sveld
generates TypeScript definitions for Svelte components by statically analyzing their props, events, slots and more. Prop types and signatures can be defined using JSDoc notation. This documentation generator can also emit component documentation in Markdown and JSON output formats.
The purpose of this project is to make third party Svelte component libraries compatible with the Svelte Language Server and TypeScript with minimal effort required by the author. For example, TypeScript definitions may be used during development via intelligent code completion in Integrated Development Environments (IDE) like VSCode.
Carbon Components Svelte uses this library to auto-generate component types and API metadata:
- TypeScript definitions: Component TypeScript definitions
- Component Index: Markdown file documenting component props, slots, and events
- Component API: Component API metadata in JSON format
Please note that the generated TypeScript definitions require Svelte version 3.31 or greater.
Given a Svelte component, sveld
can infer basic prop types to generate TypeScript definitions compatible with the Svelte Language Server:
Button.svelte
<script>
export let type = "button";
export let primary = false;
</script>
<button {...$$restProps} {type} class:primary on:click>
<slot>Click me</slot>
</button>
The generated definition extends the official SvelteComponentTyped
interface exported from Svelte.
Button.d.ts
/// <reference types="svelte" />
import { SvelteComponentTyped } from "svelte";
export interface ButtonProps extends svelte.JSX.HTMLAttributes<HTMLElementTagNameMap["button"]> {
/**
* @default "button"
*/
type?: string;
/**
* @default false
*/
primary?: boolean;
}
export default class Button extends SvelteComponentTyped<
ButtonProps,
{ click: WindowEventMap["click"] },
{ default: {} }
> {}
Sometimes, inferring prop types is insufficient.
Prop/event/slot types and signatures can be augmented using JSDoc notations.
/** @type {"button" | "submit" | "reset"} */
export let type = "button";
/**
* Set to `true` to use the primary variant
*/
export let primary = false;
The accompanying JSDoc annotations would generate the following:
/// <reference types="svelte" />
import { SvelteComponentTyped } from "svelte";
export interface ButtonProps extends svelte.JSX.HTMLAttributes<HTMLElementTagNameMap["button"]> {
/**
* @default "button"
*/
type?: "button" | "submit" | "reset";
/**
* Set to `true` to use the primary variant
* @default false
*/
primary?: boolean;
}
export default class Button extends SvelteComponentTyped<
ButtonProps,
{ click: WindowEventMap["click"] },
{ default: {} }
> {}
sveld uses the Svelte compiler to statically analyze all Svelte components exported from a library to generate documentation that is useful for the end user.
Extracted metadata:
- props
- slots
- forwarded events
- dispatched events
$$restProps
This library adopts a progressively enhanced approach. Any property type that cannot be inferred (e.g. "hello" is a string) falls back to "any" to minimize incorrectly typed properties or signatures. To mitigate this, the library author can add JSDoc annotations to specify types that cannot be reliably inferred. This represents a progressively enhanced approach because JSDocs are comments that can be ignored by the compiler.
The generated TypeScript definitions for a component extends the SvelteComponentTyped
interface available in svelte version 3.31.
Install sveld
as a development dependency.
yarn add -D sveld
# OR
npm i -D sveld
Import and add sveld
as a plugin to your rollup.config.js
.
// rollup.config.js
import svelte from "rollup-plugin-svelte";
import resolve from "@rollup/plugin-node-resolve";
import sveld from "sveld";
export default {
input: "src/index.js",
output: {
format: "es",
file: "lib/index.mjs",
},
plugins: [svelte(), resolve(), sveld()],
};
When building the library with Rollup, TypeScript definitions will be written to the types
folder.
The integration folder contains example set-ups:
- single-export: library that exports one component
- multi-export: multi-component library without JSDoc annotations (types are inferred)
- multi-export-typed: multi-component library with JSDoc annotations
- multi-export-typed-ts-only: multi-component library that only generates TS definitions
- glob: library that uses the glob strategy to collect/analyze *.svelte files
- carbon: full
carbon-components-svelte
example
The CLI wraps the Rollup plugin and uses the "svelte"
field defined in your package.json
as the entry point.
npx sveld
Append --json
or --markdown
flags to generate documentation in JSON/Markdown formats, respectively.
npx sveld --json --markdown
Specify the entry point for the TypeScript definitions in your package.json
.
{
"svelte": "./src/index.js",
"main": "./lib/index.mjs",
+ "types": "./types/index.d.ts",
"files": [
"src",
"lib",
+ "types",
]
}
By default, only TypeScript definitions are generated.
To generate documentation in Markdown and JSON formats, set markdown
and json
to true
.
sveld({
+ markdown: true,
+ json: true,
})
Without a @type
annotation, sveld will infer the primitive type for a prop:
export let kind = "primary";
// inferred type: "string"
Use the @type
tag to explicitly document the type. In the following example, the kind
property has an enumerated (enum) type.
Signature:
/**
* Optional description
* @type {Type}
*/
Example:
/**
* Specify the kind of button
* @type {"primary" | "secondary" | "tertiary"}
*/
export let kind = "primary";
/**
* Specify the Carbon icon to render
* @type {typeof import("carbon-icons-svelte").CarbonIcon}
*/
export let renderIcon = Close20;
The @typedef
tag can be used to define a common type that is used multiple times within a component. All typedefs defined in a component will be exported from the generated TypeScript definition file.
Signature:
/**
* @typedef {Type} TypeName
*/
Example:
/**
* @typedef {string} AuthorName
* @typedef {{ name?: AuthorName; dob?: string; }} Author
*/
/** @type {Author} */
export let author = {};
/** @type {Author[]} */
export let authors = [];
Use the @slot
tag for typing component slots.
Signature:
/**
* @slot {Type} [slot name]
*/
Example:
<script>
/**
* @slot {{ prop: number; doubled: number; }}
* @slot {{ props: { class?: string; } }} description
*/
export let prop = 0;
</script>
<h1>
<slot {prop} doubled={prop * 2} />
</h1>
<p>
<slot name="description" props={{ class: $$props.class }} />
</p>
Use the @event
tag for typing dispatched events. An event name must be specified.
Signature:
/**
* @event {EventDetail} eventname
*/
Example:
/**
* @event {{ key: string }} button:key
*/
export let key = "";
import { createEventDispatcher } from "svelte";
const dispatch = createEventDispatcher();
$: dispatch("button:key", { key });
sveld can pick up inline HTML elements that $$restProps
is forwarded to. However, it cannot infer the underlying element for instantiated components.
You can use the @restProps
tag to explicitly define element tags that $$restProps
is forwarded to.
Signature:
/**
* Single element
* @restProps {tagname}
*
* Multiple elements
* @restProps {tagname-1 | tagname-2 | tagname-3}
*/
Example:
<script>
/** @restProps {h1 | button} */
export let edit = false;
import Button from "../";
</script>
{#if edit}
<Button {...$$restProps} />
{:else}
<h1 {...$$restProps}><slot /></h1>
{/if}
In some cases, a component may be based on another component. The @extends
tag can be used to extend generated component props.
Signature:
/**
* @extends {<relative path to component>} ComponentProps
*/
Example:
/** @extends {"./Button"} ButtonProps */
export const secondary = true;
import Button from "./Button.svelte";
Refer to the contributing guidelines.