Android 动画总结(1) - 概述
Android 动画总结(2) - 帧动画
Android 动画总结(3) - 补间动画
Android 动画总结(4) - 插值器
Android 动画总结(5) - 属性动画
Android 动画总结(7) - ViewGroup 子元素间的动画
Android 动画总结(8) - Activity 转场动画
Android 动画总结(9) - 过渡动画
插值器算出属性改变的百分比,Evaluator 估值器根据这个百分比算出属性值。
ArgbEvaluator
public class ArgbEvaluator implements TypeEvaluator {
private static final ArgbEvaluator sInstance = new ArgbEvaluator();
public static ArgbEvaluator getInstance() {
return sInstance;
}
/**
* fraction 是一个 0-1 的比例值,表示动画执行时间已经执行到了多少
*/
public Object evaluate(float fraction, Object startValue, Object endValue) {
int startInt = (Integer) startValue;
float startA = ((startInt >> 24) & 0xff) / 255.0f;
float startR = ((startInt >> 16) & 0xff) / 255.0f;
float startG = ((startInt >> 8) & 0xff) / 255.0f;
float startB = ( startInt & 0xff) / 255.0f;
int endInt = (Integer) endValue;
float endA = ((endInt >> 24) & 0xff) / 255.0f;
float endR = ((endInt >> 16) & 0xff) / 255.0f;
float endG = ((endInt >> 8) & 0xff) / 255.0f;
float endB = ( endInt & 0xff) / 255.0f;
// convert from sRGB to linear
startR = (float) Math.pow(startR, 2.2);
startG = (float) Math.pow(startG, 2.2);
startB = (float) Math.pow(startB, 2.2);
endR = (float) Math.pow(endR, 2.2);
endG = (float) Math.pow(endG, 2.2);
endB = (float) Math.pow(endB, 2.2);
// compute the interpolated color in linear space
float a = startA + fraction * (endA - startA);
float r = startR + fraction * (endR - startR);
float g = startG + fraction * (endG - startG);
float b = startB + fraction * (endB - startB);
// convert back to sRGB in the [0..255] range
a = a * 255.0f;
r = (float) Math.pow(r, 1.0 / 2.2) * 255.0f;
g = (float) Math.pow(g, 1.0 / 2.2) * 255.0f;
b = (float) Math.pow(b, 1.0 / 2.2) * 255.0f;
return Math.round(a) << 24 | Math.round(r) << 16 | Math.round(g) << 8 | Math.round(b);
}
}
IntEvaluator
public class IntEvaluator implements TypeEvaluator<Integer> {
public Integer evaluate(float fraction, Integer startValue, Integer endValue) {
int startInt = startValue;
return (int)(startInt + fraction * (endValue - startInt));
}
}
IntArrayEvaluator
public class IntArrayEvaluator implements TypeEvaluator<int[]> {
private int[] mArray;
public IntArrayEvaluator() {
}
public IntArrayEvaluator(int[] reuseArray) {
mArray = reuseArray;
}
@Override
public int[] evaluate(float fraction, int[] startValue, int[] endValue) {
int[] array = mArray;
if (array == null) {
array = new int[startValue.length];
}
for (int i = 0; i < array.length; i++) {
int start = startValue[i];
int end = endValue[i];
array[i] = (int) (start + (fraction * (end - start)));
}
return array;
}
}
FloatEvaluator
public class FloatEvaluator implements TypeEvaluator<Number> {
public Float evaluate(float fraction, Number startValue, Number endValue) {
float startFloat = startValue.floatValue();
return startFloat + fraction * (endValue.floatValue() - startFloat);
}
}
FloatArrayEvaluator
public class FloatArrayEvaluator implements TypeEvaluator<float[]> {
private float[] mArray;
public FloatArrayEvaluator() {
}
public FloatArrayEvaluator(float[] reuseArray) {
mArray = reuseArray;
}
@Override
public float[] evaluate(float fraction, float[] startValue, float[] endValue) {
float[] array = mArray;
if (array == null) {
array = new float[startValue.length];
}
for (int i = 0; i < array.length; i++) {
float start = startValue[i];
float end = endValue[i];
array[i] = start + (fraction * (end - start));
}
return array;
}
}
PointFEvaluator
public class PointFEvaluator implements TypeEvaluator<PointF> {
private PointF mPoint;
public PointFEvaluator() {
}
public PointFEvaluator(PointF reuse) {
mPoint = reuse;
}
@Override
public PointF evaluate(float fraction, PointF startValue, PointF endValue) {
float x = startValue.x + (fraction * (endValue.x - startValue.x));
float y = startValue.y + (fraction * (endValue.y - startValue.y));
if (mPoint != null) {
mPoint.set(x, y);
return mPoint;
} else {
return new PointF(x, y);
}
}
}
