@microstates/ember
API Index Live Demo
- Ember.js v3.8 or above
- Ember CLI v2.13 or above
- Node.js v8 or above
Why Microstates?
Short explanation, it's going to be the most fun you've had working with state in any framework.
Long explanation, components have values and actions that can be invoked to change these values. We call this state.
To change the state of a component, you call an action that calls this.set to change the value. State and its
transitions become an inseperable part of the component. Microstates make component state seperable from the component.
To learn what makes this seperation possible, checkout How do Microstates work in Ember?
A Microstate is an object that is created from type and value. Type declares what states are created when a microstate is created from this type and how these microstates can be transitioned. Seperating state from the component makes many difficult things easy and fun.
Here are some benefits,
- Unit testing state becomes trivially easy.
- Serializing and deserializing complex graphs of state is built in.
- Never have to use
this.setorthis.getin a Microstate. - Never have to write actions.
- Write mostly template only components.
- Make state portable across apps and frameworks.
What is a Microstate?
A microstate is an immmutable object that knows how to derive changed version of itself.
Microstates comes with 6 built-in types: Boolean, Number, String, Array, Object and Any. All other types you create yourself by composing primitive types into data structures that reflect the needs of your UI. You can declare custom types by using ES6 class syntax.
class Person {
age = Number;
name = String;
isEmberiño = Boolean;
}These custom types can be composed further to create complex graphs of state that match complexity of your component. Microstates handles lazily materializing complex data structures allowing you to represent complex one directional graphs without worrying about penality of materializing state that your component might not be using.
Microstates have simple rules:
- Parents have access to their children
- Children do not have access to their parents
- Transitions are pure and immutable
- Derived state can be safely cached
To learn more about Microstates, go to microstates/microstate.js. For a deeper funner introduction to Microstates checkout Charles Lowell's presentation at EmberATX meetup.
How to use Microstates?
@microstates/ember makes it easy to create microstates that cause Ember to re-render when a transition on the microstate is called. You can create a microstate in JavaScript using state macro or in a template using state helper. In both cases, you will get an object that will have transitions that you can invoke. When you call the transition, the state will update accordingly and your change will be reflected.
Here is one of the simplest Microstates you can make.
state helper is polymorphic, meaning that it accepts arguments of different types. Based on the type of data that you pass to you,
you will get a microstate with different transitions that you can invoke in your template. For primitive types, you can create a microstate
by providing the initial value.
(noargs) helper is something to prevent passing down the event since increment and decrement take an optional value.
It looks like this:
import { helper } from '@ember/component/helper';
export default helper(([act]) => {
return () => {
return act();
};
});For custom type, you can use (type name) helper to resolve the type via Ember's dependency injection system. Here is how we'd use our Person type.
// app/types/person.js
class Person {
age = Number;
name = String;
isEmberino = Boolean;
}How do Microstates work in Ember?
To understand how Microstates work in Ember we must decompose actions into their distict parts. These parts are,
- Transition of state
- Initiate rerender
Transition of state is done by changing properties on the component with this.set. A rerender is initiated as a side-effect of
calling this.set.
Microstates makes these two operations much clearer. Microstates by default are pure. They do not have any side-effects. However,
we still need to call this.set when a transition computed the next state to initiate a rerender. Microstates provides a Store
mechanism that accepts a callback. We use this callback to invoke this.set to initiate a rerender.
Here is what that would look like if we didn't use the macro that @microstates/ember provides.
import Component from '@glimmer/component';
import { computed } from '@ember/object';
import { create, Store } from '@microstates/ember';
class Person {
name = String;
age = Number;
}
let microstate = create(Person, { name: 'Taras' });
export default class PersonManager extends Component {
@tracked state = Store(microstate, next => this.state = next);
}Now any transition that you invoke on the state, will automatically create the next state and trigger a re-render. Here is the same component with the macro.
import Component from '@glimmer/component';
import { state } from '@microstates/ember';
class Person {
name = String;
age = Number;
}
export default class PersonManager extends Component {
@state(Person, { name: 'Taras' })
state;
}Checkout the demos for examples of how Microstates can be used.
Installation
-
git clonethis repository npm installbower install
Running
ember server- Visit your app at http://localhost:4200.
Running Tests
-
npm test(Runsember try:testallto test your addon against multiple Ember versions) ember testember test --server
Building
ember build
For more information on using ember-cli, visit http://ember-cli.com/.