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Forgo is a 4KB library that makes it super easy to create modern web apps using JSX (like React).
Forgo is a 4KB library that makes it super easy to create modern web apps using JSX (like React).
Unlike React, there are very few framework specific patterns and lingo to learn. Everything you already know about DOM APIs and JavaScript will easily carry over.
All of Forgo's code is in one single TypeScript file. It is a goal of the project to remain within that single file.
npm i forgo
The easiest way to get started is with the 'create-forgo-app' utility. This relies on git, so you should have git installed on your machine.
npx create-forgo-app my-project
It supports TypeScript too:
npx create-forgo-app my-project --template typescript
And then to run it:
# switch to the project directory
cd my-project
# run!
npm start
# To make a production build
npm run build
A Forgo Component must have a function (called Component Constructor) that returns an object with a render() function (called Component).
Here's an Example.
import { rerender } from "forgo";
function SimpleTimer(initialProps) {
let seconds = 0; // Just a regular variable, no hooks!
return {
render(props, args) {
setTimeout(() => {
seconds++;
rerender(args.element); // rerender
}, 1000);
return (
<div>
{seconds} seconds have elapsed... {props.firstName}!
</div>
);
},
};
}
The Component Constructor function and the Component's render() method are both called during the first render with the initial set of props. But for subsequent rerenders of the same component, only the render() gets called (with new props). So if you're using props, remember to get it from the render() method.
Use the mount() function once your document has loaded.
import { mount } from "forgo";
function ready(fn) {
if (document.readyState !== "loading") {
fn();
} else {
document.addEventListener("DOMContentLoaded", fn);
}
}
ready(() => {
mount(<App />, document.getElementById("root"));
});
You could also pass a selector instead of an element to the mount() function.
ready(() => {
mount(<App />, "#root");
});
That works just as you'd have seen in React.
function Parent(initialProps) {
return {
render(props, args) {
return (
<div>
<Greeter firstName="Jeswin" />
<Greeter firstName="Kai" />
</div>
);
},
};
}
function Greeter(initialProps) {
return {
render(props, args) {
return <div>Hello {props.firstName}</div>;
},
};
}
To access the actual DOM elements corresponding to your markup (and the values contained within them), you need to use the ref attribute in the markup. An object referenced by the ref attribute in an element's markup will have its 'value' property set to the actual DOM element when it gets created.
Here's an example:
function Component(initialProps) {
const myInputRef = {};
return {
render(props, args) {
function onClick() {
const inputElement = myInputRef.value;
alert(inputElement.value); // Read the text input.
}
return (
<div>
<input type="text" ref={myInputRef} />
<button onclick={onClick}>Click me!</button>
</div>
);
},
};
}
You can access and read form input elements using regular DOM APIs as well. For example, the following code will work just fine if you assign an id to the input element.
function onClick() {
const inputElement = document.getElementById("myinput");
alert(inputElement.value);
}
Lastly, you can pass an event handler to an input and extract the current value from the input event:
function Component(initialProps) {
return {
render(props, args) {
function onInput(e) {
e.preventDefault();
alert(e.target.value);
}
return (
<div>
<input type="text" oninput={onInput} />
</div>
);
},
};
}
Keys help Forgo identify which items in a list have changed, are added, or are removed. While Forgo works well without keys, it is a good idea to add them since it avoids unnecessary component mounting and unmounting in some cases.
As long as they are unique, there is no restriction on what data type you may use for the key; keys could be strings, numbers or even objects. For string keys and numeric keys, Forgo compares them by value; while for object keys, a reference equality check is used.
function Parent() {
return {
render(props, args) {
const people = [
{ firstName: "jeswin", id: 1 },
{ firstName: "kai", id: 2 },
];
return (
<div>
{people.map((item) => (
<Child key={item.id} firstName={item.firstName} />
))}
</div>
);
},
};
}
function Child(initialProps) {
return {
render(props) {
return <div>Hello {props.firstName}</div>;
},
};
}
Parts of your application might need to fetch data asynchronously, and refresh your component accordingly.
Here's an example of how to do this:
async function getMessages() {
const data = await fetchMessagesFromServer();
return data;
}
export function InboxComponent(initialProps) {
// This will be empty initially.
let messages = undefined;
return {
render(props, args) {
// Messages are empty. Let's fetch them.
if (!messages) {
getMessages().then((data) => {
messages = data.messages;
rerender(args.element);
});
return <p>Loading data...</p>;
}
// We have messages to show.
return (
<div>
<header>Your Inbox</header>
<ul>
{messages.map((message) => (
<li>{message}</li>
))}
</ul>
</div>
);
},
};
}
When a component is unmounted, Forgo will invoke the unmount() function if defined for a component. It receives the current props and args as arguments, just as in the render() function. This can be used for any tear down you might want to do.
function Greeter(initialProps) {
return {
render(props, args) {
return <div>Hello {props.firstName}</div>;
},
unmount(props, args) {
console.log("Got unloaded.");
},
};
}
If you're an application developer, you'd rarely have to use this. It might however be useful if you're developing libraries or frameworks which use Forgo. mount() gets called with the same arguments as render(), but after getting mounted on a real DOM node. It gets called only once.
function Greeter(initialProps) {
return {
render(props, args) {
return <div id="hello">Hello {props.firstName}</div>;
},
mount(props, args) {
console.log(`Mounted on node with id ${args.element.node.id}`);
},
};
}
Again, if you're an application developer you'd rarely need to use this. The afterRender() event runs every time after the render() runs, but after the rendered elements have been attached to actual DOM nodes. The 'previousNode' property of args will give you the node to which the component was previously attached, if it has changed due to the render().
function Greeter(initialProps) {
return {
render(props, args) {
return <div id="hello">Hello {props.firstName}</div>;
},
afterRender(props, args) {
console.log(
`This component is mounted on ${args.element.node.id}, and previously to ${args.previousNode.id}`
);
},
};
}
When the shouldUpdate() function is defined for a component, Forgo will call it with newProps and oldProps and check if the return value is true before rendering the component. Returning false will skip rendering the component.
function Greeter(initialProps) {
return {
render(props, args) {
return <div>Hello {props.firstName}</div>;
},
shouldUpdate(newProps, oldProps) {
return newProps.firstName !== oldProps.firstName;
},
};
}
By defining the error() function, Forgo lets you catch errors in child components (at any level, and not necessarily immediate children).
// Here's a component which throws an error.
function BadComponent() {
return {
render() {
throw new Error("Some error occurred :(");
},
};
}
// Parent can catch the error by defining the error() function.
function Parent(initialProps) {
return {
render() {
return (
<div>
<BadComponent />
</div>
);
},
error(props, args) {
return (
<p>
Error in {props.name}: {args.error.message}
</p>
);
},
};
}
The most straight forward way to do rerender is by invoking it with args.element
as the only argument - as follows.
function TodoList(initialProps) {
let todos = [];
return {
render(props, args) {
function addTodos(text) {
todos.push(text);
rerender(args.element);
}
return <div>markup goes here...</div>;
},
};
}
But you could pass newProps as well while rerendering. If you'd like previous props to be used, pass undefined here.
const newProps = { name: "Kai" };
rerender(args.element, newProps);
Forgo also exports a render method that returns the rendered DOM node that could then be manually mounted.
import { render } from "forgo";
const { node } = render(<Component />);
window.addEventListener("load", () => {
document.getElementById("root")!.firstElementChild!.replaceWith(node);
});
Forgo Router (forgo-router) is a tiny router for Forgo, and is just around 1KB gzipped. Read more at https://github.com/forgojs/forgo-router
Here's an example:
import { Router, Link, matchExactUrl, matchUrl } from "forgo-router";
function App() {
return {
render() {
return (
<Router>
<Link href="/">Go to Home Page</Link>
{matchExactUrl("/", () => <Home />) ||
matchUrl("/customers", () => <Customers />) ||
matchUrl("/about", () => <AboutPage />)}
</Router>
);
},
};
}
Forgo State (forgo-state) is an easy-to-use application state management solution for Forgo (like Redux or MobX), and is less than 1KB gzipped. Read more at https://github.com/forgojs/forgo-state
Here's an example:
import { bindToStates, defineState } from "forgo-state";
// Define one (or more) application state containers.
const mailboxState = defineState({
messages: [],
drafts: [],
spam: [],
unread: 0,
});
// A Forgo component
function MailboxView() {
const component = {
render(props: any, args: ForgoRenderArgs) {
return (
<div>
{mailboxState.messages.length ? (
mailboxState.messages.map((m) => <p>{m}</p>)
) : (
<p>There are no messages for {signinState.username}.</p>
)}
</div>
);
},
};
// MailboxView must change whenever mailboxState changes.
return bindToStates([mailboxState], component);
}
async function updateInbox() {
const data = await fetchInboxData();
// The next line causes a rerender of the MailboxView component
mailboxState.messages = data;
}
You can achieve lazy loading with the forgo-lazy package. Read more at https://github.com/jacob-ebey/forgo-lazy
It's as simple as this:
import lazy, { Suspense } from "forgo-lazy";
const LazyComponent = lazy(() => import("./lazy-component"));
const App = () => ({
render: () => (
<Suspense fallback={() => "Loading..."}>
<LazyComponent title="It's that easy :D" />
</Suspense>
),
});
Forgo is quite easy to integrate into an existing web app written with other frameworks or with older libraries like jQuery.
To help with that, the forgo-powertoys library (less than 1KB in size) exposes a rerenderElement() function which can rerender a mounted Forgo component with just a CSS selector (from outside the Forgo app). Read more at https://github.com/forgojs/forgo-powertoys
Here's an example:
import { rerenderElement } from "forgo-powertoys";
// A forgo component.
function LiveScores() {
return {
render(props) {
return <p id="live-scores">Top score is {props.topscore}</p>;
},
};
}
//mount it on a DOM node as usual
window.addEventListener("load", () => {
mount(<SimpleTimer />, document.getElementById("root"));
});
// Now you can rerender the component from anywhere, anytime!
rerenderElement("#live-scores", { topscore: 244 });
You can render components to an html (string) with the forgo-ssr package. This allows you to prerender components on the server and will work with Node.JS servers like Koa, Express etc. Read more at https://github.com/forgojs/forgo-ssr
Here's an example:
import render from "forgo-ssr";
// A forgo component.
function MyComponent() {
return {
render() {
return <div>Hello world</div>;
},
};
}
// Get the html (string) and serve it via koa, express etc.
const html = render(<MyComponent />);
You can try the Todo List app with Forgo on CodeSandbox.
Or if you prefer Typescript, try Forgo TodoList in TypeScript.
There is also an example for using Forgo with forgo-router.
Most users are better off just using create-forgo-app to create the project skeleton - in which case all of this is already set up for you. We strongly recommend doing it this way.
But for people who are doing it manually, we'll cover webpack-specific configuration here. Other bundlers would need similar configuration.
Add these lines to webpack.config.js:
module.exports = {
// remaining config omitted for brevity.
module: {
rules: [
{
test: /\.(js|jsx)$/,
exclude: /node_modules/,
loader: "esbuild-loader",
options: {
loader: "jsx",
target: "es2015",
jsxFactory: "forgo.createElement",
jsxFragment: "forgo.Fragment",
},
},
],
},
};
Add these lines to webpack.config.js:
module.exports = {
// remaining config omitted for brevity.
module: {
rules: [
{
test: /\.tsx?$/,
exclude: /node_modules/,
loader: "esbuild-loader",
options: {
loader: "tsx",
target: "es2015",
jsxFactory: "forgo.createElement",
jsxFragment: "forgo.Fragment",
},
},
],
},
};
While using TypeScript, also add the following lines to your tsconfig.json. This lets you do tsc --noEmit
for type checking, which esbuild-loader doesn't do.
Add these lines to tsconfig.json:
{
"compilerOptions": {
"jsx": "react",
"jsxFactory": "forgo.createElement",
"jsxFragmentFactory": "forgo.Fragment"
}
}
This is slower than esbuild-loader, so use only as needed.
Add these lines to webpack.config.js:
module.exports = {
// remaining config omitted for brevity.
module: {
rules: [
{
test: /\.(js|jsx)$/,
exclude: /node_modules/,
use: ["babel-loader"],
},
],
},
};
Add these lines to babel.config.json:
{
"presets": ["@babel/preset-env", "@babel/preset-react"],
"plugins": [
[
"@babel/plugin-transform-react-jsx",
{ "pragma": "h" }
]
]
}
Add these lines to webpack.config.js:
module.exports = {
// remaining config omitted for brevity.
module: {
rules: [
{
test: /\.tsx?$/,
use: "ts-loader",
exclude: /node_modules/,
},
],
},
};
Add these lines to tsconfig.json:
{
"compilerOptions": {
"jsx": "react",
"jsxFactory": "forgo.createElement",
"jsxFragmentFactory": "forgo.Fragment"
}
}
Forgo 2.0 drops support for the new JSX transform introduced via "jsx-runtime". This never worked with esbuild loader, and more importantly doesn't play well with ES modules. If you were using this previously, switch to the configurations discussed above.
You can reach out to me via twitter or email. If you find issues, please file a bug on Github.
FAQs
Forgo is a 4KB library that makes it super easy to create modern web apps using JSX (like React).
We found that forgo demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 0 open source maintainers collaborating on the project.
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