cc/input/scroll_snap_data.h - chromium/src.git - Git at Google

 // Copyright 2017 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef CC_INPUT_SCROLL_SNAP_DATA_H_
 #define CC_INPUT_SCROLL_SNAP_DATA_H_

 #include <vector>

 #include "base/optional.h"
 #include "cc/cc_export.h"
 #include "ui/gfx/geometry/rect_f.h"
 #include "ui/gfx/geometry/scroll_offset.h"
 #include "ui/gfx/range/range_f.h"

 namespace cc {

 class SnapSelectionStrategy;

 // See https://www.w3.org/TR/css-scroll-snap-1/#snap-axis
 enum class SnapAxis : unsigned {
   kBoth,
   kX,
   kY,
   kBlock,
   kInline,
 };

 // A helper enum to specify the the axis when doing calculations.
 enum class SearchAxis : unsigned { kX, kY };

 // See https://www.w3.org/TR/css-scroll-snap-1/#snap-strictness
 // TODO(sunyunjia): Add kNone for SnapStrictness to match the spec.
 // crbug.com/791663
 enum class SnapStrictness : unsigned { kProximity, kMandatory };

 // See https://www.w3.org/TR/css-scroll-snap-1/#scroll-snap-align
 enum class SnapAlignment : unsigned { kNone, kStart, kEnd, kCenter };

 struct ScrollSnapType {
   ScrollSnapType()
       : is_none(true),
         axis(SnapAxis::kBoth),
         strictness(SnapStrictness::kProximity) {}

   ScrollSnapType(bool snap_type_none, SnapAxis axis, SnapStrictness strictness)
       : is_none(snap_type_none), axis(axis), strictness(strictness) {}

   bool operator==(const ScrollSnapType& other) const {
     return is_none == other.is_none && axis == other.axis &&
            strictness == other.strictness;
   }

   bool operator!=(const ScrollSnapType& other) const {
     return !(*this == other);
   }

   // Whether the scroll-snap-type is none or the snap-strictness field has the
   // value None.
   // TODO(sunyunjia): Consider combining is_none with SnapStrictness.
   bool is_none;

   SnapAxis axis;
   SnapStrictness strictness;
 };

 struct ScrollSnapAlign {
   ScrollSnapAlign()
       : alignment_block(SnapAlignment::kNone),
         alignment_inline(SnapAlignment::kNone) {}

   explicit ScrollSnapAlign(SnapAlignment alignment)
       : alignment_block(alignment), alignment_inline(alignment) {}

   ScrollSnapAlign(SnapAlignment b, SnapAlignment i)
       : alignment_block(b), alignment_inline(i) {}

   bool operator==(const ScrollSnapAlign& other) const {
     return alignment_block == other.alignment_block &&
            alignment_inline == other.alignment_inline;
   }

   bool operator!=(const ScrollSnapAlign& other) const {
     return !(*this == other);
   }

   SnapAlignment alignment_block;
   SnapAlignment alignment_inline;
 };

 // This class includes snap offset and visible range needed to perform a snap
 // operation on one axis for a specific area. The data can be used to determine
 // whether this snap area provides a valid snap position for the current scroll.
 class SnapSearchResult {
  public:
   SnapSearchResult() {}
   SnapSearchResult(float offset, const gfx::RangeF& range);
   // Clips the |snap_offset| between 0 and |max_snap|. And clips the
   // |visible_range| between 0 and |max_visible|.
   void Clip(float max_snap, float max_visible);

   // Union the visible_range of the two SnapSearchResult if they represent two
   // snap areas that are both covering the snapport at the current offset.
   void Union(const SnapSearchResult& other);

   float snap_offset() const { return snap_offset_; }
   void set_snap_offset(float offset) { snap_offset_ = offset; }

   gfx::RangeF visible_range() const { return visible_range_; }
   void set_visible_range(const gfx::RangeF& range);

  private:
   float snap_offset_;
   // This is the range on the cross axis, within which the SnapArea generating
   // this |snap_offset| is visible. We expect the range to be in order (as
   // opposed to reversed), i.e., start() < end().
   gfx::RangeF visible_range_;
 };

 // Snap area is a bounding box that could be snapped to when a scroll happens in
 // its scroll container.
 // This data structure describes the data needed for SnapCoordinator if we want
 // to snap to this snap area.
 struct SnapAreaData {
   // kInvalidScrollOffset is used to mark that the snap_position on a specific
   // axis is not applicable, thus should not be considered when snapping on that
   // axis. This is because the snap area has SnapAlignmentNone on that axis.
   static const int kInvalidScrollPosition = -1;

   SnapAreaData() {}

   SnapAreaData(const ScrollSnapAlign& align, const gfx::RectF& rec, bool msnap)
       : scroll_snap_align(align), rect(rec), must_snap(msnap) {}

   bool operator==(const SnapAreaData& other) const {
     return (other.scroll_snap_align == scroll_snap_align) &&
            (other.rect == rect) && (other.must_snap == must_snap);
   }

   bool operator!=(const SnapAreaData& other) const { return !(*this == other); }

   // Specifies how the snap area should be aligned with its snap container when
   // snapped. The alignment_inline and alignment_block represent the alignments
   // on x axis and y axis repectively.
   ScrollSnapAlign scroll_snap_align;

   // The snap area rect relative to its snap container's boundary
   gfx::RectF rect;

   // Whether this area has scroll-snap-stop: always.
   // See https://www.w3.org/TR/css-scroll-snap-1/#scroll-snap-stop
   bool must_snap;
 };

 typedef std::vector<SnapAreaData> SnapAreaList;

 // Snap container is a scroll container that has non-'none' value for
 // scroll-snap-type. It can be snapped to one of its snap areas when a scroll
 // happens.
 // This data structure describes the data needed for SnapCoordinator to perform
 // snapping in the snap container.
 class CC_EXPORT SnapContainerData {
  public:
   SnapContainerData();
   explicit SnapContainerData(ScrollSnapType type);
   SnapContainerData(ScrollSnapType type,
                     const gfx::RectF& rect,
                     const gfx::ScrollOffset& max);
   SnapContainerData(const SnapContainerData& other);
   SnapContainerData(SnapContainerData&& other);
   ~SnapContainerData();

   SnapContainerData& operator=(const SnapContainerData& other);
   SnapContainerData& operator=(SnapContainerData&& other);

   bool operator==(const SnapContainerData& other) const {
     return (other.scroll_snap_type_ == scroll_snap_type_) &&
            (other.rect_ == rect_) && (other.max_position_ == max_position_) &&
            (other.proximity_range_ == proximity_range_) &&
            (other.snap_area_list_ == snap_area_list_);
   }

   bool operator!=(const SnapContainerData& other) const {
     return !(*this == other);
   }

   bool FindSnapPosition(const SnapSelectionStrategy& strategy,
                         gfx::ScrollOffset* snap_position) const;

   void AddSnapAreaData(SnapAreaData snap_area_data);
   size_t size() const { return snap_area_list_.size(); }
   const SnapAreaData& at(int index) const { return snap_area_list_[index]; }

   void set_scroll_snap_type(ScrollSnapType type) { scroll_snap_type_ = type; }
   ScrollSnapType scroll_snap_type() const { return scroll_snap_type_; }

   void set_rect(const gfx::RectF& rect) { rect_ = rect; }
   gfx::RectF rect() const { return rect_; }

   void set_max_position(gfx::ScrollOffset position) {
     max_position_ = position;
   }
   gfx::ScrollOffset max_position() const { return max_position_; }

   void set_proximity_range(const gfx::ScrollOffset& range) {
     proximity_range_ = range;
   }
   gfx::ScrollOffset proximity_range() const { return proximity_range_; }

  private:
   // Finds the best SnapArea candidate that's optimal for the given selection
   // strategy, while satisfying two invariants:
   // - |candidate.snap_offset| is within |cross_axis_snap_result|'s visible
   // range on |axis|.
   // - |cross_axis_snap_result.snap_offset| is within |candidate|'s visible
   // range on the cross axis.
   // |cross_axis_snap_result| is what we've found to snap on the cross axis,
   // or the original scroll offset if this is the first iteration of search.
   // Returns the candidate as SnapSearchResult that includes the area's
   // |snap_offset| and its visible range on the cross axis.
   // When |should_consider_covering| is true, the current offset can be valid if
   // it makes a snap area cover the snapport.
   base::Optional<SnapSearchResult> FindClosestValidAreaInternal(
       SearchAxis axis,
       const SnapSelectionStrategy& strategy,
       const SnapSearchResult& cross_axis_snap_result,
       bool should_consider_covering = true) const;

   // A wrapper of FindClosestValidAreaInternal(). If
   // FindClosestValidAreaInternal() doesn't return a valid result when the snap
   // type is mandatory and the strategy has an intended direction, we relax the
   // strategy to ignore the direction and find again.
   base::Optional<SnapSearchResult> FindClosestValidArea(
       SearchAxis axis,
       const SnapSelectionStrategy& strategy,
       const SnapSearchResult& cross_axis_snap_result) const;

   // Returns all the info needed to snap at this area on the given axis,
   // including:
   // - The offset at which the snap area and the snap container meet the
   //   requested alignment.
   // - The visible range within which the snap area is visible on the cross
   //   axis.
   SnapSearchResult GetSnapSearchResult(SearchAxis axis,
                                        const SnapAreaData& data) const;

   bool IsSnapportCoveredOnAxis(SearchAxis axis,
                                float current_offset,
                                const gfx::RectF& area_rect) const;

   // Specifies whether a scroll container is a scroll snap container, how
   // strictly it snaps, and which axes are considered.
   // See https://www.w3.org/TR/css-scroll-snap-1/#scroll-snap-type for details.
   ScrollSnapType scroll_snap_type_;

   // The rect of the snap_container relative to its boundary.
   gfx::RectF rect_;

   // The maximal scroll position of the SnapContainer, in the same coordinate
   // with blink's scroll position.
   gfx::ScrollOffset max_position_;

   // A valid snap position should be within the |proximity_range_| of the
   // current offset on the snapping axis.
   gfx::ScrollOffset proximity_range_;

   // The SnapAreaData for the snap areas in this snap container. When a scroll
   // happens, we iterate through the snap_area_list to find the best snap
   // position.
   std::vector<SnapAreaData> snap_area_list_;
 };

 CC_EXPORT std::ostream& operator<<(std::ostream&, const SnapAreaData&);
 CC_EXPORT std::ostream& operator<<(std::ostream&, const SnapContainerData&);

 }  // namespace cc

 #endif  // CC_INPUT_SCROLL_SNAP_DATA_H_
	// Copyright 2017 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef CC_INPUT_SCROLL_SNAP_DATA_H_
	#define CC_INPUT_SCROLL_SNAP_DATA_H_

	#include <vector>

	#include "base/optional.h"
	#include "cc/cc_export.h"
	#include "ui/gfx/geometry/rect_f.h"
	#include "ui/gfx/geometry/scroll_offset.h"
	#include "ui/gfx/range/range_f.h"

	namespace cc {

	class SnapSelectionStrategy;

	// See https://www.w3.org/TR/css-scroll-snap-1/#snap-axis
	enum class SnapAxis : unsigned {
	kBoth,
	kX,
	kY,
	kBlock,
	kInline,
	};

	// A helper enum to specify the the axis when doing calculations.
	enum class SearchAxis : unsigned { kX, kY };

	// See https://www.w3.org/TR/css-scroll-snap-1/#snap-strictness
	// TODO(sunyunjia): Add kNone for SnapStrictness to match the spec.
	// crbug.com/791663
	enum class SnapStrictness : unsigned { kProximity, kMandatory };

	// See https://www.w3.org/TR/css-scroll-snap-1/#scroll-snap-align
	enum class SnapAlignment : unsigned { kNone, kStart, kEnd, kCenter };

	struct ScrollSnapType {
	ScrollSnapType()
	: is_none(true),
	axis(SnapAxis::kBoth),
	strictness(SnapStrictness::kProximity) {}

	ScrollSnapType(bool snap_type_none, SnapAxis axis, SnapStrictness strictness)
	: is_none(snap_type_none), axis(axis), strictness(strictness) {}

	bool operator==(const ScrollSnapType& other) const {
	return is_none == other.is_none && axis == other.axis &&
	strictness == other.strictness;
	}

	bool operator!=(const ScrollSnapType& other) const {
	return !(*this == other);
	}

	// Whether the scroll-snap-type is none or the snap-strictness field has the
	// value None.
	// TODO(sunyunjia): Consider combining is_none with SnapStrictness.
	bool is_none;

	SnapAxis axis;
	SnapStrictness strictness;
	};

	struct ScrollSnapAlign {
	ScrollSnapAlign()
	: alignment_block(SnapAlignment::kNone),
	alignment_inline(SnapAlignment::kNone) {}

	explicit ScrollSnapAlign(SnapAlignment alignment)
	: alignment_block(alignment), alignment_inline(alignment) {}

	ScrollSnapAlign(SnapAlignment b, SnapAlignment i)
	: alignment_block(b), alignment_inline(i) {}

	bool operator==(const ScrollSnapAlign& other) const {
	return alignment_block == other.alignment_block &&
	alignment_inline == other.alignment_inline;
	}

	bool operator!=(const ScrollSnapAlign& other) const {
	return !(*this == other);
	}

	SnapAlignment alignment_block;
	SnapAlignment alignment_inline;
	};

	// This class includes snap offset and visible range needed to perform a snap
	// operation on one axis for a specific area. The data can be used to determine
	// whether this snap area provides a valid snap position for the current scroll.
	class SnapSearchResult {
	public:
	SnapSearchResult() {}
	SnapSearchResult(float offset, const gfx::RangeF& range);
	// Clips the \|snap_offset\| between 0 and \|max_snap\|. And clips the
	// \|visible_range\| between 0 and \|max_visible\|.
	void Clip(float max_snap, float max_visible);

	// Union the visible_range of the two SnapSearchResult if they represent two
	// snap areas that are both covering the snapport at the current offset.
	void Union(const SnapSearchResult& other);

	float snap_offset() const { return snap_offset_; }
	void set_snap_offset(float offset) { snap_offset_ = offset; }

	gfx::RangeF visible_range() const { return visible_range_; }
	void set_visible_range(const gfx::RangeF& range);

	private:
	float snap_offset_;
	// This is the range on the cross axis, within which the SnapArea generating
	// this \|snap_offset\| is visible. We expect the range to be in order (as
	// opposed to reversed), i.e., start() < end().
	gfx::RangeF visible_range_;
	};

	// Snap area is a bounding box that could be snapped to when a scroll happens in
	// its scroll container.
	// This data structure describes the data needed for SnapCoordinator if we want
	// to snap to this snap area.
	struct SnapAreaData {
	// kInvalidScrollOffset is used to mark that the snap_position on a specific
	// axis is not applicable, thus should not be considered when snapping on that
	// axis. This is because the snap area has SnapAlignmentNone on that axis.
	static const int kInvalidScrollPosition = -1;

	SnapAreaData() {}

	SnapAreaData(const ScrollSnapAlign& align, const gfx::RectF& rec, bool msnap)
	: scroll_snap_align(align), rect(rec), must_snap(msnap) {}

	bool operator==(const SnapAreaData& other) const {
	return (other.scroll_snap_align == scroll_snap_align) &&
	(other.rect == rect) && (other.must_snap == must_snap);
	}

	bool operator!=(const SnapAreaData& other) const { return !(*this == other); }

	// Specifies how the snap area should be aligned with its snap container when
	// snapped. The alignment_inline and alignment_block represent the alignments
	// on x axis and y axis repectively.
	ScrollSnapAlign scroll_snap_align;

	// The snap area rect relative to its snap container's boundary
	gfx::RectF rect;

	// Whether this area has scroll-snap-stop: always.
	// See https://www.w3.org/TR/css-scroll-snap-1/#scroll-snap-stop
	bool must_snap;
	};

	typedef std::vector<SnapAreaData> SnapAreaList;

	// Snap container is a scroll container that has non-'none' value for
	// scroll-snap-type. It can be snapped to one of its snap areas when a scroll
	// happens.
	// This data structure describes the data needed for SnapCoordinator to perform
	// snapping in the snap container.
	class CC_EXPORT SnapContainerData {
	public:
	SnapContainerData();
	explicit SnapContainerData(ScrollSnapType type);
	SnapContainerData(ScrollSnapType type,
	const gfx::RectF& rect,
	const gfx::ScrollOffset& max);
	SnapContainerData(const SnapContainerData& other);
	SnapContainerData(SnapContainerData&& other);
	~SnapContainerData();

	SnapContainerData& operator=(const SnapContainerData& other);
	SnapContainerData& operator=(SnapContainerData&& other);

	bool operator==(const SnapContainerData& other) const {
	return (other.scroll_snap_type_ == scroll_snap_type_) &&
	(other.rect_ == rect_) && (other.max_position_ == max_position_) &&
	(other.proximity_range_ == proximity_range_) &&
	(other.snap_area_list_ == snap_area_list_);
	}

	bool operator!=(const SnapContainerData& other) const {
	return !(*this == other);
	}

	bool FindSnapPosition(const SnapSelectionStrategy& strategy,
	gfx::ScrollOffset* snap_position) const;

	void AddSnapAreaData(SnapAreaData snap_area_data);
	size_t size() const { return snap_area_list_.size(); }
	const SnapAreaData& at(int index) const { return snap_area_list_[index]; }

	void set_scroll_snap_type(ScrollSnapType type) { scroll_snap_type_ = type; }
	ScrollSnapType scroll_snap_type() const { return scroll_snap_type_; }

	void set_rect(const gfx::RectF& rect) { rect_ = rect; }
	gfx::RectF rect() const { return rect_; }

	void set_max_position(gfx::ScrollOffset position) {
	max_position_ = position;
	}
	gfx::ScrollOffset max_position() const { return max_position_; }

	void set_proximity_range(const gfx::ScrollOffset& range) {
	proximity_range_ = range;
	}
	gfx::ScrollOffset proximity_range() const { return proximity_range_; }

	private:
	// Finds the best SnapArea candidate that's optimal for the given selection
	// strategy, while satisfying two invariants:
	// - \|candidate.snap_offset\| is within \|cross_axis_snap_result\|'s visible
	// range on \|axis\|.
	// - \|cross_axis_snap_result.snap_offset\| is within \|candidate\|'s visible
	// range on the cross axis.
	// \|cross_axis_snap_result\| is what we've found to snap on the cross axis,
	// or the original scroll offset if this is the first iteration of search.
	// Returns the candidate as SnapSearchResult that includes the area's
	// \|snap_offset\| and its visible range on the cross axis.
	// When \|should_consider_covering\| is true, the current offset can be valid if
	// it makes a snap area cover the snapport.
	base::Optional<SnapSearchResult> FindClosestValidAreaInternal(
	SearchAxis axis,
	const SnapSelectionStrategy& strategy,
	const SnapSearchResult& cross_axis_snap_result,
	bool should_consider_covering = true) const;

	// A wrapper of FindClosestValidAreaInternal(). If
	// FindClosestValidAreaInternal() doesn't return a valid result when the snap
	// type is mandatory and the strategy has an intended direction, we relax the
	// strategy to ignore the direction and find again.
	base::Optional<SnapSearchResult> FindClosestValidArea(
	SearchAxis axis,
	const SnapSelectionStrategy& strategy,
	const SnapSearchResult& cross_axis_snap_result) const;

	// Returns all the info needed to snap at this area on the given axis,
	// including:
	// - The offset at which the snap area and the snap container meet the
	// requested alignment.
	// - The visible range within which the snap area is visible on the cross
	// axis.
	SnapSearchResult GetSnapSearchResult(SearchAxis axis,
	const SnapAreaData& data) const;

	bool IsSnapportCoveredOnAxis(SearchAxis axis,
	float current_offset,
	const gfx::RectF& area_rect) const;

	// Specifies whether a scroll container is a scroll snap container, how
	// strictly it snaps, and which axes are considered.
	// See https://www.w3.org/TR/css-scroll-snap-1/#scroll-snap-type for details.
	ScrollSnapType scroll_snap_type_;

	// The rect of the snap_container relative to its boundary.
	gfx::RectF rect_;

	// The maximal scroll position of the SnapContainer, in the same coordinate
	// with blink's scroll position.
	gfx::ScrollOffset max_position_;

	// A valid snap position should be within the \|proximity_range_\| of the
	// current offset on the snapping axis.
	gfx::ScrollOffset proximity_range_;

	// The SnapAreaData for the snap areas in this snap container. When a scroll
	// happens, we iterate through the snap_area_list to find the best snap
	// position.
	std::vector<SnapAreaData> snap_area_list_;
	};

	CC_EXPORT std::ostream& operator<<(std::ostream&, const SnapAreaData&);
	CC_EXPORT std::ostream& operator<<(std::ostream&, const SnapContainerData&);

	} // namespace cc

	#endif // CC_INPUT_SCROLL_SNAP_DATA_H_