Source/WebCore/rendering/svg/RenderSVGShape.cpp - WebKit - Git at Google

 /*
  * Copyright (C) 2004, 2005, 2007 Nikolas Zimmermann <zimmermann@kde.org>
  * Copyright (C) 2004, 2005, 2008 Rob Buis <buis@kde.org>
  * Copyright (C) 2005, 2007 Eric Seidel <eric@webkit.org>
  * Copyright (C) 2009 Google, Inc.
  * Copyright (C) 2009 Dirk Schulze <krit@webkit.org>
  * Copyright (C) Research In Motion Limited 2010. All rights reserved.
  * Copyright (C) 2009 Jeff Schiller <codedread@gmail.com>
  * Copyright (C) 2011 Renata Hodovan <reni@webkit.org>
  * Copyright (C) 2011 University of Szeged
  * Copyright (C) 2018 Adobe Systems Incorporated. All rights reserved.
  * Copyright (C) 2020, 2021, 2022 Igalia S.L.
  *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Library General Public
  * License as published by the Free Software Foundation; either
  * version 2 of the License, or (at your option) any later version.
  *
  * This library is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Library General Public License for more details.
  *
  * You should have received a copy of the GNU Library General Public License
  * along with this library; see the file COPYING.LIB.  If not, write to
  * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
  * Boston, MA 02110-1301, USA.
  */

 #include "config.h"
 #include "RenderSVGShape.h"

 #if ENABLE(LAYER_BASED_SVG_ENGINE)
 #include "FloatPoint.h"
 #include "FloatQuad.h"
 #include "GraphicsContext.h"
 #include "HitTestRequest.h"
 #include "HitTestResult.h"
 #include "LayoutRepainter.h"
 #include "PointerEventsHitRules.h"
 #include "RenderSVGResourceMarker.h"
 #include "RenderSVGResourceSolidColor.h"
 #include "RenderSVGShapeInlines.h"
 #include "SVGPathData.h"
 #include "SVGRenderingContext.h"
 #include "SVGResources.h"
 #include "SVGResourcesCache.h"
 #include "SVGURIReference.h"
 #include <wtf/IsoMallocInlines.h>
 #include <wtf/StackStats.h>

 namespace WebCore {

 WTF_MAKE_ISO_ALLOCATED_IMPL(RenderSVGShape);

 RenderSVGShape::RenderSVGShape(SVGGraphicsElement& element, RenderStyle&& style)
     : RenderSVGModelObject(element, WTFMove(style))
 {
 }

 RenderSVGShape::~RenderSVGShape() = default;

 void RenderSVGShape::updateShapeFromElement()
 {
     m_path = createPath();
     processMarkerPositions();

     m_fillBoundingBox = calculateObjectBoundingBox();
     m_strokeBoundingBox = calculateStrokeBoundingBox();
 }

 bool RenderSVGShape::isEmpty() const
 {
     // This function should never be called before assigning a new Path to m_path.
     // But this bug can happen if this renderer was created and its layout was not
     // done before painting. Assert this did not happen but do not crash.
     ASSERT(hasPath());
     return !hasPath() || path().isEmpty();
 }

 void RenderSVGShape::fillShape(GraphicsContext& context) const
 {
     context.fillPath(path());
 }

 void RenderSVGShape::strokeShape(GraphicsContext& context) const
 {
     ASSERT(m_path);
     Path* usePath = m_path.get();

     if (hasNonScalingStroke())
         usePath = nonScalingStrokePath(usePath, nonScalingStrokeTransform());

     context.strokePath(*usePath);
 }

 bool RenderSVGShape::shapeDependentStrokeContains(const FloatPoint& point, PointCoordinateSpace pointCoordinateSpace)
 {
     ASSERT(m_path);

     if (hasNonScalingStroke() && pointCoordinateSpace != LocalCoordinateSpace) {
         AffineTransform nonScalingTransform = nonScalingStrokeTransform();
         Path* usePath = nonScalingStrokePath(m_path.get(), nonScalingTransform);
         return usePath->strokeContains(nonScalingTransform.mapPoint(point), [this] (GraphicsContext& context) {
             SVGRenderSupport::applyStrokeStyleToContext(context, style(), *this);
         });
     }

     return m_path->strokeContains(point, [this] (GraphicsContext& context) {
         SVGRenderSupport::applyStrokeStyleToContext(context, style(), *this);
     });
 }

 bool RenderSVGShape::shapeDependentFillContains(const FloatPoint& point, const WindRule fillRule) const
 {
     return path().contains(point, fillRule);
 }

 bool RenderSVGShape::fillContains(const FloatPoint& point, bool requiresFill, const WindRule fillRule)
 {
     if (m_fillBoundingBox.isEmpty() || !m_fillBoundingBox.contains(point))
         return false;

     Color fallbackColor;
     if (requiresFill && !RenderSVGResource::fillPaintingResource(*this, style(), fallbackColor))
         return false;

     return shapeDependentFillContains(point, fillRule);
 }

 bool RenderSVGShape::strokeContains(const FloatPoint& point, bool requiresStroke)
 {
     if (strokeBoundingBox().isEmpty() || !strokeBoundingBox().contains(point))
         return false;

     Color fallbackColor;
     if (requiresStroke && !RenderSVGResource::strokePaintingResource(*this, style(), fallbackColor))
         return false;

     return shapeDependentStrokeContains(point);
 }

 void RenderSVGShape::layout()
 {
     StackStats::LayoutCheckPoint layoutCheckPoint;

     LayoutRepainter repainter(*this, checkForRepaintDuringLayout());
     if (m_needsShapeUpdate) {
         // FIXME: [LBSE] Upstream SVGLengthContext changes
         // graphicsElement().updateLengthContext();
         updateShapeFromElement();

         m_needsShapeUpdate = false;
         setCurrentSVGLayoutRect(enclosingLayoutRect(m_fillBoundingBox));
     }

     updateLayerTransform();

     // Invalidate all resources of this client if our layout changed.
     if (everHadLayout() && selfNeedsLayout())
         SVGResourcesCache::clientLayoutChanged(*this);

     repainter.repaintAfterLayout();
     clearNeedsLayout();
 }

 Path* RenderSVGShape::nonScalingStrokePath(const Path* path, const AffineTransform& strokeTransform) const
 {
     static NeverDestroyed<Path> tempPath;

     tempPath.get() = *path;
     tempPath.get().transform(strokeTransform);

     return &tempPath.get();
 }

 bool RenderSVGShape::setupNonScalingStrokeContext(AffineTransform& strokeTransform, GraphicsContextStateSaver& stateSaver)
 {
     std::optional<AffineTransform> inverse = strokeTransform.inverse();
     if (!inverse)
         return false;

     stateSaver.save();
     stateSaver.context()->concatCTM(inverse.value());
     return true;
 }

 AffineTransform RenderSVGShape::nonScalingStrokeTransform() const
 {
     return graphicsElement().getScreenCTM(SVGLocatable::DisallowStyleUpdate);
 }

 bool RenderSVGShape::shouldGenerateMarkerPositions() const
 {
     if (!style().svgStyle().hasMarkers())
         return false;

     if (!graphicsElement().supportsMarkers())
         return false;

     auto* resources = SVGResourcesCache::cachedResourcesForRenderer(*this);
     if (!resources)
         return false;

     return resources->markerStart() || resources->markerMid() || resources->markerEnd();
 }

 void RenderSVGShape::fillShape(const RenderStyle& style, GraphicsContext& originalContext)
 {
     GraphicsContext* context = &originalContext;
     Color fallbackColor;
     if (RenderSVGResource* fillPaintingResource = RenderSVGResource::fillPaintingResource(*this, style, fallbackColor)) {
         if (fillPaintingResource->applyResource(*this, style, context, RenderSVGResourceMode::ApplyToFill))
             fillPaintingResource->postApplyResource(*this, context, RenderSVGResourceMode::ApplyToFill, nullptr, this);
         else if (fallbackColor.isValid()) {
             RenderSVGResourceSolidColor* fallbackResource = RenderSVGResource::sharedSolidPaintingResource();
             fallbackResource->setColor(fallbackColor);
             if (fallbackResource->applyResource(*this, style, context, RenderSVGResourceMode::ApplyToFill))
                 fallbackResource->postApplyResource(*this, context, RenderSVGResourceMode::ApplyToFill, nullptr, this);
         }
     }
 }

 void RenderSVGShape::strokeShape(const RenderStyle& style, GraphicsContext& originalContext)
 {
     GraphicsContext* context = &originalContext;
     Color fallbackColor;
     if (RenderSVGResource* strokePaintingResource = RenderSVGResource::strokePaintingResource(*this, style, fallbackColor)) {
         if (strokePaintingResource->applyResource(*this, style, context, RenderSVGResourceMode::ApplyToStroke))
             strokePaintingResource->postApplyResource(*this, context, RenderSVGResourceMode::ApplyToStroke, nullptr, this);
         else if (fallbackColor.isValid()) {
             RenderSVGResourceSolidColor* fallbackResource = RenderSVGResource::sharedSolidPaintingResource();
             fallbackResource->setColor(fallbackColor);
             if (fallbackResource->applyResource(*this, style, context, RenderSVGResourceMode::ApplyToStroke))
                 fallbackResource->postApplyResource(*this, context, RenderSVGResourceMode::ApplyToStroke, nullptr, this);
         }
     }
 }

 void RenderSVGShape::strokeShape(GraphicsContext& context)
 {
     if (!style().hasVisibleStroke())
         return;

     GraphicsContextStateSaver stateSaver(context, false);
     if (hasNonScalingStroke()) {
         AffineTransform nonScalingTransform = nonScalingStrokeTransform();
         if (!setupNonScalingStrokeContext(nonScalingTransform, stateSaver))
             return;
     }
     strokeShape(style(), context);
 }

 void RenderSVGShape::fillStrokeMarkers(PaintInfo& childPaintInfo)
 {
     auto paintOrder = RenderStyle::paintTypesForPaintOrder(style().paintOrder());
     for (unsigned i = 0; i < paintOrder.size(); ++i) {
         switch (paintOrder.at(i)) {
         case PaintType::Fill:
             fillShape(style(), childPaintInfo.context());
             break;
         case PaintType::Stroke:
             strokeShape(childPaintInfo.context());
             break;
         case PaintType::Markers:
             if (!m_markerPositions.isEmpty())
                 drawMarkers(childPaintInfo);
             break;
         }
     }
 }

 void RenderSVGShape::paint(PaintInfo& paintInfo, const LayoutPoint& paintOffset)
 {
     if (paintInfo.context().paintingDisabled())
         return;

     // FIXME: [LBSE] Upstream SVGRenderSupport changes
     // if (!SVGRenderSupport::shouldPaintHiddenRenderer(*this))
     //    return;

     if (!shouldPaintSVGRenderer(paintInfo) || isEmpty())
         return;

     if (paintInfo.phase == PaintPhase::ClippingMask) {
         // FIXME: [LBSE] Upstream SVGRenderSupport changes
         // SVGRenderSupport::paintSVGClippingMask(*this, paintInfo);
         return;
     }

     auto adjustedPaintOffset = paintOffset + currentSVGLayoutLocation();
     if (paintInfo.phase == PaintPhase::Mask) {
         // FIXME: [LBSE] Upstream SVGRenderSupport changes
         // SVGRenderSupport::paintSVGMask(*this, paintInfo, adjustedPaintOffset);
         return;
     }

     auto visualOverflowRect = visualOverflowRectEquivalent();
     visualOverflowRect.moveBy(adjustedPaintOffset);
     if (!visualOverflowRect.intersects(paintInfo.rect))
         return;

     if (paintInfo.phase == PaintPhase::Outline || paintInfo.phase == PaintPhase::SelfOutline) {
         // FIXME: [LBSE] Upstream outline painting
         // paintSVGOutline(paintInfo, adjustedPaintOffset);
         return;
     }

     GraphicsContextStateSaver stateSaver(paintInfo.context());

     auto coordinateSystemOriginTranslation = adjustedPaintOffset - nominalSVGLayoutLocation();
     paintInfo.context().translate(coordinateSystemOriginTranslation.width(), coordinateSystemOriginTranslation.height());

     if (style().svgStyle().shapeRendering() == ShapeRendering::CrispEdges)
         paintInfo.context().setShouldAntialias(false);

     fillStrokeMarkers(paintInfo);
 }

 bool RenderSVGShape::isPointInFill(const FloatPoint& point)
 {
     return shapeDependentFillContains(point, style().svgStyle().fillRule());
 }

 bool RenderSVGShape::isPointInStroke(const FloatPoint& point)
 {
     if (!style().svgStyle().hasStroke())
         return false;

     return shapeDependentStrokeContains(point, LocalCoordinateSpace);
 }

 float RenderSVGShape::getTotalLength() const
 {
     return hasPath() ? path().length() : createPath()->length();
 }

 FloatPoint RenderSVGShape::getPointAtLength(float distance) const
 {
     return hasPath() ? path().pointAtLength(distance) : createPath()->pointAtLength(distance);
 }

 bool RenderSVGShape::nodeAtPoint(const HitTestRequest& request, HitTestResult& result, const HitTestLocation& locationInContainer, const LayoutPoint& accumulatedOffset, HitTestAction hitTestAction)
 {
     if (hitTestAction != HitTestForeground)
         return false;

     auto adjustedLocation = accumulatedOffset + currentSVGLayoutLocation();

     auto localPoint = locationInContainer.point();
     auto coordinateSystemOriginTranslation = nominalSVGLayoutLocation() - adjustedLocation;
     localPoint.move(coordinateSystemOriginTranslation);

     if (!SVGRenderSupport::pointInClippingArea(*this, localPoint))
         return false;

     SVGHitTestCycleDetectionScope hitTestScope(*this);

     PointerEventsHitRules hitRules(PointerEventsHitRules::SVG_PATH_HITTESTING, request, style().effectivePointerEvents());
     bool isVisible = (style().visibility() == Visibility::Visible);
     if (isVisible || !hitRules.requireVisible) {
         const SVGRenderStyle& svgStyle = style().svgStyle();
         WindRule fillRule = svgStyle.fillRule();
         if (request.svgClipContent())
             fillRule = svgStyle.clipRule();

         if (hitRules.canHitStroke && (svgStyle.hasStroke() || !hitRules.requireStroke) && strokeContains(localPoint, hitRules.requireStroke)) {
             updateHitTestResult(result, locationInContainer.point() - toLayoutSize(adjustedLocation));
             if (result.addNodeToListBasedTestResult(nodeForHitTest(), request, locationInContainer, m_strokeBoundingBox) == HitTestProgress::Stop)
                 return true;
             return false;
         }

         if ((hitRules.canHitFill && (svgStyle.hasFill() || !hitRules.requireFill) && fillContains(localPoint, hitRules.requireFill, fillRule))
             || (hitRules.canHitBoundingBox && m_fillBoundingBox.contains(localPoint))) {
             updateHitTestResult(result, locationInContainer.point() - toLayoutSize(adjustedLocation));
             if (result.addNodeToListBasedTestResult(nodeForHitTest(), request, locationInContainer, m_fillBoundingBox) == HitTestProgress::Stop)
                 return true;
             return false;
         }
     }

     return false;
 }

 static inline RenderSVGResourceMarker* markerForType(SVGMarkerType type, RenderSVGResourceMarker* markerStart, RenderSVGResourceMarker* markerMid, RenderSVGResourceMarker* markerEnd)
 {
     switch (type) {
     case StartMarker:
         return markerStart;
     case MidMarker:
         return markerMid;
     case EndMarker:
         return markerEnd;
     }

     ASSERT_NOT_REACHED();
     return 0;
 }

 FloatRect RenderSVGShape::computeMarkerBoundingBox(const SVGBoundingBoxComputation::DecorationOptions&) const
 {
     if (m_markerPositions.isEmpty())
         return FloatRect();

     auto* resources = SVGResourcesCache::cachedResourcesForRenderer(*this);
     ASSERT(resources);

     auto* markerStart = resources->markerStart();
     auto* markerMid = resources->markerMid();
     auto* markerEnd = resources->markerEnd();
     if (!markerStart && !markerMid && !markerEnd)
         return FloatRect();

     FloatRect boundaries;
     unsigned size = m_markerPositions.size();
     for (unsigned i = 0; i < size; ++i) {
         if (auto* marker = markerForType(m_markerPositions[i].type, markerStart, markerMid, markerEnd)) {
             // FIXME: [LBSE] Upstream RenderSVGResourceMarker changes
             // boundaries.unite(marker->computeMarkerBoundingBox(options, marker->markerTransformation(m_markerPositions[i].origin, m_markerPositions[i].angle, strokeWidth())));
             boundaries.unite(marker->markerBoundaries(marker->markerTransformation(m_markerPositions[i].origin, m_markerPositions[i].angle, strokeWidth())));
         }
     }
     return boundaries;
 }

 FloatRect RenderSVGShape::calculateObjectBoundingBox() const
 {
     return path().boundingRect();
 }

 FloatRect RenderSVGShape::calculateStrokeBoundingBox() const
 {
     ASSERT(m_path);
     FloatRect strokeBoundingBox = m_fillBoundingBox;

     if (style().svgStyle().hasStroke()) {
         if (hasNonScalingStroke()) {
             AffineTransform nonScalingTransform = nonScalingStrokeTransform();
             if (std::optional<AffineTransform> inverse = nonScalingTransform.inverse()) {
                 Path* usePath = nonScalingStrokePath(m_path.get(), nonScalingTransform);
                 FloatRect strokeBoundingRect = usePath->strokeBoundingRect(Function<void(GraphicsContext&)> { [this] (GraphicsContext& context) {
                     SVGRenderSupport::applyStrokeStyleToContext(context, style(), *this);
                 } });
                 strokeBoundingRect = inverse.value().mapRect(strokeBoundingRect);
                 strokeBoundingBox.unite(strokeBoundingRect);
             }
         } else {
             strokeBoundingBox.unite(path().strokeBoundingRect(Function<void(GraphicsContext&)> { [this] (GraphicsContext& context) {
                 SVGRenderSupport::applyStrokeStyleToContext(context, style(), *this);
             } }));
         }
     }

     return strokeBoundingBox;
 }

 float RenderSVGShape::strokeWidth() const
 {
     SVGLengthContext lengthContext(&graphicsElement());
     return lengthContext.valueForLength(style().strokeWidth());
 }

 bool RenderSVGShape::hasSmoothStroke() const
 {
     const SVGRenderStyle& svgStyle = style().svgStyle();
     return svgStyle.strokeDashArray().isEmpty()
         && style().strokeMiterLimit() == style().initialStrokeMiterLimit()
         && style().joinStyle() == style().initialJoinStyle()
         && style().capStyle() == style().initialCapStyle();
 }

 void RenderSVGShape::drawMarkers(PaintInfo&)
 {
     ASSERT(!m_markerPositions.isEmpty());

     auto* resources = SVGResourcesCache::cachedResourcesForRenderer(*this);
     if (!resources)
         return;

     auto* markerStart = resources->markerStart();
     auto* markerMid = resources->markerMid();
     auto* markerEnd = resources->markerEnd();
     if (!markerStart && !markerMid && !markerEnd)
         return;

     float strokeWidth = this->strokeWidth();
     unsigned size = m_markerPositions.size();
     for (unsigned i = 0; i < size; ++i) {
         if (auto* marker = markerForType(m_markerPositions[i].type, markerStart, markerMid, markerEnd)) {
             UNUSED_PARAM(marker);
             UNUSED_PARAM(strokeWidth);

             // FIXME: [LBSE] Upstream RenderLayer changes
             // ASSERT(marker->hasLayer());
             // GraphicsContextStateSaver stateSaver(paintInfo.context());
             // auto contentTransform = marker->markerTransformation(m_markerPositions[i].origin, m_markerPositions[i].angle, strokeWidth);
             // marker->layer()->paintSVGResourceLayer(paintInfo.context(), LayoutRect::infiniteRect(), contentTransform);
         }
     }
 }

 std::unique_ptr<Path> RenderSVGShape::createPath() const
 {
     return makeUnique<Path>(pathFromGraphicsElement(&graphicsElement()));
 }

 void RenderSVGShape::processMarkerPositions()
 {
     m_markerPositions.clear();

     if (!shouldGenerateMarkerPositions())
         return;

     ASSERT(m_path);

     SVGMarkerData markerData(m_markerPositions, SVGResourcesCache::cachedResourcesForRenderer(*this)->markerReverseStart());
     m_path->apply([&markerData](const PathElement& pathElement) {
         SVGMarkerData::updateFromPathElement(markerData, pathElement);
     });
     markerData.pathIsDone();
 }

 void RenderSVGShape::styleWillChange(StyleDifference diff, const RenderStyle& newStyle)
 {
     auto* oldStyle = hasInitializedStyle() ? &style() : nullptr;
     if (oldStyle) {
         if (diff == StyleDifference::Layout)
             setNeedsShapeUpdate();
     }

     RenderSVGModelObject::styleWillChange(diff, newStyle);
 }

 void RenderSVGShape::applyTransform(TransformationMatrix& transform, const RenderStyle& style, const FloatRect& boundingBox, OptionSet<RenderStyle::TransformOperationOption> options) const
 {
     applySVGTransform(transform, graphicsElement(), style, boundingBox, options);
 }

 }

 #endif // ENABLE(LAYER_BASED_SVG_ENGINE)
	/*
	* Copyright (C) 2004, 2005, 2007 Nikolas Zimmermann <zimmermann@kde.org>
	* Copyright (C) 2004, 2005, 2008 Rob Buis <buis@kde.org>
	* Copyright (C) 2005, 2007 Eric Seidel <eric@webkit.org>
	* Copyright (C) 2009 Google, Inc.
	* Copyright (C) 2009 Dirk Schulze <krit@webkit.org>
	* Copyright (C) Research In Motion Limited 2010. All rights reserved.
	* Copyright (C) 2009 Jeff Schiller <codedread@gmail.com>
	* Copyright (C) 2011 Renata Hodovan <reni@webkit.org>
	* Copyright (C) 2011 University of Szeged
	* Copyright (C) 2018 Adobe Systems Incorporated. All rights reserved.
	* Copyright (C) 2020, 2021, 2022 Igalia S.L.
	*
	* This library is free software; you can redistribute it and/or
	* modify it under the terms of the GNU Library General Public
	* License as published by the Free Software Foundation; either
	* version 2 of the License, or (at your option) any later version.
	*
	* This library is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	* Library General Public License for more details.
	*
	* You should have received a copy of the GNU Library General Public License
	* along with this library; see the file COPYING.LIB. If not, write to
	* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
	* Boston, MA 02110-1301, USA.
	*/

	#include "config.h"
	#include "RenderSVGShape.h"

	#if ENABLE(LAYER_BASED_SVG_ENGINE)
	#include "FloatPoint.h"
	#include "FloatQuad.h"
	#include "GraphicsContext.h"
	#include "HitTestRequest.h"
	#include "HitTestResult.h"
	#include "LayoutRepainter.h"
	#include "PointerEventsHitRules.h"
	#include "RenderSVGResourceMarker.h"
	#include "RenderSVGResourceSolidColor.h"
	#include "RenderSVGShapeInlines.h"
	#include "SVGPathData.h"
	#include "SVGRenderingContext.h"
	#include "SVGResources.h"
	#include "SVGResourcesCache.h"
	#include "SVGURIReference.h"
	#include <wtf/IsoMallocInlines.h>
	#include <wtf/StackStats.h>

	namespace WebCore {

	WTF_MAKE_ISO_ALLOCATED_IMPL(RenderSVGShape);

	RenderSVGShape::RenderSVGShape(SVGGraphicsElement& element, RenderStyle&& style)
	: RenderSVGModelObject(element, WTFMove(style))
	{
	}

	RenderSVGShape::~RenderSVGShape() = default;

	void RenderSVGShape::updateShapeFromElement()
	{
	m_path = createPath();
	processMarkerPositions();

	m_fillBoundingBox = calculateObjectBoundingBox();
	m_strokeBoundingBox = calculateStrokeBoundingBox();
	}

	bool RenderSVGShape::isEmpty() const
	{
	// This function should never be called before assigning a new Path to m_path.
	// But this bug can happen if this renderer was created and its layout was not
	// done before painting. Assert this did not happen but do not crash.
	ASSERT(hasPath());
	return !hasPath() \|\| path().isEmpty();
	}

	void RenderSVGShape::fillShape(GraphicsContext& context) const
	{
	context.fillPath(path());
	}

	void RenderSVGShape::strokeShape(GraphicsContext& context) const
	{
	ASSERT(m_path);
	Path* usePath = m_path.get();

	if (hasNonScalingStroke())
	usePath = nonScalingStrokePath(usePath, nonScalingStrokeTransform());

	context.strokePath(*usePath);
	}

	bool RenderSVGShape::shapeDependentStrokeContains(const FloatPoint& point, PointCoordinateSpace pointCoordinateSpace)
	{
	ASSERT(m_path);

	if (hasNonScalingStroke() && pointCoordinateSpace != LocalCoordinateSpace) {
	AffineTransform nonScalingTransform = nonScalingStrokeTransform();
	Path* usePath = nonScalingStrokePath(m_path.get(), nonScalingTransform);
	return usePath->strokeContains(nonScalingTransform.mapPoint(point), [this] (GraphicsContext& context) {
	SVGRenderSupport::applyStrokeStyleToContext(context, style(), *this);
	});
	}

	return m_path->strokeContains(point, [this] (GraphicsContext& context) {
	SVGRenderSupport::applyStrokeStyleToContext(context, style(), *this);
	});
	}

	bool RenderSVGShape::shapeDependentFillContains(const FloatPoint& point, const WindRule fillRule) const
	{
	return path().contains(point, fillRule);
	}

	bool RenderSVGShape::fillContains(const FloatPoint& point, bool requiresFill, const WindRule fillRule)
	{
	if (m_fillBoundingBox.isEmpty() \|\| !m_fillBoundingBox.contains(point))
	return false;

	Color fallbackColor;
	if (requiresFill && !RenderSVGResource::fillPaintingResource(*this, style(), fallbackColor))
	return false;

	return shapeDependentFillContains(point, fillRule);
	}

	bool RenderSVGShape::strokeContains(const FloatPoint& point, bool requiresStroke)
	{
	if (strokeBoundingBox().isEmpty() \|\| !strokeBoundingBox().contains(point))
	return false;

	Color fallbackColor;
	if (requiresStroke && !RenderSVGResource::strokePaintingResource(*this, style(), fallbackColor))
	return false;

	return shapeDependentStrokeContains(point);
	}

	void RenderSVGShape::layout()
	{
	StackStats::LayoutCheckPoint layoutCheckPoint;

	LayoutRepainter repainter(*this, checkForRepaintDuringLayout());
	if (m_needsShapeUpdate) {
	// FIXME: [LBSE] Upstream SVGLengthContext changes
	// graphicsElement().updateLengthContext();
	updateShapeFromElement();

	m_needsShapeUpdate = false;
	setCurrentSVGLayoutRect(enclosingLayoutRect(m_fillBoundingBox));
	}

	updateLayerTransform();

	// Invalidate all resources of this client if our layout changed.
	if (everHadLayout() && selfNeedsLayout())
	SVGResourcesCache::clientLayoutChanged(*this);

	repainter.repaintAfterLayout();
	clearNeedsLayout();
	}

	Path* RenderSVGShape::nonScalingStrokePath(const Path* path, const AffineTransform& strokeTransform) const
	{
	static NeverDestroyed<Path> tempPath;

	tempPath.get() = *path;
	tempPath.get().transform(strokeTransform);

	return &tempPath.get();
	}

	bool RenderSVGShape::setupNonScalingStrokeContext(AffineTransform& strokeTransform, GraphicsContextStateSaver& stateSaver)
	{
	std::optional<AffineTransform> inverse = strokeTransform.inverse();
	if (!inverse)
	return false;

	stateSaver.save();
	stateSaver.context()->concatCTM(inverse.value());
	return true;
	}

	AffineTransform RenderSVGShape::nonScalingStrokeTransform() const
	{
	return graphicsElement().getScreenCTM(SVGLocatable::DisallowStyleUpdate);
	}

	bool RenderSVGShape::shouldGenerateMarkerPositions() const
	{
	if (!style().svgStyle().hasMarkers())
	return false;

	if (!graphicsElement().supportsMarkers())
	return false;

	auto* resources = SVGResourcesCache::cachedResourcesForRenderer(*this);
	if (!resources)
	return false;

	return resources->markerStart() \|\| resources->markerMid() \|\| resources->markerEnd();
	}

	void RenderSVGShape::fillShape(const RenderStyle& style, GraphicsContext& originalContext)
	{
	GraphicsContext* context = &originalContext;
	Color fallbackColor;
	if (RenderSVGResource* fillPaintingResource = RenderSVGResource::fillPaintingResource(*this, style, fallbackColor)) {
	if (fillPaintingResource->applyResource(*this, style, context, RenderSVGResourceMode::ApplyToFill))
	fillPaintingResource->postApplyResource(*this, context, RenderSVGResourceMode::ApplyToFill, nullptr, this);
	else if (fallbackColor.isValid()) {
	RenderSVGResourceSolidColor* fallbackResource = RenderSVGResource::sharedSolidPaintingResource();
	fallbackResource->setColor(fallbackColor);
	if (fallbackResource->applyResource(*this, style, context, RenderSVGResourceMode::ApplyToFill))
	fallbackResource->postApplyResource(*this, context, RenderSVGResourceMode::ApplyToFill, nullptr, this);
	}
	}
	}

	void RenderSVGShape::strokeShape(const RenderStyle& style, GraphicsContext& originalContext)
	{
	GraphicsContext* context = &originalContext;
	Color fallbackColor;
	if (RenderSVGResource* strokePaintingResource = RenderSVGResource::strokePaintingResource(*this, style, fallbackColor)) {
	if (strokePaintingResource->applyResource(*this, style, context, RenderSVGResourceMode::ApplyToStroke))
	strokePaintingResource->postApplyResource(*this, context, RenderSVGResourceMode::ApplyToStroke, nullptr, this);
	else if (fallbackColor.isValid()) {
	RenderSVGResourceSolidColor* fallbackResource = RenderSVGResource::sharedSolidPaintingResource();
	fallbackResource->setColor(fallbackColor);
	if (fallbackResource->applyResource(*this, style, context, RenderSVGResourceMode::ApplyToStroke))
	fallbackResource->postApplyResource(*this, context, RenderSVGResourceMode::ApplyToStroke, nullptr, this);
	}
	}
	}

	void RenderSVGShape::strokeShape(GraphicsContext& context)
	{
	if (!style().hasVisibleStroke())
	return;

	GraphicsContextStateSaver stateSaver(context, false);
	if (hasNonScalingStroke()) {
	AffineTransform nonScalingTransform = nonScalingStrokeTransform();
	if (!setupNonScalingStrokeContext(nonScalingTransform, stateSaver))
	return;
	}
	strokeShape(style(), context);
	}

	void RenderSVGShape::fillStrokeMarkers(PaintInfo& childPaintInfo)
	{
	auto paintOrder = RenderStyle::paintTypesForPaintOrder(style().paintOrder());
	for (unsigned i = 0; i < paintOrder.size(); ++i) {
	switch (paintOrder.at(i)) {
	case PaintType::Fill:
	fillShape(style(), childPaintInfo.context());
	break;
	case PaintType::Stroke:
	strokeShape(childPaintInfo.context());
	break;
	case PaintType::Markers:
	if (!m_markerPositions.isEmpty())
	drawMarkers(childPaintInfo);
	break;
	}
	}
	}

	void RenderSVGShape::paint(PaintInfo& paintInfo, const LayoutPoint& paintOffset)
	{
	if (paintInfo.context().paintingDisabled())
	return;

	// FIXME: [LBSE] Upstream SVGRenderSupport changes
	// if (!SVGRenderSupport::shouldPaintHiddenRenderer(*this))
	// return;

	if (!shouldPaintSVGRenderer(paintInfo) \|\| isEmpty())
	return;

	if (paintInfo.phase == PaintPhase::ClippingMask) {
	// FIXME: [LBSE] Upstream SVGRenderSupport changes
	// SVGRenderSupport::paintSVGClippingMask(*this, paintInfo);
	return;
	}

	auto adjustedPaintOffset = paintOffset + currentSVGLayoutLocation();
	if (paintInfo.phase == PaintPhase::Mask) {
	// FIXME: [LBSE] Upstream SVGRenderSupport changes
	// SVGRenderSupport::paintSVGMask(*this, paintInfo, adjustedPaintOffset);
	return;
	}

	auto visualOverflowRect = visualOverflowRectEquivalent();
	visualOverflowRect.moveBy(adjustedPaintOffset);
	if (!visualOverflowRect.intersects(paintInfo.rect))
	return;

	if (paintInfo.phase == PaintPhase::Outline \|\| paintInfo.phase == PaintPhase::SelfOutline) {
	// FIXME: [LBSE] Upstream outline painting
	// paintSVGOutline(paintInfo, adjustedPaintOffset);
	return;
	}

	GraphicsContextStateSaver stateSaver(paintInfo.context());

	auto coordinateSystemOriginTranslation = adjustedPaintOffset - nominalSVGLayoutLocation();
	paintInfo.context().translate(coordinateSystemOriginTranslation.width(), coordinateSystemOriginTranslation.height());

	if (style().svgStyle().shapeRendering() == ShapeRendering::CrispEdges)
	paintInfo.context().setShouldAntialias(false);

	fillStrokeMarkers(paintInfo);
	}

	bool RenderSVGShape::isPointInFill(const FloatPoint& point)
	{
	return shapeDependentFillContains(point, style().svgStyle().fillRule());
	}

	bool RenderSVGShape::isPointInStroke(const FloatPoint& point)
	{
	if (!style().svgStyle().hasStroke())
	return false;

	return shapeDependentStrokeContains(point, LocalCoordinateSpace);
	}

	float RenderSVGShape::getTotalLength() const
	{
	return hasPath() ? path().length() : createPath()->length();
	}

	FloatPoint RenderSVGShape::getPointAtLength(float distance) const
	{
	return hasPath() ? path().pointAtLength(distance) : createPath()->pointAtLength(distance);
	}

	bool RenderSVGShape::nodeAtPoint(const HitTestRequest& request, HitTestResult& result, const HitTestLocation& locationInContainer, const LayoutPoint& accumulatedOffset, HitTestAction hitTestAction)
	{
	if (hitTestAction != HitTestForeground)
	return false;

	auto adjustedLocation = accumulatedOffset + currentSVGLayoutLocation();

	auto localPoint = locationInContainer.point();
	auto coordinateSystemOriginTranslation = nominalSVGLayoutLocation() - adjustedLocation;
	localPoint.move(coordinateSystemOriginTranslation);

	if (!SVGRenderSupport::pointInClippingArea(*this, localPoint))
	return false;

	SVGHitTestCycleDetectionScope hitTestScope(*this);

	PointerEventsHitRules hitRules(PointerEventsHitRules::SVG_PATH_HITTESTING, request, style().effectivePointerEvents());
	bool isVisible = (style().visibility() == Visibility::Visible);
	if (isVisible \|\| !hitRules.requireVisible) {
	const SVGRenderStyle& svgStyle = style().svgStyle();
	WindRule fillRule = svgStyle.fillRule();
	if (request.svgClipContent())
	fillRule = svgStyle.clipRule();

	if (hitRules.canHitStroke && (svgStyle.hasStroke() \|\| !hitRules.requireStroke) && strokeContains(localPoint, hitRules.requireStroke)) {
	updateHitTestResult(result, locationInContainer.point() - toLayoutSize(adjustedLocation));
	if (result.addNodeToListBasedTestResult(nodeForHitTest(), request, locationInContainer, m_strokeBoundingBox) == HitTestProgress::Stop)
	return true;
	return false;
	}

	if ((hitRules.canHitFill && (svgStyle.hasFill() \|\| !hitRules.requireFill) && fillContains(localPoint, hitRules.requireFill, fillRule))
	\|\| (hitRules.canHitBoundingBox && m_fillBoundingBox.contains(localPoint))) {
	updateHitTestResult(result, locationInContainer.point() - toLayoutSize(adjustedLocation));
	if (result.addNodeToListBasedTestResult(nodeForHitTest(), request, locationInContainer, m_fillBoundingBox) == HitTestProgress::Stop)
	return true;
	return false;
	}
	}

	return false;
	}

	static inline RenderSVGResourceMarker* markerForType(SVGMarkerType type, RenderSVGResourceMarker* markerStart, RenderSVGResourceMarker* markerMid, RenderSVGResourceMarker* markerEnd)
	{
	switch (type) {
	case StartMarker:
	return markerStart;
	case MidMarker:
	return markerMid;
	case EndMarker:
	return markerEnd;
	}

	ASSERT_NOT_REACHED();
	return 0;
	}

	FloatRect RenderSVGShape::computeMarkerBoundingBox(const SVGBoundingBoxComputation::DecorationOptions&) const
	{
	if (m_markerPositions.isEmpty())
	return FloatRect();

	auto* resources = SVGResourcesCache::cachedResourcesForRenderer(*this);
	ASSERT(resources);

	auto* markerStart = resources->markerStart();
	auto* markerMid = resources->markerMid();
	auto* markerEnd = resources->markerEnd();
	if (!markerStart && !markerMid && !markerEnd)
	return FloatRect();

	FloatRect boundaries;
	unsigned size = m_markerPositions.size();
	for (unsigned i = 0; i < size; ++i) {
	if (auto* marker = markerForType(m_markerPositions[i].type, markerStart, markerMid, markerEnd)) {
	// FIXME: [LBSE] Upstream RenderSVGResourceMarker changes
	// boundaries.unite(marker->computeMarkerBoundingBox(options, marker->markerTransformation(m_markerPositions[i].origin, m_markerPositions[i].angle, strokeWidth())));
	boundaries.unite(marker->markerBoundaries(marker->markerTransformation(m_markerPositions[i].origin, m_markerPositions[i].angle, strokeWidth())));
	}
	}
	return boundaries;
	}

	FloatRect RenderSVGShape::calculateObjectBoundingBox() const
	{
	return path().boundingRect();
	}

	FloatRect RenderSVGShape::calculateStrokeBoundingBox() const
	{
	ASSERT(m_path);
	FloatRect strokeBoundingBox = m_fillBoundingBox;

	if (style().svgStyle().hasStroke()) {
	if (hasNonScalingStroke()) {
	AffineTransform nonScalingTransform = nonScalingStrokeTransform();
	if (std::optional<AffineTransform> inverse = nonScalingTransform.inverse()) {
	Path* usePath = nonScalingStrokePath(m_path.get(), nonScalingTransform);
	FloatRect strokeBoundingRect = usePath->strokeBoundingRect(Function<void(GraphicsContext&)> { [this] (GraphicsContext& context) {
	SVGRenderSupport::applyStrokeStyleToContext(context, style(), *this);
	} });
	strokeBoundingRect = inverse.value().mapRect(strokeBoundingRect);
	strokeBoundingBox.unite(strokeBoundingRect);
	}
	} else {
	strokeBoundingBox.unite(path().strokeBoundingRect(Function<void(GraphicsContext&)> { [this] (GraphicsContext& context) {
	SVGRenderSupport::applyStrokeStyleToContext(context, style(), *this);
	} }));
	}
	}

	return strokeBoundingBox;
	}

	float RenderSVGShape::strokeWidth() const
	{
	SVGLengthContext lengthContext(&graphicsElement());
	return lengthContext.valueForLength(style().strokeWidth());
	}

	bool RenderSVGShape::hasSmoothStroke() const
	{
	const SVGRenderStyle& svgStyle = style().svgStyle();
	return svgStyle.strokeDashArray().isEmpty()
	&& style().strokeMiterLimit() == style().initialStrokeMiterLimit()
	&& style().joinStyle() == style().initialJoinStyle()
	&& style().capStyle() == style().initialCapStyle();
	}

	void RenderSVGShape::drawMarkers(PaintInfo&)
	{
	ASSERT(!m_markerPositions.isEmpty());

	auto* resources = SVGResourcesCache::cachedResourcesForRenderer(*this);
	if (!resources)
	return;

	auto* markerStart = resources->markerStart();
	auto* markerMid = resources->markerMid();
	auto* markerEnd = resources->markerEnd();
	if (!markerStart && !markerMid && !markerEnd)
	return;

	float strokeWidth = this->strokeWidth();
	unsigned size = m_markerPositions.size();
	for (unsigned i = 0; i < size; ++i) {
	if (auto* marker = markerForType(m_markerPositions[i].type, markerStart, markerMid, markerEnd)) {
	UNUSED_PARAM(marker);
	UNUSED_PARAM(strokeWidth);

	// FIXME: [LBSE] Upstream RenderLayer changes
	// ASSERT(marker->hasLayer());
	// GraphicsContextStateSaver stateSaver(paintInfo.context());
	// auto contentTransform = marker->markerTransformation(m_markerPositions[i].origin, m_markerPositions[i].angle, strokeWidth);
	// marker->layer()->paintSVGResourceLayer(paintInfo.context(), LayoutRect::infiniteRect(), contentTransform);
	}
	}
	}

	std::unique_ptr<Path> RenderSVGShape::createPath() const
	{
	return makeUnique<Path>(pathFromGraphicsElement(&graphicsElement()));
	}

	void RenderSVGShape::processMarkerPositions()
	{
	m_markerPositions.clear();

	if (!shouldGenerateMarkerPositions())
	return;

	ASSERT(m_path);

	SVGMarkerData markerData(m_markerPositions, SVGResourcesCache::cachedResourcesForRenderer(*this)->markerReverseStart());
	m_path->apply([&markerData](const PathElement& pathElement) {
	SVGMarkerData::updateFromPathElement(markerData, pathElement);
	});
	markerData.pathIsDone();
	}

	void RenderSVGShape::styleWillChange(StyleDifference diff, const RenderStyle& newStyle)
	{
	auto* oldStyle = hasInitializedStyle() ? &style() : nullptr;
	if (oldStyle) {
	if (diff == StyleDifference::Layout)
	setNeedsShapeUpdate();
	}

	RenderSVGModelObject::styleWillChange(diff, newStyle);
	}

	void RenderSVGShape::applyTransform(TransformationMatrix& transform, const RenderStyle& style, const FloatRect& boundingBox, OptionSet<RenderStyle::TransformOperationOption> options) const
	{
	applySVGTransform(transform, graphicsElement(), style, boundingBox, options);
	}

	}

	#endif // ENABLE(LAYER_BASED_SVG_ENGINE)