# Table of Contents - [Introduction](#introduction) - [Setting up the development environment](#setting-up-the-development-environment) - [Adding a new command](#adding-a-new-command) - [Adding a new non-command feature](#adding-a-new-non-command-feature) # Introduction This is a brief overview that'll describe where and how to add new features to TravBot. For more details on specific functions, head over to the [documentation](Documentation.md). Assume the prefix for all of these examples is `$`. # Setting up the development environment 1. `npm install` 2. `npm run dev` *(runs the TypeScript compiler in watch mode, meaning any changes you make to the code will automatically reload the bot)* *Note: Make sure to avoid using `npm run build`! This will remove all your dev dependencies (in order to reduce space used). Instead, use `npm run once` to compile and build in non-dev mode.* *Note: If you update one of the APIs or utility functions, make sure to update the [documentation](Documentation.md).* # Adding a new command To add a new command, go to `src/commands` and either copy the [template](../src/commands/template.ts) or rename the auto-generated test file (`../src/commands/test.ts`). For reference, this is the barebones requirement for a command file. ## The very basics of a command ```ts import {NamedCommand} from "../core"; export default new NamedCommand(); ``` To make something actually happen when the command is run however, you implement the `run` property. ```ts import {Command, NamedCommand} from "../core"; export default new NamedCommand({ async run({message, channel, guild, author, member, client, args}) { channel.send("test"); } }); ``` ### Quick note on the run property You can also enter a string for the `run` property which will send a message with that string specified ([you can also specify some variables in that string](Documentation.md#)). The above is functionally equivalent to the below. ```ts import {Command, NamedCommand} from "../core"; export default new NamedCommand({ run: "test" }); ``` ## Introducing subcommands Where this command handler really shines though is from its subcommands feature. You can filter and parse argument lists in a declarative manner. ```ts import {Command, NamedCommand} from "../core"; export default new NamedCommand({ user: new Command({ async run({message, channel, guild, author, member, client, args}) { const user = args[0]; } }) }); ``` Here, . For example, if this file was named `test.ts`, `$test <@237359961842253835>` would get the user by the ID `237359961842253835` into `args[0]` as a [User](https://discord.js.org/#/docs/main/stable/class/User) object. `$test experiment` would run as if you just called `$test` *(given that [endpoint](Documentation.md#) isn't set to `true`)*. If you want, you can typecast the argument to be more strongly typed, because the type of `args` is `any[]`. *([See why if you're curious.](DesignDecisions.md#any[]-parameters-for-subcommand-run))* ```ts import {Command, NamedCommand} from "../core"; import {User} from "discord.js"; export default new NamedCommand({ user: new Command({ async run({message, channel, guild, author, member, client, args}) { const user = args[0] as User; } }) }); ``` ## Keyed subcommands For keyed subcommands, you would instead use a `NamedCommand`. ```ts import {Command, NamedCommand} from "../core"; export default new NamedCommand({ run: "one", subcommands: { bread: new NamedCommand({ run: "two" }) } }); ``` If the file was named `cat.ts`: - `$cat` would output `one` - `$cat bread` would output `two` Only `bread` in this case would lead to `two` being the output, which is different from the generic subcommand types in previous examples. You get an additional property with `NamedCommand`s: `aliases`. That means you can define aliases not only for top-level commands, but also every layer of subcommands. ```ts import {Command, NamedCommand} from "../core"; export default new NamedCommand({ aliases: ["potato"], subcommands: { slice: new NamedCommand({ aliases: ["pear"] }) } }); ``` For example, if this file was named `plant.ts`, the following would work: - `$plant` - `$potato` - `$plant slice` - `$plant pear` - `$potato slice` - `$potato pear` ## Metadata / Command Properties You can also specify metadata for commands by adding additional properties. Some of these properties are per-command while others are inherited. ```ts import {Command, NamedCommand} from "../core"; export default new NamedCommand({ description: "desc one", subcommands: { pineapple: new NamedCommand({ //... }) } }); ``` `description` is an example of a per-command property (which is used in a help command). If the file was named `siege.ts`: - The description of `$siege` would be `desc one`. - There wouldn't be a description for `$siege pineapple`. This is in contrast to inherited properties. ```ts import {Command, NamedCommand, CHANNEL_TYPE} from "../core"; export default new NamedCommand({ channelType: CHANNEL_TYPE.GUILD, subcommands: { pineapple: new NamedCommand({ //... }) } }); ``` Here, the property `channelType` would spread to all subcommands unless a subcommand defines it. Using the above example, the `channelType` for both `$siege` and `$siege pineapple` would be `CHANNEL_TYPE.GUILD`. *To get a full list of metadata properties, see the [documentation](Documentation.md#).* ## Utility Functions You'll have to import these manually, however it's in the same import list as `Command` and `NamedCommand`. ```ts import {Command, NamedCommand, paginate} from "../core"; export default new NamedCommand({ async run({message, channel, guild, author, member, client, args}) { paginate(/* enter your code here */); } }); ``` *To get a full list of utility functions, see the [documentation](Documentation.md#).* # Adding a new non-command feature If the feature you want to add isn't specifically a command, or the change you're making involves adding event listeners, go to `src/modules` and create a file. Code written here won't be automatically loaded, so make sure to open [src/index.ts](../src/index.ts) and add an import statement at the bottom. ```ts import "./modules/myModule"; ``` This will just run whatever code is in there. ## Listening for events Rather than have an `events` folder which contains dynamically loaded events, you add an event listener directly via `client.on("...", () => {})`. *([See why if you're curious.](DesignDecisions.md#static-event-loading))* The client can be imported from the index file. ```ts import {client} from ".."; client.on("message", (message) => { //... }); ``` As long as you make sure to add that import statement in the index file itself, the event(s) will load. **Just make sure you instantiate the client *before* you import a module or you'll get a runtime error.** `index.ts` ```ts import {Client} from "discord.js"; export const client = new Client(); //... import "./modules/myModule"; ```