Crank.js

The Just JavaScript Framework.

What is Crank?

Crank is a JavaScript / TypeScript library for building websites and applications. It is a framework where components are defined with plain old functions, including async and generator functions, which yield and return JSX.

Why is Crank “Just JavaScript?”

Many web frameworks claim to be “just JavaScript.”

Few have as strong a claim as Crank.

It starts with the idea that you can write components with all of JavaScript’s built-in function syntaxes.

import {renderer} from "@b9g/crank/dom";

function *Timer() {
let seconds = 0;
const interval = setInterval(() => {
seconds++;
this.refresh();
}, 1000);

for ({} of this) {
yield <p>{seconds} second{seconds !== 1 && "s"}</p>;
}

clearInterval(interval);
}

renderer.render(<Timer />, document.body);

async function Definition({word}) {
// API courtesy https://dictionaryapi.dev
const res = await fetch(`https://api.dictionaryapi.dev/api/v2/entries/en/${word}`);
const data = await res.json();
const {phonetic, meanings} = data[0];
const {partOfSpeech, definitions} = meanings[0];
const {definition} = definitions[0];
return <>
<p>{word} <code>{phonetic}</code></p>
<p><b>{partOfSpeech}.</b> {definition}</p>
{/*<pre>{JSON.stringify(data, null, 4)}</pre>*/}
</>;
}

// TODO: Uncomment me.
//renderer.render(<Definition word="framework" />, document.body);
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Crank components work like normal JavaScript, using standard control-flow. Props can be destructured. Promises can be awaited. Updates can be iterated. State can be held in scope.

The result is a simpler developer experience, where you spend less time writing framework integrations and more time writing vanilla JavaScript.

Three reasons to choose Crank

Reason #1: It’s declarative

Crank works with JSX. It uses tried-and-tested virtual DOM algorithms. Simple components can be defined with functions which return elements.

import {renderer} from "@b9g/crank/dom";

function Greeting({name = "World"}) {
return <p>Hello {name}.</p>;
}

function RandomName() {
const names = ["Alice", "Bob", "Carol", "Dave"];
const randomName = names[Math.floor(Math.random() * names.length)];

// TODO: Uncomment the button.
return (
<div>
<Greeting name={randomName} />
{/*
<button onclick={() => this.refresh()}>Random name</button>
*/}
</div>
);
}

renderer.render(<RandomName />, document.body);
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Don’t think JSX is vanilla enough? Crank provides a tagged template function which does roughly the same thing.

import {jsx} from "@b9g/crank/standalone";
import {renderer} from "@b9g/crank/dom";

function Star({cx, cy, r=50, ir, p=5, fill="red"}) {
cx = parseFloat(cx);
cy = parseFloat(cy);
r == parseFloat(r);
ir = ir == null ? r * 0.4 : parseFloat(ir);
p = parseFloat(p);
const points = [];
const angle = Math.PI / p;
for (let i = 0, a = Math.PI / 2; i < p * 2; i++, a += angle) {
const x = cx + Math.cos(a) * (i % 2 === 0 ? r : ir);
const y = cy - Math.sin(a) * (i % 2 === 0 ? r : ir);
points.push([x, y]);
}

return jsx`
<polygon points=${points} fill=${fill} />
`;
}

function Stars({width, height}) {
return jsx`
<svg
xmlns="http://www.w3.org/2000/svg"
viewBox="0 0 ${width} ${height}"
width=${width}
height=${height}
style="border: 1px solid currentcolor"
>
<!--
Refactoring this to be less repetitive has been left
as an exercise for the reader.
-->
<${Star} cx="70" cy="70" r="50" fill="red" />
<${Star} cx="80" cy="80" r="50" fill="orange" />
<${Star} cx="90" cy="90" r="50" fill="yellow" />
<${Star} cx="100" cy="100" r="50" fill="green" />
<${Star} cx="110" cy="110" r="50" fill="dodgerblue" />
<${Star} cx="120" cy="120" r="50" fill="indigo" />
<${Star}
cx="130"
cy="130"
r="50"
fill="purple"
p=${6}
/>
</svg>
`;
}

const inspirationalWords = [
"I believe in you.",
"You are great.",
"Get back to work.",
"We got this.",
];

function RandomInspirationalWords() {
return jsx`
<p>${inspirationalWords[Math.floor(Math.random() * inspirationalWords.length)]}</p>
`;
}

renderer.render(jsx`
<div
class="motivational-poster"
style="
display: flex;
flex-direction: column;
align-items: center;
justify-content: center;
"
>
<${Stars} width=${200} height=${200} />
<${RandomInspirationalWords} />
</div>
`, document.body);
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Reason #2: It’s predictable

Crank uses generator functions to define stateful components. You store state in local variables, and yield rather than return to keep it around.

import {renderer} from "@b9g/crank/dom";

function Greeting({name = "World"}) {
return <p>Hello {name}.</p>;
}

function *CyclingName() {
const names = ["Alice", "Bob", "Carol", "Dave"];
let i = 0;
while (true) {
yield (
<div>
<Greeting name={names[i % names.length]} />
<button onclick={() => this.refresh()}>Cycle name</button>
</div>
)

i++;
}
}

renderer.render(<CyclingName />, document.body);
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Components rerender based on explicit refresh() calls. This level of precision means you can be as messy as you need to be.

Never memoize a callback ever again.

import {renderer} from "@b9g/crank/dom";

function *Timer() {
let interval = null;
let seconds = 0;
const startInterval = () => {
interval = setInterval(() => {
seconds++;
this.refresh();
}, 1000);
};

const toggleInterval = () => {
if (interval == null) {
startInterval();
} else {
clearInterval(interval);
interval = null;
}

this.refresh();
};

const resetInterval = () => {
seconds = 0;
clearInterval(interval);
interval = null;
this.refresh();
};

// The this of a Crank component is an iterable of props.
for ({} of this) {
// Welcome to the render loop.
// Most generator components should use render loops even if they do not
// use props.
// The render loop provides useful behavior like preventing infinite loops
// because of a forgotten yield.
yield (
<div>
<p>{seconds} second{seconds !== 1 && "s"}</p>
<button onclick={toggleInterval}>
{interval == null ? "Start timer" : "Stop timer"}
</button>
{" "}
<button onclick={resetInterval}>Reset timer</button>
</div>
);
}

// You can even put cleanup code after the loop.
clearInterval(interval);
}

renderer.render(<Timer />, document.body);
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Reason #3: It’s promise-friendly.

Any component can be made asynchronous with the async keyword. This means you can await fetch() directly in a component, client or server.

import {renderer} from "@b9g/crank/dom";

async function Definition({word}) {
// API courtesy https://dictionaryapi.dev
const res = await fetch(`https://api.dictionaryapi.dev/api/v2/entries/en/${word}`);
const data = await res.json();
const {phonetic, meanings} = data[0];
const {partOfSpeech, definitions} = meanings[0];
const {definition} = definitions[0];
return (
<div>
<p>{word} <code>{phonetic}</code></p>
<p><b>{partOfSpeech}.</b> {definition}</p>
</div>
);
}

function *Dictionary() {
let word = "";
const onsubmit = (ev) => {
ev.preventDefault();
const formData = new FormData(ev.target);
const word1 = formData.get("word");
if (word1.trim()) {
word = word1;
this.refresh();
}
};

for ({} of this) {
yield (
<>
<form action="" method="get" class="form-example" onsubmit={onsubmit}>
<div style="margin-bottom: 15px">
<label for="name">Define:</label>{" "}
<input type="text" name="word" id="word" required />
</div>
<div class="form-example">
<input type="submit" value="Search" />
</div>
</form>
{word && <Definition word={word} />}
</>
);
}
}

renderer.render(<Dictionary />, document.body);
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Async generator functions let you write components that are both async and stateful. Crank uses promises wherever it makes sense, and has a rich async execution model which allows you to do things like racing components to display loading states.

import {renderer} from "@b9g/crank/dom";

function formatNumber(number, type) {
number = number.padEnd(16, "0");
if (type === "American Express") {
return [number.slice(0, 4), number.slice(4, 10), number.slice(10, 15)].join(" ");
}

return [
number.slice(0, 4),
number.slice(4, 8),
number.slice(8, 12),
number.slice(12),
].join(" ");
}

function CreditCard({type, expiration, number, owner}) {
return (
<div style="
padding: 10px;
margin: 10px 0;
display: grid;
grid-template-columns: repeat(2, 1fr);
grid-template-rows: repeat(2, 1fr);
border: 1px solid currentcolor;
border-radius: 10px;
">
<pre>{formatNumber(number, type)}</pre>
<pre>Exp: {expiration}</pre>

<pre>{type}</pre>
<pre>{owner}</pre>
</div>
);
}

async function *LoadingCreditCard() {
await new Promise((r) => setTimeout(r, 1000));
let count = 0;
const interval = setInterval(() => {
count++;
this.refresh();
}, 200);

this.cleanup(() => clearInterval(interval));

for ({} of this) {
yield (
<CreditCard
number={"*".repeat(count) + "?".repeat(Math.max(0, 16 - count))}
type={"Loading" + ".".repeat(count % 4)}
owner="__ __"
expiration="__/__"
/>
);
}
}

async function MockCreditCard({throttle}) {
if (throttle) {
await new Promise((r) => setTimeout(r, 2000));
}
// Mock credit card data courtesy https://fakerapi.it/en
const res = await fetch("https://fakerapi.it/api/v1/credit_cards?_quantity=1");
if (res.status === 429) {
return (
<marquee>Too many requests. Please use free APIs responsibly.</marquee>
);
}
const {data: [card]} = await res.json();
return (
<CreditCard
number={card.number}
type={card.type}
owner={card.owner}
expiration={card.expiration}
/>
);
}

async function *RandomCreditCard({throttle}) {
setTimeout(() => this.refresh());
yield null;
for await ({throttle} of this) {
yield <LoadingCreditCard />;
yield <MockCreditCard throttle={throttle} />;
}
}

function *CreditCardGenerator() {
let throttle = false;
const toggleThrottle = () => {
throttle = !throttle;
// TODO: A nicer user behavior would be to not generate a new card
// when toggling the throttle.
this.refresh();
};

for ({} of this) {
yield (
<div>
<div>
<button onclick={() => this.refresh()}>
Generate new card
</button>
{" "}
<button onclick={toggleThrottle}>
{throttle ? "Unthrottle" : "Throttle"} API
</button>
</div>
<RandomCreditCard throttle={throttle} />
</div>
);
}
}

renderer.render(<CreditCardGenerator />, document.body);
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