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android / platform / packages / apps / Gallery2 / android-4.2.2_r1.2 / . / src / com / android / gallery3d / ui / PositionController.java
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/*
* Copyright (C) 2011 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.android.gallery3d.ui;
import android.content.Context;
import android.graphics.Rect;
import android.util.Log;
import android.widget.Scroller;
import com.android.gallery3d.app.PhotoPage;
import com.android.gallery3d.common.Utils;
import com.android.gallery3d.ui.PhotoView.Size;
import com.android.gallery3d.util.GalleryUtils;
import com.android.gallery3d.util.RangeArray;
import com.android.gallery3d.util.RangeIntArray;
class PositionController {
private static final String TAG = "PositionController";
public static final int IMAGE_AT_LEFT_EDGE = 1;
public static final int IMAGE_AT_RIGHT_EDGE = 2;
public static final int IMAGE_AT_TOP_EDGE = 4;
public static final int IMAGE_AT_BOTTOM_EDGE = 8;
public static final int CAPTURE_ANIMATION_TIME = 700;
public static final int SNAPBACK_ANIMATION_TIME = 600;
// Special values for animation time.
private static final long NO_ANIMATION = -1;
private static final long LAST_ANIMATION = -2;
private static final int ANIM_KIND_NONE = -1;
private static final int ANIM_KIND_SCROLL = 0;
private static final int ANIM_KIND_SCALE = 1;
private static final int ANIM_KIND_SNAPBACK = 2;
private static final int ANIM_KIND_SLIDE = 3;
private static final int ANIM_KIND_ZOOM = 4;
private static final int ANIM_KIND_OPENING = 5;
private static final int ANIM_KIND_FLING = 6;
private static final int ANIM_KIND_FLING_X = 7;
private static final int ANIM_KIND_DELETE = 8;
private static final int ANIM_KIND_CAPTURE = 9;
// Animation time in milliseconds. The order must match ANIM_KIND_* above.
//
// The values for ANIM_KIND_FLING_X does't matter because we use
// mFilmScroller.isFinished() to decide when to stop. We set it to 0 so it's
// faster for Animatable.advanceAnimation() to calculate the progress
// (always 1).
private static final int ANIM_TIME[] = {
0, // ANIM_KIND_SCROLL
0, // ANIM_KIND_SCALE
SNAPBACK_ANIMATION_TIME, // ANIM_KIND_SNAPBACK
400, // ANIM_KIND_SLIDE
300, // ANIM_KIND_ZOOM
300, // ANIM_KIND_OPENING
0, // ANIM_KIND_FLING (the duration is calculated dynamically)
0, // ANIM_KIND_FLING_X (see the comment above)
0, // ANIM_KIND_DELETE (the duration is calculated dynamically)
CAPTURE_ANIMATION_TIME, // ANIM_KIND_CAPTURE
};
// We try to scale up the image to fill the screen. But in order not to
// scale too much for small icons, we limit the max up-scaling factor here.
private static final float SCALE_LIMIT = 4;
// For user's gestures, we give a temporary extra scaling range which goes
// above or below the usual scaling limits.
private static final float SCALE_MIN_EXTRA = 0.7f;
private static final float SCALE_MAX_EXTRA = 1.4f;
// Setting this true makes the extra scaling range permanent (until this is
// set to false again).
private boolean mExtraScalingRange = false;
// Film Mode v.s. Page Mode: in film mode we show smaller pictures.
private boolean mFilmMode = false;
// These are the limits for width / height of the picture in film mode.
private static final float FILM_MODE_PORTRAIT_HEIGHT = 0.48f;
private static final float FILM_MODE_PORTRAIT_WIDTH = 0.7f;
private static final float FILM_MODE_LANDSCAPE_HEIGHT = 0.7f;
private static final float FILM_MODE_LANDSCAPE_WIDTH = 0.7f;
// In addition to the focused box (index == 0). We also keep information
// about this many boxes on each side.
private static final int BOX_MAX = PhotoView.SCREEN_NAIL_MAX;
private static final int[] CENTER_OUT_INDEX = new int[2 * BOX_MAX + 1];
private static final int IMAGE_GAP = GalleryUtils.dpToPixel(16);
private static final int HORIZONTAL_SLACK = GalleryUtils.dpToPixel(12);
// These are constants for the delete gesture.
private static final int DEFAULT_DELETE_ANIMATION_DURATION = 200; // ms
private static final int MAX_DELETE_ANIMATION_DURATION = 400; // ms
private Listener mListener;
private volatile Rect mOpenAnimationRect;
// Use a large enough value, so we won't see the gray shadow in the beginning.
private int mViewW = 1200;
private int mViewH = 1200;
// A scaling gesture is in progress.
private boolean mInScale;
// The focus point of the scaling gesture, relative to the center of the
// picture in bitmap pixels.
private float mFocusX, mFocusY;
// whether there is a previous/next picture.
private boolean mHasPrev, mHasNext;
// This is used by the fling animation (page mode).
private FlingScroller mPageScroller;
// This is used by the fling animation (film mode).
private Scroller mFilmScroller;
// The bound of the stable region that the focused box can stay, see the
// comments above calculateStableBound() for details.
private int mBoundLeft, mBoundRight, mBoundTop, mBoundBottom;
// Constrained frame is a rectangle that the focused box should fit into if
// it is constrained. It has two effects:
//
// (1) In page mode, if the focused box is constrained, scaling for the
// focused box is adjusted to fit into the constrained frame, instead of the
// whole view.
//
// (2) In page mode, if the focused box is constrained, the mPlatform's
// default center (mDefaultX/Y) is moved to the center of the constrained
// frame, instead of the view center.
//
private Rect mConstrainedFrame = new Rect();
// Whether the focused box is constrained.
//
// Our current program's first call to moveBox() sets constrained = true, so
// we set the initial value of this variable to true, and we will not see
// see unwanted transition animation.
private boolean mConstrained = true;
//
// ___________________________________________________________
// | _____ _____ _____ _____ _____ |
// | | | | | | | | | | | |
// | | Box | | Box | | Box*| | Box | | Box | |
// | |_____|.....|_____|.....|_____|.....|_____|.....|_____| |
// | Gap Gap Gap Gap |
// |___________________________________________________________|
//
// <-- Platform -->
//
// The focused box (Box*) centers at mPlatform's (mCurrentX, mCurrentY)
private Platform mPlatform = new Platform();
private RangeArray<Box> mBoxes = new RangeArray<Box>(-BOX_MAX, BOX_MAX);
// The gap at the right of a Box i is at index i. The gap at the left of a
// Box i is at index i - 1.
private RangeArray<Gap> mGaps = new RangeArray<Gap>(-BOX_MAX, BOX_MAX - 1);
private FilmRatio mFilmRatio = new FilmRatio();
// These are only used during moveBox().
private RangeArray<Box> mTempBoxes = new RangeArray<Box>(-BOX_MAX, BOX_MAX);
private RangeArray<Gap> mTempGaps =
new RangeArray<Gap>(-BOX_MAX, BOX_MAX - 1);
// The output of the PositionController. Available through getPosition().
private RangeArray<Rect> mRects = new RangeArray<Rect>(-BOX_MAX, BOX_MAX);
// The direction of a new picture should appear. New pictures pop from top
// if this value is true, or from bottom if this value is false.
boolean mPopFromTop;
public interface Listener {
void invalidate();
boolean isHoldingDown();
boolean isHoldingDelete();
// EdgeView
void onPull(int offset, int direction);
void onRelease();
void onAbsorb(int velocity, int direction);
}
static {
// Initialize the CENTER_OUT_INDEX array.
// The array maps 0, 1, 2, 3, 4, ..., 2 * BOX_MAX
// to 0, 1, -1, 2, -2, ..., BOX_MAX, -BOX_MAX
for (int i = 0; i < CENTER_OUT_INDEX.length; i++) {
int j = (i + 1) / 2;
if ((i & 1) == 0) j = -j;
CENTER_OUT_INDEX[i] = j;
}
}
public PositionController(Context context, Listener listener) {
mListener = listener;
mPageScroller = new FlingScroller();
mFilmScroller = new Scroller(context, null, false);
// Initialize the areas.
initPlatform();
for (int i = -BOX_MAX; i <= BOX_MAX; i++) {
mBoxes.put(i, new Box());
initBox(i);
mRects.put(i, new Rect());
}
for (int i = -BOX_MAX; i < BOX_MAX; i++) {
mGaps.put(i, new Gap());
initGap(i);
}
}
public void setOpenAnimationRect(Rect r) {
mOpenAnimationRect = r;
}
public void setViewSize(int viewW, int viewH) {
if (viewW == mViewW && viewH == mViewH) return;
boolean wasMinimal = isAtMinimalScale();
mViewW = viewW;
mViewH = viewH;
initPlatform();
for (int i = -BOX_MAX; i <= BOX_MAX; i++) {
setBoxSize(i, viewW, viewH, true);
}
updateScaleAndGapLimit();
// If the focused box was at minimal scale, we try to make it the
// minimal scale under the new view size.
if (wasMinimal) {
Box b = mBoxes.get(0);
b.mCurrentScale = b.mScaleMin;
}
// If we have the opening animation, do it. Otherwise go directly to the
// right position.
if (!startOpeningAnimationIfNeeded()) {
skipToFinalPosition();
}
}
public void setConstrainedFrame(Rect cFrame) {
if (mConstrainedFrame.equals(cFrame)) return;
mConstrainedFrame.set(cFrame);
mPlatform.updateDefaultXY();
updateScaleAndGapLimit();
snapAndRedraw();
}
public void forceImageSize(int index, Size s) {
if (s.width == 0 || s.height == 0) return;
Box b = mBoxes.get(index);
b.mImageW = s.width;
b.mImageH = s.height;
return;
}
public void setImageSize(int index, Size s, Rect cFrame) {
if (s.width == 0 || s.height == 0) return;
boolean needUpdate = false;
if (cFrame != null && !mConstrainedFrame.equals(cFrame)) {
mConstrainedFrame.set(cFrame);
mPlatform.updateDefaultXY();
needUpdate = true;
}
needUpdate |= setBoxSize(index, s.width, s.height, false);
if (!needUpdate) return;
updateScaleAndGapLimit();
snapAndRedraw();
}
// Returns false if the box size doesn't change.
private boolean setBoxSize(int i, int width, int height, boolean isViewSize) {
Box b = mBoxes.get(i);
boolean wasViewSize = b.mUseViewSize;
// If we already have an image size, we don't want to use the view size.
if (!wasViewSize && isViewSize) return false;
b.mUseViewSize = isViewSize;
if (width == b.mImageW && height == b.mImageH) {
return false;
}
// The ratio of the old size and the new size.
//
// If the aspect ratio changes, we don't know if it is because one side
// grows or the other side shrinks. Currently we just assume the view
// angle of the longer side doesn't change (so the aspect ratio change
// is because the view angle of the shorter side changes). This matches
// what camera preview does.
float ratio = (width > height)
? (float) b.mImageW / width
: (float) b.mImageH / height;
b.mImageW = width;
b.mImageH = height;
// If this is the first time we receive an image size or we are in fullscreen,
// we change the scale directly. Otherwise adjust the scales by a ratio,
// and snapback will animate the scale into the min/max bounds if necessary.
if ((wasViewSize && !isViewSize) || !mFilmMode) {
b.mCurrentScale = getMinimalScale(b);
b.mAnimationStartTime = NO_ANIMATION;
} else {
b.mCurrentScale *= ratio;
b.mFromScale *= ratio;
b.mToScale *= ratio;
}
if (i == 0) {
mFocusX /= ratio;
mFocusY /= ratio;
}
return true;
}
private boolean startOpeningAnimationIfNeeded() {
if (mOpenAnimationRect == null) return false;
Box b = mBoxes.get(0);
if (b.mUseViewSize) return false;
// Start animation from the saved rectangle if we have one.
Rect r = mOpenAnimationRect;
mOpenAnimationRect = null;
mPlatform.mCurrentX = r.centerX() - mViewW / 2;
b.mCurrentY = r.centerY() - mViewH / 2;
b.mCurrentScale = Math.max(r.width() / (float) b.mImageW,
r.height() / (float) b.mImageH);
startAnimation(mPlatform.mDefaultX, 0, b.mScaleMin,
ANIM_KIND_OPENING);
// Animate from large gaps for neighbor boxes to avoid them
// shown on the screen during opening animation.
for (int i = -1; i < 1; i++) {
Gap g = mGaps.get(i);
g.mCurrentGap = mViewW;
g.doAnimation(g.mDefaultSize, ANIM_KIND_OPENING);
}
return true;
}
public void setFilmMode(boolean enabled) {
if (enabled == mFilmMode) return;
mFilmMode = enabled;
mPlatform.updateDefaultXY();
updateScaleAndGapLimit();
stopAnimation();
snapAndRedraw();
}
public void setExtraScalingRange(boolean enabled) {
if (mExtraScalingRange == enabled) return;
mExtraScalingRange = enabled;
if (!enabled) {
snapAndRedraw();
}
}
// This should be called whenever the scale range of boxes or the default
// gap size may change. Currently this can happen due to change of view
// size, image size, mFilmMode, mConstrained, and mConstrainedFrame.
private void updateScaleAndGapLimit() {
for (int i = -BOX_MAX; i <= BOX_MAX; i++) {
Box b = mBoxes.get(i);
b.mScaleMin = getMinimalScale(b);
b.mScaleMax = getMaximalScale(b);
}
for (int i = -BOX_MAX; i < BOX_MAX; i++) {
Gap g = mGaps.get(i);
g.mDefaultSize = getDefaultGapSize(i);
}
}
// Returns the default gap size according the the size of the boxes around
// the gap and the current mode.
private int getDefaultGapSize(int i) {
if (mFilmMode) return IMAGE_GAP;
Box a = mBoxes.get(i);
Box b = mBoxes.get(i + 1);
return IMAGE_GAP + Math.max(gapToSide(a), gapToSide(b));
}
// Here is how we layout the boxes in the page mode.
//
// previous current next
// ___________ ________________ __________
// | _______ | | __________ | | ______ |
// | | | | | | right->| | | | | |
// | | |<-------->|<--left | | | | | |
// | |_______| | | | |__________| | | |______| |
// |___________| | |________________| |__________|
// | <--> gapToSide()
// |
// IMAGE_GAP + MAX(gapToSide(previous), gapToSide(current))
private int gapToSide(Box b) {
return (int) ((mViewW - getMinimalScale(b) * b.mImageW) / 2 + 0.5f);
}
// Stop all animations at where they are now.
public void stopAnimation() {
mPlatform.mAnimationStartTime = NO_ANIMATION;
for (int i = -BOX_MAX; i <= BOX_MAX; i++) {
mBoxes.get(i).mAnimationStartTime = NO_ANIMATION;
}
for (int i = -BOX_MAX; i < BOX_MAX; i++) {
mGaps.get(i).mAnimationStartTime = NO_ANIMATION;
}
}
public void skipAnimation() {
if (mPlatform.mAnimationStartTime != NO_ANIMATION) {
mPlatform.mCurrentX = mPlatform.mToX;
mPlatform.mCurrentY = mPlatform.mToY;
mPlatform.mAnimationStartTime = NO_ANIMATION;
}
for (int i = -BOX_MAX; i <= BOX_MAX; i++) {
Box b = mBoxes.get(i);
if (b.mAnimationStartTime == NO_ANIMATION) continue;
b.mCurrentY = b.mToY;
b.mCurrentScale = b.mToScale;
b.mAnimationStartTime = NO_ANIMATION;
}
for (int i = -BOX_MAX; i < BOX_MAX; i++) {
Gap g = mGaps.get(i);
if (g.mAnimationStartTime == NO_ANIMATION) continue;
g.mCurrentGap = g.mToGap;
g.mAnimationStartTime = NO_ANIMATION;
}
redraw();
}
public void snapback() {
snapAndRedraw();
}
public void skipToFinalPosition() {
stopAnimation();
snapAndRedraw();
skipAnimation();
}
////////////////////////////////////////////////////////////////////////////
// Start an animations for the focused box
////////////////////////////////////////////////////////////////////////////
public void zoomIn(float tapX, float tapY, float targetScale) {
tapX -= mViewW / 2;
tapY -= mViewH / 2;
Box b = mBoxes.get(0);
// Convert the tap position to distance to center in bitmap coordinates
float tempX = (tapX - mPlatform.mCurrentX) / b.mCurrentScale;
float tempY = (tapY - b.mCurrentY) / b.mCurrentScale;
int x = (int) (-tempX * targetScale + 0.5f);
int y = (int) (-tempY * targetScale + 0.5f);
calculateStableBound(targetScale);
int targetX = Utils.clamp(x, mBoundLeft, mBoundRight);
int targetY = Utils.clamp(y, mBoundTop, mBoundBottom);
targetScale = Utils.clamp(targetScale, b.mScaleMin, b.mScaleMax);
startAnimation(targetX, targetY, targetScale, ANIM_KIND_ZOOM);
}
public void resetToFullView() {
Box b = mBoxes.get(0);
startAnimation(mPlatform.mDefaultX, 0, b.mScaleMin, ANIM_KIND_ZOOM);
}
public void beginScale(float focusX, float focusY) {
focusX -= mViewW / 2;
focusY -= mViewH / 2;
Box b = mBoxes.get(0);
Platform p = mPlatform;
mInScale = true;
mFocusX = (int) ((focusX - p.mCurrentX) / b.mCurrentScale + 0.5f);
mFocusY = (int) ((focusY - b.mCurrentY) / b.mCurrentScale + 0.5f);
}
// Scales the image by the given factor.
// Returns an out-of-range indicator:
// 1 if the intended scale is too large for the stable range.
// 0 if the intended scale is in the stable range.
// -1 if the intended scale is too small for the stable range.
public int scaleBy(float s, float focusX, float focusY) {
focusX -= mViewW / 2;
focusY -= mViewH / 2;
Box b = mBoxes.get(0);
Platform p = mPlatform;
// We want to keep the focus point (on the bitmap) the same as when we
// begin the scale gesture, that is,
//
// (focusX' - currentX') / scale' = (focusX - currentX) / scale
//
s = b.clampScale(s * getTargetScale(b));
int x = mFilmMode ? p.mCurrentX : (int) (focusX - s * mFocusX + 0.5f);
int y = mFilmMode ? b.mCurrentY : (int) (focusY - s * mFocusY + 0.5f);
startAnimation(x, y, s, ANIM_KIND_SCALE);
if (s < b.mScaleMin) return -1;
if (s > b.mScaleMax) return 1;
return 0;
}
public void endScale() {
mInScale = false;
snapAndRedraw();
}
// Slide the focused box to the center of the view.
public void startHorizontalSlide() {
Box b = mBoxes.get(0);
startAnimation(mPlatform.mDefaultX, 0, b.mScaleMin, ANIM_KIND_SLIDE);
}
// Slide the focused box to the center of the view with the capture
// animation. In addition to the sliding, the animation will also scale the
// the focused box, the specified neighbor box, and the gap between the
// two. The specified offset should be 1 or -1.
public void startCaptureAnimationSlide(int offset) {
Box b = mBoxes.get(0);
Box n = mBoxes.get(offset); // the neighbor box
Gap g = mGaps.get(offset); // the gap between the two boxes
mPlatform.doAnimation(mPlatform.mDefaultX, mPlatform.mDefaultY,
ANIM_KIND_CAPTURE);
b.doAnimation(0, b.mScaleMin, ANIM_KIND_CAPTURE);
n.doAnimation(0, n.mScaleMin, ANIM_KIND_CAPTURE);
g.doAnimation(g.mDefaultSize, ANIM_KIND_CAPTURE);
redraw();
}
// Only allow scrolling when we are not currently in an animation or we
// are in some animation with can be interrupted.
private boolean canScroll() {
Box b = mBoxes.get(0);
if (b.mAnimationStartTime == NO_ANIMATION) return true;
switch (b.mAnimationKind) {
case ANIM_KIND_SCROLL:
case ANIM_KIND_FLING:
case ANIM_KIND_FLING_X:
return true;
}
return false;
}
public void scrollPage(int dx, int dy) {
if (!canScroll()) return;
Box b = mBoxes.get(0);
Platform p = mPlatform;
calculateStableBound(b.mCurrentScale);
int x = p.mCurrentX + dx;
int y = b.mCurrentY + dy;
// Vertical direction: If we have space to move in the vertical
// direction, we show the edge effect when scrolling reaches the edge.
if (mBoundTop != mBoundBottom) {
if (y < mBoundTop) {
mListener.onPull(mBoundTop - y, EdgeView.BOTTOM);
} else if (y > mBoundBottom) {
mListener.onPull(y - mBoundBottom, EdgeView.TOP);
}
}
y = Utils.clamp(y, mBoundTop, mBoundBottom);
// Horizontal direction: we show the edge effect when the scrolling
// tries to go left of the first image or go right of the last image.
if (!mHasPrev && x > mBoundRight) {
int pixels = x - mBoundRight;
mListener.onPull(pixels, EdgeView.LEFT);
x = mBoundRight;
} else if (!mHasNext && x < mBoundLeft) {
int pixels = mBoundLeft - x;
mListener.onPull(pixels, EdgeView.RIGHT);
x = mBoundLeft;
}
startAnimation(x, y, b.mCurrentScale, ANIM_KIND_SCROLL);
}
public void scrollFilmX(int dx) {
if (!canScroll()) return;
Box b = mBoxes.get(0);
Platform p = mPlatform;
// Only allow scrolling when we are not currently in an animation or we
// are in some animation with can be interrupted.
if (b.mAnimationStartTime != NO_ANIMATION) {
switch (b.mAnimationKind) {
case ANIM_KIND_SCROLL:
case ANIM_KIND_FLING:
case ANIM_KIND_FLING_X:
break;
default:
return;
}
}
int x = p.mCurrentX + dx;
// Horizontal direction: we show the edge effect when the scrolling
// tries to go left of the first image or go right of the last image.
x -= mPlatform.mDefaultX;
if (!mHasPrev && x > 0) {
mListener.onPull(x, EdgeView.LEFT);
x = 0;
} else if (!mHasNext && x < 0) {
mListener.onPull(-x, EdgeView.RIGHT);
x = 0;
}
x += mPlatform.mDefaultX;
startAnimation(x, b.mCurrentY, b.mCurrentScale, ANIM_KIND_SCROLL);
}
public void scrollFilmY(int boxIndex, int dy) {
if (!canScroll()) return;
Box b = mBoxes.get(boxIndex);
int y = b.mCurrentY + dy;
b.doAnimation(y, b.mCurrentScale, ANIM_KIND_SCROLL);
redraw();
}
public boolean flingPage(int velocityX, int velocityY) {
Box b = mBoxes.get(0);
Platform p = mPlatform;
// We only want to do fling when the picture is zoomed-in.
if (viewWiderThanScaledImage(b.mCurrentScale) &&
viewTallerThanScaledImage(b.mCurrentScale)) {
return false;
}
// We only allow flinging in the directions where it won't go over the
// picture.
int edges = getImageAtEdges();
if ((velocityX > 0 && (edges & IMAGE_AT_LEFT_EDGE) != 0) ||
(velocityX < 0 && (edges & IMAGE_AT_RIGHT_EDGE) != 0)) {
velocityX = 0;
}
if ((velocityY > 0 && (edges & IMAGE_AT_TOP_EDGE) != 0) ||
(velocityY < 0 && (edges & IMAGE_AT_BOTTOM_EDGE) != 0)) {
velocityY = 0;
}
if (velocityX == 0 && velocityY == 0) return false;
mPageScroller.fling(p.mCurrentX, b.mCurrentY, velocityX, velocityY,
mBoundLeft, mBoundRight, mBoundTop, mBoundBottom);
int targetX = mPageScroller.getFinalX();
int targetY = mPageScroller.getFinalY();
ANIM_TIME[ANIM_KIND_FLING] = mPageScroller.getDuration();
return startAnimation(targetX, targetY, b.mCurrentScale, ANIM_KIND_FLING);
}
public boolean flingFilmX(int velocityX) {
if (velocityX == 0) return false;
Box b = mBoxes.get(0);
Platform p = mPlatform;
// If we are already at the edge, don't start the fling.
int defaultX = p.mDefaultX;
if ((!mHasPrev && p.mCurrentX >= defaultX)
|| (!mHasNext && p.mCurrentX <= defaultX)) {
return false;
}
mFilmScroller.fling(p.mCurrentX, 0, velocityX, 0,
Integer.MIN_VALUE, Integer.MAX_VALUE, 0, 0);
int targetX = mFilmScroller.getFinalX();
return startAnimation(
targetX, b.mCurrentY, b.mCurrentScale, ANIM_KIND_FLING_X);
}
// Moves the specified box out of screen. If velocityY is 0, a default
// velocity is used. Returns the time for the duration, or -1 if we cannot
// not do the animation.
public int flingFilmY(int boxIndex, int velocityY) {
Box b = mBoxes.get(boxIndex);
// Calculate targetY
int h = heightOf(b);
int targetY;
int FUZZY = 3; // TODO: figure out why this is needed.
if (velocityY < 0 || (velocityY == 0 && b.mCurrentY <= 0)) {
targetY = -mViewH / 2 - (h + 1) / 2 - FUZZY;
} else {
targetY = (mViewH + 1) / 2 + h / 2 + FUZZY;
}
// Calculate duration
int duration;
if (velocityY != 0) {
duration = (int) (Math.abs(targetY - b.mCurrentY) * 1000f
/ Math.abs(velocityY));
duration = Math.min(MAX_DELETE_ANIMATION_DURATION, duration);
} else {
duration = DEFAULT_DELETE_ANIMATION_DURATION;
}
// Start animation
ANIM_TIME[ANIM_KIND_DELETE] = duration;
if (b.doAnimation(targetY, b.mCurrentScale, ANIM_KIND_DELETE)) {
redraw();
return duration;
}
return -1;
}
// Returns the index of the box which contains the given point (x, y)
// Returns Integer.MAX_VALUE if there is no hit. There may be more than
// one box contains the given point, and we want to give priority to the
// one closer to the focused index (0).
public int hitTest(int x, int y) {
for (int i = 0; i < 2 * BOX_MAX + 1; i++) {
int j = CENTER_OUT_INDEX[i];
Rect r = mRects.get(j);
if (r.contains(x, y)) {
return j;
}
}
return Integer.MAX_VALUE;
}
////////////////////////////////////////////////////////////////////////////
// Redraw
//
// If a method changes box positions directly, redraw()
// should be called.
//
// If a method may also cause a snapback to happen, snapAndRedraw() should
// be called.
//
// If a method starts an animation to change the position of focused box,
// startAnimation() should be called.
//
// If time advances to change the box position, advanceAnimation() should
// be called.
////////////////////////////////////////////////////////////////////////////
private void redraw() {
layoutAndSetPosition();
mListener.invalidate();
}
private void snapAndRedraw() {
mPlatform.startSnapback();
for (int i = -BOX_MAX; i <= BOX_MAX; i++) {
mBoxes.get(i).startSnapback();
}
for (int i = -BOX_MAX; i < BOX_MAX; i++) {
mGaps.get(i).startSnapback();
}
mFilmRatio.startSnapback();
redraw();
}
private boolean startAnimation(int targetX, int targetY, float targetScale,
int kind) {
boolean changed = false;
changed |= mPlatform.doAnimation(targetX, mPlatform.mDefaultY, kind);
changed |= mBoxes.get(0).doAnimation(targetY, targetScale, kind);
if (changed) redraw();
return changed;
}
public void advanceAnimation() {
boolean changed = false;
changed |= mPlatform.advanceAnimation();
for (int i = -BOX_MAX; i <= BOX_MAX; i++) {
changed |= mBoxes.get(i).advanceAnimation();
}
for (int i = -BOX_MAX; i < BOX_MAX; i++) {
changed |= mGaps.get(i).advanceAnimation();
}
changed |= mFilmRatio.advanceAnimation();
if (changed) redraw();
}
public boolean inOpeningAnimation() {
return (mPlatform.mAnimationKind == ANIM_KIND_OPENING &&
mPlatform.mAnimationStartTime != NO_ANIMATION) ||
(mBoxes.get(0).mAnimationKind == ANIM_KIND_OPENING &&
mBoxes.get(0).mAnimationStartTime != NO_ANIMATION);
}
////////////////////////////////////////////////////////////////////////////
// Layout
////////////////////////////////////////////////////////////////////////////
// Returns the display width of this box.
private int widthOf(Box b) {
return (int) (b.mImageW * b.mCurrentScale + 0.5f);
}
// Returns the display height of this box.
private int heightOf(Box b) {
return (int) (b.mImageH * b.mCurrentScale + 0.5f);
}
// Returns the display width of this box, using the given scale.
private int widthOf(Box b, float scale) {
return (int) (b.mImageW * scale + 0.5f);
}
// Returns the display height of this box, using the given scale.
private int heightOf(Box b, float scale) {
return (int) (b.mImageH * scale + 0.5f);
}
// Convert the information in mPlatform and mBoxes to mRects, so the user
// can get the position of each box by getPosition().
//
// Note we go from center-out because each box's X coordinate
// is relative to its anchor box (except the focused box).
private void layoutAndSetPosition() {
for (int i = 0; i < 2 * BOX_MAX + 1; i++) {
convertBoxToRect(CENTER_OUT_INDEX[i]);
}
//dumpState();
}
@SuppressWarnings("unused")
private void dumpState() {
for (int i = -BOX_MAX; i < BOX_MAX; i++) {
Log.d(TAG, "Gap " + i + ": " + mGaps.get(i).mCurrentGap);
}
for (int i = 0; i < 2 * BOX_MAX + 1; i++) {
dumpRect(CENTER_OUT_INDEX[i]);
}
for (int i = -BOX_MAX; i <= BOX_MAX; i++) {
for (int j = i + 1; j <= BOX_MAX; j++) {
if (Rect.intersects(mRects.get(i), mRects.get(j))) {
Log.d(TAG, "rect " + i + " and rect " + j + "intersects!");
}
}
}
}
private void dumpRect(int i) {
StringBuilder sb = new StringBuilder();
Rect r = mRects.get(i);
sb.append("Rect " + i + ":");
sb.append("(");
sb.append(r.centerX());
sb.append(",");
sb.append(r.centerY());
sb.append(") [");
sb.append(r.width());
sb.append("x");
sb.append(r.height());
sb.append("]");
Log.d(TAG, sb.toString());
}
private void convertBoxToRect(int i) {
Box b = mBoxes.get(i);
Rect r = mRects.get(i);
int y = b.mCurrentY + mPlatform.mCurrentY + mViewH / 2;
int w = widthOf(b);
int h = heightOf(b);
if (i == 0) {
int x = mPlatform.mCurrentX + mViewW / 2;
r.left = x - w / 2;
r.right = r.left + w;
} else if (i > 0) {
Rect a = mRects.get(i - 1);
Gap g = mGaps.get(i - 1);
r.left = a.right + g.mCurrentGap;
r.right = r.left + w;
} else { // i < 0
Rect a = mRects.get(i + 1);
Gap g = mGaps.get(i);
r.right = a.left - g.mCurrentGap;
r.left = r.right - w;
}
r.top = y - h / 2;
r.bottom = r.top + h;
}
// Returns the position of a box.
public Rect getPosition(int index) {
return mRects.get(index);
}
////////////////////////////////////////////////////////////////////////////
// Box management
////////////////////////////////////////////////////////////////////////////
// Initialize the platform to be at the view center.
private void initPlatform() {
mPlatform.updateDefaultXY();
mPlatform.mCurrentX = mPlatform.mDefaultX;
mPlatform.mCurrentY = mPlatform.mDefaultY;
mPlatform.mAnimationStartTime = NO_ANIMATION;
}
// Initialize a box to have the size of the view.
private void initBox(int index) {
Box b = mBoxes.get(index);
b.mImageW = mViewW;
b.mImageH = mViewH;
b.mUseViewSize = true;
b.mScaleMin = getMinimalScale(b);
b.mScaleMax = getMaximalScale(b);
b.mCurrentY = 0;
b.mCurrentScale = b.mScaleMin;
b.mAnimationStartTime = NO_ANIMATION;
b.mAnimationKind = ANIM_KIND_NONE;
}
// Initialize a box to a given size.
private void initBox(int index, Size size) {
if (size.width == 0 || size.height == 0) {
initBox(index);
return;
}
Box b = mBoxes.get(index);
b.mImageW = size.width;
b.mImageH = size.height;
b.mUseViewSize = false;
b.mScaleMin = getMinimalScale(b);
b.mScaleMax = getMaximalScale(b);
b.mCurrentY = 0;
b.mCurrentScale = b.mScaleMin;
b.mAnimationStartTime = NO_ANIMATION;
b.mAnimationKind = ANIM_KIND_NONE;
}
// Initialize a gap. This can only be called after the boxes around the gap
// has been initialized.
private void initGap(int index) {
Gap g = mGaps.get(index);
g.mDefaultSize = getDefaultGapSize(index);
g.mCurrentGap = g.mDefaultSize;
g.mAnimationStartTime = NO_ANIMATION;
}
private void initGap(int index, int size) {
Gap g = mGaps.get(index);
g.mDefaultSize = getDefaultGapSize(index);
g.mCurrentGap = size;
g.mAnimationStartTime = NO_ANIMATION;
}
@SuppressWarnings("unused")
private void debugMoveBox(int fromIndex[]) {
StringBuilder s = new StringBuilder("moveBox:");
for (int i = 0; i < fromIndex.length; i++) {
int j = fromIndex[i];
if (j == Integer.MAX_VALUE) {
s.append(" N");
} else {
s.append(" ");
s.append(fromIndex[i]);
}
}
Log.d(TAG, s.toString());
}
// Move the boxes: it may indicate focus change, box deleted, box appearing,
// box reordered, etc.
//
// Each element in the fromIndex array indicates where each box was in the
// old array. If the value is Integer.MAX_VALUE (pictured as N below), it
// means the box is new.
//
// For example:
// N N N N N N N -- all new boxes
// -3 -2 -1 0 1 2 3 -- nothing changed
// -2 -1 0 1 2 3 N -- focus goes to the next box
// N -3 -2 -1 0 1 2 -- focus goes to the previous box
// -3 -2 -1 1 2 3 N -- the focused box was deleted.
//
// hasPrev/hasNext indicates if there are previous/next boxes for the
// focused box. constrained indicates whether the focused box should be put
// into the constrained frame.
public void moveBox(int fromIndex[], boolean hasPrev, boolean hasNext,
boolean constrained, Size[] sizes) {
//debugMoveBox(fromIndex);
mHasPrev = hasPrev;
mHasNext = hasNext;
RangeIntArray from = new RangeIntArray(fromIndex, -BOX_MAX, BOX_MAX);
// 1. Get the absolute X coordinates for the boxes.
layoutAndSetPosition();
for (int i = -BOX_MAX; i <= BOX_MAX; i++) {
Box b = mBoxes.get(i);
Rect r = mRects.get(i);
b.mAbsoluteX = r.centerX() - mViewW / 2;
}
// 2. copy boxes and gaps to temporary storage.
for (int i = -BOX_MAX; i <= BOX_MAX; i++) {
mTempBoxes.put(i, mBoxes.get(i));
mBoxes.put(i, null);
}
for (int i = -BOX_MAX; i < BOX_MAX; i++) {
mTempGaps.put(i, mGaps.get(i));
mGaps.put(i, null);
}
// 3. move back boxes that are used in the new array.
for (int i = -BOX_MAX; i <= BOX_MAX; i++) {
int j = from.get(i);
if (j == Integer.MAX_VALUE) continue;
mBoxes.put(i, mTempBoxes.get(j));
mTempBoxes.put(j, null);
}
// 4. move back gaps if both boxes around it are kept together.
for (int i = -BOX_MAX; i < BOX_MAX; i++) {
int j = from.get(i);
if (j == Integer.MAX_VALUE) continue;
int k = from.get(i + 1);
if (k == Integer.MAX_VALUE) continue;
if (j + 1 == k) {
mGaps.put(i, mTempGaps.get(j));
mTempGaps.put(j, null);
}
}
// 5. recycle the boxes that are not used in the new array.
int k = -BOX_MAX;
for (int i = -BOX_MAX; i <= BOX_MAX; i++) {
if (mBoxes.get(i) != null) continue;
while (mTempBoxes.get(k) == null) {
k++;
}
mBoxes.put(i, mTempBoxes.get(k++));
initBox(i, sizes[i + BOX_MAX]);
}
// 6. Now give the recycled box a reasonable absolute X position.
//
// First try to find the first and the last box which the absolute X
// position is known.
int first, last;
for (first = -BOX_MAX; first <= BOX_MAX; first++) {
if (from.get(first) != Integer.MAX_VALUE) break;
}
for (last = BOX_MAX; last >= -BOX_MAX; last--) {
if (from.get(last) != Integer.MAX_VALUE) break;
}
// If there is no box has known X position at all, make the focused one
// as known.
if (first > BOX_MAX) {
mBoxes.get(0).mAbsoluteX = mPlatform.mCurrentX;
first = last = 0;
}
// Now for those boxes between first and last, assign their position to
// align to the previous box or the next box with known position. For
// the boxes before first or after last, we will use a new default gap
// size below.
// Align to the previous box
for (int i = Math.max(0, first + 1); i < last; i++) {
if (from.get(i) != Integer.MAX_VALUE) continue;
Box a = mBoxes.get(i - 1);
Box b = mBoxes.get(i);
int wa = widthOf(a);
int wb = widthOf(b);
b.mAbsoluteX = a.mAbsoluteX + (wa - wa / 2) + wb / 2
+ getDefaultGapSize(i);
if (mPopFromTop) {
b.mCurrentY = -(mViewH / 2 + heightOf(b) / 2);
} else {
b.mCurrentY = (mViewH / 2 + heightOf(b) / 2);
}
}
// Align to the next box
for (int i = Math.min(-1, last - 1); i > first; i--) {
if (from.get(i) != Integer.MAX_VALUE) continue;
Box a = mBoxes.get(i + 1);
Box b = mBoxes.get(i);
int wa = widthOf(a);
int wb = widthOf(b);
b.mAbsoluteX = a.mAbsoluteX - wa / 2 - (wb - wb / 2)
- getDefaultGapSize(i);
if (mPopFromTop) {
b.mCurrentY = -(mViewH / 2 + heightOf(b) / 2);
} else {
b.mCurrentY = (mViewH / 2 + heightOf(b) / 2);
}
}
// 7. recycle the gaps that are not used in the new array.
k = -BOX_MAX;
for (int i = -BOX_MAX; i < BOX_MAX; i++) {
if (mGaps.get(i) != null) continue;
while (mTempGaps.get(k) == null) {
k++;
}
mGaps.put(i, mTempGaps.get(k++));
Box a = mBoxes.get(i);
Box b = mBoxes.get(i + 1);
int wa = widthOf(a);
int wb = widthOf(b);
if (i >= first && i < last) {
int g = b.mAbsoluteX - a.mAbsoluteX - wb / 2 - (wa - wa / 2);
initGap(i, g);
} else {
initGap(i);
}
}
// 8. calculate the new absolute X coordinates for those box before
// first or after last.
for (int i = first - 1; i >= -BOX_MAX; i--) {
Box a = mBoxes.get(i + 1);
Box b = mBoxes.get(i);
int wa = widthOf(a);
int wb = widthOf(b);
Gap g = mGaps.get(i);
b.mAbsoluteX = a.mAbsoluteX - wa / 2 - (wb - wb / 2) - g.mCurrentGap;
}
for (int i = last + 1; i <= BOX_MAX; i++) {
Box a = mBoxes.get(i - 1);
Box b = mBoxes.get(i);
int wa = widthOf(a);
int wb = widthOf(b);
Gap g = mGaps.get(i - 1);
b.mAbsoluteX = a.mAbsoluteX + (wa - wa / 2) + wb / 2 + g.mCurrentGap;
}
// 9. offset the Platform position
int dx = mBoxes.get(0).mAbsoluteX - mPlatform.mCurrentX;
mPlatform.mCurrentX += dx;
mPlatform.mFromX += dx;
mPlatform.mToX += dx;
mPlatform.mFlingOffset += dx;
if (mConstrained != constrained) {
mConstrained = constrained;
mPlatform.updateDefaultXY();
updateScaleAndGapLimit();
}
snapAndRedraw();
}
////////////////////////////////////////////////////////////////////////////
// Public utilities
////////////////////////////////////////////////////////////////////////////
public boolean isAtMinimalScale() {
Box b = mBoxes.get(0);
return isAlmostEqual(b.mCurrentScale, b.mScaleMin);
}
public boolean isCenter() {
Box b = mBoxes.get(0);
return mPlatform.mCurrentX == mPlatform.mDefaultX
&& b.mCurrentY == 0;
}
public int getImageWidth() {
Box b = mBoxes.get(0);
return b.mImageW;
}
public int getImageHeight() {
Box b = mBoxes.get(0);
return b.mImageH;
}
public float getImageScale() {
Box b = mBoxes.get(0);
return b.mCurrentScale;
}
public int getImageAtEdges() {
Box b = mBoxes.get(0);
Platform p = mPlatform;
calculateStableBound(b.mCurrentScale);
int edges = 0;
if (p.mCurrentX <= mBoundLeft) {
edges |= IMAGE_AT_RIGHT_EDGE;
}
if (p.mCurrentX >= mBoundRight) {
edges |= IMAGE_AT_LEFT_EDGE;
}
if (b.mCurrentY <= mBoundTop) {
edges |= IMAGE_AT_BOTTOM_EDGE;
}
if (b.mCurrentY >= mBoundBottom) {
edges |= IMAGE_AT_TOP_EDGE;
}
return edges;
}
public boolean isScrolling() {
return mPlatform.mAnimationStartTime != NO_ANIMATION
&& mPlatform.mCurrentX != mPlatform.mToX;
}
public void stopScrolling() {
if (mPlatform.mAnimationStartTime == NO_ANIMATION) return;
if (mFilmMode) mFilmScroller.forceFinished(true);
mPlatform.mFromX = mPlatform.mToX = mPlatform.mCurrentX;
}
public float getFilmRatio() {
return mFilmRatio.mCurrentRatio;
}
public void setPopFromTop(boolean top) {
mPopFromTop = top;
}
public boolean hasDeletingBox() {
for(int i = -BOX_MAX; i <= BOX_MAX; i++) {
if (mBoxes.get(i).mAnimationKind == ANIM_KIND_DELETE) {
return true;
}
}
return false;
}
////////////////////////////////////////////////////////////////////////////
// Private utilities
////////////////////////////////////////////////////////////////////////////
private float getMinimalScale(Box b) {
float wFactor = 1.0f;
float hFactor = 1.0f;
int viewW, viewH;
if (!mFilmMode && mConstrained && !mConstrainedFrame.isEmpty()
&& b == mBoxes.get(0)) {
viewW = mConstrainedFrame.width();
viewH = mConstrainedFrame.height();
} else {
viewW = mViewW;
viewH = mViewH;
}
if (mFilmMode) {
if (mViewH > mViewW) { // portrait
wFactor = FILM_MODE_PORTRAIT_WIDTH;
hFactor = FILM_MODE_PORTRAIT_HEIGHT;
} else { // landscape
wFactor = FILM_MODE_LANDSCAPE_WIDTH;
hFactor = FILM_MODE_LANDSCAPE_HEIGHT;
}
}
float s = Math.min(wFactor * viewW / b.mImageW,
hFactor * viewH / b.mImageH);
return Math.min(SCALE_LIMIT, s);
}
private float getMaximalScale(Box b) {
if (mFilmMode) return getMinimalScale(b);
if (mConstrained && !mConstrainedFrame.isEmpty()) return getMinimalScale(b);
return SCALE_LIMIT;
}
private static boolean isAlmostEqual(float a, float b) {
float diff = a - b;
return (diff < 0 ? -diff : diff) < 0.02f;
}
// Calculates the stable region of mPlatform.mCurrentX and
// mBoxes.get(0).mCurrentY, where "stable" means
//
// (1) If the dimension of scaled image >= view dimension, we will not
// see black region outside the image (at that dimension).
// (2) If the dimension of scaled image < view dimension, we will center
// the scaled image.
//
// We might temporarily go out of this stable during user interaction,
// but will "snap back" after user stops interaction.
//
// The results are stored in mBound{Left/Right/Top/Bottom}.
//
// An extra parameter "horizontalSlack" (which has the value of 0 usually)
// is used to extend the stable region by some pixels on each side
// horizontally.
private void calculateStableBound(float scale, int horizontalSlack) {
Box b = mBoxes.get(0);
// The width and height of the box in number of view pixels
int w = widthOf(b, scale);
int h = heightOf(b, scale);
// When the edge of the view is aligned with the edge of the box
mBoundLeft = (mViewW + 1) / 2 - (w + 1) / 2 - horizontalSlack;
mBoundRight = w / 2 - mViewW / 2 + horizontalSlack;
mBoundTop = (mViewH + 1) / 2 - (h + 1) / 2;
mBoundBottom = h / 2 - mViewH / 2;
// If the scaled height is smaller than the view height,
// force it to be in the center.
if (viewTallerThanScaledImage(scale)) {
mBoundTop = mBoundBottom = 0;
}
// Same for width
if (viewWiderThanScaledImage(scale)) {
mBoundLeft = mBoundRight = mPlatform.mDefaultX;
}
}
private void calculateStableBound(float scale) {
calculateStableBound(scale, 0);
}
private boolean viewTallerThanScaledImage(float scale) {
return mViewH >= heightOf(mBoxes.get(0), scale);
}
private boolean viewWiderThanScaledImage(float scale) {
return mViewW >= widthOf(mBoxes.get(0), scale);
}
private float getTargetScale(Box b) {
return b.mAnimationStartTime == NO_ANIMATION
? b.mCurrentScale : b.mToScale;
}
////////////////////////////////////////////////////////////////////////////
// Animatable: an thing which can do animation.
////////////////////////////////////////////////////////////////////////////
private abstract static class Animatable {
public long mAnimationStartTime;
public int mAnimationKind;
public int mAnimationDuration;
// This should be overridden in subclass to change the animation values
// give the progress value in [0, 1].
protected abstract boolean interpolate(float progress);
public abstract boolean startSnapback();
// Returns true if the animation values changes, so things need to be
// redrawn.
public boolean advanceAnimation() {
if (mAnimationStartTime == NO_ANIMATION) {
return false;
}
if (mAnimationStartTime == LAST_ANIMATION) {
mAnimationStartTime = NO_ANIMATION;
return startSnapback();
}
float progress;
if (mAnimationDuration == 0) {
progress = 1;
} else {
long now = AnimationTime.get();
progress =
(float) (now - mAnimationStartTime) / mAnimationDuration;
}
if (progress >= 1) {
progress = 1;
} else {
progress = applyInterpolationCurve(mAnimationKind, progress);
}
boolean done = interpolate(progress);
if (done) {
mAnimationStartTime = LAST_ANIMATION;
}
return true;
}
private static float applyInterpolationCurve(int kind, float progress) {
float f = 1 - progress;
switch (kind) {
case ANIM_KIND_SCROLL:
case ANIM_KIND_FLING:
case ANIM_KIND_FLING_X:
case ANIM_KIND_DELETE:
case ANIM_KIND_CAPTURE:
progress = 1 - f; // linear
break;
case ANIM_KIND_OPENING:
case ANIM_KIND_SCALE:
progress = 1 - f * f; // quadratic
break;
case ANIM_KIND_SNAPBACK:
case ANIM_KIND_ZOOM:
case ANIM_KIND_SLIDE:
progress = 1 - f * f * f * f * f; // x^5
break;
}
return progress;
}
}
////////////////////////////////////////////////////////////////////////////
// Platform: captures the global X/Y movement.
////////////////////////////////////////////////////////////////////////////
private class Platform extends Animatable {
public int mCurrentX, mFromX, mToX, mDefaultX;
public int mCurrentY, mFromY, mToY, mDefaultY;
public int mFlingOffset;
@Override
public boolean startSnapback() {
if (mAnimationStartTime != NO_ANIMATION) return false;
if (mAnimationKind == ANIM_KIND_SCROLL
&& mListener.isHoldingDown()) return false;
if (mInScale) return false;
Box b = mBoxes.get(0);
float scaleMin = mExtraScalingRange ?
b.mScaleMin * SCALE_MIN_EXTRA : b.mScaleMin;
float scaleMax = mExtraScalingRange ?
b.mScaleMax * SCALE_MAX_EXTRA : b.mScaleMax;
float scale = Utils.clamp(b.mCurrentScale, scaleMin, scaleMax);
int x = mCurrentX;
int y = mDefaultY;
if (mFilmMode) {
x = mDefaultX;
} else {
calculateStableBound(scale, HORIZONTAL_SLACK);
// If the picture is zoomed-in, we want to keep the focus point
// stay in the same position on screen, so we need to adjust
// target mCurrentX (which is the center of the focused
// box). The position of the focus point on screen (relative the
// the center of the view) is:
//
// mCurrentX + scale * mFocusX = mCurrentX' + scale' * mFocusX
// => mCurrentX' = mCurrentX + (scale - scale') * mFocusX
//
if (!viewWiderThanScaledImage(scale)) {
float scaleDiff = b.mCurrentScale - scale;
x += (int) (mFocusX * scaleDiff + 0.5f);
}
x = Utils.clamp(x, mBoundLeft, mBoundRight);
}
if (mCurrentX != x || mCurrentY != y) {
return doAnimation(x, y, ANIM_KIND_SNAPBACK);
}
return false;
}
// The updateDefaultXY() should be called whenever these variables
// changes: (1) mConstrained (2) mConstrainedFrame (3) mViewW/H (4)
// mFilmMode
public void updateDefaultXY() {
// We don't check mFilmMode and return 0 for mDefaultX. Because
// otherwise if we decide to leave film mode because we are
// centered, we will immediately back into film mode because we find
// we are not centered.
if (mConstrained && !mConstrainedFrame.isEmpty()) {
mDefaultX = mConstrainedFrame.centerX() - mViewW / 2;
mDefaultY = mFilmMode ? 0 :
mConstrainedFrame.centerY() - mViewH / 2;
} else {
mDefaultX = 0;
mDefaultY = 0;
}
}
// Starts an animation for the platform.
private boolean doAnimation(int targetX, int targetY, int kind) {
if (mCurrentX == targetX && mCurrentY == targetY) return false;
mAnimationKind = kind;
mFromX = mCurrentX;
mFromY = mCurrentY;
mToX = targetX;
mToY = targetY;
mAnimationStartTime = AnimationTime.startTime();
mAnimationDuration = ANIM_TIME[kind];
mFlingOffset = 0;
advanceAnimation();
return true;
}
@Override
protected boolean interpolate(float progress) {
if (mAnimationKind == ANIM_KIND_FLING) {
return interpolateFlingPage(progress);
} else if (mAnimationKind == ANIM_KIND_FLING_X) {
return interpolateFlingFilm(progress);
} else {
return interpolateLinear(progress);
}
}
private boolean interpolateFlingFilm(float progress) {
mFilmScroller.computeScrollOffset();
mCurrentX = mFilmScroller.getCurrX() + mFlingOffset;
int dir = EdgeView.INVALID_DIRECTION;
if (mCurrentX < mDefaultX) {
if (!mHasNext) {
dir = EdgeView.RIGHT;
}
} else if (mCurrentX > mDefaultX) {
if (!mHasPrev) {
dir = EdgeView.LEFT;
}
}
if (dir != EdgeView.INVALID_DIRECTION) {
// TODO: restore this onAbsorb call
//int v = (int) (mFilmScroller.getCurrVelocity() + 0.5f);
//mListener.onAbsorb(v, dir);
mFilmScroller.forceFinished(true);
mCurrentX = mDefaultX;
}
return mFilmScroller.isFinished();
}
private boolean interpolateFlingPage(float progress) {
mPageScroller.computeScrollOffset(progress);
Box b = mBoxes.get(0);
calculateStableBound(b.mCurrentScale);
int oldX = mCurrentX;
mCurrentX = mPageScroller.getCurrX();
// Check if we hit the edges; show edge effects if we do.
if (oldX > mBoundLeft && mCurrentX == mBoundLeft) {
int v = (int) (-mPageScroller.getCurrVelocityX() + 0.5f);
mListener.onAbsorb(v, EdgeView.RIGHT);
} else if (oldX < mBoundRight && mCurrentX == mBoundRight) {
int v = (int) (mPageScroller.getCurrVelocityX() + 0.5f);
mListener.onAbsorb(v, EdgeView.LEFT);
}
return progress >= 1;
}
private boolean interpolateLinear(float progress) {
// Other animations
if (progress >= 1) {
mCurrentX = mToX;
mCurrentY = mToY;
return true;
} else {
if (mAnimationKind == ANIM_KIND_CAPTURE) {
progress = CaptureAnimation.calculateSlide(progress);
}
mCurrentX = (int) (mFromX + progress * (mToX - mFromX));
mCurrentY = (int) (mFromY + progress * (mToY - mFromY));
if (mAnimationKind == ANIM_KIND_CAPTURE) {
return false;
} else {
return (mCurrentX == mToX && mCurrentY == mToY);
}
}
}
}
////////////////////////////////////////////////////////////////////////////
// Box: represents a rectangular area which shows a picture.
////////////////////////////////////////////////////////////////////////////
private class Box extends Animatable {
// Size of the bitmap
public int mImageW, mImageH;
// This is true if we assume the image size is the same as view size
// until we know the actual size of image. This is also used to
// determine if there is an image ready to show.
public boolean mUseViewSize;
// The minimum and maximum scale we allow for this box.
public float mScaleMin, mScaleMax;
// The X/Y value indicates where the center of the box is on the view
// coordinate. We always keep the mCurrent{X,Y,Scale} sync with the
// actual values used currently. Note that the X values are implicitly
// defined by Platform and Gaps.
public int mCurrentY, mFromY, mToY;
public float mCurrentScale, mFromScale, mToScale;
// The absolute X coordinate of the center of the box. This is only used
// during moveBox().
public int mAbsoluteX;
@Override
public boolean startSnapback() {
if (mAnimationStartTime != NO_ANIMATION) return false;
if (mAnimationKind == ANIM_KIND_SCROLL
&& mListener.isHoldingDown()) return false;
if (mAnimationKind == ANIM_KIND_DELETE
&& mListener.isHoldingDelete()) return false;
if (mInScale && this == mBoxes.get(0)) return false;
int y = mCurrentY;
float scale;
if (this == mBoxes.get(0)) {
float scaleMin = mExtraScalingRange ?
mScaleMin * SCALE_MIN_EXTRA : mScaleMin;
float scaleMax = mExtraScalingRange ?
mScaleMax * SCALE_MAX_EXTRA : mScaleMax;
scale = Utils.clamp(mCurrentScale, scaleMin, scaleMax);
if (mFilmMode) {
y = 0;
} else {
calculateStableBound(scale, HORIZONTAL_SLACK);
// If the picture is zoomed-in, we want to keep the focus
// point stay in the same position on screen. See the
// comment in Platform.startSnapback for details.
if (!viewTallerThanScaledImage(scale)) {
float scaleDiff = mCurrentScale - scale;
y += (int) (mFocusY * scaleDiff + 0.5f);
}
y = Utils.clamp(y, mBoundTop, mBoundBottom);
}
} else {
y = 0;
scale = mScaleMin;
}
if (mCurrentY != y || mCurrentScale != scale) {
return doAnimation(y, scale, ANIM_KIND_SNAPBACK);
}
return false;
}
private boolean doAnimation(int targetY, float targetScale, int kind) {
targetScale = clampScale(targetScale);
if (mCurrentY == targetY && mCurrentScale == targetScale
&& kind != ANIM_KIND_CAPTURE) {
return false;
}
// Now starts an animation for the box.
mAnimationKind = kind;
mFromY = mCurrentY;
mFromScale = mCurrentScale;
mToY = targetY;
mToScale = targetScale;
mAnimationStartTime = AnimationTime.startTime();
mAnimationDuration = ANIM_TIME[kind];
advanceAnimation();
return true;
}
// Clamps the input scale to the range that doAnimation() can reach.
public float clampScale(float s) {
return Utils.clamp(s,
SCALE_MIN_EXTRA * mScaleMin,
SCALE_MAX_EXTRA * mScaleMax);
}
@Override
protected boolean interpolate(float progress) {
if (mAnimationKind == ANIM_KIND_FLING) {
return interpolateFlingPage(progress);
} else {
return interpolateLinear(progress);
}
}
private boolean interpolateFlingPage(float progress) {
mPageScroller.computeScrollOffset(progress);
calculateStableBound(mCurrentScale);
int oldY = mCurrentY;
mCurrentY = mPageScroller.getCurrY();
// Check if we hit the edges; show edge effects if we do.
if (oldY > mBoundTop && mCurrentY == mBoundTop) {
int v = (int) (-mPageScroller.getCurrVelocityY() + 0.5f);
mListener.onAbsorb(v, EdgeView.BOTTOM);
} else if (oldY < mBoundBottom && mCurrentY == mBoundBottom) {
int v = (int) (mPageScroller.getCurrVelocityY() + 0.5f);
mListener.onAbsorb(v, EdgeView.TOP);
}
return progress >= 1;
}
private boolean interpolateLinear(float progress) {
if (progress >= 1) {
mCurrentY = mToY;
mCurrentScale = mToScale;
return true;
} else {
mCurrentY = (int) (mFromY + progress * (mToY - mFromY));
mCurrentScale = mFromScale + progress * (mToScale - mFromScale);
if (mAnimationKind == ANIM_KIND_CAPTURE) {
float f = CaptureAnimation.calculateScale(progress);
mCurrentScale *= f;
return false;
} else {
return (mCurrentY == mToY && mCurrentScale == mToScale);
}
}
}
}
////////////////////////////////////////////////////////////////////////////
// Gap: represents a rectangular area which is between two boxes.
////////////////////////////////////////////////////////////////////////////
private class Gap extends Animatable {
// The default gap size between two boxes. The value may vary for
// different image size of the boxes and for different modes (page or
// film).
public int mDefaultSize;
// The gap size between the two boxes.
public int mCurrentGap, mFromGap, mToGap;
@Override
public boolean startSnapback() {
if (mAnimationStartTime != NO_ANIMATION) return false;
return doAnimation(mDefaultSize, ANIM_KIND_SNAPBACK);
}
// Starts an animation for a gap.
public boolean doAnimation(int targetSize, int kind) {
if (mCurrentGap == targetSize && kind != ANIM_KIND_CAPTURE) {
return false;
}
mAnimationKind = kind;
mFromGap = mCurrentGap;
mToGap = targetSize;
mAnimationStartTime = AnimationTime.startTime();
mAnimationDuration = ANIM_TIME[mAnimationKind];
advanceAnimation();
return true;
}
@Override
protected boolean interpolate(float progress) {
if (progress >= 1) {
mCurrentGap = mToGap;
return true;
} else {
mCurrentGap = (int) (mFromGap + progress * (mToGap - mFromGap));
if (mAnimationKind == ANIM_KIND_CAPTURE) {
float f = CaptureAnimation.calculateScale(progress);
mCurrentGap = (int) (mCurrentGap * f);
return false;
} else {
return (mCurrentGap == mToGap);
}
}
}
}
////////////////////////////////////////////////////////////////////////////
// FilmRatio: represents the progress of film mode change.
////////////////////////////////////////////////////////////////////////////
private class FilmRatio extends Animatable {
// The film ratio: 1 means switching to film mode is complete, 0 means
// switching to page mode is complete.
public float mCurrentRatio, mFromRatio, mToRatio;
@Override
public boolean startSnapback() {
float target = mFilmMode ? 1f : 0f;
if (target == mToRatio) return false;
return doAnimation(target, ANIM_KIND_SNAPBACK);
}
// Starts an animation for the film ratio.
private boolean doAnimation(float targetRatio, int kind) {
mAnimationKind = kind;
mFromRatio = mCurrentRatio;
mToRatio = targetRatio;
mAnimationStartTime = AnimationTime.startTime();
mAnimationDuration = ANIM_TIME[mAnimationKind];
advanceAnimation();
return true;
}
@Override
protected boolean interpolate(float progress) {
if (progress >= 1) {
mCurrentRatio = mToRatio;
return true;
} else {
mCurrentRatio = mFromRatio + progress * (mToRatio - mFromRatio);
return (mCurrentRatio == mToRatio);
}
}
}
}