/* * Copyright (C) 2016 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 languag`e governing permissions and * limitations under the License. */ package android.support.v7.widget; import android.graphics.PointF; import android.support.annotation.NonNull; import android.support.annotation.Nullable; import android.view.View; /** * Implementation of the {@link SnapHelper} supporting snapping in either vertical or horizontal * orientation. *
* The implementation will snap the center of the target child view to the center of * the attached {@link RecyclerView}. If you intend to change this behavior then override * {@link SnapHelper#calculateDistanceToFinalSnap}. */ public class LinearSnapHelper extends SnapHelper { private static final float INVALID_DISTANCE = 1f; // Orientation helpers are lazily created per LayoutManager. @Nullable private OrientationHelper mVerticalHelper; @Nullable private OrientationHelper mHorizontalHelper; @Override public int[] calculateDistanceToFinalSnap( @NonNull RecyclerView.LayoutManager layoutManager, @NonNull View targetView) { int[] out = new int[2]; if (layoutManager.canScrollHorizontally()) { out[0] = distanceToCenter(layoutManager, targetView, getHorizontalHelper(layoutManager)); } else { out[0] = 0; } if (layoutManager.canScrollVertically()) { out[1] = distanceToCenter(layoutManager, targetView, getVerticalHelper(layoutManager)); } else { out[1] = 0; } return out; } @Override public int findTargetSnapPosition(RecyclerView.LayoutManager layoutManager, int velocityX, int velocityY) { if (!(layoutManager instanceof RecyclerView.SmoothScroller.ScrollVectorProvider)) { return RecyclerView.NO_POSITION; } final int itemCount = layoutManager.getItemCount(); if (itemCount == 0) { return RecyclerView.NO_POSITION; } final View currentView = findSnapView(layoutManager); if (currentView == null) { return RecyclerView.NO_POSITION; } final int currentPosition = layoutManager.getPosition(currentView); if (currentPosition == RecyclerView.NO_POSITION) { return RecyclerView.NO_POSITION; } RecyclerView.SmoothScroller.ScrollVectorProvider vectorProvider = (RecyclerView.SmoothScroller.ScrollVectorProvider) layoutManager; // deltaJumps sign comes from the velocity which may not match the order of children in // the LayoutManager. To overcome this, we ask for a vector from the LayoutManager to // get the direction. PointF vectorForEnd = vectorProvider.computeScrollVectorForPosition(itemCount - 1); if (vectorForEnd == null) { // cannot get a vector for the given position. return RecyclerView.NO_POSITION; } int vDeltaJump, hDeltaJump; if (layoutManager.canScrollHorizontally()) { hDeltaJump = estimateNextPositionDiffForFling(layoutManager, getHorizontalHelper(layoutManager), velocityX, 0); if (vectorForEnd.x < 0) { hDeltaJump = -hDeltaJump; } } else { hDeltaJump = 0; } if (layoutManager.canScrollVertically()) { vDeltaJump = estimateNextPositionDiffForFling(layoutManager, getVerticalHelper(layoutManager), 0, velocityY); if (vectorForEnd.y < 0) { vDeltaJump = -vDeltaJump; } } else { vDeltaJump = 0; } int deltaJump = layoutManager.canScrollVertically() ? vDeltaJump : hDeltaJump; if (deltaJump == 0) { return RecyclerView.NO_POSITION; } int targetPos = currentPosition + deltaJump; if (targetPos < 0) { targetPos = 0; } if (targetPos >= itemCount) { targetPos = itemCount - 1; } return targetPos; } @Override public View findSnapView(RecyclerView.LayoutManager layoutManager) { if (layoutManager.canScrollVertically()) { return findCenterView(layoutManager, getVerticalHelper(layoutManager)); } else if (layoutManager.canScrollHorizontally()) { return findCenterView(layoutManager, getHorizontalHelper(layoutManager)); } return null; } private int distanceToCenter(@NonNull RecyclerView.LayoutManager layoutManager, @NonNull View targetView, OrientationHelper helper) { final int childCenter = helper.getDecoratedStart(targetView) + (helper.getDecoratedMeasurement(targetView) / 2); final int containerCenter; if (layoutManager.getClipToPadding()) { containerCenter = helper.getStartAfterPadding() + helper.getTotalSpace() / 2; } else { containerCenter = helper.getEnd() / 2; } return childCenter - containerCenter; } /** * Estimates a position to which SnapHelper will try to scroll to in response to a fling. * * @param layoutManager The {@link RecyclerView.LayoutManager} associated with the attached * {@link RecyclerView}. * @param helper The {@link OrientationHelper} that is created from the LayoutManager. * @param velocityX The velocity on the x axis. * @param velocityY The velocity on the y axis. * * @return The diff between the target scroll position and the current position. */ private int estimateNextPositionDiffForFling(RecyclerView.LayoutManager layoutManager, OrientationHelper helper, int velocityX, int velocityY) { int[] distances = calculateScrollDistance(velocityX, velocityY); float distancePerChild = computeDistancePerChild(layoutManager, helper); if (distancePerChild <= 0) { return 0; } int distance = Math.abs(distances[0]) > Math.abs(distances[1]) ? distances[0] : distances[1]; if (distance > 0) { return (int) Math.floor(distance / distancePerChild); } else { return (int) Math.ceil(distance / distancePerChild); } } /** * Return the child view that is currently closest to the center of this parent. * * @param layoutManager The {@link RecyclerView.LayoutManager} associated with the attached * {@link RecyclerView}. * @param helper The relevant {@link OrientationHelper} for the attached {@link RecyclerView}. * * @return the child view that is currently closest to the center of this parent. */ @Nullable private View findCenterView(RecyclerView.LayoutManager layoutManager, OrientationHelper helper) { int childCount = layoutManager.getChildCount(); if (childCount == 0) { return null; } View closestChild = null; final int center; if (layoutManager.getClipToPadding()) { center = helper.getStartAfterPadding() + helper.getTotalSpace() / 2; } else { center = helper.getEnd() / 2; } int absClosest = Integer.MAX_VALUE; for (int i = 0; i < childCount; i++) { final View child = layoutManager.getChildAt(i); int childCenter = helper.getDecoratedStart(child) + (helper.getDecoratedMeasurement(child) / 2); int absDistance = Math.abs(childCenter - center); /** if child center is closer than previous closest, set it as closest **/ if (absDistance < absClosest) { absClosest = absDistance; closestChild = child; } } return closestChild; } /** * Computes an average pixel value to pass a single child. *
* Returns a negative value if it cannot be calculated. * * @param layoutManager The {@link RecyclerView.LayoutManager} associated with the attached * {@link RecyclerView}. * @param helper The relevant {@link OrientationHelper} for the attached * {@link RecyclerView.LayoutManager}. * * @return A float value that is the average number of pixels needed to scroll by one view in * the relevant direction. */ private float computeDistancePerChild(RecyclerView.LayoutManager layoutManager, OrientationHelper helper) { View minPosView = null; View maxPosView = null; int minPos = Integer.MAX_VALUE; int maxPos = Integer.MIN_VALUE; int childCount = layoutManager.getChildCount(); if (childCount == 0) { return INVALID_DISTANCE; } for (int i = 0; i < childCount; i++) { View child = layoutManager.getChildAt(i); final int pos = layoutManager.getPosition(child); if (pos == RecyclerView.NO_POSITION) { continue; } if (pos < minPos) { minPos = pos; minPosView = child; } if (pos > maxPos) { maxPos = pos; maxPosView = child; } } if (minPosView == null || maxPosView == null) { return INVALID_DISTANCE; } int start = Math.min(helper.getDecoratedStart(minPosView), helper.getDecoratedStart(maxPosView)); int end = Math.max(helper.getDecoratedEnd(minPosView), helper.getDecoratedEnd(maxPosView)); int distance = end - start; if (distance == 0) { return INVALID_DISTANCE; } return 1f * distance / ((maxPos - minPos) + 1); } @NonNull private OrientationHelper getVerticalHelper(@NonNull RecyclerView.LayoutManager layoutManager) { if (mVerticalHelper == null || mVerticalHelper.mLayoutManager != layoutManager) { mVerticalHelper = OrientationHelper.createVerticalHelper(layoutManager); } return mVerticalHelper; } @NonNull private OrientationHelper getHorizontalHelper( @NonNull RecyclerView.LayoutManager layoutManager) { if (mHorizontalHelper == null || mHorizontalHelper.mLayoutManager != layoutManager) { mHorizontalHelper = OrientationHelper.createHorizontalHelper(layoutManager); } return mHorizontalHelper; } }