JavaScript classes and TypeScript types for the Stencila Schema

This package provides JavaScript classes and TypeScript types for the Stencila Schema.

Its main purpose is to allow functions in the @stencila/node package to consume and return documents that are strongly typed. For example, with this package you could,

• construct documents programmatically using TypeScript and use @stencila/node to write them to multiple formats (e.g. Markdown, JATS XML, PDF)

• read existing documents from disk using @stencila/node and use TypeScript to render them in the browser

npm install @stencila/types

yarn add @stencila/types

pnpm add @stencila/types

Object types (aka product types) in the Stencila Schema are represented as JavaScript classes. The constructor for these classes has required properties as the initial parameters, and a final options parameter for all other properties.

For example, to construct a document with a single "Hello world!" paragraph, you can construct Article, Paragraph and Text with required properties only:

import { CreativeWork, Article, Paragraph, Text, Thing } from "@stencila/types";

const doc = new Article([new Paragraph([new Text("Hello world!")])]);

doc instanceof Article; // true
doc instanceof CreativeWork; // true
doc instanceof Thing; // true

doc.content[0] instanceof Paragraph; // true

doc.content[0].content[0] instanceof Text; // true

Pass optional properties, in the final argument to the constructor. For example, to add an author to the article:

import {
  Article,
  Organization,
  Paragraph,
  Person,
  Text,
} from "@stencila/types";

const doc = new Article([new Paragraph([new Text("Hello world!")])], {
  authors: [
    new Person({
      givenNames: ["Alice"],
      familyNames: ["Alvarez"],
      affiliations: [
        new Organization({
          name: "Aardvark University",
        }),
      ],
    }),
  ],
});

Alternatively, you may prefer to use the factory functions that are defined for each class (using the camelCased name of the type). This avoids having to type new and is a little more readable:

import {
  article,
  organization,
  paragraph,
  person,
  text,
} from "@stencila/types";

const doc = article([paragraph([text("Hello world!")])], {
  authors: [
    person({
      givenNames: ["Alice"],
      familyNames: ["Alvarez"],
      affiliations: [
        organization({
          name: "Aardvark University",
        }),
      ],
    }),
  ],
});

Union types (aka sum types) in the Stencila Schema are represented as TypeScript discriminated unions. For example, the Block union type is defined like so:

export type Block =
  Call |
  Claim |
  CodeBlock |
  CodeChunk |
  Division |
  Figure |
  For |
  Form |
  Heading |
  ...

In addition, for each union type a factory function is defined (again, using the camelCased name of the type). This function will, if necessary, hydrate plain JavaScript objects into the corresponding class (based on the type property). e.g.

import { block, paragraph, Paragraph, subscript } from "@stencila/types";

const p1 = block({
  type: "Paragraph",
  content: [],
});
p1 instanceof Paragraph; // true

const p2 = block(paragraph([]));
p2 instanceof Paragraph; // true

block(subscript([])); // errors because `Subscript` is not a `Block`

Enumeration types in the Stencila Schema are represented as TypeScript literal unions. For example, the CitationIntent enumeration is defined like so:

export type CitationIntent =
  'AgreesWith' |
  'CitesAsAuthority' |
  'CitesAsDataSource' |
  'CitesAsEvidence' |
  'CitesAsMetadataDocument' |
  'CitesAsPotentialSolution' |
  'CitesAsRecommendedReading' |
  ...

Most of the types are generated from the Stencila Schema by the Rust schema-gen crate. See there for contributing instructions.

When contributing code please run the following linting, formatting and testing scripts. Linting checks are run on CI, so for faster iteration, fewer failed runs and less noise, it's generally a good idea to run them locally before pushing code.

We use ESLint and Prettier for code linting and formatting respectively. To apply linting and formatting fixes:

npm run fix

To just check linting and formatting:

npm run lint

We use Jest for tests. To run them:

npm test

The packaging and publishing configuration is checked using arethetypeswrong``)(https://github.com/arethetypeswrong/arethetypeswrong.github.io) and [publint`:

npm pubcheck

[!NOTE] So that debuggers and other tools can show the original source code, declarationMap and sourceMap are turned on in tsconfig.json and src is included in the files option of package.json.

As with most modules in this repo, there is a Makefile which you may prefer to use for common development tasks. For example to easily run multiple NPM scripts at once:

make fix test

A recommended combination of recipes to run before committing code is:

make audit pubcheck lint test