packages/SystemUI/src/com/android/systemui/media/LightSourceDrawable.kt - platform/frameworks/base - Git at Google

 /*
  * Copyright (C) 2020 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 package com.android.systemui.media

 import android.animation.Animator
 import android.animation.AnimatorListenerAdapter
 import android.animation.AnimatorSet
 import android.animation.ValueAnimator
 import android.content.res.Resources
 import android.content.res.TypedArray
 import android.graphics.Canvas
 import android.graphics.Color
 import android.graphics.ColorFilter
 import android.graphics.Outline
 import android.graphics.Paint
 import android.graphics.PixelFormat
 import android.graphics.RadialGradient
 import android.graphics.Rect
 import android.graphics.Shader
 import android.graphics.drawable.Drawable
 import android.util.AttributeSet
 import android.util.MathUtils.lerp
 import androidx.annotation.Keep
 import com.android.internal.graphics.ColorUtils
 import com.android.systemui.Interpolators
 import com.android.systemui.R
 import org.xmlpull.v1.XmlPullParser

 private const val RIPPLE_ANIM_DURATION = 800L
 private const val RIPPLE_DOWN_PROGRESS = 0.05f
 private const val RIPPLE_CANCEL_DURATION = 200L
 private val GRADIENT_STOPS = floatArrayOf(0.2f, 1f)

 private data class RippleData(
     var x: Float,
     var y: Float,
     var alpha: Float,
     var progress: Float,
     var minSize: Float,
     var maxSize: Float,
     var highlight: Float
 )

 /**
  * Drawable that can draw an animated gradient when tapped.
  */
 @Keep
 class LightSourceDrawable : Drawable() {

     private var pressed = false
     private var themeAttrs: IntArray? = null
     private val rippleData = RippleData(0f, 0f, 0f, 0f, 0f, 0f, 0f)
     private var paint = Paint()

     var highlightColor = Color.WHITE
     set(value) {
         if (field == value) {
             return
         }
         field = value
         invalidateSelf()
     }

     /**
      * Draw a small highlight under the finger before expanding (or cancelling) it.
      */
     private var active: Boolean = false
         set(value) {
             if (value == field) {
                 return
             }
             field = value

             if (value) {
                 rippleAnimation?.cancel()
                 rippleData.alpha = 1f
                 rippleData.progress = RIPPLE_DOWN_PROGRESS
             } else {
                 rippleAnimation?.cancel()
                 rippleAnimation = ValueAnimator.ofFloat(rippleData.alpha, 0f).apply {
                     duration = RIPPLE_CANCEL_DURATION
                     interpolator = Interpolators.LINEAR_OUT_SLOW_IN
                     addUpdateListener {
                         rippleData.alpha = it.animatedValue as Float
                         invalidateSelf()
                     }
                     addListener(object : AnimatorListenerAdapter() {
                         var cancelled = false
                         override fun onAnimationCancel(animation: Animator?) {
                             cancelled = true
                         }

                         override fun onAnimationEnd(animation: Animator?) {
                             if (cancelled) {
                                 return
                             }
                             rippleData.progress = 0f
                             rippleData.alpha = 0f
                             rippleAnimation = null
                             invalidateSelf()
                         }
                     })
                     start()
                 }
             }
             invalidateSelf()
         }

     private var rippleAnimation: Animator? = null

     /**
      * Draw background and gradient.
      */
     override fun draw(canvas: Canvas) {
         val radius = lerp(rippleData.minSize, rippleData.maxSize, rippleData.progress)
         val centerColor =
                 ColorUtils.setAlphaComponent(highlightColor, (rippleData.alpha * 255).toInt())
         paint.shader = RadialGradient(rippleData.x, rippleData.y, radius,
                 intArrayOf(centerColor, Color.TRANSPARENT), GRADIENT_STOPS, Shader.TileMode.CLAMP)
         canvas.drawCircle(rippleData.x, rippleData.y, radius, paint)
     }

     override fun getOutline(outline: Outline) {
         // No bounds, parent will clip it
     }

     override fun getOpacity(): Int {
         return PixelFormat.TRANSPARENT
     }

     override fun inflate(
         r: Resources,
         parser: XmlPullParser,
         attrs: AttributeSet,
         theme: Resources.Theme?
     ) {
         val a = obtainAttributes(r, theme, attrs, R.styleable.IlluminationDrawable)
         themeAttrs = a.extractThemeAttrs()
         updateStateFromTypedArray(a)
         a.recycle()
     }

     private fun updateStateFromTypedArray(a: TypedArray) {
         if (a.hasValue(R.styleable.IlluminationDrawable_rippleMinSize)) {
             rippleData.minSize = a.getDimension(R.styleable.IlluminationDrawable_rippleMinSize, 0f)
         }
         if (a.hasValue(R.styleable.IlluminationDrawable_rippleMaxSize)) {
             rippleData.maxSize = a.getDimension(R.styleable.IlluminationDrawable_rippleMaxSize, 0f)
         }
         if (a.hasValue(R.styleable.IlluminationDrawable_highlight)) {
             rippleData.highlight = a.getInteger(R.styleable.IlluminationDrawable_highlight, 0) /
                     100f
         }
     }

     override fun canApplyTheme(): Boolean {
         return themeAttrs != null && themeAttrs!!.size > 0 || super.canApplyTheme()
     }

     override fun applyTheme(t: Resources.Theme) {
         super.applyTheme(t)
         themeAttrs?.let {
             val a = t.resolveAttributes(it, R.styleable.IlluminationDrawable)
             updateStateFromTypedArray(a)
             a.recycle()
         }
     }

     override fun setColorFilter(p0: ColorFilter?) {
         throw UnsupportedOperationException("Color filters are not supported")
     }

     override fun setAlpha(value: Int) {
         throw UnsupportedOperationException("Alpha is not supported")
     }

     /**
      * Draws an animated ripple that expands fading away.
      */
     private fun illuminate() {
         rippleData.alpha = 1f
         invalidateSelf()

         rippleAnimation?.cancel()
         rippleAnimation = AnimatorSet().apply {
             playTogether(ValueAnimator.ofFloat(1f, 0f).apply {
                 startDelay = 133
                 duration = RIPPLE_ANIM_DURATION - startDelay
                 interpolator = Interpolators.LINEAR_OUT_SLOW_IN
                 addUpdateListener {
                     rippleData.alpha = it.animatedValue as Float
                     invalidateSelf()
                 }
             }, ValueAnimator.ofFloat(rippleData.progress, 1f).apply {
                 duration = RIPPLE_ANIM_DURATION
                 interpolator = Interpolators.LINEAR_OUT_SLOW_IN
                 addUpdateListener {
                     rippleData.progress = it.animatedValue as Float
                     invalidateSelf()
                 }
             })
             addListener(object : AnimatorListenerAdapter() {
                 override fun onAnimationEnd(animation: Animator?) {
                     rippleData.progress = 0f
                     rippleAnimation = null
                     invalidateSelf()
                 }
             })
             start()
         }
     }

     override fun setHotspot(x: Float, y: Float) {
         rippleData.x = x
         rippleData.y = y
         if (active) {
             invalidateSelf()
         }
     }

     override fun isStateful(): Boolean {
         return true
     }

     override fun hasFocusStateSpecified(): Boolean {
         return true
     }

     override fun isProjected(): Boolean {
         return true
     }

     override fun getDirtyBounds(): Rect {
         val radius = lerp(rippleData.minSize, rippleData.maxSize, rippleData.progress)
         val bounds = Rect((rippleData.x - radius).toInt(), (rippleData.y - radius).toInt(),
                 (rippleData.x + radius).toInt(), (rippleData.y + radius).toInt())
         bounds.union(super.getDirtyBounds())
         return bounds
     }

     override fun onStateChange(stateSet: IntArray?): Boolean {
         val changed = super.onStateChange(stateSet)
         if (stateSet == null) {
             return changed
         }

         val wasPressed = pressed
         var enabled = false
         pressed = false
         var focused = false
         var hovered = false

         for (state in stateSet) {
             when (state) {
                 com.android.internal.R.attr.state_enabled -> {
                     enabled = true
                 }
                 com.android.internal.R.attr.state_focused -> {
                     focused = true
                 }
                 com.android.internal.R.attr.state_pressed -> {
                     pressed = true
                 }
                 com.android.internal.R.attr.state_hovered -> {
                     hovered = true
                 }
             }
         }

         active = enabled && (pressed || focused || hovered)
         if (wasPressed && !pressed) {
             illuminate()
         }

         return changed
     }
 }
	/*
	* Copyright (C) 2020 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	package com.android.systemui.media

	import android.animation.Animator
	import android.animation.AnimatorListenerAdapter
	import android.animation.AnimatorSet
	import android.animation.ValueAnimator
	import android.content.res.Resources
	import android.content.res.TypedArray
	import android.graphics.Canvas
	import android.graphics.Color
	import android.graphics.ColorFilter
	import android.graphics.Outline
	import android.graphics.Paint
	import android.graphics.PixelFormat
	import android.graphics.RadialGradient
	import android.graphics.Rect
	import android.graphics.Shader
	import android.graphics.drawable.Drawable
	import android.util.AttributeSet
	import android.util.MathUtils.lerp
	import androidx.annotation.Keep
	import com.android.internal.graphics.ColorUtils
	import com.android.systemui.Interpolators
	import com.android.systemui.R
	import org.xmlpull.v1.XmlPullParser

	private const val RIPPLE_ANIM_DURATION = 800L
	private const val RIPPLE_DOWN_PROGRESS = 0.05f
	private const val RIPPLE_CANCEL_DURATION = 200L
	private val GRADIENT_STOPS = floatArrayOf(0.2f, 1f)

	private data class RippleData(
	var x: Float,
	var y: Float,
	var alpha: Float,
	var progress: Float,
	var minSize: Float,
	var maxSize: Float,
	var highlight: Float
	)

	/**
	* Drawable that can draw an animated gradient when tapped.
	*/
	@Keep
	class LightSourceDrawable : Drawable() {

	private var pressed = false
	private var themeAttrs: IntArray? = null
	private val rippleData = RippleData(0f, 0f, 0f, 0f, 0f, 0f, 0f)
	private var paint = Paint()

	var highlightColor = Color.WHITE
	set(value) {
	if (field == value) {
	return
	}
	field = value
	invalidateSelf()
	}

	/**
	* Draw a small highlight under the finger before expanding (or cancelling) it.
	*/
	private var active: Boolean = false
	set(value) {
	if (value == field) {
	return
	}
	field = value

	if (value) {
	rippleAnimation?.cancel()
	rippleData.alpha = 1f
	rippleData.progress = RIPPLE_DOWN_PROGRESS
	} else {
	rippleAnimation?.cancel()
	rippleAnimation = ValueAnimator.ofFloat(rippleData.alpha, 0f).apply {
	duration = RIPPLE_CANCEL_DURATION
	interpolator = Interpolators.LINEAR_OUT_SLOW_IN
	addUpdateListener {
	rippleData.alpha = it.animatedValue as Float
	invalidateSelf()
	}
	addListener(object : AnimatorListenerAdapter() {
	var cancelled = false
	override fun onAnimationCancel(animation: Animator?) {
	cancelled = true
	}

	override fun onAnimationEnd(animation: Animator?) {
	if (cancelled) {
	return
	}
	rippleData.progress = 0f
	rippleData.alpha = 0f
	rippleAnimation = null
	invalidateSelf()
	}
	})
	start()
	}
	}
	invalidateSelf()
	}

	private var rippleAnimation: Animator? = null

	/**
	* Draw background and gradient.
	*/
	override fun draw(canvas: Canvas) {
	val radius = lerp(rippleData.minSize, rippleData.maxSize, rippleData.progress)
	val centerColor =
	ColorUtils.setAlphaComponent(highlightColor, (rippleData.alpha * 255).toInt())
	paint.shader = RadialGradient(rippleData.x, rippleData.y, radius,
	intArrayOf(centerColor, Color.TRANSPARENT), GRADIENT_STOPS, Shader.TileMode.CLAMP)
	canvas.drawCircle(rippleData.x, rippleData.y, radius, paint)
	}

	override fun getOutline(outline: Outline) {
	// No bounds, parent will clip it
	}

	override fun getOpacity(): Int {
	return PixelFormat.TRANSPARENT
	}

	override fun inflate(
	r: Resources,
	parser: XmlPullParser,
	attrs: AttributeSet,
	theme: Resources.Theme?
	) {
	val a = obtainAttributes(r, theme, attrs, R.styleable.IlluminationDrawable)
	themeAttrs = a.extractThemeAttrs()
	updateStateFromTypedArray(a)
	a.recycle()
	}

	private fun updateStateFromTypedArray(a: TypedArray) {
	if (a.hasValue(R.styleable.IlluminationDrawable_rippleMinSize)) {
	rippleData.minSize = a.getDimension(R.styleable.IlluminationDrawable_rippleMinSize, 0f)
	}
	if (a.hasValue(R.styleable.IlluminationDrawable_rippleMaxSize)) {
	rippleData.maxSize = a.getDimension(R.styleable.IlluminationDrawable_rippleMaxSize, 0f)
	}
	if (a.hasValue(R.styleable.IlluminationDrawable_highlight)) {
	rippleData.highlight = a.getInteger(R.styleable.IlluminationDrawable_highlight, 0) /
	100f
	}
	}

	override fun canApplyTheme(): Boolean {
	return themeAttrs != null && themeAttrs!!.size > 0 \|\| super.canApplyTheme()
	}

	override fun applyTheme(t: Resources.Theme) {
	super.applyTheme(t)
	themeAttrs?.let {
	val a = t.resolveAttributes(it, R.styleable.IlluminationDrawable)
	updateStateFromTypedArray(a)
	a.recycle()
	}
	}

	override fun setColorFilter(p0: ColorFilter?) {
	throw UnsupportedOperationException("Color filters are not supported")
	}

	override fun setAlpha(value: Int) {
	throw UnsupportedOperationException("Alpha is not supported")
	}

	/**
	* Draws an animated ripple that expands fading away.
	*/
	private fun illuminate() {
	rippleData.alpha = 1f
	invalidateSelf()

	rippleAnimation?.cancel()
	rippleAnimation = AnimatorSet().apply {
	playTogether(ValueAnimator.ofFloat(1f, 0f).apply {
	startDelay = 133
	duration = RIPPLE_ANIM_DURATION - startDelay
	interpolator = Interpolators.LINEAR_OUT_SLOW_IN
	addUpdateListener {
	rippleData.alpha = it.animatedValue as Float
	invalidateSelf()
	}
	}, ValueAnimator.ofFloat(rippleData.progress, 1f).apply {
	duration = RIPPLE_ANIM_DURATION
	interpolator = Interpolators.LINEAR_OUT_SLOW_IN
	addUpdateListener {
	rippleData.progress = it.animatedValue as Float
	invalidateSelf()
	}
	})
	addListener(object : AnimatorListenerAdapter() {
	override fun onAnimationEnd(animation: Animator?) {
	rippleData.progress = 0f
	rippleAnimation = null
	invalidateSelf()
	}
	})
	start()
	}
	}

	override fun setHotspot(x: Float, y: Float) {
	rippleData.x = x
	rippleData.y = y
	if (active) {
	invalidateSelf()
	}
	}

	override fun isStateful(): Boolean {
	return true
	}

	override fun hasFocusStateSpecified(): Boolean {
	return true
	}

	override fun isProjected(): Boolean {
	return true
	}

	override fun getDirtyBounds(): Rect {
	val radius = lerp(rippleData.minSize, rippleData.maxSize, rippleData.progress)
	val bounds = Rect((rippleData.x - radius).toInt(), (rippleData.y - radius).toInt(),
	(rippleData.x + radius).toInt(), (rippleData.y + radius).toInt())
	bounds.union(super.getDirtyBounds())
	return bounds
	}

	override fun onStateChange(stateSet: IntArray?): Boolean {
	val changed = super.onStateChange(stateSet)
	if (stateSet == null) {
	return changed
	}

	val wasPressed = pressed
	var enabled = false
	pressed = false
	var focused = false
	var hovered = false

	for (state in stateSet) {
	when (state) {
	com.android.internal.R.attr.state_enabled -> {
	enabled = true
	}
	com.android.internal.R.attr.state_focused -> {
	focused = true
	}
	com.android.internal.R.attr.state_pressed -> {
	pressed = true
	}
	com.android.internal.R.attr.state_hovered -> {
	hovered = true
	}
	}
	}

	active = enabled && (pressed \|\| focused \|\| hovered)
	if (wasPressed && !pressed) {
	illuminate()
	}

	return changed
	}
	}