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Android compose气泡升起和水滴下坠动画实现示例

作者:AiLo

这篇文章主要为大家介绍了Android compose气泡升起和水滴下坠动画实现示例详解,有需要的朋友可以借鉴参考下,希望能够有所帮助,祝大家多多进步,早日升职加薪

摘要

今天用compose来构建一个气泡上升粘连动画和水滴下坠动画,Github源码点击这里

知识点

解析

compose动画使用updateTransition,理由是:

==缓动函数==

代码实现

其实这种动画在工程实装的时候,比较麻烦的一个点就是状态的管理,可能会写不少的代码用来维护以及表示当前动画的状态。 使用updateTransition这个api的好处就是可以借用它的参数targetState来帮我们管理维护当前动画的状态。

            val transition = updateTransition(targetState = currentState, label = "Water")
            val durationMillis = 1111
            val progress by transition.animateFloat(label = "Water", transitionSpec = {
                when {
                    WaterState.Circle isTransitioningTo WaterState.Bubble ->
                        TweenSpec(durationMillis = durationMillis, easing = EaseOutBounce)
                    else -> TweenSpec(durationMillis = durationMillis, easing = EaseOutExpo)
                }
            }) {
                when (it) {
                    WaterState.Bubble -> 1f
                    WaterState.Circle -> -0.2f
                }
            }

在这段代码里我们维护了两个状态,并且在不同的状态切换间使用了不同的transitionSpec

动画绘制

结构

两种状态下的动画结构都是一致的,跟qq的粘连小球动画结构一样,两个圆形以及中间联结的两段贝塞尔曲线

circle to bubble

    val fixCircleCenterX = centerX
    val fixCircleCenterY = centerY
    val currentCircleRadius = pointRadius * (1f - linearProgress)
    drawCircle(
        color = pointColor,
        radius = currentCircleRadius,
        center = Offset(x = fixCircleCenterX, y = fixCircleCenterY)
    )
    val bubbleCenterX = centerX
    val currentDist = gap * linearProgress * 1.25f
    val bubbleCenterY = fixCircleCenterY - currentDist
    val linearChangeBubbleCenterY = fixCircleCenterY - gap * linearProgress * 1.25f
    val iAnchorX = bubbleCenterX
    val iAnchorY = (fixCircleCenterY + linearChangeBubbleCenterY) * 0.5f
    val linearChangedBubbleRadius = pointRadius + (bubbleRadius - pointRadius) * linearProgress
    val currentBubbleRadius = pointRadius + (bubbleRadius - pointRadius) * progress
    val angel = 30.0
    val iBubStartX = bubbleCenterX + currentBubbleRadius * cos(angel * Math.PI / 180).toFloat()
    val iBubStartY = bubbleCenterY + currentBubbleRadius * sin(angel * Math.PI / 180).toFloat()
    val iBubEndX = bubbleCenterX + currentBubbleRadius * cos((180 - angel) * Math.PI / 180).toFloat()
    val iBubEndY = bubbleCenterY + currentBubbleRadius * sin((180 - angel) * Math.PI / 180).toFloat()
    val circleAngel = -angel
    val iFixCircleStartX = fixCircleCenterX + currentCircleRadius * cos(circleAngel * Math.PI / 180).toFloat()
    val iFixCircleStartY = fixCircleCenterY + currentCircleRadius * sin(circleAngel * Math.PI / 180).toFloat()
    val iFixCircleEndX = fixCircleCenterX + currentCircleRadius * cos((180 - circleAngel) * Math.PI / 180).toFloat()
    val iFixCircleEndY = fixCircleCenterY + currentCircleRadius * sin((180 - circleAngel) * Math.PI / 180).toFloat()
    path.reset()
    path.moveTo(iBubStartX, iBubStartY)
    path.quadraticBezierTo(iAnchorX, iAnchorY, iFixCircleStartX, iFixCircleStartY)
    path.lineTo(iFixCircleEndX, iFixCircleEndY)
    path.quadraticBezierTo(iAnchorX, iAnchorY, iBubEndX, iBubEndY)
    path.close()
    drawPath(path = path, color = pointColor)
    drawOval(
        color = pointColor, topLeft = Offset(bubbleCenterX - linearChangedBubbleRadius, linearChangeBubbleCenterY - linearChangedBubbleRadius),
        size = Size(linearChangedBubbleRadius * 2, currentBubbleRadius * 2)
    )

drawOval画椭圆的api来画圆形,主要是为了实现动画末端圆形在y轴上的形变,剩下的bubble to circle的动画与上面类似。

源代码链接

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