# telegram-bot-ruby Ruby wrapper for [Telegram's Bot API](https://core.telegram.org/bots/api). [![Gem Version](https://badge.fury.io/rb/telegram-bot-ruby.svg)](http://badge.fury.io/rb/telegram-bot-ruby) [![Code Climate](https://codeclimate.com/github/atipugin/telegram-bot-ruby/badges/gpa.svg)](https://codeclimate.com/github/atipugin/telegram-bot-ruby) [![Build Status](https://travis-ci.org/atipugin/telegram-bot-ruby.svg?branch=master)](https://travis-ci.org/atipugin/telegram-bot-ruby) ## Installation Add following line to your Gemfile: ```ruby gem 'telegram-bot-ruby' ``` And then execute: ```shell $ bundle ``` Or install it system-wide: ```shell $ gem install telegram-bot-ruby ``` ## Usage First things first, you need to [obtain a token](https://core.telegram.org/bots#botfather) for your bot. Then create your Telegram bot like this: ```ruby require 'telegram/bot' token = 'YOUR_TELEGRAM_BOT_API_TOKEN' Telegram::Bot::Client.run(token) do |bot| bot.listen do |message| case message.text when '/start' bot.api.send_message(chat_id: message.chat.id, text: "Hello, #{message.from.first_name}") when '/stop' bot.api.send_message(chat_id: message.chat.id, text: "Bye, #{message.from.first_name}") end end end ``` Note that `bot.api` object implements [Telegram Bot API methods](https://core.telegram.org/bots/api#available-methods) as is. So you can invoke any method inside the block without any problems. All methods are available in both *snake_case* and *camelCase* notations. Same thing about `message` object - it implements [Message](https://core.telegram.org/bots/api#message) spec, so you always know what to expect from it. ## Webhooks If you are going to use [webhooks](https://core.telegram.org/bots/api#setwebhook) instead of [long polling](https://core.telegram.org/bots/api#getupdates), you need to implement your own webhook callbacks server. Take a look at [this repo](https://github.com/solyaris/BOTServer) as an example. ## Custom keyboards You can use your own [custom keyboards](https://core.telegram.org/bots#keyboards). Here is an example: ```ruby bot.listen do |message| case message.text when '/start' question = 'London is a capital of which country?' # See more: https://core.telegram.org/bots/api#replykeyboardmarkup answers = Telegram::Bot::Types::ReplyKeyboardMarkup .new(keyboard: [%w(A B), %w(C D)], one_time_keyboard: true) bot.api.send_message(chat_id: message.chat.id, text: question, reply_markup: answers) when '/stop' # See more: https://core.telegram.org/bots/api#replykeyboardhide kb = Telegram::Bot::Types::ReplyKeyboardHide.new(hide_keyboard: true) bot.api.send_message(chat_id: message.chat.id, text: 'Sorry to see you go :(', reply_markup: kb) end end ``` Furthermore, you can ask user to share location or phone number using `KeyboardButton`: ```ruby bot.listen do |message| kb = [ Telegram::Bot::Types::KeyboardButton.new(text: 'Give me your phone number', request_contact: true), Telegram::Bot::Types::KeyboardButton.new(text: 'Show me your location', request_location: true) ] markup = Telegram::Bot::Types::ReplyKeyboardMarkup.new(keyboard: kb) bot.api.send_message(chat_id: message.chat.id, text: 'Hey!', reply_markup: markup) end ``` ## Inline keyboards [Bot API 2.0](https://core.telegram.org/bots/2-0-intro) brought us new inline keyboards. Example: ```ruby bot.listen do |message| case message when Telegram::Bot::Types::CallbackQuery # Here you can handle your callbacks from inline buttons if message.data == 'touch' bot.api.send_message(chat_id: message.from.id, text: "Don't touch me!") end when Telegram::Bot::Types::Message kb = [ Telegram::Bot::Types::InlineKeyboardButton.new(text: 'Go to Google', url: 'https://google.com'), Telegram::Bot::Types::InlineKeyboardButton.new(text: 'Touch me', callback_data: 'touch'), Telegram::Bot::Types::InlineKeyboardButton.new(text: 'Switch to inline', switch_inline_query: 'some text') ] markup = Telegram::Bot::Types::InlineKeyboardMarkup.new(inline_keyboard: kb) bot.api.send_message(chat_id: message.chat.id, text: 'Make a choice', reply_markup: markup) end end ``` ## Inline bots If you are going to create [inline bot](https://core.telegram.org/bots/inline), check the example below: ```ruby bot.listen do |message| case message when Telegram::Bot::Types::InlineQuery results = [ Telegram::Bot::Types::InlineQueryResultArticle .new(id: 1, title: 'First article', message_text: 'Very interesting text goes here.'), Telegram::Bot::Types::InlineQueryResultArticle .new(id: 2, title: 'Second article', message_text: 'Another interesting text here.') ] bot.api.answer_inline_query(inline_query_id: message.id, results: results) when Telegram::Bot::Types::Message bot.api.send_message(chat_id: message.chat.id, text: "Hello, #{message.from.first_name}!") end end ``` Now, with `inline` mode enabled, your `message` object can be an instance of [Message](https://core.telegram.org/bots/api#message), [InlineQuery](https://core.telegram.org/bots/api#inlinequery) or [ChosenInlineResult](https://core.telegram.org/bots/api#choseninlineresult). That's why you need to check type of each message and decide how to handle it. Using `answer_inline_query` you can send query results to user. `results` field must be an array of [query result objects](https://core.telegram.org/bots/api#inlinequeryresult). ## File upload Your bot can even upload files ([photos](https://core.telegram.org/bots/api#sendphoto), [audio](https://core.telegram.org/bots/api#sendaudio), [documents](https://core.telegram.org/bots/api#senddocument), [stickers](https://core.telegram.org/bots/api#sendsticker), [video](https://core.telegram.org/bots/api#sendvideo)) to Telegram servers. Just like this: ```ruby bot.listen do |message| case message.text when '/photo' bot.api.send_photo(chat_id: message.chat.id, photo: Faraday::UploadIO.new('~/Desktop/jennifer.jpg', 'image/jpeg')) end end ``` ## Logging By default, bot doesn't log anything (uses `NullLoger`). You can change this behavior and provide your own logger class. See example below: ```ruby Telegram::Bot::Client.run(token, logger: Logger.new($stderr)) do |bot| bot.logger.info('Bot has been started') bot.listen do |message| # ... end end ``` ## Botan.io support Gem provides support of [Botan.io](http://botan.io/) analytics out of box. All you need is to obtain a token (follow the instructions from https://github.com/botanio/sdk). To track events you're interested in just call `#track` method. See example below: ```ruby require 'telegram/bot' require 'telegram/bot/botan' # Botan.io extension isn't loaded by default, so make sure you required it. token = 'YOUR_TELEGRAM_BOT_API_TOKEN' Telegram::Bot::Client.run(token) do |bot| bot.enable_botan!('YOUR_BOTAN_TOKEN') bot.listen do |message| case message.text when '/start' bot.track('Started', message.from.id, type_of_chat: message.chat.class.name) # ... end end end ``` `#track` method accepts 3 arguments: - name of event (required) - Telegram's user id (required) - hash of additional properties (optional) ## Connection adapters Since version `0.5.0` we rely on [faraday](https://github.com/lostisland/faraday) under the hood. You can use any of supported adapters (for example, `net/http/persistent`): ```ruby require 'net/http/persistent' Telegram::Bot.configure do |config| config.adapter = :net_http_persistent end ``` ## Boilerplates If you don't know how to setup database for your bot or how to use it with different languages here are some boilerplates which can help you to start faster: - [Ruby Telegram Bot boilerplate](https://github.com/telegram-bots/ruby-telegram-bot-boilerplate) ## Contributing 1. Fork it 2. Create your feature branch (git checkout -b my-new-feature) 3. Commit your changes (git commit -am 'Add some feature') 4. Push to the branch (git push origin my-new-feature) 5. Create new Pull Request