Source/WebCore/css/CSSBasicShapes.cpp - WebKit - Git at Google

 /*
  * Copyright (C) 2011 Adobe Systems Incorporated. All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions
  * are met:
  *
  * 1. Redistributions of source code must retain the above
  *    copyright notice, this list of conditions and the following
  *    disclaimer.
  * 2. Redistributions in binary form must reproduce the above
  *    copyright notice, this list of conditions and the following
  *    disclaimer in the documentation and/or other materials
  *    provided with the distribution.
  *
  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDER “AS IS” AND ANY
  * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
  * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER BE
  * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY,
  * OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
  * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
  * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR
  * TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF
  * THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
  * SUCH DAMAGE.
  */

 #include "config.h"
 #include "CSSBasicShapes.h"

 #include "CSSMarkup.h"
 #include "CSSPrimitiveValueMappings.h"
 #include "CSSValuePool.h"
 #include "Pair.h"
 #include "SVGPathByteStream.h"
 #include "SVGPathUtilities.h"
 #include <wtf/text/StringBuilder.h>

 namespace WebCore {

 static String serializePositionOffset(const Pair& offset, const Pair& other)
 {
     if ((offset.first()->valueID() == CSSValueLeft && other.first()->valueID() == CSSValueTop)
         || (offset.first()->valueID() == CSSValueTop && other.first()->valueID() == CSSValueLeft))
         return offset.second()->cssText();
     return offset.cssText();
 }

 static Ref<CSSPrimitiveValue> buildSerializablePositionOffset(CSSPrimitiveValue* offset, CSSValueID defaultSide)
 {
     CSSValueID side = defaultSide;
     RefPtr<CSSPrimitiveValue> amount;

     if (!offset)
         side = CSSValueCenter;
     else if (offset->isValueID())
         side = offset->valueID();
     else if (Pair* pair = offset->pairValue()) {
         side = pair->first()->valueID();
         amount = pair->second();
     } else
         amount = offset;

     auto& cssValuePool = CSSValuePool::singleton();
     if (!amount)
         amount = cssValuePool.createValue(Length(side == CSSValueCenter ? 50 : 0, Percent));

     if (side == CSSValueCenter)
         side = defaultSide;
     else if ((side == CSSValueRight || side == CSSValueBottom)
         && amount->isPercentage()) {
         side = defaultSide;
         amount = cssValuePool.createValue(Length(100 - amount->floatValue(), Percent));
     } else if (amount->isLength() && !amount->floatValue()) {
         if (side == CSSValueRight || side == CSSValueBottom)
             amount = cssValuePool.createValue(Length(100, Percent));
         else
             amount = cssValuePool.createValue(Length(0, Percent));
         side = defaultSide;
     }

     return cssValuePool.createValue(Pair::create(cssValuePool.createValue(side), WTFMove(amount)));
 }

 static String buildCircleString(const String& radius, const String& centerX, const String& centerY)
 {
     StringBuilder result;
     result.appendLiteral("circle(");
     if (!radius.isNull())
         result.append(radius);
     if (!centerX.isNull() || !centerY.isNull()) {
         if (!radius.isNull())
             result.append(' ');
         result.append("at ", centerX, ' ', centerY);
     }
     result.append(')');
     return result.toString();
 }

 String CSSBasicShapeCircle::cssText() const
 {
     Ref<CSSPrimitiveValue> normalizedCX = buildSerializablePositionOffset(m_centerX.get(), CSSValueLeft);
     Ref<CSSPrimitiveValue> normalizedCY = buildSerializablePositionOffset(m_centerY.get(), CSSValueTop);

     String radius;
     if (m_radius && m_radius->valueID() != CSSValueClosestSide)
         radius = m_radius->cssText();

     return buildCircleString(radius,
         serializePositionOffset(*normalizedCX->pairValue(), *normalizedCY->pairValue()),
         serializePositionOffset(*normalizedCY->pairValue(), *normalizedCX->pairValue()));
 }

 bool CSSBasicShapeCircle::equals(const CSSBasicShape& shape) const
 {
     if (!is<CSSBasicShapeCircle>(shape))
         return false;

     const CSSBasicShapeCircle& other = downcast<CSSBasicShapeCircle>(shape);
     return compareCSSValuePtr(m_centerX, other.m_centerX)
         && compareCSSValuePtr(m_centerY, other.m_centerY)
         && compareCSSValuePtr(m_radius, other.m_radius);
 }

 static String buildEllipseString(const String& radiusX, const String& radiusY, const String& centerX, const String& centerY)
 {
     StringBuilder result;
     result.appendLiteral("ellipse(");
     bool needsSeparator = false;
     if (!radiusX.isNull()) {
         result.append(radiusX);
         needsSeparator = true;
     }
     if (!radiusY.isNull()) {
         if (needsSeparator)
             result.append(' ');
         result.append(radiusY);
         needsSeparator = true;
     }
     if (!centerX.isNull() || !centerY.isNull()) {
         if (needsSeparator)
             result.append(' ');
         result.append("at ", centerX, ' ', centerY);
     }
     result.append(')');
     return result.toString();
 }

 String CSSBasicShapeEllipse::cssText() const
 {
     Ref<CSSPrimitiveValue> normalizedCX = buildSerializablePositionOffset(m_centerX.get(), CSSValueLeft);
     Ref<CSSPrimitiveValue> normalizedCY = buildSerializablePositionOffset(m_centerY.get(), CSSValueTop);

     String radiusX;
     String radiusY;
     if (m_radiusX) {
         ASSERT(m_radiusY);
         bool radiusXClosestSide = m_radiusX->valueID() == CSSValueClosestSide;
         bool radiusYClosestSide = m_radiusY->valueID() == CSSValueClosestSide;
         if (!radiusXClosestSide || !radiusYClosestSide) {
             radiusX = m_radiusX->cssText();
             radiusY = m_radiusY->cssText();
         }
     }
     return buildEllipseString(radiusX, radiusY,
         serializePositionOffset(*normalizedCX->pairValue(), *normalizedCY->pairValue()),
         serializePositionOffset(*normalizedCY->pairValue(), *normalizedCX->pairValue()));
 }

 bool CSSBasicShapeEllipse::equals(const CSSBasicShape& shape) const
 {
     if (!is<CSSBasicShapeEllipse>(shape))
         return false;

     const CSSBasicShapeEllipse& other = downcast<CSSBasicShapeEllipse>(shape);
     return compareCSSValuePtr(m_centerX, other.m_centerX)
         && compareCSSValuePtr(m_centerY, other.m_centerY)
         && compareCSSValuePtr(m_radiusX, other.m_radiusX)
         && compareCSSValuePtr(m_radiusY, other.m_radiusY);
 }

 CSSBasicShapePath::CSSBasicShapePath(std::unique_ptr<SVGPathByteStream>&& pathData)
     : m_byteStream(WTFMove(pathData))
 {
 }

 static String buildPathString(const WindRule& windRule, const String& path, const String& box)
 {
     StringBuilder result;
     if (windRule == WindRule::EvenOdd)
         result.appendLiteral("path(evenodd, ");
     else
         result.appendLiteral("path(");

     serializeString(path, result);
     result.append(')');

     if (box.length()) {
         result.append(' ');
         result.append(box);
     }

     return result.toString();
 }

 String CSSBasicShapePath::cssText() const
 {
     String pathString;
     buildStringFromByteStream(*m_byteStream, pathString, UnalteredParsing);

     return buildPathString(m_windRule, pathString, m_referenceBox ? m_referenceBox->cssText() : String());
 }

 bool CSSBasicShapePath::equals(const CSSBasicShape& otherShape) const
 {
     if (!is<CSSBasicShapePath>(otherShape))
         return false;

     auto& otherShapePath = downcast<CSSBasicShapePath>(otherShape);
     return windRule() == otherShapePath.windRule() && pathData() == otherShapePath.pathData();
 }

 static String buildPolygonString(const WindRule& windRule, const Vector<String>& points)
 {
     ASSERT(!(points.size() % 2));

     StringBuilder result;
     char evenOddOpening[] = "polygon(evenodd, ";
     char nonZeroOpening[] = "polygon(";
     char commaSeparator[] = ", ";
     COMPILE_ASSERT(sizeof(evenOddOpening) >= sizeof(nonZeroOpening), polygon_evenodd_is_longest_string_opening);

     // Compute the required capacity in advance to reduce allocations.
     size_t length = sizeof(evenOddOpening) - 1;
     for (size_t i = 0; i < points.size(); i += 2) {
         if (i)
             length += (sizeof(commaSeparator) - 1);
         // add length of two strings, plus one for the space separator.
         length += points[i].length() + 1 + points[i + 1].length();
     }

     result.reserveCapacity(length);

     if (windRule == WindRule::EvenOdd)
         result.appendLiteral(evenOddOpening);
     else
         result.appendLiteral(nonZeroOpening);

     for (size_t i = 0; i < points.size(); i += 2) {
         if (i)
             result.appendLiteral(commaSeparator);
         result.append(points[i], ' ', points[i + 1]);
     }

     result.append(')');

     return result.toString();
 }

 String CSSBasicShapePolygon::cssText() const
 {
     Vector<String> points;
     points.reserveInitialCapacity(m_values.size());

     for (auto& shapeValue : m_values)
         points.uncheckedAppend(shapeValue->cssText());

     return buildPolygonString(m_windRule, points);
 }

 bool CSSBasicShapePolygon::equals(const CSSBasicShape& shape) const
 {
     if (!is<CSSBasicShapePolygon>(shape))
         return false;

     return compareCSSValueVector<CSSPrimitiveValue>(m_values, downcast<CSSBasicShapePolygon>(shape).m_values);
 }

 static bool buildInsetRadii(Vector<String>& radii, const String& topLeftRadius, const String& topRightRadius, const String& bottomRightRadius, const String& bottomLeftRadius)
 {
     bool showBottomLeft = topRightRadius != bottomLeftRadius;
     bool showBottomRight = showBottomLeft || (bottomRightRadius != topLeftRadius);
     bool showTopRight = showBottomRight || (topRightRadius != topLeftRadius);

     radii.append(topLeftRadius);
     if (showTopRight)
         radii.append(topRightRadius);
     if (showBottomRight)
         radii.append(bottomRightRadius);
     if (showBottomLeft)
         radii.append(bottomLeftRadius);

     return radii.size() == 1 && radii[0] == "0px";
 }

 static String buildInsetString(const String& top, const String& right, const String& bottom, const String& left,
     const String& topLeftRadiusWidth, const String& topLeftRadiusHeight,
     const String& topRightRadiusWidth, const String& topRightRadiusHeight,
     const String& bottomRightRadiusWidth, const String& bottomRightRadiusHeight,
     const String& bottomLeftRadiusWidth, const String& bottomLeftRadiusHeight)
 {
     StringBuilder result;
     result.append("inset(", top);

     bool showLeftArg = !left.isNull() && left != right;
     bool showBottomArg = !bottom.isNull() && (bottom != top || showLeftArg);
     bool showRightArg = !right.isNull() && (right != top || showBottomArg);
     if (showRightArg)
         result.append(' ', right);
     if (showBottomArg)
         result.append(' ', bottom);
     if (showLeftArg)
         result.append(' ', left);

     if (!topLeftRadiusWidth.isNull() && !topLeftRadiusHeight.isNull()) {
         Vector<String> horizontalRadii;
         bool areDefaultCornerRadii = buildInsetRadii(horizontalRadii, topLeftRadiusWidth, topRightRadiusWidth, bottomRightRadiusWidth, bottomLeftRadiusWidth);

         Vector<String> verticalRadii;
         areDefaultCornerRadii &= buildInsetRadii(verticalRadii, topLeftRadiusHeight, topRightRadiusHeight, bottomRightRadiusHeight, bottomLeftRadiusHeight);

         if (!areDefaultCornerRadii) {
             result.appendLiteral(" round");

             for (auto& radius : horizontalRadii)
                 result.append(' ', radius);

             if (verticalRadii.size() != horizontalRadii.size()
                 || !WTF::VectorComparer<false, String>::compare(verticalRadii.data(), horizontalRadii.data(), verticalRadii.size())) {
                 result.appendLiteral(" /");
                 for (auto& radius : verticalRadii)
                     result.append(' ', radius);
             }
         }
     }
     result.append(')');
     return result.toString();
 }

 static inline void updateCornerRadiusWidthAndHeight(CSSPrimitiveValue* corner, String& width, String& height)
 {
     if (!corner)
         return;

     Pair* radius = corner->pairValue();
     width = radius->first() ? radius->first()->cssText() : "0"_str;
     if (radius->second())
         height = radius->second()->cssText();
 }

 String CSSBasicShapeInset::cssText() const
 {
     String topLeftRadiusWidth;
     String topLeftRadiusHeight;
     String topRightRadiusWidth;
     String topRightRadiusHeight;
     String bottomRightRadiusWidth;
     String bottomRightRadiusHeight;
     String bottomLeftRadiusWidth;
     String bottomLeftRadiusHeight;

     updateCornerRadiusWidthAndHeight(topLeftRadius(), topLeftRadiusWidth, topLeftRadiusHeight);
     updateCornerRadiusWidthAndHeight(topRightRadius(), topRightRadiusWidth, topRightRadiusHeight);
     updateCornerRadiusWidthAndHeight(bottomRightRadius(), bottomRightRadiusWidth, bottomRightRadiusHeight);
     updateCornerRadiusWidthAndHeight(bottomLeftRadius(), bottomLeftRadiusWidth, bottomLeftRadiusHeight);

     return buildInsetString(m_top ? m_top->cssText() : String(),
         m_right ? m_right->cssText() : String(),
         m_bottom ? m_bottom->cssText() : String(),
         m_left ? m_left->cssText() : String(),
         topLeftRadiusWidth,
         topLeftRadiusHeight,
         topRightRadiusWidth,
         topRightRadiusHeight,
         bottomRightRadiusWidth,
         bottomRightRadiusHeight,
         bottomLeftRadiusWidth,
         bottomLeftRadiusHeight);
 }

 bool CSSBasicShapeInset::equals(const CSSBasicShape& shape) const
 {
     if (!is<CSSBasicShapeInset>(shape))
         return false;

     const CSSBasicShapeInset& other = downcast<CSSBasicShapeInset>(shape);
     return compareCSSValuePtr(m_top, other.m_top)
         && compareCSSValuePtr(m_right, other.m_right)
         && compareCSSValuePtr(m_bottom, other.m_bottom)
         && compareCSSValuePtr(m_left, other.m_left)
         && compareCSSValuePtr(m_topLeftRadius, other.m_topLeftRadius)
         && compareCSSValuePtr(m_topRightRadius, other.m_topRightRadius)
         && compareCSSValuePtr(m_bottomRightRadius, other.m_bottomRightRadius)
         && compareCSSValuePtr(m_bottomLeftRadius, other.m_bottomLeftRadius);
 }

 } // namespace WebCore
	/*
	* Copyright (C) 2011 Adobe Systems Incorporated. All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions
	* are met:
	*
	* 1. Redistributions of source code must retain the above
	* copyright notice, this list of conditions and the following
	* disclaimer.
	* 2. Redistributions in binary form must reproduce the above
	* copyright notice, this list of conditions and the following
	* disclaimer in the documentation and/or other materials
	* provided with the distribution.
	*
	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDER “AS IS” AND ANY
	* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
	* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER BE
	* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY,
	* OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
	* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
	* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR
	* TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF
	* THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
	* SUCH DAMAGE.
	*/

	#include "config.h"
	#include "CSSBasicShapes.h"

	#include "CSSMarkup.h"
	#include "CSSPrimitiveValueMappings.h"
	#include "CSSValuePool.h"
	#include "Pair.h"
	#include "SVGPathByteStream.h"
	#include "SVGPathUtilities.h"
	#include <wtf/text/StringBuilder.h>

	namespace WebCore {

	static String serializePositionOffset(const Pair& offset, const Pair& other)
	{
	if ((offset.first()->valueID() == CSSValueLeft && other.first()->valueID() == CSSValueTop)
	\|\| (offset.first()->valueID() == CSSValueTop && other.first()->valueID() == CSSValueLeft))
	return offset.second()->cssText();
	return offset.cssText();
	}

	static Ref<CSSPrimitiveValue> buildSerializablePositionOffset(CSSPrimitiveValue* offset, CSSValueID defaultSide)
	{
	CSSValueID side = defaultSide;
	RefPtr<CSSPrimitiveValue> amount;

	if (!offset)
	side = CSSValueCenter;
	else if (offset->isValueID())
	side = offset->valueID();
	else if (Pair* pair = offset->pairValue()) {
	side = pair->first()->valueID();
	amount = pair->second();
	} else
	amount = offset;

	auto& cssValuePool = CSSValuePool::singleton();
	if (!amount)
	amount = cssValuePool.createValue(Length(side == CSSValueCenter ? 50 : 0, Percent));

	if (side == CSSValueCenter)
	side = defaultSide;
	else if ((side == CSSValueRight \|\| side == CSSValueBottom)
	&& amount->isPercentage()) {
	side = defaultSide;
	amount = cssValuePool.createValue(Length(100 - amount->floatValue(), Percent));
	} else if (amount->isLength() && !amount->floatValue()) {
	if (side == CSSValueRight \|\| side == CSSValueBottom)
	amount = cssValuePool.createValue(Length(100, Percent));
	else
	amount = cssValuePool.createValue(Length(0, Percent));
	side = defaultSide;
	}

	return cssValuePool.createValue(Pair::create(cssValuePool.createValue(side), WTFMove(amount)));
	}

	static String buildCircleString(const String& radius, const String& centerX, const String& centerY)
	{
	StringBuilder result;
	result.appendLiteral("circle(");
	if (!radius.isNull())
	result.append(radius);
	if (!centerX.isNull() \|\| !centerY.isNull()) {
	if (!radius.isNull())
	result.append(' ');
	result.append("at ", centerX, ' ', centerY);
	}
	result.append(')');
	return result.toString();
	}

	String CSSBasicShapeCircle::cssText() const
	{
	Ref<CSSPrimitiveValue> normalizedCX = buildSerializablePositionOffset(m_centerX.get(), CSSValueLeft);
	Ref<CSSPrimitiveValue> normalizedCY = buildSerializablePositionOffset(m_centerY.get(), CSSValueTop);

	String radius;
	if (m_radius && m_radius->valueID() != CSSValueClosestSide)
	radius = m_radius->cssText();

	return buildCircleString(radius,
	serializePositionOffset(normalizedCX->pairValue(), normalizedCY->pairValue()),
	serializePositionOffset(normalizedCY->pairValue(), normalizedCX->pairValue()));
	}

	bool CSSBasicShapeCircle::equals(const CSSBasicShape& shape) const
	{
	if (!is<CSSBasicShapeCircle>(shape))
	return false;

	const CSSBasicShapeCircle& other = downcast<CSSBasicShapeCircle>(shape);
	return compareCSSValuePtr(m_centerX, other.m_centerX)
	&& compareCSSValuePtr(m_centerY, other.m_centerY)
	&& compareCSSValuePtr(m_radius, other.m_radius);
	}

	static String buildEllipseString(const String& radiusX, const String& radiusY, const String& centerX, const String& centerY)
	{
	StringBuilder result;
	result.appendLiteral("ellipse(");
	bool needsSeparator = false;
	if (!radiusX.isNull()) {
	result.append(radiusX);
	needsSeparator = true;
	}
	if (!radiusY.isNull()) {
	if (needsSeparator)
	result.append(' ');
	result.append(radiusY);
	needsSeparator = true;
	}
	if (!centerX.isNull() \|\| !centerY.isNull()) {
	if (needsSeparator)
	result.append(' ');
	result.append("at ", centerX, ' ', centerY);
	}
	result.append(')');
	return result.toString();
	}

	String CSSBasicShapeEllipse::cssText() const
	{
	Ref<CSSPrimitiveValue> normalizedCX = buildSerializablePositionOffset(m_centerX.get(), CSSValueLeft);
	Ref<CSSPrimitiveValue> normalizedCY = buildSerializablePositionOffset(m_centerY.get(), CSSValueTop);

	String radiusX;
	String radiusY;
	if (m_radiusX) {
	ASSERT(m_radiusY);
	bool radiusXClosestSide = m_radiusX->valueID() == CSSValueClosestSide;
	bool radiusYClosestSide = m_radiusY->valueID() == CSSValueClosestSide;
	if (!radiusXClosestSide \|\| !radiusYClosestSide) {
	radiusX = m_radiusX->cssText();
	radiusY = m_radiusY->cssText();
	}
	}
	return buildEllipseString(radiusX, radiusY,
	serializePositionOffset(normalizedCX->pairValue(), normalizedCY->pairValue()),
	serializePositionOffset(normalizedCY->pairValue(), normalizedCX->pairValue()));
	}

	bool CSSBasicShapeEllipse::equals(const CSSBasicShape& shape) const
	{
	if (!is<CSSBasicShapeEllipse>(shape))
	return false;

	const CSSBasicShapeEllipse& other = downcast<CSSBasicShapeEllipse>(shape);
	return compareCSSValuePtr(m_centerX, other.m_centerX)
	&& compareCSSValuePtr(m_centerY, other.m_centerY)
	&& compareCSSValuePtr(m_radiusX, other.m_radiusX)
	&& compareCSSValuePtr(m_radiusY, other.m_radiusY);
	}

	CSSBasicShapePath::CSSBasicShapePath(std::unique_ptr<SVGPathByteStream>&& pathData)
	: m_byteStream(WTFMove(pathData))
	{
	}

	static String buildPathString(const WindRule& windRule, const String& path, const String& box)
	{
	StringBuilder result;
	if (windRule == WindRule::EvenOdd)
	result.appendLiteral("path(evenodd, ");
	else
	result.appendLiteral("path(");

	serializeString(path, result);
	result.append(')');

	if (box.length()) {
	result.append(' ');
	result.append(box);
	}

	return result.toString();
	}

	String CSSBasicShapePath::cssText() const
	{
	String pathString;
	buildStringFromByteStream(*m_byteStream, pathString, UnalteredParsing);

	return buildPathString(m_windRule, pathString, m_referenceBox ? m_referenceBox->cssText() : String());
	}

	bool CSSBasicShapePath::equals(const CSSBasicShape& otherShape) const
	{
	if (!is<CSSBasicShapePath>(otherShape))
	return false;

	auto& otherShapePath = downcast<CSSBasicShapePath>(otherShape);
	return windRule() == otherShapePath.windRule() && pathData() == otherShapePath.pathData();
	}

	static String buildPolygonString(const WindRule& windRule, const Vector<String>& points)
	{
	ASSERT(!(points.size() % 2));

	StringBuilder result;
	char evenOddOpening[] = "polygon(evenodd, ";
	char nonZeroOpening[] = "polygon(";
	char commaSeparator[] = ", ";
	COMPILE_ASSERT(sizeof(evenOddOpening) >= sizeof(nonZeroOpening), polygon_evenodd_is_longest_string_opening);

	// Compute the required capacity in advance to reduce allocations.
	size_t length = sizeof(evenOddOpening) - 1;
	for (size_t i = 0; i < points.size(); i += 2) {
	if (i)
	length += (sizeof(commaSeparator) - 1);
	// add length of two strings, plus one for the space separator.
	length += points[i].length() + 1 + points[i + 1].length();
	}

	result.reserveCapacity(length);

	if (windRule == WindRule::EvenOdd)
	result.appendLiteral(evenOddOpening);
	else
	result.appendLiteral(nonZeroOpening);

	for (size_t i = 0; i < points.size(); i += 2) {
	if (i)
	result.appendLiteral(commaSeparator);
	result.append(points[i], ' ', points[i + 1]);
	}

	result.append(')');

	return result.toString();
	}

	String CSSBasicShapePolygon::cssText() const
	{
	Vector<String> points;
	points.reserveInitialCapacity(m_values.size());

	for (auto& shapeValue : m_values)
	points.uncheckedAppend(shapeValue->cssText());

	return buildPolygonString(m_windRule, points);
	}

	bool CSSBasicShapePolygon::equals(const CSSBasicShape& shape) const
	{
	if (!is<CSSBasicShapePolygon>(shape))
	return false;

	return compareCSSValueVector<CSSPrimitiveValue>(m_values, downcast<CSSBasicShapePolygon>(shape).m_values);
	}

	static bool buildInsetRadii(Vector<String>& radii, const String& topLeftRadius, const String& topRightRadius, const String& bottomRightRadius, const String& bottomLeftRadius)
	{
	bool showBottomLeft = topRightRadius != bottomLeftRadius;
	bool showBottomRight = showBottomLeft \|\| (bottomRightRadius != topLeftRadius);
	bool showTopRight = showBottomRight \|\| (topRightRadius != topLeftRadius);

	radii.append(topLeftRadius);
	if (showTopRight)
	radii.append(topRightRadius);
	if (showBottomRight)
	radii.append(bottomRightRadius);
	if (showBottomLeft)
	radii.append(bottomLeftRadius);

	return radii.size() == 1 && radii[0] == "0px";
	}

	static String buildInsetString(const String& top, const String& right, const String& bottom, const String& left,
	const String& topLeftRadiusWidth, const String& topLeftRadiusHeight,
	const String& topRightRadiusWidth, const String& topRightRadiusHeight,
	const String& bottomRightRadiusWidth, const String& bottomRightRadiusHeight,
	const String& bottomLeftRadiusWidth, const String& bottomLeftRadiusHeight)
	{
	StringBuilder result;
	result.append("inset(", top);

	bool showLeftArg = !left.isNull() && left != right;
	bool showBottomArg = !bottom.isNull() && (bottom != top \|\| showLeftArg);
	bool showRightArg = !right.isNull() && (right != top \|\| showBottomArg);
	if (showRightArg)
	result.append(' ', right);
	if (showBottomArg)
	result.append(' ', bottom);
	if (showLeftArg)
	result.append(' ', left);

	if (!topLeftRadiusWidth.isNull() && !topLeftRadiusHeight.isNull()) {
	Vector<String> horizontalRadii;
	bool areDefaultCornerRadii = buildInsetRadii(horizontalRadii, topLeftRadiusWidth, topRightRadiusWidth, bottomRightRadiusWidth, bottomLeftRadiusWidth);

	Vector<String> verticalRadii;
	areDefaultCornerRadii &= buildInsetRadii(verticalRadii, topLeftRadiusHeight, topRightRadiusHeight, bottomRightRadiusHeight, bottomLeftRadiusHeight);

	if (!areDefaultCornerRadii) {
	result.appendLiteral(" round");

	for (auto& radius : horizontalRadii)
	result.append(' ', radius);

	if (verticalRadii.size() != horizontalRadii.size()
	\|\| !WTF::VectorComparer<false, String>::compare(verticalRadii.data(), horizontalRadii.data(), verticalRadii.size())) {
	result.appendLiteral(" /");
	for (auto& radius : verticalRadii)
	result.append(' ', radius);
	}
	}
	}
	result.append(')');
	return result.toString();
	}

	static inline void updateCornerRadiusWidthAndHeight(CSSPrimitiveValue* corner, String& width, String& height)
	{
	if (!corner)
	return;

	Pair* radius = corner->pairValue();
	width = radius->first() ? radius->first()->cssText() : "0"_str;
	if (radius->second())
	height = radius->second()->cssText();
	}

	String CSSBasicShapeInset::cssText() const
	{
	String topLeftRadiusWidth;
	String topLeftRadiusHeight;
	String topRightRadiusWidth;
	String topRightRadiusHeight;
	String bottomRightRadiusWidth;
	String bottomRightRadiusHeight;
	String bottomLeftRadiusWidth;
	String bottomLeftRadiusHeight;

	updateCornerRadiusWidthAndHeight(topLeftRadius(), topLeftRadiusWidth, topLeftRadiusHeight);
	updateCornerRadiusWidthAndHeight(topRightRadius(), topRightRadiusWidth, topRightRadiusHeight);
	updateCornerRadiusWidthAndHeight(bottomRightRadius(), bottomRightRadiusWidth, bottomRightRadiusHeight);
	updateCornerRadiusWidthAndHeight(bottomLeftRadius(), bottomLeftRadiusWidth, bottomLeftRadiusHeight);

	return buildInsetString(m_top ? m_top->cssText() : String(),
	m_right ? m_right->cssText() : String(),
	m_bottom ? m_bottom->cssText() : String(),
	m_left ? m_left->cssText() : String(),
	topLeftRadiusWidth,
	topLeftRadiusHeight,
	topRightRadiusWidth,
	topRightRadiusHeight,
	bottomRightRadiusWidth,
	bottomRightRadiusHeight,
	bottomLeftRadiusWidth,
	bottomLeftRadiusHeight);
	}

	bool CSSBasicShapeInset::equals(const CSSBasicShape& shape) const
	{
	if (!is<CSSBasicShapeInset>(shape))
	return false;

	const CSSBasicShapeInset& other = downcast<CSSBasicShapeInset>(shape);
	return compareCSSValuePtr(m_top, other.m_top)
	&& compareCSSValuePtr(m_right, other.m_right)
	&& compareCSSValuePtr(m_bottom, other.m_bottom)
	&& compareCSSValuePtr(m_left, other.m_left)
	&& compareCSSValuePtr(m_topLeftRadius, other.m_topLeftRadius)
	&& compareCSSValuePtr(m_topRightRadius, other.m_topRightRadius)
	&& compareCSSValuePtr(m_bottomRightRadius, other.m_bottomRightRadius)
	&& compareCSSValuePtr(m_bottomLeftRadius, other.m_bottomLeftRadius);
	}

	} // namespace WebCore