public void setIsBlurred(final boolean isBlurred, final boolean artDetailMode) {
if (artDetailMode && !isBlurred && !mDemoMode && !mPreview) {
// Reset art detail viewport
ArtDetailViewport.getInstance().setViewport(0, 0, 0, 0, 0, false);
ArtDetailViewport.getInstance().setViewport(1, 0, 0, 0, 0, false);
}
mBlurRelatedToArtDetailMode = artDetailMode;
mIsBlurred = isBlurred;
mBlurAnimator.cancel();
mBlurAnimator
.to(isBlurred ? mBlurKeyframes : 0)
.withDuration(BLUR_ANIMATION_DURATION * (mDemoMode ? 5 : 1))
.withEndListener(
new Runnable() {
@Override
public void run() {
if (isBlurred && artDetailMode) {
System.gc();
}
}
})
.start();
mCallbacks.requestRender();
}
public void setAndConsumeBitmapRegionLoader(final BitmapRegionLoader bitmapRegionLoader) {
if (!mSurfaceCreated) {
mQueuedNextBitmapRegionLoader = bitmapRegionLoader;
return;
}
if (mCrossfadeAnimator.isRunning()) {
if (mQueuedNextBitmapRegionLoader != null) {
mQueuedNextBitmapRegionLoader.destroy();
}
mQueuedNextBitmapRegionLoader = bitmapRegionLoader;
return;
}
mNextGLPictureSet.load(bitmapRegionLoader);
mCrossfadeAnimator
.from(0)
.to(1)
.withDuration(CROSSFADE_ANIMATION_DURATION)
.withEndListener(
new Runnable() {
@Override
public void run() {
// swap current and next picturesets
final GLPictureSet oldGLPictureSet = mCurrentGLPictureSet;
mCurrentGLPictureSet = mNextGLPictureSet;
mNextGLPictureSet = new GLPictureSet(oldGLPictureSet.mId);
mCallbacks.requestRender();
oldGLPictureSet.destroyPictures();
System.gc();
if (mQueuedNextBitmapRegionLoader != null) {
BitmapRegionLoader queuedNextBitmapRegionLoader = mQueuedNextBitmapRegionLoader;
mQueuedNextBitmapRegionLoader = null;
setAndConsumeBitmapRegionLoader(queuedNextBitmapRegionLoader);
}
}
})
.start();
mCallbacks.requestRender();
}
public void onDrawFrame(GL10 unused) {
GLES20.glClear(GLES20.GL_COLOR_BUFFER_BIT);
Matrix.setIdentityM(mMMatrix, 0);
boolean stillAnimating = mCrossfadeAnimator.tick();
stillAnimating |= mBlurAnimator.tick();
if (mBlurRelatedToArtDetailMode) {
mCurrentGLPictureSet.recomputeTransformMatrices();
mNextGLPictureSet.recomputeTransformMatrices();
}
float dimAmount = mCurrentGLPictureSet.mDimAmount;
mCurrentGLPictureSet.drawFrame(1);
if (mCrossfadeAnimator.isRunning()) {
dimAmount =
MathUtil.interpolate(
dimAmount, mNextGLPictureSet.mDimAmount, mCrossfadeAnimator.currentValue());
mNextGLPictureSet.drawFrame(mCrossfadeAnimator.currentValue());
}
mColorOverlay.setColor(
Color.argb((int) (dimAmount * mBlurAnimator.currentValue() / mBlurKeyframes), 0, 0, 0));
mColorOverlay.draw(mMMatrix); // don't need any perspective or anything for color overlay
if (stillAnimating) {
mCallbacks.requestRender();
}
}
public BlurRenderer(Context context, Callbacks callbacks) {
mContext = context;
mCallbacks = callbacks;
mBlurKeyframes = getNumberOfKeyframes(); // 低内存返回1,其他返回5
mBlurAnimator = TickingFloatAnimator.create().from(mBlurKeyframes);
mCurrentGLPictureSet = new GLPictureSet(0);
mNextGLPictureSet = new GLPictureSet(1); // for transitioning to next pictures
setNormalOffsetX(0);
recomputeMaxPrescaledBlurPixels();
recomputeMaxDimAmount();
recomputeGreyAmount();
}
public class BlurRenderer implements GLSurfaceView.Renderer {
private static final int CROSSFADE_ANIMATION_DURATION = 750;
private static final int BLUR_ANIMATION_DURATION = 750;
public static final int DEFAULT_BLUR = 250; // max 500
public static final int DEFAULT_GREY = 0; // max 500
public static final int DEMO_DIM = 64;
public static final int DEFAULT_MAX_DIM = 128; // technical max 255
public static final float DIM_RANGE = 0.5f; // percent of max dim
private boolean mDemoMode;
private boolean mPreview;
private int mMaxPrescaledBlurPixels;
private int mBlurKeyframes = 3;
private int mBlurredSampleSize;
private int mMaxDim;
private int mMaxGrey;
// Model and view matrices. Projection and MVP stored in picture set
private final float[] mMMatrix = new float[16];
private final float[] mVMatrix = new float[16];
private Callbacks mCallbacks;
private float mAspectRatio;
private int mHeight;
private GLPictureSet mCurrentGLPictureSet;
private GLPictureSet mNextGLPictureSet;
private GLColorOverlay mColorOverlay;
private BitmapRegionLoader mQueuedNextBitmapRegionLoader;
private boolean mSurfaceCreated;
private volatile float mNormalOffsetX;
private volatile RectF mCurrentViewport = new RectF(); // [-1, -1] to [1, 1], flipped
private Context mContext;
private boolean mIsBlurred = true;
private boolean mBlurRelatedToArtDetailMode = false;
private Interpolator mBlurInterpolator = new AccelerateDecelerateInterpolator();
private TickingFloatAnimator mBlurAnimator;
private TickingFloatAnimator mCrossfadeAnimator = TickingFloatAnimator.create().from(0);
public BlurRenderer(Context context, Callbacks callbacks) {
mContext = context;
mCallbacks = callbacks;
mBlurKeyframes = getNumberOfKeyframes(); // 低内存返回1,其他返回5
mBlurAnimator = TickingFloatAnimator.create().from(mBlurKeyframes);
mCurrentGLPictureSet = new GLPictureSet(0);
mNextGLPictureSet = new GLPictureSet(1); // for transitioning to next pictures
setNormalOffsetX(0);
recomputeMaxPrescaledBlurPixels();
recomputeMaxDimAmount();
recomputeGreyAmount();
}
@TargetApi(Build.VERSION_CODES.KITKAT)
private int getNumberOfKeyframes() {
if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.KITKAT) {
ActivityManager activityManager =
(ActivityManager) mContext.getSystemService(Context.ACTIVITY_SERVICE);
if (activityManager.isLowRamDevice()) {
return 1;
}
}
return 5;
}
public void recomputeMaxPrescaledBlurPixels() {
// Compute blur sizes
float maxBlurRadiusOverScreenHeight =
PreferenceManager.getDefaultSharedPreferences(mContext).getInt("blur_amount", DEFAULT_BLUR)
* 0.0001f;
DisplayMetrics dm = mContext.getResources().getDisplayMetrics();
int maxBlurPx = (int) (dm.heightPixels * maxBlurRadiusOverScreenHeight);
mBlurredSampleSize = 4;
while (maxBlurPx / mBlurredSampleSize > ImageBlurrer.MAX_SUPPORTED_BLUR_PIXELS) {
mBlurredSampleSize <<= 1;
}
mMaxPrescaledBlurPixels = maxBlurPx / mBlurredSampleSize;
}
public void recomputeMaxDimAmount() {
mMaxDim =
PreferenceManager.getDefaultSharedPreferences(mContext)
.getInt("dim_amount", DEFAULT_MAX_DIM);
}
public void recomputeGreyAmount() {
mMaxGrey =
PreferenceManager.getDefaultSharedPreferences(mContext).getInt("grey_amount", DEFAULT_GREY);
}
public void onSurfaceCreated(GL10 unused, EGLConfig config) {
mSurfaceCreated = false;
GLES20.glEnable(GLES20.GL_BLEND);
// GLES20.glBlendFunc(GLES20.GL_SRC_ALPHA, GLES20.GL_ONE_MINUS_SRC_ALPHA);
GLES20.glBlendFuncSeparate(
GLES20.GL_SRC_ALPHA, GLES20.GL_ONE_MINUS_SRC_ALPHA, GLES20.GL_ONE, GLES20.GL_ONE);
GLES20.glClearColor(0, 0, 0, 0);
// Set the camera position (View matrix)
Matrix.setLookAtM(mVMatrix, 0, 0, 0, 1, 0, 0, -1, 0, 1, 0);
GLColorOverlay.initGl();
GLPicture.initGl();
mColorOverlay = new GLColorOverlay(0);
mSurfaceCreated = true;
if (mQueuedNextBitmapRegionLoader != null) {
BitmapRegionLoader loader = mQueuedNextBitmapRegionLoader;
mQueuedNextBitmapRegionLoader = null;
setAndConsumeBitmapRegionLoader(loader);
}
}
public void onSurfaceChanged(GL10 unused, int width, int height) {
GLES20.glViewport(0, 0, width, height);
hintViewportSize(width, height);
if (!mDemoMode && !mPreview) {
// Reset art detail viewports
ArtDetailViewport.getInstance().setViewport(0, 0, 0, 0, 0, false);
ArtDetailViewport.getInstance().setViewport(1, 0, 0, 0, 0, false);
}
mCurrentGLPictureSet.recomputeTransformMatrices();
mNextGLPictureSet.recomputeTransformMatrices();
recomputeMaxPrescaledBlurPixels();
}
public void hintViewportSize(int width, int height) {
mHeight = height;
mAspectRatio = width * 1f / height;
}
public void onDrawFrame(GL10 unused) {
GLES20.glClear(GLES20.GL_COLOR_BUFFER_BIT);
Matrix.setIdentityM(mMMatrix, 0);
boolean stillAnimating = mCrossfadeAnimator.tick();
stillAnimating |= mBlurAnimator.tick();
if (mBlurRelatedToArtDetailMode) {
mCurrentGLPictureSet.recomputeTransformMatrices();
mNextGLPictureSet.recomputeTransformMatrices();
}
float dimAmount = mCurrentGLPictureSet.mDimAmount;
mCurrentGLPictureSet.drawFrame(1);
if (mCrossfadeAnimator.isRunning()) {
dimAmount =
MathUtil.interpolate(
dimAmount, mNextGLPictureSet.mDimAmount, mCrossfadeAnimator.currentValue());
mNextGLPictureSet.drawFrame(mCrossfadeAnimator.currentValue());
}
mColorOverlay.setColor(
Color.argb((int) (dimAmount * mBlurAnimator.currentValue() / mBlurKeyframes), 0, 0, 0));
mColorOverlay.draw(mMMatrix); // don't need any perspective or anything for color overlay
if (stillAnimating) {
mCallbacks.requestRender();
}
}
public void setNormalOffsetX(float x) {
mNormalOffsetX = MathUtil.constrain(0, 1, x);
onViewportChanged();
}
private void onViewportChanged() {
mCurrentGLPictureSet.recomputeTransformMatrices();
mNextGLPictureSet.recomputeTransformMatrices();
if (mSurfaceCreated) {
mCallbacks.requestRender();
}
}
private float blurRadiusAtFrame(float f) {
return mMaxPrescaledBlurPixels * mBlurInterpolator.getInterpolation(f / mBlurKeyframes);
}
public void setAndConsumeBitmapRegionLoader(final BitmapRegionLoader bitmapRegionLoader) {
if (!mSurfaceCreated) {
mQueuedNextBitmapRegionLoader = bitmapRegionLoader;
return;
}
if (mCrossfadeAnimator.isRunning()) {
if (mQueuedNextBitmapRegionLoader != null) {
mQueuedNextBitmapRegionLoader.destroy();
}
mQueuedNextBitmapRegionLoader = bitmapRegionLoader;
return;
}
mNextGLPictureSet.load(bitmapRegionLoader);
mCrossfadeAnimator
.from(0)
.to(1)
.withDuration(CROSSFADE_ANIMATION_DURATION)
.withEndListener(
new Runnable() {
@Override
public void run() {
// swap current and next picturesets
final GLPictureSet oldGLPictureSet = mCurrentGLPictureSet;
mCurrentGLPictureSet = mNextGLPictureSet;
mNextGLPictureSet = new GLPictureSet(oldGLPictureSet.mId);
mCallbacks.requestRender();
oldGLPictureSet.destroyPictures();
System.gc();
if (mQueuedNextBitmapRegionLoader != null) {
BitmapRegionLoader queuedNextBitmapRegionLoader = mQueuedNextBitmapRegionLoader;
mQueuedNextBitmapRegionLoader = null;
setAndConsumeBitmapRegionLoader(queuedNextBitmapRegionLoader);
}
}
})
.start();
mCallbacks.requestRender();
}
public void setDemoMode(boolean demoMode) {
mDemoMode = demoMode;
}
public void setIsPreview(boolean preview) {
mPreview = preview;
}
private class GLPictureSet {
private int mId;
private volatile float[] mPMatrix = new float[16];
private final float[] mMVPMatrix = new float[16];
private GLPicture[] mPictures = new GLPicture[mBlurKeyframes + 1];
private boolean mHasBitmap = false;
private float mBitmapAspectRatio = 1f;
private int mDimAmount = 0;
public GLPictureSet(int id) {
mId = id;
}
public void load(BitmapRegionLoader bitmapRegionLoader) {
mHasBitmap = (bitmapRegionLoader != null);
mBitmapAspectRatio =
mHasBitmap ? bitmapRegionLoader.getWidth() * 1f / bitmapRegionLoader.getHeight() : 1f;
mDimAmount = DEFAULT_MAX_DIM;
destroyPictures();
if (bitmapRegionLoader != null) {
BitmapFactory.Options options = new BitmapFactory.Options();
Rect rect = new Rect();
int originalWidth = bitmapRegionLoader.getWidth();
int originalHeight = bitmapRegionLoader.getHeight();
// Calculate image darkness to determine dim amount
rect.set(0, 0, originalWidth, originalHeight);
options.inSampleSize = ImageUtil.calculateSampleSize(originalHeight, 64);
Bitmap tempBitmap = bitmapRegionLoader.decodeRegion(rect, options);
float darkness = ImageUtil.calculateDarkness(tempBitmap);
mDimAmount =
mDemoMode
? DEMO_DIM
: (int) (mMaxDim * ((1 - DIM_RANGE) + DIM_RANGE * Math.sqrt(darkness)));
tempBitmap.recycle();
// Create the GLPicture objects
mPictures[0] = new GLPicture(bitmapRegionLoader, mHeight);
if (mMaxPrescaledBlurPixels == 0) {
for (int f = 1; f <= mBlurKeyframes; f++) {
mPictures[f] = mPictures[0];
}
} else {
ImageBlurrer blurrer = new ImageBlurrer(mContext);
// To blur, first load the entire bitmap region, but at a very large
// sample size that's appropriate for the final blurred image
options.inSampleSize =
ImageUtil.calculateSampleSize(originalHeight, mHeight / mBlurredSampleSize);
rect.set(0, 0, originalWidth, originalHeight);
tempBitmap = bitmapRegionLoader.decodeRegion(rect, options);
// Next, create a scaled down version of the bitmap so that the blur radius
// looks appropriate (tempBitmap will likely be bigger than the final blurred
// bitmap, and thus the blur may look smaller if we just used tempBitmap as
// the final blurred bitmap).
// Note that image width should be a multiple of 4 to avoid
// issues with RenderScript allocations.
int scaledHeight = Math.max(2, MathUtil.floorEven(mHeight / mBlurredSampleSize));
int scaledWidth =
Math.max(4, MathUtil.roundMult4((int) (scaledHeight * mBitmapAspectRatio)));
Bitmap scaledBitmap =
Bitmap.createScaledBitmap(tempBitmap, scaledWidth, scaledHeight, true);
tempBitmap.recycle();
// And finally, create a blurred copy for each keyframe.
for (int f = 1; f <= mBlurKeyframes; f++) {
float desaturateAmount = mMaxGrey / 500f * f / mBlurKeyframes;
Bitmap blurredBitmap =
blurrer.blurBitmap(scaledBitmap, blurRadiusAtFrame(f), desaturateAmount);
mPictures[f] = new GLPicture(blurredBitmap);
blurredBitmap.recycle();
}
scaledBitmap.recycle();
blurrer.destroy();
}
}
recomputeTransformMatrices();
mCallbacks.requestRender();
}
private void recomputeTransformMatrices() {
float screenToBitmapAspectRatio = mAspectRatio / mBitmapAspectRatio;
// Ensure the bitmap is wider than the screen relatively by applying zoom
// if necessary. Vary width but keep height the same.
float zoom = Math.max(1f, 1.15f * screenToBitmapAspectRatio);
// Total scale factors in both zoom and scale due to aspect ratio.
float totalScale = zoom / screenToBitmapAspectRatio;
mCurrentViewport.left =
MathUtil.interpolate(
-1f
* Math.min(
1f,
screenToBitmapAspectRatio), // remove screenToBitmapAspectRatio to unconstrain
// panning amount
1f * Math.min(1f, screenToBitmapAspectRatio),
mNormalOffsetX * (totalScale - 1) / totalScale);
mCurrentViewport.right = mCurrentViewport.left + 2f / totalScale;
mCurrentViewport.bottom = -1f / zoom;
mCurrentViewport.top = 1f / zoom;
float focusAmount = (mBlurKeyframes - mBlurAnimator.currentValue()) / mBlurKeyframes;
if (mBlurRelatedToArtDetailMode && focusAmount > 0) {
RectF artDetailViewport = ArtDetailViewport.getInstance().getViewport(mId);
if (artDetailViewport.width() == 0 || artDetailViewport.height() == 0) {
if (!mDemoMode && !mPreview) {
// reset art detail viewport
ArtDetailViewport.getInstance()
.setViewport(
mId,
MathUtil.uninterpolate(-1, 1, mCurrentViewport.left),
MathUtil.uninterpolate(1, -1, mCurrentViewport.top),
MathUtil.uninterpolate(-1, 1, mCurrentViewport.right),
MathUtil.uninterpolate(1, -1, mCurrentViewport.bottom),
false);
}
} else {
// interpolate
mCurrentViewport.left =
MathUtil.interpolate(
mCurrentViewport.left,
MathUtil.interpolate(-1, 1, artDetailViewport.left),
focusAmount);
mCurrentViewport.top =
MathUtil.interpolate(
mCurrentViewport.top,
MathUtil.interpolate(1, -1, artDetailViewport.top),
focusAmount);
mCurrentViewport.right =
MathUtil.interpolate(
mCurrentViewport.right,
MathUtil.interpolate(-1, 1, artDetailViewport.right),
focusAmount);
mCurrentViewport.bottom =
MathUtil.interpolate(
mCurrentViewport.bottom,
MathUtil.interpolate(1, -1, artDetailViewport.bottom),
focusAmount);
}
}
Matrix.orthoM(
mPMatrix,
0,
mCurrentViewport.left,
mCurrentViewport.right,
mCurrentViewport.bottom,
mCurrentViewport.top,
1,
10);
}
public void drawFrame(float globalAlpha) {
if (!mHasBitmap) {
return;
}
Matrix.multiplyMM(mMVPMatrix, 0, mVMatrix, 0, mMMatrix, 0);
Matrix.multiplyMM(mMVPMatrix, 0, mPMatrix, 0, mMVPMatrix, 0);
float blurFrame = mBlurAnimator.currentValue();
int lo = (int) Math.floor(blurFrame);
int hi = (int) Math.ceil(blurFrame);
float localHiAlpha = (blurFrame - lo);
if (globalAlpha <= 0) {
// Nothing to draw
} else if (lo == hi) {
// Just draw one
mPictures[lo].draw(mMVPMatrix, globalAlpha);
} else if (globalAlpha == 1) {
// Simple drawing
mPictures[lo].draw(mMVPMatrix, 1);
mPictures[hi].draw(mMVPMatrix, localHiAlpha);
} else {
// If there's both a global and local alpha, re-compose alphas, to
// effectively compose hi and lo before composing the result
// with the background.
//
// The math, where a1,a2 are previous alphas and b1,b2 are new alphas:
// b1 = a1 * (a2 - 1) / (a1 * a2 - 1)
// b2 = a1 * a2
float newLocalLoAlpha = globalAlpha * (localHiAlpha - 1) / (globalAlpha * localHiAlpha - 1);
float newLocalHiAlpha = globalAlpha * localHiAlpha;
mPictures[lo].draw(mMVPMatrix, newLocalLoAlpha);
mPictures[hi].draw(mMVPMatrix, newLocalHiAlpha);
}
}
public void destroyPictures() {
for (int i = 0; i < mPictures.length; i++) {
if (mPictures[i] == null) {
continue;
}
mPictures[i].destroy();
mPictures[i] = null;
}
}
}
public void destroy() {
mCurrentGLPictureSet.destroyPictures();
mNextGLPictureSet.destroyPictures();
}
public boolean isBlurred() {
return mIsBlurred;
}
public void setIsBlurred(final boolean isBlurred, final boolean artDetailMode) {
if (artDetailMode && !isBlurred && !mDemoMode && !mPreview) {
// Reset art detail viewport
ArtDetailViewport.getInstance().setViewport(0, 0, 0, 0, 0, false);
ArtDetailViewport.getInstance().setViewport(1, 0, 0, 0, 0, false);
}
mBlurRelatedToArtDetailMode = artDetailMode;
mIsBlurred = isBlurred;
mBlurAnimator.cancel();
mBlurAnimator
.to(isBlurred ? mBlurKeyframes : 0)
.withDuration(BLUR_ANIMATION_DURATION * (mDemoMode ? 5 : 1))
.withEndListener(
new Runnable() {
@Override
public void run() {
if (isBlurred && artDetailMode) {
System.gc();
}
}
})
.start();
mCallbacks.requestRender();
}
public static interface Callbacks {
void requestRender();
}
}
