/* * Copyright (C) 2014 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 android.support.v7.widget; import android.content.Context; import android.graphics.PointF; import android.util.DisplayMetrics; import android.util.Log; import android.view.View; import android.view.animation.DecelerateInterpolator; import android.view.animation.LinearInterpolator; /** * {@link RecyclerView.SmoothScroller} implementation which uses * {@link android.view.animation.LinearInterpolator} until the target position becames a child of * the RecyclerView and then uses * {@link android.view.animation.DecelerateInterpolator} to slowly approach to target position. */ abstract public class LinearSmoothScroller extends RecyclerView.SmoothScroller { private static final String TAG = "LinearSmoothScroller"; private static final boolean DEBUG = false; private static final float MILLISECONDS_PER_INCH = 25f; private static final int TARGET_SEEK_SCROLL_DISTANCE_PX = 10000; /** * Align child view's left or top with parent view's left or top * * @see #calculateDtToFit(int, int, int, int, int) * @see #calculateDxToMakeVisible(android.view.View, int) * @see #calculateDyToMakeVisible(android.view.View, int) */ public static final int SNAP_TO_START = -1; /** * Align child view's right or bottom with parent view's right or bottom * * @see #calculateDtToFit(int, int, int, int, int) * @see #calculateDxToMakeVisible(android.view.View, int) * @see #calculateDyToMakeVisible(android.view.View, int) */ public static final int SNAP_TO_END = 1; /** *

Decides if the child should be snapped from start or end, depending on where it * currently is in relation to its parent.

*

For instance, if the view is virtually on the left of RecyclerView, using * {@code SNAP_TO_ANY} is the same as using {@code SNAP_TO_START}

* * @see #calculateDtToFit(int, int, int, int, int) * @see #calculateDxToMakeVisible(android.view.View, int) * @see #calculateDyToMakeVisible(android.view.View, int) */ public static final int SNAP_TO_ANY = 0; // Trigger a scroll to a further distance than TARGET_SEEK_SCROLL_DISTANCE_PX so that if target // view is not laid out until interim target position is reached, we can detect the case before // scrolling slows down and reschedule another interim target scroll private static final float TARGET_SEEK_EXTRA_SCROLL_RATIO = 1.2f; protected final LinearInterpolator mLinearInterpolator = new LinearInterpolator(); protected final DecelerateInterpolator mDecelerateInterpolator = new DecelerateInterpolator(); protected PointF mTargetVector; private final float MILLISECONDS_PER_PX; // Temporary variables to keep track of the interim scroll target. These values do not // point to a real item position, rather point to an estimated location pixels. protected int mInterimTargetDx = 0, mInterimTargetDy = 0; public LinearSmoothScroller(Context context) { MILLISECONDS_PER_PX = calculateSpeedPerPixel(context.getResources().getDisplayMetrics()); } /** * {@inheritDoc} */ @Override protected void onStart() { } /** * {@inheritDoc} */ @Override protected void onTargetFound(View targetView, RecyclerView.State state, Action action) { final int dx = calculateDxToMakeVisible(targetView, getHorizontalSnapPreference()); final int dy = calculateDyToMakeVisible(targetView, getVerticalSnapPreference()); final int distance = (int) Math.sqrt(dx * dx + dy * dy); final int time = calculateTimeForDeceleration(distance); if (time > 0) { action.update(-dx, -dy, time, mDecelerateInterpolator); } } /** * {@inheritDoc} */ @Override protected void onSeekTargetStep(int dx, int dy, RecyclerView.State state, Action action) { if (getChildCount() == 0) { stop(); return; } if (DEBUG && mTargetVector != null && ((mTargetVector.x * dx < 0 || mTargetVector.y * dy < 0))) { throw new IllegalStateException("Scroll happened in the opposite direction" + " of the target. Some calculations are wrong"); } mInterimTargetDx = clampApplyScroll(mInterimTargetDx, dx); mInterimTargetDy = clampApplyScroll(mInterimTargetDy, dy); if (mInterimTargetDx == 0 && mInterimTargetDy == 0) { updateActionForInterimTarget(action); } // everything is valid, keep going } /** * {@inheritDoc} */ @Override protected void onStop() { mInterimTargetDx = mInterimTargetDy = 0; mTargetVector = null; } /** * Calculates the scroll speed. * * @param displayMetrics DisplayMetrics to be used for real dimension calculations * @return The time (in ms) it should take for each pixel. For instance, if returned value is * 2 ms, it means scrolling 1000 pixels with LinearInterpolation should take 2 seconds. */ protected float calculateSpeedPerPixel(DisplayMetrics displayMetrics) { return MILLISECONDS_PER_INCH / displayMetrics.densityDpi; } /** *

Calculates the time for deceleration so that transition from LinearInterpolator to * DecelerateInterpolator looks smooth.

* * @param dx Distance to scroll * @return Time for DecelerateInterpolator to smoothly traverse the distance when transitioning * from LinearInterpolation */ protected int calculateTimeForDeceleration(int dx) { // we want to cover same area with the linear interpolator for the first 10% of the // interpolation. After that, deceleration will take control. // area under curve (1-(1-x)^2) can be calculated as (1 - x/3) * x * x // which gives 0.100028 when x = .3356 // this is why we divide linear scrolling time with .3356 return (int) Math.ceil(calculateTimeForScrolling(dx) / .3356); } /** * Calculates the time it should take to scroll the given distance (in pixels) * * @param dx Distance in pixels that we want to scroll * @return Time in milliseconds * @see #calculateSpeedPerPixel(android.util.DisplayMetrics) */ protected int calculateTimeForScrolling(int dx) { // In a case where dx is very small, rounding may return 0 although dx > 0. // To avoid that issue, ceil the result so that if dx > 0, we'll always return positive // time. return (int) Math.ceil(Math.abs(dx) * MILLISECONDS_PER_PX); } /** * When scrolling towards a child view, this method defines whether we should align the left * or the right edge of the child with the parent RecyclerView. * * @return SNAP_TO_START, SNAP_TO_END or SNAP_TO_ANY; depending on the current target vector * @see #SNAP_TO_START * @see #SNAP_TO_END * @see #SNAP_TO_ANY */ protected int getHorizontalSnapPreference() { return mTargetVector == null || mTargetVector.x == 0 ? SNAP_TO_ANY : mTargetVector.x > 0 ? SNAP_TO_END : SNAP_TO_START; } /** * When scrolling towards a child view, this method defines whether we should align the top * or the bottom edge of the child with the parent RecyclerView. * * @return SNAP_TO_START, SNAP_TO_END or SNAP_TO_ANY; depending on the current target vector * @see #SNAP_TO_START * @see #SNAP_TO_END * @see #SNAP_TO_ANY */ protected int getVerticalSnapPreference() { return mTargetVector == null || mTargetVector.y == 0 ? SNAP_TO_ANY : mTargetVector.y > 0 ? SNAP_TO_END : SNAP_TO_START; } /** * When the target scroll position is not a child of the RecyclerView, this method calculates * a direction vector towards that child and triggers a smooth scroll. * * @see #computeScrollVectorForPosition(int) */ protected void updateActionForInterimTarget(Action action) { // find an interim target position PointF scrollVector = computeScrollVectorForPosition(getTargetPosition()); if (scrollVector == null || (scrollVector.x == 0 && scrollVector.y == 0)) { Log.e(TAG, "To support smooth scrolling, you should override \n" + "LayoutManager#computeScrollVectorForPosition.\n" + "Falling back to instant scroll"); final int target = getTargetPosition(); stop(); instantScrollToPosition(target); return; } normalize(scrollVector); mTargetVector = scrollVector; mInterimTargetDx = (int) (TARGET_SEEK_SCROLL_DISTANCE_PX * scrollVector.x); mInterimTargetDy = (int) (TARGET_SEEK_SCROLL_DISTANCE_PX * scrollVector.y); final int time = calculateTimeForScrolling(TARGET_SEEK_SCROLL_DISTANCE_PX); // To avoid UI hiccups, trigger a smooth scroll to a distance little further than the // interim target. Since we track the distance travelled in onSeekTargetStep callback, it // won't actually scroll more than what we need. action.update((int) (mInterimTargetDx * TARGET_SEEK_EXTRA_SCROLL_RATIO) , (int) (mInterimTargetDy * TARGET_SEEK_EXTRA_SCROLL_RATIO) , (int) (time * TARGET_SEEK_EXTRA_SCROLL_RATIO), mLinearInterpolator); } private int clampApplyScroll(int tmpDt, int dt) { final int before = tmpDt; tmpDt -= dt; if (before * tmpDt <= 0) { // changed sign, reached 0 or was 0, reset return 0; } return tmpDt; } /** * Helper method for {@link #calculateDxToMakeVisible(android.view.View, int)} and * {@link #calculateDyToMakeVisible(android.view.View, int)} */ public int calculateDtToFit(int viewStart, int viewEnd, int boxStart, int boxEnd, int snapPreference) { switch (snapPreference) { case SNAP_TO_START: return boxStart - viewStart; case SNAP_TO_END: return boxEnd - viewEnd; case SNAP_TO_ANY: final int dtStart = boxStart - viewStart; if (dtStart > 0) { return dtStart; } final int dtEnd = boxEnd - viewEnd; if (dtEnd < 0) { return dtEnd; } break; default: throw new IllegalArgumentException("snap preference should be one of the" + " constants defined in SmoothScroller, starting with SNAP_"); } return 0; } /** * Calculates the vertical scroll amount necessary to make the given view fully visible * inside the RecyclerView. * * @param view The view which we want to make fully visible * @param snapPreference The edge which the view should snap to when entering the visible * area. One of {@link #SNAP_TO_START}, {@link #SNAP_TO_END} or * {@link #SNAP_TO_END}. * @return The vertical scroll amount necessary to make the view visible with the given * snap preference. */ public int calculateDyToMakeVisible(View view, int snapPreference) { final RecyclerView.LayoutManager layoutManager = getLayoutManager(); if (!layoutManager.canScrollVertically()) { return 0; } final RecyclerView.LayoutParams params = (RecyclerView.LayoutParams) view.getLayoutParams(); final int top = layoutManager.getDecoratedTop(view) - params.topMargin; final int bottom = layoutManager.getDecoratedBottom(view) + params.bottomMargin; final int start = layoutManager.getPaddingTop(); final int end = layoutManager.getHeight() - layoutManager.getPaddingBottom(); return calculateDtToFit(top, bottom, start, end, snapPreference); } /** * Calculates the horizontal scroll amount necessary to make the given view fully visible * inside the RecyclerView. * * @param view The view which we want to make fully visible * @param snapPreference The edge which the view should snap to when entering the visible * area. One of {@link #SNAP_TO_START}, {@link #SNAP_TO_END} or * {@link #SNAP_TO_END} * @return The vertical scroll amount necessary to make the view visible with the given * snap preference. */ public int calculateDxToMakeVisible(View view, int snapPreference) { final RecyclerView.LayoutManager layoutManager = getLayoutManager(); if (!layoutManager.canScrollHorizontally()) { return 0; } final RecyclerView.LayoutParams params = (RecyclerView.LayoutParams) view.getLayoutParams(); final int left = layoutManager.getDecoratedLeft(view) - params.leftMargin; final int right = layoutManager.getDecoratedRight(view) + params.rightMargin; final int start = layoutManager.getPaddingLeft(); final int end = layoutManager.getWidth() - layoutManager.getPaddingRight(); return calculateDtToFit(left, right, start, end, snapPreference); } abstract public PointF computeScrollVectorForPosition(int targetPosition); }