Source/WebCore/css/CSSPrimitiveValue.h - WebKit - Git at Google

 /*
  * (C) 1999-2003 Lars Knoll (knoll@kde.org)
  * Copyright (C) 2004, 2005, 2006, 2008 Apple Inc. All rights reserved.
  * Copyright (C) 2007 Alexey Proskuryakov <ap@webkit.org>
  *
  * 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.
  */

 #pragma once

 #include "CSSPropertyNames.h"
 #include "CSSUnits.h"
 #include "CSSValue.h"
 #include "CSSValueKeywords.h"
 #include "Color.h"
 #include "ExceptionOr.h"
 #include "LayoutUnit.h"
 #include <utility>
 #include <wtf/Forward.h>
 #include <wtf/MathExtras.h>

 namespace WebCore {

 class CSSBasicShape;
 class CSSCalcValue;
 class CSSToLengthConversionData;
 class Counter;
 class DeprecatedCSSOMPrimitiveValue;
 class FontCascadeDescription;
 class FontMetrics;
 class Pair;
 class Quad;
 class RGBColor;
 class Rect;
 class RenderStyle;
 class RenderView;

 struct CSSFontFamily;
 struct Length;
 struct LengthSize;

 // Max/min values for CSS, needs to slightly smaller/larger than the true max/min values to allow for rounding without overflowing.
 // Subtract two (rather than one) to allow for values to be converted to float and back without exceeding the LayoutUnit::max.
 const int maxValueForCssLength = intMaxForLayoutUnit - 2;
 const int minValueForCssLength = intMinForLayoutUnit + 2;

 // Dimension calculations are imprecise, often resulting in values of e.g.
 // 44.99998. We need to round if we're really close to the next integer value.
 template<typename T> inline T roundForImpreciseConversion(double value)
 {
     value += (value < 0) ? -0.01 : +0.01;
     return ((value > std::numeric_limits<T>::max()) || (value < std::numeric_limits<T>::min())) ? 0 : static_cast<T>(value);
 }

 template<> inline float roundForImpreciseConversion(double value)
 {
     double ceiledValue = ceil(value);
     double proximityToNextInt = ceiledValue - value;
     if (proximityToNextInt <= 0.01 && value > 0)
         return static_cast<float>(ceiledValue);
     if (proximityToNextInt >= 0.99 && value < 0)
         return static_cast<float>(floor(value));
     return static_cast<float>(value);
 }

 class CSSPrimitiveValue final : public CSSValue {
 public:
     static constexpr bool isLength(CSSUnitType);
     static double computeDegrees(CSSUnitType, double angle);

     // FIXME: Some of these use primitiveUnitType() and some use primitiveType(). Many that use primitiveUnitType() are likely broken with calc().
     bool isAngle() const { return unitCategory(primitiveType()) == CSSUnitCategory::Angle; }
     bool isAttr() const { return primitiveUnitType() == CSSUnitType::CSS_ATTR; }
     bool isCounter() const { return primitiveUnitType() == CSSUnitType::CSS_COUNTER; }
     bool isFontIndependentLength() const { return isFontIndependentLength(primitiveUnitType()); }
     bool isFontRelativeLength() const { return isFontRelativeLength(primitiveUnitType()); }
     bool isQuirkyEms() const { return primitiveType() == CSSUnitType::CSS_QUIRKY_EMS; }
     bool isLength() const { return isLength(static_cast<CSSUnitType>(primitiveType())); }
     bool isNumber() const { return primitiveType() == CSSUnitType::CSS_NUMBER; }
     bool isInteger() const { return primitiveType() == CSSUnitType::CSS_INTEGER; }
     bool isNumberOrInteger() const { return isNumber() || isInteger(); }
     bool isPercentage() const { return primitiveType() == CSSUnitType::CSS_PERCENTAGE; }
     bool isPx() const { return primitiveType() == CSSUnitType::CSS_PX; }
     bool isRect() const { return primitiveUnitType() == CSSUnitType::CSS_RECT; }
     bool isPair() const { return primitiveUnitType() == CSSUnitType::CSS_PAIR; }
     bool isPropertyID() const { return primitiveUnitType() == CSSUnitType::CSS_PROPERTY_ID; }
     bool isRGBColor() const { return primitiveUnitType() == CSSUnitType::CSS_RGBCOLOR; }
     bool isShape() const { return primitiveUnitType() == CSSUnitType::CSS_SHAPE; }
     bool isString() const { return primitiveUnitType() == CSSUnitType::CSS_STRING; }
     bool isFontFamily() const { return primitiveUnitType() == CSSUnitType::CSS_FONT_FAMILY; }
     bool isTime() const { return unitCategory(primitiveUnitType()) == CSSUnitCategory::Time; }
     bool isFrequency() const { return unitCategory(primitiveType()) == CSSUnitCategory::Frequency; }
     bool isURI() const { return primitiveUnitType() == CSSUnitType::CSS_URI; }
     bool isCalculated() const { return primitiveUnitType() == CSSUnitType::CSS_CALC; }
     bool isCalculatedPercentageWithNumber() const { return primitiveType() == CSSUnitType::CSS_CALC_PERCENTAGE_WITH_NUMBER; }
     bool isCalculatedPercentageWithLength() const { return primitiveType() == CSSUnitType::CSS_CALC_PERCENTAGE_WITH_LENGTH; }
     bool isDotsPerInch() const { return primitiveType() == CSSUnitType::CSS_DPI; }
     bool isDotsPerPixel() const { return primitiveType() == CSSUnitType::CSS_DPPX; }
     bool isDotsPerCentimeter() const { return primitiveType() == CSSUnitType::CSS_DPCM; }
     bool isX() const { return primitiveType() == CSSUnitType::CSS_X; }
     bool isResolution() const { return unitCategory(primitiveType()) == CSSUnitCategory::Resolution; }
     bool isViewportPercentageLength() const { return isViewportPercentageLength(primitiveUnitType()); }
     bool isValueID() const { return primitiveUnitType() == CSSUnitType::CSS_VALUE_ID; }
     bool isFlex() const { return primitiveType() == CSSUnitType::CSS_FR; }
     bool isCustomIdent() const { return primitiveUnitType() == CSSUnitType::CustomIdent; }

     bool isInitialValue() const { return valueID() == CSSValueInitial; }
     bool isImplicitInitialValue() const { return isInitialValue() && m_isImplicit; }
     bool isInheritValue() const { return valueID() == CSSValueInherit; }
     bool isUnsetValue() const { return valueID() == CSSValueUnset; }
     bool isRevertValue() const { return valueID() == CSSValueRevert; }
     bool isRevertLayerValue() const { return valueID() == CSSValueRevertLayer; }
     bool isCSSWideKeyword() const;

     static Ref<CSSPrimitiveValue> createIdentifier(CSSValueID valueID) { return adoptRef(*new CSSPrimitiveValue(valueID)); }
     static Ref<CSSPrimitiveValue> createIdentifier(CSSPropertyID propertyID) { return adoptRef(*new CSSPrimitiveValue(propertyID)); }

     static Ref<CSSPrimitiveValue> create(double value, CSSUnitType type) { return adoptRef(*new CSSPrimitiveValue(value, type)); }
     static Ref<CSSPrimitiveValue> create(const String& value, CSSUnitType type) { return adoptRef(*new CSSPrimitiveValue(value, type)); }
     static Ref<CSSPrimitiveValue> create(const Length& value, const RenderStyle& style) { return adoptRef(*new CSSPrimitiveValue(value, style)); }
     static Ref<CSSPrimitiveValue> create(const LengthSize& value, const RenderStyle& style) { return adoptRef(*new CSSPrimitiveValue(value, style)); }

     template<typename T> static Ref<CSSPrimitiveValue> create(T&&);
     template<typename T> static Ref<CSSPrimitiveValue> create(T&&, CSSPropertyID);

     ~CSSPrimitiveValue();

     void cleanup();

     CSSUnitType primitiveType() const;
     ExceptionOr<float> getFloatValue(CSSUnitType) const;

     double computeDegrees() const;

     enum TimeUnit { Seconds, Milliseconds };
     template<typename T, TimeUnit timeUnit> T computeTime() const;

     template<typename T> T computeLength(const CSSToLengthConversionData&) const;
     template<int> Length convertToLength(const CSSToLengthConversionData&) const;

     bool convertingToLengthRequiresNonNullStyle(int lengthConversion) const;

     double doubleValue(CSSUnitType) const;

     // It's usually wrong to call this; it can trigger type conversion in calc without sufficient context to resolve relative length units.
     double doubleValue() const;

     double doubleValueDividingBy100IfPercentage() const;

     // These return nullopt for calc, for which range checking is not done at parse time: <https://www.w3.org/TR/css3-values/#calc-range>.
     std::optional<bool> isZero() const;
     std::optional<bool> isPositive() const;
     std::optional<bool> isNegative() const;
     bool isCenterPosition() const;

     template<typename T> inline T value(CSSUnitType type) const { return clampTo<T>(doubleValue(type)); }
     template<typename T> inline T value() const { return clampTo<T>(doubleValue()); }

     float floatValue(CSSUnitType type) const { return value<float>(type); }
     float floatValue() const { return value<float>(); }

     int intValue(CSSUnitType type) const { return value<int>(type); }
     int intValue() const { return value<int>(); }

     WEBCORE_EXPORT String stringValue() const;

     const Color& color() const { ASSERT(primitiveUnitType() == CSSUnitType::CSS_RGBCOLOR); return *m_value.color; }
     Counter* counterValue() const { return primitiveUnitType() != CSSUnitType::CSS_COUNTER ? nullptr : m_value.counter; }
     CSSCalcValue* cssCalcValue() const { return primitiveUnitType() != CSSUnitType::CSS_CALC ? nullptr : m_value.calc; }
     const CSSFontFamily& fontFamily() const { ASSERT(primitiveUnitType() == CSSUnitType::CSS_FONT_FAMILY); return *m_value.fontFamily; }
     Pair* pairValue() const { return primitiveUnitType() != CSSUnitType::CSS_PAIR ? nullptr : m_value.pair; }
     CSSPropertyID propertyID() const { return primitiveUnitType() == CSSUnitType::CSS_PROPERTY_ID ? m_value.propertyID : CSSPropertyInvalid; }
     Quad* quadValue() const { return primitiveUnitType() != CSSUnitType::CSS_QUAD ? nullptr : m_value.quad; }
     Rect* rectValue() const { return primitiveUnitType() != CSSUnitType::CSS_RECT ? nullptr : m_value.rect; }
     CSSBasicShape* shapeValue() const { return primitiveUnitType() != CSSUnitType::CSS_SHAPE ? nullptr : m_value.shape; }
     CSSValueID valueID() const { return primitiveUnitType() == CSSUnitType::CSS_VALUE_ID ? m_value.valueID : CSSValueInvalid; }

     template<typename T> inline operator T() const; // Defined in CSSPrimitiveValueMappings.h

     String customCSSText() const;

     bool equals(const CSSPrimitiveValue&) const;

     static std::optional<double> conversionToCanonicalUnitsScaleFactor(CSSUnitType);
     static String unitTypeString(CSSUnitType);

     static double computeUnzoomedNonCalcLengthDouble(CSSUnitType, double value, CSSPropertyID, const FontMetrics* = nullptr, const FontCascadeDescription* = nullptr, const FontCascadeDescription* rootFontDescription = nullptr, const RenderView* = nullptr);
     static double computeNonCalcLengthDouble(const CSSToLengthConversionData&, CSSUnitType, double value);
     // True if computeNonCalcLengthDouble would produce identical results when resolved against both these styles.
     static bool equalForLengthResolution(const RenderStyle&, const RenderStyle&);

     Ref<DeprecatedCSSOMPrimitiveValue> createDeprecatedCSSOMPrimitiveWrapper(CSSStyleDeclaration&) const;

     void collectDirectComputationalDependencies(HashSet<CSSPropertyID>&) const;
     void collectDirectRootComputationalDependencies(HashSet<CSSPropertyID>&) const;

 private:
     friend class CSSValuePool;
     friend class StaticCSSValuePool;
     friend LazyNeverDestroyed<CSSPrimitiveValue>;

     CSSPrimitiveValue(CSSValueID);
     CSSPrimitiveValue(CSSPropertyID);
     CSSPrimitiveValue(const Color&);
     CSSPrimitiveValue(const Length&);
     CSSPrimitiveValue(const Length&, const RenderStyle&);
     CSSPrimitiveValue(const LengthSize&, const RenderStyle&);
     CSSPrimitiveValue(const String&, CSSUnitType);
     CSSPrimitiveValue(double, CSSUnitType);

     CSSPrimitiveValue(StaticCSSValueTag, CSSValueID);
     CSSPrimitiveValue(StaticCSSValueTag, const Color&);
     CSSPrimitiveValue(StaticCSSValueTag, double, CSSUnitType);
     enum ImplicitInitialValueTag { ImplicitInitialValue };
     CSSPrimitiveValue(StaticCSSValueTag, ImplicitInitialValueTag);

     template<typename T> CSSPrimitiveValue(T); // Defined in CSSPrimitiveValueMappings.h
     template<typename T> CSSPrimitiveValue(T, CSSPropertyID); // Defined in CSSPrimitiveValueMappings.h
     template<typename T> CSSPrimitiveValue(RefPtr<T>&&);
     template<typename T> CSSPrimitiveValue(Ref<T>&&);

     static void create(int); // compile-time guard
     static void create(unsigned); // compile-time guard
     template<typename T> operator T*(); // compile-time guard

     void init(const Length&);
     void init(const LengthSize&, const RenderStyle&);
     void init(Ref<CSSBasicShape>&&);
     void init(RefPtr<CSSCalcValue>&&);
     void init(Ref<Counter>&&);
     void init(Ref<Pair>&&);
     void init(Ref<Quad>&&);
     void init(Ref<Rect>&&);

     CSSUnitType primitiveUnitType() const { return static_cast<CSSUnitType>(m_primitiveUnitType); }
     void setPrimitiveUnitType(CSSUnitType type) { m_primitiveUnitType = static_cast<unsigned>(type); }

     std::optional<double> doubleValueInternal(CSSUnitType targetUnitType) const;

     double computeLengthDouble(const CSSToLengthConversionData&) const;

     ALWAYS_INLINE String formatNumberForCustomCSSText() const;
     NEVER_INLINE String formatNumberValue(StringView) const;
     NEVER_INLINE String formatIntegerValue(StringView) const;
     static constexpr bool isFontIndependentLength(CSSUnitType);
     static constexpr bool isFontRelativeLength(CSSUnitType);
     static constexpr bool isResolution(CSSUnitType);
     static constexpr bool isViewportPercentageLength(CSSUnitType);

     union {
         CSSPropertyID propertyID;
         CSSValueID valueID;
         double num;
         StringImpl* string;
         Counter* counter;
         Rect* rect;
         Quad* quad;
         const Color* color;
         Pair* pair;
         CSSBasicShape* shape;
         CSSCalcValue* calc;
         const CSSFontFamily* fontFamily;
     } m_value;
 };

 constexpr bool CSSPrimitiveValue::isFontIndependentLength(CSSUnitType type)
 {
     return type == CSSUnitType::CSS_PX
         || type == CSSUnitType::CSS_CM
         || type == CSSUnitType::CSS_MM
         || type == CSSUnitType::CSS_IN
         || type == CSSUnitType::CSS_PT
         || type == CSSUnitType::CSS_PC;
 }

 constexpr bool CSSPrimitiveValue::isFontRelativeLength(CSSUnitType type)
 {
     return type == CSSUnitType::CSS_EMS
         || type == CSSUnitType::CSS_EXS
         || type == CSSUnitType::CSS_LHS
         || type == CSSUnitType::CSS_RLHS
         || type == CSSUnitType::CSS_REMS
         || type == CSSUnitType::CSS_CHS
         || type == CSSUnitType::CSS_IC
         || type == CSSUnitType::CSS_QUIRKY_EMS;
 }

 constexpr bool CSSPrimitiveValue::isLength(CSSUnitType type)
 {
     return type == CSSUnitType::CSS_EMS
         || type == CSSUnitType::CSS_EXS
         || type == CSSUnitType::CSS_PX
         || type == CSSUnitType::CSS_CM
         || type == CSSUnitType::CSS_MM
         || type == CSSUnitType::CSS_IN
         || type == CSSUnitType::CSS_PT
         || type == CSSUnitType::CSS_PC
         || type == CSSUnitType::CSS_REMS
         || type == CSSUnitType::CSS_CHS
         || type == CSSUnitType::CSS_IC
         || type == CSSUnitType::CSS_Q
         || type == CSSUnitType::CSS_LHS
         || type == CSSUnitType::CSS_RLHS
         || isViewportPercentageLength(type)
         || type == CSSUnitType::CSS_QUIRKY_EMS;
 }

 constexpr bool CSSPrimitiveValue::isResolution(CSSUnitType type)
 {
     return type == CSSUnitType::CSS_DPPX
         || type == CSSUnitType::CSS_DPI
         || type == CSSUnitType::CSS_DPCM;
 }

 constexpr bool CSSPrimitiveValue::isViewportPercentageLength(CSSUnitType type)
 {
     return type >= CSSUnitType::FirstViewportCSSUnitType && type <= CSSUnitType::LastViewporCSSUnitType;
 }

 template<typename T> inline Ref<CSSPrimitiveValue> CSSPrimitiveValue::create(T&& value)
 {
     return adoptRef(*new CSSPrimitiveValue(std::forward<T>(value)));
 }

 template<typename T> inline Ref<CSSPrimitiveValue> CSSPrimitiveValue::create(T&& value, CSSPropertyID propertyID)
 {
     return adoptRef(*new CSSPrimitiveValue(std::forward<T>(value), propertyID));
 }

 template<typename T, CSSPrimitiveValue::TimeUnit timeUnit> inline T CSSPrimitiveValue::computeTime() const
 {
     if (timeUnit == Seconds && primitiveType() == CSSUnitType::CSS_S)
         return value<T>();
     if (timeUnit == Seconds && primitiveType() == CSSUnitType::CSS_MS)
         return value<T>() / 1000;
     if (timeUnit == Milliseconds && primitiveType() == CSSUnitType::CSS_MS)
         return value<T>();
     if (timeUnit == Milliseconds && primitiveType() == CSSUnitType::CSS_S)
         return value<T>() * 1000;
     ASSERT_NOT_REACHED();
     return 0;
 }

 template<typename T> inline CSSPrimitiveValue::CSSPrimitiveValue(RefPtr<T>&& value)
     : CSSValue(PrimitiveClass)
 {
     init(WTFMove(value));
 }

 template<typename T> inline CSSPrimitiveValue::CSSPrimitiveValue(Ref<T>&& value)
     : CSSValue(PrimitiveClass)
 {
     init(WTFMove(value));
 }

 inline double CSSPrimitiveValue::computeDegrees(CSSUnitType type, double angle)
 {
     switch (type) {
     case CSSUnitType::CSS_DEG:
         return angle;
     case CSSUnitType::CSS_RAD:
         return rad2deg(angle);
     case CSSUnitType::CSS_GRAD:
         return grad2deg(angle);
     case CSSUnitType::CSS_TURN:
         return turn2deg(angle);
     default:
         ASSERT_NOT_REACHED();
         return 0;
     }
 }

 } // namespace WebCore

 SPECIALIZE_TYPE_TRAITS_CSS_VALUE(CSSPrimitiveValue, isPrimitiveValue())
	/*
	* (C) 1999-2003 Lars Knoll (knoll@kde.org)
	* Copyright (C) 2004, 2005, 2006, 2008 Apple Inc. All rights reserved.
	* Copyright (C) 2007 Alexey Proskuryakov <ap@webkit.org>
	*
	* 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.
	*/

	#pragma once

	#include "CSSPropertyNames.h"
	#include "CSSUnits.h"
	#include "CSSValue.h"
	#include "CSSValueKeywords.h"
	#include "Color.h"
	#include "ExceptionOr.h"
	#include "LayoutUnit.h"
	#include <utility>
	#include <wtf/Forward.h>
	#include <wtf/MathExtras.h>

	namespace WebCore {

	class CSSBasicShape;
	class CSSCalcValue;
	class CSSToLengthConversionData;
	class Counter;
	class DeprecatedCSSOMPrimitiveValue;
	class FontCascadeDescription;
	class FontMetrics;
	class Pair;
	class Quad;
	class RGBColor;
	class Rect;
	class RenderStyle;
	class RenderView;

	struct CSSFontFamily;
	struct Length;
	struct LengthSize;

	// Max/min values for CSS, needs to slightly smaller/larger than the true max/min values to allow for rounding without overflowing.
	// Subtract two (rather than one) to allow for values to be converted to float and back without exceeding the LayoutUnit::max.
	const int maxValueForCssLength = intMaxForLayoutUnit - 2;
	const int minValueForCssLength = intMinForLayoutUnit + 2;

	// Dimension calculations are imprecise, often resulting in values of e.g.
	// 44.99998. We need to round if we're really close to the next integer value.
	template<typename T> inline T roundForImpreciseConversion(double value)
	{
	value += (value < 0) ? -0.01 : +0.01;
	return ((value > std::numeric_limits<T>::max()) \|\| (value < std::numeric_limits<T>::min())) ? 0 : static_cast<T>(value);
	}

	template<> inline float roundForImpreciseConversion(double value)
	{
	double ceiledValue = ceil(value);
	double proximityToNextInt = ceiledValue - value;
	if (proximityToNextInt <= 0.01 && value > 0)
	return static_cast<float>(ceiledValue);
	if (proximityToNextInt >= 0.99 && value < 0)
	return static_cast<float>(floor(value));
	return static_cast<float>(value);
	}

	class CSSPrimitiveValue final : public CSSValue {
	public:
	static constexpr bool isLength(CSSUnitType);
	static double computeDegrees(CSSUnitType, double angle);

	// FIXME: Some of these use primitiveUnitType() and some use primitiveType(). Many that use primitiveUnitType() are likely broken with calc().
	bool isAngle() const { return unitCategory(primitiveType()) == CSSUnitCategory::Angle; }
	bool isAttr() const { return primitiveUnitType() == CSSUnitType::CSS_ATTR; }
	bool isCounter() const { return primitiveUnitType() == CSSUnitType::CSS_COUNTER; }
	bool isFontIndependentLength() const { return isFontIndependentLength(primitiveUnitType()); }
	bool isFontRelativeLength() const { return isFontRelativeLength(primitiveUnitType()); }
	bool isQuirkyEms() const { return primitiveType() == CSSUnitType::CSS_QUIRKY_EMS; }
	bool isLength() const { return isLength(static_cast<CSSUnitType>(primitiveType())); }
	bool isNumber() const { return primitiveType() == CSSUnitType::CSS_NUMBER; }
	bool isInteger() const { return primitiveType() == CSSUnitType::CSS_INTEGER; }
	bool isNumberOrInteger() const { return isNumber() \|\| isInteger(); }
	bool isPercentage() const { return primitiveType() == CSSUnitType::CSS_PERCENTAGE; }
	bool isPx() const { return primitiveType() == CSSUnitType::CSS_PX; }
	bool isRect() const { return primitiveUnitType() == CSSUnitType::CSS_RECT; }
	bool isPair() const { return primitiveUnitType() == CSSUnitType::CSS_PAIR; }
	bool isPropertyID() const { return primitiveUnitType() == CSSUnitType::CSS_PROPERTY_ID; }
	bool isRGBColor() const { return primitiveUnitType() == CSSUnitType::CSS_RGBCOLOR; }
	bool isShape() const { return primitiveUnitType() == CSSUnitType::CSS_SHAPE; }
	bool isString() const { return primitiveUnitType() == CSSUnitType::CSS_STRING; }
	bool isFontFamily() const { return primitiveUnitType() == CSSUnitType::CSS_FONT_FAMILY; }
	bool isTime() const { return unitCategory(primitiveUnitType()) == CSSUnitCategory::Time; }
	bool isFrequency() const { return unitCategory(primitiveType()) == CSSUnitCategory::Frequency; }
	bool isURI() const { return primitiveUnitType() == CSSUnitType::CSS_URI; }
	bool isCalculated() const { return primitiveUnitType() == CSSUnitType::CSS_CALC; }
	bool isCalculatedPercentageWithNumber() const { return primitiveType() == CSSUnitType::CSS_CALC_PERCENTAGE_WITH_NUMBER; }
	bool isCalculatedPercentageWithLength() const { return primitiveType() == CSSUnitType::CSS_CALC_PERCENTAGE_WITH_LENGTH; }
	bool isDotsPerInch() const { return primitiveType() == CSSUnitType::CSS_DPI; }
	bool isDotsPerPixel() const { return primitiveType() == CSSUnitType::CSS_DPPX; }
	bool isDotsPerCentimeter() const { return primitiveType() == CSSUnitType::CSS_DPCM; }
	bool isX() const { return primitiveType() == CSSUnitType::CSS_X; }
	bool isResolution() const { return unitCategory(primitiveType()) == CSSUnitCategory::Resolution; }
	bool isViewportPercentageLength() const { return isViewportPercentageLength(primitiveUnitType()); }
	bool isValueID() const { return primitiveUnitType() == CSSUnitType::CSS_VALUE_ID; }
	bool isFlex() const { return primitiveType() == CSSUnitType::CSS_FR; }
	bool isCustomIdent() const { return primitiveUnitType() == CSSUnitType::CustomIdent; }

	bool isInitialValue() const { return valueID() == CSSValueInitial; }
	bool isImplicitInitialValue() const { return isInitialValue() && m_isImplicit; }
	bool isInheritValue() const { return valueID() == CSSValueInherit; }
	bool isUnsetValue() const { return valueID() == CSSValueUnset; }
	bool isRevertValue() const { return valueID() == CSSValueRevert; }
	bool isRevertLayerValue() const { return valueID() == CSSValueRevertLayer; }
	bool isCSSWideKeyword() const;

	static Ref<CSSPrimitiveValue> createIdentifier(CSSValueID valueID) { return adoptRef(*new CSSPrimitiveValue(valueID)); }
	static Ref<CSSPrimitiveValue> createIdentifier(CSSPropertyID propertyID) { return adoptRef(*new CSSPrimitiveValue(propertyID)); }

	static Ref<CSSPrimitiveValue> create(double value, CSSUnitType type) { return adoptRef(*new CSSPrimitiveValue(value, type)); }
	static Ref<CSSPrimitiveValue> create(const String& value, CSSUnitType type) { return adoptRef(*new CSSPrimitiveValue(value, type)); }
	static Ref<CSSPrimitiveValue> create(const Length& value, const RenderStyle& style) { return adoptRef(*new CSSPrimitiveValue(value, style)); }
	static Ref<CSSPrimitiveValue> create(const LengthSize& value, const RenderStyle& style) { return adoptRef(*new CSSPrimitiveValue(value, style)); }

	template<typename T> static Ref<CSSPrimitiveValue> create(T&&);
	template<typename T> static Ref<CSSPrimitiveValue> create(T&&, CSSPropertyID);

	~CSSPrimitiveValue();

	void cleanup();

	CSSUnitType primitiveType() const;
	ExceptionOr<float> getFloatValue(CSSUnitType) const;

	double computeDegrees() const;

	enum TimeUnit { Seconds, Milliseconds };
	template<typename T, TimeUnit timeUnit> T computeTime() const;

	template<typename T> T computeLength(const CSSToLengthConversionData&) const;
	template<int> Length convertToLength(const CSSToLengthConversionData&) const;

	bool convertingToLengthRequiresNonNullStyle(int lengthConversion) const;

	double doubleValue(CSSUnitType) const;

	// It's usually wrong to call this; it can trigger type conversion in calc without sufficient context to resolve relative length units.
	double doubleValue() const;

	double doubleValueDividingBy100IfPercentage() const;

	// These return nullopt for calc, for which range checking is not done at parse time: <https://www.w3.org/TR/css3-values/#calc-range>.
	std::optional<bool> isZero() const;
	std::optional<bool> isPositive() const;
	std::optional<bool> isNegative() const;
	bool isCenterPosition() const;

	template<typename T> inline T value(CSSUnitType type) const { return clampTo<T>(doubleValue(type)); }
	template<typename T> inline T value() const { return clampTo<T>(doubleValue()); }

	float floatValue(CSSUnitType type) const { return value<float>(type); }
	float floatValue() const { return value<float>(); }

	int intValue(CSSUnitType type) const { return value<int>(type); }
	int intValue() const { return value<int>(); }

	WEBCORE_EXPORT String stringValue() const;

	const Color& color() const { ASSERT(primitiveUnitType() == CSSUnitType::CSS_RGBCOLOR); return *m_value.color; }
	Counter* counterValue() const { return primitiveUnitType() != CSSUnitType::CSS_COUNTER ? nullptr : m_value.counter; }
	CSSCalcValue* cssCalcValue() const { return primitiveUnitType() != CSSUnitType::CSS_CALC ? nullptr : m_value.calc; }
	const CSSFontFamily& fontFamily() const { ASSERT(primitiveUnitType() == CSSUnitType::CSS_FONT_FAMILY); return *m_value.fontFamily; }
	Pair* pairValue() const { return primitiveUnitType() != CSSUnitType::CSS_PAIR ? nullptr : m_value.pair; }
	CSSPropertyID propertyID() const { return primitiveUnitType() == CSSUnitType::CSS_PROPERTY_ID ? m_value.propertyID : CSSPropertyInvalid; }
	Quad* quadValue() const { return primitiveUnitType() != CSSUnitType::CSS_QUAD ? nullptr : m_value.quad; }
	Rect* rectValue() const { return primitiveUnitType() != CSSUnitType::CSS_RECT ? nullptr : m_value.rect; }
	CSSBasicShape* shapeValue() const { return primitiveUnitType() != CSSUnitType::CSS_SHAPE ? nullptr : m_value.shape; }
	CSSValueID valueID() const { return primitiveUnitType() == CSSUnitType::CSS_VALUE_ID ? m_value.valueID : CSSValueInvalid; }

	template<typename T> inline operator T() const; // Defined in CSSPrimitiveValueMappings.h

	String customCSSText() const;

	bool equals(const CSSPrimitiveValue&) const;

	static std::optional<double> conversionToCanonicalUnitsScaleFactor(CSSUnitType);
	static String unitTypeString(CSSUnitType);

	static double computeUnzoomedNonCalcLengthDouble(CSSUnitType, double value, CSSPropertyID, const FontMetrics* = nullptr, const FontCascadeDescription* = nullptr, const FontCascadeDescription* rootFontDescription = nullptr, const RenderView* = nullptr);
	static double computeNonCalcLengthDouble(const CSSToLengthConversionData&, CSSUnitType, double value);
	// True if computeNonCalcLengthDouble would produce identical results when resolved against both these styles.
	static bool equalForLengthResolution(const RenderStyle&, const RenderStyle&);

	Ref<DeprecatedCSSOMPrimitiveValue> createDeprecatedCSSOMPrimitiveWrapper(CSSStyleDeclaration&) const;

	void collectDirectComputationalDependencies(HashSet<CSSPropertyID>&) const;
	void collectDirectRootComputationalDependencies(HashSet<CSSPropertyID>&) const;

	private:
	friend class CSSValuePool;
	friend class StaticCSSValuePool;
	friend LazyNeverDestroyed<CSSPrimitiveValue>;

	CSSPrimitiveValue(CSSValueID);
	CSSPrimitiveValue(CSSPropertyID);
	CSSPrimitiveValue(const Color&);
	CSSPrimitiveValue(const Length&);
	CSSPrimitiveValue(const Length&, const RenderStyle&);
	CSSPrimitiveValue(const LengthSize&, const RenderStyle&);
	CSSPrimitiveValue(const String&, CSSUnitType);
	CSSPrimitiveValue(double, CSSUnitType);

	CSSPrimitiveValue(StaticCSSValueTag, CSSValueID);
	CSSPrimitiveValue(StaticCSSValueTag, const Color&);
	CSSPrimitiveValue(StaticCSSValueTag, double, CSSUnitType);
	enum ImplicitInitialValueTag { ImplicitInitialValue };
	CSSPrimitiveValue(StaticCSSValueTag, ImplicitInitialValueTag);

	template<typename T> CSSPrimitiveValue(T); // Defined in CSSPrimitiveValueMappings.h
	template<typename T> CSSPrimitiveValue(T, CSSPropertyID); // Defined in CSSPrimitiveValueMappings.h
	template<typename T> CSSPrimitiveValue(RefPtr<T>&&);
	template<typename T> CSSPrimitiveValue(Ref<T>&&);

	static void create(int); // compile-time guard
	static void create(unsigned); // compile-time guard
	template<typename T> operator T*(); // compile-time guard

	void init(const Length&);
	void init(const LengthSize&, const RenderStyle&);
	void init(Ref<CSSBasicShape>&&);
	void init(RefPtr<CSSCalcValue>&&);
	void init(Ref<Counter>&&);
	void init(Ref<Pair>&&);
	void init(Ref<Quad>&&);
	void init(Ref<Rect>&&);

	CSSUnitType primitiveUnitType() const { return static_cast<CSSUnitType>(m_primitiveUnitType); }
	void setPrimitiveUnitType(CSSUnitType type) { m_primitiveUnitType = static_cast<unsigned>(type); }

	std::optional<double> doubleValueInternal(CSSUnitType targetUnitType) const;

	double computeLengthDouble(const CSSToLengthConversionData&) const;

	ALWAYS_INLINE String formatNumberForCustomCSSText() const;
	NEVER_INLINE String formatNumberValue(StringView) const;
	NEVER_INLINE String formatIntegerValue(StringView) const;
	static constexpr bool isFontIndependentLength(CSSUnitType);
	static constexpr bool isFontRelativeLength(CSSUnitType);
	static constexpr bool isResolution(CSSUnitType);
	static constexpr bool isViewportPercentageLength(CSSUnitType);

	union {
	CSSPropertyID propertyID;
	CSSValueID valueID;
	double num;
	StringImpl* string;
	Counter* counter;
	Rect* rect;
	Quad* quad;
	const Color* color;
	Pair* pair;
	CSSBasicShape* shape;
	CSSCalcValue* calc;
	const CSSFontFamily* fontFamily;
	} m_value;
	};

	constexpr bool CSSPrimitiveValue::isFontIndependentLength(CSSUnitType type)
	{
	return type == CSSUnitType::CSS_PX
	\|\| type == CSSUnitType::CSS_CM
	\|\| type == CSSUnitType::CSS_MM
	\|\| type == CSSUnitType::CSS_IN
	\|\| type == CSSUnitType::CSS_PT
	\|\| type == CSSUnitType::CSS_PC;
	}

	constexpr bool CSSPrimitiveValue::isFontRelativeLength(CSSUnitType type)
	{
	return type == CSSUnitType::CSS_EMS
	\|\| type == CSSUnitType::CSS_EXS
	\|\| type == CSSUnitType::CSS_LHS
	\|\| type == CSSUnitType::CSS_RLHS
	\|\| type == CSSUnitType::CSS_REMS
	\|\| type == CSSUnitType::CSS_CHS
	\|\| type == CSSUnitType::CSS_IC
	\|\| type == CSSUnitType::CSS_QUIRKY_EMS;
	}

	constexpr bool CSSPrimitiveValue::isLength(CSSUnitType type)
	{
	return type == CSSUnitType::CSS_EMS
	\|\| type == CSSUnitType::CSS_EXS
	\|\| type == CSSUnitType::CSS_PX
	\|\| type == CSSUnitType::CSS_CM
	\|\| type == CSSUnitType::CSS_MM
	\|\| type == CSSUnitType::CSS_IN
	\|\| type == CSSUnitType::CSS_PT
	\|\| type == CSSUnitType::CSS_PC
	\|\| type == CSSUnitType::CSS_REMS
	\|\| type == CSSUnitType::CSS_CHS
	\|\| type == CSSUnitType::CSS_IC
	\|\| type == CSSUnitType::CSS_Q
	\|\| type == CSSUnitType::CSS_LHS
	\|\| type == CSSUnitType::CSS_RLHS
	\|\| isViewportPercentageLength(type)
	\|\| type == CSSUnitType::CSS_QUIRKY_EMS;
	}

	constexpr bool CSSPrimitiveValue::isResolution(CSSUnitType type)
	{
	return type == CSSUnitType::CSS_DPPX
	\|\| type == CSSUnitType::CSS_DPI
	\|\| type == CSSUnitType::CSS_DPCM;
	}

	constexpr bool CSSPrimitiveValue::isViewportPercentageLength(CSSUnitType type)
	{
	return type >= CSSUnitType::FirstViewportCSSUnitType && type <= CSSUnitType::LastViewporCSSUnitType;
	}

	template<typename T> inline Ref<CSSPrimitiveValue> CSSPrimitiveValue::create(T&& value)
	{
	return adoptRef(*new CSSPrimitiveValue(std::forward<T>(value)));
	}

	template<typename T> inline Ref<CSSPrimitiveValue> CSSPrimitiveValue::create(T&& value, CSSPropertyID propertyID)
	{
	return adoptRef(*new CSSPrimitiveValue(std::forward<T>(value), propertyID));
	}

	template<typename T, CSSPrimitiveValue::TimeUnit timeUnit> inline T CSSPrimitiveValue::computeTime() const
	{
	if (timeUnit == Seconds && primitiveType() == CSSUnitType::CSS_S)
	return value<T>();
	if (timeUnit == Seconds && primitiveType() == CSSUnitType::CSS_MS)
	return value<T>() / 1000;
	if (timeUnit == Milliseconds && primitiveType() == CSSUnitType::CSS_MS)
	return value<T>();
	if (timeUnit == Milliseconds && primitiveType() == CSSUnitType::CSS_S)
	return value<T>() * 1000;
	ASSERT_NOT_REACHED();
	return 0;
	}

	template<typename T> inline CSSPrimitiveValue::CSSPrimitiveValue(RefPtr<T>&& value)
	: CSSValue(PrimitiveClass)
	{
	init(WTFMove(value));
	}

	template<typename T> inline CSSPrimitiveValue::CSSPrimitiveValue(Ref<T>&& value)
	: CSSValue(PrimitiveClass)
	{
	init(WTFMove(value));
	}

	inline double CSSPrimitiveValue::computeDegrees(CSSUnitType type, double angle)
	{
	switch (type) {
	case CSSUnitType::CSS_DEG:
	return angle;
	case CSSUnitType::CSS_RAD:
	return rad2deg(angle);
	case CSSUnitType::CSS_GRAD:
	return grad2deg(angle);
	case CSSUnitType::CSS_TURN:
	return turn2deg(angle);
	default:
	ASSERT_NOT_REACHED();
	return 0;
	}
	}

	} // namespace WebCore

	SPECIALIZE_TYPE_TRAITS_CSS_VALUE(CSSPrimitiveValue, isPrimitiveValue())