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Brigadier GitHub release GitHub

Brigadier is a command parser & dispatcher, designed and developed for Minecraft: Java Edition and now freely available for use elsewhere under the MIT license.

Installation

Brigadier is available to Maven & Gradle via libraries.minecraft.net. Its group is com.mojang, and artifact name is brigadier.

Gradle

First include our repository:

maven {
    url "https://libraries.minecraft.net"
}

And then use this library (change (the latest version) to the latest version!):

compile 'com.mojang:brigadier:(the latest version)'

Maven

First include our repository:

<repository>
  <id>minecraft-libraries</id>
  <name>Minecraft Libraries</name>
  <url>https://libraries.minecraft.net</url>
</repository>

And then use this library (change (the latest version) to the latest version!):

<dependency>
    <groupId>com.mojang</groupId>
    <artifactId>brigadier</artifactId>
    <version>(the latest version)</version>
</dependency>

Contributing

Contributions are welcome ! :D

Most contributions will require you to agree to a Contributor License Agreement (CLA) declaring that you have the right to, and actually do, grant us the rights to use your contribution. For details, visit https://cla.microsoft.com.

This project has adopted the Microsoft Open Source Code of Conduct. For more information see the Code of Conduct FAQ or contact opencode@microsoft.com with any additional questions or comments.

Usage

At the heart of Brigadier, you need a CommandDispatcher<S>, where <S> is any custom object you choose to identify a "command source".

A command dispatcher holds a "command tree", which are a series of CommandNode which represent the various possible syntax that form a valid command.

Registering a new command

Before we can start parsing and dispatching commands, we need to build up our command tree. Every registration is an append operation, so you can freely extend existing commands in a project without needing access to the source code that created them.

Command registration also encourages use of a builder pattern to keep code cruft to a minimum.

A "command" is a fairly loose term, but typically it means an exit point of the command tree. Every node can have an executes function attached to it, which signifies that if the input stops here then this function will be called with the context so far.

Consider the following example:

CommandDispatcher<CommandSourceStack> dispatcher = new CommandDispatcher<>();

dispatcher.register(
    literal("foo")
        .then(
            argument("bar", integer())
                .executes(c -> {
                    System.out.println("Bar is " + getInteger(c, "bar"));
                    return 1;
                })
        )
        .executes(c -> {
            System.out.println("Called foo with no arguments");
            return 1;
        })
);

This snippet registers two "commands": foo and foo <bar>. It is also common to refer to the <bar> as a "subcommand" of foo, as it's a child node.

At the start of the tree is a "root node", and it must have LiteralCommandNodes as children. Here, we register one command under the root: literal("foo"), which means "the user must type the literal string 'foo'".

Under that is two extra definitions: a child node for possible further evaluation, or an executes block if the user input stops here.

The child node works exactly the same way, but is no longer limited to literals. The other type of node that is now allowed is an ArgumentCommandNode, which takes in a name and an argument type.

Arguments can be anything, and you are encouraged to build your own for seamless integration into your own product. There are some standard arguments included in brigadier, such as IntegerArgumentType.

Argument types will be asked to parse input as much as they can, and then store the "result" of that argument however they see fit or throw a relevant error if they can't parse.

For example, an integer argument would parse "123" and store it as 123 (int), but throw an error if the input were onetwothree.

When a command is actually run, it can access these arguments in the context provided to the registered function.

Parsing user input

So, we've registered some commands and now we're ready to take in user input. If you're in a rush, you can just call dispatcher.execute("foo 123", source) and call it a day.

The result of execute is an integer returned by the command it evaluated. Its meaning varies depending on command, and typically will not be useful to programmers.

The source is an object of <S>, your own custom class to track users/players/etc. It will be provided to the command so that it has some context on what's happening.

If the command failed or could not parse, some form of CommandSyntaxException will be thrown. It is also possible for a RuntimeException to be bubbled up, if not properly handled in a command.

If you wish to have more control over the parsing & executing of commands, or wish to cache the parse results so you can execute it multiple times, you can split it up into two steps:

final ParseResults<S> parse = dispatcher.parse("foo 123", source);
final int result = execute(parse);

This is highly recommended as the parse step is the most expensive, and may be easily cached depending on your application.

You can also use this to do further introspection on a command, before (or without) actually running it.

Inspecting a command

If you parse some input, you can find out what it will perform (if anything) and provide hints to the user safely and immediately.

The parse will never fail, and the ParseResults<S> it returns will contain a possible context that a command may be called with (and from that, you can inspect which nodes the user entered, complete with start/end positions in the input string). It also contains a map of parse exceptions for each command node it encountered. If it couldn't build a valid context, then the reason why is inside this exception map.

Displaying usage info

There are two forms of "usage strings" provided by this library, both require a target node.

getAllUsage(node, source, restricted) will return a list of all possible commands (executable end-points) under the target node and their human readable path. If restricted, it will ignore commands that source does not have access to. This will look like [foo, foo <bar>]

getSmartUsage(node, source) will return a map of the child nodes to their "smart usage" human readable path. This tries to squash future-nodes together and show optional & typed information, and can look like foo (<bar>)

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