/* -*- Mode: Java; c-basic-offset: 4; tab-width: 20; indent-tabs-mode: nil; -*- * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ package org.mozilla.gecko.ui; import org.mozilla.gecko.GeckoApp; import org.mozilla.gecko.GeckoAppShell; import org.mozilla.gecko.GeckoEvent; import org.mozilla.gecko.ZoomConstraints; import org.mozilla.gecko.gfx.ImmutableViewportMetrics; import org.mozilla.gecko.gfx.PointUtils; import org.mozilla.gecko.util.EventDispatcher; import org.mozilla.gecko.util.FloatUtils; import org.mozilla.gecko.util.GeckoEventListener; import org.json.JSONObject; import android.graphics.PointF; import android.graphics.RectF; import android.util.FloatMath; import android.util.Log; import android.view.GestureDetector; import android.view.MotionEvent; import java.util.Timer; import java.util.TimerTask; /* * Handles the kinetic scrolling and zooming physics for a layer controller. * * Many ideas are from Joe Hewitt's Scrollability: * https://github.com/joehewitt/scrollability/ */ public class PanZoomController extends GestureDetector.SimpleOnGestureListener implements SimpleScaleGestureDetector.SimpleScaleGestureListener, GeckoEventListener { private static final String LOGTAG = "GeckoPanZoomController"; private static String MESSAGE_ZOOM_RECT = "Browser:ZoomToRect"; private static String MESSAGE_ZOOM_PAGE = "Browser:ZoomToPageWidth"; // Animation stops if the velocity is below this value when overscrolled or panning. private static final float STOPPED_THRESHOLD = 4.0f; // Animation stops is the velocity is below this threshold when flinging. private static final float FLING_STOPPED_THRESHOLD = 0.1f; // The distance the user has to pan before we recognize it as such (e.g. to avoid 1-pixel pans // between the touch-down and touch-up of a click). In units of density-independent pixels. public static final float PAN_THRESHOLD = 1/16f * GeckoAppShell.getDpi(); // Angle from axis within which we stay axis-locked private static final double AXIS_LOCK_ANGLE = Math.PI / 6.0; // 30 degrees // The maximum amount we allow you to zoom into a page private static final float MAX_ZOOM = 4.0f; // The maximum amount we would like to scroll with the mouse private static final float MAX_SCROLL = 0.075f * GeckoAppShell.getDpi(); private enum PanZoomState { NOTHING, /* no touch-start events received */ FLING, /* all touches removed, but we're still scrolling page */ TOUCHING, /* one touch-start event received */ PANNING_LOCKED, /* touch-start followed by move (i.e. panning with axis lock) */ PANNING, /* panning without axis lock */ PANNING_HOLD, /* in panning, but not moving. * similar to TOUCHING but after starting a pan */ PANNING_HOLD_LOCKED, /* like PANNING_HOLD, but axis lock still in effect */ PINCHING, /* nth touch-start, where n > 1. this mode allows pan and zoom */ ANIMATED_ZOOM, /* animated zoom to a new rect */ BOUNCE, /* in a bounce animation */ WAITING_LISTENERS, /* a state halfway between NOTHING and TOUCHING - the user has put a finger down, but we don't yet know if a touch listener has prevented the default actions yet. we still need to abort animations. */ } private final PanZoomTarget mTarget; private final SubdocumentScrollHelper mSubscroller; private final Axis mX; private final Axis mY; private final EventDispatcher mEventDispatcher; private Thread mMainThread; /* The timer that handles flings or bounces. */ private Timer mAnimationTimer; /* The runnable being scheduled by the animation timer. */ private AnimationRunnable mAnimationRunnable; /* The zoom focus at the first zoom event (in page coordinates). */ private PointF mLastZoomFocus; /* The time the last motion event took place. */ private long mLastEventTime; /* Current state the pan/zoom UI is in. */ private PanZoomState mState; public PanZoomController(PanZoomTarget target, EventDispatcher eventDispatcher) { mTarget = target; mSubscroller = new SubdocumentScrollHelper(eventDispatcher); mX = new AxisX(mSubscroller); mY = new AxisY(mSubscroller); mMainThread = GeckoApp.mAppContext.getMainLooper().getThread(); checkMainThread(); setState(PanZoomState.NOTHING); mEventDispatcher = eventDispatcher; registerEventListener(MESSAGE_ZOOM_RECT); registerEventListener(MESSAGE_ZOOM_PAGE); Axis.initPrefs(); } public void destroy() { unregisterEventListener(MESSAGE_ZOOM_RECT); unregisterEventListener(MESSAGE_ZOOM_PAGE); mSubscroller.destroy(); } private final static float easeOut(float t) { // ease-out approx. // -(t-1)^2+1 t = t-1; return -t*t+1; } private void registerEventListener(String event) { mEventDispatcher.registerEventListener(event, this); } private void unregisterEventListener(String event) { mEventDispatcher.unregisterEventListener(event, this); } private void setState(PanZoomState state) { if (state != mState) { GeckoAppShell.sendEventToGecko(GeckoEvent.createBroadcastEvent("PanZoom:StateChange", state.toString())); mState = state; } } private ImmutableViewportMetrics getMetrics() { return mTarget.getViewportMetrics(); } // for debugging bug 713011; it can be taken out once that is resolved. private void checkMainThread() { if (mMainThread != Thread.currentThread()) { // log with full stack trace Log.e(LOGTAG, "Uh-oh, we're running on the wrong thread!", new Exception()); } } public void handleMessage(String event, JSONObject message) { try { if (MESSAGE_ZOOM_RECT.equals(event)) { float x = (float)message.getDouble("x"); float y = (float)message.getDouble("y"); final RectF zoomRect = new RectF(x, y, x + (float)message.getDouble("w"), y + (float)message.getDouble("h")); mTarget.post(new Runnable() { public void run() { animatedZoomTo(zoomRect); } }); } else if (MESSAGE_ZOOM_PAGE.equals(event)) { ImmutableViewportMetrics metrics = getMetrics(); RectF cssPageRect = metrics.getCssPageRect(); RectF viewableRect = metrics.getCssViewport(); float y = viewableRect.top; // attempt to keep zoom keep focused on the center of the viewport float newHeight = viewableRect.height() * cssPageRect.width() / viewableRect.width(); float dh = viewableRect.height() - newHeight; // increase in the height final RectF r = new RectF(0.0f, y + dh/2, cssPageRect.width(), y + dh/2 + newHeight); mTarget.post(new Runnable() { public void run() { animatedZoomTo(r); } }); } } catch (Exception e) { Log.e(LOGTAG, "Exception handling message \"" + event + "\":", e); } } public boolean onTouchEvent(MotionEvent event) { switch (event.getAction() & MotionEvent.ACTION_MASK) { case MotionEvent.ACTION_DOWN: return onTouchStart(event); case MotionEvent.ACTION_MOVE: return onTouchMove(event); case MotionEvent.ACTION_UP: return onTouchEnd(event); case MotionEvent.ACTION_CANCEL: return onTouchCancel(event); case MotionEvent.ACTION_SCROLL: return onScroll(event); default: return false; } } /** This function must be called from the UI thread. */ public void abortAnimation() { checkMainThread(); // this happens when gecko changes the viewport on us or if the device is rotated. // if that's the case, abort any animation in progress and re-zoom so that the page // snaps to edges. for other cases (where the user's finger(s) are down) don't do // anything special. switch (mState) { case FLING: mX.stopFling(); mY.stopFling(); // fall through case BOUNCE: case ANIMATED_ZOOM: // the zoom that's in progress likely makes no sense any more (such as if // the screen orientation changed) so abort it setState(PanZoomState.NOTHING); // fall through case NOTHING: // Don't do animations here; they're distracting and can cause flashes on page // transitions. synchronized (mTarget.getLock()) { mTarget.setViewportMetrics(getValidViewportMetrics()); mTarget.forceRedraw(); } break; } } /** This function must be called on the UI thread. */ public void startingNewEventBlock(MotionEvent event, boolean waitingForTouchListeners) { checkMainThread(); mSubscroller.cancel(); if (waitingForTouchListeners && (event.getAction() & MotionEvent.ACTION_MASK) == MotionEvent.ACTION_DOWN) { // this is the first touch point going down, so we enter the pending state // seting the state will kill any animations in progress, possibly leaving // the page in overscroll setState(PanZoomState.WAITING_LISTENERS); } } /** This function must be called on the UI thread. */ public void preventedTouchFinished() { checkMainThread(); if (mState == PanZoomState.WAITING_LISTENERS) { // if we enter here, we just finished a block of events whose default actions // were prevented by touch listeners. Now there are no touch points left, so // we need to reset our state and re-bounce because we might be in overscroll bounce(); } } /** This must be called on the UI thread. */ public void pageRectUpdated() { if (mState == PanZoomState.NOTHING) { synchronized (mTarget.getLock()) { ImmutableViewportMetrics validated = getValidViewportMetrics(); if (!getMetrics().fuzzyEquals(validated)) { // page size changed such that we are now in overscroll. snap to the // the nearest valid viewport mTarget.setViewportMetrics(validated); } } } } /* * Panning/scrolling */ private boolean onTouchStart(MotionEvent event) { // user is taking control of movement, so stop // any auto-movement we have going stopAnimationTimer(); switch (mState) { case ANIMATED_ZOOM: // We just interrupted a double-tap animation, so force a redraw in // case this touchstart is just a tap that doesn't end up triggering // a redraw mTarget.forceRedraw(); // fall through case FLING: case BOUNCE: case NOTHING: case WAITING_LISTENERS: startTouch(event.getX(0), event.getY(0), event.getEventTime()); return false; case TOUCHING: case PANNING: case PANNING_LOCKED: case PANNING_HOLD: case PANNING_HOLD_LOCKED: case PINCHING: Log.e(LOGTAG, "Received impossible touch down while in " + mState); return false; } Log.e(LOGTAG, "Unhandled case " + mState + " in onTouchStart"); return false; } private boolean onTouchMove(MotionEvent event) { switch (mState) { case FLING: case BOUNCE: case WAITING_LISTENERS: // should never happen Log.e(LOGTAG, "Received impossible touch move while in " + mState); // fall through case ANIMATED_ZOOM: case NOTHING: // may happen if user double-taps and drags without lifting after the // second tap. ignore the move if this happens. return false; case TOUCHING: // Don't allow panning if there is an element in full-screen mode. See bug 775511. if (mTarget.isFullScreen() || panDistance(event) < PAN_THRESHOLD) { return false; } cancelTouch(); startPanning(event.getX(0), event.getY(0), event.getEventTime()); track(event); return true; case PANNING_HOLD_LOCKED: setState(PanZoomState.PANNING_LOCKED); // fall through case PANNING_LOCKED: track(event); return true; case PANNING_HOLD: setState(PanZoomState.PANNING); // fall through case PANNING: track(event); return true; case PINCHING: // scale gesture listener will handle this return false; } Log.e(LOGTAG, "Unhandled case " + mState + " in onTouchMove"); return false; } private boolean onTouchEnd(MotionEvent event) { switch (mState) { case FLING: case BOUNCE: case WAITING_LISTENERS: // should never happen Log.e(LOGTAG, "Received impossible touch end while in " + mState); // fall through case ANIMATED_ZOOM: case NOTHING: // may happen if user double-taps and drags without lifting after the // second tap. ignore if this happens. return false; case TOUCHING: // the switch into TOUCHING might have happened while the page was // snapping back after overscroll. we need to finish the snap if that // was the case bounce(); return false; case PANNING: case PANNING_LOCKED: case PANNING_HOLD: case PANNING_HOLD_LOCKED: setState(PanZoomState.FLING); fling(); return true; case PINCHING: setState(PanZoomState.NOTHING); return true; } Log.e(LOGTAG, "Unhandled case " + mState + " in onTouchEnd"); return false; } private boolean onTouchCancel(MotionEvent event) { cancelTouch(); if (mState == PanZoomState.WAITING_LISTENERS) { // we might get a cancel event from the TouchEventHandler while in the // WAITING_LISTENERS state if the touch listeners prevent-default the // block of events. at this point being in WAITING_LISTENERS is equivalent // to being in NOTHING with the exception of possibly being in overscroll. // so here we don't want to do anything right now; the overscroll will be // corrected in preventedTouchFinished(). return false; } // ensure we snap back if we're overscrolled bounce(); return false; } private boolean onScroll(MotionEvent event) { if (mState == PanZoomState.NOTHING || mState == PanZoomState.FLING) { float scrollX = event.getAxisValue(MotionEvent.AXIS_HSCROLL); float scrollY = event.getAxisValue(MotionEvent.AXIS_VSCROLL); scrollBy(scrollX * MAX_SCROLL, scrollY * MAX_SCROLL); bounce(); return true; } return false; } private void startTouch(float x, float y, long time) { mX.startTouch(x); mY.startTouch(y); setState(PanZoomState.TOUCHING); mLastEventTime = time; } private void startPanning(float x, float y, long time) { float dx = mX.panDistance(x); float dy = mY.panDistance(y); double angle = Math.atan2(dy, dx); // range [-pi, pi] angle = Math.abs(angle); // range [0, pi] // When the touch move breaks through the pan threshold, reposition the touch down origin // so the page won't jump when we start panning. mX.startTouch(x); mY.startTouch(y); mLastEventTime = time; if (!mX.scrollable() || !mY.scrollable()) { setState(PanZoomState.PANNING); } else if (angle < AXIS_LOCK_ANGLE || angle > (Math.PI - AXIS_LOCK_ANGLE)) { mY.setScrollingDisabled(true); setState(PanZoomState.PANNING_LOCKED); } else if (Math.abs(angle - (Math.PI / 2)) < AXIS_LOCK_ANGLE) { mX.setScrollingDisabled(true); setState(PanZoomState.PANNING_LOCKED); } else { setState(PanZoomState.PANNING); } } private float panDistance(MotionEvent move) { float dx = mX.panDistance(move.getX(0)); float dy = mY.panDistance(move.getY(0)); return FloatMath.sqrt(dx * dx + dy * dy); } private void track(float x, float y, long time) { float timeDelta = (float)(time - mLastEventTime); if (FloatUtils.fuzzyEquals(timeDelta, 0)) { // probably a duplicate event, ignore it. using a zero timeDelta will mess // up our velocity return; } mLastEventTime = time; mX.updateWithTouchAt(x, timeDelta); mY.updateWithTouchAt(y, timeDelta); } private void track(MotionEvent event) { mX.saveTouchPos(); mY.saveTouchPos(); for (int i = 0; i < event.getHistorySize(); i++) { track(event.getHistoricalX(0, i), event.getHistoricalY(0, i), event.getHistoricalEventTime(i)); } track(event.getX(0), event.getY(0), event.getEventTime()); if (stopped()) { if (mState == PanZoomState.PANNING) { setState(PanZoomState.PANNING_HOLD); } else if (mState == PanZoomState.PANNING_LOCKED) { setState(PanZoomState.PANNING_HOLD_LOCKED); } else { // should never happen, but handle anyway for robustness Log.e(LOGTAG, "Impossible case " + mState + " when stopped in track"); setState(PanZoomState.PANNING_HOLD_LOCKED); } } mX.startPan(); mY.startPan(); updatePosition(); } private void scrollBy(float dx, float dy) { ImmutableViewportMetrics scrolled = getMetrics().offsetViewportBy(dx, dy); mTarget.setViewportMetrics(scrolled); } private void fling() { updatePosition(); stopAnimationTimer(); boolean stopped = stopped(); mX.startFling(stopped); mY.startFling(stopped); startAnimationTimer(new FlingRunnable()); } /* Performs a bounce-back animation to the given viewport metrics. */ private void bounce(ImmutableViewportMetrics metrics, PanZoomState state) { stopAnimationTimer(); ImmutableViewportMetrics bounceStartMetrics = getMetrics(); if (bounceStartMetrics.fuzzyEquals(metrics)) { setState(PanZoomState.NOTHING); return; } setState(state); // At this point we have already set mState to BOUNCE or ANIMATED_ZOOM, so // getRedrawHint() is returning false. This means we can safely call // setAnimationTarget to set the new final display port and not have it get // clobbered by display ports from intermediate animation frames. mTarget.setAnimationTarget(metrics); startAnimationTimer(new BounceRunnable(bounceStartMetrics, metrics)); } /* Performs a bounce-back animation to the nearest valid viewport metrics. */ private void bounce() { bounce(getValidViewportMetrics(), PanZoomState.BOUNCE); } /* Starts the fling or bounce animation. */ private void startAnimationTimer(final AnimationRunnable runnable) { if (mAnimationTimer != null) { Log.e(LOGTAG, "Attempted to start a new fling without canceling the old one!"); stopAnimationTimer(); } mAnimationTimer = new Timer("Animation Timer"); mAnimationRunnable = runnable; mAnimationTimer.scheduleAtFixedRate(new TimerTask() { @Override public void run() { mTarget.post(runnable); } }, 0, (int)Axis.MS_PER_FRAME); } /* Stops the fling or bounce animation. */ private void stopAnimationTimer() { if (mAnimationTimer != null) { mAnimationTimer.cancel(); mAnimationTimer = null; } if (mAnimationRunnable != null) { mAnimationRunnable.terminate(); mAnimationRunnable = null; } } private float getVelocity() { float xvel = mX.getRealVelocity(); float yvel = mY.getRealVelocity(); return FloatMath.sqrt(xvel * xvel + yvel * yvel); } public PointF getVelocityVector() { return new PointF(mX.getRealVelocity(), mY.getRealVelocity()); } private boolean stopped() { return getVelocity() < STOPPED_THRESHOLD; } PointF resetDisplacement() { return new PointF(mX.resetDisplacement(), mY.resetDisplacement()); } private void updatePosition() { mX.displace(); mY.displace(); PointF displacement = resetDisplacement(); if (FloatUtils.fuzzyEquals(displacement.x, 0.0f) && FloatUtils.fuzzyEquals(displacement.y, 0.0f)) { return; } if (! mSubscroller.scrollBy(displacement)) { synchronized (mTarget.getLock()) { scrollBy(displacement.x, displacement.y); } } } private abstract class AnimationRunnable implements Runnable { private boolean mAnimationTerminated; /* This should always run on the UI thread */ public final void run() { /* * Since the animation timer queues this runnable on the UI thread, it * is possible that even when the animation timer is cancelled, there * are multiple instances of this queued, so we need to have another * mechanism to abort. This is done by using the mAnimationTerminated flag. */ if (mAnimationTerminated) { return; } animateFrame(); } protected abstract void animateFrame(); /* This should always run on the UI thread */ protected final void terminate() { mAnimationTerminated = true; } } /* The callback that performs the bounce animation. */ private class BounceRunnable extends AnimationRunnable { /* The current frame of the bounce-back animation */ private int mBounceFrame; /* * The viewport metrics that represent the start and end of the bounce-back animation, * respectively. */ private ImmutableViewportMetrics mBounceStartMetrics; private ImmutableViewportMetrics mBounceEndMetrics; BounceRunnable(ImmutableViewportMetrics startMetrics, ImmutableViewportMetrics endMetrics) { mBounceStartMetrics = startMetrics; mBounceEndMetrics = endMetrics; } protected void animateFrame() { /* * The pan/zoom controller might have signaled to us that it wants to abort the * animation by setting the state to PanZoomState.NOTHING. Handle this case and bail * out. */ if (!(mState == PanZoomState.BOUNCE || mState == PanZoomState.ANIMATED_ZOOM)) { finishAnimation(); return; } /* Perform the next frame of the bounce-back animation. */ if (mBounceFrame < (int)(256f/Axis.MS_PER_FRAME)) { advanceBounce(); return; } /* Finally, if there's nothing else to do, complete the animation and go to sleep. */ finishBounce(); finishAnimation(); setState(PanZoomState.NOTHING); } /* Performs one frame of a bounce animation. */ private void advanceBounce() { synchronized (mTarget.getLock()) { float t = easeOut(mBounceFrame * Axis.MS_PER_FRAME / 256f); ImmutableViewportMetrics newMetrics = mBounceStartMetrics.interpolate(mBounceEndMetrics, t); mTarget.setViewportMetrics(newMetrics); mBounceFrame++; } } /* Concludes a bounce animation and snaps the viewport into place. */ private void finishBounce() { synchronized (mTarget.getLock()) { mTarget.setViewportMetrics(mBounceEndMetrics); mBounceFrame = -1; } } } // The callback that performs the fling animation. private class FlingRunnable extends AnimationRunnable { protected void animateFrame() { /* * The pan/zoom controller might have signaled to us that it wants to abort the * animation by setting the state to PanZoomState.NOTHING. Handle this case and bail * out. */ if (mState != PanZoomState.FLING) { finishAnimation(); return; } /* Advance flings, if necessary. */ boolean flingingX = mX.advanceFling(); boolean flingingY = mY.advanceFling(); boolean overscrolled = (mX.overscrolled() || mY.overscrolled()); /* If we're still flinging in any direction, update the origin. */ if (flingingX || flingingY) { updatePosition(); /* * Check to see if we're still flinging with an appreciable velocity. The threshold is * higher in the case of overscroll, so we bounce back eagerly when overscrolling but * coast smoothly to a stop when not. In other words, require a greater velocity to * maintain the fling once we enter overscroll. */ float threshold = (overscrolled && !mSubscroller.scrolling() ? STOPPED_THRESHOLD : FLING_STOPPED_THRESHOLD); if (getVelocity() >= threshold) { // we're still flinging return; } mX.stopFling(); mY.stopFling(); } /* Perform a bounce-back animation if overscrolled. */ if (overscrolled) { bounce(); } else { finishAnimation(); setState(PanZoomState.NOTHING); } } } private void finishAnimation() { checkMainThread(); stopAnimationTimer(); // Force a viewport synchronisation mTarget.forceRedraw(); } /* Returns the nearest viewport metrics with no overscroll visible. */ private ImmutableViewportMetrics getValidViewportMetrics() { return getValidViewportMetrics(getMetrics()); } private ImmutableViewportMetrics getValidViewportMetrics(ImmutableViewportMetrics viewportMetrics) { /* First, we adjust the zoom factor so that we can make no overscrolled area visible. */ float zoomFactor = viewportMetrics.zoomFactor; RectF pageRect = viewportMetrics.getPageRect(); RectF viewport = viewportMetrics.getViewport(); float focusX = viewport.width() / 2.0f; float focusY = viewport.height() / 2.0f; float minZoomFactor = 0.0f; float maxZoomFactor = MAX_ZOOM; ZoomConstraints constraints = mTarget.getZoomConstraints(); if (constraints.getMinZoom() > 0) minZoomFactor = constraints.getMinZoom(); if (constraints.getMaxZoom() > 0) maxZoomFactor = constraints.getMaxZoom(); if (!constraints.getAllowZoom()) { // If allowZoom is false, clamp to the default zoom level. maxZoomFactor = minZoomFactor = constraints.getDefaultZoom(); } // Ensure minZoomFactor keeps the page at least as big as the viewport. if (pageRect.width() > 0) { float scaleFactor = viewport.width() / pageRect.width(); minZoomFactor = Math.max(minZoomFactor, zoomFactor * scaleFactor); if (viewport.width() > pageRect.width()) focusX = 0.0f; } if (pageRect.height() > 0) { float scaleFactor = viewport.height() / pageRect.height(); minZoomFactor = Math.max(minZoomFactor, zoomFactor * scaleFactor); if (viewport.height() > pageRect.height()) focusY = 0.0f; } maxZoomFactor = Math.max(maxZoomFactor, minZoomFactor); if (zoomFactor < minZoomFactor) { // if one (or both) of the page dimensions is smaller than the viewport, // zoom using the top/left as the focus on that axis. this prevents the // scenario where, if both dimensions are smaller than the viewport, but // by different scale factors, we end up scrolled to the end on one axis // after applying the scale PointF center = new PointF(focusX, focusY); viewportMetrics = viewportMetrics.scaleTo(minZoomFactor, center); } else if (zoomFactor > maxZoomFactor) { PointF center = new PointF(viewport.width() / 2.0f, viewport.height() / 2.0f); viewportMetrics = viewportMetrics.scaleTo(maxZoomFactor, center); } /* Now we pan to the right origin. */ viewportMetrics = viewportMetrics.clamp(); return viewportMetrics; } private class AxisX extends Axis { AxisX(SubdocumentScrollHelper subscroller) { super(subscroller); } @Override public float getOrigin() { return getMetrics().viewportRectLeft; } @Override protected float getViewportLength() { return getMetrics().getWidth(); } @Override protected float getPageStart() { return getMetrics().pageRectLeft; } @Override protected float getPageLength() { return getMetrics().getPageWidth(); } } private class AxisY extends Axis { AxisY(SubdocumentScrollHelper subscroller) { super(subscroller); } @Override public float getOrigin() { return getMetrics().viewportRectTop; } @Override protected float getViewportLength() { return getMetrics().getHeight(); } @Override protected float getPageStart() { return getMetrics().pageRectTop; } @Override protected float getPageLength() { return getMetrics().getPageHeight(); } } /* * Zooming */ @Override public boolean onScaleBegin(SimpleScaleGestureDetector detector) { if (mState == PanZoomState.ANIMATED_ZOOM) return false; if (!mTarget.getZoomConstraints().getAllowZoom()) return false; setState(PanZoomState.PINCHING); mLastZoomFocus = new PointF(detector.getFocusX(), detector.getFocusY()); cancelTouch(); GeckoAppShell.sendEventToGecko(GeckoEvent.createNativeGestureEvent(GeckoEvent.ACTION_MAGNIFY_START, mLastZoomFocus, getMetrics().zoomFactor)); return true; } @Override public boolean onScale(SimpleScaleGestureDetector detector) { if (mTarget.isFullScreen()) return false; if (mState != PanZoomState.PINCHING) return false; float prevSpan = detector.getPreviousSpan(); if (FloatUtils.fuzzyEquals(prevSpan, 0.0f)) { // let's eat this one to avoid setting the new zoom to infinity (bug 711453) return true; } float spanRatio = detector.getCurrentSpan() / prevSpan; /* * Apply edge resistance if we're zoomed out smaller than the page size by scaling the zoom * factor toward 1.0. */ float resistance = Math.min(mX.getEdgeResistance(true), mY.getEdgeResistance(true)); if (spanRatio > 1.0f) spanRatio = 1.0f + (spanRatio - 1.0f) * resistance; else spanRatio = 1.0f - (1.0f - spanRatio) * resistance; synchronized (mTarget.getLock()) { float newZoomFactor = getMetrics().zoomFactor * spanRatio; float minZoomFactor = 0.0f; float maxZoomFactor = MAX_ZOOM; ZoomConstraints constraints = mTarget.getZoomConstraints(); if (constraints.getMinZoom() > 0) minZoomFactor = constraints.getMinZoom(); if (constraints.getMaxZoom() > 0) maxZoomFactor = constraints.getMaxZoom(); if (newZoomFactor < minZoomFactor) { // apply resistance when zooming past minZoomFactor, // such that it asymptotically reaches minZoomFactor / 2.0 // but never exceeds that final float rate = 0.5f; // controls how quickly we approach the limit float excessZoom = minZoomFactor - newZoomFactor; excessZoom = 1.0f - (float)Math.exp(-excessZoom * rate); newZoomFactor = minZoomFactor * (1.0f - excessZoom / 2.0f); } if (newZoomFactor > maxZoomFactor) { // apply resistance when zooming past maxZoomFactor, // such that it asymptotically reaches maxZoomFactor + 1.0 // but never exceeds that float excessZoom = newZoomFactor - maxZoomFactor; excessZoom = 1.0f - (float)Math.exp(-excessZoom); newZoomFactor = maxZoomFactor + excessZoom; } scrollBy(mLastZoomFocus.x - detector.getFocusX(), mLastZoomFocus.y - detector.getFocusY()); PointF focus = new PointF(detector.getFocusX(), detector.getFocusY()); scaleWithFocus(newZoomFactor, focus); } mLastZoomFocus.set(detector.getFocusX(), detector.getFocusY()); GeckoEvent event = GeckoEvent.createNativeGestureEvent(GeckoEvent.ACTION_MAGNIFY, mLastZoomFocus, getMetrics().zoomFactor); GeckoAppShell.sendEventToGecko(event); return true; } @Override public void onScaleEnd(SimpleScaleGestureDetector detector) { if (mState == PanZoomState.ANIMATED_ZOOM) return; // switch back to the touching state startTouch(detector.getFocusX(), detector.getFocusY(), detector.getEventTime()); // Force a viewport synchronisation mTarget.forceRedraw(); PointF point = new PointF(detector.getFocusX(), detector.getFocusY()); GeckoEvent event = GeckoEvent.createNativeGestureEvent(GeckoEvent.ACTION_MAGNIFY_END, point, getMetrics().zoomFactor); if (event == null) { return; } GeckoAppShell.sendEventToGecko(event); } /** * Scales the viewport, keeping the given focus point in the same place before and after the * scale operation. You must hold the monitor while calling this. */ private void scaleWithFocus(float zoomFactor, PointF focus) { ImmutableViewportMetrics viewportMetrics = getMetrics(); viewportMetrics = viewportMetrics.scaleTo(zoomFactor, focus); mTarget.setViewportMetrics(viewportMetrics); } public boolean getRedrawHint() { switch (mState) { case PINCHING: case ANIMATED_ZOOM: case BOUNCE: // don't redraw during these because the zoom is (or might be, in the case // of BOUNCE) be changing rapidly and gecko will have to redraw the entire // display port area. we trigger a force-redraw upon exiting these states. return false; default: // allow redrawing in other states return true; } } private void sendPointToGecko(String event, MotionEvent motionEvent) { String json; try { PointF point = new PointF(motionEvent.getX(), motionEvent.getY()); point = mTarget.convertViewPointToLayerPoint(point); if (point == null) { return; } json = PointUtils.toJSON(point).toString(); } catch (Exception e) { Log.e(LOGTAG, "Unable to convert point to JSON for " + event, e); return; } GeckoAppShell.sendEventToGecko(GeckoEvent.createBroadcastEvent(event, json)); } @Override public void onLongPress(MotionEvent motionEvent) { sendPointToGecko("Gesture:LongPress", motionEvent); } @Override public boolean onSingleTapUp(MotionEvent motionEvent) { // When zooming is enabled, wait to see if there's a double-tap. if (!mTarget.getZoomConstraints().getAllowZoom()) { sendPointToGecko("Gesture:SingleTap", motionEvent); } // return false because we still want to get the ACTION_UP event that triggers this return false; } @Override public boolean onSingleTapConfirmed(MotionEvent motionEvent) { // When zooming is disabled, we handle this in onSingleTapUp. if (mTarget.getZoomConstraints().getAllowZoom()) { sendPointToGecko("Gesture:SingleTap", motionEvent); } return true; } @Override public boolean onDoubleTap(MotionEvent motionEvent) { if (mTarget.getZoomConstraints().getAllowZoom()) { sendPointToGecko("Gesture:DoubleTap", motionEvent); } return true; } private void cancelTouch() { GeckoEvent e = GeckoEvent.createBroadcastEvent("Gesture:CancelTouch", ""); GeckoAppShell.sendEventToGecko(e); } /** * Zoom to a specified rect IN CSS PIXELS. * * While we usually use device pixels, @zoomToRect must be specified in CSS * pixels. */ private boolean animatedZoomTo(RectF zoomToRect) { final float startZoom = getMetrics().zoomFactor; RectF viewport = getMetrics().getViewport(); // 1. adjust the aspect ratio of zoomToRect to match that of the current viewport, // enlarging as necessary (if it gets too big, it will get shrunk in the next step). // while enlarging make sure we enlarge equally on both sides to keep the target rect // centered. float targetRatio = viewport.width() / viewport.height(); float rectRatio = zoomToRect.width() / zoomToRect.height(); if (FloatUtils.fuzzyEquals(targetRatio, rectRatio)) { // all good, do nothing } else if (targetRatio < rectRatio) { // need to increase zoomToRect height float newHeight = zoomToRect.width() / targetRatio; zoomToRect.top -= (newHeight - zoomToRect.height()) / 2; zoomToRect.bottom = zoomToRect.top + newHeight; } else { // targetRatio > rectRatio) { // need to increase zoomToRect width float newWidth = targetRatio * zoomToRect.height(); zoomToRect.left -= (newWidth - zoomToRect.width()) / 2; zoomToRect.right = zoomToRect.left + newWidth; } float finalZoom = viewport.width() / zoomToRect.width(); ImmutableViewportMetrics finalMetrics = getMetrics(); finalMetrics = finalMetrics.setViewportOrigin( zoomToRect.left * finalMetrics.zoomFactor, zoomToRect.top * finalMetrics.zoomFactor); finalMetrics = finalMetrics.scaleTo(finalZoom, new PointF(0.0f, 0.0f)); // 2. now run getValidViewportMetrics on it, so that the target viewport is // clamped down to prevent overscroll, over-zoom, and other bad conditions. finalMetrics = getValidViewportMetrics(finalMetrics); bounce(finalMetrics, PanZoomState.ANIMATED_ZOOM); return true; } /** This function must be called from the UI thread. */ public void abortPanning() { checkMainThread(); bounce(); } public void setOverScrollMode(int overscrollMode) { mX.setOverScrollMode(overscrollMode); mY.setOverScrollMode(overscrollMode); } public int getOverScrollMode() { return mX.getOverScrollMode(); } }