manifold-dx-redirect-dx
v1.2.33
Published
This library provides a manifold-dx state-based mechanism for routing within an application that uses React Router, specifically its `<Redirect>` component. NOTE: we are assuming one RedirectDx per application!
Downloads
43
Maintainers
Readme
React Router Integration for manifold-dx: RedirectDx
This library provides a manifold-dx state-based mechanism for routing within an application that uses
React Router, specifically its <Redirect>
component. NOTE: we are assuming one RedirectDx per application!
Some advantages to using this library with manifold-dx are:
- Redirects can be done consistently throughout your app using a single line of code, by creating and dispatching an action, e.g.:
getActionCreator(this.appState).set('redirectTo', 'search').dispatch();
Note that this means that you've defined appState to have a string property called 'redirectTo' that holds the state that will tell React Router where to go. The appState is a manifold-dx StateObject, with a 'redirectTo' property which are assigned to the RedirectDxProps, like so:
<AppRedirectDx redirectDxState={this.appState} redirectDxProp={'redirectTo'} />
- URL changes are integrated into manifold-dx actions, so that action undo/redo will move forward and backward across app URL's as well.
- Deep linking is unaffected, since this library doesn't do anything until after the app is loaded.
To use this in your application, you need to subclass RedirectDx, handing it your state store and
interface descibing your app state. For example, if you export its Store as appStore
and defines
its state as AppState
, this is how you would subclass RedirectDx for your app:
export class AppRedirectDx<S extends StateObject> extends RedirectDx<S, AppState> {
constructor(props: RedirectDxProps<S>) {
super(props, appStore.getState(), undefined, WithRouterRedirectDx);
}
}
Note that the above snippet has been updated from an older way of doing the same thing. The React Team deprecated the React.createFactory method. The old, deprecated style is given below, while the fixed updated version is given above.
export class AppRedirectDx<S extends StateObject> extends RedirectDx<S, AppState> {
constructor(props: RedirectDxProps<S>) {
super(props, appStore.getState(), factory);
}
}
This project is based off of the TypeScript Library Starter
A starter project that makes creating a TypeScript library extremely easy. See https://github.com/alexjoverm/typescript-library-starter
Usage
git clone https://github.com/alexjoverm/typescript-library-starter.git YOURFOLDERNAME
cd YOURFOLDERNAME
# Run npm install and write your library name when asked. That's all!
npm install
Start coding! package.json
and entry files are already set up for you, so don't worry about linking to your main file, typings, etc. Just keep those files with the same name.
Features
- Zero-setup. After running
npm install
things will setup for you :wink: - RollupJS for multiple optimized bundles following the standard convention and Tree-shaking
- Tests, coverage and interactive watch mode using Jest
- Prettier and TSLint for code formatting and consistency
- Docs automatic generation and deployment to
gh-pages
, using TypeDoc - Automatic types
(*.d.ts)
file generation - Travis integration and Coveralls report
- (Optional) Automatic releases and changelog, using Semantic release, Commitizen, Conventional changelog and Husky (for the git hooks)
Importing library
You can import the generated bundle to use the whole library generated by this starter:
import myLib from 'mylib'
Additionally, you can import the transpiled modules from dist/lib
in case you have a modular library:
import something from 'mylib/dist/lib/something'
NPM scripts
npm t
: Run test suitenpm start
: Runnpm run build
in watch modenpm run test:watch
: Run test suite in interactive watch modenpm run test:prod
: Run linting and generate coveragenpm run build
: Generate bundles and typings, create docsnpm run lint
: Lints codenpm run commit
: Commit using conventional commit style (husky will tell you to use it if you haven't :wink:)
Excluding peerDependencies
On library development, one might want to set some peer dependencies, and thus remove those from the final bundle. You can see in Rollup docs how to do that.
Good news: the setup is here for you, you must only include the dependency name in external
property within rollup.config.js
. For example, if you want to exclude lodash
, just write there external: ['lodash']
.
Automatic releases
Prerequisites: you need to create/login accounts and add your project to:
Prerequisite for Windows: Semantic-release uses node-gyp so you will need to install Microsoft's windows-build-tools using this command:
npm install --global --production windows-build-tools
Setup steps
Follow the console instructions to install semantic release and run it (answer NO to "Do you want a .travis.yml
file with semantic-release setup?").
Note: make sure you've setup repository.url
in your package.json
file
npm install -g semantic-release-cli
semantic-release-cli setup
# IMPORTANT!! Answer NO to "Do you want a `.travis.yml` file with semantic-release setup?" question. It is already prepared for you :P
From now on, you'll need to use npm run commit
, which is a convenient way to create conventional commits.
Automatic releases are possible thanks to semantic release, which publishes your code automatically on github and npm, plus generates automatically a changelog. This setup is highly influenced by Kent C. Dodds course on egghead.io
Git Hooks
There is already set a precommit
hook for formatting your code with Prettier :nail_care:
By default, there are two disabled git hooks. They're set up when you run the npm run semantic-release-prepare
script. They make sure:
- You follow a conventional commit message
- Your build is not going to fail in Travis (or your CI server), since it's runned locally before
git push
This makes more sense in combination with automatic releases
FAQ
Array.prototype.from
, Promise
, Map
... is undefined?
TypeScript or Babel only provides down-emits on syntactical features (class
, let
, async/await
...), but not on functional features (Array.prototype.find
, Set
, Promise
...), . For that, you need Polyfills, such as core-js
or babel-polyfill
(which extends core-js
).
For a library, core-js
plays very nicely, since you can import just the polyfills you need:
import "core-js/fn/array/find"
import "core-js/fn/string/includes"
import "core-js/fn/promise"
...
What is npm install
doing on first run?
It runs the script tools/init
which sets up everything for you. In short, it:
- Configures RollupJS for the build, which creates the bundles
- Configures
package.json
(typings file, main file, etc) - Renames main src and test files
What if I don't want git-hooks, automatic releases or semantic-release?
Then you may want to:
- Remove
commitmsg
,postinstall
scripts frompackage.json
. That will not use those git hooks to make sure you make a conventional commit - Remove
npm run semantic-release
from.travis.yml
What if I don't want to use coveralls or report my coverage?
Remove npm run report-coverage
from .travis.yml
Resources
- Write a library using TypeScript library starter by @alexjoverm
- 📺 Create a TypeScript Library using typescript-library-starter by @alexjoverm
- Introducing TypeScript Library Starter Lite by @tonysneed
Projects using typescript-library-starter
Here are some projects that use typescript-library-starter
:
- NOEL - A universal, human-centric, replayable event emitter
- droppable - A library to give file dropping super-powers to any HTML element.
- redis-messaging-manager - Pubsub messaging library, using redis and rxjs
This project follows the all-contributors specification. Contributions of any kind are welcome!