'text/plain'
@bot.handle_msg(func=test_message, content_types=['document'])
def handle_text_doc(message):
pass
# Handlers can be stacked to create a function which will be called if either handle_msg is eligible
# This handler will be called if the message starts with '/hello' OR is some emoji
@bot.handle_msg(commands=['hello'])
@bot.handle_msg(func=lambda msg: msg.text.encode("utf-8") == SOME_FANCY_EMOJI)
def send_something(message):
pass
Important: all handlers are tested in the order in which they were declared
Edited Message handler
Handle edited messages
@bot.edited_handle_msg(filters) # <- passes a Message type object to your function
Channel Post handler
Handle channel post messages
@bot.channel_post_handler(filters) # <- passes a Message type object to your function
Edited Channel Post handler
Handle edited channel post messages
@bot.edited_channel_post_handler(filters) # <- passes a Message type object to your function
Callback Query Handler
Handle callback queries
@bot.callback_query_handler(func=lambda call: True)
def test_callback(call): # <- passes a CallbackQuery type object to your function
logger.info(call)
Shipping Query Handler
Handle shipping queries
@bot.shipping_query_handler() # <- passes a ShippingQuery type object to your function
Pre Checkout Query Handler
Handle pre checkoupt queries
@bot.pre_checkout_query_handler() # <- passes a PreCheckoutQuery type object to your function
Poll Handler
Handle poll updates
@bot.poll_handler() # <- passes a Poll type object to your function
Poll Answer Handler
Handle poll answers
@bot.poll_answer_handler() # <- passes a PollAnswer type object to your function
My Chat Member Handler
Handle updates of a the bot's member status in a chat
@bot.my_chat_member_handler() # <- passes a ChatMemberUpdated type object to your function
Chat Member Handler
Handle updates of a chat member's status in a chat
@bot.chat_member_handler() # <- passes a ChatMemberUpdated type object to your function
Note: "chat_member" updates are not requested by default. If you want to allow all update types, set allowed_updates
in bot.polling()
/ bot.runthebot()
to util.update_types
Chat Join Request Handler
Handle chat join requests using:
@bot.chat_join_request_handler() # <- passes ChatInviteLink type object to your function
Inline Mode
More information about Inline mode.
Inline handler
Now, you can use inline_handler to get inline queries in Botte.
@bot.inline_handler(lambda query: query.query == 'text')
def query_text(inline_query):
# Query message is text
Chosen Inline handler
Use chosen_inline_handler to get chosen_inline_result in Botte. Don't forgot add the /setinlinefeedback command for @Botfather.
More information : collecting-feedback
@bot.chosen_inline_handler(func=lambda chosen_inline_result: True)
def test_chosen(chosen_inline_result):
# Process all chosen_inline_result.
Answer Inline Query
@bot.inline_handler(lambda query: query.query == 'text')
def query_text(inline_query):
try:
r = types.InlineQueryResultArticle('1', 'Result', types.InputTextMessageContent('Result message.'))
r2 = types.InlineQueryResultArticle('2', 'Result2', types.InputTextMessageContent('Result message2.'))
bot.answer_inline_query(inline_query.id, [r, r2])
except Exception as e:
print(e)
Additional API features
Middleware Handlers
A middleware handler is a function that allows you to modify requests or the bot context as they pass through the
Telegram to the bot. You can imagine middleware as a chain of logic connection handled before any other handlers are
executed. Middleware processing is disabled by default, enable it by setting apihelper.ENABLE_MIDDLEWARE = True
.
apihelper.ENABLE_MIDDLEWARE = True
@bot.middleware_handler(update_types=['message'])
def modify_message(bot_instance, message):
# modifying the message before it reaches any other handler
message.another_text = message.text + ':changed'
@bot.handle_msg(commands=['start'])
def start(message):
# the message is already modified when it reaches message handler
assert message.another_text == message.text + ':changed'
There are other examples using middleware handler in the examples/middleware directory.
Class-based middlewares
There are class-based middlewares. Basic class-based middleware looks like this:
class Middleware(BaseMiddleware):
def __init__(self):
self.update_types = ['message']
def pre_process(self, message, data):
data['foo'] = 'Hello' # just for example
# we edited the data. now, this data is passed to handler.
# return SkipHandler() -> this will skip handler
# return CancelUpdate() -> this will cancel update
def post_process(self, message, data, exception=None):
print(data['foo'])
if exception: # check for exception
print(exception)
Class-based middleware should have two functions: post and pre process. So, as you can see, class-based middlewares work before and after handler execution. For more, check out in examples
Custom filters
Also, you can use built-in custom filters. Or, you can create your own filter.
Also, we have examples on them. Check this links:
You can check some built-in filters in source code
Example of filtering by id
Example of filtering by text
If you want to add some built-in filter, you are welcome to add it in custom_filters.py file.
Here is example of creating filter-class:
class IsAdmin(Botte.custom_filters.SimpleCustomFilter):
# Class will check whether the user is admin or creator in group or not
key='is_chat_admin'
@staticmethod
def check(message: Botte.types.Message):
return bot.get_chat_member(message.chat.id,message.from_user.id).status in ['administrator','creator']
# To register filter, you need to use method add_custom_filter.
bot.add_custom_filter(IsAdmin())
# Now, you can use it in handler.
@bot.handle_msg(is_chat_admin=True)
def admin_of_group(message):
bot.send_message(message.chat.id, 'You are admin of this group!')
Botte
import Botte
TOKEN = '<token_string>'
tb = Botte.Botte(TOKEN) #create a new Telegram Bot object
# Upon calling this function, Botte starts polling the Telegram servers for new messages.
# - interval: int (default 0) - The interval between polling requests
# - timeout: integer (default 20) - Timeout in seconds for long polling.
# - allowed_updates: List of Strings (default None) - List of update types to request
tb.runthebot(interval=0, timeout=20)
# getMe
user = tb.get_me()
# setWebhook
tb.set_webhook(url="http://example.com", certificate=open('mycert.pem'))
# unset webhook
tb.remove_webhook()
# getUpdates
updates = tb.get_updates()
# or
updates = tb.get_updates(1234,100,20) #get_Updates(offset, limit, timeout):
# sendMessage
tb.send_message(chat_id, text)
# editMessageText
tb.edit_message_text(new_text, chat_id, message_id)
# forwardMessage
tb.forward_message(to_chat_id, from_chat_id, message_id)
# All send_xyz functions which can take a file as an argument, can also take a file_id instead of a file.
# sendPhoto
photo = open('/tmp/photo.png', 'rb')
tb.send_photo(chat_id, photo)
tb.send_photo(chat_id, "FILEID")
# sendAudio
audio = open('/tmp/audio.mp3', 'rb')
tb.send_audio(chat_id, audio)
tb.send_audio(chat_id, "FILEID")
## sendAudio with duration, performer and title.
tb.send_audio(CHAT_ID, file_data, 1, 'Kreaitorai', 'pyTelegram')
# sendVoice
voice = open('/tmp/voice.ogg', 'rb')
tb.send_voice(chat_id, voice)
tb.send_voice(chat_id, "FILEID")
# sendDocument
doc = open('/tmp/file.txt', 'rb')
tb.send_document(chat_id, doc)
tb.send_document(chat_id, "FILEID")
# sendSticker
sti = open('/tmp/sti.webp', 'rb')
tb.send_sticker(chat_id, sti)
tb.send_sticker(chat_id, "FILEID")
# sendVideo
video = open('/tmp/video.mp4', 'rb')
tb.send_video(chat_id, video)
tb.send_video(chat_id, "FILEID")
# sendVideoNote
videonote = open('/tmp/videonote.mp4', 'rb')
tb.send_video_note(chat_id, videonote)
tb.send_video_note(chat_id, "FILEID")
# sendLocation
tb.send_location(chat_id, lat, lon)
# sendChatAction
# action_string can be one of the following strings: 'typing', 'upload_photo', 'record_video', 'upload_video',
# 'record_audio', 'upload_audio', 'upload_document' or 'find_location'.
tb.send_chat_action(chat_id, action_string)
# getFile
# Downloading a file is straightforward
# Returns a File object
import requests
file_info = tb.get_file(file_id)
file = requests.get('https://api.telegram.org/file/bot{0}/{1}'.format(API_TOKEN, file_info.file_path))
Reply markup
All send_xyz
functions of Botte take an optional reply_markup
argument. This argument must be an instance of ReplyKeyboardMarkup
, ReplyKeyboardRemove
or ForceReply
, which are defined in types.py.
from Botte import types
# Using the ReplyKeyboardMarkup class
# It's constructor can take the following optional arguments:
# - resize_keyboard: True/False (default False)
# - one_time_keyboard: True/False (default False)
# - selective: True/False (default False)
# - row_width: integer (default 3)
# row_width is used in combination with the add() function.
# It defines how many buttons are fit on each row before continuing on the next row.
markup = types.ReplyKeyboardMarkup(row_width=2)
itembtn1 = types.KeyboardButton('a')
itembtn2 = types.KeyboardButton('v')
itembtn3 = types.KeyboardButton('d')
markup.add(itembtn1, itembtn2, itembtn3)
tb.send_message(chat_id, "Choose one letter:", reply_markup=markup)
# or add KeyboardButton one row at a time:
markup = types.ReplyKeyboardMarkup()
itembtna = types.KeyboardButton('a')
itembtnv = types.KeyboardButton('v')
itembtnc = types.KeyboardButton('c')
itembtnd = types.KeyboardButton('d')
itembtne = types.KeyboardButton('e')
markup.row(itembtna, itembtnv)
markup.row(itembtnc, itembtnd, itembtne)
tb.send_message(chat_id, "Choose one letter:", reply_markup=markup)
The last example yields this result:
# ReplyKeyboardRemove: hides a previously sent ReplyKeyboardMarkup
# Takes an optional selective argument (True/False, default False)
markup = types.ReplyKeyboardRemove(selective=False)
tb.send_message(chat_id, message, reply_markup=markup)
# ForceReply: forces a user to reply to a message
# Takes an optional selective argument (True/False, default False)
markup = types.ForceReply(selective=False)
tb.send_message(chat_id, "Send me another word:", reply_markup=markup)
ForceReply:
Working with entities
This object represents one special entity in a text message. For example, hashtags, usernames, URLs, etc. Attributes:
type
url
offset
length
user
Here's an Example:message.entities[num].<attribute>
Here num
is the entity number or order of entity in a reply, for if incase there are multiple entities in the reply/message.
message.entities
returns a list of entities object.
message.entities[0].type
would give the type of the first entity
Refer Bot Api for extra details
Advanced use of the API
Using local Bot API Sever
Since version 5.0 of the Bot API, you have the possibility to run your own Local Bot API Server. botte also supports this feature.
from Botte import apihelper
apihelper.API_URL = "http://localhost:4200/bot{0}/{1}"
Important: Like described here, you have to log out your bot from the Telegram server before switching to your local API server. in botte use bot.log_out()
Note: 4200 is an example port
Asynchronous Botte
New: There is an asynchronous implementation of Botte. To enable this behaviour, create an instance of AsyncBotte instead of Botte.
tb = Botte.AsyncBotte("TOKEN")
Now, every function that calls the Telegram API is executed in a separate asynchronous task. Using AsyncBotte allows you to do the following:
import Botte
tb = Botte.AsyncBotte("TOKEN")
@tb.handle_msg(commands=['start'])
async def start_message(message):
await bot.send_message(message.chat.id, 'Hello!')
See more in examples
Sending large text messages
Sometimes you must send messages that exceed 5000 characters. The Telegram API can not handle that many characters in one request, so we need to split the message in multiples. Here is how to do that using the API:
from Botte import util
large_text = open("large_text.txt", "rb").read()
# Split the text each 3000 characters.
# split_string returns a list with the splitted text.
splitted_text = util.split_string(large_text, 3000)
for text in splitted_text:
tb.send_message(chat_id, text)
Or you can use the new smart_split
function to get more meaningful substrings:
from Botte import util
large_text = open("large_text.txt", "rb").read()
# Splits one string into multiple strings, with a maximum amount of `chars_per_string` (max. 4096)
# Splits by last '\n', '. ' or ' ' in exactly this priority.
# smart_split returns a list with the splitted text.
splitted_text = util.smart_split(large_text, chars_per_string=3000)
for text in splitted_text:
tb.send_message(chat_id, text)
Controlling the amount of Threads used by Botte
The Botte constructor takes the following optional arguments:
- threaded: True/False (default True). A flag to indicate whether Botte should execute message handlers on it's polling Thread.
The listener mechanism
As an alternative to the message handlers, one can also register a function as a listener to Botte.
NOTICE: handlers won't disappear! Your message will be processed both by handlers and listeners. Also, it's impossible to predict which will work at first because of threading. If you use threaded=False, custom listeners will work earlier, after them handlers will be called. Example:
def handle_messages(messages):
for message in messages:
# Do something with the message
bot.reply_to(message, 'Hi')
bot.set_update_listener(handle_messages)
bot.runthebot()
Using web hooks
When using webhooks telegram sends one Update per call, for processing it you should call process_new_messages([update.message]) when you recieve it.
There are some examples using webhooks in the examples/webhook_examples directory.
Logging
You can use the Botte module logger to log debug info about Botte. Use Botte.logger
to get the logger of the Botte module.
It is possible to add custom logging Handlers to the logger. Refer to the Python logging module page for more info.
import logging
logger = Botte.logger
Botte.logger.setLevel(logging.DEBUG) # Outputs debug messages to console.
Proxy
For sync:
You can use proxy for request. apihelper.proxy
object will use by call requests
proxies argument.
from Botte import apihelper
apihelper.proxy = {'http':'http://127.0.0.1:3128'}
If you want to use socket5 proxy you need install dependency pip install requests[socks]
and make sure, that you have the latest version of gunicorn
, PySocks
, botte
, requests
and urllib3
.
apihelper.proxy = {'https':'socks5://userproxy:password@proxy_address:port'}
For async:
from Botte import asyncio_helper
asyncio_helper.proxy = 'http://127.0.0.1:3128' #url
Testing
You can disable or change the interaction with real Telegram server by using
apihelper.CUSTOM_REQUEST_SENDER = your_handler
parameter. You can pass there your own function that will be called instead of requests.request.
For example:
def custom_sender(method, url, **kwargs):
print("custom_sender. method: {}, url: {}, params: {}".format(method, url, kwargs.get("params")))
result = util.CustomRequestResponse('{"ok":true,"result":{"message_id": 1, "date": 1, "chat": {"id": 1, "type": "private"}}}')
return result
Then you can use API and proceed requests in your handler code.
apihelper.CUSTOM_REQUEST_SENDER = custom_sender
tb = Botte("test")
res = tb.send_message(123, "Test")
Result will be:
custom_sender. method: post, url: https://api.telegram.org/botololo/sendMessage, params: {'chat_id': '123', 'text': 'Test'}
API conformance limitations
- ➕ Bot API 4.5 - No nested MessageEntities and Markdown2 support
- ➕ Bot API 4.1 - No Passport support
- ➕ Bot API 4.0 - No Passport support
AsyncBotte
Asynchronous version of Botte
We have a fully asynchronous version of Botte. This class is not controlled by threads. Asyncio tasks are created to execute all the stuff.
EchoBot
Echo Bot example on AsyncBotte:
# This is a simple echo bot using the decorator mechanism.
# It echoes any incoming text messages.
from Botte.async_Botte import AsyncBotte
import asyncio
bot = AsyncBotte('TOKEN')
# Handle '/start' and '/help'
@bot.handle_msg(commands=['help', 'start'])
async def swagatam(message):
await bot.reply_to(message, """\
Hi there, I am EchoBot.
I am here to echo your kind words back to you. Just say anything nice and I'll say the exact same thing to you!\
""")
# Handle all other messages with content_type 'text' (content_types defaults to ['text'])
@bot.handle_msg(func=lambda message: True)
async def echo_message(message):
await bot.reply_to(message, message.text)
asyncio.run(bot.polling())
As you can see here, keywords are await and async.
Why should I use async?
Asynchronous tasks depend on processor performance. Many asynchronous tasks can run parallelly, while thread tasks will block each other.
Differences in AsyncBotte
AsyncBotte is asynchronous. It uses aiohttp instead of requests module.
Examples
See more examples in our examples folder
F.A.Q.
How can I distinguish a User and a GroupChat in message.chat?
Telegram Bot API support new type Chat for message.chat.
- Check the
type
attribute inChat
object:
if message.chat.type == "private":
# private chat message
if message.chat.type == "group":
# group chat message
if message.chat.type == "supergroup":
# supergroup chat message
if message.chat.type == "channel":
# channel message
How can I handle reocurring ConnectionResetErrors?
Bot instances that were idle for a long time might be rejected by the server when sending a message due to a timeout of the last used session. Add apihelper.SESSION_TIME_TO_LIVE = 5 * 60
to your initialisation to force recreation after 5 minutes without any activity.
Project details
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