Pixie Dust cursor
Another installment of the 90s web aesthetic experiments. In the 9Os animated cursors were all the rage. On a mobile device of course we don’t have the concept of a cursor. There are gestures that can be detected: touches and drags. So for this project I split up the following pieces to code:
The benefits of this approach are the animating composables can be reused as progress indicators or other elements that appear or disappear to reward customers on their actions.
- Detect gestures and draw a composable lambda on screen based on the gestures —
CursorVisible
- Build a few animating composables: Pulsing Heart and spinning lifesaver
- Build a screen where I can switch the different animating composables in the
CursorVisible
composable - Build pixie dust animation by repurposing my confetti code
First of all I needed a composable which would take a content
and could allow me to drag another composable around. Here’s the code for this. It makes the content
visible and invisible on a tap and lets you drag the content
.
@Composable | |
fun CursorVisible(content: @Composable () -> Unit) { | |
val boxSize = 100.dp | |
val boxPx = with(LocalDensity.current) { boxSize.toPx() } | |
var offset by remember { mutableStateOf(Offset(0f, 0f)) } | |
var visible by remember { mutableStateOf(false) } | |
Box(modifier = Modifier | |
.fillMaxSize() | |
.pointerInput(Unit) { | |
detectTapGestures { | |
offset = it - Offset(boxPx/2, boxPx/2) | |
visible = !visible | |
} | |
} | |
) { | |
if (visible) { | |
Box( | |
Modifier | |
.offset { offset.round() } | |
.size(boxSize) | |
.pointerInput(Unit) { | |
detectDragGestures { change, dragAmount -> | |
change.consumeAllChanges() | |
offset += dragAmount | |
} | |
} | |
) { | |
content() | |
} | |
} | |
} | |
} |
CursorVisible composable
This CursorVisible
can have content of anything. So I made a lifesaver sweet/candy that changes colour and a pulsing red and magenta heart.
The lifesaver is just circles and arcs drawn on the canvas and then some parameters such as angle and colour animated.
@Composable | |
fun LifeSaver(rainbow: List<Color> = SkittlesRainbow) { | |
val color by rainbowState(rainbow = rainbow, duration = 2000) | |
val highlight by rainbowState(PastelRainbow, 2000) | |
val infiniteTransition = rememberInfiniteTransition() | |
val arcAngle1 by infiniteTransition.animateFloat( | |
initialValue = 0F, | |
targetValue = 180F, | |
animationSpec = infiniteRepeatable( | |
animation = tween(5000, easing = LinearEasing), | |
repeatMode = RepeatMode.Restart | |
) | |
) | |
val arcAngle2 by infiniteTransition.animateFloat( | |
initialValue = 180F, | |
targetValue = 360F, | |
animationSpec = infiniteRepeatable( | |
animation = tween(5000, easing = LinearEasing), | |
repeatMode = RepeatMode.Restart | |
) | |
) | |
Canvas( | |
modifier = Modifier | |
.size(80.dp) | |
) { | |
drawCircle( | |
color = color, | |
radius = 40.dp.toPx(), | |
style = Stroke(width = 40.dp.toPx(), cap = StrokeCap.Round) | |
) | |
drawCircle( | |
color = highlight, | |
radius = 24.dp.toPx(), | |
style = Stroke(width = 2.dp.toPx(), cap = StrokeCap.Round) | |
) | |
drawCircle( | |
color = highlight, | |
radius = 55.dp.toPx(), | |
style = Stroke(width = 2.dp.toPx(), cap = StrokeCap.Round) | |
) | |
drawArc( | |
color = highlight, | |
startAngle = arcAngle1, | |
sweepAngle = 90f, | |
useCenter = false, | |
style = Stroke(width = 4.dp.toPx(), cap = StrokeCap.Round), | |
) | |
drawArc( | |
color = highlight, | |
startAngle = arcAngle2, | |
sweepAngle = 90f, | |
useCenter = false, | |
style = Stroke(width = 4.dp.toPx(), cap = StrokeCap.Round), | |
) | |
} | |
} |
Drawing the lifesaver
There is a rainbowState
that loops through a list of colours by using keyframes.
@Composable | |
fun rainbowState( | |
rainbow: List<Color> = SkittlesRainbow, | |
duration: Int = 3000 | |
): State<Color> { | |
val infiniteTransition = rememberInfiniteTransition() | |
val interval = duration / rainbow.size | |
return infiniteTransition.animateColor( | |
initialValue = rainbow[0], | |
targetValue = rainbow.last(), | |
animationSpec = infiniteRepeatable( | |
animation = keyframes { | |
durationMillis = duration | |
var i = 0 | |
for (color in rainbow) { | |
color at i | |
i += interval | |
} | |
}, | |
repeatMode = RepeatMode.Restart | |
) | |
) | |
} |
rainbowState
The pulsing heart is a heart shape which uses a looping animation that adjust the colour and the scale to get the pulsing effect.
The heart shape:
// Thank You https://mahendranv.github.io/posts/compose-shapes-gists/ | |
val HeartShape = GenericShape { size, _ -> | |
val h = size.height | |
val w = size.width | |
lineTo(0.5f*w, 0.25f*h) | |
cubicTo(0.5f*w, 0.225f*h, 0.458333333333333f*w, 0.125f*h, 0.291666666666667f*w, 0.125f*h) | |
cubicTo(0.0416666666666667f*w, 0.125f*h, 0.0416666666666667f*w, 0.4f*h, 0.0416666666666667f*w, 0.4f*h) | |
cubicTo(0.0416666666666667f*w, 0.583333333333333f*h, 0.208333333333333f*w, 0.766666666666667f*h, 0.5f*w, 0.916666666666667f*h) | |
cubicTo(0.791666666666667f*w, 0.766666666666667f*h, 0.958333333333333f*w, 0.583333333333333f*h, 0.958333333333333f*w, 0.4f*h) | |
cubicTo(0.958333333333333f*w, 0.4f*h, 0.958333333333333f*w, 0.125f*h, 0.708333333333333f*w, 0.125f*h) | |
cubicTo(0.583333333333333f*w, 0.125f*h, 0.5f*w, 0.225f*h, 0.5f*w, 0.25f*h) | |
close() | |
} |
Heart Shape
Job Offers
The shaped used in the heart:
@Composable | |
fun Heart(modifier: Modifier = Modifier, color: Color = Color.Red, size: Dp = 100.dp) { | |
Surface( | |
shape = HeartShape, | |
color = color, | |
modifier = modifier | |
.height(size) | |
.width(size) | |
) { | |
} | |
} |
And the animated pulsing heart:
@Composable | |
fun HeartPulse(modifier: Modifier = Modifier) { | |
val infiniteTransition = rememberInfiniteTransition() | |
val heartSize by infiniteTransition.animateFloat( | |
initialValue = 0.5f, | |
targetValue = 1.5f, | |
animationSpec = infiniteRepeatable( | |
animation = tween(1000, easing = FastOutSlowInEasing), | |
repeatMode = RepeatMode.Reverse | |
) | |
) | |
val heartColor by infiniteTransition.animateColor( | |
initialValue = Color.Magenta, | |
targetValue = Color.Red, | |
animationSpec = infiniteRepeatable( | |
animation = tween(1000, easing = FastOutSlowInEasing), | |
repeatMode = RepeatMode.Reverse | |
) | |
) | |
Heart(modifier.scale(heartSize), heartColor) | |
} |
HeartPulse
Last but not least the fairy/pixie dust. For this one I made a GlitterBox which would be the container for the glitter flecks. The state of the glitter and the glitter fleck code is a particle system similar to what I used in the confetti modifier. You can see that in action in the Github repo or read the description in an older blog post.
Putting it all together I have a simple outside box with a little magenta cursor box that can be dragged around on the screen. The position of the magenta box is fed into the particle system on the onDrag
calls and the glitter flecks are generated.
Here’s the glitter box:
@Composable | |
fun GlitterBox( | |
rainbow: List<Color> = SkittlesRainbow, | |
fleckCount: Int = 2, | |
visible: Boolean = true | |
) { | |
var size by remember { mutableStateOf(Size.Zero) } | |
var source by remember { mutableStateOf(Offset(200f, 200f)) } | |
var glitterState by remember { | |
mutableStateOf( | |
GlitterState( | |
speed = 0.5f, | |
colors = rainbow, | |
glitterShape = GlitterShape.Mixed, | |
fleckCount = fleckCount, | |
source = source | |
) | |
) | |
} | |
var lastFrame by remember { mutableStateOf(-1L) } | |
LaunchedEffect(visible) { | |
while (visible && isActive) { | |
withFrameMillis { newTick -> | |
val elapsedMillis = newTick - lastFrame | |
val wasFirstFrame = lastFrame < 0 | |
lastFrame = newTick | |
if (wasFirstFrame) return@withFrameMillis | |
glitterState.next(elapsedMillis) | |
} | |
} | |
} | |
Box( | |
Modifier | |
.fillMaxSize() | |
.onSizeChanged { size = it.toSize() } | |
) { | |
Canvas( | |
modifier = Modifier | |
.fillMaxSize() | |
) { | |
glitterState = glitterState.sizeChanged(this.size) | |
if (visible) { | |
for (fleck in glitterState.flecks) { | |
fleck.draw(drawContext.canvas) | |
} | |
} | |
} | |
Box( | |
Modifier | |
.offset { source.round() } | |
.size(10.dp) | |
.background(Color.Magenta) | |
.pointerInput(Unit) { | |
detectDragGestures { _, dragAmount -> | |
val summed = source + dragAmount | |
val newValue = Offset( | |
x = summed.x.coerceIn(0f, size.width - 10.dp.toPx()), | |
y = summed.y.coerceIn(0f, size.height - 10.dp.toPx()) | |
) | |
source = newValue | |
glitterState = glitterState.updateSource(source) | |
} | |
} | |
) | |
} | |
} |
GlitterBox
And there you have it three 90s retro animated cursor inspired animations in Jetpack Compose. Read the whole project in this git repo.
Originally published at https://www.maiatoday.net on May 24, 2022.