Solid.js vs Mithril Comparison
Reactivity
Reactivity is a core feature in both Solid.js and Mithril, allowing developers to build dynamic and responsive applications. Let’s explore how each framework handles state declaration, updates, and computed properties.
Declare state
Solid.js
Name.jsx
import { createSignal } from "solid-js";
export default function Name() {
const [name] = createSignal("John");
return <h1>Hello {name()}</h1>;
}In Solid.js, state is managed using signals, which are functions that return the current state and can be called to update it.
Mithril
Name.js
import m from "mithril";
export default function Name() {
let name = "John";
return {
view: () => m("h1", `Hello ${name}`),
};
}In Mithril, state is typically managed using local variables within components, and the view is updated by re-rendering the component.
Update state
Solid.js
Name.jsx
import { createSignal } from "solid-js";
export default function Name() {
const [name, setName] = createSignal("John");
setName("Jane");
return <h1>Hello {name()}</h1>;
}State updates in Solid.js are performed by calling the setter function returned by createSignal.
Mithril
Name.js
import m from "mithril";
export default function Name() {
let name = "John";
name = "Jane";
return {
view: () => m("h1", `Hello ${name}`),
};
}In Mithril, state updates are made by directly assigning new values to variables, and the view is updated by re-rendering the component.
Computed state
Solid.js
DoubleCount.jsx
import { createSignal } from "solid-js";
export default function DoubleCount() {
const [count] = createSignal(10);
const doubleCount = () => count() * 2;
return <div>{doubleCount()}</div>;
}Computed properties in Solid.js are functions that derive values from other state, recalculating when dependencies change.
Mithril
DoubleCount.js
import m from "mithril";
export default function DoubleCount() {
let count = 10;
let doubleCount = count * 2;
return {
view: () => m("div", doubleCount),
};
}In Mithril, computed properties are calculated within the component and used directly in the view.
Templating
Templating in both frameworks allows for the creation of reusable and dynamic UI components.
Minimal template
Solid.js
HelloWorld.jsx
export default function HelloWorld() {
return <h1>Hello World!</h1>;
}Mithril
HelloWorld.js
import m from "mithril";
export default function HelloWorld() {
return {
view: () => m("h1", "Hello World"),
};
}Styling
Styling in Solid.js and Mithril can be managed using CSS, with support for scoped styles and CSS modules.
Solid.js
CssStyle.jsx
import "./style.css";
export default function CssStyle() {
return (
<>
<h1 class="title">I am red</h1>
<button style={{ "font-size": "10rem" }}>I am a button</button>
</>
);
}style.css
.title {
color: red;
}Mithril
CssStyle.js
import "./style.css";
import m from "mithril";
export default function CssStyle() {
return {
view: () =>
m(
"div",
m("h1.title", "I am red"),
m("button", { style: { fontSize: "10rem" } }, "I am a button")
),
};
}Loop
Loops in both frameworks allow for the iteration over collections to dynamically generate UI elements.
Solid.js
Colors.jsx
import { For } from "solid-js";
export default function Colors() {
const colors = ["red", "green", "blue"];
return (
<ul>
<For each={colors}>{(color) => <li>{color}</li>}</For>
</ul>
);
}Mithril
Colors.js
import m from "mithril";
export default function Colors() {
const colors = ["red", "green", "blue"];
return {
view: () =>
m(
"ul",
colors.map((color, idx) => m("li", { key: idx }, color))
),
};
}Event click
Event handling in Solid.js and Mithril is intuitive, allowing developers to respond to user interactions.
Solid.js
Counter.jsx
import { createSignal } from "solid-js";
export default function Counter() {
const [count, setCount] = createSignal(0);
function incrementCount() {
setCount(count() + 1);
}
return (
<>
<p>Counter: {count()}</p>
<button onClick={incrementCount}>+1</button>
</>
);
}Mithril
Counter.js
import m from "mithril";
export default function Counter() {
let count = 0;
const incrementCount = () => (count = count + 1);
return {
view: () =>
m(
"div",
m("p", `Counter: ${count}`),
m("button", { onclick: incrementCount }, "+1")
),
};
}Dom ref
DOM references in both frameworks allow for direct manipulation of DOM elements.
Solid.js
InputFocused.jsx
import { onMount } from "solid-js";
export default function InputFocused() {
let inputElement;
onMount(() => inputElement.focus());
return <input ref={inputElement} type="text" />;
}Mithril
InputFocused.js
import m from "mithril";
export default function InputFocused() {
let value = "";
return {
view: () =>
m("input", {
oncreate: ({ dom }) => dom.focus(),
type: "text",
value,
oninput: (e) => (value = e.target.value),
}),
};
}Conditional
Conditional rendering in Solid.js and Mithril allows for dynamic UI updates based on application state.
Solid.js
TrafficLight.jsx
import { createSignal, Switch, Match } from "solid-js";
const TRAFFIC_LIGHTS = ["red", "orange", "green"];
export default function TrafficLight() {
const [lightIndex, setLightIndex] = createSignal(0);
const light = () => TRAFFIC_LIGHTS[lightIndex()];
function nextLight() {
setLightIndex((lightIndex() + 1) % TRAFFIC_LIGHTS.length);
}
return (
<>
<button onClick={nextLight}>Next light</button>
<p>Light is: {light()}</p>
<p>
You must
<Switch>
<Match when={light() === "red"}>
<span>STOP</span>
</Match>
<Match when={light() === "orange"}>
<span>SLOW DOWN</span>
</Match>
<Match when={light() === "green"}>
<span>GO</span>
</Match>
</Switch>
</p>
</>
);
}Mithril
TrafficLight.js
import m from "mithril";
const TRAFFIC_LIGHTS = ["red", "orange", "green"];
export default function TrafficLight() {
let lightIndex = 0;
let currentLight = () => TRAFFIC_LIGHTS[lightIndex];
const nextLight = () => (lightIndex + 1) % TRAFFIC_LIGHTS.length;
const instructions = () => {
switch (currentLight()) {
case "red":
return "STOP";
case "orange":
return "SLOW DOWN";
case "green":
return "GO";
}
};
return {
view: () =>
m(
"div",
m("button", { onclick: nextLight }, "Next light"),
m("p", `Light is: ${currentLight()}`),
m("p", "You must ", m("span", instructions()))
),
};
}Lifecycle
Lifecycle hooks in both frameworks provide a way to execute code at specific points in a component’s lifecycle.
On mount
Solid.js
PageTitle.jsx
import { createSignal, onMount } from "solid-js";
export default function PageTitle() {
const [pageTitle, setPageTitle] = createSignal("");
onMount(() => {
setPageTitle(document.title);
});
return <p>Page title: {pageTitle()}</p>;
}Mithril
PageTitle.js
import m from "mithril";
export default function PageTitle() {
return {
view: () => m("p", `Page title: ${document.title}`),
};
}On unmount
Solid.js
Time.jsx
import { createSignal, onCleanup } from "solid-js";
export default function Time() {
const [time, setTime] = createSignal(new Date().toLocaleTimeString());
const timer = setInterval(() => {
setTime(new Date().toLocaleTimeString());
}, 1000);
onCleanup(() => clearInterval(timer));
return <p>Current time: {time()}</p>;
}Mithril
Time.js
import m from "mithril";
export default function Time() {
let time = new Date().toLocaleTimeString();
const timer = setInterval(() => {
time = new Date().toLocaleTimeString();
m.redraw();
}, 1000);
return {
view: () => m("p", `Current time: ${time}`),
onremove: () => clearInterval(timer),
};
}Component composition
Component composition in Solid.js and Mithril allows for the creation of complex UIs from smaller, reusable components.
Props
Solid.js
App.jsx
import UserProfile from "./UserProfile.jsx";
export default function App() {
return (
<UserProfile
name="John"
age={20}
favouriteColors={["green", "blue", "red"]}
isAvailable
/>
);
}Mithril
App.js
import m from "mithril";
import UserProfile from "./UserProfile.js";
export default function App() {
return {
view: () =>
m(UserProfile, {
name: "john",
age: 20,
favouriteColors: ["green", "blue", "red"],
isAvailable: true,
}),
};
}Emit to parent
Solid.js
App.jsx
import { createSignal } from "solid-js";
import AnswerButton from "./AnswerButton.jsx";
export default function App() {
const [isHappy, setIsHappy] = createSignal(true);
function onAnswerNo() {
setIsHappy(false);
}
function onAnswerYes() {
setIsHappy(true);
}
return (
<>
<p>Are you happy?</p>
<AnswerButton onYes={onAnswerYes} onNo={onAnswerNo} />
<p style={{ "font-size": "50px" }}>{isHappy() ? "😀" : "😥"}</p>
</>
);
}Mithril
AnswerButton.js
import m from "mithril";
export const AnswerButton = ({ attrs: { onYes, onNo } }) => ({
view: () =>
m(
"div",
m("button", { onclick: onYes }, "YES"),
m("button", { onclick: onNo }, "NO")
),
});Slot
Solid.js
App.jsx
import FunnyButton from "./FunnyButton.jsx";
export default function App() {
return <FunnyButton>Click me!</FunnyButton>;
}Mithril
App.js
import m from "mithril";
import { FunnyButton } from "./FunnyButton.jsx";
export default function App() {
return {
view: () => m(FunnyButton, "Click me!"),
};
}Slot fallback
Solid.js
App.jsx
import FunnyButton from "./FunnyButton.jsx";
export default function App() {
return (
<>
<FunnyButton />
<FunnyButton>I got content!</FunnyButton>
</>
);
}Mithril
App.js
import m from "mithril";
import FunnyButton from "./FunnyButton.jsx";
export default function App() {
return {
view: () => m("", m(FunnyButton), m(FunnyButton, "I got Content")),
};
}Context
Context management in Solid.js and Mithril allows for the sharing of data and functionality across components.
Solid.js
App.jsx
import { createSignal } from "solid-js";
import { UserContext } from "./UserContext";
import UserProfile from "./UserProfile";
export default function App() {
const [user, setUser] = createSignal({
id: 1,
username: "unicorn42",
email: "unicorn42@example.com",
});
function updateUsername(newUsername) {
setUser({ ...user(), username: newUsername });
}
return (
<>
<h1>Welcome back, {user().username}</h1>
<UserContext.Provider value={[user, updateUsername]}>
<UserProfile />
</UserContext.Provider>
</>
);
}Mithril
App.js
import m from "mithril";
import UserProfile from "./UserProfile";
export default function App() {
const user = {
id: 1,
username: "unicorn42",
email: "unicorn42@example.com",
};
const updateUsername = (username) => (user.username = username);
return {
view: () =>
m(
"",
m("h1", `Welcome Back, ${user.username}`),
m(UserProfile, { user, updateUsername })
),
};
}Form input
Form inputs in both frameworks support two-way data binding, making it easy to manage form state.
Input text
Solid.js
InputHello.jsx
import { createSignal } from "solid-js";
export default function InputHello() {
const [text, setText] = createSignal("Hello world");
function handleChange(event) {
setText(event.target.value);
}
return (
<>
<p>{text()}</p>
<input value={text()} onInput={handleChange} />
</>
);
}Mithril
InputHello.js
import m from "mithril";
export default function InputHello() {
let text = "Hello world";
const handleChange = ({ target: { value } }) => (text = value);
return {
view: () =>
m("", m("p", text), m("input", { value: text, onchange: handleChange })),
};
}Checkbox
Solid.js
IsAvailable.jsx
import { createSignal } from "solid-js";
export default function IsAvailable() {
const [isAvailable, setIsAvailable] = createSignal(false);
function handleChange() {
setIsAvailable((previousValue) => !previousValue);
}
return (
<>
<input
id="is-available"
type="checkbox"
checked={isAvailable()}
onChange={handleChange}
/>
<label for="is-available">Is available</label>
</>
);
}Mithril
IsAvailable.js
import m from "mithril";
export default function IsAvailable() {
let isAvailable = false;
const onUpdate = () => (isAvailable = !isAvailable);
return {
view: () =>
m(
"",
m("input", {
id: "is-available",
type: "checkbox",
checked: isAvailable,
onchange: onUpdate,
}),
m("label", { for: "is-available" }, "Is available")
),
};
}Radio
Solid.js
PickPill.jsx
import { createSignal } from "solid-js";
export default function PickPill() {
const [picked, setPicked] = createSignal("red");
function handleChange(event) {
setPicked(event.target.value);
}
return (
<>
<div>Picked: {picked()}</div>
<input
id="blue-pill"
checked={picked() === "blue"}
type="radio"
value="blue"
onChange={handleChange}
/>
<label for="blue-pill">Blue pill</label>
<input
id="red-pill"
checked={picked() === "red"}
type="radio"
value="red"
onChange={handleChange}
/>
<label for="red-pill">Red pill</label>
</>
);
}Mithril
PickPill.js
import m from "mithril";
export default function PickPill() {
let picked = "red";
let pills = ["red", "green", "blue"];
const handleChange = ({ target: { value } }) => (picked = value);
return {
view: () =>
m(
"",
m("", `Picked: ${picked}`),
pills.map((pill) =>
m(
".",
m("input", {
id: pill,
checked: picked == pill,
type: "radio",
value: pill,
onchange: handleChange,
}),
m("label", { for: pill }, pill)
)
)
),
};
}Select
Solid.js
ColorSelect.jsx
import { createSignal, For } from "solid-js";
const colors = [
{ id: 1, text: "red" },
{ id: 2, text: "blue" },
{ id: 3, text: "green" },
{ id: 4, text: "gray", isDisabled: true },
];
export default function ColorSelect() {
const [selectedColorId, setSelectedColorId] = createSignal(2);
function handleChange(event) {
setSelectedColorId(event.target.value);
}
return (
<select value={selectedColorId()} onChange={handleChange}>
<For each={colors}>
{(color) => (
<option value={color.id} disabled={color.isDisabled}>
{color.text}
</option>
)}
</For>
</select>
);
}Mithril
ColorSelect.js
import m from "mithril";
const colors = [
{ id: 1, text: "red" },
{ id: 2, text: "blue" },
{ id: 3, text: "green" },
{ id: 4, text: "gray", isDisabled: true },
];
export default function ColorSelect() {
let selectedColorId = 2;
const handleSelect = ({ target: { value } }) => (selectedColorId = value);
return {
view: () =>
m(
"select",
{ value: selectedColorId, onchange: handleSelect },
colors.map(({ id, text, isDisabled }) =>
m("option", { key: id, id, disabled: isDisabled, value: id }, text)
)
),
};
}Webapp features
Webapp features in both frameworks include data fetching and rendering, with support for asynchronous operations.
Render app
Solid.js
index.html
<!DOCTYPE html>
<html>
<body>
<div id="app"></div>
<script type="module" src="./main.jsx"></script>
</body>
</html>main.jsx
App.jsx
Mithril
index.html
<!DOCTYPE html>
<html>
<body>
<div id="app"></div>
<script type="module" src="./main.jsx"></script>
</body>
</html>main.js
App.js
Fetch data
Solid.js
App.jsx
import { createResource, For, Switch, Match } from "solid-js";
async function fetchUsers() {
return (await fetch("https://randomuser.me/api/?results=3")).json();
}
export default function App() {
const [data] = createResource(fetchUsers);
const users = () => data()?.results;
return (
<Switch>
<Match when={data.loading}>
<p>Fetching users...</p>
</Match>
<Match when={data.error}>
<p>An error occurred while fetching users</p>
</Match>
<Match when={users()}>
<ul>
<For each={users()}>
{(user) => (
<li>
<img src={user.picture.thumbnail} alt="user" />
<p>
{user.name.first} {user.name.last}
</p>
</li>
)}
</For>
</ul>
</Match>
</Switch>
);
}Mithril
App.js
import m from "mithril";
export default function App() {
let isLoading = false;
let error = null;
let users = [];
async function fetchUsers() {
isLoading = true;
try {
const { results } = await m.request(
"https://randomuser.me/api/?results=3"
);
users = results;
} catch (err) {
error = err;
}
isLoading = false;
}
return {
oninit: fetchUsers,
view() {
if (isLoading) return m("p", "Fetching users...");
if (error) return m("p", "An error occurred while fetching users");
return users.map((user) =>
m(
"li",
{ key: user.login.uuid },
m("img", { src: user.picture.thumbnail, alt: "user" }),
m("p", `${user.name.first} ${user.name.last}`)
)
);
},
};
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