A Discord API wrapper in Java. Fully async / reactive, built on top of RxJava. catnip tries to map roughly 1:1 to how the Discord API works, both in terms of events and REST methods available. catnip uses Java 17+.
catnip is part of the amyware Discord server.
Licensed under the BSD 3-Clause License.
No. Use a real build tool like Maven or Gradle.
- Automatic sharding
- Very customizable - you can write extensions
for the library, as well as options
for most anything you could want to change. See
EXTENSIONS.md
for more. - Modular - REST / shards can be used independently. See
MODULAR_USAGE.md
for more. - Customizable caching - Can run with no cache,
partial caching,
or write your own cache handler.
See
CACHING.md
for more. - Asynchronous cache accesses.
- You can disable individual events.
- You can disable all events, and handle gateway events directly.
- Customizable ratelimit/session data handling - wanna store your sessions/seqnums and REST ratelimit data in Redis, but gateway ratelimits in memory? You can do that!
- Customizable shard management
This is the simplest possible bot you can make right now:
final Catnip catnip = Catnip.catnip("your token goes here");
catnip.observable(DiscordEvent.MESSAGE_CREATE)
.filter(msg -> msg.content().equals("!ping"))
.subscribe(msg -> {
msg.reply("pong!");
}, error -> error.printStackTrace());
catnip.connect();
catnip returns RxJava operators (Completable
/Observable
/Single
/...) from
all REST methods. For example, editing your ping message to include time it
took to create the message:
final Catnip catnip = Catnip.catnip("your token goes here");
catnip.observable(DiscordEvent.MESSAGE_CREATE)
.filter(msg -> msg.content().equals("!ping"))
.subscribe(msg -> {
long start = System.currentTimeMillis();
msg.reply("pong!")
.subscribe(ping -> {
long end = System.currentTimeMillis();
ping.edit("pong! (took " + (end - start) + "ms).");
});
}, error -> error.printStackTrace());
catnip.connect();
You can also create a catnip instance asynchronously:
Catnip.catnipAsync("your token here").subscribe(catnip -> {
catnip.observable(DiscordEvent.MESSAGE_CREATE)
.filter(msg -> msg.content().equals("!ping"))
.subscribe(msg -> {
msg.reply("pong!");
}, error -> error.printStackTrace());
catnip.connect();
});
Also check out the examples for Kotlin and Scala usage.
Observable#forEach
seems like the obvious way to use the reactive methods, but as it turns out,
it's also the wrong thing to do. Observable#forEach
is generally intended for finite streams of
data; the events that catnip emits aren't finite, and as such, Observable#forEach
isn't the
correct tool to use. In addition, Observable#forEach
will stop processing events if an uncaught
exception is thrown. Instead, you should use Observable#subscribe(eventCallback, exceptionCallback)
,
which will handle exceptions properly.
catnip supports being used in REST-only or shards-only configurations. The nice thing about catnip
is that using it like this is exactly the same as using it normally. The only difference is
that to use catnip in REST-only mode, you don't call catnip.connect()
and use
catnip.rest().whatever()
instead.
By default, RxJava's Observable#subscribe()
and related methods will not operate on any
particular scheduler by default. That is, they will run on the calling thread. catnip will
automatically subscribe RxJava objects onto a scheduler provided by catnip, that defaults
to being a ForkJoinPool-based scheduler. You can customize the scheduler used with the
corresponding option in CatnipOptions
.
catnip-voice
- Voice support for your catnip bot. https://github.com/natanbc/catnip-voicecatnip-utilities
- Some extensions for typesafe commands, event waiters, reaction menus, and more. https://github.com/queer/catnip-utilitiesdiscordbotlist-stats-catnip
- Wrapper aiming at combining all Discord Bot Lists AND Wrappers into one artifact. Automatically handles pushing bot stats to bot lists. https://github.com/burdoto/discordbotlist-stats#using-with-catnip--
- I didn't want ten billion events for every possible case. catnip maps more/less 1:1 with the Discord API, and any "extra" events on top of that need to be user-provided via extensions or other means. I guess really I just didn't want my lib to be as "high-level" as other libs are.
- I wanted to try to maximize extensibility / customizability, beyond just making it modular. Things like being able to intercept raw websocket messages (as JSON), write custom distributed cache handlers, ... are incredibly useful.
- I like everything returning Rx classes instead of custom
Future
-like classes. I do get why other libs have them, I just wanted to not. - I wanted modular usage to be exactly the same more / less no matter what; everything should be doable through the catnip instance that you create.
- I wanted to make a lib built on RxJava.
- To take over the world and convert all Java bots. :^)