Writing readable reducers in Redux
This article's examples are based on Redux, where the issues described are more common. As these issues are not limited to Redux, you might still find some value in the tips and solutions presented if you are struggling with maintaining complexity and readability in your code.
When working with state in your code, you might often run into issues with maintaining complexity, keeping the code readable and even figuring out how to properly test it. Oftentimes, these issues are easily fixable if you take a step back and identify the root of the problem.
Let's start with an example of what a redux reducer might look like. We'll follow this example throughout this post, making changes and improvements, so make sure you understand it before continuing.
const initialState = { id: null, name: '', properties: {}, }; const generateID = () => Math.floor(Math.random() * 1000); const reducer = (state = initialState, action) => { switch (action.type) { case 'createID': return { ...state, id: generateID(), }; case 'setName': return { ...state, name: action.name, }; case 'addProperty': return { ...state, properties: { ...state.properties, [action.propertyName]: action.propertyValue, }, }; case 'removeProperty': return { ...state, properties: Object.keys(state.properties).reduce((acc, key) => { if (key !== action.propertyName) acc[key] = state.properties[key]; return acc; }, {}), }; default: return state; } };
Identifying the problems
While the code in the example is not that complicated right now, complexity can increase very fast as more action types need to be handled by our application. This is due to the fact that each action.type's logic is nested inside the reducer function, thus adding more code and complexity with each new action.
Another issue we can identify is that each action has a different structure, which increases cognitive load for future maintainers, as they have to remember what keys their action needs to have. There's also the added issue of running into a case where action.type might be needed to pass actual data to the state (i.e. state.type could exist).
Finally, our action.type values are hardcoded inside the reducer function, making it hard to remember and sync across other files and components. This might seem like the least of our problems, but it's probably the easiest one to fix, so let's start there.
Define action types
Starting with removing the hardcoded strings for each of the action.type values, we can make the code more maintainable and easier to read by extracting them to an object:
const ACTION_TYPES = { CREATE_ID: 'createID', SET_NAME: 'setName', ADD_PROPERTY: 'addProperty', REMOVE_PROPERTY: 'removeProperty' };
Create a common action structure
Our action objects aren't consistent in terms of structure with the exception of sharing a type key which we use to identify each action. If we hope to reduce mental strain and minimize headaches, we should make these more consistent. The easiest way to do so would be to put the whole action payload under a top-level key and nest any values passed to the action inside it:
// Structure of any action passed to our reducer function const action = { // Any of the previously defined action types type: ACTION_TYPES.CREATE_ID, // Nest name, propertyValue and propertyKey inside this object payload: { /* ... */ } }
If you plug it into the previous code right away, it might seem counter-intuitive at first, but bear with me for a minute. It will all come together soon.
Extract nested logic
Finally, we are ready to implement the most drastic fix which the previous two changes will help us facilitate - extracting nested logic. The first issue we identified was that each action.type's logic was nested inside the reducer function. We can fix that by moving each case into its own function:
const createID = state => ({ ...state, id: generateID(), }); const setName = (state, { name }) => ({ ...state, name, }); const addProperty = (state, { propertyName, propertyValue }) => ({ ...state, [propertyName]: propertyValue, }); const removeProperty = (state, { propertyName }) => { const properties = Object.keys(state.properties).reduce((acc, key) => { if (key !== propertyName) acc[key] = state.properties[key]; return acc; }, {}); return { ...state, properties }; };
Each function has a single responsibility. Any complexity associated with each action.type is now part of a function responsible for that specific action type. Testing these smaller functions is a lot easier now, as they are focused on a single task, instead of being nested into a larger, more complex reducer.
Putting it all together
Having implemented the above changes, let's take a look at what our final code looks like:
const initialState = { id: null, name: '', properties: {}, }; const ACTION_TYPES = { CREATE_ID: 'createID', SET_NAME: 'setName', ADD_PROPERTY: 'addProperty', REMOVE_PROPERTY: 'removeProperty' }; const generateID = () => Math.floor(Math.random() * 1000); const createID = state => ({ ...state, id: generateID(), }); const setName = (state, { name }) => ({ ...state, name, }); const addProperty = (state, { propertyName, propertyValue }) => ({ ...state, [propertyName]: propertyValue, }); const removeProperty = (state, { propertyName }) => { const properties = Object.keys(state.properties).reduce((acc, key) => { if (key !== propertyName) acc[key] = state.properties[key]; return acc; }, {}); return { ...state, properties }; }; const reducer = (state = initialState, action) => { switch (action.type) { case TYPES.CREATE_ID: return createId(state, action.payload); case TYPES.SET_NAME: return setName(state, action.payload); case TYPES.ADD_PROPERTY: return addProperty(state, action.payload); case TYPES.REMOVE_PROPERTY: return removeProperty(state, action.payload); default: return state; } };
