@iatools/reactor-core
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0.3.1 • Public • Published

Reactor, a type-safe state management library

Reactor is a state management library with a focus on type safety. It shares a similar architecture with redux-toolkit, allowing for the creation and composition of different slices of state.

Reactor, like many of my projects, has been primarily built for my use cases. If you wish to extend the base functionality, you're encouraged to fork the package.

Library Description
@iatools/reactor-core Zero-dependency library for type-safe state management.

Reactor, a type-safe state management library

Guides

Installation

Reactor can be installed as a standalone library through your preferred package manager.

npm install @iatools/reactor-core

Because Reactor focuses on type-safe state management, you’re encouraged to define interfaces for your State and Actions:

interface CounterState {
  value: number;
}

interface CounterActions {
  increment: number;
  decrement: number;
  reset: never;
}

We can then provide these as type arguments to the createReactor function.

import { createReactor } from "@iatools/reactor-core";

// ... CounterState, CounterActions

const counter = createReactor<CounterState, CounterActions>({
  initialState: { value: 0 },
  reducers: {
    increment(state) {
      return { ...state, value: state.value + 1 };
    },
    decrement(state) {
      return { ...state, value: state.value - 1 };
    },
    reset(state) {
      return { ...state, value: 0 };
    },
  },
});

This ensures that our Reducer functions satisfy our type interface, but also provides us with type-safe ActionCreators that we can use to transition our state.

console.log(counter.actions);
// {increment: ƒ, decrement: ƒ, reset: ƒ}

counter.actions.increment(1);

Often, you’ll want to combine different slices of state to represent the data your app cares about. To support this, the combineReactors function allows you to combine different Reactors into a CombinedReactor. At this point, you're also able to specify external plugins that can operate on your store. The reactorLogger plugin, for example, will log all the state changes and the actions that caused them to your console.

import { createReactor } from "@iatools/reactor-core";

// ... create reactors for `counter` and `todos`

const store = combineReactors({
  reactors: { counter, todos },
  plugins: [reactorLogger()],
});

store.actions.counter.increment(1);

Usage with RxDOM

Reactor has bindings for RxDOM library, distributed via the reactor-rxdom package.

RxDOM, a zero-dependency JavaScript library for building reactive user interfaces

These bindings should be installed alongside reactor-core and rxdom packages can be done with your preferred package manager:

npm install @iatools/reactor-core @iatools/reactor-rxdom @iatools/rxdom

After the creation of your reactors using reactor-core, use the composeReactor factory to create a strongly-typed context provider and selector:

import { composeReactor } from "@iatools/reactor-rxdom";

// ... create reactor or combined reactor

const [Provider, selector] = composeReactor<typeof reactor>(({ props }) => {
  return div({ content: props.content });
});

When rendering this provider, pass your reactor as one of the props. This will make the reactor available to all descendant components.

import { composeFunction } from "@iatools/rxdom";

const App = composeFunction(() => {
  return Provider({
    reactor,
    content: [Child()],
  });
});

To access this context in a child component, define which slice of the reactor you would like to access, and then use the selector returned from composeReactor to access that slice.

import { button } from "@iatools/rxdom";
import { ReactorContextProps } from "@iatools/reactor-rxdom";

// ... composed reactor

type ContextProps = ReactorContextProps<typeof reactor>;

interface ChildContext {
  counterState: ContextProps["state"]["counter"];
  counterActions: ContextProps["actions"]["counter"];
}

const Child = composeFunction<{}, ChildContext>(
  ({ context }) => {
    return button({
      content: [context.counterState.value],
      onclick: () => {
        context.counterActions.increment(1);
      },
    });
  },
  {
    counterState: selector(props => props.state.counter),
    counterActions: selector(props => props.actions.counter),
  }
);

Docs

States

States represent the current value of a given reactor. Since Reactor works best with type-driven development, we’re encouraged to define our States in interface. The following provides an example of a state for a Counter reactor.

interface CounterState {
  value: number;
}

This CounterState is then passed as a type argument to the createReactor function, forcing us to define an initialState that satisfies the interface.

const counter = createReactor<CounterState, {}>({
  initialState: { value: 0 },
});

States are incredibly important as Reactor uses these values to generate a type-safe API.

Actions

Actions are responsible for transitioning Reactor States. As is the case states, Reactor encourages you to define actions in an interface.

interface CounterActions {
  increment: number;
  decrement: number;
  reset: never;
}

This action interface specifies that the increment and decrement actions expect a number value, while reset never expects a value.

When we pass CounterActions as the second type argument to createReactor, Reactor will enforce that we provide a reducers property which satisfies this interface.

const counter = createReactor<CounterState, CounterActions>({
  initialState: { value: 0 },
  reducers: {
    increment(state, number) {
      return { ...state, value: state.value + number };
    },
    decrement(state, number) {
      return { ...state, value: state.value - number };
    },
    reset(state) {
      return { ...state, value: 0 };
    },
  },
});

Like States, Actions are another fundamental type unit that Reactor relies on to support type-safe state management. These are the only two interfaces you'll need to declare to productively use Reactor.

Reducers

Reducer are responsible for responding to different Actions. Reactor doesn't require you to specify the types of your reducers as they are inferred from your State and Actions. At its core, a reducer takes in a State and an Action and uses that to return a new state.

The following highlights the increment, decrement, and reset reducers. As a reminder, Reactor will report an error if the defined reducers don’t correspond to CounterState and CounterActions type arguments.

const counter = createReactor<CounterState, CounterActions>({
  ...,
  reducers: {
    increment(state, number) {
      return { ...state, value: state.value + number };
    },
    decrement(state, number) {
      return { ...state, value: state.value - number };
    },
    reset(state) {
      return { ...state, value: 0 };
    },
  },
});

Action Creators

Using the State and Action type arguments, Reactor is able to generate ActionCreators. These can be accessed on the actions property of the returned Reactor.

const counter = createReactor<CounterState, CounterActions>({
  initialState: { value: 0 },
  reducers: {
    increment(state, number) {
      return { ...state, value: state.value + number };
    },
  },
});

counter.actions.increment(4);

Failing to provide the correct arguments to this action creator will result in a typescript error.

counter.actions.increment();
// Expected 1 arguments, but got 0. ts(2554)

counter.actions.increment("");
// Argument of type 'string' is not assignable to parameter of type 'number | StoredAction<number, Store<CounterState, CounterActions>>'

Action creators can also handle async dispatches.

counter.actions.increment(async () => {
  const data = // handle async behaviour...
  return data;
})

As before, Reactor will verify that the signature of the returned value, data in this case, corresponds with the correct type signature.

Reactors

Reactors are responsible for initializing State, accepting Reducer functions, and generating ActionCreators as specified by the Action type signature.

interface CounterState {
  value: number;
}

interface CounterActions {
  increment: never;
}

const counter = createReactor<CounterState, CounterActions>({
  initialState: { value: 0 },
  reducers: {
    increment(state) {
      return { ...state, value: state.value + 1 };
    },
  },
});

Importantly, Reactors allow you to subscribe to store changes through the reactor.subscribe() method, access current actions through reactor.actions and access the current state through reactor.getState().

Because reactors are designed to handle individual slices of state (and not represent app state collectively), we also expose a combineReactors function which returns a CombinedReactor. Here, we can also pass in ReactorPlugins to provide additional functionality to our store. The follow example combines a todos and counter reactor and initializes a reactorLogger plugin for providing logs on state changes.

const store = combineReactors({
  reactors: { counter, todos },
  plugins: [reactorLogger()],
});

Aside from those details, we interact with a CombinedReactor in the same way we interact with individual Reactors.

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