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animated-transition-group
Advanced tools
like `<ReactTransitionGroup />` + callbacks, extras and child-specific customization
AnimatedTransitionGroup
is a sound answer to <ReactTransitionGroup />
and any wishlist you might have had for it.
We suggest you become familiar with it and its higher level CSS-oriented counterpart first to truly understand AnimatedTransitionGroups
's benefits:
The biggest problem AnimatedTransitionGroup
solves is that you can both provide callbacks for the 3 transitions (appear
, enter
, leave
) AND
have your css classes applied. ReactCSSTransitionGroup
does not allow for callbacks.
However, we've taken it one step farther to allow you to customize each individual child component rendered within the group. So that
means you can provide props (such as animation duraiton, delay, etc) that apply to all children by setting them at the group level,
OR you can override them by passing the props to the <AnimatedChild />
components that wrap your actual children.
Note: unlike ReactTransitionGroup
and ReactCSSTransitionGroup
all child components are required to be wrapped in <AnimatedChild>
.
Lastly, we offer simpler prop names and a lot more customization:
duration
, appearDuration
, enterDuration
, leaveDuration
)delay
, appearDelay
, enterDelay
, leaveDelay
)appear
, enter
, and leave
props)yarn add animated-transition-group
import React from 'react'
import { connect } from 'react-redux'
import { AnimatedTransitionGroup, AnimatedChild } from 'animated-transition-group'
const onLeave = () => console.log('left')
const onEmpty = () => console.log('group empty')
const PageSwitcher = ({ page }) =>
<AnimatedTransitionGroup
component='div'
className='whatever'
duration={300}
delay={100}
prefix='fade'
onEmpty={onEmpty}
>
<AnimatedChild key={page} duration={500} enterDelay={500} leaveDelay={0} onLeave={onLeave}>
{getComponent(page)}
</AnimatedChild>
// don't show link for the current page:
<LinkRow>
{page !== 'Home' && <AnimatedChild key={`${page}-link`>HOME<AnimatedChild>}
{page !== 'List' && <AnimatedChild key={`${page}-link`>LIST<AnimatedChild>}
{page !== 'Video' && <AnimatedChild key={`${page}-link`>VIDEO<AnimatedChild>}
</LinkRow>
</AnimatedTransitionGroup>
const getComponent = page => {
switch(page) {
case 'Home':
return <Home />
case 'List':
return <List />
case 'Video':
return <Video />
}
}
const mapState = ({ page }) => ({ page })
export default connect(mapState)(PageSwitcher)
note: you can have as many nested <AnimatedChild />
's as you want. This happens to be primarily for one child :)
The secret ingredient is obviously the key
property passed to your children. That lets React differentiate between
the components. More importantly it lets you define just a single component in this case, rather than require you to
hack something together that has 2 components nested in the code at once. React just knows what to do.
The ReactTransitionGroup
toolset hasn't received enough credit in my opinion--partly because the flaws our component here solves--but we believe the abstraction
it provides to use state to determine when components should and should not be there (as you normally would), while keeping the concept of the actual
duration embedded in the DOM separate, makes it world class. It allows you to render from state, just as you would hope...and
without any hacked solutions or trickery.
As for having multiple nested AnimatedChild
components, of course also use the key
prop to uniquely identify them so React
knows what to do, i.e. when to attach and detach them to/from the DOM.
The below props can be applied to both <AnimatedTransitionGroup />
and <AnimatedChild />
. The difference is that if
you provide them to AnimatedTransitionGroup
, they will be passed down to AnimatedChild
. And of course, if AnimatedChild
supplies its own, it will override it. duh!
the string prepended to all classes like this: myPrefix-appear
, myPrefix-appear-active
, myPrefix-enter
, etc
the time in milliseconds that child components are expected to animate for
the time in milliseconds that child components are supposed to wait before being animated. Instances won't be removed from the DOM until the sum of the delay and duration has been reached.
by supplying these, you can customize the duration length (in ms) of the individual transition
by supplying these, you can customize the delay length (in ms) of the individual transition
these callbacks will of course be called for the given transition
by suppling these you can override the classes applied, e.g: leave-active
can be foobar-active
. These are also very
effective if you're using CSS Modules and don't want to define a global class with :global(.appear)
. Instead, do this:
import styles from '.styles'
<AnimatedChild appear={styles.appear} />
The following props are only available on <AnimatedTransitionGroup />
:
called when the first AnimatedChild
renders within AnimatedTransitionGroup
called when there are no nested <AnimatedChild />
components. It is called after the final component animates its departure, using
the the duration and delay passed to AnimatedTransitionGroup
(not the child) to calculate that time.
to calculate whether there are zero nested children, sometimes you need to indicate what that number is. For example,
if you have an array of children, when the array is empty, it's counted as 1
even though no children are rendered.
So you set zeroElements={1}
.
FAQs
like `<ReactTransitionGroup />` + callbacks, extras and child-specific customization
The npm package animated-transition-group receives a total of 2 weekly downloads. As such, animated-transition-group popularity was classified as not popular.
We found that animated-transition-group demonstrated a not healthy version release cadence and project activity because the last version was released a year ago. It has 1 open source maintainer collaborating on the project.
Did you know?
Socket for GitHub automatically highlights issues in each pull request and monitors the health of all your open source dependencies. Discover the contents of your packages and block harmful activity before you install or update your dependencies.
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