abilitybots [![Build Status](https://travis-ci.org/rubenlagus/TelegramBots.svg?branch=master)](https://travis-ci.org/rubenlagus/TelegramBots) [![Jitpack](https://jitpack.io/v/rubenlagus/TelegramBots.svg)](https://jitpack.io/#rubenlagus/TelegramBots) [![JavaDoc](http://svgur.com/i/1Ex.svg)](https://addo37.github.io/AbilityBots/) [![Telegram](http://trellobot.doomdns.org/telegrambadge.svg)](https://telegram.me/JavaBotsApi) [![ghit.me](https://ghit.me/badge.svg?repo=rubenlagus/TelegramBots)](https://ghit.me/repo/rubenlagus/TelegramBots)
Usage ----- **Maven** ```xml org.telegram telegrambots-abilities 3.2 ``` **Gradle** ```gradle compile "org.telegram:telegrambots-abilities:3.2" ``` **JitPack** - [JitPack](https://jitpack.io/#rubenlagus/TelegramBots/v3.2) **Plain imports** - [Here](https://github.com/rubenlagus/TelegramBots/releases/tag/v3.2) Motivation ---------- Ever since I've started programming bots for Telegram, I've been using the Telegram Bot Java API. It's a basic and nicely done API that is a 1-to-1 translation of the HTTP API exposed by Telegram. Dealing with a basic API has its advantages and disadvantages. Obviously, there's nothing hidden. If it's there on Telegram, it's here in the Java API. When you want to implement a feature in your bot, you start asking these questions: * The **WHO**? * Who is going to use this feature? Should they be allowed to use all the features? * The **WHAT**? * Under what conditions should I allow this feature? * Should the message have a photo? A document? Oh, maybe a callback query? * The **HOW**? * If my bot crashes, how can I resume my operation? * Should I utilize a DB? * How can I separate logic execution of different features? * How can I unit-test my feature outside of Telegram? Every time you write a command or a feature, you will need to answer these questions and ensure that your feature logic works. Ability Bot Abstraction ----------------------- After implementing my fifth bot using that API, I had had it with the amount of **boilerplate code** that was needed for every added feature. Methods were getting overly-complex and readability became subpar. That is where the notion of another layer of abstraction (AbilityBot) began taking shape. The AbilityBot abstraction defines a new object, named **Ability**. An ability combines conditions, flags, action, post-action and replies. As an example, here is a code-snippet of an ability that creates a ***/hello*** command: ```java public Ability sayHelloWorld() { return Ability .builder() .name("hello") .info("says hello world!") .input(0) .locality(USER) .privacy(ADMIN) .action(ctx -> sender.send("Hello world!", ctx.chatId())) .post(ctx -> sender.send("Bye world!", ctx.chatId())) .build(); } ``` Here is a breakdown of the above code snippet: * *.name()* - the name of the ability (essentially, this is the command) * *.info()* - provides information for the command * More on this later, but it basically centralizes command information in-code. * *.input()* - the number of input arguments needed, 0 is for do-not-care * *.locality()* - this answers where you want the ability to be available * In GROUP, USER private chats or ALL (both) * *.privacy()* - this answers who you want to access your ability * CREATOR, ADMIN, or everyone as PUBLIC * *.action()* - the feature logic resides here (a lambda function that takes a *MessageContext*) * *MessageContext* provides fast accessors for the **chatId**, **user** and the underlying **update**. It also conforms to the specifications of the basic API. * *.post()* - the logic executed **after** your main action finishes execution The following is a snippet of how this would look like with the plain basic API. ```java @Override public void onUpdateReceived(Update update) { // Global checks... // Switch, if, logic to route to hello world method // Execute method } public void sayHelloWorld(Update update) { if (!update.hasMessage() || !update.getMessage().isUserMessage() || !update.getMessage().hasText() || update.getMessage.getText().isEmpty()) return; User maybeAdmin = update.getMessage().getFrom(); /* Query DB for if the user is an admin, can be SQL, Reddis, Ignite, etc... If user is not an admin, then return here. */ SendMessage snd = new SendMessage(); snd.setChatId(update.getMessage().getChatId()); snd.setText("Hello world!"); try { sendMessage(snd); } catch (TelegramApiException e) { BotLogger.error("Could not send message", TAG, e); } } ``` I will leave you the choice to decide between the two snippets as to which is more **readable**, **writable** and **testable**. ***You can do so much more with abilities, besides plain commands. Head over to our [examples](#examples) to check out all of its features!*** Objective --------- The AbilityBot abstraction intends to provide the following: * New feature is a new **Ability**, a new method - no fuss, zero overhead, no cross-code with other features * Argument length on a command is as easy as changing a single integer * Privacy settings per Ability - access levels to Abilities! User | Admin | Creator * Embedded database - available for every declared ability * Proxy sender interface - enhances testability; accurate results pre-release Alongside these exciting core features of the AbilityBot, the following have been introduced: * The bot automatically maintains an up-to-date set of all the users who have contacted the bot * up-to-date: if a user changes their Username, First Name or Last Name, the bot updates the respective field in the embedded-DB * Backup and recovery for the DB * Default implementation relies on JSON/Jackson * Ban and unban users from accessing your bots * The bot will execute the shortest path to discard the update the next time they try to spam * Promote and demote users as bot administrators * Allows admins to execute admin abilities What's next? ------------ I am looking forward to: * Provide a trigger to record metrics per ability * Implement AsyncAbility * Maintain integration with the latest updates on the basic API * Enrich the bot with features requested by the community Examples ------------------- * [Example Bots](https://github.com/addo37/ExampleBots) Do you have a project that uses **AbilityBots**? Let us know! Support ------- For issues and features, please use GitHub's [issues](https://github.com/rubenlagus/TelegramBots/issues) tab. For quick feedback, chatting or just having fun, please come and join us in our Telegram Supergroup. [![Telegram](http://trellobot.doomdns.org/telegrambadge.svg)](https://telegram.me/JavaBotsApi) Credits ------- This project would not have been made possible had it not been for [Ruben](https://github.com/rubenlagus)'s work with the [Telegram Bot Java API](https://github.com/rubenlagus/TelegramBots). I strongly urge you to check out that project and implement a bot to have a sense of how the basic API feels like. Ruben has done a great job in supplying a clear and straightforward API that conforms to Telegram's HTTP API. There is also a chat for that API.