Introduction to React.memo, useMemo and useCallback

Huy Trinh
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Published in
6 min readNov 11, 2019
Photo by Danika Perkinson on Unsplash

Prerequisite: Basic knowledge about React

When I start to write this blog, I ask myself whether I should only talk about the differences between useMemo and useCallback because they are React Hooks while React.memo is not. Eventually, I decided to include React.memo as well since on the one hand the word memo in both terminologies might sound a bit confusing for people. On the other hand, it's all about React optimization 😁

1. What is React.memo

If you are familiar with React.PureComponent then React.memo is quite straightforward as it is exactly similar to React.PureComponent. We use React.PureComponent with class component while React.memo works with functional components 👌

Let’s take a look at our example to see how it works. Codesandbox

Note: All the examples below are used only to express the main ideas. In reality, we don’t need optimization in such simple cases

const App = () => {
const [count1, setCount1] = React.useState(0)
const [count2, setCount2] = React.useState(0)

const increaseCounter1 = () => {
setCount1(count1 => count1 + 1)
}

return (
<>
<button onClick={increaseCounter1}>Increase counter 1</button>
<Counter value={count1}>Counter 1</Counter>
<Counter value={count2}>Coutner 2</Counter>
</>
)
}
const Counter = ({value, children}) => {
console.log('Render: ', children)

return (
<div>
{children}: {value}
</div>
)
}

export default Counter

Every time the user clicks on the button, the state of count1 changes causing the App to rerender both counters which is known as unnecessary re-render. However, we expect only the counter1 to be rerendered since nothing has changed with the counter2. In reality, both counters get rerendered.

How can we address this issue? 🤔 Well, React.memo is our answer. All we need to do is to wrap our Counter component within React.memo

const Counter = ({value, children}) => {
console.log('Render: ', children)

return (
<div>
{children}: {value}
</div>
)
}

export default React.memo(Counter)

By default, React.memo will compare all props passed to the component by referential equality. If these props are unchanged, React.memo will reuse the last rendered result, therefore, it prevents the component from being rerendered. In our example, React.memo will check if there are any changes with the value and children props since the last render. Since our button only changes the value of the counter1, React.memo will prevent the counter2 from being rerendered. 😎💪

We can also override the default comparison of React.memo by providing a custom comparison function as the second argument.

From React.memo

const Counter = () => {

const areEqual = (prevProps, nextProps) => {
/*
return true if passing nextProps to render would return
the same result as passing prevProps to render,
otherwise return false
*/
}
}

export default React.memo(Counter, areEqual)

2. useMemo and useCallback

I will start with the documentation

useMemo returns a memoized value

React.useMemo(() => {
fooFunction()
}, [dependencies])

useCallback returns a memoized callback

React.useCallback(() => {
fooFunction()
}, [dependencies])

💪 Let’s break it down together

Both React.useMemo and React.useCallback receives a function as its first argument and a dependencies array as the second one. The hook will return a new value only when one of the dependencies value changes (referential equality). The main difference is that React.useMemo will call the fooFunction and return its result while React.useCallback will return the fooFunction without calling it.

😫 Example please codesandbox

const App = () => {
const fooFunction = () => {
return 'Foo is just Food without D'
}

const useMemoResult = React.useMemo(fooFunction, [])
const useCallbackResult = React.useCallback(fooFunction, [])

console.log('useMemoResult: ', useMemoResult)
console.log('useCallbackResult: ', useCallbackResult)

return <p>Foo is just food without D</p>
}

If you run the code and take a look at your console, not refrigerator, you can see the following output

React.useMemo runs the fooFunction which returns a string Foo is just Food without D while React.useCallback just returns a fooFunction without calling it

🤩 Got it. But how does it work in React?

🍀 useMemo

Normally we could use React.useMemo when we compute expensive value that we don’t want to compute it again and again when the component is rerendered

const Me = ({girlFriendWords}) => {

// Provided that girlFriendWords is a string

const myReply = decideWhatToSay (girlFriendWords)

return <p>{myReply}</p>
}

Imagine that it takes full of my energy to calculate myReply value and what if I have to do it again and again (recalculate) when my girl friend says something (rerender) 🤐

🔥 React.useMemo comes to rescue

const Me = ({girlFriendWords}) => {

// Provided that girlFriendWords is a string

const myReply = React.useMemo(() => decideWhatToSay (girlFriendWords), [girlFriendWords])

return <p>{myReply}</p>
}

Thanks to React.useMemo, I couldn’t have finished this blog without you 💑

React.useMemo takes [girlFriendWords] as its dependencies array which means that it will only run decideWhatToSay function when girlFriendWords value changes. I don't have to think twice to reply when my girlfriend says the same thing. Optimization here 🎉🍀💐

🍀 useCallback

Enough relationship story, let’s get back to our Counter example. Let’s tweak the example a little bit, our counter now also receives onClick function as a prop. Could you guess whether our Counter2 component will be rerendered when count1 value change

const App = () => {
const [count1, setCount1] = React.useState(0)
const [count2, setCount2] = React.useState(0)

const increaseCounter1 = () => {
setCount1(count1 => count1 + 1)
}

const increaseCounter2 = () => {
setCount1(count2 => count1 + 1)
}

return (
<>
<Counter value={count1} onClick={increaseCounter1}>Counter 1</Counter>
<Counter value={count2} onClick={increaseCounter2}>Coutner 2</Counter>
</>
)
}
const Counter = ({value, children, onClick}) => {
console.log('Render: ', children)

return (
<Button onClick={}>
{children}: {value}
</div>
)
}

export default React.memo(Counter)

Even when we use React.memo, the counter2 component is still rerendered when only the count1 changes because React.memo uses reference equality to prevent unnecessary renders. However, when App is rerendered, the increaseCounter2 is recreated, therefore, the onClick props passed into the Counter component is different every time which causes the component to be rerendered. The easy way to avoid this issue is to prevent the increaseCounter2 function from being recreated when the App is rerendered.

We make use of React.useCallback to do this

const App = () => {
const [count1, setCount1] = React.useState(0)
const [count2, setCount2] = React.useState(0)

const increaseCounter1 = React.useCallback(() => {
setCount1(count1 => count1 + 1)
}, [])

const increaseCounter2 = React.useCallback(() => {
setCount2(count2 => count1 + 1)
}, [])

return (
<>
<Counter value={count1} onClick={increaseCounter1}>Counter 1</Counter>
<Counter value={count2} onClick={increaseCounter2}>Coutner 2</Counter>
</>
)
}

Take a look at the dependencies array, it’s empty because I want to create these functions only once. In this way, the onClick props passed to the Counter component is always the same

3. Conclusion:

  • 🚀 We should not optimize unnecessary rerenders without measuring the cost first. Optimization always comes with a cost
  • 🚀 React.memo is similar to React.PureComponent except the fact that it is used for functional component while React.PureComponent is used only in class component
  • 🚀 React.useMemo returns a memoized value while React.useCallback return a memoized callback

Here are some good resources for you:

🙏 💪 Thanks for reading!

I would love to hear your ideas and feedback. Feel free to comment below!

✍️ Written by

Huy Trinh 🔥 🎩 ♥️ ♠️ ♦️ ♣️ 🤓

Software developer | Magic lover

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