Advanced animation example: Gestures
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There are several things we have to take into consideration when we are working
with touch events and animations, compared to when we are working with
animations alone. First of all, we might need to interrupt an ongoing animation
when touch events begin as user interaction should have the highest priority.
In the example below, we use an Animatable to represent the offset position of
a circle component. Touch events are processed with the
pointerInput
modifier. When we detect a new tap event, we call animateTo to animate the
offset value to the tap position. A tap event can happen during the animation
too, and in that case, animateTo interrupts the ongoing animation and starts
the animation to the new target position while maintaining the velocity of the
interrupted animation.
@Composable
fun Gesture() {
val offset = remember { Animatable(Offset(0f, 0f), Offset.VectorConverter) }
Box(
modifier = Modifier
.fillMaxSize()
.pointerInput(Unit) {
coroutineScope {
while (true) {
// Detect a tap event and obtain its position.
awaitPointerEventScope {
val position = awaitFirstDown().position
launch {
// Animate to the tap position.
offset.animateTo(position)
}
}
}
}
}
) {
Circle(modifier = Modifier.offset { offset.value.toIntOffset() })
}
}
private fun Offset.toIntOffset() = IntOffset(x.roundToInt(), y.roundToInt())
Another frequent pattern is we need to synchronize animation values with values
coming from touch events, such as drag. In the example below, we see "swipe to
dismiss" implemented as a Modifier (rather than using the
SwipeToDismiss
composable). The horizontal offset of the element is represented as an
Animatable. This API has a characteristic useful in gesture animation. Its
value can be changed by touch events as well as the animation. When we receive a
touch down event, we stop the Animatable by the stop method so that any
ongoing animation is intercepted.
During a drag event, we use snapTo to update the Animatable value with the
value calculated from touch events. For fling, Compose provides
VelocityTracker to record drag events and calculate velocity. The velocity can
be fed directly to animateDecay for the fling animation. When we want to slide
the offset value back to the original position, we specify the target offset
value of 0f with the animateTo method.
fun Modifier.swipeToDismiss(
onDismissed: () -> Unit
): Modifier = composed {
val offsetX = remember { Animatable(0f) }
pointerInput(Unit) {
// Used to calculate fling decay.
val decay = splineBasedDecay<Float>(this)
// Use suspend functions for touch events and the Animatable.
coroutineScope {
while (true) {
val velocityTracker = VelocityTracker()
// Stop any ongoing animation.
offsetX.stop()
awaitPointerEventScope {
// Detect a touch down event.
val pointerId = awaitFirstDown().id
horizontalDrag(pointerId) { change ->
// Update the animation value with touch events.
launch {
offsetX.snapTo(
offsetX.value + change.positionChange().x
)
}
velocityTracker.addPosition(
change.uptimeMillis,
change.position
)
}
}
// No longer receiving touch events. Prepare the animation.
val velocity = velocityTracker.calculateVelocity().x
val targetOffsetX = decay.calculateTargetValue(
offsetX.value,
velocity
)
// The animation stops when it reaches the bounds.
offsetX.updateBounds(
lowerBound = -size.width.toFloat(),
upperBound = size.width.toFloat()
)
launch {
if (targetOffsetX.absoluteValue <= size.width) {
// Not enough velocity; Slide back.
offsetX.animateTo(
targetValue = 0f,
initialVelocity = velocity
)
} else {
// The element was swiped away.
offsetX.animateDecay(velocity, decay)
onDismissed()
}
}
}
}
}
.offset { IntOffset(offsetX.value.roundToInt(), 0) }
}
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Last updated 2025-08-26 UTC.
[[["Easy to understand","easyToUnderstand","thumb-up"],["Solved my problem","solvedMyProblem","thumb-up"],["Other","otherUp","thumb-up"]],[["Missing the information I need","missingTheInformationINeed","thumb-down"],["Too complicated / too many steps","tooComplicatedTooManySteps","thumb-down"],["Out of date","outOfDate","thumb-down"],["Samples / code issue","samplesCodeIssue","thumb-down"],["Other","otherDown","thumb-down"]],["Last updated 2025-08-26 UTC."],[],[],null,["There are several things we have to take into consideration when we are working\nwith touch events and animations, compared to when we are working with\nanimations alone. First of all, we might need to interrupt an ongoing animation\nwhen touch events begin as user interaction should have the highest priority.\n\nIn the example below, we use an `Animatable` to represent the offset position of\na circle component. Touch events are processed with the\n[`pointerInput`](/reference/kotlin/androidx/compose/ui/input/pointer/package-summary#(androidx.compose.ui.Modifier).pointerInput(kotlin.Any,%20kotlin.coroutines.SuspendFunction1))\nmodifier. When we detect a new tap event, we call `animateTo` to animate the\noffset value to the tap position. A tap event can happen during the animation\ntoo, and in that case, `animateTo` interrupts the ongoing animation and starts\nthe animation to the new target position while maintaining the velocity of the\ninterrupted animation.\n\n\n```kotlin\n@Composable\nfun Gesture() {\n val offset = remember { Animatable(Offset(0f, 0f), Offset.VectorConverter) }\n Box(\n modifier = Modifier\n .fillMaxSize()\n .pointerInput(Unit) {\n coroutineScope {\n while (true) {\n // Detect a tap event and obtain its position.\n awaitPointerEventScope {\n val position = awaitFirstDown().position\n\n launch {\n // Animate to the tap position.\n offset.animateTo(position)\n }\n }\n }\n }\n }\n ) {\n Circle(modifier = Modifier.offset { offset.value.toIntOffset() })\n }\n}\n\nprivate fun Offset.toIntOffset() = IntOffset(x.roundToInt(), y.roundToInt())https://github.com/android/snippets/blob/5673ffc60b614daf028ee936227128eb8c4f9781/compose/snippets/src/main/java/com/example/compose/snippets/animations/AdvancedAnimationSnippets.kt#L62-L88\n```\n\n\u003cbr /\u003e\n\nAnother frequent pattern is we need to synchronize animation values with values\ncoming from touch events, such as drag. In the example below, we see \"swipe to\ndismiss\" implemented as a `Modifier` (rather than using the\n[`SwipeToDismiss`](/reference/kotlin/androidx/compose/material/package-summary#SwipeToDismiss(androidx.compose.material.DismissState,%20androidx.compose.ui.Modifier,%20kotlin.collections.Set,%20kotlin.Function1,%20kotlin.Function1,%20kotlin.Function1))\ncomposable). The horizontal offset of the element is represented as an\n`Animatable`. This API has a characteristic useful in gesture animation. Its\nvalue can be changed by touch events as well as the animation. When we receive a\ntouch down event, we stop the `Animatable` by the `stop` method so that any\nongoing animation is intercepted.\n\nDuring a drag event, we use `snapTo` to update the `Animatable` value with the\nvalue calculated from touch events. For fling, Compose provides\n`VelocityTracker` to record drag events and calculate velocity. The velocity can\nbe fed directly to `animateDecay` for the fling animation. When we want to slide\nthe offset value back to the original position, we specify the target offset\nvalue of `0f` with the `animateTo` method.\n\n\n```kotlin\nfun Modifier.swipeToDismiss(\n onDismissed: () -\u003e Unit\n): Modifier = composed {\n val offsetX = remember { Animatable(0f) }\n pointerInput(Unit) {\n // Used to calculate fling decay.\n val decay = splineBasedDecay\u003cFloat\u003e(this)\n // Use suspend functions for touch events and the Animatable.\n coroutineScope {\n while (true) {\n val velocityTracker = VelocityTracker()\n // Stop any ongoing animation.\n offsetX.stop()\n awaitPointerEventScope {\n // Detect a touch down event.\n val pointerId = awaitFirstDown().id\n\n horizontalDrag(pointerId) { change -\u003e\n // Update the animation value with touch events.\n launch {\n offsetX.snapTo(\n offsetX.value + change.positionChange().x\n )\n }\n velocityTracker.addPosition(\n change.uptimeMillis,\n change.position\n )\n }\n }\n // No longer receiving touch events. Prepare the animation.\n val velocity = velocityTracker.calculateVelocity().x\n val targetOffsetX = decay.calculateTargetValue(\n offsetX.value,\n velocity\n )\n // The animation stops when it reaches the bounds.\n offsetX.updateBounds(\n lowerBound = -size.width.toFloat(),\n upperBound = size.width.toFloat()\n )\n launch {\n if (targetOffsetX.absoluteValue \u003c= size.width) {\n // Not enough velocity; Slide back.\n offsetX.animateTo(\n targetValue = 0f,\n initialVelocity = velocity\n )\n } else {\n // The element was swiped away.\n offsetX.animateDecay(velocity, decay)\n onDismissed()\n }\n }\n }\n }\n }\n .offset { IntOffset(offsetX.value.roundToInt(), 0) }\n}https://github.com/android/snippets/blob/5673ffc60b614daf028ee936227128eb8c4f9781/compose/snippets/src/main/java/com/example/compose/snippets/animations/AdvancedAnimationSnippets.kt#L94-L152\n```\n\n\u003cbr /\u003e\n\nRecommended for you\n\n- Note: link text is displayed when JavaScript is off\n- [Value-based animations](/develop/ui/compose/animation/value-based)\n- [Drag, swipe, and fling](/develop/ui/compose/touch-input/pointer-input/drag-swipe-fling)\n- [Understand gestures](/develop/ui/compose/touch-input/pointer-input/understand-gestures)"]]
