/classux

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#Intro This is a ES6-Class Flux Store.

#Example

transform-decorators-legacy, transform-async-to-generator and babel-polyfill are required to run following example.

import Store, {
    Reducer
} from 'classux';
class TestStore extends Store {
    constructor() {
        //init with default state.
        super({
            message: '',
        });
    }

    @Reducer('say')
    async sayMessage(params) { // both async and sync methods are supported.
        await new Promise(resolve => setTimeout(resolve, 1000));
        let state = this.getState();
        state.message = params;
        return state;
    }
}

const store = new TestStore();

class App extends React.Component {
    constructor(props) {
        super(props);
        this.state = {
            message: store.getState().message,
            input: '',
            action: '',
        };
    }

    @store.onUpdate()
    testStoreUpdated(state, action) {
        this.setState({
            message: state.message,
            action: action,
        })
    }

    render() {
        return <div>
            <h1>{this.state.message}</h1>
            <input
                value={this.state.value}
                onChange={e => this.setState({
                    input: e.target.value,
                })}/>
            <button
                onClick={e => store.dispatch('say', this.state.input)}>
                Say
            </button>
        </div>;
    }
}

#API ##Store

###constructor(defaultState)

###subscribe(listener: Function(state, action)): Function

this returns a disposer function

###dispatch(action, params)

this dispatches an Action.

###getState()

get current state

###connect(source, destination)

this is a decorator used on react components, it automatically update components state upon updates.

if destination is not specified, then the root store state is taken (CAUTION, not compatible with Immutable yet)

###onUpdate(...actions)

if no actions are specified, then all actions are listened.

this is a decorator, it decorates a method and class, so it automatically subscribe and dispose regarding React's component lifecycle.

class A {
	@storeInstance.onUpdate()
	method() {
	}
}

//or

class A {
	method() {
	}
}
storeInstance.onUpdate()(A, 'method');

##@Reducer

This decorator binds action reducer.

##@Inject

This decorator injects middleware to a store, the flow is like koa's middleware flow, onion shape, it flows out to the most inside one and then the reducer, and all the way up to the most outside one.

Folloing is a example shows how it works.

async function levelIn(next, state, action, ...params) {
    const [counter] = params;
    assert.equal(state.counter, 4); // state from levelOut middleware
    assert.equal(action, 'test')    // action keeps the same
    assert.equal(counter, 1);       // params keeps the same
    const afterState = await next({counter: 5}); // pass/get state to the next middleware, which is the reducer.).
    assert.equal(afterState.counter, 1);
    return {  // return to outter middleware
        counter: 2,
    }
}
async function levelOut(next, state, action, counter) {
    assert.equal(state.counter, 0); // initial state, (this is the most outside middlware).
    assert.equal(action, 'test')
    assert.equal(counter, 1);
    const afterState = await next({counter: 4}); // pass/get state to next middlware(levelIn).
    assert.equal(afterState.counter, 2);
    return {      
        counter: 3,
    }   // return to the outter middleware, which is dispatch itself, so this will be the value user receives.
}
@Inject(levelOut, levelIn)
class A extends Store {
    constructor() {
        super({
            counter: 0,
        });
    }
    @Reducer('test')
    test(counter) {
        assert.equal(this.getState().counter, 5);
        return {
            counter,
        };
    }
}
const a = new A();
a.dispatch('test', 1);
setTimeout(() => {
    const state = a.getState();
    assert.equal(state.counter, 3);
    done();
}, 100);

#TODO

#Contributions are welcome Issues and pull-requests are welcomed.

#License

The MIT License (MIT) Copyright (c) <2016>

Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:

The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.

THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.