/* * (C) 1999-2003 Lars Knoll (knoll@kde.org) * Copyright (C) 2004, 2005, 2006, 2007, 2008, 2012, 2013 Apple Inc. All rights reserved. * * 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 "CSSPrimitiveValue.h" #include "CSSBasicShapes.h" #include "CSSCalculationValue.h" #include "CSSHelper.h" #include "CSSParser.h" #include "CSSPropertyNames.h" #include "CSSValueKeywords.h" #include "CalculationValue.h" #include "Color.h" #include "Counter.h" #include "ExceptionCode.h" #include "Font.h" #include "LayoutUnit.h" #include "Node.h" #include "Pair.h" #include "RGBColor.h" #include "Rect.h" #include "RenderStyle.h" #include "StyleSheetContents.h" #include #include #include #include #include #if ENABLE(DASHBOARD_SUPPORT) #include "DashboardRegion.h" #endif using namespace WTF; namespace WebCore { // 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 = INT_MAX / kFixedPointDenominator - 2; const int minValueForCssLength = INT_MIN / kFixedPointDenominator + 2; static inline bool isValidCSSUnitTypeForDoubleConversion(CSSPrimitiveValue::UnitTypes unitType) { switch (unitType) { case CSSPrimitiveValue::CSS_CALC: case CSSPrimitiveValue::CSS_CALC_PERCENTAGE_WITH_NUMBER: case CSSPrimitiveValue::CSS_CALC_PERCENTAGE_WITH_LENGTH: case CSSPrimitiveValue::CSS_CM: case CSSPrimitiveValue::CSS_DEG: case CSSPrimitiveValue::CSS_DIMENSION: #if ENABLE(CSS_IMAGE_RESOLUTION) || ENABLE(RESOLUTION_MEDIA_QUERY) case CSSPrimitiveValue::CSS_DPPX: case CSSPrimitiveValue::CSS_DPI: case CSSPrimitiveValue::CSS_DPCM: #endif case CSSPrimitiveValue::CSS_EMS: case CSSPrimitiveValue::CSS_EXS: case CSSPrimitiveValue::CSS_GRAD: case CSSPrimitiveValue::CSS_HZ: case CSSPrimitiveValue::CSS_IN: case CSSPrimitiveValue::CSS_KHZ: case CSSPrimitiveValue::CSS_MM: case CSSPrimitiveValue::CSS_MS: case CSSPrimitiveValue::CSS_NUMBER: case CSSPrimitiveValue::CSS_PERCENTAGE: case CSSPrimitiveValue::CSS_PC: case CSSPrimitiveValue::CSS_PT: case CSSPrimitiveValue::CSS_PX: case CSSPrimitiveValue::CSS_RAD: case CSSPrimitiveValue::CSS_REMS: case CSSPrimitiveValue::CSS_CHS: case CSSPrimitiveValue::CSS_S: case CSSPrimitiveValue::CSS_TURN: case CSSPrimitiveValue::CSS_VW: case CSSPrimitiveValue::CSS_VH: case CSSPrimitiveValue::CSS_VMIN: case CSSPrimitiveValue::CSS_VMAX: return true; case CSSPrimitiveValue::CSS_ATTR: case CSSPrimitiveValue::CSS_COUNTER: case CSSPrimitiveValue::CSS_COUNTER_NAME: #if ENABLE(DASHBOARD_SUPPORT) case CSSPrimitiveValue::CSS_DASHBOARD_REGION: #endif #if !ENABLE(CSS_IMAGE_RESOLUTION) && !ENABLE(RESOLUTION_MEDIA_QUERY) case CSSPrimitiveValue::CSS_DPPX: case CSSPrimitiveValue::CSS_DPI: case CSSPrimitiveValue::CSS_DPCM: #endif case CSSPrimitiveValue::CSS_IDENT: case CSSPrimitiveValue::CSS_PROPERTY_ID: case CSSPrimitiveValue::CSS_VALUE_ID: case CSSPrimitiveValue::CSS_PAIR: case CSSPrimitiveValue::CSS_PARSER_HEXCOLOR: case CSSPrimitiveValue::CSS_PARSER_IDENTIFIER: case CSSPrimitiveValue::CSS_PARSER_INTEGER: case CSSPrimitiveValue::CSS_PARSER_OPERATOR: case CSSPrimitiveValue::CSS_RECT: case CSSPrimitiveValue::CSS_QUAD: case CSSPrimitiveValue::CSS_RGBCOLOR: case CSSPrimitiveValue::CSS_SHAPE: case CSSPrimitiveValue::CSS_STRING: case CSSPrimitiveValue::CSS_UNICODE_RANGE: case CSSPrimitiveValue::CSS_UNKNOWN: case CSSPrimitiveValue::CSS_URI: #if ENABLE(CSS_VARIABLES) case CSSPrimitiveValue::CSS_VARIABLE_NAME: #endif return false; } ASSERT_NOT_REACHED(); return false; } static CSSPrimitiveValue::UnitCategory unitCategory(CSSPrimitiveValue::UnitTypes type) { // Here we violate the spec (http://www.w3.org/TR/DOM-Level-2-Style/css.html#CSS-CSSPrimitiveValue) and allow conversions // between CSS_PX and relative lengths (see cssPixelsPerInch comment in CSSHelper.h for the topic treatment). switch (type) { case CSSPrimitiveValue::CSS_NUMBER: return CSSPrimitiveValue::UNumber; case CSSPrimitiveValue::CSS_PERCENTAGE: return CSSPrimitiveValue::UPercent; case CSSPrimitiveValue::CSS_PX: case CSSPrimitiveValue::CSS_CM: case CSSPrimitiveValue::CSS_MM: case CSSPrimitiveValue::CSS_IN: case CSSPrimitiveValue::CSS_PT: case CSSPrimitiveValue::CSS_PC: return CSSPrimitiveValue::ULength; case CSSPrimitiveValue::CSS_MS: case CSSPrimitiveValue::CSS_S: return CSSPrimitiveValue::UTime; case CSSPrimitiveValue::CSS_DEG: case CSSPrimitiveValue::CSS_RAD: case CSSPrimitiveValue::CSS_GRAD: case CSSPrimitiveValue::CSS_TURN: return CSSPrimitiveValue::UAngle; case CSSPrimitiveValue::CSS_HZ: case CSSPrimitiveValue::CSS_KHZ: return CSSPrimitiveValue::UFrequency; case CSSPrimitiveValue::CSS_VW: case CSSPrimitiveValue::CSS_VH: case CSSPrimitiveValue::CSS_VMIN: case CSSPrimitiveValue::CSS_VMAX: return CSSPrimitiveValue::UViewportPercentageLength; #if ENABLE(CSS_IMAGE_RESOLUTION) || ENABLE(RESOLUTION_MEDIA_QUERY) case CSSPrimitiveValue::CSS_DPPX: case CSSPrimitiveValue::CSS_DPI: case CSSPrimitiveValue::CSS_DPCM: return CSSPrimitiveValue::UResolution; #endif default: return CSSPrimitiveValue::UOther; } } typedef HashMap CSSTextCache; static CSSTextCache& cssTextCache() { DEFINE_STATIC_LOCAL(CSSTextCache, cache, ()); return cache; } unsigned short CSSPrimitiveValue::primitiveType() const { if (m_primitiveUnitType == CSS_PROPERTY_ID || m_primitiveUnitType == CSS_VALUE_ID) return CSS_IDENT; if (m_primitiveUnitType != CSSPrimitiveValue::CSS_CALC) return m_primitiveUnitType; switch (m_value.calc->category()) { case CalcNumber: return CSSPrimitiveValue::CSS_NUMBER; case CalcPercent: return CSSPrimitiveValue::CSS_PERCENTAGE; case CalcLength: return CSSPrimitiveValue::CSS_PX; case CalcPercentNumber: return CSSPrimitiveValue::CSS_CALC_PERCENTAGE_WITH_NUMBER; case CalcPercentLength: return CSSPrimitiveValue::CSS_CALC_PERCENTAGE_WITH_LENGTH; #if ENABLE(CSS_VARIABLES) case CalcVariable: return CSSPrimitiveValue::CSS_UNKNOWN; // The type of a calculation containing a variable cannot be known until the value of the variable is determined. #endif case CalcOther: return CSSPrimitiveValue::CSS_UNKNOWN; } return CSSPrimitiveValue::CSS_UNKNOWN; } static const AtomicString& propertyName(CSSPropertyID propertyID) { ASSERT_ARG(propertyID, propertyID >= 0); ASSERT_ARG(propertyID, (propertyID >= firstCSSProperty && propertyID < firstCSSProperty + numCSSProperties)); if (propertyID < 0) return nullAtom; return getPropertyNameAtomicString(propertyID); } static const AtomicString& valueName(CSSValueID valueID) { ASSERT_ARG(valueID, valueID >= 0); ASSERT_ARG(valueID, valueID < numCSSValueKeywords); if (valueID < 0) return nullAtom; static AtomicString* keywordStrings = new AtomicString[numCSSValueKeywords]; // Leaked intentionally. AtomicString& keywordString = keywordStrings[valueID]; if (keywordString.isNull()) keywordString = getValueName(valueID); return keywordString; } CSSPrimitiveValue::CSSPrimitiveValue(CSSValueID valueID) : CSSValue(PrimitiveClass) { m_primitiveUnitType = CSS_VALUE_ID; m_value.valueID = valueID; } CSSPrimitiveValue::CSSPrimitiveValue(CSSPropertyID propertyID) : CSSValue(PrimitiveClass) { m_primitiveUnitType = CSS_PROPERTY_ID; m_value.propertyID = propertyID; } CSSPrimitiveValue::CSSPrimitiveValue(int parserOperator) : CSSValue(PrimitiveClass) { m_primitiveUnitType = CSS_PARSER_OPERATOR; m_value.parserOperator = parserOperator; } CSSPrimitiveValue::CSSPrimitiveValue(double num, UnitTypes type) : CSSValue(PrimitiveClass) { m_primitiveUnitType = type; ASSERT(std::isfinite(num)); m_value.num = num; } CSSPrimitiveValue::CSSPrimitiveValue(const String& str, UnitTypes type) : CSSValue(PrimitiveClass) { m_primitiveUnitType = type; if ((m_value.string = str.impl())) m_value.string->ref(); } CSSPrimitiveValue::CSSPrimitiveValue(RGBA32 color) : CSSValue(PrimitiveClass) { m_primitiveUnitType = CSS_RGBCOLOR; m_value.rgbcolor = color; } CSSPrimitiveValue::CSSPrimitiveValue(const Length& length) : CSSValue(PrimitiveClass) { switch (length.type()) { case Auto: m_primitiveUnitType = CSS_VALUE_ID; m_value.valueID = CSSValueAuto; break; case WebCore::Fixed: m_primitiveUnitType = CSS_PX; m_value.num = length.value(); break; case Intrinsic: m_primitiveUnitType = CSS_VALUE_ID; m_value.valueID = CSSValueIntrinsic; break; case MinIntrinsic: m_primitiveUnitType = CSS_VALUE_ID; m_value.valueID = CSSValueMinIntrinsic; break; case MinContent: m_primitiveUnitType = CSS_VALUE_ID; m_value.valueID = CSSValueWebkitMinContent; break; case MaxContent: m_primitiveUnitType = CSS_VALUE_ID; m_value.valueID = CSSValueWebkitMaxContent; break; case FillAvailable: m_primitiveUnitType = CSS_VALUE_ID; m_value.valueID = CSSValueWebkitFillAvailable; break; case FitContent: m_primitiveUnitType = CSS_VALUE_ID; m_value.valueID = CSSValueWebkitFitContent; break; case Percent: m_primitiveUnitType = CSS_PERCENTAGE; ASSERT(std::isfinite(length.percent())); m_value.num = length.percent(); break; case ViewportPercentageWidth: m_primitiveUnitType = CSS_VW; m_value.num = length.viewportPercentageLength(); break; case ViewportPercentageHeight: m_primitiveUnitType = CSS_VH; m_value.num = length.viewportPercentageLength(); break; case ViewportPercentageMin: m_primitiveUnitType = CSS_VMIN; m_value.num = length.viewportPercentageLength(); break; case ViewportPercentageMax: m_primitiveUnitType = CSS_VMAX; m_value.num = length.viewportPercentageLength(); break; case Calculated: case Relative: case Undefined: ASSERT_NOT_REACHED(); break; } } void CSSPrimitiveValue::init(PassRefPtr c) { m_primitiveUnitType = CSS_COUNTER; m_hasCachedCSSText = false; m_value.counter = c.leakRef(); } void CSSPrimitiveValue::init(PassRefPtr r) { m_primitiveUnitType = CSS_RECT; m_hasCachedCSSText = false; m_value.rect = r.leakRef(); } void CSSPrimitiveValue::init(PassRefPtr quad) { m_primitiveUnitType = CSS_QUAD; m_hasCachedCSSText = false; m_value.quad = quad.leakRef(); } #if ENABLE(DASHBOARD_SUPPORT) void CSSPrimitiveValue::init(PassRefPtr r) { m_primitiveUnitType = CSS_DASHBOARD_REGION; m_hasCachedCSSText = false; m_value.region = r.leakRef(); } #endif void CSSPrimitiveValue::init(PassRefPtr p) { m_primitiveUnitType = CSS_PAIR; m_hasCachedCSSText = false; m_value.pair = p.leakRef(); } void CSSPrimitiveValue::init(PassRefPtr c) { m_primitiveUnitType = CSS_CALC; m_hasCachedCSSText = false; m_value.calc = c.leakRef(); } void CSSPrimitiveValue::init(PassRefPtr shape) { m_primitiveUnitType = CSS_SHAPE; m_hasCachedCSSText = false; m_value.shape = shape.leakRef(); } CSSPrimitiveValue::~CSSPrimitiveValue() { cleanup(); } void CSSPrimitiveValue::cleanup() { switch (static_cast(m_primitiveUnitType)) { case CSS_STRING: case CSS_URI: case CSS_ATTR: case CSS_COUNTER_NAME: #if ENABLE(CSS_VARIABLES) case CSS_VARIABLE_NAME: #endif case CSS_PARSER_HEXCOLOR: if (m_value.string) m_value.string->deref(); break; case CSS_COUNTER: m_value.counter->deref(); break; case CSS_RECT: m_value.rect->deref(); break; case CSS_QUAD: m_value.quad->deref(); break; case CSS_PAIR: m_value.pair->deref(); break; #if ENABLE(DASHBOARD_SUPPORT) case CSS_DASHBOARD_REGION: if (m_value.region) m_value.region->deref(); break; #endif case CSS_CALC: m_value.calc->deref(); break; case CSS_CALC_PERCENTAGE_WITH_NUMBER: case CSS_CALC_PERCENTAGE_WITH_LENGTH: ASSERT_NOT_REACHED(); break; case CSS_SHAPE: m_value.shape->deref(); break; case CSS_NUMBER: case CSS_PARSER_INTEGER: case CSS_PERCENTAGE: case CSS_EMS: case CSS_EXS: case CSS_REMS: case CSS_CHS: case CSS_PX: case CSS_CM: case CSS_MM: case CSS_IN: case CSS_PT: case CSS_PC: case CSS_DEG: case CSS_RAD: case CSS_GRAD: case CSS_MS: case CSS_S: case CSS_HZ: case CSS_KHZ: case CSS_TURN: case CSS_VW: case CSS_VH: case CSS_VMIN: case CSS_VMAX: case CSS_DPPX: case CSS_DPI: case CSS_DPCM: case CSS_IDENT: case CSS_RGBCOLOR: case CSS_DIMENSION: case CSS_UNKNOWN: case CSS_UNICODE_RANGE: case CSS_PARSER_OPERATOR: case CSS_PARSER_IDENTIFIER: case CSS_PROPERTY_ID: case CSS_VALUE_ID: break; } m_primitiveUnitType = 0; if (m_hasCachedCSSText) { cssTextCache().remove(this); m_hasCachedCSSText = false; } } double CSSPrimitiveValue::computeDegrees() { switch (m_primitiveUnitType) { case CSS_DEG: return getDoubleValue(); case CSS_RAD: return rad2deg(getDoubleValue()); case CSS_GRAD: return grad2deg(getDoubleValue()); case CSS_TURN: return turn2deg(getDoubleValue()); default: ASSERT_NOT_REACHED(); return 0; } } template<> int CSSPrimitiveValue::computeLength(const RenderStyle* style, const RenderStyle* rootStyle, float multiplier, bool computingFontSize) const { return roundForImpreciseConversion(computeLengthDouble(style, rootStyle, multiplier, computingFontSize)); } template<> unsigned CSSPrimitiveValue::computeLength(const RenderStyle* style, const RenderStyle* rootStyle, float multiplier, bool computingFontSize) const { return roundForImpreciseConversion(computeLengthDouble(style, rootStyle, multiplier, computingFontSize)); } template<> Length CSSPrimitiveValue::computeLength(const RenderStyle* style, const RenderStyle* rootStyle, float multiplier, bool computingFontSize) const { #if ENABLE(SUBPIXEL_LAYOUT) return Length(clampTo(computeLengthDouble(style, rootStyle, multiplier, computingFontSize), minValueForCssLength, maxValueForCssLength), Fixed); #else return Length(clampTo(roundForImpreciseConversion(computeLengthDouble(style, rootStyle, multiplier, computingFontSize)), minValueForCssLength, maxValueForCssLength), Fixed); #endif } template<> short CSSPrimitiveValue::computeLength(const RenderStyle* style, const RenderStyle* rootStyle, float multiplier, bool computingFontSize) const { return roundForImpreciseConversion(computeLengthDouble(style, rootStyle, multiplier, computingFontSize)); } template<> unsigned short CSSPrimitiveValue::computeLength(const RenderStyle* style, const RenderStyle* rootStyle, float multiplier, bool computingFontSize) const { return roundForImpreciseConversion(computeLengthDouble(style, rootStyle, multiplier, computingFontSize)); } template<> float CSSPrimitiveValue::computeLength(const RenderStyle* style, const RenderStyle* rootStyle, float multiplier, bool computingFontSize) const { return static_cast(computeLengthDouble(style, rootStyle, multiplier, computingFontSize)); } template<> double CSSPrimitiveValue::computeLength(const RenderStyle* style, const RenderStyle* rootStyle, float multiplier, bool computingFontSize) const { return computeLengthDouble(style, rootStyle, multiplier, computingFontSize); } double CSSPrimitiveValue::computeLengthDouble(const RenderStyle* style, const RenderStyle* rootStyle, float multiplier, bool computingFontSize) const { if (m_primitiveUnitType == CSS_CALC) // The multiplier and factor is applied to each value in the calc expression individually return m_value.calc->computeLengthPx(style, rootStyle, multiplier, computingFontSize); double factor; switch (primitiveType()) { case CSS_EMS: factor = computingFontSize ? style->fontDescription().specifiedSize() : style->fontDescription().computedSize(); break; case CSS_EXS: // FIXME: We have a bug right now where the zoom will be applied twice to EX units. // We really need to compute EX using fontMetrics for the original specifiedSize and not use // our actual constructed rendering font. if (style->fontMetrics().hasXHeight()) factor = style->fontMetrics().xHeight(); else factor = (computingFontSize ? style->fontDescription().specifiedSize() : style->fontDescription().computedSize()) / 2.0; break; case CSS_REMS: if (rootStyle) factor = computingFontSize ? rootStyle->fontDescription().specifiedSize() : rootStyle->fontDescription().computedSize(); else factor = 1.0; break; case CSS_CHS: factor = style->fontMetrics().zeroWidth(); break; case CSS_PX: factor = 1.0; break; case CSS_CM: factor = cssPixelsPerInch / 2.54; // (2.54 cm/in) break; case CSS_MM: factor = cssPixelsPerInch / 25.4; break; case CSS_IN: factor = cssPixelsPerInch; break; case CSS_PT: factor = cssPixelsPerInch / 72.0; break; case CSS_PC: // 1 pc == 12 pt factor = cssPixelsPerInch * 12.0 / 72.0; break; case CSS_CALC_PERCENTAGE_WITH_LENGTH: case CSS_CALC_PERCENTAGE_WITH_NUMBER: ASSERT_NOT_REACHED(); return -1.0; default: ASSERT_NOT_REACHED(); return -1.0; } // We do not apply the zoom factor when we are computing the value of the font-size property. The zooming // for font sizes is much more complicated, since we have to worry about enforcing the minimum font size preference // as well as enforcing the implicit "smart minimum." double result = getDoubleValue() * factor; if (computingFontSize || isFontRelativeLength()) return result; return result * multiplier; } void CSSPrimitiveValue::setFloatValue(unsigned short, double, ExceptionCode& ec) { // Keeping values immutable makes optimizations easier and allows sharing of the primitive value objects. // No other engine supports mutating style through this API. Computed style is always read-only anyway. // Supporting setter would require making primitive value copy-on-write and taking care of style invalidation. ec = NO_MODIFICATION_ALLOWED_ERR; } static double conversionToCanonicalUnitsScaleFactor(unsigned short unitType) { double factor = 1.0; // FIXME: the switch can be replaced by an array of scale factors. switch (unitType) { // These are "canonical" units in their respective categories. case CSSPrimitiveValue::CSS_PX: case CSSPrimitiveValue::CSS_DEG: case CSSPrimitiveValue::CSS_MS: case CSSPrimitiveValue::CSS_HZ: break; case CSSPrimitiveValue::CSS_CM: factor = cssPixelsPerInch / 2.54; // (2.54 cm/in) break; case CSSPrimitiveValue::CSS_DPCM: factor = 2.54 / cssPixelsPerInch; // (2.54 cm/in) break; case CSSPrimitiveValue::CSS_MM: factor = cssPixelsPerInch / 25.4; break; case CSSPrimitiveValue::CSS_IN: factor = cssPixelsPerInch; break; case CSSPrimitiveValue::CSS_DPI: factor = 1 / cssPixelsPerInch; break; case CSSPrimitiveValue::CSS_PT: factor = cssPixelsPerInch / 72.0; break; case CSSPrimitiveValue::CSS_PC: factor = cssPixelsPerInch * 12.0 / 72.0; // 1 pc == 12 pt break; case CSSPrimitiveValue::CSS_RAD: factor = 180 / piDouble; break; case CSSPrimitiveValue::CSS_GRAD: factor = 0.9; break; case CSSPrimitiveValue::CSS_TURN: factor = 360; break; case CSSPrimitiveValue::CSS_S: case CSSPrimitiveValue::CSS_KHZ: factor = 1000; break; default: break; } return factor; } double CSSPrimitiveValue::getDoubleValue(unsigned short unitType, ExceptionCode& ec) const { double result = 0; bool success = getDoubleValueInternal(static_cast(unitType), &result); if (!success) { ec = INVALID_ACCESS_ERR; return 0.0; } ec = 0; return result; } double CSSPrimitiveValue::getDoubleValue(unsigned short unitType) const { double result = 0; getDoubleValueInternal(static_cast(unitType), &result); return result; } double CSSPrimitiveValue::getDoubleValue() const { return m_primitiveUnitType != CSS_CALC ? m_value.num : m_value.calc->doubleValue(); } CSSPrimitiveValue::UnitTypes CSSPrimitiveValue::canonicalUnitTypeForCategory(UnitCategory category) { // The canonical unit type is chosen according to the way CSSParser::validUnit() chooses the default unit // in each category (based on unitflags). switch (category) { case UNumber: return CSS_NUMBER; case ULength: return CSS_PX; case UPercent: return CSS_UNKNOWN; // Cannot convert between numbers and percent. case UTime: return CSS_MS; case UAngle: return CSS_DEG; case UFrequency: return CSS_HZ; case UViewportPercentageLength: return CSS_UNKNOWN; // Cannot convert between numbers and relative lengths. #if ENABLE(CSS_IMAGE_RESOLUTION) || ENABLE(RESOLUTION_MEDIA_QUERY) case UResolution: return CSS_DPPX; #endif default: return CSS_UNKNOWN; } } bool CSSPrimitiveValue::getDoubleValueInternal(UnitTypes requestedUnitType, double* result) const { if (!isValidCSSUnitTypeForDoubleConversion(static_cast(m_primitiveUnitType)) || !isValidCSSUnitTypeForDoubleConversion(requestedUnitType)) return false; UnitTypes sourceUnitType = static_cast(primitiveType()); if (requestedUnitType == sourceUnitType || requestedUnitType == CSS_DIMENSION) { *result = getDoubleValue(); return true; } UnitCategory sourceCategory = unitCategory(sourceUnitType); ASSERT(sourceCategory != UOther); UnitTypes targetUnitType = requestedUnitType; UnitCategory targetCategory = unitCategory(targetUnitType); ASSERT(targetCategory != UOther); // Cannot convert between unrelated unit categories if one of them is not UNumber. if (sourceCategory != targetCategory && sourceCategory != UNumber && targetCategory != UNumber) return false; if (targetCategory == UNumber) { // We interpret conversion to CSS_NUMBER as conversion to a canonical unit in this value's category. targetUnitType = canonicalUnitTypeForCategory(sourceCategory); if (targetUnitType == CSS_UNKNOWN) return false; } if (sourceUnitType == CSS_NUMBER) { // We interpret conversion from CSS_NUMBER in the same way as CSSParser::validUnit() while using non-strict mode. sourceUnitType = canonicalUnitTypeForCategory(targetCategory); if (sourceUnitType == CSS_UNKNOWN) return false; } double convertedValue = getDoubleValue(); // First convert the value from m_primitiveUnitType to canonical type. double factor = conversionToCanonicalUnitsScaleFactor(sourceUnitType); convertedValue *= factor; // Now convert from canonical type to the target unitType. factor = conversionToCanonicalUnitsScaleFactor(targetUnitType); convertedValue /= factor; *result = convertedValue; return true; } void CSSPrimitiveValue::setStringValue(unsigned short, const String&, ExceptionCode& ec) { // Keeping values immutable makes optimizations easier and allows sharing of the primitive value objects. // No other engine supports mutating style through this API. Computed style is always read-only anyway. // Supporting setter would require making primitive value copy-on-write and taking care of style invalidation. ec = NO_MODIFICATION_ALLOWED_ERR; } String CSSPrimitiveValue::getStringValue(ExceptionCode& ec) const { ec = 0; switch (m_primitiveUnitType) { case CSS_STRING: case CSS_ATTR: case CSS_URI: #if ENABLE(CSS_VARIABLES) case CSS_VARIABLE_NAME: #endif return m_value.string; case CSS_VALUE_ID: return valueName(m_value.valueID); case CSS_PROPERTY_ID: return propertyName(m_value.propertyID); default: ec = INVALID_ACCESS_ERR; break; } return String(); } String CSSPrimitiveValue::getStringValue() const { switch (m_primitiveUnitType) { case CSS_STRING: case CSS_ATTR: case CSS_URI: #if ENABLE(CSS_VARIABLES) case CSS_VARIABLE_NAME: #endif return m_value.string; case CSS_VALUE_ID: return valueName(m_value.valueID); case CSS_PROPERTY_ID: return propertyName(m_value.propertyID); default: break; } return String(); } Counter* CSSPrimitiveValue::getCounterValue(ExceptionCode& ec) const { ec = 0; if (m_primitiveUnitType != CSS_COUNTER) { ec = INVALID_ACCESS_ERR; return 0; } return m_value.counter; } Rect* CSSPrimitiveValue::getRectValue(ExceptionCode& ec) const { ec = 0; if (m_primitiveUnitType != CSS_RECT) { ec = INVALID_ACCESS_ERR; return 0; } return m_value.rect; } Quad* CSSPrimitiveValue::getQuadValue(ExceptionCode& ec) const { ec = 0; if (m_primitiveUnitType != CSS_QUAD) { ec = INVALID_ACCESS_ERR; return 0; } return m_value.quad; } PassRefPtr CSSPrimitiveValue::getRGBColorValue(ExceptionCode& ec) const { ec = 0; if (m_primitiveUnitType != CSS_RGBCOLOR) { ec = INVALID_ACCESS_ERR; return 0; } // FIMXE: This should not return a new object for each invocation. return RGBColor::create(m_value.rgbcolor); } Pair* CSSPrimitiveValue::getPairValue(ExceptionCode& ec) const { ec = 0; if (m_primitiveUnitType != CSS_PAIR) { ec = INVALID_ACCESS_ERR; return 0; } return m_value.pair; } static String formatNumber(double number, const char* suffix, unsigned suffixLength) { DecimalNumber decimal(number); StringBuffer buffer(decimal.bufferLengthForStringDecimal() + suffixLength); unsigned length = decimal.toStringDecimal(buffer.characters(), buffer.length()); ASSERT(length + suffixLength == buffer.length()); for (unsigned i = 0; i < suffixLength; ++i) buffer[length + i] = static_cast(suffix[i]); return String::adopt(buffer); } template ALWAYS_INLINE static String formatNumber(double number, const char (&characters)[characterCount]) { return formatNumber(number, characters, characterCount - 1); } String CSSPrimitiveValue::customCssText() const { // FIXME: return the original value instead of a generated one (e.g. color // name if it was specified) - check what spec says about this if (m_hasCachedCSSText) { ASSERT(cssTextCache().contains(this)); return cssTextCache().get(this); } String text; switch (m_primitiveUnitType) { case CSS_UNKNOWN: // FIXME break; case CSS_NUMBER: case CSS_PARSER_INTEGER: text = formatNumber(m_value.num, ""); break; case CSS_PERCENTAGE: text = formatNumber(m_value.num, "%"); break; case CSS_EMS: text = formatNumber(m_value.num, "em"); break; case CSS_EXS: text = formatNumber(m_value.num, "ex"); break; case CSS_REMS: text = formatNumber(m_value.num, "rem"); break; case CSS_CHS: text = formatNumber(m_value.num, "ch"); break; case CSS_PX: text = formatNumber(m_value.num, "px"); break; case CSS_CM: text = formatNumber(m_value.num, "cm"); break; #if ENABLE(CSS_IMAGE_RESOLUTION) || ENABLE(RESOLUTION_MEDIA_QUERY) case CSS_DPPX: text = formatNumber(m_value.num, "dppx"); break; case CSS_DPI: text = formatNumber(m_value.num, "dpi"); break; case CSS_DPCM: text = formatNumber(m_value.num, "dpcm"); break; #endif case CSS_MM: text = formatNumber(m_value.num, "mm"); break; case CSS_IN: text = formatNumber(m_value.num, "in"); break; case CSS_PT: text = formatNumber(m_value.num, "pt"); break; case CSS_PC: text = formatNumber(m_value.num, "pc"); break; case CSS_DEG: text = formatNumber(m_value.num, "deg"); break; case CSS_RAD: text = formatNumber(m_value.num, "rad"); break; case CSS_GRAD: text = formatNumber(m_value.num, "grad"); break; case CSS_MS: text = formatNumber(m_value.num, "ms"); break; case CSS_S: text = formatNumber(m_value.num, "s"); break; case CSS_HZ: text = formatNumber(m_value.num, "hz"); break; case CSS_KHZ: text = formatNumber(m_value.num, "khz"); break; case CSS_TURN: text = formatNumber(m_value.num, "turn"); break; case CSS_DIMENSION: // FIXME break; case CSS_STRING: text = quoteCSSStringIfNeeded(m_value.string); break; case CSS_URI: text = "url(" + quoteCSSURLIfNeeded(m_value.string) + ")"; break; case CSS_VALUE_ID: text = valueName(m_value.valueID); break; case CSS_PROPERTY_ID: text = propertyName(m_value.propertyID); break; case CSS_ATTR: { StringBuilder result; result.reserveCapacity(6 + m_value.string->length()); result.appendLiteral("attr("); result.append(m_value.string); result.append(')'); text = result.toString(); break; } case CSS_COUNTER_NAME: text = "counter(" + String(m_value.string) + ')'; break; case CSS_COUNTER: { StringBuilder result; String separator = m_value.counter->separator(); if (separator.isEmpty()) result.appendLiteral("counter("); else result.appendLiteral("counters("); result.append(m_value.counter->identifier()); if (!separator.isEmpty()) { result.appendLiteral(", "); result.append(quoteCSSStringIfNeeded(separator)); } String listStyle = m_value.counter->listStyle(); if (!listStyle.isEmpty()) { result.appendLiteral(", "); result.append(listStyle); } result.append(')'); text = result.toString(); break; } case CSS_RECT: text = getRectValue()->cssText(); break; case CSS_QUAD: text = getQuadValue()->cssText(); break; case CSS_RGBCOLOR: case CSS_PARSER_HEXCOLOR: { RGBA32 rgbColor = m_value.rgbcolor; if (m_primitiveUnitType == CSS_PARSER_HEXCOLOR) Color::parseHexColor(m_value.string, rgbColor); Color color(rgbColor); Vector result; result.reserveInitialCapacity(32); bool colorHasAlpha = color.hasAlpha(); if (colorHasAlpha) result.append("rgba(", 5); else result.append("rgb(", 4); appendNumber(result, static_cast(color.red())); result.append(", ", 2); appendNumber(result, static_cast(color.green())); result.append(", ", 2); appendNumber(result, static_cast(color.blue())); if (colorHasAlpha) { result.append(", ", 2); NumberToStringBuffer buffer; const char* alphaString = numberToFixedPrecisionString(color.alpha() / 255.0f, 6, buffer, true); result.append(alphaString, strlen(alphaString)); } result.append(')'); text = String::adopt(result); break; } case CSS_PAIR: text = getPairValue()->cssText(); break; #if ENABLE(DASHBOARD_SUPPORT) case CSS_DASHBOARD_REGION: { StringBuilder result; for (DashboardRegion* region = getDashboardRegionValue(); region; region = region->m_next.get()) { if (!result.isEmpty()) result.append(' '); result.appendLiteral("dashboard-region("); result.append(region->m_label); if (region->m_isCircle) result.appendLiteral(" circle"); else if (region->m_isRectangle) result.appendLiteral(" rectangle"); else break; if (region->top()->m_primitiveUnitType == CSS_VALUE_ID && region->top()->getValueID() == CSSValueInvalid) { ASSERT(region->right()->m_primitiveUnitType == CSS_VALUE_ID); ASSERT(region->bottom()->m_primitiveUnitType == CSS_VALUE_ID); ASSERT(region->left()->m_primitiveUnitType == CSS_VALUE_ID); ASSERT(region->right()->getValueID() == CSSValueInvalid); ASSERT(region->bottom()->getValueID() == CSSValueInvalid); ASSERT(region->left()->getValueID() == CSSValueInvalid); } else { result.append(' '); result.append(region->top()->cssText()); result.append(' '); result.append(region->right()->cssText()); result.append(' '); result.append(region->bottom()->cssText()); result.append(' '); result.append(region->left()->cssText()); } result.append(')'); } text = result.toString(); break; } #endif case CSS_PARSER_OPERATOR: { char c = static_cast(m_value.parserOperator); text = String(&c, 1U); break; } case CSS_PARSER_IDENTIFIER: text = quoteCSSStringIfNeeded(m_value.string); break; case CSS_CALC: text = m_value.calc->cssText(); break; case CSS_SHAPE: text = m_value.shape->cssText(); break; case CSS_VW: text = formatNumber(m_value.num, "vw"); break; case CSS_VH: text = formatNumber(m_value.num, "vh"); break; case CSS_VMIN: text = formatNumber(m_value.num, "vmin"); break; case CSS_VMAX: text = formatNumber(m_value.num, "vmax"); break; #if ENABLE(CSS_VARIABLES) case CSS_VARIABLE_NAME: text = "-webkit-var(" + String(m_value.string) + ')'; break; #endif } ASSERT(!cssTextCache().contains(this)); cssTextCache().set(this, text); m_hasCachedCSSText = true; return text; } #if ENABLE(CSS_VARIABLES) String CSSPrimitiveValue::customSerializeResolvingVariables(const HashMap& variables) const { if (isVariableName() && variables.contains(m_value.string)) return variables.get(m_value.string); if (CSSCalcValue* calcValue = cssCalcValue()) return calcValue->customSerializeResolvingVariables(variables); if (Pair* pairValue = getPairValue()) return pairValue->serializeResolvingVariables(variables); if (Rect* rectVal = getRectValue()) return rectVal->serializeResolvingVariables(variables); if (Quad* quadVal = getQuadValue()) return quadVal->serializeResolvingVariables(variables); if (CSSBasicShape* shapeValue = getShapeValue()) return shapeValue->serializeResolvingVariables(variables); return customCssText(); } bool CSSPrimitiveValue::hasVariableReference() const { if (CSSCalcValue* calcValue = cssCalcValue()) return calcValue->hasVariableReference(); if (Pair* pairValue = getPairValue()) return pairValue->hasVariableReference(); if (Quad* quadValue = getQuadValue()) return quadValue->hasVariableReference(); if (Rect* rectValue = getRectValue()) return rectValue->hasVariableReference(); if (CSSBasicShape* shapeValue = getShapeValue()) return shapeValue->hasVariableReference(); return isVariableName(); } #endif void CSSPrimitiveValue::addSubresourceStyleURLs(ListHashSet& urls, const StyleSheetContents* styleSheet) const { if (m_primitiveUnitType == CSS_URI) addSubresourceURL(urls, styleSheet->completeURL(m_value.string)); } Length CSSPrimitiveValue::viewportPercentageLength() const { ASSERT(isViewportPercentageLength()); Length viewportLength; switch (m_primitiveUnitType) { case CSS_VW: viewportLength = Length(getDoubleValue(), ViewportPercentageWidth); break; case CSS_VH: viewportLength = Length(getDoubleValue(), ViewportPercentageHeight); break; case CSS_VMIN: viewportLength = Length(getDoubleValue(), ViewportPercentageMin); break; case CSS_VMAX: viewportLength = Length(getDoubleValue(), ViewportPercentageMax); break; default: break; } return viewportLength; } PassRefPtr CSSPrimitiveValue::cloneForCSSOM() const { RefPtr result; switch (m_primitiveUnitType) { case CSS_STRING: case CSS_URI: case CSS_ATTR: case CSS_COUNTER_NAME: result = CSSPrimitiveValue::create(m_value.string, static_cast(m_primitiveUnitType)); break; case CSS_COUNTER: result = CSSPrimitiveValue::create(m_value.counter->cloneForCSSOM()); break; case CSS_RECT: result = CSSPrimitiveValue::create(m_value.rect->cloneForCSSOM()); break; case CSS_QUAD: result = CSSPrimitiveValue::create(m_value.quad->cloneForCSSOM()); break; case CSS_PAIR: // Pair is not exposed to the CSSOM, no need for a deep clone. result = CSSPrimitiveValue::create(m_value.pair); break; #if ENABLE(DASHBOARD_SUPPORT) case CSS_DASHBOARD_REGION: // DashboardRegion is not exposed to the CSSOM, no need for a deep clone. result = CSSPrimitiveValue::create(m_value.region); break; #endif case CSS_CALC: // CSSCalcValue is not exposed to the CSSOM, no need for a deep clone. result = CSSPrimitiveValue::create(m_value.calc); break; case CSS_SHAPE: // CSSShapeValue is not exposed to the CSSOM, no need for a deep clone. result = CSSPrimitiveValue::create(m_value.shape); break; case CSS_NUMBER: case CSS_PARSER_INTEGER: case CSS_PERCENTAGE: case CSS_EMS: case CSS_EXS: case CSS_REMS: case CSS_CHS: case CSS_PX: case CSS_CM: case CSS_MM: case CSS_IN: case CSS_PT: case CSS_PC: case CSS_DEG: case CSS_RAD: case CSS_GRAD: case CSS_MS: case CSS_S: case CSS_HZ: case CSS_KHZ: case CSS_TURN: case CSS_VW: case CSS_VH: case CSS_VMIN: case CSS_VMAX: #if ENABLE(CSS_IMAGE_RESOLUTION) || ENABLE(RESOLUTION_MEDIA_QUERY) case CSS_DPPX: case CSS_DPI: case CSS_DPCM: #endif result = CSSPrimitiveValue::create(m_value.num, static_cast(m_primitiveUnitType)); break; case CSS_PROPERTY_ID: result = CSSPrimitiveValue::createIdentifier(m_value.propertyID); break; case CSS_VALUE_ID: result = CSSPrimitiveValue::createIdentifier(m_value.valueID); break; case CSS_RGBCOLOR: result = CSSPrimitiveValue::createColor(m_value.rgbcolor); break; case CSS_DIMENSION: case CSS_UNKNOWN: case CSS_PARSER_OPERATOR: case CSS_PARSER_IDENTIFIER: case CSS_PARSER_HEXCOLOR: ASSERT_NOT_REACHED(); break; } if (result) result->setCSSOMSafe(); return result; } bool CSSPrimitiveValue::equals(const CSSPrimitiveValue& other) const { if (m_primitiveUnitType != other.m_primitiveUnitType) return false; switch (m_primitiveUnitType) { case CSS_UNKNOWN: return false; case CSS_NUMBER: case CSS_PARSER_INTEGER: case CSS_PERCENTAGE: case CSS_EMS: case CSS_EXS: case CSS_REMS: case CSS_PX: case CSS_CM: #if ENABLE(CSS_IMAGE_RESOLUTION) || ENABLE(RESOLUTION_MEDIA_QUERY) case CSS_DPPX: case CSS_DPI: case CSS_DPCM: #endif case CSS_MM: case CSS_IN: case CSS_PT: case CSS_PC: case CSS_DEG: case CSS_RAD: case CSS_GRAD: case CSS_MS: case CSS_S: case CSS_HZ: case CSS_KHZ: case CSS_TURN: case CSS_VW: case CSS_VH: case CSS_VMIN: case CSS_DIMENSION: return m_value.num == other.m_value.num; case CSS_PROPERTY_ID: return propertyName(m_value.propertyID) == propertyName(other.m_value.propertyID); case CSS_VALUE_ID: return valueName(m_value.valueID) == valueName(other.m_value.valueID); case CSS_STRING: case CSS_URI: case CSS_ATTR: case CSS_COUNTER_NAME: case CSS_PARSER_IDENTIFIER: case CSS_PARSER_HEXCOLOR: #if ENABLE(CSS_VARIABLES) case CSS_VARIABLE_NAME: #endif return equal(m_value.string, other.m_value.string); case CSS_COUNTER: return m_value.counter && other.m_value.counter && m_value.counter->equals(*other.m_value.counter); case CSS_RECT: return m_value.rect && other.m_value.rect && m_value.rect->equals(*other.m_value.rect); case CSS_QUAD: return m_value.quad && other.m_value.quad && m_value.quad->equals(*other.m_value.quad); case CSS_RGBCOLOR: return m_value.rgbcolor == other.m_value.rgbcolor; case CSS_PAIR: return m_value.pair && other.m_value.pair && m_value.pair->equals(*other.m_value.pair); #if ENABLE(DASHBOARD_SUPPORT) case CSS_DASHBOARD_REGION: { DashboardRegion* region = getDashboardRegionValue(); DashboardRegion* otherRegion = other.getDashboardRegionValue(); return region ? otherRegion && region->equals(*otherRegion) : !otherRegion; } #endif case CSS_PARSER_OPERATOR: return m_value.valueID == other.m_value.valueID; case CSS_CALC: return m_value.calc && other.m_value.calc && m_value.calc->equals(*other.m_value.calc); case CSS_SHAPE: return m_value.shape && other.m_value.shape && m_value.shape->equals(*other.m_value.shape); } return false; } } // namespace WebCore