package com.kaixin.android.ui.base;
import android.content.Context;
import android.graphics.Bitmap;
import android.graphics.Matrix;
import android.graphics.RectF;
import android.graphics.drawable.Drawable;
import android.os.Handler;
import android.util.AttributeSet;
import android.view.KeyEvent;
import android.widget.ImageView;
public abstract class ImageViewTouchBase extends ImageView {
@SuppressWarnings("unused")
private static final String TAG = "ImageViewTouchBase";
// This is the base transformation which is used to show the image
// initially. The current computation for this shows the image in
// it's entirety, letterboxing as needed. One could choose to
// show the image as cropped instead.
//
// This matrix is recomputed when we go from the thumbnail image to
// the full size image.
protected Matrix mBaseMatrix = new Matrix();
// This is the supplementary transformation which reflects what
// the user has done in terms of zooming and panning.
//
// This matrix remains the same when we go from the thumbnail image
// to the full size image.
protected Matrix mSuppMatrix = new Matrix();
// This is the final matrix which is computed as the concatentation
// of the base matrix and the supplementary matrix.
private final Matrix mDisplayMatrix = new Matrix();
// Temporary buffer used for getting the values out of a matrix.
private final float[] mMatrixValues = new float[9];
// The current bitmap being displayed.
final public RotateBitmap mBitmapDisplayed = new RotateBitmap(null);
int mThisWidth = -1, mThisHeight = -1;
float mMaxZoom;
/**
* 高亮状态
*/
public static final int STATE_HIGHLIGHT = 0x0;
/**
* 涂鸦状态
*/
public static final int STATE_DOODLE = STATE_HIGHLIGHT + 1;
/**
* 没有任何操作
*/
public static final int STATE_NONE = STATE_HIGHLIGHT + 2;
protected int mState = STATE_HIGHLIGHT;
// ImageViewTouchBase will pass a Bitmap to the Recycler if it has finished
// its use of that Bitmap.
public interface Recycler {
public void recycle(Bitmap b);
}
public void setRecycler(Recycler r) {
mRecycler = r;
}
private Recycler mRecycler;
@Override
protected void onLayout(boolean changed, int left, int top, int right, int bottom) {
super.onLayout(changed, left, top, right, bottom);
mThisWidth = right - left;
mThisHeight = bottom - top;
Runnable r = mOnLayoutRunnable;
if (r != null) {
mOnLayoutRunnable = null;
r.run();
}
if (mBitmapDisplayed.getBitmap() != null) {
getProperBaseMatrix(mBitmapDisplayed, mBaseMatrix);
setImageMatrix(getImageViewMatrix());
}
}
@Override
public boolean onKeyDown(int keyCode, KeyEvent event) {
if (keyCode == KeyEvent.KEYCODE_BACK && getScale() > 1.0f) {
// If we're zoomed in, pressing Back jumps out to show the entire
// image, otherwise Back returns the user to the gallery.
zoomTo(1.0f);
return true;
}
return super.onKeyDown(keyCode, event);
}
protected Handler mHandler = new Handler();
protected int mLastXTouchPos;
protected int mLastYTouchPos;
@Override
public void setImageBitmap(Bitmap bitmap) {
setImageBitmap(bitmap, 0);
}
private void setImageBitmap(Bitmap bitmap, int rotation) {
super.setImageBitmap(bitmap);
Drawable d = getDrawable();
if (d != null) {
d.setDither(true);
}
Bitmap old = mBitmapDisplayed.getBitmap();
mBitmapDisplayed.setBitmap(bitmap);
mBitmapDisplayed.setRotation(rotation);
if (old != null && old != bitmap && mRecycler != null) {
mRecycler.recycle(old);
}
}
public void clear() {
setImageBitmapResetBase(null, true);
}
private Runnable mOnLayoutRunnable = null;
// This function changes bitmap, reset base matrix according to the size
// of the bitmap, and optionally reset the supplementary matrix.
public void setImageBitmapResetBase(final Bitmap bitmap, final boolean resetSupp) {
setImageRotateBitmapResetBase(new RotateBitmap(bitmap), resetSupp);
}
public void setImageRotateBitmapResetBase(final RotateBitmap bitmap, final boolean resetSupp) {
final int viewWidth = getWidth();
if (viewWidth <= 0) {
mOnLayoutRunnable = new Runnable() {
public void run() {
setImageRotateBitmapResetBase(bitmap, resetSupp);
}
};
return;
}
if (bitmap.getBitmap() != null) {
getProperBaseMatrix(bitmap, mBaseMatrix);
setImageBitmap(bitmap.getBitmap(), bitmap.getRotation());
} else {
mBaseMatrix.reset();
setImageBitmap(null);
}
if (resetSupp) {
mSuppMatrix.reset();
}
setImageMatrix(getImageViewMatrix());
mMaxZoom = maxZoom();
}
// Center as much as possible in one or both axis. Centering is
// defined as follows: if the image is scaled down below the
// view's dimensions then center it (literally). If the image
// is scaled larger than the view and is translated out of view
// then translate it back into view (i.e. eliminate black bars).
public void center(boolean horizontal, boolean vertical) {
if (mBitmapDisplayed.getBitmap() == null) {
return;
}
Matrix m = getImageViewMatrix();
RectF rect = new RectF(0, 0, mBitmapDisplayed.getBitmap().getWidth(), mBitmapDisplayed.getBitmap().getHeight());
m.mapRect(rect);
float height = rect.height();
float width = rect.width();
float deltaX = 0, deltaY = 0;
if (vertical) {
int viewHeight = getHeight();
if (height < viewHeight) {
deltaY = (viewHeight - height) / 2 - rect.top;
} else if (rect.top > 0) {
deltaY = -rect.top;
} else if (rect.bottom < viewHeight) {
deltaY = getHeight() - rect.bottom;
}
}
if (horizontal) {
int viewWidth = getWidth();
if (width < viewWidth) {
deltaX = (viewWidth - width) / 2 - rect.left;
} else if (rect.left > 0) {
deltaX = -rect.left;
} else if (rect.right < viewWidth) {
deltaX = viewWidth - rect.right;
}
}
postTranslate(deltaX, deltaY);
setImageMatrix(getImageViewMatrix());
}
public ImageViewTouchBase(Context context) {
super(context);
init();
}
public ImageViewTouchBase(Context context, AttributeSet attrs) {
super(context, attrs);
init();
}
private void init() {
setScaleType(ImageView.ScaleType.MATRIX);
}
protected float getValue(Matrix matrix, int whichValue) {
matrix.getValues(mMatrixValues);
return mMatrixValues[whichValue];
}
// Get the scale factor out of the matrix.
protected float getScale(Matrix matrix) {
return getValue(matrix, Matrix.MSCALE_X);
}
public float getScale() {
return getScale(mSuppMatrix);
}
// Setup the base matrix so that the image is centered and scaled properly.
private void getProperBaseMatrix(RotateBitmap bitmap, Matrix matrix) {
float viewWidth = getWidth();
float viewHeight = getHeight();
float w = bitmap.getWidth();
float h = bitmap.getHeight();
matrix.reset();
// We limit up-scaling to 2x otherwise the result may look bad if it's
// a small icon.
float widthScale = Math.min(viewWidth / w, 2.0f);
float heightScale = Math.min(viewHeight / h, 2.0f);
float scale = Math.min(widthScale, heightScale);
matrix.postConcat(bitmap.getRotateMatrix());
matrix.postScale(scale, scale);
matrix.postTranslate((viewWidth - w * scale) / 2F, (viewHeight - h * scale) / 2F);
}
// Combine the base matrix and the supp matrix to make the final matrix.
protected Matrix getImageViewMatrix() {
// The final matrix is computed as the concatentation of the base matrix
// and the supplementary matrix.
mDisplayMatrix.set(mBaseMatrix);
mDisplayMatrix.postConcat(mSuppMatrix);
return mDisplayMatrix;
}
static final float SCALE_RATE = 1.25F;
// Sets the maximum zoom, which is a scale relative to the base matrix. It
// is calculated to show the image at 400% zoom regardless of screen or
// image orientation. If in the future we decode the full 3 megapixel image,
// rather than the current 1024x768, this should be changed down to 200%.
protected float maxZoom() {
if (mBitmapDisplayed.getBitmap() == null) {
return 1F;
}
float fw = (float) mBitmapDisplayed.getWidth() / (float) mThisWidth;
float fh = (float) mBitmapDisplayed.getHeight() / (float) mThisHeight;
float max = Math.max(fw, fh) * 4;
max = (max<1.0f)?1.0f:max;
return max;
}
protected void zoomTo(float scale, float centerX, float centerY) {
if (scale > mMaxZoom) {
scale = mMaxZoom;
}
float oldScale = getScale();
float deltaScale = scale / oldScale;
mSuppMatrix.postScale(deltaScale, deltaScale, centerX, centerY);
setImageMatrix(getImageViewMatrix());
center(true, true);
}
protected void zoomTo(final float scale, final float centerX, final float centerY, final float durationMs) {
final float incrementPerMs = (scale - getScale()) / durationMs;
final float oldScale = getScale();
final long startTime = System.currentTimeMillis();
mHandler.post(new Runnable() {
public void run() {
long now = System.currentTimeMillis();
float currentMs = Math.min(durationMs, now - startTime);
float target = oldScale + (incrementPerMs * currentMs);
zoomTo(target, centerX, centerY);
if (currentMs < durationMs) {
mHandler.post(this);
}
}
});
}
protected void zoomTo(float scale) {
float cx = getWidth() / 2F;
float cy = getHeight() / 2F;
zoomTo(scale, cx, cy);
}
protected void zoomIn() {
zoomIn(SCALE_RATE);
}
protected void zoomOut() {
zoomOut(SCALE_RATE);
}
protected void zoomIn(float rate) {
if (getScale() >= mMaxZoom) {
return; // Don't let the user zoom into the molecular level.
}
if (mBitmapDisplayed.getBitmap() == null) {
return;
}
float cx = getWidth() / 2F;
float cy = getHeight() / 2F;
mSuppMatrix.postScale(rate, rate, cx, cy);
setImageMatrix(getImageViewMatrix());
}
protected void zoomOut(float rate) {
if (mBitmapDisplayed.getBitmap() == null) {
return;
}
float cx = getWidth() / 2F;
float cy = getHeight() / 2F;
// Zoom out to at most 1x.
Matrix tmp = new Matrix(mSuppMatrix);
tmp.postScale(1F / rate, 1F / rate, cx, cy);
if (getScale(tmp) < 1F) {
mSuppMatrix.setScale(1F, 1F, cx, cy);
} else {
mSuppMatrix.postScale(1F / rate, 1F / rate, cx, cy);
}
setImageMatrix(getImageViewMatrix());
center(true, true);
}
protected void postTranslate(float dx, float dy) {
mSuppMatrix.postTranslate(dx, dy);
}
protected void panBy(float dx, float dy) {
postTranslate(dx, dy);
setImageMatrix(getImageViewMatrix());
}
}