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Welcome to Hoist React

Additional docs of interest:

Hoist is a web application development toolkit developed by Extremely Heavy.

Hoist is designed as a "full stack" UI development framework, meaning that it has both server and client components that work together to provide an integrated set of tools and utilities for quickly constructing sophisticated front-end interfaces - or entire applications - with a strong focus on building for the enterprise.

Please refer to the Hoist Core repository readme for an overview of Hoist as a whole: its reason for existing, server-side tech stack, general features and capabilities.

This repository is hoist-react, which is the current reference client-side implementation of Hoist. While React itself is a remarkably powerful platform on which to build modern web apps, it represents only a part (however core) of the larger toolset required to create fully functional user interfaces. Hoist-React brings together a curated collection of third-party and custom components, supporting libraries, utilities, and tooling.

This enables truly rapid and ready-to-go development, tightly integrated Hoist functionality, and a minimal number of upfront per-app decisions - while maintaining a high degree of flexibility and extensibility for demanding custom use cases.

About this Doc

This readme is intended to highlight the major libraries and components included in Hoist React, as well as coding tools, conventions, and best practices that are somewhat unique to the framework. It presumes a strong baseline knowledge of modern Javascript, some experience or understanding of React and its particular concerns, and a prior review of the core features of Hoist as outlined in the readme linked above.

Where helpful, this doc provides direct links into the most relevant and commonly used source code classes and routines. We have aimed to make the code itself as clear, readable, and well-commented as possible, and we are working to ensure a consistent level of in-code documentation - especially at the class/component level and for essential public methods.

Hoist usage, licensing, and support

Hoist is currently developed exclusively by Extremely Heavy and intended for use by XH and our client partners to develop enterprise web applications with XH's guidance and direction. That said, we have released the toolkit under the permissive and open Apache 2.0 license. This allows other developers, regardless of whether they are current XH clients or not, to checkout, use, modify, and otherwise explore Hoist and its source code. See this project's license file for the full license.

We have selected an open source license as part of our ongoing commitment to openness, transparency, and ease-of-use, and to clarify and emphasize the suitability of Hoist for use within a wide variety of enterprise software projects. Note, however, that we cannot at this time commit to any particular support or contribution model outside of our consulting work. But if you are interested in Hoist and/or think it might be helpful for a project, please don't hesitate to contact us!

Key Libraries and Dependencies

📚 Hoist React is built on a collection of remarkable third-party libraries that have been selected, combined and integrated by Extremely Heavy. To make the best use of this framework, please review the technologies below.

Library Notes Link
React Core technology for efficient componentization and rendering of modern web applications 🔗
Mobx Flexible, well-balanced state management and smart reactivity. 🔗
Webpack Endlessly extensible (if occasionally baffling) bundle and build tool. 🔗
ag-Grid High performance, feature rich HTML5 grid 🔗
Blueprint General purpose UI toolkit for data-dense desktop webapps 🔗
Highcharts Proven, robust, well-rounded charting and visualization library 🔗
Router5 Flexible and powerful routing solution 🔗
Font Awesome Icons, icons, icons. 🔗

Library Licensing Considerations

⚖️ The majority of the libraries listed above and included within Hoist React as dependencies are open-source and fully free to use. Wherever possible, we have aimed to minimize exposure to third-party license costs and restrictions. The exceptions to this rule are listed below. For these libraries, client application(s) using Hoist React must acquire and register appropriate licenses.

Ag-Grid is released by its developer under a dual licensing model, with the community edition available under a permissive MIT license and the Enterprise edition requiring a paid license from ag-Grid. Applications wishing to use grids in Hoist React will need to provide a licensed version of ag-Grid. A free community version is available, however many applications will want to license the enterprise version in order to make use of the important extra functionality it provides, including row grouping and tree grids.

Font Awesome provides a greatly extended set of icons via its Pro license, and Hoist React references / relies on several of these icons. A pro license includes access to a private npm repository to download the extended library, accessed via a unique URL. XH can configure appropriate access via npm configuration files or an enterprise npm repository proxy.

HighCharts HighStock is the primary charting library in Hoist, and offers several licensing and support options for commercial use. Application wishing to use charts in Hoist will need to provide a licensed version of Highcharts.

ECMAScript 2016+

🔮 Hoist React makes full use of the recent additions and improvements to Javascript itself, in the form of ECMAScript 2016 (ES6/7) and a few more advanced (TC39 stage 2) features. These are enabled by transpiling Hoist React and application source together, using Babel, as coordinated within a standardized Webpack build process.

Key features of modern Javascript (and a bit of "BabelScript") used throughout Hoist React include:

  • Modules - all dependencies imported via ES6 modules and resolved as such by Webpack.
  • Classes - including class fields and a few carefully considered uses of inheritance (😱).
  • Promises and async/await - see below for additional notes on custom extensions and tooling around Promises.
  • Syntax Candy - object destructuring, default parameters, arrow functions, string/template literals, const/let over var, and other recent-ish additions to Array and String prototypes.
  • Decorators - aka annotations - are a core part of Mobx and used within Hoist to mixin key behaviors to several core artifacts. Decorator support is provided via the transform-decorators-legacy Babel plugin, which is specified as a dev dependency and enabled by configureWebpack() within hoist-dev-utils.

Promises

🤝 Promises are a core code construct within Hoist React for executing asynchronous operations, and as such have been extended in a few key ways. See Promise.ts for documentation comments and implementations of Promise-related utilities and direct extensions to the Promise prototype, including:

  • catchDefault - to add standardized exception handling and alerting to a Promise chain, including a configurable and end-user-focused error dialog to display an exception message with support for disclosing any stack trace and/or reporting user-supplied notes back to the server.
  • track - to integrate a Promise-based call with Hoist activity tracking, timing the duration of a promise-based chain and reporting it back to the server tagged with a developer-supplied category, message, and optional extra data.
  • timeout - to cut (overly) long-running Promises short
  • linkTo - for integration with a TaskObserver to track and report on state across one or more async operations.

💡 Note that by convention all methods returning a Promise within Hoist React (and XH-developed applications) are suffixed with the qualifier Async, e.g. loadUsersAsync or restoreDefaultsAsync. The framework does not rely on this convention for any programmatic behaviors, but we have found it to be a helpful indicator of any Promise-based, asynchronous API.

MobX - Reactive State Management

MobX is an essential building block of Hoist React, providing an application state management solution with "smart' reactivity, tight integration with React Components, and a general API for reactive programming that extends beyond Components. Please review and familiarize yourself with the MobX documentation to make the best use of Hoist React.

All Hoist Components include 'observer' support from the 'mobx-react' project. This means that these Components are automatically re-rendered when any observable state they used during their last render is modified. This support provides the core engine of reactivity in Hoist.

In addition to Components, MobX is an essential tool for use by Models and Services within Hoist. The HoistBase class adds two key methods by default to these core Hoist artifacts - addAutorun() and addReaction(). These methods build on top of the native MobX autorun and reaction utilities with some additional syntax for clarity (in the case of reactions) and, importantly, a managed lifecycle that automatically disposes of these listeners when the owning artifact's destroy method is called. See that class for further details on this API.

Hoist leverages MobX in a wide variety of other contexts, including observable data stores, the handling and validation of form field inputs, routing, and more. In many cases, MobX-provided reactivity replaces and improves upon an event / callback based model for emitting and responding to state changes and other updates.

Core Concepts: XH

Hoist creates and exports XH, a singleton Model instance, to coordinate the framework API at the top level and provide the most commonly used entry points to general functionality, including the creation, initialization, and aliases of key services. This model instance is installed as a window.XH global for convenient access on the console, although calling code should access XH via a standard import.

This class provides methods for app initialization, exception handling, and service access. It instantiates Hoist service singletons and installs references to these instances. It also installs aliases on itself for the most common framework service calls, e.g. XH.getConf() as a shortcut to XH.configService.get().

Class/File Note Link
XH.ts Hoist's top-level Model / framework API entry-point, exported as XH. ⚛️

Core Concepts: Models, Components, and Services

Three distinct types of artifacts compromise the backbone of a Hoist application: Models, Components, and Services. Any non-trivial application will define and create multiple instances of these core object types, and understanding how Hoist defines and uses these three core artifacts is essential to understanding how we at XH build and structure apps.

Models and services are class-based and base classes HoistModel and HoistService are provided by Hoist for these object. HoistAppModel is a special base class for an Application's primary Model class that provides additional high-level info about the application.

Components are react functional components, but with additional wrapping provided by Hoist to support model specification and lookup and and observability. Applications should use the factory function hoistCmp to define Components with this support.

Class/File Note Link
HoistBase.ts Root Base class. Support for mobx, persistence, and resource management ⚛️
HoistModel.ts Base class for Models ⚛️
HoistService.ts Base class for Services ⚛️
HoistComponent.ts Contains hoistComponent, factory for creating functional Components ⚛️
HoistAppModel.ts Base class for an App's primary Model class. ⚛️

HoistModel

📝 "Models" within Hoist comprise the core class of objects for managing state and business logic. The HoistModel base class marks a class as a Model and installs core MobX and other support.

Important characteristics of Model object classes include:

  • They define properties to hold state, marking mutable properties with MobX or Hoist decorators to make them observable by (one or more) Components, as well as other Models.
  • They expose API methods to modify state or perform other actions such as calls to load data.
  • They reference / create other parent and child models to create a logical hierarchy that reflects the structure and concerns of the application.

Defining, storing, or otherwise pushing state into Model classes (as opposed to Components) encourages a separation of the application's core underlying logic from its presentation layer. Apps can be designed and coded as a hierarchy of Model objects that reference properties and call methods on each other, defining what the application knows and what it does without necessarily diving into the specifics of how its visible Components are laid out or arranged.

Components will reference properties of these Models within their render methods, and call methods on these Models in response to user actions or inputs. This can help to structure or encapsulate a Component's API, but also works with MobX to minimize extra render cycles and respond to state changes as efficiently as possible. The GridModel class is a notable example of managing a complex Component's configuration, state, and API surface via a Model. Hoist's LeftRightChooser Component is managed via its dedicated Model class, which includes nested GridModels.

Models can also exist entirely independent of Components, or be generalized enough to be used as state sources for multiple, different Components. The 'StoreSelectionModel' is a good example of this.

HoistAppModel

Each client application must define a top-level Model class using the specialized HoistAppModel base class. This class defines several additional methods specific to the high-level lifecycle of the application, including those dealing with init, and routing. This class instance is available via an import of the XH (as XH.appModel) and can be a useful place to hang global state specific to your application.

Please review the inline documentation on the class for additional detailed information on what it provides and how an Application should provide concrete implementations for certain key methods. For an example within Hoist React itself, see HoistAppModel for the built-in Admin Console.

hoistComponent

⚛️ Components are the most familiar artifacts in React development, and are likely what come to mind first when most developers think of React. Functional components are the preferred method of defining components in React and Hoist. To define a functional component in Hoist, simply provide a render function to the hoistComponent function. This will apply core Hoist support, including MobX reactivity, model lookup, and support for forward refs, and will return the Component.

Note that many layout related Components provide "LayoutSupport". Components supporting this feature promote most flexbox layout properties (e.g. 'width', 'height', 'flex') to being first class props on the component itself. This allows many layout operations to be done in declarative Javascript.

HoistService

⚙️ Services within Hoist are singleton classes designed to encapsulate key data access and business logic, independent of and distinct from any particular UI component. Services can maintain their own internal state and data structures and expose methods for use by the rest of the application. A common use for Services is to fetch and post data to the server, potentially transforming, validating, or defaulting outbound queries and inbound data to provide a local API to application Model and Component classes that's tailored to their needs.

Service instances persist for the life of the app and have a defined initialization process. By convention they are stored within an svc/ package within an app's file structure.

Use the HoistService class to mark a class as a global service within. This installs MobX and support and defines an empty initAsync() lifecycle method. To instantiate and make services available to application code, use theXH.installServicesAsync() method. This method will construct, initialize, and install the services as a property on the XH object. Note that there is a strict expectation that service classes will be named ending with the word 'Service', e.g. MyCustomService.. The installed instance in this case would then be made available to application code as `XH.myCustomService'.

Many core Hoist features are exposed on the client via services such as PrefService, ConfigService, and IdentityService. See these examples for a better understanding of the kind of tasks and code patterns commonly used within Service classes.

Resource Management

The HoistBase class provides a destroy() method that will be called when a model is no longer needed. This lifecycle method ensures that all MobX disposers are called and all resources are cleaned up when the object is no longer needed. Related objects can also be marked as @managed, ensuring that these subsidiary objects will be cleaned up as well.

For the most part, applications should not need to explicitly call destroy(). Any models or services that Hoist instantiates (via new) will be destroyed by Hoist itself when no longer needed. The main responsibility for applications is to ensure that any objects they explicitly create with new are either marked as @managed or destroyed explicitly in destroy().

Element Factories

Class/File Note Link
elem.ts Utils for creating elements and element factories. ⚛️

Hoist encourages the use of Element factories to create element trees in render functions using pure Javascript. These factory methods take a configuration object where properties and child elements are specified without any wrapping braces or additional syntax. All Hoist API components have predefined element factories available for import alongside the core Component. We also provide an elemFactory() function which can be used to create such a factory from any third-party or application Component.

We believe that this factory approach excels for declarative specification of code-heavy element trees. New users of Hoist are invited to examine the source code of our core components to see examples of its use. Its probably the most notable hallmark of our internal code, and where Hoist diverges most visibly from other React projects.

It's worth noting that this approach is based on an extremely thin layer (<20 lines of code) around the core React createElement() API, and does not impose or rely on any special requirements or additional libraries. Its also worth noting that this approach is only superficially different from JSX (see below).

What about JSX?

JSX is the XML-like extension to Javascript typically used to specify and configure React components. While it's syntax and appearance within otherwise "vanilla" Javascript code might appear strange to non-React developers, JSX syntax and conventions are a de-facto standard in the React community, familiar to React developers, and found in all React guides and tutorials.

Hoist fully supports JSX.

All Hoist components can be created with JSX tags, and developers of Hoist-based applications can exclusively use JSX if they wish. In fact, for element trees with a significant amount of hypertext, JSX might be a better choice then element factories, and we frequently make internal use of it for that purpose. Also, JSX can be used interchangably with element factories, even within the same render method.

Note that JSX is pre-processed (via Babel) into calls to React.createElement() before running in the browser. Ultimately this produces similar runtime Javascript to the element factory approach reccomended above.

Bundled and Managed Components

Hoist includes a wide variety of carefully selected and integrated UI Components, ready to be put to immediate use within an application. Most of these are built on / composed of Components provided by well-regarded (and generally awesome) third-party libraries.

An central goal of the Hoist toolkit, however, is to provide a more managed, normalized, and integrated set of patterns, APIs, and links on top of the "raw" library components. This enables them to work better together, integrate with and leverage core Hoist services such as soft configuration and user preferences, and appear to end-users as a cohesive and highly polished system, as opposed to a disparate and sometimes contradictory set of independent UI elements.

Desktop vs. Mobile

📱 Hoist supports the development of rich, highly functional applications for both traditional desktop and mobile (phone / tablet) browsers and devices. These platforms have different priorities and needs when it comes to UI design and interactions, but also share many common needs when it comes to state management, data models and processing, and other core infrastructure.

The top-level /desktop/ and /mobile/ packages contain components and other classes that are specific to their respective platforms. Wherever possible, however, we have worked to push shareable Model, Service, and other utility code up into packages common across both.

Component TODOs

🚧 Several key components / component families deserve some dedicated callouts in this readme, and will be filled in as soon as possible. These include planned notes on:

  • Grid and GridModel
  • Panel and layouts
  • HoistInput form controls and model-based management of form fields
  • Top-level AppBar and related app infrastructure components
  • Bundled Icon enums

Work In Progress

🚧 This readme is currently a work in progress, with several additional sections planned including:

  • Additional info on Application init and lifecycle
  • Client-side services provided by hoist-react (w/some pointers to info already in hoist-core)
  • Theming and styles
  • Bundled formatters and renderers (Dates, numbers)
  • Exception handling and error reporting
  • Admin console and custom snap-ins
  • ....

🙏 Thanks for your patience as we continue to build out this documentation.


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