/* -*- 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_MotionPathUtils_h #define mozilla_MotionPathUtils_h #include "mozilla/gfx/2D.h" #include "mozilla/gfx/Point.h" #include "mozilla/gfx/Rect.h" #include "mozilla/Maybe.h" #include "mozilla/ServoStyleConsts.h" #include "Units.h" class nsIFrame; namespace nsStyleTransformMatrix { class TransformReferenceBox; } namespace mozilla { using RayFunction = StyleRayFunction; namespace layers { class MotionPathData; class PathCommand; } // namespace layers struct ResolvedMotionPathData { gfx::Point mTranslate; float mRotate; // The delta value between transform-origin and offset-anchor. gfx::Point mShift; }; struct RayReferenceData { // The initial position related to the containing block. CSSPoint mInitialPosition; // The rect of the containing block. CSSRect mContainingBlockRect; RayReferenceData() = default; explicit RayReferenceData(const nsIFrame* aFrame); bool operator==(const RayReferenceData& aOther) const { return mInitialPosition == aOther.mInitialPosition && mContainingBlockRect == aOther.mContainingBlockRect; } }; // The collected information for offset-path. We preprocess the value of // offset-path and use this data for resolving motion path. struct OffsetPathData { enum class Type : uint8_t { None, Path, Ray, }; struct PathData { RefPtr mGfxPath; bool mIsClosedIntervals; }; struct RayData { const RayFunction* mRay; RayReferenceData mData; }; Type mType; union { PathData mPath; RayData mRay; }; static OffsetPathData None() { return OffsetPathData(); } static OffsetPathData Path(const StyleSVGPathData& aPath, already_AddRefed&& aGfxPath) { const auto& path = aPath._0.AsSpan(); return OffsetPathData(std::move(aGfxPath), !path.empty() && path.rbegin()->IsClosePath()); } static OffsetPathData Ray(const RayFunction& aRay, const RayReferenceData& aData) { return OffsetPathData(&aRay, aData); } static OffsetPathData Ray(const RayFunction& aRay, RayReferenceData&& aData) { return OffsetPathData(&aRay, std::move(aData)); } bool IsNone() const { return mType == Type::None; } bool IsPath() const { return mType == Type::Path; } bool IsRay() const { return mType == Type::Ray; } const PathData& AsPath() const { MOZ_ASSERT(IsPath()); return mPath; } const RayData& AsRay() const { MOZ_ASSERT(IsRay()); return mRay; } ~OffsetPathData() { switch (mType) { case Type::Path: mPath.~PathData(); break; case Type::Ray: mRay.~RayData(); break; default: break; } } OffsetPathData(const OffsetPathData& aOther) : mType(aOther.mType) { switch (mType) { case Type::Path: mPath = aOther.mPath; break; case Type::Ray: mRay = aOther.mRay; break; default: break; } } OffsetPathData(OffsetPathData&& aOther) : mType(aOther.mType) { switch (mType) { case Type::Path: mPath = std::move(aOther.mPath); break; case Type::Ray: mRay = std::move(aOther.mRay); break; default: break; } } private: OffsetPathData() : mType(Type::None) {} OffsetPathData(already_AddRefed&& aPath, bool aIsClosed) : mType(Type::Path), mPath{std::move(aPath), aIsClosed} {} OffsetPathData(const RayFunction* aRay, RayReferenceData&& aRef) : mType(Type::Ray), mRay{aRay, std::move(aRef)} {} OffsetPathData(const RayFunction* aRay, const RayReferenceData& aRef) : mType(Type::Ray), mRay{aRay, aRef} {} OffsetPathData& operator=(const OffsetPathData&) = delete; OffsetPathData& operator=(OffsetPathData&&) = delete; }; // MotionPathUtils is a namespace class containing utility functions related to // processing motion path in the [motion-1]. // https://drafts.fxtf.org/motion-1/ class MotionPathUtils final { using TransformReferenceBox = nsStyleTransformMatrix::TransformReferenceBox; public: // SVG frames (unlike other frames) have a reference box that can be (and // typically is) offset from the TopLeft() of the frame. // // In motion path, we have to make sure the object is aligned with offset-path // when using content area, so we should tweak the anchor point by a given // offset. static CSSPoint ComputeAnchorPointAdjustment(const nsIFrame& aFrame); /** * Generate the motion path transform result. This function may be called on * the compositor thread. */ static Maybe ResolveMotionPath( const OffsetPathData& aPath, const LengthPercentage& aDistance, const StyleOffsetRotate& aRotate, const StylePositionOrAuto& aAnchor, const CSSPoint& aTransformOrigin, TransformReferenceBox&, const CSSPoint& aAnchorPointAdjustment); /** * Generate the motion path transform result with |nsIFrame|. This is only * called in the main thread. */ static Maybe ResolveMotionPath( const nsIFrame* aFrame, TransformReferenceBox&); /** * Generate the motion path transfrom result with styles and * layers::MotionPathData. * This is only called by the compositor. */ static Maybe ResolveMotionPath( const StyleOffsetPath* aPath, const StyleLengthPercentage* aDistance, const StyleOffsetRotate* aRotate, const StylePositionOrAuto* aAnchor, const Maybe& aMotionPathData, TransformReferenceBox&, gfx::Path* aCachedMotionPath); /** * Normalize StyleSVGPathData. * * The algorithm of normalization is the same as normalize() in * servo/components/style/values/specified/svg_path.rs * FIXME: Bug 1489392: We don't have to normalize the path here if we accept * the spec issue which would like to normalize svg paths at computed time. * https://github.com/w3c/svgwg/issues/321 */ static StyleSVGPathData NormalizeSVGPathData(const StyleSVGPathData& aPath); /** * Build a gfx::Path from the computed svg path. We should give it a path * builder. If |aPathBuilder| is nullptr, we return null path. * */ static already_AddRefed BuildPath(const StyleSVGPathData& aPath, gfx::PathBuilder* aPathBuilder); /** * Get a path builder for compositor. */ static already_AddRefed GetCompositorPathBuilder(); }; } // namespace mozilla #endif // mozilla_MotionPathUtils_h