public class

PropertyValuesHolder

extends java.lang.Object

implements java.lang.Cloneable

 java.lang.Object

↳androidx.core.animation.PropertyValuesHolder

Gradle dependencies

compile group: 'androidx.core', name: 'core-animation', version: '1.0.0'

  • groupId: androidx.core
  • artifactId: core-animation
  • version: 1.0.0

Artifact androidx.core:core-animation:1.0.0 it located at Google repository (https://maven.google.com/)

Overview

This class holds information about a property and the values that that property should take on during an animation. PropertyValuesHolder objects can be used to create animations with ValueAnimator or ObjectAnimator that operate on several different properties in parallel.

Summary

Methods
public PropertyValuesHolderclone()

public java.lang.StringgetPropertyName()

Gets the name of the property that will be animated.

public static PropertyValuesHolderofFloat(<any> property, float[] values[])

Constructs and returns a PropertyValuesHolder with a given property and set of float values.

public static PropertyValuesHolderofFloat(java.lang.String propertyName, float[] values[])

Constructs and returns a PropertyValuesHolder with a given property name and set of float values.

public static PropertyValuesHolderofInt(<any> property, int[] values[])

Constructs and returns a PropertyValuesHolder with a given property and set of int values.

public static PropertyValuesHolderofInt(java.lang.String propertyName, int[] values[])

Constructs and returns a PropertyValuesHolder with a given property name and set of int values.

public static PropertyValuesHolderofKeyframe(Property property, Keyframe values[])

Constructs and returns a PropertyValuesHolder object with the specified property and set of values.

public static PropertyValuesHolderofKeyframe(java.lang.String propertyName, Keyframe values[])

Constructs and returns a PropertyValuesHolder object with the specified property name and set of values.

public static PropertyValuesHolderofMultiFloat(java.lang.String propertyName, float[][] values[][])

Constructs and returns a PropertyValuesHolder with a given property name and set of float[] values.

public static PropertyValuesHolderofMultiFloat(java.lang.String propertyName, Path path)

Constructs and returns a PropertyValuesHolder with a given property name to use as a multi-float setter.

public static PropertyValuesHolderofMultiFloat(java.lang.String propertyName, TypeConverter<java.lang.Object, UnknownReference> converter, TypeEvaluator<java.lang.Object> evaluator, Keyframe values[])

Constructs and returns a PropertyValuesHolder object with the specified property name or setter name for use in a multi-float setter function using ObjectAnimator.

public static PropertyValuesHolderofMultiFloat(java.lang.String propertyName, TypeConverter<java.lang.Object, UnknownReference> converter, TypeEvaluator<java.lang.Object> evaluator, java.lang.Object values[])

Constructs and returns a PropertyValuesHolder with a given property and set of Object values for use with ObjectAnimator multi-value setters.

public static PropertyValuesHolderofMultiInt(java.lang.String propertyName, int[][] values[][])

Constructs and returns a PropertyValuesHolder with a given property name and set of int[] values.

public static PropertyValuesHolderofMultiInt(java.lang.String propertyName, Path path)

Constructs and returns a PropertyValuesHolder with a given property name to use as a multi-int setter.

public static PropertyValuesHolderofMultiInt(java.lang.String propertyName, TypeConverter<java.lang.Object, UnknownReference> converter, TypeEvaluator<java.lang.Object> evaluator, Keyframe values[])

Constructs and returns a PropertyValuesHolder object with the specified property name or setter name for use in a multi-int setter function using ObjectAnimator.

public static PropertyValuesHolderofMultiInt(java.lang.String propertyName, TypeConverter<java.lang.Object, UnknownReference> converter, TypeEvaluator<java.lang.Object> evaluator, java.lang.Object values[])

Constructs and returns a PropertyValuesHolder with a given property and set of Object values for use with ObjectAnimator multi-value setters.

public static PropertyValuesHolderofObject(<any> property, TypeConverter<PointF, java.lang.Object> converter, Path path)

Constructs and returns a PropertyValuesHolder with a given property and a Path along which the values should be animated.

public static PropertyValuesHolderofObject(<any> property, TypeConverter<java.lang.Object, java.lang.Object> converter, TypeEvaluator<java.lang.Object> evaluator, java.lang.Object values[])

Constructs and returns a PropertyValuesHolder with a given property and set of Object values.

public static PropertyValuesHolderofObject(Property property, TypeEvaluator<java.lang.Object> evaluator, java.lang.Object values[])

Constructs and returns a PropertyValuesHolder with a given property and set of Object values.

public static PropertyValuesHolderofObject(java.lang.String propertyName, TypeConverter<PointF, java.lang.Object> converter, Path path)

Constructs and returns a PropertyValuesHolder with a given property name and a Path along which the values should be animated.

public static PropertyValuesHolderofObject(java.lang.String propertyName, TypeEvaluator evaluator, java.lang.Object values[])

Constructs and returns a PropertyValuesHolder with a given property name and set of Object values.

public voidsetConverter(TypeConverter converter)

Sets the converter to convert from the values type to the setter's parameter type.

public voidsetEvaluator(TypeEvaluator evaluator)

The TypeEvaluator will be automatically determined based on the type of values supplied to PropertyValuesHolder.

public voidsetFloatValues(float[] values[])

Set the animated values for this object to this set of floats.

public voidsetIntValues(int[] values[])

Set the animated values for this object to this set of ints.

public voidsetKeyframes(Keyframe values[])

Set the animated values for this object to this set of Keyframes.

public voidsetObjectValues(java.lang.Object values[])

Set the animated values for this object to this set of Objects.

public voidsetProperty(Property property)

Sets the property that will be animated.

public voidsetPropertyName(java.lang.String propertyName)

Sets the name of the property that will be animated.

public java.lang.StringtoString()

from java.lang.Objectequals, finalize, getClass, hashCode, notify, notifyAll, wait, wait, wait

Methods

public static PropertyValuesHolder ofInt(java.lang.String propertyName, int[] values[])

Constructs and returns a PropertyValuesHolder with a given property name and set of int values.

Parameters:

propertyName: The name of the property being animated.
values: The values that the named property will animate between.

Returns:

PropertyValuesHolder The constructed PropertyValuesHolder object.

public static PropertyValuesHolder ofInt(<any> property, int[] values[])

Constructs and returns a PropertyValuesHolder with a given property and set of int values.

Parameters:

property: The property being animated. Should not be null.
values: The values that the property will animate between.

Returns:

PropertyValuesHolder The constructed PropertyValuesHolder object.

public static PropertyValuesHolder ofMultiInt(java.lang.String propertyName, int[][] values[][])

Constructs and returns a PropertyValuesHolder with a given property name and set of int[] values. At least two int[] values must be supplied, a start and end value. If more values are supplied, the values will be animated from the start, through all intermediate values to the end value. When used with ObjectAnimator, the elements of the array represent the parameters of the setter function.

Parameters:

propertyName: The name of the property being animated. Can also be the case-sensitive name of the entire setter method. Should not be null.
values: The values that the property will animate between.

Returns:

PropertyValuesHolder The constructed PropertyValuesHolder object.

See also: IntArrayEvaluator.IntArrayEvaluator(int[]), ObjectAnimator.ofMultiInt(Object, String, TypeConverter, TypeEvaluator, T...)

public static PropertyValuesHolder ofMultiInt(java.lang.String propertyName, Path path)

Constructs and returns a PropertyValuesHolder with a given property name to use as a multi-int setter. The values are animated along the path, with the first parameter of the setter set to the x coordinate and the second set to the y coordinate.

Parameters:

propertyName: The name of the property being animated. Can also be the case-sensitive name of the entire setter method. Should not be null. The setter must take exactly two int parameters.
path: The Path along which the values should be animated.

Returns:

PropertyValuesHolder The constructed PropertyValuesHolder object.

See also: ObjectAnimator.ofPropertyValuesHolder(Object, PropertyValuesHolder...)

public static PropertyValuesHolder ofMultiInt(java.lang.String propertyName, TypeConverter<java.lang.Object, UnknownReference> converter, TypeEvaluator<java.lang.Object> evaluator, java.lang.Object values[])

Constructs and returns a PropertyValuesHolder with a given property and set of Object values for use with ObjectAnimator multi-value setters. The Object values are converted to int[] using the converter.

Parameters:

propertyName: The property being animated or complete name of the setter. Should not be null.
converter: Used to convert the animated value to setter parameters.
evaluator: A TypeEvaluator that will be called on each animation frame to provide the necessary interpolation between the Object values to derive the animated value.
values: The values that the property will animate between.

Returns:

PropertyValuesHolder The constructed PropertyValuesHolder object.

See also: ObjectAnimator.ofMultiInt(Object, String, TypeConverter, TypeEvaluator, T...), ObjectAnimator.ofPropertyValuesHolder(Object, PropertyValuesHolder...)

public static PropertyValuesHolder ofMultiInt(java.lang.String propertyName, TypeConverter<java.lang.Object, UnknownReference> converter, TypeEvaluator<java.lang.Object> evaluator, Keyframe values[])

Constructs and returns a PropertyValuesHolder object with the specified property name or setter name for use in a multi-int setter function using ObjectAnimator. The values can be of any type, but the type should be consistent so that the supplied TypeEvaluator can be used to to evaluate the animated value. The converter converts the values to parameters in the setter function.

At least two values must be supplied, a start and an end value.

Parameters:

propertyName: The name of the property to associate with the set of values. This may also be the complete name of a setter function.
converter: Converts values into int parameters for the setter. Can be null if the Keyframes have int[] values.
evaluator: Used to interpolate between values.
values: The values at specific fractional times to evaluate between

Returns:

A PropertyValuesHolder for a multi-int parameter setter.

public static PropertyValuesHolder ofFloat(java.lang.String propertyName, float[] values[])

Constructs and returns a PropertyValuesHolder with a given property name and set of float values.

Parameters:

propertyName: The name of the property being animated.
values: The values that the named property will animate between.

Returns:

PropertyValuesHolder The constructed PropertyValuesHolder object.

public static PropertyValuesHolder ofFloat(<any> property, float[] values[])

Constructs and returns a PropertyValuesHolder with a given property and set of float values.

Parameters:

property: The property being animated. Should not be null.
values: The values that the property will animate between.

Returns:

PropertyValuesHolder The constructed PropertyValuesHolder object.

public static PropertyValuesHolder ofMultiFloat(java.lang.String propertyName, float[][] values[][])

Constructs and returns a PropertyValuesHolder with a given property name and set of float[] values. At least two float[] values must be supplied, a start and end value. If more values are supplied, the values will be animated from the start, through all intermediate values to the end value. When used with ObjectAnimator, the elements of the array represent the parameters of the setter function.

Parameters:

propertyName: The name of the property being animated. Can also be the case-sensitive name of the entire setter method. Should not be null.
values: The values that the property will animate between.

Returns:

PropertyValuesHolder The constructed PropertyValuesHolder object.

See also: FloatArrayEvaluator.FloatArrayEvaluator(float[]), ObjectAnimator.ofMultiFloat(Object, String, TypeConverter, TypeEvaluator, T...)

public static PropertyValuesHolder ofMultiFloat(java.lang.String propertyName, Path path)

Constructs and returns a PropertyValuesHolder with a given property name to use as a multi-float setter. The values are animated along the path, with the first parameter of the setter set to the x coordinate and the second set to the y coordinate.

Parameters:

propertyName: The name of the property being animated. Can also be the case-sensitive name of the entire setter method. Should not be null. The setter must take exactly two float parameters.
path: The Path along which the values should be animated.

Returns:

PropertyValuesHolder The constructed PropertyValuesHolder object.

See also: ObjectAnimator.ofPropertyValuesHolder(Object, PropertyValuesHolder...)

public static PropertyValuesHolder ofMultiFloat(java.lang.String propertyName, TypeConverter<java.lang.Object, UnknownReference> converter, TypeEvaluator<java.lang.Object> evaluator, java.lang.Object values[])

Constructs and returns a PropertyValuesHolder with a given property and set of Object values for use with ObjectAnimator multi-value setters. The Object values are converted to float[] using the converter.

Parameters:

propertyName: The property being animated or complete name of the setter. Should not be null.
converter: Used to convert the animated value to setter parameters.
evaluator: A TypeEvaluator that will be called on each animation frame to provide the necessary interpolation between the Object values to derive the animated value.
values: The values that the property will animate between.

Returns:

PropertyValuesHolder The constructed PropertyValuesHolder object.

See also: ObjectAnimator.ofMultiFloat(Object, String, TypeConverter, TypeEvaluator, T...)

public static PropertyValuesHolder ofMultiFloat(java.lang.String propertyName, TypeConverter<java.lang.Object, UnknownReference> converter, TypeEvaluator<java.lang.Object> evaluator, Keyframe values[])

Constructs and returns a PropertyValuesHolder object with the specified property name or setter name for use in a multi-float setter function using ObjectAnimator. The values can be of any type, but the type should be consistent so that the supplied TypeEvaluator can be used to to evaluate the animated value. The converter converts the values to parameters in the setter function.

At least two values must be supplied, a start and an end value.

Parameters:

propertyName: The name of the property to associate with the set of values. This may also be the complete name of a setter function.
converter: Converts values into float parameters for the setter. Can be null if the Keyframes have float[] values.
evaluator: Used to interpolate between values.
values: The values at specific fractional times to evaluate between

Returns:

A PropertyValuesHolder for a multi-float parameter setter.

public static PropertyValuesHolder ofObject(java.lang.String propertyName, TypeEvaluator evaluator, java.lang.Object values[])

Constructs and returns a PropertyValuesHolder with a given property name and set of Object values. This variant also takes a TypeEvaluator because the system cannot automatically interpolate between objects of unknown type.

Note: The Object values are stored as references to the original objects, which means that changes to those objects after this method is called will affect the values on the PropertyValuesHolder. If the objects will be mutated externally after this method is called, callers should pass a copy of those objects instead.

Parameters:

propertyName: The name of the property being animated.
evaluator: A TypeEvaluator that will be called on each animation frame to provide the necessary interpolation between the Object values to derive the animated value.
values: The values that the named property will animate between.

Returns:

PropertyValuesHolder The constructed PropertyValuesHolder object.

public static PropertyValuesHolder ofObject(java.lang.String propertyName, TypeConverter<PointF, java.lang.Object> converter, Path path)

Constructs and returns a PropertyValuesHolder with a given property name and a Path along which the values should be animated. This variant supports a TypeConverter to convert from PointF to the target type.

The PointF passed to converter or property, if converter is null, is reused on each animation frame and should not be stored by the setter or TypeConverter.

Parameters:

propertyName: The name of the property being animated.
converter: Converts a PointF to the type associated with the setter. May be null if conversion is unnecessary.
path: The Path along which the values should be animated.

Returns:

PropertyValuesHolder The constructed PropertyValuesHolder object.

public static PropertyValuesHolder ofObject(Property property, TypeEvaluator<java.lang.Object> evaluator, java.lang.Object values[])

Constructs and returns a PropertyValuesHolder with a given property and set of Object values. This variant also takes a TypeEvaluator because the system cannot automatically interpolate between objects of unknown type.

Note: The Object values are stored as references to the original objects, which means that changes to those objects after this method is called will affect the values on the PropertyValuesHolder. If the objects will be mutated externally after this method is called, callers should pass a copy of those objects instead.

Parameters:

property: The property being animated. Should not be null.
evaluator: A TypeEvaluator that will be called on each animation frame to provide the necessary interpolation between the Object values to derive the animated value.
values: The values that the property will animate between.

Returns:

PropertyValuesHolder The constructed PropertyValuesHolder object.

public static PropertyValuesHolder ofObject(<any> property, TypeConverter<java.lang.Object, java.lang.Object> converter, TypeEvaluator<java.lang.Object> evaluator, java.lang.Object values[])

Constructs and returns a PropertyValuesHolder with a given property and set of Object values. This variant also takes a TypeEvaluator because the system cannot automatically interpolate between objects of unknown type. This variant also takes a TypeConverter to convert from animated values to the type of the property. If only one value is supplied, the TypeConverter must be a BidirectionalTypeConverter to retrieve the current value.

Note: The Object values are stored as references to the original objects, which means that changes to those objects after this method is called will affect the values on the PropertyValuesHolder. If the objects will be mutated externally after this method is called, callers should pass a copy of those objects instead.

Parameters:

property: The property being animated. Should not be null.
converter: Converts the animated object to the Property type.
evaluator: A TypeEvaluator that will be called on each animation frame to provide the necessary interpolation between the Object values to derive the animated value.
values: The values that the property will animate between.

Returns:

PropertyValuesHolder The constructed PropertyValuesHolder object.

See also: PropertyValuesHolder.setConverter(TypeConverter), TypeConverter

public static PropertyValuesHolder ofObject(<any> property, TypeConverter<PointF, java.lang.Object> converter, Path path)

Constructs and returns a PropertyValuesHolder with a given property and a Path along which the values should be animated. This variant supports a TypeConverter to convert from PointF to the target type.

The PointF passed to converter or property, if converter is null, is reused on each animation frame and should not be stored by the setter or TypeConverter.

Parameters:

property: The property being animated. Should not be null.
converter: Converts a PointF to the type associated with the setter. May be null if conversion is unnecessary.
path: The Path along which the values should be animated.

Returns:

PropertyValuesHolder The constructed PropertyValuesHolder object.

public static PropertyValuesHolder ofKeyframe(java.lang.String propertyName, Keyframe values[])

Constructs and returns a PropertyValuesHolder object with the specified property name and set of values. These values can be of any type, but the type should be consistent so that an appropriate TypeEvaluator can be found that matches the common type.

If there is only one value, it is assumed to be the end value of an animation, and an initial value will be derived, if possible, by calling a getter function on the object. Also, if any value is null, the value will be filled in when the animation starts in the same way. This mechanism of automatically getting null values only works if the PropertyValuesHolder object is used in conjunction ObjectAnimator, and with a getter function derived automatically from propertyName, since otherwise PropertyValuesHolder has no way of determining what the value should be.

Parameters:

propertyName: The name of the property associated with this set of values. This can be the actual property name to be used when using a ObjectAnimator object, or just a name used to get animated values, such as if this object is used with an ValueAnimator object.
values: The set of values to animate between.

public static PropertyValuesHolder ofKeyframe(Property property, Keyframe values[])

Constructs and returns a PropertyValuesHolder object with the specified property and set of values. These values can be of any type, but the type should be consistent so that an appropriate TypeEvaluator can be found that matches the common type.

If there is only one value, it is assumed to be the end value of an animation, and an initial value will be derived, if possible, by calling the property's function. Also, if any value is null, the value will be filled in when the animation starts in the same way. This mechanism of automatically getting null values only works if the PropertyValuesHolder object is used in conjunction with ObjectAnimator, since otherwise PropertyValuesHolder has no way of determining what the value should be.

Parameters:

property: The property associated with this set of values. Should not be null.
values: The set of values to animate between.

public void setIntValues(int[] values[])

Set the animated values for this object to this set of ints. If there is only one value, it is assumed to be the end value of an animation, and an initial value will be derived, if possible, by calling a getter function on the object. Also, if any value is null, the value will be filled in when the animation starts in the same way. This mechanism of automatically getting null values only works if the PropertyValuesHolder object is used in conjunction ObjectAnimator, and with a getter function derived automatically from propertyName, since otherwise PropertyValuesHolder has no way of determining what the value should be.

Parameters:

values: One or more values that the animation will animate between.

public void setFloatValues(float[] values[])

Set the animated values for this object to this set of floats. If there is only one value, it is assumed to be the end value of an animation, and an initial value will be derived, if possible, by calling a getter function on the object. Also, if any value is null, the value will be filled in when the animation starts in the same way. This mechanism of automatically getting null values only works if the PropertyValuesHolder object is used in conjunction ObjectAnimator, and with a getter function derived automatically from propertyName, since otherwise PropertyValuesHolder has no way of determining what the value should be.

Parameters:

values: One or more values that the animation will animate between.

public void setKeyframes(Keyframe values[])

Set the animated values for this object to this set of Keyframes.

Parameters:

values: One or more values that the animation will animate between.

public void setObjectValues(java.lang.Object values[])

Set the animated values for this object to this set of Objects. If there is only one value, it is assumed to be the end value of an animation, and an initial value will be derived, if possible, by calling a getter function on the object. Also, if any value is null, the value will be filled in when the animation starts in the same way. This mechanism of automatically getting null values only works if the PropertyValuesHolder object is used in conjunction ObjectAnimator, and with a getter function derived automatically from propertyName, since otherwise PropertyValuesHolder has no way of determining what the value should be.

Note: The Object values are stored as references to the original objects, which means that changes to those objects after this method is called will affect the values on the PropertyValuesHolder. If the objects will be mutated externally after this method is called, callers should pass a copy of those objects instead.

Parameters:

values: One or more values that the animation will animate between.

public void setConverter(TypeConverter converter)

Sets the converter to convert from the values type to the setter's parameter type. If only one value is supplied, converter must be a BidirectionalTypeConverter.

Parameters:

converter: The converter to use to convert values.

public PropertyValuesHolder clone()

public void setEvaluator(TypeEvaluator evaluator)

The TypeEvaluator will be automatically determined based on the type of values supplied to PropertyValuesHolder. The evaluator can be manually set, however, if so desired. This may be important in cases where either the type of the values supplied do not match the way that they should be interpolated between, or if the values are of a custom type or one not currently understood by the animation system. Currently, only values of type float and int (and their Object equivalents: Float and Integer) are correctly interpolated; all other types require setting a TypeEvaluator.

Parameters:

evaluator:

public void setPropertyName(java.lang.String propertyName)

Sets the name of the property that will be animated. This name is used to derive a setter function that will be called to set animated values. For example, a property name of foo will result in a call to the function setFoo() on the target object. If either valueFrom or valueTo is null, then a getter function will also be derived and called.

Note that the setter function derived from this property name must take the same parameter type as the valueFrom and valueTo properties, otherwise the call to the setter function will fail.

Parameters:

propertyName: The name of the property being animated.

public void setProperty(Property property)

Sets the property that will be animated.

Note that if this PropertyValuesHolder object is used with ObjectAnimator, the property must exist on the target object specified in that ObjectAnimator.

Parameters:

property: The property being animated.

public java.lang.String getPropertyName()

Gets the name of the property that will be animated. This name will be used to derive a setter function that will be called to set animated values. For example, a property name of foo will result in a call to the function setFoo() on the target object. If either valueFrom or valueTo is null, then a getter function will also be derived and called.

public java.lang.String toString()

Source

/*
 * Copyright 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 androidx.core.animation;

import android.annotation.SuppressLint;
import android.graphics.Path;
import android.graphics.PointF;
import android.util.Log;
import android.util.Property;

import androidx.annotation.NonNull;
import androidx.annotation.Nullable;

import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.util.HashMap;
import java.util.List;

/**
 * This class holds information about a property and the values that that property
 * should take on during an animation. PropertyValuesHolder objects can be used to create
 * animations with ValueAnimator or ObjectAnimator that operate on several different properties
 * in parallel.
 */
@SuppressWarnings("unchecked")
public class PropertyValuesHolder implements Cloneable {

    /**
     * The name of the property associated with the values. This need not be a real property,
     * unless this object is being used with ObjectAnimator. But this is the name by which
     * aniamted values are looked up with getAnimatedValue(String) in ValueAnimator.
     */
    String mPropertyName;

    Property mProperty;

    /**
     * The setter function, if needed. ObjectAnimator hands off this functionality to
     * PropertyValuesHolder, since it holds all of the per-property information. This
     * property is automatically
     * derived when the animation starts in setupSetterAndGetter() if using ObjectAnimator.
     */
    Method mSetter = null;

    /**
     * The getter function, if needed. ObjectAnimator hands off this functionality to
     * PropertyValuesHolder, since it holds all of the per-property information. This
     * property is automatically
     * derived when the animation starts in setupSetterAndGetter() if using ObjectAnimator.
     * The getter is only derived and used if one of the values is null.
     */
    private Method mGetter = null;

    /**
     * The type of values supplied. This information is used both in deriving the setter/getter
     * functions and in deriving the type of TypeEvaluator.
     */
    Class<?> mValueType;

    /**
     * The set of keyframes (time/value pairs) that define this animation.
     */
    Keyframes mKeyframes = null;

    // We try several different types when searching for appropriate setter/getter functions.
    // The caller may have supplied values in a type that does not match the setter/getter
    // functions (such as the integers 0 and 1 to represent floating point values for alpha).
    // Also, the use of generics in constructors means that we end up with the Object versions
    // of primitive types (Float vs. float). But most likely, the setter/getter functions
    // will take primitive types instead.
    // So we supply an ordered array of other types to try before giving up.
    private static final Class<?>[] FLOAT_VARIANTS = {float.class, Float.class, double.class,
            int.class, Double.class, Integer.class};
    private static final Class<?>[] INTEGER_VARIANTS = {int.class, Integer.class, float.class,
            double.class, Float.class, Double.class};
    private static final Class<?>[] DOUBLE_VARIANTS = {double.class, Double.class, float.class,
            int.class, Float.class, Integer.class};

    // These maps hold all property entries for a particular class. This map
    // is used to speed up property/setter/getter lookups for a given class/property
    // combination. No need to use reflection on the combination more than once.
    static final HashMap<Class<?>, HashMap<String, Method>> sSetterPropertyMap =
            new HashMap<>();
    private static final HashMap<Class<?>, HashMap<String, Method>> sGetterPropertyMap =
            new HashMap<>();

    // Used to pass single value to varargs parameter in setter invocation
    final Object[] mTmpValueArray = new Object[1];

    /**
     * The type evaluator used to calculate the animated values. This evaluator is determined
     * automatically based on the type of the start/end objects passed into the constructor,
     * but the system only knows about the primitive types int and float. Any other
     * type will need to set the evaluator to a custom evaluator for that type.
     */
    private TypeEvaluator mEvaluator;

    /**
     * The value most recently calculated by calculateValue(). This is set during
     * that function and might be retrieved later either by ValueAnimator.animatedValue() or
     * by the property-setting logic in ObjectAnimator.animatedValue().
     */
    private Object mAnimatedValue;

    /**
     * Converts from the source Object type to the setter Object type.
     */
    private TypeConverter mConverter;

    /**
     * Internal utility constructor, used by the factory methods to set the property name.
     * @param propertyName The name of the property for this holder.
     */
    PropertyValuesHolder(String propertyName) {
        mPropertyName = propertyName;
    }

    /**
     * Internal utility constructor, used by the factory methods to set the property.
     * @param property The property for this holder.
     */
    PropertyValuesHolder(Property property) {
        mProperty = property;
        if (property != null) {
            mPropertyName = property.getName();
        }
    }

    /**
     * Constructs and returns a PropertyValuesHolder with a given property name and
     * set of int values.
     * @param propertyName The name of the property being animated.
     * @param values The values that the named property will animate between.
     * @return PropertyValuesHolder The constructed PropertyValuesHolder object.
     */
    @NonNull
    public static PropertyValuesHolder ofInt(@NonNull String propertyName, @NonNull int... values) {
        return new IntPropertyValuesHolder(propertyName, values);
    }

    /**
     * Constructs and returns a PropertyValuesHolder with a given property and
     * set of int values.
     * @param property The property being animated. Should not be null.
     * @param values The values that the property will animate between.
     * @return PropertyValuesHolder The constructed PropertyValuesHolder object.
     */
    @NonNull
    public static PropertyValuesHolder ofInt(@NonNull Property<?, Integer> property,
            @NonNull int... values) {
        return new IntPropertyValuesHolder(property, values);
    }

    /**
     * Constructs and returns a PropertyValuesHolder with a given property name and
     * set of <code>int[]</code> values. At least two <code>int[]</code> values must be supplied,
     * a start and end value. If more values are supplied, the values will be animated from the
     * start, through all intermediate values to the end value. When used with ObjectAnimator,
     * the elements of the array represent the parameters of the setter function.
     *
     * @param propertyName The name of the property being animated. Can also be the
     *                     case-sensitive name of the entire setter method. Should not be null.
     * @param values The values that the property will animate between.
     * @return PropertyValuesHolder The constructed PropertyValuesHolder object.
     * @see IntArrayEvaluator#IntArrayEvaluator(int[])
     * @see ObjectAnimator#ofMultiInt(Object, String, TypeConverter, TypeEvaluator, Object[])
     */
    @NonNull
    public static PropertyValuesHolder ofMultiInt(
            @NonNull String propertyName,
            @SuppressLint("ArrayReturn") /* Platform API */ @NonNull int[][] values
    ) {
        if (values.length < 2) {
            throw new IllegalArgumentException("At least 2 values must be supplied");
        }
        int numParameters = 0;
        for (int i = 0; i < values.length; i++) {
            if (values[i] == null) {
                throw new IllegalArgumentException("values must not be null");
            }
            int length = values[i].length;
            if (i == 0) {
                numParameters = length;
            } else if (length != numParameters) {
                throw new IllegalArgumentException("Values must all have the same length");
            }
        }
        IntArrayEvaluator evaluator = new IntArrayEvaluator(new int[numParameters]);
        return new MultiIntValuesHolder(propertyName, null, evaluator, (Object[]) values);
    }

    /**
     * Constructs and returns a PropertyValuesHolder with a given property name to use
     * as a multi-int setter. The values are animated along the path, with the first
     * parameter of the setter set to the x coordinate and the second set to the y coordinate.
     *
     * @param propertyName The name of the property being animated. Can also be the
     *                     case-sensitive name of the entire setter method. Should not be null.
     *                     The setter must take exactly two <code>int</code> parameters.
     * @param path The Path along which the values should be animated.
     * @return PropertyValuesHolder The constructed PropertyValuesHolder object.
     * @see ObjectAnimator#ofPropertyValuesHolder(Object, PropertyValuesHolder...)
     */
    @NonNull
    public static PropertyValuesHolder ofMultiInt(@NonNull String propertyName,
            @NonNull Path path) {
        Keyframes keyframes = KeyframeSet.ofPath(path);
        PointFToIntArray converter = new PointFToIntArray();
        return new MultiIntValuesHolder(propertyName, converter, null, keyframes);
    }

    /**
     * Constructs and returns a PropertyValuesHolder with a given property and
     * set of Object values for use with ObjectAnimator multi-value setters. The Object
     * values are converted to <code>int[]</code> using the converter.
     *
     * @param propertyName The property being animated or complete name of the setter.
     *                     Should not be null.
     * @param converter Used to convert the animated value to setter parameters.
     * @param evaluator A TypeEvaluator that will be called on each animation frame to
     * provide the necessary interpolation between the Object values to derive the animated
     * value.
     * @param values The values that the property will animate between.
     * @return PropertyValuesHolder The constructed PropertyValuesHolder object.
     * @see ObjectAnimator#ofMultiInt(Object, String, TypeConverter, TypeEvaluator, Object[])
     * @see ObjectAnimator#ofPropertyValuesHolder(Object, PropertyValuesHolder...)
     */
    @SafeVarargs
    @NonNull
    public static <V> PropertyValuesHolder ofMultiInt(@NonNull String propertyName,
            @NonNull TypeConverter<V, int[]> converter,
            @NonNull TypeEvaluator<V> evaluator, @NonNull V... values) {
        return new MultiIntValuesHolder(propertyName, converter, evaluator, values);
    }

    /**
     * Constructs and returns a PropertyValuesHolder object with the specified property name or
     * setter name for use in a multi-int setter function using ObjectAnimator. The values can be
     * of any type, but the type should be consistent so that the supplied
     * {@link TypeEvaluator} can be used to to evaluate the animated value. The
     * <code>converter</code> converts the values to parameters in the setter function.
     *
     * <p>At least two values must be supplied, a start and an end value.</p>
     *
     * @param propertyName The name of the property to associate with the set of values. This
     *                     may also be the complete name of a setter function.
     * @param converter    Converts <code>values</code> into int parameters for the setter.
     *                     Can be null if the Keyframes have int[] values.
     * @param evaluator    Used to interpolate between values.
     * @param values       The values at specific fractional times to evaluate between
     * @return A PropertyValuesHolder for a multi-int parameter setter.
     */
    @SafeVarargs
    @NonNull
    public static <T> PropertyValuesHolder ofMultiInt(@NonNull String propertyName,
            @Nullable TypeConverter<T, int[]> converter, @NonNull TypeEvaluator<T> evaluator,
            @NonNull Keyframe... values) {
        KeyframeSet keyframeSet = KeyframeSet.ofKeyframe(values);
        return new MultiIntValuesHolder(propertyName, converter, evaluator, keyframeSet);
    }

    /**
     * Constructs and returns a PropertyValuesHolder with a given property name and
     * set of float values.
     * @param propertyName The name of the property being animated.
     * @param values The values that the named property will animate between.
     * @return PropertyValuesHolder The constructed PropertyValuesHolder object.
     */
    @NonNull
    public static PropertyValuesHolder ofFloat(@NonNull String propertyName,
            @NonNull float... values) {
        return new FloatPropertyValuesHolder(propertyName, values);
    }

    /**
     * Constructs and returns a PropertyValuesHolder with a given property and
     * set of float values.
     * @param property The property being animated. Should not be null.
     * @param values The values that the property will animate between.
     * @return PropertyValuesHolder The constructed PropertyValuesHolder object.
     */
    @NonNull
    public static PropertyValuesHolder ofFloat(@NonNull Property<?, Float> property,
            @NonNull float... values) {
        return new FloatPropertyValuesHolder(property, values);
    }

    /**
     * Constructs and returns a PropertyValuesHolder with a given property name and set of
     * <code>float[]</code> values. At least two <code>float[]</code> values must be supplied,
     * a start and end value. If more values are supplied, the values will be animated from the
     * start, through all intermediate values to the end value. When used with ObjectAnimator,
     * the elements of the array represent the parameters of the setter function.
     *
     * @param propertyName The name of the property being animated. Can also be the
     *                     case-sensitive name of the entire setter method. Should not be null.
     * @param values The values that the property will animate between.
     * @return PropertyValuesHolder The constructed PropertyValuesHolder object.
     * @see FloatArrayEvaluator#FloatArrayEvaluator(float[])
     * @see ObjectAnimator#ofMultiFloat(Object, String, TypeConverter, TypeEvaluator, Object[])
     */
    @NonNull
    public static PropertyValuesHolder ofMultiFloat(
            @NonNull String propertyName,
            @SuppressLint("ArrayReturn") /* Platform API */ @NonNull float[][] values
    ) {
        if (values.length < 2) {
            throw new IllegalArgumentException("At least 2 values must be supplied");
        }
        int numParameters = 0;
        for (int i = 0; i < values.length; i++) {
            if (values[i] == null) {
                throw new IllegalArgumentException("values must not be null");
            }
            int length = values[i].length;
            if (i == 0) {
                numParameters = length;
            } else if (length != numParameters) {
                throw new IllegalArgumentException("Values must all have the same length");
            }
        }
        FloatArrayEvaluator evaluator = new FloatArrayEvaluator(new float[numParameters]);
        return new MultiFloatValuesHolder(propertyName, null, evaluator, (Object[]) values);
    }

    /**
     * Constructs and returns a PropertyValuesHolder with a given property name to use
     * as a multi-float setter. The values are animated along the path, with the first
     * parameter of the setter set to the x coordinate and the second set to the y coordinate.
     *
     * @param propertyName The name of the property being animated. Can also be the
     *                     case-sensitive name of the entire setter method. Should not be null.
     *                     The setter must take exactly two <code>float</code> parameters.
     * @param path The Path along which the values should be animated.
     * @return PropertyValuesHolder The constructed PropertyValuesHolder object.
     * @see ObjectAnimator#ofPropertyValuesHolder(Object, PropertyValuesHolder...)
     */
    @NonNull
    public static PropertyValuesHolder ofMultiFloat(@NonNull String propertyName,
            @NonNull Path path) {
        Keyframes keyframes = KeyframeSet.ofPath(path);
        PointFToFloatArray converter = new PointFToFloatArray();
        return new MultiFloatValuesHolder(propertyName, converter, null, keyframes);
    }

    /**
     * Constructs and returns a PropertyValuesHolder with a given property and
     * set of Object values for use with ObjectAnimator multi-value setters. The Object
     * values are converted to <code>float[]</code> using the converter.
     *
     * @param propertyName The property being animated or complete name of the setter.
     *                     Should not be null.
     * @param converter Used to convert the animated value to setter parameters.
     * @param evaluator A TypeEvaluator that will be called on each animation frame to
     * provide the necessary interpolation between the Object values to derive the animated
     * value.
     * @param values The values that the property will animate between.
     * @return PropertyValuesHolder The constructed PropertyValuesHolder object.
     * @see ObjectAnimator#ofMultiFloat(Object, String, TypeConverter, TypeEvaluator, Object[])
     */
    @SafeVarargs
    @NonNull
    public static <V> PropertyValuesHolder ofMultiFloat(@NonNull String propertyName,
            @NonNull TypeConverter<V, float[]> converter,
            @NonNull TypeEvaluator<V> evaluator, @NonNull V... values) {
        return new MultiFloatValuesHolder(propertyName, converter, evaluator, values);
    }

    /**
     * Constructs and returns a PropertyValuesHolder object with the specified property name or
     * setter name for use in a multi-float setter function using ObjectAnimator. The values can be
     * of any type, but the type should be consistent so that the supplied
     * {@link TypeEvaluator} can be used to to evaluate the animated value. The
     * <code>converter</code> converts the values to parameters in the setter function.
     *
     * <p>At least two values must be supplied, a start and an end value.</p>
     *
     * @param propertyName The name of the property to associate with the set of values. This
     *                     may also be the complete name of a setter function.
     * @param converter    Converts <code>values</code> into float parameters for the setter.
     *                     Can be null if the Keyframes have float[] values.
     * @param evaluator    Used to interpolate between values.
     * @param values       The values at specific fractional times to evaluate between
     * @return A PropertyValuesHolder for a multi-float parameter setter.
     */
    @SafeVarargs
    @NonNull
    public static <T> PropertyValuesHolder ofMultiFloat(@NonNull String propertyName,
            @Nullable TypeConverter<T, float[]> converter,
            @NonNull TypeEvaluator<T> evaluator,
            @NonNull Keyframe... values) {
        KeyframeSet keyframeSet = KeyframeSet.ofKeyframe(values);
        return new MultiFloatValuesHolder(propertyName, converter, evaluator, keyframeSet);
    }

    /**
     * Constructs and returns a PropertyValuesHolder with a given property name and
     * set of Object values. This variant also takes a TypeEvaluator because the system
     * cannot automatically interpolate between objects of unknown type.
     *
     * <p><strong>Note:</strong> The Object values are stored as references to the original
     * objects, which means that changes to those objects after this method is called will
     * affect the values on the PropertyValuesHolder. If the objects will be mutated externally
     * after this method is called, callers should pass a copy of those objects instead.
     *
     * @param propertyName The name of the property being animated.
     * @param evaluator A TypeEvaluator that will be called on each animation frame to
     * provide the necessary interpolation between the Object values to derive the animated
     * value.
     * @param values The values that the named property will animate between.
     * @return PropertyValuesHolder The constructed PropertyValuesHolder object.
     */
    @NonNull
    public static PropertyValuesHolder ofObject(@NonNull String propertyName,
            @NonNull TypeEvaluator evaluator, @NonNull Object... values) {
        PropertyValuesHolder pvh = new PropertyValuesHolder(propertyName);
        pvh.setObjectValues(values);
        pvh.setEvaluator(evaluator);
        return pvh;
    }

    /**
     * Constructs and returns a PropertyValuesHolder with a given property name and
     * a Path along which the values should be animated. This variant supports a
     * <code>TypeConverter</code> to convert from <code>PointF</code> to the target
     * type.
     *
     * <p>The PointF passed to <code>converter</code> or <code>property</code>, if
     * <code>converter</code> is <code>null</code>, is reused on each animation frame and should
     * not be stored by the setter or TypeConverter.</p>
     *
     * @param propertyName The name of the property being animated.
     * @param converter Converts a PointF to the type associated with the setter. May be
     *                  null if conversion is unnecessary.
     * @param path The Path along which the values should be animated.
     * @return PropertyValuesHolder The constructed PropertyValuesHolder object.
     */
    @NonNull
    public static PropertyValuesHolder ofObject(@NonNull String propertyName,
            @Nullable TypeConverter<PointF, ?> converter, @NonNull Path path) {
        PropertyValuesHolder pvh = new PropertyValuesHolder(propertyName);
        pvh.mKeyframes = KeyframeSet.ofPath(path);
        pvh.mValueType = PointF.class;
        pvh.setConverter(converter);
        return pvh;
    }

    /**
     * Constructs and returns a PropertyValuesHolder with a given property and
     * set of Object values. This variant also takes a TypeEvaluator because the system
     * cannot automatically interpolate between objects of unknown type.
     *
     * <p><strong>Note:</strong> The Object values are stored as references to the original
     * objects, which means that changes to those objects after this method is called will
     * affect the values on the PropertyValuesHolder. If the objects will be mutated externally
     * after this method is called, callers should pass a copy of those objects instead.
     *
     * @param property The property being animated. Should not be null.
     * @param evaluator A TypeEvaluator that will be called on each animation frame to
     * provide the necessary interpolation between the Object values to derive the animated
     * value.
     * @param values The values that the property will animate between.
     * @return PropertyValuesHolder The constructed PropertyValuesHolder object.
     */
    @SafeVarargs
    @NonNull
    public static <V> PropertyValuesHolder ofObject(@NonNull Property property,
            @NonNull TypeEvaluator<V> evaluator, @NonNull V... values) {
        PropertyValuesHolder pvh = new PropertyValuesHolder(property);
        pvh.setObjectValues(values);
        pvh.setEvaluator(evaluator);
        return pvh;
    }

    /**
     * Constructs and returns a PropertyValuesHolder with a given property and
     * set of Object values. This variant also takes a TypeEvaluator because the system
     * cannot automatically interpolate between objects of unknown type. This variant also
     * takes a <code>TypeConverter</code> to convert from animated values to the type
     * of the property. If only one value is supplied, the <code>TypeConverter</code>
     * must be a {@link BidirectionalTypeConverter} to retrieve the current
     * value.
     *
     * <p><strong>Note:</strong> The Object values are stored as references to the original
     * objects, which means that changes to those objects after this method is called will
     * affect the values on the PropertyValuesHolder. If the objects will be mutated externally
     * after this method is called, callers should pass a copy of those objects instead.
     *
     * @param property The property being animated. Should not be null.
     * @param converter Converts the animated object to the Property type.
     * @param evaluator A TypeEvaluator that will be called on each animation frame to provide the
     *                 necessary interpolation between the Object values to derive the animated
     *                 value.
     * @param values The values that the property will animate between.
     * @return PropertyValuesHolder The constructed PropertyValuesHolder object.
     * @see #setConverter(TypeConverter)
     * @see TypeConverter
     */
    @SafeVarargs
    @NonNull
    public static <T, V> PropertyValuesHolder ofObject(@NonNull Property<?, V> property,
            @NonNull TypeConverter<T, V> converter, @NonNull TypeEvaluator<T> evaluator,
            @NonNull T... values) {
        PropertyValuesHolder pvh = new PropertyValuesHolder(property);
        pvh.setConverter(converter);
        pvh.setObjectValues(values);
        pvh.setEvaluator(evaluator);
        return pvh;
    }

    /**
     * Constructs and returns a PropertyValuesHolder with a given property and
     * a Path along which the values should be animated. This variant supports a
     * <code>TypeConverter</code> to convert from <code>PointF</code> to the target
     * type.
     *
     * <p>The PointF passed to <code>converter</code> or <code>property</code>, if
     * <code>converter</code> is <code>null</code>, is reused on each animation frame and should
     * not be stored by the setter or TypeConverter.</p>
     *
     * @param property The property being animated. Should not be null.
     * @param converter Converts a PointF to the type associated with the setter. May be
     *                  null if conversion is unnecessary.
     * @param path The Path along which the values should be animated.
     * @return PropertyValuesHolder The constructed PropertyValuesHolder object.
     */
    @NonNull
    public static <V> PropertyValuesHolder ofObject(@NonNull Property<?, V> property,
            @Nullable TypeConverter<PointF, V> converter, @NonNull Path path) {
        PropertyValuesHolder pvh = new PropertyValuesHolder(property);
        pvh.mKeyframes = KeyframeSet.ofPath(path);
        pvh.mValueType = PointF.class;
        pvh.setConverter(converter);
        return pvh;
    }

    /**
     * Constructs and returns a PropertyValuesHolder object with the specified property name and set
     * of values. These values can be of any type, but the type should be consistent so that
     * an appropriate {@link TypeEvaluator} can be found that matches
     * the common type.
     * <p>If there is only one value, it is assumed to be the end value of an animation,
     * and an initial value will be derived, if possible, by calling a getter function
     * on the object. Also, if any value is null, the value will be filled in when the animation
     * starts in the same way. This mechanism of automatically getting null values only works
     * if the PropertyValuesHolder object is used in conjunction {@link ObjectAnimator}, and with a
     * getter function derived automatically from <code>propertyName</code>, since otherwise
     * PropertyValuesHolder has no way of determining what the value should be.
     * @param propertyName The name of the property associated with this set of values. This
     * can be the actual property name to be used when using a ObjectAnimator object, or
     * just a name used to get animated values, such as if this object is used with an
     * ValueAnimator object.
     * @param values The set of values to animate between.
     */
    @SafeVarargs
    @NonNull
    public static PropertyValuesHolder ofKeyframe(@NonNull String propertyName,
            @NonNull Keyframe... values) {
        KeyframeSet keyframeSet = KeyframeSet.ofKeyframe(values);
        return ofKeyframes(propertyName, keyframeSet);
    }

    /**
     * Constructs and returns a PropertyValuesHolder object with the specified property and set
     * of values. These values can be of any type, but the type should be consistent so that
     * an appropriate {@link androidx.core.animation.TypeEvaluator} can be found that matches
     * the common type.
     * <p>If there is only one value, it is assumed to be the end value of an animation,
     * and an initial value will be derived, if possible, by calling the property's
     * {@link android.util.Property#get(Object)} function.
     * Also, if any value is null, the value will be filled in when the animation
     * starts in the same way. This mechanism of automatically getting null values only works
     * if the PropertyValuesHolder object is used in conjunction with
     * {@link ObjectAnimator}, since otherwise PropertyValuesHolder has
     * no way of determining what the value should be.
     * @param property The property associated with this set of values. Should not be null.
     * @param values The set of values to animate between.
     */
    @SafeVarargs
    @NonNull
    public static PropertyValuesHolder ofKeyframe(@NonNull Property property,
            @NonNull Keyframe... values) {
        KeyframeSet keyframeSet = KeyframeSet.ofKeyframe(values);
        return ofKeyframes(property, keyframeSet);
    }

    static PropertyValuesHolder ofKeyframes(String propertyName, Keyframes keyframes) {
        if (keyframes instanceof Keyframes.IntKeyframes) {
            return new IntPropertyValuesHolder(propertyName, (Keyframes.IntKeyframes) keyframes);
        } else if (keyframes instanceof Keyframes.FloatKeyframes) {
            return new FloatPropertyValuesHolder(propertyName,
                    (Keyframes.FloatKeyframes) keyframes);
        } else {
            PropertyValuesHolder pvh = new PropertyValuesHolder(propertyName);
            pvh.mKeyframes = keyframes;
            pvh.mValueType = keyframes.getType();
            return pvh;
        }
    }

    static PropertyValuesHolder ofKeyframes(Property property, Keyframes keyframes) {
        if (keyframes instanceof Keyframes.IntKeyframes) {
            return new IntPropertyValuesHolder(property, (Keyframes.IntKeyframes) keyframes);
        } else if (keyframes instanceof Keyframes.FloatKeyframes) {
            return new FloatPropertyValuesHolder(property, (Keyframes.FloatKeyframes) keyframes);
        } else {
            PropertyValuesHolder pvh = new PropertyValuesHolder(property);
            pvh.mKeyframes = keyframes;
            pvh.mValueType = keyframes.getType();
            return pvh;
        }
    }

    /**
     * Set the animated values for this object to this set of ints.
     * If there is only one value, it is assumed to be the end value of an animation,
     * and an initial value will be derived, if possible, by calling a getter function
     * on the object. Also, if any value is null, the value will be filled in when the animation
     * starts in the same way. This mechanism of automatically getting null values only works
     * if the PropertyValuesHolder object is used in conjunction {@link ObjectAnimator}, and with a
     * getter function derived automatically from <code>propertyName</code>, since otherwise
     * PropertyValuesHolder has no way of determining what the value should be.
     *
     * @param values One or more values that the animation will animate between.
     */
    public void setIntValues(@NonNull int... values) {
        mValueType = int.class;
        mKeyframes = KeyframeSet.ofInt(values);
    }

    /**
     * Set the animated values for this object to this set of floats.
     * If there is only one value, it is assumed to be the end value of an animation,
     * and an initial value will be derived, if possible, by calling a getter function
     * on the object. Also, if any value is null, the value will be filled in when the animation
     * starts in the same way. This mechanism of automatically getting null values only works
     * if the PropertyValuesHolder object is used in conjunction {@link ObjectAnimator}, and with a
     * getter function derived automatically from <code>propertyName</code>, since otherwise
     * PropertyValuesHolder has no way of determining what the value should be.
     *
     * @param values One or more values that the animation will animate between.
     */
    public void setFloatValues(@NonNull float... values) {
        mValueType = float.class;
        mKeyframes = KeyframeSet.ofFloat(values);
    }

    /**
     * Set the animated values for this object to this set of Keyframes.
     *
     * @param values One or more values that the animation will animate between.
     */
    public void setKeyframes(@NonNull Keyframe... values) {
        int numKeyframes = values.length;
        Keyframe[] keyframes = new Keyframe[Math.max(numKeyframes, 2)];
        mValueType = values[0].getType();
        for (int i = 0; i < numKeyframes; ++i) {
            keyframes[i] = values[i];
        }
        mKeyframes = new KeyframeSet(keyframes);
    }

    /**
     * Set the animated values for this object to this set of Objects.
     * If there is only one value, it is assumed to be the end value of an animation,
     * and an initial value will be derived, if possible, by calling a getter function
     * on the object. Also, if any value is null, the value will be filled in when the animation
     * starts in the same way. This mechanism of automatically getting null values only works
     * if the PropertyValuesHolder object is used in conjunction {@link ObjectAnimator}, and with
     * a getter function derived automatically from <code>propertyName</code>, since otherwise
     * PropertyValuesHolder has no way of determining what the value should be.
     *
     * <p><strong>Note:</strong> The Object values are stored as references to the original
     * objects, which means that changes to those objects after this method is called will
     * affect the values on the PropertyValuesHolder. If the objects will be mutated externally
     * after this method is called, callers should pass a copy of those objects instead.
     *
     * @param values One or more values that the animation will animate between.
     */
    public void setObjectValues(@NonNull Object... values) {
        mValueType = values[0].getClass();
        mKeyframes = KeyframeSet.ofObject(values);
        if (mEvaluator != null) {
            mKeyframes.setEvaluator(mEvaluator);
        }
    }

    /**
     * Sets the converter to convert from the values type to the setter's parameter type.
     * If only one value is supplied, <var>converter</var> must be a
     * {@link BidirectionalTypeConverter}.
     * @param converter The converter to use to convert values.
     */
    public void setConverter(@Nullable TypeConverter converter) {
        mConverter = converter;
    }

    /**
     * Determine the setter or getter function using the JavaBeans convention of setFoo or
     * getFoo for a property named 'foo'. This function figures out what the name of the
     * function should be and uses reflection to find the Method with that name on the
     * target object.
     *
     * @param targetClass The class to search for the method
     * @param prefix "set" or "get", depending on whether we need a setter or getter.
     * @param valueType The type of the parameter (in the case of a setter). This type
     * is derived from the values set on this PropertyValuesHolder. This type is used as
     * a first guess at the parameter type, but we check for methods with several different
     * types to avoid problems with slight mis-matches between supplied values and actual
     * value types used on the setter.
     * @return Method the method associated with mPropertyName.
     */
    private Method getPropertyFunction(Class<?> targetClass, String prefix, Class<?> valueType) {
        // TODO: faster implementation...
        Method returnVal = null;
        String methodName = getMethodName(prefix, mPropertyName);
        Class<?>[] args = null;
        if (valueType == null) {
            try {
                returnVal = targetClass.getMethod(methodName, args);
            } catch (NoSuchMethodException e) {
                // Swallow the error, log it later
            }
        } else {
            args = new Class<?>[1];
            Class<?>[] typeVariants;
            if (valueType.equals(Float.class)) {
                typeVariants = FLOAT_VARIANTS;
            } else if (valueType.equals(Integer.class)) {
                typeVariants = INTEGER_VARIANTS;
            } else if (valueType.equals(Double.class)) {
                typeVariants = DOUBLE_VARIANTS;
            } else {
                typeVariants = new Class<?>[1];
                typeVariants[0] = valueType;
            }
            for (Class<?> typeVariant : typeVariants) {
                args[0] = typeVariant;
                try {
                    returnVal = targetClass.getMethod(methodName, args);
                    if (mConverter == null) {
                        // change the value type to suit
                        mValueType = typeVariant;
                    }
                    return returnVal;
                } catch (NoSuchMethodException e) {
                    // Swallow the error and keep trying other variants
                }
                try {
                    returnVal = targetClass.getDeclaredMethod(methodName, args);
                    returnVal.setAccessible(true);
                    if (mConverter == null) {
                        // change the value type to suit
                        mValueType = typeVariant;
                    }
                    return returnVal;
                } catch (NoSuchMethodException e) {
                    // Swallow the error and keep trying other variants
                }
            }
            // If we got here, then no appropriate function was found
        }

        if (returnVal == null) {
            Log.w("PropertyValuesHolder", "Method "
                    + getMethodName(prefix, mPropertyName) + "() with type " + valueType
                    + " not found on target class " + targetClass);
        }

        return returnVal;
    }


    /**
     * Returns the setter or getter requested. This utility function checks whether the
     * requested method exists in the propertyMapMap cache. If not, it calls another
     * utility function to request the Method from the targetClass directly.
     * @param targetClass The Class on which the requested method should exist.
     * @param propertyMapMap The cache of setters/getters derived so far.
     * @param prefix "set" or "get", for the setter or getter.
     * @param valueType The type of parameter passed into the method (null for getter).
     * @return Method the method associated with mPropertyName.
     */
    private Method setupSetterOrGetter(Class<?> targetClass,
            HashMap<Class<?>, HashMap<String, Method>> propertyMapMap,
            String prefix, Class<?> valueType) {
        Method setterOrGetter = null;
        synchronized (propertyMapMap) {
            // Have to lock property map prior to reading it, to guard against
            // another thread putting something in there after we've checked it
            // but before we've added an entry to it
            HashMap<String, Method> propertyMap = propertyMapMap.get(targetClass);
            boolean wasInMap = false;
            if (propertyMap != null) {
                wasInMap = propertyMap.containsKey(mPropertyName);
                if (wasInMap) {
                    setterOrGetter = propertyMap.get(mPropertyName);
                }
            }
            if (!wasInMap) {
                setterOrGetter = getPropertyFunction(targetClass, prefix, valueType);
                if (propertyMap == null) {
                    propertyMap = new HashMap<String, Method>();
                    propertyMapMap.put(targetClass, propertyMap);
                }
                propertyMap.put(mPropertyName, setterOrGetter);
            }
        }
        return setterOrGetter;
    }

    /**
     * Utility function to get the setter from targetClass
     * @param targetClass The Class on which the requested method should exist.
     */
    void setupSetter(Class<?> targetClass) {
        Class<?> propertyType = mConverter == null ? mValueType : mConverter.getTargetType();
        mSetter = setupSetterOrGetter(targetClass, sSetterPropertyMap, "set", propertyType);
    }

    /**
     * Utility function to get the getter from targetClass
     */
    private void setupGetter(Class<?> targetClass) {
        mGetter = setupSetterOrGetter(targetClass, sGetterPropertyMap, "get", null);
    }

    /**
     * Internal function (called from ObjectAnimator) to set up the setter and getter
     * prior to running the animation. If the setter has not been manually set for this
     * object, it will be derived automatically given the property name, target object, and
     * types of values supplied. If no getter has been set, it will be supplied iff any of the
     * supplied values was null. If there is a null value, then the getter (supplied or derived)
     * will be called to set those null values to the current value of the property
     * on the target object.
     * @param target The object on which the setter (and possibly getter) exist.
     */
    void setupSetterAndGetter(Object target) {
        if (mProperty != null) {
            // check to make sure that mProperty is on the class of target
            try {
                Object testValue = null;
                List<Keyframe> keyframes = mKeyframes.getKeyframes();
                int keyframeCount = keyframes == null ? 0 : keyframes.size();
                for (int i = 0; i < keyframeCount; i++) {
                    Keyframe kf = keyframes.get(i);
                    if (!kf.hasValue() || kf.valueWasSetOnStart()) {
                        if (testValue == null) {
                            testValue = convertBack(mProperty.get(target));
                        }
                        kf.setValue(testValue);
                        kf.setValueWasSetOnStart(true);
                    }
                }
                return;
            } catch (ClassCastException e) {
                Log.w("PropertyValuesHolder", "No such property (" + mProperty.getName()
                        + ") on target object " + target + ". Trying reflection instead");
                mProperty = null;
            }
        }
        // We can't just say 'else' here because the catch statement sets mProperty to null.
        if (mProperty == null) {
            Class<?> targetClass = target.getClass();
            if (mSetter == null) {
                setupSetter(targetClass);
            }
            List<Keyframe> keyframes = mKeyframes.getKeyframes();
            int keyframeCount = keyframes == null ? 0 : keyframes.size();
            for (int i = 0; i < keyframeCount; i++) {
                Keyframe kf = keyframes.get(i);
                if (!kf.hasValue() || kf.valueWasSetOnStart()) {
                    if (mGetter == null) {
                        setupGetter(targetClass);
                        if (mGetter == null) {
                            // Already logged the error - just return to avoid NPE
                            return;
                        }
                    }
                    try {
                        Object value = convertBack(mGetter.invoke(target));
                        kf.setValue(value);
                        kf.setValueWasSetOnStart(true);
                    } catch (InvocationTargetException e) {
                        Log.e("PropertyValuesHolder", e.toString());
                    } catch (IllegalAccessException e) {
                        Log.e("PropertyValuesHolder", e.toString());
                    }
                }
            }
        }
    }

    private Object convertBack(Object value) {
        if (mConverter != null) {
            if (!(mConverter instanceof BidirectionalTypeConverter)) {
                throw new IllegalArgumentException("Converter "
                        + mConverter.getClass().getName()
                        + " must be a BidirectionalTypeConverter");
            }
            value = ((BidirectionalTypeConverter) mConverter).convertBack(value);
        }
        return value;
    }

    /**
     * Utility function to set the value stored in a particular Keyframe. The value used is
     * whatever the value is for the property name specified in the keyframe on the target object.
     *
     * @param target The target object from which the current value should be extracted.
     * @param kf The keyframe which holds the property name and value.
     */
    private void setupValue(Object target, Keyframe kf) {
        if (mProperty != null) {
            Object value = convertBack(mProperty.get(target));
            kf.setValue(value);
        } else {
            try {
                if (mGetter == null) {
                    Class<?> targetClass = target.getClass();
                    setupGetter(targetClass);
                    if (mGetter == null) {
                        // Already logged the error - just return to avoid NPE
                        return;
                    }
                }
                Object value = convertBack(mGetter.invoke(target));
                kf.setValue(value);
            } catch (InvocationTargetException e) {
                Log.e("PropertyValuesHolder", e.toString());
            } catch (IllegalAccessException e) {
                Log.e("PropertyValuesHolder", e.toString());
            }
        }
    }

    /**
     * This function is called by ObjectAnimator when setting the start values for an animation.
     * The start values are set according to the current values in the target object. The
     * property whose value is extracted is whatever is specified by the propertyName of this
     * PropertyValuesHolder object.
     *
     * @param target The object which holds the start values that should be set.
     */
    void setupStartValue(Object target) {
        List<Keyframe> keyframes = mKeyframes.getKeyframes();
        if (!keyframes.isEmpty()) {
            setupValue(target, keyframes.get(0));
        }
    }

    /**
     * This function is called by ObjectAnimator when setting the end values for an animation.
     * The end values are set according to the current values in the target object. The
     * property whose value is extracted is whatever is specified by the propertyName of this
     * PropertyValuesHolder object.
     *
     * @param target The object which holds the start values that should be set.
     */
    void setupEndValue(Object target) {
        List<Keyframe> keyframes = mKeyframes.getKeyframes();
        if (!keyframes.isEmpty()) {
            setupValue(target, keyframes.get(keyframes.size() - 1));
        }
    }

    @SuppressLint("NoClone") /* Platform API */
    @NonNull
    @Override
    public PropertyValuesHolder clone() {
        try {
            PropertyValuesHolder newPVH = (PropertyValuesHolder) super.clone();
            newPVH.mPropertyName = mPropertyName;
            newPVH.mProperty = mProperty;
            newPVH.mKeyframes = mKeyframes.clone();
            newPVH.mEvaluator = mEvaluator;
            return newPVH;
        } catch (CloneNotSupportedException e) {
            // won't reach here
            return null;
        }
    }

    /**
     * Internal function to set the value on the target object, using the setter set up
     * earlier on this PropertyValuesHolder object. This function is called by ObjectAnimator
     * to handle turning the value calculated by ValueAnimator into a value set on the object
     * according to the name of the property.
     * @param target The target object on which the value is set
     */
    void setAnimatedValue(Object target) {
        if (mProperty != null) {
            mProperty.set(target, getAnimatedValue());
        }
        if (mSetter != null) {
            try {
                mTmpValueArray[0] = getAnimatedValue();
                mSetter.invoke(target, mTmpValueArray);
            } catch (InvocationTargetException e) {
                Log.e("PropertyValuesHolder", e.toString());
            } catch (IllegalAccessException e) {
                Log.e("PropertyValuesHolder", e.toString());
            }
        }
    }

    /**
     * Internal function, called by ValueAnimator, to set up the TypeEvaluator that will be used
     * to calculate animated values.
     */
    void init() {
        if (mEvaluator == null) {
            // We already handle int and float automatically, but not their Object
            // equivalents
            mEvaluator = (mValueType == Integer.class) ? IntEvaluator.getInstance() :
                    (mValueType == Float.class) ? FloatEvaluator.getInstance() :
                    null;
        }
        if (mEvaluator != null) {
            // KeyframeSet knows how to evaluate the common types - only give it a custom
            // evaluator if one has been set on this class
            mKeyframes.setEvaluator(mEvaluator);
        }
    }

    /**
     * The TypeEvaluator will be automatically determined based on the type of values
     * supplied to PropertyValuesHolder. The evaluator can be manually set, however, if so
     * desired. This may be important in cases where either the type of the values supplied
     * do not match the way that they should be interpolated between, or if the values
     * are of a custom type or one not currently understood by the animation system. Currently,
     * only values of type float and int (and their Object equivalents: Float
     * and Integer) are  correctly interpolated; all other types require setting a TypeEvaluator.
     * @param evaluator
     */
    public void setEvaluator(@NonNull TypeEvaluator evaluator) {
        mEvaluator = evaluator;
        mKeyframes.setEvaluator(evaluator);
    }

    /**
     * Function used to calculate the value according to the evaluator set up for
     * this PropertyValuesHolder object. This function is called by ValueAnimator.animateValue().
     *
     * @param fraction The elapsed, interpolated fraction of the animation.
     */
    void calculateValue(float fraction) {
        Object value = mKeyframes.getValue(fraction);
        mAnimatedValue = mConverter == null ? value : mConverter.convert(value);
    }

    /**
     * Sets the name of the property that will be animated. This name is used to derive
     * a setter function that will be called to set animated values.
     * For example, a property name of <code>foo</code> will result
     * in a call to the function <code>setFoo()</code> on the target object. If either
     * <code>valueFrom</code> or <code>valueTo</code> is null, then a getter function will
     * also be derived and called.
     *
     * <p>Note that the setter function derived from this property name
     * must take the same parameter type as the
     * <code>valueFrom</code> and <code>valueTo</code> properties, otherwise the call to
     * the setter function will fail.</p>
     *
     * @param propertyName The name of the property being animated.
     */
    public void setPropertyName(@NonNull String propertyName) {
        mPropertyName = propertyName;
    }

    /**
     * Sets the property that will be animated.
     *
     * <p>Note that if this PropertyValuesHolder object is used with ObjectAnimator, the property
     * must exist on the target object specified in that ObjectAnimator.</p>
     *
     * @param property The property being animated.
     */
    public void setProperty(@NonNull Property property) {
        mProperty = property;
    }

    /**
     * Gets the name of the property that will be animated. This name will be used to derive
     * a setter function that will be called to set animated values.
     * For example, a property name of <code>foo</code> will result
     * in a call to the function <code>setFoo()</code> on the target object. If either
     * <code>valueFrom</code> or <code>valueTo</code> is null, then a getter function will
     * also be derived and called.
     */
    @NonNull
    public String getPropertyName() {
        return mPropertyName;
    }

    /**
     * Internal function, called by ValueAnimator and ObjectAnimator, to retrieve the value
     * most recently calculated in calculateValue().
     * @return
     */
    Object getAnimatedValue() {
        return mAnimatedValue;
    }

    Class<?> getValueType() {
        return mValueType;
    }

    @NonNull
    @Override
    public String toString() {
        return mPropertyName + ": " + mKeyframes.toString();
    }

    /**
     * Utility method to derive a setter/getter method name from a property name, where the
     * prefix is typically "set" or "get" and the first letter of the property name is
     * capitalized.
     *
     * @param prefix The precursor to the method name, before the property name begins, typically
     * "set" or "get".
     * @param propertyName The name of the property that represents the bulk of the method name
     * after the prefix. The first letter of this word will be capitalized in the resulting
     * method name.
     * @return String the property name converted to a method name according to the conventions
     * specified above.
     */
    static String getMethodName(String prefix, String propertyName) {
        if (propertyName == null || propertyName.length() == 0) {
            // shouldn't get here
            return prefix;
        }
        char firstLetter = Character.toUpperCase(propertyName.charAt(0));
        String theRest = propertyName.substring(1);
        return prefix + firstLetter + theRest;
    }

    static class IntPropertyValuesHolder extends PropertyValuesHolder {

        private IntProperty mIntProperty;

        Keyframes.IntKeyframes mIntKeyframes;
        int mIntAnimatedValue;

        IntPropertyValuesHolder(String propertyName, Keyframes.IntKeyframes keyframes) {
            super(propertyName);
            mValueType = int.class;
            mKeyframes = keyframes;
            mIntKeyframes = keyframes;
        }

        IntPropertyValuesHolder(Property property, Keyframes.IntKeyframes keyframes) {
            super(property);
            mValueType = int.class;
            mKeyframes = keyframes;
            mIntKeyframes = keyframes;
            if (property instanceof  IntProperty) {
                mIntProperty = (IntProperty) mProperty;
            }
        }

        IntPropertyValuesHolder(String propertyName, int... values) {
            super(propertyName);
            setIntValues(values);
        }

        IntPropertyValuesHolder(Property property, int... values) {
            super(property);
            setIntValues(values);
            if (property instanceof  IntProperty) {
                mIntProperty = (IntProperty) mProperty;
            }
        }

        @Override
        public void setProperty(@NonNull Property property) {
            if (property instanceof IntProperty) {
                mIntProperty = (IntProperty) property;
            } else {
                super.setProperty(property);
            }
        }

        @Override
        public void setIntValues(@NonNull int... values) {
            super.setIntValues(values);
            mIntKeyframes = (Keyframes.IntKeyframes) mKeyframes;
        }

        @Override
        void calculateValue(float fraction) {
            mIntAnimatedValue = mIntKeyframes.getIntValue(fraction);
        }

        @Override
        Object getAnimatedValue() {
            return mIntAnimatedValue;
        }

        @NonNull
        @Override
        public IntPropertyValuesHolder clone() {
            IntPropertyValuesHolder newPVH = (IntPropertyValuesHolder) super.clone();
            newPVH.mIntKeyframes = (Keyframes.IntKeyframes) newPVH.mKeyframes;
            return newPVH;
        }

        /**
         * Internal function to set the value on the target object, using the setter set up
         * earlier on this PropertyValuesHolder object. This function is called by ObjectAnimator
         * to handle turning the value calculated by ValueAnimator into a value set on the object
         * according to the name of the property.
         * @param target The target object on which the value is set
         */
        @Override
        void setAnimatedValue(Object target) {
            if (mIntProperty != null) {
                mIntProperty.setValue(target, mIntAnimatedValue);
                return;
            }
            if (mProperty != null) {
                mProperty.set(target, mIntAnimatedValue);
                return;
            }

            try {
                mTmpValueArray[0] = mIntAnimatedValue;
                mSetter.invoke(target, mTmpValueArray);
            } catch (InvocationTargetException e) {
                Log.e("PropertyValuesHolder", e.toString());
            } catch (IllegalAccessException e) {
                Log.e("PropertyValuesHolder", e.toString());
            }
        }
    }

    static class FloatPropertyValuesHolder extends PropertyValuesHolder {

        private FloatProperty mFloatProperty;

        Keyframes.FloatKeyframes mFloatKeyframes;
        float mFloatAnimatedValue;

        FloatPropertyValuesHolder(String propertyName, Keyframes.FloatKeyframes keyframes) {
            super(propertyName);
            mValueType = float.class;
            mKeyframes = keyframes;
            mFloatKeyframes = keyframes;
        }

        FloatPropertyValuesHolder(Property property, Keyframes.FloatKeyframes keyframes) {
            super(property);
            mValueType = float.class;
            mKeyframes = keyframes;
            mFloatKeyframes = keyframes;
            if (property instanceof FloatProperty) {
                mFloatProperty = (FloatProperty) mProperty;
            }
        }

        FloatPropertyValuesHolder(String propertyName, float... values) {
            super(propertyName);
            setFloatValues(values);
        }

        FloatPropertyValuesHolder(Property property, float... values) {
            super(property);
            setFloatValues(values);
            if (property instanceof  FloatProperty) {
                mFloatProperty = (FloatProperty) mProperty;
            }
        }

        @Override
        public void setProperty(@NonNull Property property) {
            if (property instanceof FloatProperty) {
                mFloatProperty = (FloatProperty) property;
            } else {
                super.setProperty(property);
            }
        }

        @Override
        public void setFloatValues(@NonNull float... values) {
            super.setFloatValues(values);
            mFloatKeyframes = (Keyframes.FloatKeyframes) mKeyframes;
        }

        @Override
        void calculateValue(float fraction) {
            mFloatAnimatedValue = mFloatKeyframes.getFloatValue(fraction);
        }

        @Override
        Object getAnimatedValue() {
            return mFloatAnimatedValue;
        }

        @NonNull
        @Override
        public FloatPropertyValuesHolder clone() {
            FloatPropertyValuesHolder newPVH = (FloatPropertyValuesHolder) super.clone();
            newPVH.mFloatKeyframes = (Keyframes.FloatKeyframes) newPVH.mKeyframes;
            return newPVH;
        }

        /**
         * Internal function to set the value on the target object, using the setter set up
         * earlier on this PropertyValuesHolder object. This function is called by ObjectAnimator
         * to handle turning the value calculated by ValueAnimator into a value set on the object
         * according to the name of the property.
         * @param target The target object on which the value is set
         */
        @Override
        void setAnimatedValue(Object target) {
            if (mFloatProperty != null) {
                mFloatProperty.setValue(target, mFloatAnimatedValue);
                return;
            }
            if (mProperty != null) {
                mProperty.set(target, mFloatAnimatedValue);
                return;
            }
            if (mSetter != null) {
                try {
                    mTmpValueArray[0] = mFloatAnimatedValue;
                    mSetter.invoke(target, mTmpValueArray);
                } catch (InvocationTargetException e) {
                    Log.e("PropertyValuesHolder", e.toString());
                } catch (IllegalAccessException e) {
                    Log.e("PropertyValuesHolder", e.toString());
                }
            }
        }

    }

    static class MultiFloatValuesHolder extends PropertyValuesHolder {

        MultiFloatValuesHolder(String propertyName, TypeConverter converter,
                TypeEvaluator evaluator, Object... values) {
            super(propertyName);
            setConverter(converter);
            setObjectValues(values);
            setEvaluator(evaluator);
        }

        MultiFloatValuesHolder(String propertyName, TypeConverter converter,
                TypeEvaluator evaluator, Keyframes keyframes) {
            super(propertyName);
            setConverter(converter);
            mKeyframes = keyframes;
            setEvaluator(evaluator);
        }

        /**
         * Internal function to set the value on the target object, using the setter set up
         * earlier on this PropertyValuesHolder object. This function is called by ObjectAnimator
         * to handle turning the value calculated by ValueAnimator into a value set on the object
         * according to the name of the property.
         * @param target The target object on which the value is set
         */
        @Override
        void setAnimatedValue(Object target) {
            float[] values = (float[]) getAnimatedValue();
            Object[] boxedValues = new Float[values.length];
            for (int i = 0; i < boxedValues.length; i++) {
                boxedValues[i] = values[i];
            }
            if (mSetter != null) {
                try {
                    mSetter.invoke(target, boxedValues);
                } catch (InvocationTargetException e) {
                    Log.e("PropertyValuesHolder", e.toString());
                } catch (IllegalAccessException e) {
                    Log.e("PropertyValuesHolder", e.toString());
                }
            }
        }

        /**
         * Internal function (called from ObjectAnimator) to set up the setter and getter
         * prior to running the animation. No getter can be used for multiple parameters.
         *
         * @param target The object on which the setter exists.
         */
        @Override
        void setupSetterAndGetter(Object target) {
            setupSetter(target.getClass());
        }

        @Override
        @SuppressWarnings("CatchAndPrintStackTrace")
        void setupSetter(Class<?> targetClass) {
            synchronized (sSetterPropertyMap) {
                // Have to lock property map prior to reading it, to guard against
                // another thread putting something in there after we've checked it
                // but before we've added an entry to it
                HashMap<String, Method> propertyMap = sSetterPropertyMap.get(targetClass);
                boolean wasInMap = false;
                if (propertyMap != null) {
                    wasInMap = propertyMap.containsKey(mPropertyName);
                    if (wasInMap) {
                        mSetter = propertyMap.get(mPropertyName);
                    }
                }
                if (!wasInMap) {
                    String methodName = getMethodName("set", mPropertyName);
                    calculateValue(0f);
                    float[] values = (float[]) getAnimatedValue();
                    int numParams = values.length;
                    Class<?>[] parameterTypes = new Class<?>[values.length];
                    for (int i = 0; i < numParams; i++) {
                        parameterTypes[i] = float.class;
                    }
                    try {
                        mSetter = targetClass.getMethod(methodName, parameterTypes);
                        if (mSetter == null) {
                            for (int i = 0; i < numParams; i++) {
                                parameterTypes[i] = Float.class;
                            }
                            mSetter = targetClass.getMethod(methodName, parameterTypes);
                        }
                    } catch (NoSuchMethodException e) {
                        e.printStackTrace();
                    }

                    if (propertyMap == null) {
                        propertyMap = new HashMap<>();
                        sSetterPropertyMap.put(targetClass, propertyMap);
                    }
                    propertyMap.put(mPropertyName, mSetter);
                }
            }
        }
    }

    static class MultiIntValuesHolder extends PropertyValuesHolder {

        MultiIntValuesHolder(String propertyName, TypeConverter converter,
                TypeEvaluator evaluator, Object... values) {
            super(propertyName);
            setConverter(converter);
            setObjectValues(values);
            setEvaluator(evaluator);
        }

        MultiIntValuesHolder(String propertyName, TypeConverter converter,
                TypeEvaluator evaluator, Keyframes keyframes) {
            super(propertyName);
            setConverter(converter);
            mKeyframes = keyframes;
            setEvaluator(evaluator);
        }

        /**
         * Internal function to set the value on the target object, using the setter set up
         * earlier on this PropertyValuesHolder object. This function is called by ObjectAnimator
         * to handle turning the value calculated by ValueAnimator into a value set on the object
         * according to the name of the property.
         * @param target The target object on which the value is set
         */
        @Override
        void setAnimatedValue(Object target) {
            int[] values = (int[]) getAnimatedValue();
            Object[] boxedValues = new Integer[values.length];
            for (int i = 0; i < boxedValues.length; i++) {
                boxedValues[i] = values[i];
            }
            if (mSetter != null) {
                try {
                    mSetter.invoke(target, boxedValues);
                } catch (InvocationTargetException e) {
                    Log.e("PropertyValuesHolder", e.toString());
                } catch (IllegalAccessException e) {
                    Log.e("PropertyValuesHolder", e.toString());
                }
            }
        }

        /**
         * Internal function (called from ObjectAnimator) to set up the setter and getter
         * prior to running the animation. No getter can be used for multiple parameters.
         *
         * @param target The object on which the setter exists.
         */
        @Override
        void setupSetterAndGetter(Object target) {
            setupSetter(target.getClass());
        }

        @Override
        @SuppressWarnings("CatchAndPrintStackTrace")
        void setupSetter(Class<?> targetClass) {
            synchronized (sSetterPropertyMap) {
                // Have to lock property map prior to reading it, to guard against
                // another thread putting something in there after we've checked it
                // but before we've added an entry to it
                HashMap<String, Method> propertyMap = sSetterPropertyMap.get(targetClass);
                boolean wasInMap = false;
                if (propertyMap != null) {
                    wasInMap = propertyMap.containsKey(mPropertyName);
                    if (wasInMap) {
                        mSetter = propertyMap.get(mPropertyName);
                    }
                }
                if (!wasInMap) {
                    String methodName = getMethodName("set", mPropertyName);
                    calculateValue(0f);
                    int[] values = (int[]) getAnimatedValue();
                    int numParams = values.length;
                    Class<?>[] parameterTypes = new Class<?>[values.length];
                    for (int i = 0; i < numParams; i++) {
                        parameterTypes[i] = int.class;
                    }
                    try {
                        mSetter = targetClass.getMethod(methodName, parameterTypes);
                        if (mSetter == null) {
                            for (int i = 0; i < numParams; i++) {
                                parameterTypes[i] = Integer.class;
                            }
                            mSetter = targetClass.getMethod(methodName, parameterTypes);
                        }
                    } catch (NoSuchMethodException e) {
                        e.printStackTrace();
                    }

                    if (propertyMap == null) {
                        propertyMap = new HashMap<>();
                        sSetterPropertyMap.put(targetClass, propertyMap);
                    }
                    propertyMap.put(mPropertyName, mSetter);
                }
            }
        }
    }

    /**
     * Convert from PointF to float[] for multi-float setters along a Path.
     */
    private static class PointFToFloatArray extends TypeConverter<PointF, float[]> {
        private float[] mCoordinates = new float[2];

        PointFToFloatArray() {
            super(PointF.class, float[].class);
        }

        @NonNull
        @Override
        public float[] convert(@NonNull PointF value) {
            mCoordinates[0] = value.x;
            mCoordinates[1] = value.y;
            return mCoordinates;
        }
    };

    /**
     * Convert from PointF to int[] for multi-int setters along a Path.
     */
    private static class PointFToIntArray extends TypeConverter<PointF, int[]> {
        private int[] mCoordinates = new int[2];

        PointFToIntArray() {
            super(PointF.class, int[].class);
        }

        @NonNull
        @Override
        public int[] convert(@NonNull PointF value) {
            mCoordinates[0] = Math.round(value.x);
            mCoordinates[1] = Math.round(value.y);
            return mCoordinates;
        }
    };
}