com.nineoldandroids.animation.PropertyValuesHolder Maven / Gradle / Ivy
/*
* Copyright (C) 2010 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.nineoldandroids.animation;
import android.util.Log;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.util.HashMap;
import java.util.concurrent.locks.ReentrantReadWriteLock;
import com.nineoldandroids.util.FloatProperty;
import com.nineoldandroids.util.IntProperty;
import com.nineoldandroids.util.Property;
/**
* 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.
*/
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;
/**
* @hide
*/
protected 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.
*/
KeyframeSet mKeyframeSet = null;
// type evaluators for the primitive types handled by this implementation
private static final TypeEvaluator sIntEvaluator = new IntEvaluator();
private static final TypeEvaluator sFloatEvaluator = new FloatEvaluator();
// 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 Class[] FLOAT_VARIANTS = {float.class, Float.class, double.class, int.class,
Double.class, Integer.class};
private static Class[] INTEGER_VARIANTS = {int.class, Integer.class, float.class, double.class,
Float.class, Double.class};
private static 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.
private static final HashMap> sSetterPropertyMap =
new HashMap>();
private static final HashMap> sGetterPropertyMap =
new HashMap>();
// This lock is used to ensure that only one thread is accessing the property maps
// at a time.
final ReentrantReadWriteLock mPropertyMapLock = new ReentrantReadWriteLock();
// 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;
/**
* Internal utility constructor, used by the factory methods to set the property name.
* @param propertyName The name of the property for this holder.
*/
private PropertyValuesHolder(String propertyName) {
mPropertyName = propertyName;
}
/**
* Internal utility constructor, used by the factory methods to set the property.
* @param property The property for this holder.
*/
private 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.
*/
public static PropertyValuesHolder ofInt(String propertyName, 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.
*/
public static PropertyValuesHolder ofInt(Property, Integer> property, int... values) {
return new IntPropertyValuesHolder(property, values);
}
/**
* 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.
*/
public static PropertyValuesHolder ofFloat(String propertyName, 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.
*/
public static PropertyValuesHolder ofFloat(Property, Float> property, float... values) {
return new FloatPropertyValuesHolder(property, 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.
*
* @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.
*/
public static PropertyValuesHolder ofObject(String propertyName, TypeEvaluator evaluator,
Object... values) {
PropertyValuesHolder pvh = new PropertyValuesHolder(propertyName);
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.
*
* @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.
*/
public static PropertyValuesHolder ofObject(Property property,
TypeEvaluator evaluator, V... values) {
PropertyValuesHolder pvh = new PropertyValuesHolder(property);
pvh.setObjectValues(values);
pvh.setEvaluator(evaluator);
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 android.animation.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
* {@link ObjectAnimator}, and with a getter function
* derived automatically from propertyName
, 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.
*/
public static PropertyValuesHolder ofKeyframe(String propertyName, Keyframe... values) {
KeyframeSet keyframeSet = KeyframeSet.ofKeyframe(values);
if (keyframeSet instanceof IntKeyframeSet) {
return new IntPropertyValuesHolder(propertyName, (IntKeyframeSet) keyframeSet);
} else if (keyframeSet instanceof FloatKeyframeSet) {
return new FloatPropertyValuesHolder(propertyName, (FloatKeyframeSet) keyframeSet);
}
else {
PropertyValuesHolder pvh = new PropertyValuesHolder(propertyName);
pvh.mKeyframeSet = keyframeSet;
pvh.mValueType = ((Keyframe)values[0]).getType();
return pvh;
}
}
/**
* 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 android.animation.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
* {@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.
*/
public static PropertyValuesHolder ofKeyframe(Property property, Keyframe... values) {
KeyframeSet keyframeSet = KeyframeSet.ofKeyframe(values);
if (keyframeSet instanceof IntKeyframeSet) {
return new IntPropertyValuesHolder(property, (IntKeyframeSet) keyframeSet);
} else if (keyframeSet instanceof FloatKeyframeSet) {
return new FloatPropertyValuesHolder(property, (FloatKeyframeSet) keyframeSet);
}
else {
PropertyValuesHolder pvh = new PropertyValuesHolder(property);
pvh.mKeyframeSet = keyframeSet;
pvh.mValueType = ((Keyframe)values[0]).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 propertyName
, 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(int... values) {
mValueType = int.class;
mKeyframeSet = 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 propertyName
, 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(float... values) {
mValueType = float.class;
mKeyframeSet = 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(Keyframe... values) {
int numKeyframes = values.length;
Keyframe keyframes[] = new Keyframe[Math.max(numKeyframes,2)];
mValueType = ((Keyframe)values[0]).getType();
for (int i = 0; i < numKeyframes; ++i) {
keyframes[i] = (Keyframe)values[i];
}
mKeyframeSet = 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 propertyName
, 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 setObjectValues(Object... values) {
mValueType = values[0].getClass();
mKeyframeSet = KeyframeSet.ofObject(values);
}
/**
* 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) {
Log.e("PropertyValuesHolder",
"Couldn't find no-arg method for property " + mPropertyName + ": " + e);
}
} else {
args = new Class[1];
Class typeVariants[];
if (mValueType.equals(Float.class)) {
typeVariants = FLOAT_VARIANTS;
} else if (mValueType.equals(Integer.class)) {
typeVariants = INTEGER_VARIANTS;
} else if (mValueType.equals(Double.class)) {
typeVariants = DOUBLE_VARIANTS;
} else {
typeVariants = new Class[1];
typeVariants[0] = mValueType;
}
for (Class typeVariant : typeVariants) {
args[0] = typeVariant;
try {
returnVal = targetClass.getMethod(methodName, args);
// 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
Log.e("PropertyValuesHolder",
"Couldn't find setter/getter for property " + mPropertyName +
" with value type "+ mValueType);
}
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> propertyMapMap,
String prefix, Class valueType) {
Method setterOrGetter = null;
try {
// 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
mPropertyMapLock.writeLock().lock();
HashMap propertyMap = propertyMapMap.get(targetClass);
if (propertyMap != null) {
setterOrGetter = propertyMap.get(mPropertyName);
}
if (setterOrGetter == null) {
setterOrGetter = getPropertyFunction(targetClass, prefix, valueType);
if (propertyMap == null) {
propertyMap = new HashMap();
propertyMapMap.put(targetClass, propertyMap);
}
propertyMap.put(mPropertyName, setterOrGetter);
}
} finally {
mPropertyMapLock.writeLock().unlock();
}
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) {
mSetter = setupSetterOrGetter(targetClass, sSetterPropertyMap, "set", mValueType);
}
/**
* 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 = mProperty.get(target);
for (Keyframe kf : mKeyframeSet.mKeyframes) {
if (!kf.hasValue()) {
kf.setValue(mProperty.get(target));
}
}
return;
} catch (ClassCastException e) {
Log.e("PropertyValuesHolder","No such property (" + mProperty.getName() +
") on target object " + target + ". Trying reflection instead");
mProperty = null;
}
}
Class targetClass = target.getClass();
if (mSetter == null) {
setupSetter(targetClass);
}
for (Keyframe kf : mKeyframeSet.mKeyframes) {
if (!kf.hasValue()) {
if (mGetter == null) {
setupGetter(targetClass);
}
try {
kf.setValue(mGetter.invoke(target));
} catch (InvocationTargetException e) {
Log.e("PropertyValuesHolder", e.toString());
} catch (IllegalAccessException e) {
Log.e("PropertyValuesHolder", e.toString());
}
}
}
}
/**
* 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) {
kf.setValue(mProperty.get(target));
}
try {
if (mGetter == null) {
Class targetClass = target.getClass();
setupGetter(targetClass);
}
kf.setValue(mGetter.invoke(target));
} 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) {
setupValue(target, mKeyframeSet.mKeyframes.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) {
setupValue(target, mKeyframeSet.mKeyframes.get(mKeyframeSet.mKeyframes.size() - 1));
}
@Override
public PropertyValuesHolder clone() {
try {
PropertyValuesHolder newPVH = (PropertyValuesHolder) super.clone();
newPVH.mPropertyName = mPropertyName;
newPVH.mProperty = mProperty;
newPVH.mKeyframeSet = mKeyframeSet.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) ? sIntEvaluator :
(mValueType == Float.class) ? sFloatEvaluator :
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
mKeyframeSet.setEvaluator(mEvaluator);
}
}
/**
* The TypeEvaluator will the 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(TypeEvaluator evaluator) {
mEvaluator = evaluator;
mKeyframeSet.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) {
mAnimatedValue = mKeyframeSet.getValue(fraction);
}
/**
* 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.
*
* @param propertyName The name of the property being animated.
*/
public void setPropertyName(String propertyName) {
mPropertyName = propertyName;
}
/**
* 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.
*
* @param property The property being animated.
*/
public void setProperty(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 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 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;
}
@Override
public String toString() {
return mPropertyName + ": " + mKeyframeSet.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 {
// Cache JNI functions to avoid looking them up twice
//private static final HashMap> sJNISetterPropertyMap =
// new HashMap>();
//int mJniSetter;
private IntProperty mIntProperty;
IntKeyframeSet mIntKeyframeSet;
int mIntAnimatedValue;
public IntPropertyValuesHolder(String propertyName, IntKeyframeSet keyframeSet) {
super(propertyName);
mValueType = int.class;
mKeyframeSet = keyframeSet;
mIntKeyframeSet = (IntKeyframeSet) mKeyframeSet;
}
public IntPropertyValuesHolder(Property property, IntKeyframeSet keyframeSet) {
super(property);
mValueType = int.class;
mKeyframeSet = keyframeSet;
mIntKeyframeSet = (IntKeyframeSet) mKeyframeSet;
if (property instanceof IntProperty) {
mIntProperty = (IntProperty) mProperty;
}
}
public IntPropertyValuesHolder(String propertyName, int... values) {
super(propertyName);
setIntValues(values);
}
public IntPropertyValuesHolder(Property property, int... values) {
super(property);
setIntValues(values);
if (property instanceof IntProperty) {
mIntProperty = (IntProperty) mProperty;
}
}
@Override
public void setIntValues(int... values) {
super.setIntValues(values);
mIntKeyframeSet = (IntKeyframeSet) mKeyframeSet;
}
@Override
void calculateValue(float fraction) {
mIntAnimatedValue = mIntKeyframeSet.getIntValue(fraction);
}
@Override
Object getAnimatedValue() {
return mIntAnimatedValue;
}
@Override
public IntPropertyValuesHolder clone() {
IntPropertyValuesHolder newPVH = (IntPropertyValuesHolder) super.clone();
newPVH.mIntKeyframeSet = (IntKeyframeSet) newPVH.mKeyframeSet;
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;
}
//if (mJniSetter != 0) {
// nCallIntMethod(target, mJniSetter, mIntAnimatedValue);
// return;
//}
if (mSetter != null) {
try {
mTmpValueArray[0] = mIntAnimatedValue;
mSetter.invoke(target, mTmpValueArray);
} catch (InvocationTargetException e) {
Log.e("PropertyValuesHolder", e.toString());
} catch (IllegalAccessException e) {
Log.e("PropertyValuesHolder", e.toString());
}
}
}
@Override
void setupSetter(Class targetClass) {
if (mProperty != null) {
return;
}
// Check new static hashmap for setter method
//try {
// mPropertyMapLock.writeLock().lock();
// HashMap propertyMap = sJNISetterPropertyMap.get(targetClass);
// if (propertyMap != null) {
// Integer mJniSetterInteger = propertyMap.get(mPropertyName);
// if (mJniSetterInteger != null) {
// mJniSetter = mJniSetterInteger;
// }
// }
// if (mJniSetter == 0) {
// String methodName = getMethodName("set", mPropertyName);
// mJniSetter = nGetIntMethod(targetClass, methodName);
// if (mJniSetter != 0) {
// if (propertyMap == null) {
// propertyMap = new HashMap();
// sJNISetterPropertyMap.put(targetClass, propertyMap);
// }
// propertyMap.put(mPropertyName, mJniSetter);
// }
// }
//} catch (NoSuchMethodError e) {
// Log.d("PropertyValuesHolder",
// "Can't find native method using JNI, use reflection" + e);
//} finally {
// mPropertyMapLock.writeLock().unlock();
//}
//if (mJniSetter == 0) {
// Couldn't find method through fast JNI approach - just use reflection
super.setupSetter(targetClass);
//}
}
}
static class FloatPropertyValuesHolder extends PropertyValuesHolder {
// Cache JNI functions to avoid looking them up twice
//private static final HashMap> sJNISetterPropertyMap =
// new HashMap>();
//int mJniSetter;
private FloatProperty mFloatProperty;
FloatKeyframeSet mFloatKeyframeSet;
float mFloatAnimatedValue;
public FloatPropertyValuesHolder(String propertyName, FloatKeyframeSet keyframeSet) {
super(propertyName);
mValueType = float.class;
mKeyframeSet = keyframeSet;
mFloatKeyframeSet = (FloatKeyframeSet) mKeyframeSet;
}
public FloatPropertyValuesHolder(Property property, FloatKeyframeSet keyframeSet) {
super(property);
mValueType = float.class;
mKeyframeSet = keyframeSet;
mFloatKeyframeSet = (FloatKeyframeSet) mKeyframeSet;
if (property instanceof FloatProperty) {
mFloatProperty = (FloatProperty) mProperty;
}
}
public FloatPropertyValuesHolder(String propertyName, float... values) {
super(propertyName);
setFloatValues(values);
}
public FloatPropertyValuesHolder(Property property, float... values) {
super(property);
setFloatValues(values);
if (property instanceof FloatProperty) {
mFloatProperty = (FloatProperty) mProperty;
}
}
@Override
public void setFloatValues(float... values) {
super.setFloatValues(values);
mFloatKeyframeSet = (FloatKeyframeSet) mKeyframeSet;
}
@Override
void calculateValue(float fraction) {
mFloatAnimatedValue = mFloatKeyframeSet.getFloatValue(fraction);
}
@Override
Object getAnimatedValue() {
return mFloatAnimatedValue;
}
@Override
public FloatPropertyValuesHolder clone() {
FloatPropertyValuesHolder newPVH = (FloatPropertyValuesHolder) super.clone();
newPVH.mFloatKeyframeSet = (FloatKeyframeSet) newPVH.mKeyframeSet;
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 (mJniSetter != 0) {
// nCallFloatMethod(target, mJniSetter, 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());
}
}
}
@Override
void setupSetter(Class targetClass) {
if (mProperty != null) {
return;
}
// Check new static hashmap for setter method
//try {
// mPropertyMapLock.writeLock().lock();
// HashMap propertyMap = sJNISetterPropertyMap.get(targetClass);
// if (propertyMap != null) {
// Integer mJniSetterInteger = propertyMap.get(mPropertyName);
// if (mJniSetterInteger != null) {
// mJniSetter = mJniSetterInteger;
// }
// }
// if (mJniSetter == 0) {
// String methodName = getMethodName("set", mPropertyName);
// mJniSetter = nGetFloatMethod(targetClass, methodName);
// if (mJniSetter != 0) {
// if (propertyMap == null) {
// propertyMap = new HashMap();
// sJNISetterPropertyMap.put(targetClass, propertyMap);
// }
// propertyMap.put(mPropertyName, mJniSetter);
// }
// }
//} catch (NoSuchMethodError e) {
// Log.d("PropertyValuesHolder",
// "Can't find native method using JNI, use reflection" + e);
//} finally {
// mPropertyMapLock.writeLock().unlock();
//}
//if (mJniSetter == 0) {
// Couldn't find method through fast JNI approach - just use reflection
super.setupSetter(targetClass);
//}
}
}
//native static private int nGetIntMethod(Class targetClass, String methodName);
//native static private int nGetFloatMethod(Class targetClass, String methodName);
//native static private void nCallIntMethod(Object target, int methodID, int arg);
//native static private void nCallFloatMethod(Object target, int methodID, float arg);
}