/* -*- 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.gfx; import org.mozilla.gecko.GeckoAppShell; import org.mozilla.gecko.GeckoEvent; import org.mozilla.gecko.PrefsHelper; import org.mozilla.gecko.util.FloatUtils; import org.mozilla.gecko.util.ThreadUtils; import android.graphics.PointF; import android.graphics.RectF; import android.os.SystemClock; import android.util.Log; import android.view.animation.DecelerateInterpolator; import android.view.MotionEvent; import android.view.View; public class LayerMarginsAnimator { private static final String LOGTAG = "GeckoLayerMarginsAnimator"; // The duration of the animation in ns private static final long MARGIN_ANIMATION_DURATION = 250000000; private static final String PREF_SHOW_MARGINS_THRESHOLD = "browser.ui.show-margins-threshold"; /* This is the proportion of the viewport rect, minus maximum margins, * that needs to be travelled before margins will be exposed. */ private float SHOW_MARGINS_THRESHOLD = 0.20f; /* This rect stores the maximum value margins can grow to when scrolling. When writing * to this member variable, or when reading from this member variable on a non-UI thread, * you must synchronize on the LayerMarginsAnimator instance. */ private final RectF mMaxMargins; /* If this boolean is true, scroll changes will not affect margins */ private boolean mMarginsPinned; /* The task that handles showing/hiding margins */ private LayerMarginsAnimationTask mAnimationTask; /* This interpolator is used for the above mentioned animation */ private final DecelerateInterpolator mInterpolator; /* The GeckoLayerClient whose margins will be animated */ private final GeckoLayerClient mTarget; /* The distance that has been scrolled since either the first touch event, * or since the margins were last fully hidden */ private final PointF mTouchTravelDistance; /* The ID of the prefs listener for the show-marginss threshold */ private Integer mPrefObserverId; public LayerMarginsAnimator(GeckoLayerClient aTarget, LayerView aView) { // Assign member variables from parameters mTarget = aTarget; // Create other member variables mMaxMargins = new RectF(); mInterpolator = new DecelerateInterpolator(); mTouchTravelDistance = new PointF(); // Listen to the dynamic toolbar pref mPrefObserverId = PrefsHelper.getPref(PREF_SHOW_MARGINS_THRESHOLD, new PrefsHelper.PrefHandlerBase() { @Override public void prefValue(String pref, int value) { SHOW_MARGINS_THRESHOLD = (float)value / 100.0f; } @Override public boolean isObserver() { return true; } }); } public void destroy() { if (mPrefObserverId != null) { PrefsHelper.removeObserver(mPrefObserverId); mPrefObserverId = null; } } /** * Sets the maximum values for margins to grow to, in pixels. */ public synchronized void setMaxMargins(float left, float top, float right, float bottom) { ThreadUtils.assertOnUiThread(); mMaxMargins.set(left, top, right, bottom); // Update the Gecko-side global for fixed viewport margins. GeckoAppShell.sendEventToGecko( GeckoEvent.createBroadcastEvent("Viewport:FixedMarginsChanged", "{ \"top\" : " + top + ", \"right\" : " + right + ", \"bottom\" : " + bottom + ", \"left\" : " + left + " }")); } RectF getMaxMargins() { return mMaxMargins; } private void animateMargins(final float left, final float top, final float right, final float bottom, boolean immediately) { if (mAnimationTask != null) { mTarget.getView().removeRenderTask(mAnimationTask); mAnimationTask = null; } if (immediately) { ImmutableViewportMetrics newMetrics = mTarget.getViewportMetrics().setMargins(left, top, right, bottom); mTarget.forceViewportMetrics(newMetrics, true, true); return; } ImmutableViewportMetrics metrics = mTarget.getViewportMetrics(); mAnimationTask = new LayerMarginsAnimationTask(false, metrics, left, top, right, bottom); mTarget.getView().postRenderTask(mAnimationTask); } /** * Exposes the margin area by growing the margin components of the current * metrics to the values set in setMaxMargins. */ public synchronized void showMargins(boolean immediately) { animateMargins(mMaxMargins.left, mMaxMargins.top, mMaxMargins.right, mMaxMargins.bottom, immediately); } public synchronized void hideMargins(boolean immediately) { animateMargins(0, 0, 0, 0, immediately); } public void setMarginsPinned(boolean pin) { if (pin == mMarginsPinned) { return; } mMarginsPinned = pin; } public boolean areMarginsShown() { final ImmutableViewportMetrics metrics = mTarget.getViewportMetrics(); return metrics.marginLeft != 0 || metrics.marginRight != 0 || metrics.marginTop != 0 || metrics.marginBottom != 0; } /** * This function will scroll a margin down to zero, or up to the maximum * specified margin size and return the left-over delta. * aMargins are in/out parameters. In specifies the current margin size, * and out specifies the modified margin size. They are specified in the * order of start-margin, then end-margin. * This function will also take into account how far the touch point has * moved and react accordingly. If a touch point hasn't moved beyond a * certain threshold, margins can only be hidden and not shown. * aNegativeOffset can be used if the remaining delta should be determined * by the end-margin instead of the start-margin (for example, in rtl * pages). */ private float scrollMargin(float[] aMargins, float aDelta, float aOverscrollStart, float aOverscrollEnd, float aTouchTravelDistance, float aViewportStart, float aViewportEnd, float aPageStart, float aPageEnd, float aMaxMarginStart, float aMaxMarginEnd, boolean aNegativeOffset) { float marginStart = aMargins[0]; float marginEnd = aMargins[1]; float viewportSize = aViewportEnd - aViewportStart; float exposeThreshold = viewportSize * SHOW_MARGINS_THRESHOLD; if (aDelta >= 0) { float marginDelta = Math.max(0, aDelta - aOverscrollStart); aMargins[0] = marginStart - Math.min(marginDelta, marginStart); if (aTouchTravelDistance < exposeThreshold && marginEnd == 0) { // We only want the margin to be newly exposed after the touch // has moved a certain distance. marginDelta = Math.max(0, marginDelta - (aPageEnd - aViewportEnd)); } aMargins[1] = marginEnd + Math.min(marginDelta, aMaxMarginEnd - marginEnd); } else { float marginDelta = Math.max(0, -aDelta - aOverscrollEnd); aMargins[1] = marginEnd - Math.min(marginDelta, marginEnd); if (-aTouchTravelDistance < exposeThreshold && marginStart == 0) { marginDelta = Math.max(0, marginDelta - (aViewportStart - aPageStart)); } aMargins[0] = marginStart + Math.min(marginDelta, aMaxMarginStart - marginStart); } if (aNegativeOffset) { return aDelta - (marginEnd - aMargins[1]); } return aDelta - (marginStart - aMargins[0]); } /* * Taking maximum margins into account, offsets the margins and then the * viewport origin and returns the modified metrics. */ ImmutableViewportMetrics scrollBy(ImmutableViewportMetrics aMetrics, float aDx, float aDy) { float[] newMarginsX = { aMetrics.marginLeft, aMetrics.marginRight }; float[] newMarginsY = { aMetrics.marginTop, aMetrics.marginBottom }; // Only alter margins if the toolbar isn't pinned if (!mMarginsPinned) { // Make sure to cancel any margin animations when margin-scrolling begins if (mAnimationTask != null) { mTarget.getView().removeRenderTask(mAnimationTask); mAnimationTask = null; } // Reset the touch travel when changing direction if ((aDx >= 0) != (mTouchTravelDistance.x >= 0)) { mTouchTravelDistance.x = 0; } if ((aDy >= 0) != (mTouchTravelDistance.y >= 0)) { mTouchTravelDistance.y = 0; } mTouchTravelDistance.offset(aDx, aDy); RectF overscroll = aMetrics.getOverscroll(); // Only allow margins to scroll if the page can fill the viewport. if (aMetrics.getPageWidth() >= aMetrics.getWidth()) { aDx = scrollMargin(newMarginsX, aDx, overscroll.left, overscroll.right, mTouchTravelDistance.x, aMetrics.viewportRectLeft, aMetrics.viewportRectRight, aMetrics.pageRectLeft, aMetrics.pageRectRight, mMaxMargins.left, mMaxMargins.right, aMetrics.isRTL); } if (aMetrics.getPageHeight() >= aMetrics.getHeight()) { aDy = scrollMargin(newMarginsY, aDy, overscroll.top, overscroll.bottom, mTouchTravelDistance.y, aMetrics.viewportRectTop, aMetrics.viewportRectBottom, aMetrics.pageRectTop, aMetrics.pageRectBottom, mMaxMargins.top, mMaxMargins.bottom, false); } } return aMetrics.setMargins(newMarginsX[0], newMarginsY[0], newMarginsX[1], newMarginsY[1]).offsetViewportBy(aDx, aDy); } boolean onInterceptTouchEvent(MotionEvent event) { int action = event.getActionMasked(); if (action == MotionEvent.ACTION_DOWN && event.getPointerCount() == 1) { mTouchTravelDistance.set(0.0f, 0.0f); } return false; } class LayerMarginsAnimationTask extends RenderTask { private float mStartLeft, mStartTop, mStartRight, mStartBottom; private float mTop, mBottom, mLeft, mRight; private boolean mContinueAnimation; public LayerMarginsAnimationTask(boolean runAfter, ImmutableViewportMetrics metrics, float left, float top, float right, float bottom) { super(runAfter); mContinueAnimation = true; this.mStartLeft = metrics.marginLeft; this.mStartTop = metrics.marginTop; this.mStartRight = metrics.marginRight; this.mStartBottom = metrics.marginBottom; this.mLeft = left; this.mRight = right; this.mTop = top; this.mBottom = bottom; } @Override public boolean internalRun(long timeDelta, long currentFrameStartTime) { if (!mContinueAnimation) { return false; } // Calculate the progress (between 0 and 1) float progress = mInterpolator.getInterpolation( Math.min(1.0f, (System.nanoTime() - getStartTime()) / (float)MARGIN_ANIMATION_DURATION)); // Calculate the new metrics accordingly synchronized (mTarget.getLock()) { ImmutableViewportMetrics oldMetrics = mTarget.getViewportMetrics(); ImmutableViewportMetrics newMetrics = oldMetrics.setMargins( FloatUtils.interpolate(mStartLeft, mLeft, progress), FloatUtils.interpolate(mStartTop, mTop, progress), FloatUtils.interpolate(mStartRight, mRight, progress), FloatUtils.interpolate(mStartBottom, mBottom, progress)); PointF oldOffset = oldMetrics.getMarginOffset(); PointF newOffset = newMetrics.getMarginOffset(); newMetrics = newMetrics.offsetViewportByAndClamp(newOffset.x - oldOffset.x, newOffset.y - oldOffset.y); if (progress >= 1.0f) { mContinueAnimation = false; // Force a redraw and update Gecko mTarget.forceViewportMetrics(newMetrics, true, true); } else { mTarget.forceViewportMetrics(newMetrics, false, false); } } return mContinueAnimation; } } }