#
Configuring Your StoreIn the "Redux Fundamentals" tutorial, we introduced the fundamental Redux concepts by building an example Todo list app. As part of that, we talked about how to create and configure a Redux store.
We will now explore how to customise the store to add extra functionality. We'll start with the source code from "Redux Fundamentals" part 5: UI and React. You can view the source from this stage of the tutorial in the example app repository on Github, or in your browser via CodeSandbox.
#
Creating the storeFirst, let's look at the original index.js
file in which we created our store:
In this code, we pass our reducers to the Redux createStore
function, which returns a store
object. We then pass this object to the react-redux
Provider
component, which is rendered at the top of our component tree.
This ensures that any time we connect to Redux in our app via react-redux
connect
, the store is available to our components.
#
Extending Redux functionalityMost apps extend the functionality of their Redux store by adding middleware or store enhancers (note: middleware is common, enhancers are less common). Middleware adds extra functionality to the Redux dispatch
function; enhancers add extra functionality to the Redux store.
We will add two middlewares and one enhancer:
- The
redux-thunk
middleware, which allows simple asynchronous use of dispatch. - A middleware which logs dispatched actions and the resulting new state.
- An enhancer which logs the time taken for the reducers to process each action.
redux-thunk
#
Install #
middleware/logger.js#
enhancers/monitorReducer.jsLet's add these to our existing index.js
.
First, we need to import
redux-thunk
plus ourloggerMiddleware
andmonitorReducerEnhancer
, plus two extra functions provided by Redux:applyMiddleware
andcompose
.We then use
applyMiddleware
to create a store enhancer which will apply ourloggerMiddleware
and thethunkMiddleware
to the store's dispatch function.Next, we use
compose
to compose our newmiddlewareEnhancer
and ourmonitorReducerEnhancer
into one function.This is needed because you can only pass one enhancer into
createStore
. To use multiple enhancers, you must first compose them into a single larger enhancer, as shown in this example.Finally, we pass this new
composedEnhancers
function intocreateStore
as its third argument. Note: the second argument, which we will ignore, lets you preloaded state into the store.
#
Problems with this approachWhile this code works, for a typical app it is not ideal.
Most apps use more than one middleware, and each middleware often requires some initial setup. The extra noise added to the index.js
can quickly make it hard to maintain, because the logic is not cleanly organised.
configureStore
#
The solution: The solution to this problem is to create a new configureStore
function which encapsulates our store creation logic, which can then be located in its own file to ease extensibility.
The end goal is for our index.js
to look like this:
All the logic related to configuring the store - including importing reducers, middleware, and enhancers - is handled in a dedicated file.
To achieve this, configureStore
function looks like this:
This function follows the same steps outlined above, with some of the logic split out to prepare for extension, which will make it easier to add more in future:
Both
middlewares
andenhancers
are defined as arrays, separate from the functions which consume them.This allows us to easily add more middleware or enhancers based on different conditions.
For example, it is common to add some middleware only when in development mode, which is easily achieved by pushing to the middlewares array inside an if statement:
A
preloadedState
variable is passed through tocreateStore
in case we want to add this later.
This also makes our createStore
function easier to reason about - each step is clearly separated, which makes it more obvious what exactly is happening.
#
Integrating the devtools extensionAnother common feature which you may wish to add to your app is the redux-devtools-extension
integration.
The extension is a suite of tools which give you absolute control over your Redux store - it allows you to inspect and replay actions, explore your state at different times, dispatch actions directly to the store, and much more. Click here to read more about the available features.
There are several ways to integrate the extension, but we will use the most convenient option.
First, we install the package via npm:
Next, we remove the compose
function which we imported from redux
, and replace it with a new composeWithDevTools
function imported from redux-devtools-extension
.
The final code looks like this:
And that's it!
If we now visit our app via a browser with the devtools extension installed, we can explore and debug using a powerful new tool.
#
Hot reloadingAnother powerful tool which can make the development process a lot more intuitive is hot reloading, which means replacing pieces of code without restarting your whole app.
For example, consider what happens when you run your app, interact with it for a while, and then decide to make changes to one of your reducers. Normally, when you make those changes your app will restart, reverting your Redux state to its initial value.
With hot module reloading enabled, only the reducer you changed would be reloaded, allowing you to change your code without resetting the state every time. This makes for a much faster development process.
We'll add hot reloading both to our Redux reducers and to our React components.
First, let's add it to our configureStore
function:
The new code is wrapped in an if
statement, so it only runs when our app is not in production mode, and only if the module.hot
feature is available.
Bundlers like Webpack and Parcel support a module.hot.accept
method to specify which module should be hot reloaded, and what should happen when the module changes. In this case, we're watching the ./reducers
module, and passing the updated rootReducer
to the store.replaceReducer
method when it changes.
We'll also use the same pattern in our index.js
to hot reload any changes to our React components:
The only extra change here is that we have encapsulated our app's rendering into a new renderApp
function, which we now call to re-render the app.
#
Simplifying Setup with Redux ToolkitThe Redux core library is deliberately unopinionated. It lets you decide how you want to handle everything, like store setup, what your state contains, and how you want to build your reducers.
This is good in some cases, because it gives you flexibility, but that flexibility isn't always needed. Sometimes we just want the simplest possible way to get started, with some good default behavior out of the box.
The Redux Toolkit package is designed to help simplify several common Redux use cases, including store setup. Let's see how it can help improve the store setup process.
Redux Toolkit includes a prebuilt configureStore
function like
the one shown in the earlier examples.
The fastest way to use is it is to just pass the root reducer function:
Note that it accepts an object with named parameters, to make it clearer what you're passing in.
By default, configureStore
from Redux Toolkit will:
- Call
applyMiddleware
with a default list of middleware, includingredux-thunk
, and some development-only middleware that catch common mistakes like mutating state - Call
composeWithDevTools
to set up the Redux DevTools Extension
Here's what the hot reloading example might look like using Redux Toolkit:
That definitely simplifies some of the setup process.
#
Next StepsNow that you know how to encapsulate your store configuration to make it easier to maintain, you can look at the Redux Toolkit configureStore
API, or take a closer look at some of the extensions available in the Redux ecosystem.