src/com/android/launcher3/graphics/IconShape.java - platform/packages/apps/Launcher3 - Git at Google

 /*
  * Copyright (C) 2018 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.launcher3.graphics;

 import static com.android.launcher3.icons.IconNormalizer.ICON_VISIBLE_AREA_FACTOR;

 import android.animation.Animator;
 import android.animation.AnimatorListenerAdapter;
 import android.animation.FloatArrayEvaluator;
 import android.animation.ValueAnimator;
 import android.animation.ValueAnimator.AnimatorUpdateListener;
 import android.annotation.TargetApi;
 import android.content.Context;
 import android.content.res.TypedArray;
 import android.content.res.XmlResourceParser;
 import android.graphics.Canvas;
 import android.graphics.Color;
 import android.graphics.Paint;
 import android.graphics.Path;
 import android.graphics.Rect;
 import android.graphics.Region;
 import android.graphics.Region.Op;
 import android.graphics.drawable.AdaptiveIconDrawable;
 import android.graphics.drawable.ColorDrawable;
 import android.os.Build;
 import android.util.AttributeSet;
 import android.util.Xml;
 import android.view.View;
 import android.view.ViewOutlineProvider;

 import com.android.launcher3.R;
 import com.android.launcher3.anim.RoundedRectRevealOutlineProvider;
 import com.android.launcher3.icons.GraphicsUtils;
 import com.android.launcher3.icons.IconNormalizer;
 import com.android.launcher3.views.ClipPathView;

 import org.xmlpull.v1.XmlPullParser;
 import org.xmlpull.v1.XmlPullParserException;

 import java.io.IOException;
 import java.util.ArrayList;
 import java.util.List;

 /**
  * Abstract representation of the shape of an icon shape
  */
 public abstract class IconShape {

     private static IconShape sInstance = new Circle();
     private static float sNormalizationScale = ICON_VISIBLE_AREA_FACTOR;

     public static IconShape getShape() {
         return sInstance;
     }

     public static float getNormalizationScale() {
         return sNormalizationScale;
     }

     public boolean enableShapeDetection(){
         return false;
     };

     public abstract void drawShape(Canvas canvas, float offsetX, float offsetY, float radius,
             Paint paint);

     public abstract void addToPath(Path path, float offsetX, float offsetY, float radius);

     public abstract <T extends View & ClipPathView> Animator createRevealAnimator(T target,
             Rect startRect, Rect endRect, float endRadius, boolean isReversed);

     /**
      * Abstract shape where the reveal animation is a derivative of a round rect animation
      */
     private static abstract class SimpleRectShape extends IconShape {

         @Override
         public final <T extends View & ClipPathView> Animator createRevealAnimator(T target,
                 Rect startRect, Rect endRect, float endRadius, boolean isReversed) {
             return new RoundedRectRevealOutlineProvider(
                     getStartRadius(startRect), endRadius, startRect, endRect) {
                 @Override
                 public boolean shouldRemoveElevationDuringAnimation() {
                     return true;
                 }
             }.createRevealAnimator(target, isReversed);
         }

         protected abstract float getStartRadius(Rect startRect);
     }

     /**
      * Abstract shape which draws using {@link Path}
      */
     private static abstract class PathShape extends IconShape {

         private final Path mTmpPath = new Path();

         @Override
         public final void drawShape(Canvas canvas, float offsetX, float offsetY, float radius,
                 Paint paint) {
             mTmpPath.reset();
             addToPath(mTmpPath, offsetX, offsetY, radius);
             canvas.drawPath(mTmpPath, paint);
         }

         protected abstract AnimatorUpdateListener newUpdateListener(
                 Rect startRect, Rect endRect, float endRadius, Path outPath);

         @Override
         public final <T extends View & ClipPathView> Animator createRevealAnimator(T target,
                 Rect startRect, Rect endRect, float endRadius, boolean isReversed) {
             Path path = new Path();
             AnimatorUpdateListener listener =
                     newUpdateListener(startRect, endRect, endRadius, path);

             ValueAnimator va =
                     isReversed ? ValueAnimator.ofFloat(1f, 0f) : ValueAnimator.ofFloat(0f, 1f);
             va.addListener(new AnimatorListenerAdapter() {
                 private ViewOutlineProvider mOldOutlineProvider;

                 public void onAnimationStart(Animator animation) {
                     mOldOutlineProvider = target.getOutlineProvider();
                     target.setOutlineProvider(null);

                     target.setTranslationZ(-target.getElevation());
                 }

                 public void onAnimationEnd(Animator animation) {
                     target.setTranslationZ(0);
                     target.setClipPath(null);
                     target.setOutlineProvider(mOldOutlineProvider);
                 }
             });

             va.addUpdateListener((anim) -> {
                 path.reset();
                 listener.onAnimationUpdate(anim);
                 target.setClipPath(path);
             });

             return va;
         }
     }

     public static final class Circle extends PathShape {

         private final float[] mTempRadii = new float[8];

         protected AnimatorUpdateListener newUpdateListener(Rect startRect, Rect endRect,
                 float endRadius, Path outPath) {
             float r1 = getStartRadius(startRect);

             float[] startValues = new float[] {
                     startRect.left, startRect.top, startRect.right, startRect.bottom, r1, r1};
             float[] endValues = new float[] {
                     endRect.left, endRect.top, endRect.right, endRect.bottom, endRadius, endRadius};

             FloatArrayEvaluator evaluator = new FloatArrayEvaluator(new float[6]);

             return (anim) -> {
                 float progress = (Float) anim.getAnimatedValue();
                 float[] values = evaluator.evaluate(progress, startValues, endValues);
                 outPath.addRoundRect(
                         values[0], values[1], values[2], values[3],
                         getRadiiArray(values[4], values[5]), Path.Direction.CW);
             };
         }

         private float[] getRadiiArray(float r1, float r2) {
             mTempRadii[0] = mTempRadii [1] = mTempRadii[2] = mTempRadii[3] =
                     mTempRadii[6] = mTempRadii[7] = r1;
             mTempRadii[4] = mTempRadii[5] = r2;
             return mTempRadii;
         }


         @Override
         public void addToPath(Path path, float offsetX, float offsetY, float radius) {
             path.addCircle(radius + offsetX, radius + offsetY, radius, Path.Direction.CW);
         }

         protected float getStartRadius(Rect startRect) {
             return startRect.width() / 2f;
         }

         @Override
         public boolean enableShapeDetection() {
             return true;
         }
     }

     public static class RoundedSquare extends SimpleRectShape {

         /**
          * Ratio of corner radius to half size.
          */
         private final float mRadiusRatio;

         public RoundedSquare(float radiusRatio) {
             mRadiusRatio = radiusRatio;
         }

         @Override
         public void drawShape(Canvas canvas, float offsetX, float offsetY, float radius, Paint p) {
             float cx = radius + offsetX;
             float cy = radius + offsetY;
             float cr = radius * mRadiusRatio;
             canvas.drawRoundRect(cx - radius, cy - radius, cx + radius, cy + radius, cr, cr, p);
         }

         @Override
         public void addToPath(Path path, float offsetX, float offsetY, float radius) {
             float cx = radius + offsetX;
             float cy = radius + offsetY;
             float cr = radius * mRadiusRatio;
             path.addRoundRect(cx - radius, cy - radius, cx + radius, cy + radius, cr, cr,
                     Path.Direction.CW);
         }

         @Override
         protected float getStartRadius(Rect startRect) {
             return (startRect.width() / 2f) * mRadiusRatio;
         }
     }

     public static class TearDrop extends PathShape {

         /**
          * Radio of short radius to large radius, based on the shape options defined in the config.
          */
         private final float mRadiusRatio;
         private final float[] mTempRadii = new float[8];

         public TearDrop(float radiusRatio) {
             mRadiusRatio = radiusRatio;
         }

         @Override
         public void addToPath(Path p, float offsetX, float offsetY, float r1) {
             float r2 = r1 * mRadiusRatio;
             float cx = r1 + offsetX;
             float cy = r1 + offsetY;

             p.addRoundRect(cx - r1, cy - r1, cx + r1, cy + r1, getRadiiArray(r1, r2),
                     Path.Direction.CW);
         }

         private float[] getRadiiArray(float r1, float r2) {
             mTempRadii[0] = mTempRadii [1] = mTempRadii[2] = mTempRadii[3] =
                     mTempRadii[6] = mTempRadii[7] = r1;
             mTempRadii[4] = mTempRadii[5] = r2;
             return mTempRadii;
         }

         @Override
         protected AnimatorUpdateListener newUpdateListener(Rect startRect, Rect endRect,
                 float endRadius, Path outPath) {
             float r1 = startRect.width() / 2f;
             float r2 = r1 * mRadiusRatio;

             float[] startValues = new float[] {
                     startRect.left, startRect.top, startRect.right, startRect.bottom, r1, r2};
             float[] endValues = new float[] {
                     endRect.left, endRect.top, endRect.right, endRect.bottom, endRadius, endRadius};

             FloatArrayEvaluator evaluator = new FloatArrayEvaluator(new float[6]);

             return (anim) -> {
                 float progress = (Float) anim.getAnimatedValue();
                 float[] values = evaluator.evaluate(progress, startValues, endValues);
                 outPath.addRoundRect(
                         values[0], values[1], values[2], values[3],
                         getRadiiArray(values[4], values[5]), Path.Direction.CW);
             };
         }
     }

     public static class Squircle extends PathShape {

         /**
          * Radio of radius to circle radius, based on the shape options defined in the config.
          */
         private final float mRadiusRatio;

         public Squircle(float radiusRatio) {
             mRadiusRatio = radiusRatio;
         }

         @Override
         public void addToPath(Path p, float offsetX, float offsetY, float r) {
             float cx = r + offsetX;
             float cy = r + offsetY;
             float control = r - r * mRadiusRatio;

             p.moveTo(cx, cy - r);
             addLeftCurve(cx, cy, r, control, p);
             addRightCurve(cx, cy, r, control, p);
             addLeftCurve(cx, cy, -r, -control, p);
             addRightCurve(cx, cy, -r, -control, p);
             p.close();
         }

         private void addLeftCurve(float cx, float cy, float r, float control, Path path) {
             path.cubicTo(
                     cx - control, cy - r,
                     cx - r, cy - control,
                     cx - r, cy);
         }

         private void addRightCurve(float cx, float cy, float r, float control, Path path) {
             path.cubicTo(
                     cx - r, cy + control,
                     cx - control, cy + r,
                     cx, cy + r);
         }

         @Override
         protected AnimatorUpdateListener newUpdateListener(Rect startRect, Rect endRect,
                 float endR, Path outPath) {

             float startCX = startRect.exactCenterX();
             float startCY = startRect.exactCenterY();
             float startR = startRect.width() / 2f;
             float startControl = startR - startR * mRadiusRatio;
             float startHShift = 0;
             float startVShift = 0;

             float endCX = endRect.exactCenterX();
             float endCY = endRect.exactCenterY();
             // Approximate corner circle using bezier curves
             // http://spencermortensen.com/articles/bezier-circle/
             float endControl = endR * 0.551915024494f;
             float endHShift = endRect.width() / 2f - endR;
             float endVShift = endRect.height() / 2f - endR;

             return (anim) -> {
                 float progress = (Float) anim.getAnimatedValue();

                 float cx = (1 - progress) * startCX + progress * endCX;
                 float cy = (1 - progress) * startCY + progress * endCY;
                 float r = (1 - progress) * startR + progress * endR;
                 float control = (1 - progress) * startControl + progress * endControl;
                 float hShift = (1 - progress) * startHShift + progress * endHShift;
                 float vShift = (1 - progress) * startVShift + progress * endVShift;

                 outPath.moveTo(cx, cy - vShift - r);
                 outPath.rLineTo(-hShift, 0);

                 addLeftCurve(cx - hShift, cy - vShift, r, control, outPath);
                 outPath.rLineTo(0, vShift + vShift);

                 addRightCurve(cx - hShift, cy + vShift, r, control, outPath);
                 outPath.rLineTo(hShift + hShift, 0);

                 addLeftCurve(cx + hShift, cy + vShift, -r, -control, outPath);
                 outPath.rLineTo(0, -vShift - vShift);

                 addRightCurve(cx + hShift, cy - vShift, -r, -control, outPath);
                 outPath.close();
             };
         }
     }

     /**
      * Initializes the shape which is closest to the {@link AdaptiveIconDrawable}
      */
     public static void init(Context context) {
         pickBestShape(context);
     }

     private static IconShape getShapeDefinition(String type, float radius) {
         switch (type) {
             case "Circle":
                 return new Circle();
             case "RoundedSquare":
                 return new RoundedSquare(radius);
             case "TearDrop":
                 return new TearDrop(radius);
             case "Squircle":
                 return new Squircle(radius);
             default:
                 throw new IllegalArgumentException("Invalid shape type: " + type);
         }
     }

     private static List<IconShape> getAllShapes(Context context) {
         ArrayList<IconShape> result = new ArrayList<>();
         try (XmlResourceParser parser = context.getResources().getXml(R.xml.folder_shapes)) {

             // Find the root tag
             int type;
             while ((type = parser.next()) != XmlPullParser.END_TAG
                     && type != XmlPullParser.END_DOCUMENT
                     && !"shapes".equals(parser.getName()));

             final int depth = parser.getDepth();
             int[] radiusAttr = new int[] {R.attr.folderIconRadius};

             while (((type = parser.next()) != XmlPullParser.END_TAG ||
                     parser.getDepth() > depth) && type != XmlPullParser.END_DOCUMENT) {

                 if (type == XmlPullParser.START_TAG) {
                     AttributeSet attrs = Xml.asAttributeSet(parser);
                     TypedArray a = context.obtainStyledAttributes(attrs, radiusAttr);
                     IconShape shape = getShapeDefinition(parser.getName(), a.getFloat(0, 1));
                     a.recycle();

                     result.add(shape);
                 }
             }
         } catch (IOException | XmlPullParserException e) {
             throw new RuntimeException(e);
         }
         return result;
     }

     @TargetApi(Build.VERSION_CODES.O)
     protected static void pickBestShape(Context context) {
         // Pick any large size
         final int size = 200;

         Region full = new Region(0, 0, size, size);
         Region iconR = new Region();
         AdaptiveIconDrawable drawable = new AdaptiveIconDrawable(
                 new ColorDrawable(Color.BLACK), new ColorDrawable(Color.BLACK));
         drawable.setBounds(0, 0, size, size);
         iconR.setPath(drawable.getIconMask(), full);

         Path shapePath = new Path();
         Region shapeR = new Region();

         // Find the shape with minimum area of divergent region.
         int minArea = Integer.MAX_VALUE;
         IconShape closestShape = null;
         for (IconShape shape : getAllShapes(context)) {
             shapePath.reset();
             shape.addToPath(shapePath, 0, 0, size / 2f);
             shapeR.setPath(shapePath, full);
             shapeR.op(iconR, Op.XOR);

             int area = GraphicsUtils.getArea(shapeR);
             if (area < minArea) {
                 minArea = area;
                 closestShape = shape;
             }
         }

         if (closestShape != null) {
             sInstance = closestShape;
         }

         // Initialize shape properties
         sNormalizationScale = IconNormalizer.normalizeAdaptiveIcon(drawable, size, null);
     }
 }
	/*
	* Copyright (C) 2018 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.launcher3.graphics;

	import static com.android.launcher3.icons.IconNormalizer.ICON_VISIBLE_AREA_FACTOR;

	import android.animation.Animator;
	import android.animation.AnimatorListenerAdapter;
	import android.animation.FloatArrayEvaluator;
	import android.animation.ValueAnimator;
	import android.animation.ValueAnimator.AnimatorUpdateListener;
	import android.annotation.TargetApi;
	import android.content.Context;
	import android.content.res.TypedArray;
	import android.content.res.XmlResourceParser;
	import android.graphics.Canvas;
	import android.graphics.Color;
	import android.graphics.Paint;
	import android.graphics.Path;
	import android.graphics.Rect;
	import android.graphics.Region;
	import android.graphics.Region.Op;
	import android.graphics.drawable.AdaptiveIconDrawable;
	import android.graphics.drawable.ColorDrawable;
	import android.os.Build;
	import android.util.AttributeSet;
	import android.util.Xml;
	import android.view.View;
	import android.view.ViewOutlineProvider;

	import com.android.launcher3.R;
	import com.android.launcher3.anim.RoundedRectRevealOutlineProvider;
	import com.android.launcher3.icons.GraphicsUtils;
	import com.android.launcher3.icons.IconNormalizer;
	import com.android.launcher3.views.ClipPathView;

	import org.xmlpull.v1.XmlPullParser;
	import org.xmlpull.v1.XmlPullParserException;

	import java.io.IOException;
	import java.util.ArrayList;
	import java.util.List;

	/**
	* Abstract representation of the shape of an icon shape
	*/
	public abstract class IconShape {

	private static IconShape sInstance = new Circle();
	private static float sNormalizationScale = ICON_VISIBLE_AREA_FACTOR;

	public static IconShape getShape() {
	return sInstance;
	}

	public static float getNormalizationScale() {
	return sNormalizationScale;
	}

	public boolean enableShapeDetection(){
	return false;
	};

	public abstract void drawShape(Canvas canvas, float offsetX, float offsetY, float radius,
	Paint paint);

	public abstract void addToPath(Path path, float offsetX, float offsetY, float radius);

	public abstract <T extends View & ClipPathView> Animator createRevealAnimator(T target,
	Rect startRect, Rect endRect, float endRadius, boolean isReversed);

	/**
	* Abstract shape where the reveal animation is a derivative of a round rect animation
	*/
	private static abstract class SimpleRectShape extends IconShape {

	@Override
	public final <T extends View & ClipPathView> Animator createRevealAnimator(T target,
	Rect startRect, Rect endRect, float endRadius, boolean isReversed) {
	return new RoundedRectRevealOutlineProvider(
	getStartRadius(startRect), endRadius, startRect, endRect) {
	@Override
	public boolean shouldRemoveElevationDuringAnimation() {
	return true;
	}
	}.createRevealAnimator(target, isReversed);
	}

	protected abstract float getStartRadius(Rect startRect);
	}

	/**
	* Abstract shape which draws using {@link Path}
	*/
	private static abstract class PathShape extends IconShape {

	private final Path mTmpPath = new Path();

	@Override
	public final void drawShape(Canvas canvas, float offsetX, float offsetY, float radius,
	Paint paint) {
	mTmpPath.reset();
	addToPath(mTmpPath, offsetX, offsetY, radius);
	canvas.drawPath(mTmpPath, paint);
	}

	protected abstract AnimatorUpdateListener newUpdateListener(
	Rect startRect, Rect endRect, float endRadius, Path outPath);

	@Override
	public final <T extends View & ClipPathView> Animator createRevealAnimator(T target,
	Rect startRect, Rect endRect, float endRadius, boolean isReversed) {
	Path path = new Path();
	AnimatorUpdateListener listener =
	newUpdateListener(startRect, endRect, endRadius, path);

	ValueAnimator va =
	isReversed ? ValueAnimator.ofFloat(1f, 0f) : ValueAnimator.ofFloat(0f, 1f);
	va.addListener(new AnimatorListenerAdapter() {
	private ViewOutlineProvider mOldOutlineProvider;

	public void onAnimationStart(Animator animation) {
	mOldOutlineProvider = target.getOutlineProvider();
	target.setOutlineProvider(null);

	target.setTranslationZ(-target.getElevation());
	}

	public void onAnimationEnd(Animator animation) {
	target.setTranslationZ(0);
	target.setClipPath(null);
	target.setOutlineProvider(mOldOutlineProvider);
	}
	});

	va.addUpdateListener((anim) -> {
	path.reset();
	listener.onAnimationUpdate(anim);
	target.setClipPath(path);
	});

	return va;
	}
	}

	public static final class Circle extends PathShape {

	private final float[] mTempRadii = new float[8];

	protected AnimatorUpdateListener newUpdateListener(Rect startRect, Rect endRect,
	float endRadius, Path outPath) {
	float r1 = getStartRadius(startRect);

	float[] startValues = new float[] {
	startRect.left, startRect.top, startRect.right, startRect.bottom, r1, r1};
	float[] endValues = new float[] {
	endRect.left, endRect.top, endRect.right, endRect.bottom, endRadius, endRadius};

	FloatArrayEvaluator evaluator = new FloatArrayEvaluator(new float[6]);

	return (anim) -> {
	float progress = (Float) anim.getAnimatedValue();
	float[] values = evaluator.evaluate(progress, startValues, endValues);
	outPath.addRoundRect(
	values[0], values[1], values[2], values[3],
	getRadiiArray(values[4], values[5]), Path.Direction.CW);
	};
	}

	private float[] getRadiiArray(float r1, float r2) {
	mTempRadii[0] = mTempRadii [1] = mTempRadii[2] = mTempRadii[3] =
	mTempRadii[6] = mTempRadii[7] = r1;
	mTempRadii[4] = mTempRadii[5] = r2;
	return mTempRadii;
	}


	@Override
	public void addToPath(Path path, float offsetX, float offsetY, float radius) {
	path.addCircle(radius + offsetX, radius + offsetY, radius, Path.Direction.CW);
	}

	protected float getStartRadius(Rect startRect) {
	return startRect.width() / 2f;
	}

	@Override
	public boolean enableShapeDetection() {
	return true;
	}
	}

	public static class RoundedSquare extends SimpleRectShape {

	/**
	* Ratio of corner radius to half size.
	*/
	private final float mRadiusRatio;

	public RoundedSquare(float radiusRatio) {
	mRadiusRatio = radiusRatio;
	}

	@Override
	public void drawShape(Canvas canvas, float offsetX, float offsetY, float radius, Paint p) {
	float cx = radius + offsetX;
	float cy = radius + offsetY;
	float cr = radius * mRadiusRatio;
	canvas.drawRoundRect(cx - radius, cy - radius, cx + radius, cy + radius, cr, cr, p);
	}

	@Override
	public void addToPath(Path path, float offsetX, float offsetY, float radius) {
	float cx = radius + offsetX;
	float cy = radius + offsetY;
	float cr = radius * mRadiusRatio;
	path.addRoundRect(cx - radius, cy - radius, cx + radius, cy + radius, cr, cr,
	Path.Direction.CW);
	}

	@Override
	protected float getStartRadius(Rect startRect) {
	return (startRect.width() / 2f) * mRadiusRatio;
	}
	}

	public static class TearDrop extends PathShape {

	/**
	* Radio of short radius to large radius, based on the shape options defined in the config.
	*/
	private final float mRadiusRatio;
	private final float[] mTempRadii = new float[8];

	public TearDrop(float radiusRatio) {
	mRadiusRatio = radiusRatio;
	}

	@Override
	public void addToPath(Path p, float offsetX, float offsetY, float r1) {
	float r2 = r1 * mRadiusRatio;
	float cx = r1 + offsetX;
	float cy = r1 + offsetY;

	p.addRoundRect(cx - r1, cy - r1, cx + r1, cy + r1, getRadiiArray(r1, r2),
	Path.Direction.CW);
	}

	private float[] getRadiiArray(float r1, float r2) {
	mTempRadii[0] = mTempRadii [1] = mTempRadii[2] = mTempRadii[3] =
	mTempRadii[6] = mTempRadii[7] = r1;
	mTempRadii[4] = mTempRadii[5] = r2;
	return mTempRadii;
	}

	@Override
	protected AnimatorUpdateListener newUpdateListener(Rect startRect, Rect endRect,
	float endRadius, Path outPath) {
	float r1 = startRect.width() / 2f;
	float r2 = r1 * mRadiusRatio;

	float[] startValues = new float[] {
	startRect.left, startRect.top, startRect.right, startRect.bottom, r1, r2};
	float[] endValues = new float[] {
	endRect.left, endRect.top, endRect.right, endRect.bottom, endRadius, endRadius};

	FloatArrayEvaluator evaluator = new FloatArrayEvaluator(new float[6]);

	return (anim) -> {
	float progress = (Float) anim.getAnimatedValue();
	float[] values = evaluator.evaluate(progress, startValues, endValues);
	outPath.addRoundRect(
	values[0], values[1], values[2], values[3],
	getRadiiArray(values[4], values[5]), Path.Direction.CW);
	};
	}
	}

	public static class Squircle extends PathShape {

	/**
	* Radio of radius to circle radius, based on the shape options defined in the config.
	*/
	private final float mRadiusRatio;

	public Squircle(float radiusRatio) {
	mRadiusRatio = radiusRatio;
	}

	@Override
	public void addToPath(Path p, float offsetX, float offsetY, float r) {
	float cx = r + offsetX;
	float cy = r + offsetY;
	float control = r - r * mRadiusRatio;

	p.moveTo(cx, cy - r);
	addLeftCurve(cx, cy, r, control, p);
	addRightCurve(cx, cy, r, control, p);
	addLeftCurve(cx, cy, -r, -control, p);
	addRightCurve(cx, cy, -r, -control, p);
	p.close();
	}

	private void addLeftCurve(float cx, float cy, float r, float control, Path path) {
	path.cubicTo(
	cx - control, cy - r,
	cx - r, cy - control,
	cx - r, cy);
	}

	private void addRightCurve(float cx, float cy, float r, float control, Path path) {
	path.cubicTo(
	cx - r, cy + control,
	cx - control, cy + r,
	cx, cy + r);
	}

	@Override
	protected AnimatorUpdateListener newUpdateListener(Rect startRect, Rect endRect,
	float endR, Path outPath) {

	float startCX = startRect.exactCenterX();
	float startCY = startRect.exactCenterY();
	float startR = startRect.width() / 2f;
	float startControl = startR - startR * mRadiusRatio;
	float startHShift = 0;
	float startVShift = 0;

	float endCX = endRect.exactCenterX();
	float endCY = endRect.exactCenterY();
	// Approximate corner circle using bezier curves
	// http://spencermortensen.com/articles/bezier-circle/
	float endControl = endR * 0.551915024494f;
	float endHShift = endRect.width() / 2f - endR;
	float endVShift = endRect.height() / 2f - endR;

	return (anim) -> {
	float progress = (Float) anim.getAnimatedValue();

	float cx = (1 - progress) * startCX + progress * endCX;
	float cy = (1 - progress) * startCY + progress * endCY;
	float r = (1 - progress) * startR + progress * endR;
	float control = (1 - progress) * startControl + progress * endControl;
	float hShift = (1 - progress) * startHShift + progress * endHShift;
	float vShift = (1 - progress) * startVShift + progress * endVShift;

	outPath.moveTo(cx, cy - vShift - r);
	outPath.rLineTo(-hShift, 0);

	addLeftCurve(cx - hShift, cy - vShift, r, control, outPath);
	outPath.rLineTo(0, vShift + vShift);

	addRightCurve(cx - hShift, cy + vShift, r, control, outPath);
	outPath.rLineTo(hShift + hShift, 0);

	addLeftCurve(cx + hShift, cy + vShift, -r, -control, outPath);
	outPath.rLineTo(0, -vShift - vShift);

	addRightCurve(cx + hShift, cy - vShift, -r, -control, outPath);
	outPath.close();
	};
	}
	}

	/**
	* Initializes the shape which is closest to the {@link AdaptiveIconDrawable}
	*/
	public static void init(Context context) {
	pickBestShape(context);
	}

	private static IconShape getShapeDefinition(String type, float radius) {
	switch (type) {
	case "Circle":
	return new Circle();
	case "RoundedSquare":
	return new RoundedSquare(radius);
	case "TearDrop":
	return new TearDrop(radius);
	case "Squircle":
	return new Squircle(radius);
	default:
	throw new IllegalArgumentException("Invalid shape type: " + type);
	}
	}

	private static List<IconShape> getAllShapes(Context context) {
	ArrayList<IconShape> result = new ArrayList<>();
	try (XmlResourceParser parser = context.getResources().getXml(R.xml.folder_shapes)) {

	// Find the root tag
	int type;
	while ((type = parser.next()) != XmlPullParser.END_TAG
	&& type != XmlPullParser.END_DOCUMENT
	&& !"shapes".equals(parser.getName()));

	final int depth = parser.getDepth();
	int[] radiusAttr = new int[] {R.attr.folderIconRadius};

	while (((type = parser.next()) != XmlPullParser.END_TAG \|\|
	parser.getDepth() > depth) && type != XmlPullParser.END_DOCUMENT) {

	if (type == XmlPullParser.START_TAG) {
	AttributeSet attrs = Xml.asAttributeSet(parser);
	TypedArray a = context.obtainStyledAttributes(attrs, radiusAttr);
	IconShape shape = getShapeDefinition(parser.getName(), a.getFloat(0, 1));
	a.recycle();

	result.add(shape);
	}
	}
	} catch (IOException \| XmlPullParserException e) {
	throw new RuntimeException(e);
	}
	return result;
	}

	@TargetApi(Build.VERSION_CODES.O)
	protected static void pickBestShape(Context context) {
	// Pick any large size
	final int size = 200;

	Region full = new Region(0, 0, size, size);
	Region iconR = new Region();
	AdaptiveIconDrawable drawable = new AdaptiveIconDrawable(
	new ColorDrawable(Color.BLACK), new ColorDrawable(Color.BLACK));
	drawable.setBounds(0, 0, size, size);
	iconR.setPath(drawable.getIconMask(), full);

	Path shapePath = new Path();
	Region shapeR = new Region();

	// Find the shape with minimum area of divergent region.
	int minArea = Integer.MAX_VALUE;
	IconShape closestShape = null;
	for (IconShape shape : getAllShapes(context)) {
	shapePath.reset();
	shape.addToPath(shapePath, 0, 0, size / 2f);
	shapeR.setPath(shapePath, full);
	shapeR.op(iconR, Op.XOR);

	int area = GraphicsUtils.getArea(shapeR);
	if (area < minArea) {
	minArea = area;
	closestShape = shape;
	}
	}

	if (closestShape != null) {
	sInstance = closestShape;
	}

	// Initialize shape properties
	sNormalizationScale = IconNormalizer.normalizeAdaptiveIcon(drawable, size, null);
	}
	}