mirror of
https://github.com/tucnak/telebot
synced 2024-11-11 01:10:39 +00:00
475 lines
14 KiB
Markdown
475 lines
14 KiB
Markdown
# Telebot
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>"I never knew creating Telegram bots could be so _sexy_!"
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[![GoDoc](https://godoc.org/gopkg.in/tucnak/telebot.v3?status.svg)](https://godoc.org/gopkg.in/tucnak/telebot.v3)
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[![Travis](https://travis-ci.org/tucnak/telebot.svg?branch=v3)](https://travis-ci.org/tucnak/telebot)
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[![codecov.io](https://codecov.io/gh/tucnak/telebot/coverage.svg?branch=develop)](https://codecov.io/gh/tucnak/telebot)
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[![Discuss on Telegram](https://img.shields.io/badge/telegram-discuss-0088cc.svg)](https://t.me/go_telebot)
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```bash
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go get -u gopkg.in/tucnak/telebot.v3
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```
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* [Overview](#overview)
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* [Getting Started](#getting-started)
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- [Poller](#poller)
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- [Commands](#commands)
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- [Files](#files)
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- [Sendable](#sendable)
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- [Editable](#editable)
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- [Keyboards](#keyboards)
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- [Inline mode](#inline-mode)
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* [Contributing](#contributing)
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* [Donate](#donate)
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* [License](#license)
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# Overview
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Telebot is a bot framework for [Telegram Bot API](https://core.telegram.org/bots/api).
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This package provides the best of its kind API for command routing, inline query requests and keyboards, as well
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as callbacks. Actually, I went a couple steps further, so instead of making a 1:1 API wrapper I chose to focus on
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the beauty of API and performance. Some of the strong sides of telebot are:
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* Real concise API
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* Command routing
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* Middleware
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* Transparent File API
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* Effortless bot callbacks
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All the methods of telebot API are _extremely_ easy to memorize and get used to. Also, consider Telebot a
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highload-ready solution. I'll test and benchmark the most popular actions and if necessary, optimize
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against them without sacrificing API quality.
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# Getting Started
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Let's take a look at the minimal telebot setup:
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```go
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package main
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import (
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"log"
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"time"
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tele "gopkg.in/tucnak/telebot.v3"
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)
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func main() {
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b, err := tele.NewBot(tele.Settings{
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// You can also set custom API URL.
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// If field is empty it equals to "https://api.telegram.org".
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URL: "http://195.129.111.17:8012",
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Token: "TOKEN_HERE",
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Poller: &tele.LongPoller{Timeout: 10 * time.Second},
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})
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if err != nil {
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log.Fatal(err)
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return
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}
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b.Handle("/hello", func(m tele.Context) error {
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return m.Send("Hello")
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})
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b.Start()
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}
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```
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Simple, innit? Telebot's routing system takes care of delivering updates
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to their endpoints, so in order to get to handle any meaningful event,
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all you got to do is just plug your function to one of the Telebot-provided
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endpoints. You can find the full list
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[here](https://godoc.org/gopkg.in/tucnak/telebot.v3#pkg-constants).
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```go
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b, _ := tele.NewBot(settings)
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b.Handle(tele.OnText, func(m *tele.Message) {
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// all the text messages that weren't
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// captured by existing handlers
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})
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b.Handle(tele.OnPhoto, func(m *tele.Message) {
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// photos only
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})
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b.Handle(tele.OnChannelPost, func (m *tele.Message) {
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// channel posts only
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})
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b.Handle(tele.OnQuery, func (q *tele.Query) {
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// incoming inline queries
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})
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```
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There's dozens of supported endpoints (see package consts). Let me know
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if you'd like to see some endpoint or endpoint idea implemented. This system
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is completely extensible, so I can introduce them without breaking
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backwards-compatibility.
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## Poller
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Telebot doesn't really care how you provide it with incoming updates, as long
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as you set it up with a Poller, or call ProcessUpdate for each update (see
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[examples/awslambdaechobot](examples/awslambdaechobot)):
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```go
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// Poller is a provider of Updates.
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//
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// All pollers must implement Poll(), which accepts bot
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// pointer and subscription channel and start polling
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// synchronously straight away.
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type Poller interface {
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// Poll is supposed to take the bot object
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// subscription channel and start polling
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// for Updates immediately.
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//
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// Poller must listen for stop constantly and close
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// it as soon as it's done polling.
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Poll(b *Bot, updates chan Update, stop chan struct{})
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}
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```
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Telegram Bot API supports long polling and webhook integration. Poller means you
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can plug telebot into whatever existing bot infrastructure (load balancers?) you
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need, if you need to. Another great thing about pollers is that you can chain
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them, making some sort of middleware:
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```go
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poller := &tele.LongPoller{Timeout: 15 * time.Second}
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spamProtected := tele.NewMiddlewarePoller(poller, func(upd *tele.Update) bool {
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if upd.Message == nil {
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return true
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}
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if strings.Contains(upd.Message.Text, "spam") {
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return false
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}
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return true
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})
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bot, _ := tele.NewBot(tele.Settings{
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// ...
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Poller: spamProtected,
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})
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// graceful shutdown
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time.AfterFunc(N * time.Second, b.Stop)
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// blocks until shutdown
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bot.Start()
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fmt.Println(poller.LastUpdateID) // 134237
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```
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## Commands
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When handling commands, Telebot supports both direct (`/command`) and group-like
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syntax (`/command@botname`) and will never deliver messages addressed to some
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other bot, even if [privacy mode](https://core.telegram.org/bots#privacy-mode) is off.
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For simplified deep-linking, telebot also extracts payload:
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```go
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// Command: /start <PAYLOAD>
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b.Handle("/start", func(m *tele.Message) {
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if !m.Private() {
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return
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}
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fmt.Println(m.Payload) // <PAYLOAD>
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})
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```
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## Files
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>Telegram allows files up to 20 MB in size.
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Telebot allows to both upload (from disk / by URL) and download (from Telegram)
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and files in bot's scope. Also, sending any kind of media with a File created
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from disk will upload the file to Telegram automatically:
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```go
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a := &tele.Audio{File: tele.FromDisk("file.ogg")}
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fmt.Println(a.OnDisk()) // true
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fmt.Println(a.InCloud()) // false
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// Will upload the file from disk and send it to recipient
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bot.Send(recipient, a)
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// Next time you'll be sending this very *Audio, Telebot won't
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// re-upload the same file but rather utilize its Telegram FileID
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bot.Send(otherRecipient, a)
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fmt.Println(a.OnDisk()) // true
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fmt.Println(a.InCloud()) // true
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fmt.Println(a.FileID) // <telegram file id: ABC-DEF1234ghIkl-zyx57W2v1u123ew11>
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```
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You might want to save certain `File`s in order to avoid re-uploading. Feel free
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to marshal them into whatever format, `File` only contain public fields, so no
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data will ever be lost.
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## Sendable
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Send is undoubtedly the most important method in Telebot. `Send()` accepts a
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`Recipient` (could be user, group or a channel) and a `Sendable`. Other types other than
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the telebot-provided media types (`Photo`, `Audio`, `Video`, etc.) are `Sendable`.
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If you create composite types of your own, and they satisfy the `Sendable` interface,
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Telebot will be able to send them out.
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```go
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// Sendable is any object that can send itself.
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//
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// This is pretty cool, since it lets bots implement
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// custom Sendables for complex kinds of media or
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// chat objects spanning across multiple messages.
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type Sendable interface {
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Send(*Bot, Recipient, *SendOptions) (*Message, error)
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}
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```
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The only type at the time that doesn't fit `Send()` is `Album` and there is a reason
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for that. Albums were added not so long ago, so they are slightly quirky for backwards
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compatibilities sake. In fact, an `Album` can be sent, but never received. Instead,
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Telegram returns a `[]Message`, one for each media object in the album:
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```go
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p := &tele.Photo{File: tele.FromDisk("chicken.jpg")}
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v := &tele.Video{File: tele.FromURL("http://video.mp4")}
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msgs, err := b.SendAlbum(user, tele.Album{p, v})
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```
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### Send options
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Send options are objects and flags you can pass to `Send()`, `Edit()` and friends
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as optional arguments (following the recipient and the text/media). The most
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important one is called `SendOptions`, it lets you control _all_ the properties of
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the message supported by Telegram. The only drawback is that it's rather
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inconvenient to use at times, so `Send()` supports multiple shorthands:
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```go
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// regular send options
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b.Send(user, "text", &tele.SendOptions{
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// ...
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})
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// ReplyMarkup is a part of SendOptions,
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// but often it's the only option you need
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b.Send(user, "text", &tele.ReplyMarkup{
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// ...
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})
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// flags: no notification && no web link preview
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b.Send(user, "text", tele.Silent, tele.NoPreview)
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```
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Full list of supported option-flags you can find
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[here](https://github.com/tucnak/telebot/blob/v3/options.go#L9).
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## Editable
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If you want to edit some existing message, you don't really need to store the
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original `*Message` object. In fact, upon edit, Telegram only requires `chat_id`
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and `message_id`. So you don't really need the Message as the whole. Also you
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might want to store references to certain messages in the database, so I thought
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it made sense for *any* Go struct to be editable as a Telegram message, to implement
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`Editable`:
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```go
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// Editable is an interface for all objects that
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// provide "message signature", a pair of 32-bit
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// message ID and 64-bit chat ID, both required
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// for edit operations.
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//
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// Use case: DB model struct for messages to-be
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// edited with, say two columns: msg_id,chat_id
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// could easily implement MessageSig() making
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// instances of stored messages editable.
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type Editable interface {
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// MessageSig is a "message signature".
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//
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// For inline messages, return chatID = 0.
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MessageSig() (messageID int, chatID int64)
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}
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```
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For example, `Message` type is Editable. Here is the implementation of `StoredMessage`
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type, provided by telebot:
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```go
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// StoredMessage is an example struct suitable for being
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// stored in the database as-is or being embedded into
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// a larger struct, which is often the case (you might
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// want to store some metadata alongside, or might not.)
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type StoredMessage struct {
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MessageID int `sql:"message_id" json:"message_id"`
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ChatID int64 `sql:"chat_id" json:"chat_id"`
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}
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func (x StoredMessage) MessageSig() (int, int64) {
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return x.MessageID, x.ChatID
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}
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```
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Why bother at all? Well, it allows you to do things like this:
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```go
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// just two integer columns in the database
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var msgs []tele.StoredMessage
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db.Find(&msgs) // gorm syntax
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for _, msg := range msgs {
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bot.Edit(&msg, "Updated text")
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// or
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bot.Delete(&msg)
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}
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```
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I find it incredibly neat. Worth noting, at this point of time there exists
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another method in the Edit family, `EditCaption()` which is of a pretty
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rare use, so I didn't bother including it to `Edit()`, just like I did with
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`SendAlbum()` as it would inevitably lead to unnecessary complications.
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```go
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var m *Message
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// change caption of a photo, audio, etc.
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bot.EditCaption(m, "new caption")
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```
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## Keyboards
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Telebot supports both kinds of keyboards Telegram provides: reply and inline
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keyboards. Any button can also act as an endpoints for `Handle()`.
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In `v2.2` we're introducing a little more convenient way in building keyboards.
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The main goal is to avoid a lot of boilerplate and to make code clearer.
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```go
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func main() {
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b, _ := tele.NewBot(tele.Settings{...})
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var (
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// Universal markup builders.
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menu = &ReplyMarkup{ResizeReplyKeyboard: true}
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selector = &ReplyMarkup{}
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// Reply buttons.
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btnHelp = menu.Text("ℹ Help")
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btnSettings = menu.Text("⚙ Settings")
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// Inline buttons.
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//
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// Pressing it will cause the client to
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// send the bot a callback.
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//
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// Make sure Unique stays unique as per button kind,
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// as it has to be for callback routing to work.
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//
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btnPrev = selector.Data("⬅", "prev", ...)
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btnNext = selector.Data("➡", "next", ...)
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)
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menu.Reply(
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menu.Row(btnHelp),
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menu.Row(btnSettings),
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)
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selector.Inline(
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selector.Row(btnPrev, btnNext),
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)
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// Command: /start <PAYLOAD>
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b.Handle("/start", func(m *tele.Message) {
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if !m.Private() {
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return
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}
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b.Send(m.Sender, "Hello!", menu)
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})
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// On reply button pressed (message)
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b.Handle(&btnHelp, func(m *tele.Message) {...})
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// On inline button pressed (callback)
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b.Handle(&btnPrev, func(c *tele.Callback) {
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// ...
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// Always respond!
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b.Respond(c, &tele.CallbackResponse{...})
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})
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b.Start()
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}
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```
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You can use markup constructor for every type of possible buttons:
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```go
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r := &ReplyMarkup{}
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// Reply buttons:
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r.Text("Hello!")
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r.Contact("Send phone number")
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r.Location("Send location")
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r.Poll(tele.PollQuiz)
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// Inline buttons:
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r.Data("Show help", "help") // data is optional
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r.Data("Delete item", "delete", item.ID)
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r.URL("Visit", "https://google.com")
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r.Query("Search", query)
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r.QueryChat("Share", query)
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r.Login("Login", &tele.Login{...})
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```
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## Inline mode
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So if you want to handle incoming inline queries you better plug the `tele.OnQuery`
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endpoint and then use the `Answer()` method to send a list of inline queries
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back. I think at the time of writing, telebot supports all of the provided result
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types (but not the cached ones). This is how it looks like:
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```go
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b.Handle(tele.OnQuery, func(q *tele.Query) {
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urls := []string{
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"http://photo.jpg",
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"http://photo2.jpg",
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}
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results := make(tele.Results, len(urls)) // []tele.Result
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for i, url := range urls {
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result := &tele.PhotoResult{
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URL: url,
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// required for photos
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ThumbURL: url,
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}
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results[i] = result
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// needed to set a unique string ID for each result
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results[i].SetResultID(strconv.Itoa(i))
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}
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err := b.Answer(q, &tele.QueryResponse{
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Results: results,
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CacheTime: 60, // a minute
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})
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if err != nil {
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log.Println(err)
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}
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})
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```
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There's not much to talk about really. It also supports some form of authentication
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through deep-linking. For that, use fields `SwitchPMText` and `SwitchPMParameter`
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of `QueryResponse`.
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# Contributing
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1. Fork it
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2. Clone develop: `git clone -b develop https://github.com/tucnak/telebot`
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3. Create your feature branch: `git checkout -b new-feature`
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4. Make changes and add them: `git add .`
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5. Commit: `git commit -m "Add some feature"`
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6. Push: `git push origin new-feature`
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7. Pull request
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# Donate
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I do coding for fun but I also try to search for interesting solutions and
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optimize them as much as possible.
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If you feel like it's a good piece of software, I wouldn't mind a tip!
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|
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Litecoin: `ltc1qskt5ltrtyg7esfjm0ftx6jnacwffhpzpqmerus`
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Ethereum: `0xB78A2Ac1D83a0aD0b993046F9fDEfC5e619efCAB`
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# License
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Telebot is distributed under MIT.
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