/* * Copyright (C) 2011, 2012 Google Inc. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 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. * * Neither the name of Google Inc. nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "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 * OWNER OR CONTRIBUTORS 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 "CSSCalculationValue.h" #include "CSSPrimitiveValueMappings.h" #include "CSSValueList.h" #include "Length.h" #include "StyleResolver.h" #include #include #include #include static const int maxExpressionDepth = 100; enum ParseState { OK, TooDeep, NoMoreTokens }; namespace WebCore { static CalculationCategory unitCategory(CSSPrimitiveValue::UnitTypes type) { switch (type) { case CSSPrimitiveValue::CSS_NUMBER: case CSSPrimitiveValue::CSS_PARSER_INTEGER: return CalcNumber; case CSSPrimitiveValue::CSS_EMS: case CSSPrimitiveValue::CSS_EXS: case CSSPrimitiveValue::CSS_PX: case CSSPrimitiveValue::CSS_CM: case CSSPrimitiveValue::CSS_MM: case CSSPrimitiveValue::CSS_IN: case CSSPrimitiveValue::CSS_PT: case CSSPrimitiveValue::CSS_PC: case CSSPrimitiveValue::CSS_REMS: case CSSPrimitiveValue::CSS_CHS: return CalcLength; case CSSPrimitiveValue::CSS_PERCENTAGE: return CalcPercent; case CSSPrimitiveValue::CSS_DEG: case CSSPrimitiveValue::CSS_RAD: case CSSPrimitiveValue::CSS_GRAD: case CSSPrimitiveValue::CSS_TURN: return CalcAngle; case CSSPrimitiveValue::CSS_MS: case CSSPrimitiveValue::CSS_S: return CalcTime; case CSSPrimitiveValue::CSS_HZ: case CSSPrimitiveValue::CSS_KHZ: return CalcFrequency; #if ENABLE(CSS_VARIABLES) case CSSPrimitiveValue::CSS_VARIABLE_NAME: return CalcVariable; #endif default: return CalcOther; } } static bool hasDoubleValue(CSSPrimitiveValue::UnitTypes type) { switch (type) { case CSSPrimitiveValue::CSS_NUMBER: case CSSPrimitiveValue::CSS_PARSER_INTEGER: case CSSPrimitiveValue::CSS_PERCENTAGE: case CSSPrimitiveValue::CSS_EMS: case CSSPrimitiveValue::CSS_EXS: case CSSPrimitiveValue::CSS_CHS: case CSSPrimitiveValue::CSS_REMS: case CSSPrimitiveValue::CSS_PX: case CSSPrimitiveValue::CSS_CM: case CSSPrimitiveValue::CSS_MM: case CSSPrimitiveValue::CSS_IN: case CSSPrimitiveValue::CSS_PT: case CSSPrimitiveValue::CSS_PC: case CSSPrimitiveValue::CSS_DEG: case CSSPrimitiveValue::CSS_RAD: case CSSPrimitiveValue::CSS_GRAD: case CSSPrimitiveValue::CSS_MS: case CSSPrimitiveValue::CSS_S: case CSSPrimitiveValue::CSS_HZ: case CSSPrimitiveValue::CSS_KHZ: case CSSPrimitiveValue::CSS_DIMENSION: case CSSPrimitiveValue::CSS_VW: case CSSPrimitiveValue::CSS_VH: case CSSPrimitiveValue::CSS_VMIN: case CSSPrimitiveValue::CSS_VMAX: case CSSPrimitiveValue::CSS_DPPX: case CSSPrimitiveValue::CSS_DPI: case CSSPrimitiveValue::CSS_DPCM: return true; case CSSPrimitiveValue::CSS_UNKNOWN: case CSSPrimitiveValue::CSS_STRING: case CSSPrimitiveValue::CSS_URI: case CSSPrimitiveValue::CSS_IDENT: case CSSPrimitiveValue::CSS_ATTR: case CSSPrimitiveValue::CSS_COUNTER: case CSSPrimitiveValue::CSS_RECT: case CSSPrimitiveValue::CSS_RGBCOLOR: case CSSPrimitiveValue::CSS_PAIR: case CSSPrimitiveValue::CSS_UNICODE_RANGE: case CSSPrimitiveValue::CSS_PARSER_OPERATOR: case CSSPrimitiveValue::CSS_PARSER_HEXCOLOR: case CSSPrimitiveValue::CSS_PARSER_IDENTIFIER: case CSSPrimitiveValue::CSS_TURN: case CSSPrimitiveValue::CSS_COUNTER_NAME: case CSSPrimitiveValue::CSS_SHAPE: case CSSPrimitiveValue::CSS_QUAD: case CSSPrimitiveValue::CSS_CALC: case CSSPrimitiveValue::CSS_CALC_PERCENTAGE_WITH_NUMBER: case CSSPrimitiveValue::CSS_CALC_PERCENTAGE_WITH_LENGTH: #if ENABLE(CSS_VARIABLES) case CSSPrimitiveValue::CSS_VARIABLE_NAME: #endif case CSSPrimitiveValue::CSS_PROPERTY_ID: case CSSPrimitiveValue::CSS_VALUE_ID: #if ENABLE(DASHBOARD_SUPPORT) case CSSPrimitiveValue::CSS_DASHBOARD_REGION: #endif return false; }; ASSERT_NOT_REACHED(); return false; } static String buildCssText(const String& expression) { StringBuilder result; result.append("calc"); bool expressionHasSingleTerm = expression[0] != '('; if (expressionHasSingleTerm) result.append('('); result.append(expression); if (expressionHasSingleTerm) result.append(')'); return result.toString(); } String CSSCalcValue::customCssText() const { return buildCssText(m_expression->customCssText()); } bool CSSCalcValue::equals(const CSSCalcValue& other) const { return compareCSSValuePtr(m_expression, other.m_expression); } #if ENABLE(CSS_VARIABLES) String CSSCalcValue::customSerializeResolvingVariables(const HashMap& variables) const { return buildCssText(m_expression->serializeResolvingVariables(variables)); } bool CSSCalcValue::hasVariableReference() const { return m_expression->hasVariableReference(); } #endif double CSSCalcValue::clampToPermittedRange(double value) const { return m_nonNegative && value < 0 ? 0 : value; } double CSSCalcValue::doubleValue() const { return clampToPermittedRange(m_expression->doubleValue()); } double CSSCalcValue::computeLengthPx(const RenderStyle* currentStyle, const RenderStyle* rootStyle, double multiplier, bool computingFontSize) const { return clampToPermittedRange(m_expression->computeLengthPx(currentStyle, rootStyle, multiplier, computingFontSize)); } CSSCalcExpressionNode::~CSSCalcExpressionNode() { } class CSSCalcPrimitiveValue : public CSSCalcExpressionNode { WTF_MAKE_FAST_ALLOCATED; public: static PassRefPtr create(PassRefPtr value, bool isInteger) { return adoptRef(new CSSCalcPrimitiveValue(value, isInteger)); } static PassRefPtr create(double value, CSSPrimitiveValue::UnitTypes type, bool isInteger) { if (std::isnan(value) || std::isinf(value)) return 0; return adoptRef(new CSSCalcPrimitiveValue(CSSPrimitiveValue::create(value, type).get(), isInteger)); } virtual bool isZero() const { return !m_value->getDoubleValue(); } virtual String customCssText() const { return m_value->cssText(); } #if ENABLE(CSS_VARIABLES) virtual String serializeResolvingVariables(const HashMap& variables) const { return m_value->customSerializeResolvingVariables(variables); } virtual bool hasVariableReference() const { return m_value->isVariableName(); } #endif virtual PassOwnPtr toCalcValue(const RenderStyle* style, const RenderStyle* rootStyle, double zoom) const { switch (m_category) { case CalcNumber: return adoptPtr(new CalcExpressionNumber(m_value->getFloatValue())); case CalcLength: return adoptPtr(new CalcExpressionNumber(m_value->computeLength(style, rootStyle, zoom))); case CalcPercent: case CalcPercentLength: { CSSPrimitiveValue* primitiveValue = m_value.get(); return adoptPtr(new CalcExpressionLength(primitiveValue ? primitiveValue->convertToLength(style, rootStyle, zoom) : Length(Undefined))); } // Only types that could be part of a Length expression can be converted // to a CalcExpressionNode. CalcPercentNumber makes no sense as a Length. case CalcPercentNumber: case CalcAngle: case CalcTime: case CalcFrequency: #if ENABLE(CSS_VARIABLES) case CalcVariable: #endif case CalcOther: ASSERT_NOT_REACHED(); } ASSERT_NOT_REACHED(); return nullptr; } virtual double doubleValue() const { if (hasDoubleValue(primitiveType())) return m_value->getDoubleValue(); ASSERT_NOT_REACHED(); return 0; } virtual double computeLengthPx(const RenderStyle* currentStyle, const RenderStyle* rootStyle, double multiplier, bool computingFontSize) const { switch (m_category) { case CalcLength: return m_value->computeLength(currentStyle, rootStyle, multiplier, computingFontSize); case CalcPercent: case CalcNumber: return m_value->getDoubleValue(); case CalcPercentLength: case CalcPercentNumber: case CalcAngle: case CalcTime: case CalcFrequency: #if ENABLE(CSS_VARIABLES) case CalcVariable: #endif case CalcOther: ASSERT_NOT_REACHED(); break; } ASSERT_NOT_REACHED(); return 0; } virtual bool equals(const CSSCalcExpressionNode& other) const { if (type() != other.type()) return false; return compareCSSValuePtr(m_value, static_cast(other).m_value); } virtual Type type() const { return CssCalcPrimitiveValue; } virtual CSSPrimitiveValue::UnitTypes primitiveType() const { return CSSPrimitiveValue::UnitTypes(m_value->primitiveType()); } private: explicit CSSCalcPrimitiveValue(PassRefPtr value, bool isInteger) : CSSCalcExpressionNode(unitCategory((CSSPrimitiveValue::UnitTypes)value->primitiveType()), isInteger) , m_value(value) { } RefPtr m_value; }; static const CalculationCategory addSubtractResult[CalcAngle][CalcAngle] = { // CalcNumber CalcLength CalcPercent CalcPercentNumber CalcPercentLength { CalcNumber, CalcOther, CalcPercentNumber, CalcPercentNumber, CalcOther }, // CalcNumber { CalcOther, CalcLength, CalcPercentLength, CalcOther, CalcPercentLength }, // CalcLength { CalcPercentNumber, CalcPercentLength, CalcPercent, CalcPercentNumber, CalcPercentLength }, // CalcPercent { CalcPercentNumber, CalcOther, CalcPercentNumber, CalcPercentNumber, CalcOther }, // CalcPercentNumber { CalcOther, CalcPercentLength, CalcPercentLength, CalcOther, CalcPercentLength }, // CalcPercentLength }; static CalculationCategory determineCategory(const CSSCalcExpressionNode& leftSide, const CSSCalcExpressionNode& rightSide, CalcOperator op) { CalculationCategory leftCategory = leftSide.category(); CalculationCategory rightCategory = rightSide.category(); ASSERT(leftCategory < CalcOther); ASSERT(rightCategory < CalcOther); #if ENABLE(CSS_VARIABLES) if (leftCategory == CalcVariable || rightCategory == CalcVariable) return CalcVariable; #endif switch (op) { case CalcAdd: case CalcSubtract: if (leftCategory < CalcAngle && rightCategory < CalcAngle) return addSubtractResult[leftCategory][rightCategory]; if (leftCategory == rightCategory) return leftCategory; return CalcOther; case CalcMultiply: if (leftCategory != CalcNumber && rightCategory != CalcNumber) return CalcOther; return leftCategory == CalcNumber ? rightCategory : leftCategory; case CalcDivide: if (rightCategory != CalcNumber || rightSide.isZero()) return CalcOther; return leftCategory; } ASSERT_NOT_REACHED(); return CalcOther; } static bool isIntegerResult(const CSSCalcExpressionNode* leftSide, const CSSCalcExpressionNode* rightSide, CalcOperator op) { // Performs W3C spec's type checking for calc integers. // http://www.w3.org/TR/css3-values/#calc-type-checking return op != CalcDivide && leftSide->isInteger() && rightSide->isInteger(); } class CSSCalcBinaryOperation : public CSSCalcExpressionNode { public: static PassRefPtr create(PassRefPtr leftSide, PassRefPtr rightSide, CalcOperator op) { ASSERT(leftSide->category() < CalcOther); ASSERT(rightSide->category() < CalcOther); CalculationCategory newCategory = determineCategory(*leftSide, *rightSide, op); if (newCategory == CalcOther) return 0; return adoptRef(new CSSCalcBinaryOperation(leftSide, rightSide, op, newCategory)); } static PassRefPtr createSimplified(PassRefPtr leftSide, PassRefPtr rightSide, CalcOperator op) { CalculationCategory leftCategory = leftSide->category(); CalculationCategory rightCategory = rightSide->category(); ASSERT(leftCategory < CalcOther); ASSERT(rightCategory < CalcOther); bool isInteger = isIntegerResult(leftSide.get(), rightSide.get(), op); // Simplify numbers. if (leftCategory == CalcNumber && rightCategory == CalcNumber) { CSSPrimitiveValue::UnitTypes evaluationType = isInteger ? CSSPrimitiveValue::CSS_PARSER_INTEGER : CSSPrimitiveValue::CSS_NUMBER; return CSSCalcPrimitiveValue::create(evaluateOperator(leftSide->doubleValue(), rightSide->doubleValue(), op), evaluationType, isInteger); } // Simplify addition and subtraction between same types. if (op == CalcAdd || op == CalcSubtract) { if (leftCategory == rightSide->category()) { CSSPrimitiveValue::UnitTypes leftType = leftSide->primitiveType(); if (hasDoubleValue(leftType)) { CSSPrimitiveValue::UnitTypes rightType = rightSide->primitiveType(); if (leftType == rightType) return CSSCalcPrimitiveValue::create(evaluateOperator(leftSide->doubleValue(), rightSide->doubleValue(), op), leftType, isInteger); CSSPrimitiveValue::UnitCategory leftUnitCategory = CSSPrimitiveValue::unitCategory(leftType); if (leftUnitCategory != CSSPrimitiveValue::UOther && leftUnitCategory == CSSPrimitiveValue::unitCategory(rightType)) { CSSPrimitiveValue::UnitTypes canonicalType = CSSPrimitiveValue::canonicalUnitTypeForCategory(leftUnitCategory); if (canonicalType != CSSPrimitiveValue::CSS_UNKNOWN) { double leftValue = leftSide->doubleValue() * CSSPrimitiveValue::conversionToCanonicalUnitsScaleFactor(leftType); double rightValue = rightSide->doubleValue() * CSSPrimitiveValue::conversionToCanonicalUnitsScaleFactor(rightType); return CSSCalcPrimitiveValue::create(evaluateOperator(leftValue, rightValue, op), canonicalType, isInteger); } } } } } else { // Simplify multiplying or dividing by a number for simplifiable types. ASSERT(op == CalcMultiply || op == CalcDivide); CSSCalcExpressionNode* numberSide = getNumberSide(leftSide.get(), rightSide.get()); if (!numberSide) return create(leftSide, rightSide, op); if (numberSide == leftSide && op == CalcDivide) return 0; CSSCalcExpressionNode* otherSide = leftSide == numberSide ? rightSide.get() : leftSide.get(); double number = numberSide->doubleValue(); if (std::isnan(number) || std::isinf(number)) return 0; if (op == CalcDivide && !number) return 0; CSSPrimitiveValue::UnitTypes otherType = otherSide->primitiveType(); if (hasDoubleValue(otherType)) return CSSCalcPrimitiveValue::create(evaluateOperator(otherSide->doubleValue(), number, op), otherType, isInteger); } return create(leftSide, rightSide, op); } virtual bool isZero() const { return !doubleValue(); } virtual PassOwnPtr toCalcValue(const RenderStyle* style, const RenderStyle* rootStyle, double zoom) const { OwnPtr left(m_leftSide->toCalcValue(style, rootStyle, zoom)); if (!left) return nullptr; OwnPtr right(m_rightSide->toCalcValue(style, rootStyle, zoom)); if (!right) return nullptr; return adoptPtr(new CalcExpressionBinaryOperation(left.release(), right.release(), m_operator)); } virtual double doubleValue() const { return evaluate(m_leftSide->doubleValue(), m_rightSide->doubleValue()); } virtual double computeLengthPx(const RenderStyle* currentStyle, const RenderStyle* rootStyle, double multiplier, bool computingFontSize) const { const double leftValue = m_leftSide->computeLengthPx(currentStyle, rootStyle, multiplier, computingFontSize); const double rightValue = m_rightSide->computeLengthPx(currentStyle, rootStyle, multiplier, computingFontSize); return evaluate(leftValue, rightValue); } static String buildCssText(const String& leftExpression, const String& rightExpression, CalcOperator op) { StringBuilder result; result.append('('); result.append(leftExpression); result.append(' '); result.append(static_cast(op)); result.append(' '); result.append(rightExpression); result.append(')'); return result.toString(); } virtual String customCssText() const { return buildCssText(m_leftSide->customCssText(), m_rightSide->customCssText(), m_operator); } #if ENABLE(CSS_VARIABLES) virtual String serializeResolvingVariables(const HashMap& variables) const { return buildCssText(m_leftSide->serializeResolvingVariables(variables), m_rightSide->serializeResolvingVariables(variables), m_operator); } virtual bool hasVariableReference() const { return m_leftSide->hasVariableReference() || m_rightSide->hasVariableReference(); } #endif virtual bool equals(const CSSCalcExpressionNode& exp) const { if (type() != exp.type()) return false; const CSSCalcBinaryOperation& other = static_cast(exp); return compareCSSValuePtr(m_leftSide, other.m_leftSide) && compareCSSValuePtr(m_rightSide, other.m_rightSide) && m_operator == other.m_operator; } virtual Type type() const { return CssCalcBinaryOperation; } virtual CSSPrimitiveValue::UnitTypes primitiveType() const { switch (m_category) { case CalcNumber: ASSERT(m_leftSide->category() == CalcNumber && m_rightSide->category() == CalcNumber); if (m_isInteger) return CSSPrimitiveValue::CSS_PARSER_INTEGER; return CSSPrimitiveValue::CSS_NUMBER; case CalcLength: case CalcPercent: { if (m_leftSide->category() == CalcNumber) return m_rightSide->primitiveType(); if (m_rightSide->category() == CalcNumber) return m_leftSide->primitiveType(); CSSPrimitiveValue::UnitTypes leftType = m_leftSide->primitiveType(); if (leftType == m_rightSide->primitiveType()) return leftType; return CSSPrimitiveValue::CSS_UNKNOWN; } #if ENABLE(CSS_VARIABLES) case CalcVariable: return CSSPrimitiveValue::CSS_VARIABLE_NAME; #endif case CalcAngle: return CSSPrimitiveValue::CSS_DEG; case CalcTime: return CSSPrimitiveValue::CSS_MS; case CalcFrequency: return CSSPrimitiveValue::CSS_HZ; case CalcPercentLength: case CalcPercentNumber: case CalcOther: return CSSPrimitiveValue::CSS_UNKNOWN; } ASSERT_NOT_REACHED(); return CSSPrimitiveValue::CSS_UNKNOWN; } private: CSSCalcBinaryOperation(PassRefPtr leftSide, PassRefPtr rightSide, CalcOperator op, CalculationCategory category) : CSSCalcExpressionNode(category, isIntegerResult(leftSide.get(), rightSide.get(), op)) , m_leftSide(leftSide) , m_rightSide(rightSide) , m_operator(op) { } static CSSCalcExpressionNode* getNumberSide(CSSCalcExpressionNode* leftSide, CSSCalcExpressionNode* rightSide) { if (leftSide->category() == CalcNumber) return leftSide; if (rightSide->category() == CalcNumber) return rightSide; return 0; } double evaluate(double leftSide, double rightSide) const { return evaluateOperator(leftSide, rightSide, m_operator); } static double evaluateOperator(double leftValue, double rightValue, CalcOperator op) { switch (op) { case CalcAdd: return leftValue + rightValue; case CalcSubtract: return leftValue - rightValue; case CalcMultiply: return leftValue * rightValue; case CalcDivide: if (rightValue) return leftValue / rightValue; return std::numeric_limits::quiet_NaN(); } return 0; } const RefPtr m_leftSide; const RefPtr m_rightSide; const CalcOperator m_operator; }; static ParseState checkDepthAndIndex(int* depth, unsigned index, CSSParserValueList* tokens) { (*depth)++; if (*depth > maxExpressionDepth) return TooDeep; if (index >= tokens->size()) return NoMoreTokens; return OK; } class CSSCalcExpressionNodeParser { public: PassRefPtr parseCalc(CSSParserValueList* tokens) { unsigned index = 0; Value result; bool ok = parseValueExpression(tokens, 0, &index, &result); ASSERT_WITH_SECURITY_IMPLICATION(index <= tokens->size()); if (!ok || index != tokens->size()) return 0; return result.value; } private: struct Value { RefPtr value; }; char operatorValue(CSSParserValueList* tokens, unsigned index) { if (index >= tokens->size()) return 0; CSSParserValue* value = tokens->valueAt(index); if (value->unit != CSSParserValue::Operator) return 0; return value->iValue; } bool parseValue(CSSParserValueList* tokens, unsigned* index, Value* result) { CSSParserValue* parserValue = tokens->valueAt(*index); if (parserValue->unit == CSSParserValue::Operator || parserValue->unit == CSSParserValue::Function) return false; RefPtr value = parserValue->createCSSValue(); if (!value || !value->isPrimitiveValue()) return false; CSSPrimitiveValue* primitiveValue = toCSSPrimitiveValue(value.get()); result->value = CSSCalcPrimitiveValue::create(primitiveValue, parserValue->isInt); ++*index; return true; } bool parseValueTerm(CSSParserValueList* tokens, int depth, unsigned* index, Value* result) { if (checkDepthAndIndex(&depth, *index, tokens) != OK) return false; if (operatorValue(tokens, *index) == '(') { unsigned currentIndex = *index + 1; if (!parseValueExpression(tokens, depth, ¤tIndex, result)) return false; if (operatorValue(tokens, currentIndex) != ')') return false; *index = currentIndex + 1; return true; } return parseValue(tokens, index, result); } bool parseValueMultiplicativeExpression(CSSParserValueList* tokens, int depth, unsigned* index, Value* result) { if (checkDepthAndIndex(&depth, *index, tokens) != OK) return false; if (!parseValueTerm(tokens, depth, index, result)) return false; while (*index < tokens->size() - 1) { char operatorCharacter = operatorValue(tokens, *index); if (operatorCharacter != CalcMultiply && operatorCharacter != CalcDivide) break; ++*index; Value rhs; if (!parseValueTerm(tokens, depth, index, &rhs)) return false; result->value = CSSCalcBinaryOperation::createSimplified(result->value, rhs.value, static_cast(operatorCharacter)); if (!result->value) return false; } ASSERT_WITH_SECURITY_IMPLICATION(*index <= tokens->size()); return true; } bool parseAdditiveValueExpression(CSSParserValueList* tokens, int depth, unsigned* index, Value* result) { if (checkDepthAndIndex(&depth, *index, tokens) != OK) return false; if (!parseValueMultiplicativeExpression(tokens, depth, index, result)) return false; while (*index < tokens->size() - 1) { char operatorCharacter = operatorValue(tokens, *index); if (operatorCharacter != CalcAdd && operatorCharacter != CalcSubtract) break; ++*index; Value rhs; if (!parseValueMultiplicativeExpression(tokens, depth, index, &rhs)) return false; result->value = CSSCalcBinaryOperation::createSimplified(result->value, rhs.value, static_cast(operatorCharacter)); if (!result->value) return false; } ASSERT_WITH_SECURITY_IMPLICATION(*index <= tokens->size()); return true; } bool parseValueExpression(CSSParserValueList* tokens, int depth, unsigned* index, Value* result) { return parseAdditiveValueExpression(tokens, depth, index, result); } }; PassRefPtr CSSCalcValue::createExpressionNode(PassRefPtr value, bool isInteger) { return CSSCalcPrimitiveValue::create(value, isInteger); } PassRefPtr CSSCalcValue::createExpressionNode(PassRefPtr leftSide, PassRefPtr rightSide, CalcOperator op) { return CSSCalcBinaryOperation::create(leftSide, rightSide, op); } PassRefPtr CSSCalcValue::createExpressionNode(const CalcExpressionNode* node, const RenderStyle* style) { switch (node->type()) { case CalcExpressionNodeNumber: { float value = toCalcExpressionNumber(node)->value(); return createExpressionNode(CSSPrimitiveValue::create(value, CSSPrimitiveValue::CSS_NUMBER), value == trunc(value)); } case CalcExpressionNodeLength: return createExpressionNode(toCalcExpressionLength(node)->length(), style); case CalcExpressionNodeBinaryOperation: { const CalcExpressionBinaryOperation* binaryNode = toCalcExpressionBinaryOperation(node); return createExpressionNode(createExpressionNode(binaryNode->leftSide(), style), createExpressionNode(binaryNode->rightSide(), style), binaryNode->getOperator()); } case CalcExpressionNodeBlendLength: { // FIXME: (http://webkit.org/b/122036) Create a CSSCalcExpressionNode equivalent of CalcExpressionBlendLength. const CalcExpressionBlendLength* blendNode = toCalcExpressionBlendLength(node); const double progress = blendNode->progress(); const bool isInteger = !progress || (progress == 1); return createExpressionNode( createExpressionNode( createExpressionNode(blendNode->from(), style), createExpressionNode(CSSPrimitiveValue::create(1 - progress, CSSPrimitiveValue::CSS_NUMBER), isInteger), CalcMultiply), createExpressionNode( createExpressionNode(blendNode->to(), style), createExpressionNode(CSSPrimitiveValue::create(progress, CSSPrimitiveValue::CSS_NUMBER), isInteger), CalcMultiply), CalcAdd); } case CalcExpressionNodeUndefined: ASSERT_NOT_REACHED(); return 0; } ASSERT_NOT_REACHED(); return 0; } PassRefPtr CSSCalcValue::createExpressionNode(const Length& length, const RenderStyle* style) { switch (length.type()) { case Percent: case ViewportPercentageWidth: case ViewportPercentageHeight: case ViewportPercentageMin: case ViewportPercentageMax: case Fixed: return createExpressionNode(CSSPrimitiveValue::create(length, style), length.value() == trunc(length.value())); case Calculated: return createExpressionNode(length.calculationValue()->expression(), style); case Auto: case Intrinsic: case MinIntrinsic: case MinContent: case MaxContent: case FillAvailable: case FitContent: case Relative: case Undefined: ASSERT_NOT_REACHED(); return 0; } ASSERT_NOT_REACHED(); return 0; } PassRefPtr CSSCalcValue::create(CSSParserString name, CSSParserValueList* parserValueList, CalculationPermittedValueRange range) { CSSCalcExpressionNodeParser parser; RefPtr expression; if (equalIgnoringCase(name, "calc(") || equalIgnoringCase(name, "-webkit-calc(")) expression = parser.parseCalc(parserValueList); // FIXME: calc (http://webkit.org/b/16662) Add parsing for min and max here return expression ? adoptRef(new CSSCalcValue(expression, range)) : 0; } PassRefPtr CSSCalcValue::create(PassRefPtr expression, CalculationPermittedValueRange range) { return adoptRef(new CSSCalcValue(expression, range)); } } // namespace WebCore