# Telebot >"I never knew creating Telegram bots could so _sexy_!" [![GoDoc](https://godoc.org/gopkg.in/tucnak/telebot.v2?status.svg)](https://godoc.org/gopkg.in/tucnak/telebot.v2) [![Travis](https://travis-ci.org/tucnak/telebot.svg?branch=v2)](https://travis-ci.org/tucnak/telebot) ```bash go get gopkg.in/tucnak/telebot.v2 ``` Telebot is a bot framework for [Telegram](https://telegram.org) [Bot API](https://core.telegram.org/bots/api). This package provides the best of its kind API for command routing, inline query requests and keyboards, as well as callbacks. Actually, I went a couple steps further, so instead of making a 1:1 API wrapper I chose to focus on the beauty of API and performance. All the methods of telebot API are _extremely_ easy to memorize and get used to. Telebot is agnostic to the source of updates as long as the source implements the `Poller` interface. `Poller` means you can plug your telebot into virtually any existing bot infrastructure, if you have any. Also, consider Telebot a highload-ready solution. I'll soon benchmark the most popular actions and if necessary, optimize against them without sacrificing API quality. Take a look at the minimal telebot setup: ```go import ( "time" tb "gopkg.in/tucnak/telebot.v2" ) func main() { b, err := tb.NewBot(tb.Settings{ Token: "TOKEN_HERE", Poller: &tb.LongPoller{10 * time.Second}, }) if err != nil { return } b.Handle("/hello", func(m *tb.Message) { b.Send(m.From, "hello world") }) b.Start() } ``` Simple, innit? Telebot's routing system takes care of deliviering updates to their endpoints, so in order to get to handle any meaningful event, all you have to do is just plug your function to one of them endpoints and you're ready to go! ```go b, _ := tb.NewBot(settings) b.Handle("/help", func (m *Message) { // help command handler }) b.Handle(tb.OnChannelPost, func (m *Message) { // channel post messages only }) b.Handle(tb.Callback, func (c *Callback) { // incoming bot callbacks that weren't // captured by specific callback handlers. }) b.Handle(tb.OnMessage, func(m *Message) { // all messages that couldn't fall into // any specific endpoint will get here. } ``` Now there's about 10 supported endpoints (see package consts). Let me know if you'd like to see some endpoint or endpoint idea implemented. This system is completely extensible, so I can introduce them without braking backwards-compatibity. ## Message CRUD: `Send()`, `Edit()`, `Delete()` These are the three most important functions for manipulating Telebot messages. `Send()` takes a Recipient (could be user, chat, channel) and a Sendable. All telebot-provided media types (Photo, Audio, Video, etc.) are Sendable. ```go // Sendable is any object that can send itself. // // This is pretty cool, since it lets bots implement // custom Sendables for complex kind of media or // chat objects spanning across multiple messages. type Sendable interface { Send(*Bot, Recipient, *SendOptions) (*Message, error) } ``` If you want to edit some existing message, you don't really need to store the original `*Message` object. In fact, upon edit, Telegram only requires two IDs: ChatID and MessageID. And it doesn't really require the whole Message. Also you might want to store references to certain messages in the database, so for me it made sense for *any* Go struct to be editable as Telegram message, to implement Editable interface: ```go // Editable is an interface for all objects that // provide "message signature", a pair of 32-bit // message ID and 64-bit chat ID, both required // for edit operations. // // Use case: DB model struct for messages to-be // edited with, say two collums: msg_id,chat_id // could easily implement MessageSig() making // instances of stored messages editable. type Editable interface { // MessageSig is a "message signature". // // For inline messages, return chatID = 0. MessageSig() (messageID int, chatID int64) } ``` For example, `Message` type is Editable. Here is an implementation of `StoredMessage` type, provided by telebot: ```go // StoredMessage is an example struct suitable for being // stored in the database as-is or being embedded into // a larger struct, which is often the case (you might // want to store some metadata alongside, or might not.) type StoredMessage struct { MessageID int `sql:"message_id" json:"message_id"` ChatID int64 `sql:"chat_id" json:"chat_id"` } func (x StoredMessage) MessageSig() (int, int64) { return x.MessageID, x.ChatID } ``` Why bother at all? Well, it allows you to do things like this: ```go // just two integer columns in the database var msgs []StoredMessage db.Find(&msgs) // gorm syntax for _, msg := range msgs { bot.Edit(&msg, "Updated text.") // or bot.Delete(&msg) } ``` I find it incredibly neat. Worth noting, at this point of time there exists another method in the Edit family, `EditCaption()` which is of a pretty rare use, so I didn't bother including it to `Edit()`, which would inevitably lead to unnecessary complications. ```go var m *Message // change caption of a photo, audio, etc. bot.EditCaption(m, "new caption") ``` ## Inline mode Docs TBA. ## Files >Telegram allows files up to 20 MB in size. Telebot allows to both upload (from disk / by URL) and download (from Telegram) and files in bot's scope. Also, sending any kind of media with a File created from disk will upload the file to Telegram automatically: ```go a := &tb.Audio{File: tb.FromDisk("file.ogg")} fmt.Println(a.OnDisk()) // true fmt.Println(a.InCloud()) // false // Will upload the file from disk and send it to recipient bot.Send(recipient, a) // Next time you'll be sending this very *Audio, Telebot won't // re-upload the same file but rather utilize its Telegram FileID bot.Send(otherRecipient, a) fmt.Println(a.OnDisk()) // true fmt.Println(a.InCloud()) // true fmt.Println(a.FileID) // ``` You might want to save certain `File`s in order to avoid re-uploading. Feel free to marshal them into whatever format, `File` only contain public fields, so no data will ever be lost. TBA.