Cascade
A JavaScript/TypeScript library for creating modern user interfaces. It combines Reactive ViewModels with Functional DOM Components to create seamless flow of data.
Reactive ViewModels
Cascade builds ViewModels with reactive properties to synchronize data. Properties may be marked as observable, so that changes may be watched, or computed, which then watch for changes in related observables. With this, a dynamic tree of data may be built, all which is updated automatically.
Furthermore, any Functional DOM Component which references an observable or computed, will be updated automatically.
TypeScript decorators
Simply use the @observable
decorator, which will automatically detect if the property is a value, an array, or a getter function. Computed values must be declared as a getter, and arrays must be declared with their types. Observable hashes may be created with @hash
.
Note: Decorators depend on TypeScript. You must set "experimentalDecorators": true
in your tsconfig.json
file.
class User {
@observable firstName: string = '';
@observable lastName: string = '';
@observable get fullName() {
return this.firstName + ' ' + this.lastName;
}
@observable list: number[] = [1, 2, 3, 4];
@array array: number[] = [5, 6, 7, 8];
@hash hash: {} = {
'property': 'value'
};
}
Note: Type detection for arrays depends on the optional package reflect-metadata
. You must also set "emitDecoratorMetadata": true
in your tsconfig.json
file. For IE10 and below, you must also include es6-shim
or similar polyfills. If you don't wish to install polyfills, then you must use @array
instead of @observable
.
JavaScript usage
You may also create observable properties directly.
Cascade.createObservable<T>(obj: any, property: string, value?: T);
Cascade.createObservableArray<T>(obj: any, property: string, value?: Array<T>);
Cascade.createObservableHash<T>(obj: any, property: string, value?: IHash<T>);
Cascade.createComputed<T>(obj: any, property: string, definition: (n?: T) => T, defer?: boolean, setter?: (n: T) => any);
You may also create the observables as objects. Keep in mind, these are accessed as methods instead of direct usage.
Observable<T>(value?: T);
ObservableArray<T>(value?: Array<T>);
ObservableHash<T>(value?: IHash<T>);
Computed<T>(definition: (n?: T) => T, defer: boolean = false, thisArg?: any, setter?: (n: T) => any);
Note: Internet Explorer does not support ObservableHash
. It also requires ObservableArray
values to be modified by function calls instead of setters.
In modern browsers which support Proxy
objects, we can simply modify indexed values with:
viewModel.list[4] = 5;
However, in Internet Explorer, we would need to write:
viewModel.list.set(4, 5);
Functional DOM Components
Cascade uses either JSX or direct JavaScript calls to create a Virtual Dom. These Virtual Nodes can then be rendered into DOM Nodes for display.
Cascade.createElement<T extends Object>(
type: string | Component,
props: T,
...children: Array<any>
): IVirtualNode<any>;
Components may be defined by simply extending the Component class. Any property which references an observable will cause the Component to render any time the observable updates.
interface IUserViewProps {
user: User;
}
class UserView extends Component<IUserViewProps> {
render() {
return (
<div>{this.props.user.fullName}</div>
);
}
}
Using Components
Components can then be rendered by either calling
Cascade.createElement(UserView, { user: User });
or with JSX by calling
<UserView user={User} />
Note Using JSX requires the options "jsx": "react"
and "reactNamespace": "Cascade"
in your tsconfig.json
file. Cascade
must also be imported into any .jsx
or .tsx
file.
Component and VirtualNode Properties
Components and VirtualNodes have optional props
key: string
Specifying a key
for a Component or VirtualNode will improve rendering speeds in certain cases. This is a string, which should be unique to that node within its parent. It is most useful for a set of children which change often, such as arrays or conditional children.
ref: (n: Node) => void
A ref
callback will receive the resulting Node
whenever the Component or VirtualNode is rendered for the first time. This is useful for directly modifying the Node
after rendering.
Rendering
Cascade will render directly to any DOM node specified. Simply call
Cascade.render(
node: HTMLElement | string,
virtualNode: IVirtualNode<any>
): void;
For example
Cascade.render(
document.getElementById('root'),
<UserView user={User} />
);
Troubleshooting and Optimization
Computed Subscriptions
Computed properties subscribe to observables simply by reading them. So any property that is read, will generate a subscription. If you don't want to subscribe, use Cascade.peek(obj: any, property: string)
to read the value without subscribing.
Also, if you need to call methods inside of a computed, those methods may read from observables as well. This behavior may or may not be what you intend. To protect against this, use Cascade.wrapContext(callback: () => any, thisArg?: any)
, which will capture any generated subscriptions without actually subscribing to them.
Component Subscriptions
Components manage their subscriptions through the Component.root
computed property. Internally, this calls the Component.render
method, so any observable read while rendering will generate a subscription. In order to reduce re-renders, read observable properites as late as possible. Meaning, it's better to read inside a child component, than inside a parent and then pass the value into the child. This way only the child re-renders when the value is updated.
Multiple Installations
If a Component or Computed is not correctly updating, there may be more than one copy of Cascade referenced. There must be exactly one copy for subscriptions to be tracked correctly.