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WarpDrive WarpDrive

:electron: Data utilities for using WarpDrive with 🐹 Ember.js

And of course, EmberData too!


pnpm install @warp-drive/ember

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About

This library provides reactive utilities for working with promises and requests, building over these primitives to provide functions and components that enable you to build robust performant apps with elegant control flow

Documentation


Why?

DX

Crafting a performant application experience is a creative art.

The data loading patterns that make for good DX are often at odds with the patterns that reduce fetch-waterfalls and loading times.

Fetching data from components feels right to most of us as developers. Being able to see what we've queried right from the spot in which we will consume and use the response of the query keeps the mental model clear and helps us iterate quickly.

But it also means that we have to render in order to know what to fetch, in order to know what to render, in order to know what to fetch and so on until the cycle eventually completes.

Thus, while on the surface providing superior DX, component based data-fetching patterns sacrifice the user's experience for the developer's by encouraging a difficult-to-impossible to optimize loading architecture.

It can also be tricky to pull off elegantly. Async/Await? Proxies? Resources? Generators? Each has its own pitfalls when it comes to asynchronous data patterns in components and crafting an experience that works well for both JavaScript and Templates is tough. And what about work lifetimes?

This library helps you to craft great experiences without sacrificing DX. We still believe you should load data based on user interactions and route navigations, not from components, but what if you didn't need to use prop-drilling or contexts to access the result of a route based query?

EmberData's RequestManager already allows for fulfillment from cache and for request de-duping, so what if we could just pick up where we left off and use the result of a request right away if it already was fetched elsewhere?

That brings us to our second motivation: performance.

Performance

Performance is always at the heart of WarpDrive libraries.

@warp-drive/ember isn't just a library of utilities for working with reactive asynchronous data in your Ember app. It's also a way to optimize your app for faster, more correct renders.

It starts with setPromiseResult a simple core primitive provided by the library @ember-data/request that allows the result of any promise to be safely cached without leaking memory. Results stashed with setPromiseResult can then be retrieved via getPromiseResult. As long as the promise is in memory, the result will be too.

Every request made with @ember-data/request stashes its result in this way, and the requests resolved from cache by the CacheHandler have their entry populated syncronously. Consider the following code:

const A = store.request({ url: '/users/1' });
const result = await A;
result.content.data.id; // '1'
const B = store.request({ url: '/user/1' });

The above scenario is relatively common when a route, provider or previous location in an app has loaded request A, and later something else triggers request B.

While it is true that A !== B, the magic of the RequestManager is that it is able to safely stash the result of B such that the following works:

const B = store.request({ url: '/user/1' });
const state = getPromiseResult(B);
state.result.content.data.id; // '1' 🤯

Note how we can access the result of B even before we've awaited it? This is useful for component rendering where we want to fetch data asynchronously, but when it is immediately available the best possible result is to continue to render with the available data without delay.

These primitives (getPromiseResult and setPromiseResult) are useful, but not all that ergonomic on their own. They are also intentionally not reactive because they are intended for use with any framework.

That's where @warp-drive/ember comes in. This library provides reactive utilities for working with promises, building over these primitives to provide helpers, functions and components that enable you to build robust performant app with elegant control flows.


Documentation

PromiseState

PromiseState provides a reactive wrapper for a promise which allows you write declarative code around a promise's control flow. It is useful in both Template and JavaScript contexts, allowing you to quickly derive behaviors and data from pending, error and success states.

interface PromiseState<T = unknown, E = unknown> {
  isPending: boolean;
  isSuccess: boolean;
  isError: boolean;
  result: T | null;
  error: E | null;
}

To get the state of a promise, use getPromiseState.

getPromiseState

getPromiseState can be used in both JavaScript and Template contexts.

import { getPromiseState } from '@warp-drive/ember';

const state = getPromiseState(promise);

For instance, we could write a getter on a component that updates whenever the promise state advances or the promise changes, by combining the function with the use of @cached

class Component {
  @cached
  get title() {
    const state = getPromiseState(this.args.request);
    if (state.isPending) {
      return 'loading...';
    }
    if (state.isError) { return null; }
    return state.result.title;
  }
}

Or in a template as a helper:

import { getPromiseState } from '@warp-drive/ember';

<template>
  {{#let (getPromiseState @request) as |state|}}
    {{#if state.isPending}} <Spinner />
    {{else if state.isError}} <ErrorForm @error={{state.error}} />
    {{else}}
      <h1>{{state.result.title}}</h1>
    {{/if}}
  {{/let}}
</template>

<Await />

Alternatively, use the <Await> component

import { Await } from '@warp-drive/ember';

<template>
  <Await @promise={{@request}}>
    <:pending>
      <Spinner />
    </:pending>

    <:error as |error|>
      <ErrorForm @error={{error}} />
    </:error>

    <:success as |result|>
      <h1>{{result.title}}</h1>
    </:success>
  </Await>
</template>

When using the Await component, if no error block is provided and the promise rejects, the error will be thrown.

RequestState

RequestState extends PromiseState to provide a reactive wrapper for a request Future which allows you write declarative code around a Future's control flow. It is useful in both Template and JavaScript contexts, allowing you to quickly derive behaviors and data from pending, error and success states.

The key difference between a Promise and a Future is that Futures provide access to a stream of their content, as well as the ability to attempt to abort the request.

interface Future<T> extends Promise<T>> {
  getStream(): Promise<ReadableStream>;
  abort(): void;
}

These additional APIs allow us to craft even richer state experiences.

interface RequestState<T = unknown, E = unknown> extends PromiseState<T, E> {
  isCancelled: boolean;
  
  // TODO detail out percentage props
}

To get the state of a request, use getRequestState.

getRequestState

getRequestState can be used in both JavaScript and Template contexts.

import { getRequestState } from '@warp-drive/ember';

const state = getRequestState(future);

For instance, we could write a getter on a component that updates whenever the request state advances or the future changes, by combining the function with the use of @cached

class Component {
  @cached
  get title() {
    const state = getRequestState(this.args.request);
    if (state.isPending) {
      return 'loading...';
    }
    if (state.isError) { return null; }
    return state.result.title;
  }
}

Or in a template as a helper:

import { getRequestState } from '@warp-drive/ember';

<template>
  {{#let (getRequestState @request) as |state|}}
    {{#if state.isPending}} <Spinner />
    {{else if state.isError}} <ErrorForm @error={{state.error}} />
    {{else}}
      <h1>{{state.result.title}}</h1>
    {{/if}}
  {{/let}}
</template>

<Request />

Alternatively, use the <Request> component. Note: the request component taps into additional capabilities beyond what RequestState offers.

  • Completion states and an abort function are available as part of loading state
import { Request } from '@warp-drive/ember';

<template>
  <Request @request={{@request}}>
    <:loading as |state|>
      <Spinner @percentDone={{state.completedRatio}} />
      <button {{on "click" state.abort}}>Cancel</button>
    </:loading>

    <:error as |error|>
      <ErrorForm @error={{error}} />
    </:error>

    <:content as |result|>
      <h1>{{result.title}}</h1>
    </:content>
  </Request>
</template>

When using the Await component, if no error block is provided and the request rejects, the error will be thrown. Cancellation errors are not rethrown if no error block or cancellation block is present.

  • Streaming Data

The loading state exposes the download ReadableStream instance for consumption

import { Request } from '@warp-drive/ember';

<template>
  <Request @request={{@request}}>
    <:loading as |state|>
      <Video @stream={{state.stream}} />
    </:loading>

    <:error as |error|>
      <ErrorForm @error={{error}} />
    </:error>
  </Request>
</template>
  • Cancelled is an additional state.
import { Request } from '@warp-drive/ember';

<template>
  <Request @request={{@request}}>
    <:cancelled>
      <h2>The Request Cancelled</h2>
    </:cancelled>

    <:error as |error|>
      <ErrorForm @error={{error}} />
    </:error>

    <:content as |result|>
      <h1>{{result.title}}</h1>
    </:content>
  </Request>
</template>

If a request is aborted but no cancelled block is present, the error will be given to the error block to handle.

If no error block is present, the cancellation error will be swallowed.

  • retry

Cancelled and error'd requests may be retried, retry will reuse the error, cancelled and loading blocks as appropriate.

import { Request } from '@warp-drive/ember';
import { on } from '@ember/modifier';

<template>
  <Request @request={{@request}}>
    <:cancelled as |error state|>
      <h2>The Request Cancelled</h2>
      <button {{on "click" state.retry}}>Retry</button>
    </:cancelled>

    <:error as |error state|>
      <ErrorForm @error={{error}} />
      <button {{on "click" state.retry}}>Retry</button>
    </:error>

    <:content as |result|>
      <h1>{{result.title}}</h1>
    </:content>
  </Request>
</template>
  • Reloading states

Reload will reset the request state, and so reuse the error, cancelled, and loading blocks as appropriate.

Background reload (refresh) is a special substate of content that can be entered while existing content is still shown.

Both reload and background reload are available as methods that can be invoked from within content. Background reload's can also be aborted.

import { Request } from '@warp-drive/ember';

<template>
  <Request @request={{@request}}>
    <:cancelled>
      <h2>The Request Cancelled</h2>
    </:cancelled>

    <:error as |error|>
      <ErrorForm @error={{error}} />
    </:error>

    <:content as |result state|>
      {{#if state.isBackgroundReloading}}
        <SmallSpinner />
        <button {{on "click" state.abort}}>Cancel</button>
      {{/if}}

      <h1>{{result.title}}</h1>

      <button {{on "click" state.refresh}}>Refresh</button>
      <button {{on "click" state.reload}}>Reload</button>
    </:content>
  </Request>
</template>

Usage of request can be nested for more advanced handling of background reload

import { Request } from '@warp-drive/ember';

<template>
  <Request @request={{@request}}>
    <:cancelled>
      <h2>The Request Cancelled</h2>
    </:cancelled>

    <:error as |error|>
      <ErrorForm @error={{error}} />
    </:error>

    <:content as |result state|>
      <Request @request={{state.latestRequest}}>
        <!-- Handle Background Request -->
      </Request>
      
      <h1>{{result.title}}</h1>

      <button {{on "click" state.refresh}}>Refresh</button>
    </:content>
  </Request>
</template>
  • Autorefresh behavior

Requests can be made to automatically refresh under any combination of three separate conditions by supplying a value to the @autorefresh arg.

  • online when a browser window or tab comes back to the foreground after being backgrounded or when the network reports as being online after having been offline.
  • interval which occurs whenever @autorefreshThreshold has been exceeded
  • invalid which occurs when the store associated to the request emits an invalidation notification for the request in use.

These conditions can be used in any combination by providing a comma separated list e.g. interval,invalid

A value of true is equivalent to online,invalid.

import { Request } from '@warp-drive/ember';

<template>
  <Request @request={{@request}} @autorefresh={{true}}>
    <!-- ... -->
  </Request>
</template>

By default, an autorefresh will only occur if the browser was backgrounded or offline for more than 30s before coming back available. This amount of time can be tweaked by setting the number of milliseconds via @autorefreshThreshold.

The behavior of the fetch initiated by the autorefresh can also be adjusted by @autorefreshBehavior

Options are:

  • refresh update while continuing to show the current state.
  • reload update and show the loading state until update completes)
  • policy (default) trigger the request, but let the cache handler decide whether the update should occur or if the cache is still valid.

Similarly, refresh could be set up on a timer or on a websocket subscription by using the yielded refresh function and passing it to another component.

import { Request } from '@warp-drive/ember';

<template>
  <Request @request={{@request}}>
    <:content as |result state|>
      <h1>{{result.title}}</h1>

      <Interval @period={{30_000}} @fn={{state.refresh}} />
      <Subscribe @channel={{@someValue}} @fn={{state.refresh}} />
    </:content>
  </Request>
</template>

If a matching request is refreshed or reloaded by any other component, the Request component will react accordingly.


♥️ Credits

Brought to you with ♥️ love by 🐹 Ember <style type="text/css"> img.project-logo { padding: 0 5em 1em 5em; width: 100px; border-bottom: 2px solid #0969da; margin: 0 auto; display: block; } details > summary { font-size: 1.1rem; line-height: 1rem; margin-bottom: 1rem; } details { font-size: 1rem; } details > summary strong { display: inline-block; padding: .2rem 0; color: #000; border-bottom: 3px solid #0969da; } details > details { margin-left: 2rem; } details > details > summary { font-size: 1rem; line-height: 1rem; margin-bottom: 1rem; } details > details > summary strong { display: inline-block; padding: .2rem 0; color: #555; border-bottom: 2px solid #555; } details > details { font-size: .85rem; } @media (prefers-color-scheme: dark) { details > summary strong { color: #fff; } } @media (prefers-color-scheme: dark) { details > details > summary strong { color: #afaba0; border-bottom: 2px solid #afaba0; } } </style>