/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=8 sts=2 et sw=2 tw=80: */ /* 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/. */ #ifndef mozilla_layout_ScrollAnchorContainer_h_ #define mozilla_layout_ScrollAnchorContainer_h_ #include "nsPoint.h" #include "mozilla/Saturate.h" class nsFrameList; class nsIFrame; class nsIScrollableFrame; namespace mozilla { class ScrollFrameHelper; } // namespace mozilla namespace mozilla { namespace layout { /** * A scroll anchor container finds a descendent element of a scrollable frame * to be an anchor node. After every reflow, the scroll anchor will apply * scroll adjustments to keep the anchor node in the same relative position. * * See: https://drafts.csswg.org/css-scroll-anchoring/ */ class ScrollAnchorContainer final { public: explicit ScrollAnchorContainer(ScrollFrameHelper* aScrollFrame); ~ScrollAnchorContainer(); /** * Returns the nearest scroll anchor container that could select aFrame as an * anchor node. */ static ScrollAnchorContainer* FindFor(nsIFrame* aFrame); /** * Returns the frame that is the selected anchor node or null if no anchor * is selected. */ nsIFrame* AnchorNode() const { return mAnchorNode; } /** * Returns the frame that owns this scroll anchor container. This is always * non-null. */ nsIFrame* Frame() const; /** * Returns the frame that owns this scroll anchor container as a scrollable * frame. This is always non-null. */ nsIScrollableFrame* ScrollableFrame() const; /** * Find a suitable anchor node among the descendants of the scrollable frame. * This should only be called after the scroll anchor has been invalidated. */ void SelectAnchor(); /** * Whether this scroll frame can maintain an anchor node at the moment. */ bool CanMaintainAnchor() const; /** * Notify the scroll anchor container that its scroll frame has been * scrolled by a user and should invalidate itself. */ void UserScrolled(); /** * Notify the scroll anchor container that a reflow has happened and it * should query its anchor to see if a scroll adjustment needs to occur. */ void ApplyAdjustments(); /** * Notify the scroll anchor container that it should suppress any scroll * adjustment that may happen after the next layout flush. */ void SuppressAdjustments(); /** * Notify this scroll anchor container that its anchor node should be * invalidated, and recomputed at the next available opportunity if * ScheduleSelection is Yes. */ enum class ScheduleSelection { No, Yes }; void InvalidateAnchor(ScheduleSelection = ScheduleSelection::Yes); /** * Notify this scroll anchor container that it will be destroyed along with * its parent frame. */ void Destroy(); private: // Represents an assessment of a frame's suitability as a scroll anchor, // from the scroll-anchoring spec's "candidate examination algorithm": // https://drafts.csswg.org/css-scroll-anchoring-1/#candidate-examination enum class ExamineResult { // The frame is an excluded subtree or fully clipped and should be ignored. // This corresponds with step 1 in the algorithm. Exclude, // This frame is an anonymous or inline box and its descendants should be // searched to find an anchor node. If none are found, then continue // searching. This is implied by the prologue of the algorithm, and // should be made explicit in the spec [1]. // // [1] https://github.com/w3c/csswg-drafts/issues/3489 PassThrough, // The frame is partially visible and its descendants should be searched to // find an anchor node. If none are found then this frame should be // selected. This corresponds with step 3 in the algorithm. Traverse, // The frame is fully visible and should be selected as an anchor node. This // corresponds with step 2 in the algorithm. Accept, }; ExamineResult ExamineAnchorCandidate(nsIFrame* aPrimaryFrame) const; // Search a frame's children to find an anchor node. Returns the frame for a // valid anchor node, if one was found in the frames descendants, or null // otherwise. nsIFrame* FindAnchorIn(nsIFrame* aFrame) const; // Search a child list to find an anchor node. Returns the frame for a valid // anchor node, if one was found in this child list, or null otherwise. nsIFrame* FindAnchorInList(const nsFrameList& aFrameList) const; // Notes that a given adjustment has happened, and maybe disables scroll // anchoring on this scroller altogether based on various prefs. void AdjustmentMade(nscoord aAdjustment); // The owner of this scroll anchor container ScrollFrameHelper* mScrollFrame; // The anchor node that we will scroll to keep in the same relative position // after reflows. This may be null if we were not able to select a valid // scroll anchor nsIFrame* mAnchorNode; // The last offset of the scroll anchor node's scrollable overflow rect start // edge relative to the scroll-port start edge, in the block axis of the // scroll frame. This is used for calculating the distance to scroll to keep // the anchor node in the same relative position nscoord mLastAnchorOffset; // The number of consecutive scroll anchoring adjustments that have happened // without a user scroll. SaturateUint32 mConsecutiveScrollAnchoringAdjustments{0}; // The total length that has been adjusted by all the consecutive adjustments // referenced above. Note that this is a sum, so that oscillating adjustments // average towards zero. nscoord mConsecutiveScrollAnchoringAdjustmentLength{0}; // True if we've been disabled by the heuristic controlled by // layout.css.scroll-anchoring.max-consecutive-adjustments and // layout.css.scroll-anchoring.min-adjustment-threshold. bool mDisabled : 1; // True if we should recalculate our anchor node at the next chance bool mAnchorNodeIsDirty : 1; // True if we are applying a scroll anchor adjustment bool mApplyingAnchorAdjustment : 1; // True if we should suppress anchor adjustments bool mSuppressAnchorAdjustment : 1; }; } // namespace layout } // namespace mozilla #endif // mozilla_layout_ScrollAnchorContainer_h_