Onek
⚡️ 1.7KB full-featured state management inspired by MobX and Solid, batteries included ⚡️
Onek (reads as one-kay or one-key) is a simple but powerful state management library for React based on solid foundation of functional reactive
data structures from MobX and Solid.js, providing everything needed for managing state in complex React applications,
all in less than 2KB package.
Features
- 🚀 Reactive observable and computed values - just like MobX, Solid.js or Preact Signals
- 👁 Transparency - no data glitches guaranteed
- 🔄 Transactional updates - no unexpected side-effects
- 🙈 Laziness - nothing happens until you need a value
- 💧 No memory leaks - optimal computed caching without compromises
- 🤓 Built-in shallow equality - easily optimize re-renders
- 🤔 Not opinionated about structure of your models
- 🧩 Single hook - effortless integration with React components
- 💯 100% test coverage with complex cases
- ⭐️ Written in 100% TypeScript
- 📦 ...and all in less than 2KB package
Table of contents
Installation
yarn add onek
npm install --save onek
Introduction
Observable values
observable
is a simple function that accepts initial value and returns a tuple of getter and setter functions - the same convention as useState
from React:
import { observable } from "onek";
const [greeting, setGreeting] = observable("hello!");
greeting() === "hello!";
setGreeting("hola!");
greeting() === "hola!";
setGreeting((oldGreeting) => oldGreeting + "!!!");
greeting() === "hola!!!!";
Extra: equality check argument
The second argument to observable
might be equality check function (or true
for built-in shallowEquals
implementation):
import { shallowEquals } from "onek";
const [number, setNumber] = observable(1, true);
const [number, setNumber] = observable(1, shallowEquals);
setNumber(1);
Extra: storing functions in observable
In order to store a function in observable you need to pass true
as a second argument to setter function. This argument means the setter should store the first argument as-is, without its interpretation as updater function:
const [callback, setCallback] = observable(() => console.log("hello!"));
setCallback(() => console.log("hola!"), true);
Computed values
Computed value is like useMemo
in React - it's cached and returns the cached value afterwards. All accessed observable
or other computed
values are automatically tracked, there is no need to specify dependency list. Changes to these tracked values automatically invalidate the cached value, which is recalculated on next access to the computed
:
import { computed } from "onek";
const loudGreeting = computed(() => greeting().toUpperCase());
loudGreeting() === "HOLA!!!!";
setGreeting("hi!");
loudGreeting() === "HI!";
Extra: equality check argument
The second argument to computed
is also equality check function (or true
for built-in implementation):
const [numbers, setNumbers] = observable([1, 2, 3, 4]);
const sortedNumbers = computed(() => numbers().slice().sort(), true);
const result = sortedNumbers();
console.log(result);
setNumbers([4, 3, 2, 1]);
sortedNumbers() === result;
Using with React
Using observable
and computed
in React components is as simple as:
import { observable, computed, useObserver } from "onek";
const [greeting, setGreeting] = observable("hello!");
const loudGreeting = computed(() => greeting().toUpperCase());
const LoudGreeting = () => {
const obs = useObserver();
return <p>{loudGreeting(obs)}</p>;
};
const GreetingInput = () => {
const obs = useObserver();
return (
<input
type="text"
onChange={(e) => setGreeting(e.target.value)}
value={greeting(obs)}
/>
);
};
root.render(
<>
<GreetingInput />
<LoudGreeting />
</>
);
useObserver
hook has no arguments and returns subscriber instance that should be passed to observable
and computed
getters in order to get the component subscribed to them. While it's still correct to read observable values without passing the subscriber, changes to them won't rerender your component:
const [value, setValue] = observable(1);
const Component = () => {
const obs = useObserver();
value(obs);
value();
};
Actions and transactions
Actions automatically batch updates to observable values, and also make access to observable getters untracked - so if your action is called inside component's render function or inside reaction, it won't make it re-render on accessed values change.
Important note: by default all changes to observable
values are batched until the end of current microtask. In order to run reactions synchronously on transaction end, please read the Changing reaction scheduler section.
const [x, setX] = observable(1);
const [y, setY] = observable(2);
const updateValues = action((value) => {
const xValue = x();
setX(0);
setY(xValue + value);
});
updateValues(100);
Transaction is the same, except it's executed immediately and doesn't make values access untracked:
import { tx } from "onek";
tx(() => {
setX(100);
setY(200);
});
To get the same behaviour as action
use utx
(Untracked transaction) instead:
const result = utx(() => {
setX(1000);
setY(2000);
return x() + y();
});
Async operations
Just define an action with async function:
const [data, setData] = observable(null);
const [fetching, setFetching] = observable(false);
const [error, setError] = observable(null);
const fetchData = action(async () => {
try {
setFetching(true);
const responseData = await axios.get("url");
setData(responseData);
} catch (err) {
setError(err);
} finally {
setFetching(false);
}
});
await fetchData();
By default, onek uses microtask scheduler for reactions, so updates to observables are batched until the current microtask end. This means both data
and fetching
values will be consistent when any side effects run.
Extra: async operations for synchronous scheduler
You can configure onek to use synchronous reaction scheduler that will execute side effects synchronously after each transaction end. In this case you need to use action
for promise handlers or utx
for code blocks in async function, i.e.:
const fetchData = action(() => {
setFetching(true);
return axios
.get("url")
.then(
action((data) => {
setFetching(false);
setData(data);
})
)
.catch(
action((err) => {
setFetching(false);
setError(err);
})
);
});
or with async functions:
const fetchData = action(async () => {
setFetching(true);
try {
const data = await axios.fetch("url");
utx(() => {
setFetching(false);
setData(data);
});
} catch (err) {
utx(() => {
setFetching(false);
setError(err);
});
}
});
Reactions
Reaction is a way to react to observable or computed changes without involving React. It's the same as autorun
function from MobX:
import { reaction } from "onek";
const disposer = reaction(() => {
console.log("Greeting is " + greeting());
});
setGreeting("Привет!");
disposer();
setGreeting("Hello!");
disposer.run();
Extra: reaction destructor
Return value of reaction body might be reaction destructor - a function that is called before each reaction run and on disposer
call:
const [topic, setTopic] = observable("something");
const disposer = reaction(() => {
const currentTopic = topic();
subscribeToTopic(currentTopic, callback);
return () => {
unsubscribeFromTopic(currentTopic, callback);
};
});
setTopic("different");
disposer();
Examples?
Simple counter
Simple counter - Actions and models
import { observable, action, useObserver } from "onek";
const makeCounter = (initial) => {
const [count, setCount] = observable(initial);
const inc = action(() => setCount((count) => count + 1));
const dec = action(() => setCount((count) => count - 1));
const reset = action(() => setCount(initial));
return { count, inc, dec, reset };
};
const Counter = ({ counter }) => {
const { count, inc, dec, reset } = counter;
const obs = useObserver();
return (
<>
<button onClick={inc}>+</button>
<button onClick={dec}>-</button>
<button onClick={reset}>Reset</button>
Count: {count(obs)}
</>
);
};
const counter = makeCounter(0);
root.render(<Counter counter={counter} />);
Counter list
Counter list with stats - Model composition and computed data
import { observable, computed, action, useObserver } from "onek";
import { makeCounter, Counter } from "./Counter";
const makeCountersList = () => {
const [counters, setCounters] = observable([]);
const countersCount = computed(() => counters().length);
const countersSum = computed(() =>
counters().reduce((sum, counter) => sum + counter.count(), 0)
);
const addCounter = action(() => {
const counter = makeCounter(0);
setCounters((counters) => [...counters, counter]);
});
const removeCounter = action((counter) => {
setCounters((counters) =>
counters.filter((_counter) => _counter !== counter)
);
});
const resetAll = action(() => {
counters().forEach((counter) => counter.reset());
});
return {
counters,
countersCount,
countersSum,
addCounter,
removeCounter,
resetAll,
};
};
const CounterStats = ({ count, sum }) => {
const obs = useObserver();
return (
<>
<p>Total count: {count(obs)}</p>
<p>Total sum: {sum(obs)}</p>
</>
);
};
const CountersList = ({ model }) => {
const obs = useObserver();
return (
<div>
<CounterStats count={model.countersCount} sum={model.countersSum} />
<button onClick={model.addCounter}>Add</button>
<button onClick={model.resetAll}>Reset all</button>
{model.counters(obs).map((counter) => (
<div>
<Counter counter={counter} />
<button onClick={() => model.removeCounter(counter)}>Remove</button>
</div>
))}
</div>
);
};
const countersList = makeCountersList();
root.render(<CountersList model={countersList} />);
Todo List
Todo List - Complex multi-component app
import { action, observable, computed, useObserver } from "onek";
let id = 0;
export const makeTodo = (todoText) => {
const [text, setText] = observable(todoText);
const [done, setDone] = observable(false);
const toggleDone = action(() => {
setDone((done) => !done);
});
return {
id: id++,
text,
done,
setText,
toggleDone,
};
};
export const makeTodoList = () => {
const [text, setText] = observable("");
const [todos, setTodos] = observable([], true);
const [filter, setFilter] = observable("ALL");
const doneTodos = computed(() => {
return todos().filter((todo) => todo.done());
});
const undoneTodos = computed(() => {
return todos().filter((todo) => !todo.done());
});
const visibleTodos = computed(() => {
switch (filter()) {
case "ALL":
return todos();
case "DONE":
return doneTodos();
case "UNDONE":
return undoneTodos();
}
}, true);
const addTodo = action(() => {
const todo = makeTodo(text());
setTodos((todos) => [...todos, todo]);
setText("");
});
const removeTodo = action((todo) => {
setTodos((todos) => todos.filter((_todo) => _todo !== todo));
});
const clearDone = action((todo) => {
setTodos(undoneTodos());
});
return {
text,
setText,
todos,
filter,
visibleTodos,
setFilter,
addTodo,
removeTodo,
clearDone,
};
};
const FILTER_OPTIONS = [
{ name: "All", value: "ALL" },
{ name: "Done", value: "DONE" },
{ name: "Undone", value: "UNDONE" },
];
const NewTodoInput = ({ model }) => {
const { text, setText, addTodo } = model;
const obs = useObserver();
return (
<div>
<input onChange={(e) => setText(e.target.value)} value={text(obs)} />
<button onClick={addTodo} disabled={text(obs).length === 0}>
Add
</button>
</div>
);
};
const TodoListFilter = ({ model }) => {
const obs = useObserver();
return (
<select
value={model.filter(obs)}
onChange={(e) => model.setFilter(e.target.value)}
>
{FILTER_OPTIONS.map(({ name, value }) => (
<option key={value} value={value}>
{name}
</option>
))}
</select>
);
};
const Todo = ({ model }) => {
const obs = useObserver();
return (
<div className="todo">
<label>
<input
type="checkbox"
checked={model.done(obs)}
onChange={model.toggleDone}
/>
<span
style={{ textDecoration: model.done(obs) ? "line-through" : "none" }}
>
{model.text(obs)}
</span>
</label>
</div>
);
};
export const TodoList = ({ model }) => {
const obs = useObserver();
return (
<div className="todo-list">
<button onClick={model.clearDone}>Clear done</button>
<TodoListFilter model={model} />
<NewTodoInput model={model} />
{model.visibleTodos(obs).map((todo) => (
<Todo key={todo.id} model={todo} />
))}
</div>
);
};
Recipes
Optimizing React re-renders with check flag
Reaction scheduler
Reaction scheduler is a function that's called on the end of the first transaction executed after previous scheduler run. It has one argument - runner
function that should somehow be "scheduled" to run. Default implementation of the scheduler is microtask Promise-based scheduler:
const reaction = (runner) => Promise.resolve().then(runner);
configure({ reaction });
This is a good compromise between speed and developer experience, but sometimes you might want to run all reactions synchronously on transaction end (for example, this is done in onek test suite):
const reaction = (runner) => runner();
configure({ reaction });
Another alternative to the default microtask scheduler is macrotask scheduler:
const reaction = (runner) => setTimeout(runner, 0);
configure({ reaction });
Reaction exception handler
Default exception handler for auto-run reactions is just console.error
. It can be configured by reactionExceptionHandler
option:
configure({
reactionExceptionHandler: (exception) => {
},
});
Memory leaks: why not?
Onek does not have memory leaks while maintaining optimal caching for computed values. There is no keepAlive
option like MobX
has, and here's why. When a computed value has lost its last subscriber or being read in untracked context without existing subscribers, it enters passive state. The state means the computed is no longer referenced by any observable or other computed, but still holds references to its dependencies, so it can check later if some of them changed.
How is the change detection possible without guarantees that values stored in observables and computeds are immutable? The answer is simple: along with the value, observables and computeds store revision - an immutable plain object that is new each time observable or computed updated. This allows to implement reselect
-like logic of checking computed dependencies with very small overhead and preserve cached values without any memory leaks.
API Documentation
Interfaces
Here's some general interfaces used in the following documentation:
import { ComputedImpl, ObservableImpl } from "./types";
type Subscriber = ComputedImpl | ReactionImpl;
interface Getter<T> {
(subscriber?: Subscriber): T;
}
interface ObservableGetter<T> extends Getter<T> {
$$observable: ObservableImpl<T>;
}
interface ComputedGetter<T> extends Getter<T> {
$$computed: ComputedImpl<T>;
destroy(): void;
}
interface Setter<T> {
(value?: T | UpdaterFn<T>, asIs?: boolean): void;
}
type CheckFn<T> = (prev: T, next: T) => boolean;
type UpdaterFn<T> = (prevValue: T) => T;
observable
function observable<T>(
value: T,
checkFn?: boolean | CheckFn<T>
): readonly [ObservableGetter<T>, Setter<T>];
Creates getter and setter for reactive value. value
argument as a value stored in the observable instance, checkFn
is a function that's used for checking if new value from the setter is the same as the old one.
Getter is a function that can accept Subscriber
- return value of useObserver
hook or value of $$computed
attribute of computed getter.
Setter function can accept value
argument that can be of generic type or updater function that returns a value of the generic type.
The second argument to setter function is asIs
boolean that indicates if the value
should be stored as is without interpreting it as updater function.
Setter also can be called without arguments - this will mark the observable as changed without changing its value. This can be useful when you mutate observable value directly without changing reference to it.
computed
function computed<T>(
fn: () => T,
checkFn?: boolean | CheckFn<T>
): ComputedGetter<T>;
reaction
type Destructor = (() => void) | null | undefined | void;
type Disposer = (() => void) & { run: () => void };
function reaction(fn: () => Destructor, manager?: () => void): Disposer;
action
function action<Args extends any[], T>(
fn: (...args: Args) => T
): (...args: Args) => T;
tx
function tx(fn: () => void): void;
utx
function utx<T>(fn: () => T, subscriber = null): T;
untracked
function untracked<Args extends any[], T>(
fn: (...args: Args) => T
): (...args: Args) => T;
useObserver
function useObserver(): Subscriber | undefined;
shallowEquals
function shallowEquals<T>(prev: T, next: T): boolean;
License
MIT
Author
Eugene Daragan