InterpolationValue
CSSPositionAxisListInterpolationType::convertPositionAxisCSSValue(
    const CSSValue& value) {
  if (value.isValuePair()) {
    const CSSValuePair& pair = toCSSValuePair(value);
    InterpolationValue result =
        LengthInterpolationFunctions::maybeConvertCSSValue(pair.second());
    CSSValueID side = toCSSIdentifierValue(pair.first()).getValueID();
    if (side == CSSValueRight || side == CSSValueBottom)
      LengthInterpolationFunctions::subtractFromOneHundredPercent(result);
    return result;
  }

  if (value.isPrimitiveValue())
    return LengthInterpolationFunctions::maybeConvertCSSValue(value);

  if (!value.isIdentifierValue())
    return nullptr;

  const CSSIdentifierValue& ident = toCSSIdentifierValue(value);
  switch (ident.getValueID()) {
    case CSSValueLeft:
    case CSSValueTop:
      return LengthInterpolationFunctions::createInterpolablePercent(0);
    case CSSValueRight:
    case CSSValueBottom:
      return LengthInterpolationFunctions::createInterpolablePercent(100);
    case CSSValueCenter:
      return LengthInterpolationFunctions::createInterpolablePercent(50);
    default:
      NOTREACHED();
      return nullptr;
  }
}
Exemplo n.º 2
0
void CSSMatrix::setMatrixValue(const String& string,
                               ExceptionState& exceptionState) {
  if (string.isEmpty())
    return;

  if (const CSSValue* value =
          CSSParser::parseSingleValue(CSSPropertyTransform, string)) {
    // Check for a "none" transform. In these cases we can use the default
    // identity matrix.
    if (value->isIdentifierValue() &&
        (toCSSIdentifierValue(value))->getValueID() == CSSValueNone)
      return;

    DEFINE_STATIC_REF(ComputedStyle, initialStyle, createInitialStyle());
    TransformOperations operations =
        TransformBuilder::createTransformOperations(
            *value, CSSToLengthConversionData(initialStyle, initialStyle,
                                              LayoutViewItem(nullptr), 1.0f));

    // Convert transform operations to a TransformationMatrix. This can fail
    // if a param has a percentage ('%')
    if (operations.dependsOnBoxSize())
      exceptionState.throwDOMException(SyntaxError,
                                       "The transformation depends on the box "
                                       "size, which is not supported.");
    m_matrix = TransformationMatrix::create();
    operations.apply(FloatSize(0, 0), *m_matrix);
  } else {  // There is something there but parsing failed.
    exceptionState.throwDOMException(SyntaxError,
                                     "Failed to parse '" + string + "'.");
  }
}
Exemplo n.º 3
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InterpolationValue CSSFilterListInterpolationType::maybeConvertValue(
    const CSSValue& value,
    const StyleResolverState&,
    ConversionCheckers&) const {
  if (value.isIdentifierValue() &&
      toCSSIdentifierValue(value).getValueID() == CSSValueNone)
    return InterpolationValue(InterpolableList::create(0),
                              NonInterpolableList::create());

  if (!value.isBaseValueList())
    return nullptr;

  const CSSValueList& list = toCSSValueList(value);
  size_t length = list.length();
  std::unique_ptr<InterpolableList> interpolableList =
      InterpolableList::create(length);
  Vector<RefPtr<NonInterpolableValue>> nonInterpolableValues(length);
  for (size_t i = 0; i < length; i++) {
    InterpolationValue itemResult =
        FilterInterpolationFunctions::maybeConvertCSSFilter(list.item(i));
    if (!itemResult)
      return nullptr;
    interpolableList->set(i, std::move(itemResult.interpolableValue));
    nonInterpolableValues[i] = itemResult.nonInterpolableValue.release();
  }
  return InterpolationValue(
      std::move(interpolableList),
      NonInterpolableList::create(std::move(nonInterpolableValues)));
}
Exemplo n.º 4
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bool propertyMissingOrEqualToNone(StylePropertySet* style,
                                  CSSPropertyID propertyID) {
  if (!style)
    return false;
  const CSSValue* value = style->getPropertyCSSValue(propertyID);
  if (!value)
    return true;
  if (!value->isIdentifierValue())
    return false;
  return toCSSIdentifierValue(value)->getValueID() == CSSValueNone;
}
Exemplo n.º 5
0
static BasicShapeCenterCoordinate convertToCenterCoordinate(
    const StyleResolverState& state,
    CSSValue* value) {
  BasicShapeCenterCoordinate::Direction direction;
  Length offset = Length(0, Fixed);

  CSSValueID keyword = CSSValueTop;
  if (!value) {
    keyword = CSSValueCenter;
  } else if (value->isIdentifierValue()) {
    keyword = toCSSIdentifierValue(value)->getValueID();
  } else if (value->isValuePair()) {
    keyword = toCSSIdentifierValue(toCSSValuePair(value)->first()).getValueID();
    offset = convertToLength(
        state, &toCSSPrimitiveValue(toCSSValuePair(value)->second()));
  } else {
    offset = convertToLength(state, toCSSPrimitiveValue(value));
  }

  switch (keyword) {
    case CSSValueTop:
    case CSSValueLeft:
      direction = BasicShapeCenterCoordinate::TopLeft;
      break;
    case CSSValueRight:
    case CSSValueBottom:
      direction = BasicShapeCenterCoordinate::BottomRight;
      break;
    case CSSValueCenter:
      direction = BasicShapeCenterCoordinate::TopLeft;
      offset = Length(50, Percent);
      break;
    default:
      ASSERT_NOT_REACHED();
      direction = BasicShapeCenterCoordinate::TopLeft;
      break;
  }

  return BasicShapeCenterCoordinate(direction, offset);
}
InterpolationValue SizeInterpolationFunctions::maybeConvertCSSSizeSide(
    const CSSValue& value,
    bool convertWidth) {
  if (value.isValuePair()) {
    const CSSValuePair& pair = toCSSValuePair(value);
    const CSSValue& side = convertWidth ? pair.first() : pair.second();
    if (side.isIdentifierValue() &&
        toCSSIdentifierValue(side).getValueID() == CSSValueAuto)
      return convertKeyword(CSSValueAuto);
    return wrapConvertedLength(
        LengthInterpolationFunctions::maybeConvertCSSValue(side));
  }

  if (!value.isIdentifierValue() && !value.isPrimitiveValue())
    return nullptr;
  if (value.isIdentifierValue())
    return convertKeyword(toCSSIdentifierValue(value).getValueID());

  // A single length is equivalent to "<length> auto".
  if (convertWidth)
    return wrapConvertedLength(
        LengthInterpolationFunctions::maybeConvertCSSValue(value));
  return convertKeyword(CSSValueAuto);
}
Exemplo n.º 7
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static BasicShapeRadius cssValueToBasicShapeRadius(
    const StyleResolverState& state,
    const CSSValue* radius) {
  if (!radius)
    return BasicShapeRadius(BasicShapeRadius::ClosestSide);

  if (radius->isIdentifierValue()) {
    switch (toCSSIdentifierValue(radius)->getValueID()) {
      case CSSValueClosestSide:
        return BasicShapeRadius(BasicShapeRadius::ClosestSide);
      case CSSValueFarthestSide:
        return BasicShapeRadius(BasicShapeRadius::FarthestSide);
      default:
        ASSERT_NOT_REACHED();
        break;
    }
  }

  return BasicShapeRadius(convertToLength(state, toCSSPrimitiveValue(radius)));
}
Exemplo n.º 8
0
TransformOperations TransformBuilder::createTransformOperations(
    const CSSValue& inValue,
    const CSSToLengthConversionData& conversionData) {
  TransformOperations operations;
  if (!inValue.isValueList()) {
    DCHECK_EQ(toCSSIdentifierValue(inValue).getValueID(), CSSValueNone);
    return operations;
  }

  float zoomFactor = conversionData.zoom();
  for (auto& value : toCSSValueList(inValue)) {
    const CSSFunctionValue* transformValue = toCSSFunctionValue(value.get());
    TransformOperation::OperationType transformType =
        getTransformOperationType(transformValue->functionType());

    const CSSPrimitiveValue& firstValue =
        toCSSPrimitiveValue(transformValue->item(0));

    switch (transformType) {
      case TransformOperation::Scale:
      case TransformOperation::ScaleX:
      case TransformOperation::ScaleY: {
        double sx = 1.0;
        double sy = 1.0;
        if (transformType == TransformOperation::ScaleY) {
          sy = firstValue.getDoubleValue();
        } else {
          sx = firstValue.getDoubleValue();
          if (transformType != TransformOperation::ScaleX) {
            if (transformValue->length() > 1) {
              const CSSPrimitiveValue& secondValue =
                  toCSSPrimitiveValue(transformValue->item(1));
              sy = secondValue.getDoubleValue();
            } else {
              sy = sx;
            }
          }
        }
        operations.operations().append(
            ScaleTransformOperation::create(sx, sy, 1.0, transformType));
        break;
      }
      case TransformOperation::ScaleZ:
      case TransformOperation::Scale3D: {
        double sx = 1.0;
        double sy = 1.0;
        double sz = 1.0;
        if (transformType == TransformOperation::ScaleZ) {
          sz = firstValue.getDoubleValue();
        } else {
          sx = firstValue.getDoubleValue();
          sy = toCSSPrimitiveValue(transformValue->item(1)).getDoubleValue();
          sz = toCSSPrimitiveValue(transformValue->item(2)).getDoubleValue();
        }
        operations.operations().append(
            ScaleTransformOperation::create(sx, sy, sz, transformType));
        break;
      }
      case TransformOperation::Translate:
      case TransformOperation::TranslateX:
      case TransformOperation::TranslateY: {
        Length tx = Length(0, Fixed);
        Length ty = Length(0, Fixed);
        if (transformType == TransformOperation::TranslateY)
          ty = convertToFloatLength(firstValue, conversionData);
        else {
          tx = convertToFloatLength(firstValue, conversionData);
          if (transformType != TransformOperation::TranslateX) {
            if (transformValue->length() > 1) {
              const CSSPrimitiveValue& secondValue =
                  toCSSPrimitiveValue(transformValue->item(1));
              ty = convertToFloatLength(secondValue, conversionData);
            }
          }
        }

        operations.operations().append(
            TranslateTransformOperation::create(tx, ty, 0, transformType));
        break;
      }
      case TransformOperation::TranslateZ:
      case TransformOperation::Translate3D: {
        Length tx = Length(0, Fixed);
        Length ty = Length(0, Fixed);
        double tz = 0;
        if (transformType == TransformOperation::TranslateZ) {
          tz = firstValue.computeLength<double>(conversionData);
        } else {
          tx = convertToFloatLength(firstValue, conversionData);
          ty = convertToFloatLength(
              toCSSPrimitiveValue(transformValue->item(1)), conversionData);
          tz = toCSSPrimitiveValue(transformValue->item(2))
                   .computeLength<double>(conversionData);
        }

        operations.operations().append(
            TranslateTransformOperation::create(tx, ty, tz, transformType));
        break;
      }
      case TransformOperation::RotateX:
      case TransformOperation::RotateY:
      case TransformOperation::RotateZ: {
        double angle = firstValue.computeDegrees();
        if (transformValue->length() == 1) {
          double x = transformType == TransformOperation::RotateX;
          double y = transformType == TransformOperation::RotateY;
          double z = transformType == TransformOperation::RotateZ;
          operations.operations().append(
              RotateTransformOperation::create(x, y, z, angle, transformType));
        } else {
          // For SVG 'transform' attributes we generate 3-argument rotate()
          // functions.
          DCHECK_EQ(transformValue->length(), 3u);
          const CSSPrimitiveValue& secondValue =
              toCSSPrimitiveValue(transformValue->item(1));
          const CSSPrimitiveValue& thirdValue =
              toCSSPrimitiveValue(transformValue->item(2));
          operations.operations().append(
              RotateAroundOriginTransformOperation::create(
                  angle, secondValue.computeLength<double>(conversionData),
                  thirdValue.computeLength<double>(conversionData)));
        }
        break;
      }
      case TransformOperation::Rotate3D: {
        const CSSPrimitiveValue& secondValue =
            toCSSPrimitiveValue(transformValue->item(1));
        const CSSPrimitiveValue& thirdValue =
            toCSSPrimitiveValue(transformValue->item(2));
        const CSSPrimitiveValue& fourthValue =
            toCSSPrimitiveValue(transformValue->item(3));
        double x = firstValue.getDoubleValue();
        double y = secondValue.getDoubleValue();
        double z = thirdValue.getDoubleValue();
        double angle = fourthValue.computeDegrees();
        operations.operations().append(
            RotateTransformOperation::create(x, y, z, angle, transformType));
        break;
      }
      case TransformOperation::Skew:
      case TransformOperation::SkewX:
      case TransformOperation::SkewY: {
        double angleX = 0;
        double angleY = 0;
        double angle = firstValue.computeDegrees();
        if (transformType == TransformOperation::SkewY)
          angleY = angle;
        else {
          angleX = angle;
          if (transformType == TransformOperation::Skew) {
            if (transformValue->length() > 1) {
              const CSSPrimitiveValue& secondValue =
                  toCSSPrimitiveValue(transformValue->item(1));
              angleY = secondValue.computeDegrees();
            }
          }
        }
        operations.operations().append(
            SkewTransformOperation::create(angleX, angleY, transformType));
        break;
      }
      case TransformOperation::Matrix: {
        double a = firstValue.getDoubleValue();
        double b =
            toCSSPrimitiveValue(transformValue->item(1)).getDoubleValue();
        double c =
            toCSSPrimitiveValue(transformValue->item(2)).getDoubleValue();
        double d =
            toCSSPrimitiveValue(transformValue->item(3)).getDoubleValue();
        double e =
            zoomFactor *
            toCSSPrimitiveValue(transformValue->item(4)).getDoubleValue();
        double f =
            zoomFactor *
            toCSSPrimitiveValue(transformValue->item(5)).getDoubleValue();
        operations.operations().append(
            MatrixTransformOperation::create(a, b, c, d, e, f));
        break;
      }
      case TransformOperation::Matrix3D: {
        TransformationMatrix matrix(
            toCSSPrimitiveValue(transformValue->item(0)).getDoubleValue(),
            toCSSPrimitiveValue(transformValue->item(1)).getDoubleValue(),
            toCSSPrimitiveValue(transformValue->item(2)).getDoubleValue(),
            toCSSPrimitiveValue(transformValue->item(3)).getDoubleValue(),
            toCSSPrimitiveValue(transformValue->item(4)).getDoubleValue(),
            toCSSPrimitiveValue(transformValue->item(5)).getDoubleValue(),
            toCSSPrimitiveValue(transformValue->item(6)).getDoubleValue(),
            toCSSPrimitiveValue(transformValue->item(7)).getDoubleValue(),
            toCSSPrimitiveValue(transformValue->item(8)).getDoubleValue(),
            toCSSPrimitiveValue(transformValue->item(9)).getDoubleValue(),
            toCSSPrimitiveValue(transformValue->item(10)).getDoubleValue(),
            toCSSPrimitiveValue(transformValue->item(11)).getDoubleValue(),
            toCSSPrimitiveValue(transformValue->item(12)).getDoubleValue(),
            toCSSPrimitiveValue(transformValue->item(13)).getDoubleValue(),
            toCSSPrimitiveValue(transformValue->item(14)).getDoubleValue(),
            toCSSPrimitiveValue(transformValue->item(15)).getDoubleValue());
        matrix.zoom(zoomFactor);
        operations.operations().append(
            Matrix3DTransformOperation::create(matrix));
        break;
      }
      case TransformOperation::Perspective: {
        double p = firstValue.computeLength<double>(conversionData);
        ASSERT(p >= 0);
        operations.operations().append(
            PerspectiveTransformOperation::create(p));
        break;
      }
      default:
        ASSERT_NOT_REACHED();
        break;
    }
  }
  return operations;
}
Exemplo n.º 9
0
static bool isCSSAuto(const CSSValue& value) {
  return value.isIdentifierValue() &&
         toCSSIdentifierValue(value).getValueID() == CSSValueAuto;
}
Exemplo n.º 10
0
void CSSValue::finalizeGarbageCollectedObject() {
  switch (getClassType()) {
    case BasicShapeCircleClass:
      toCSSBasicShapeCircleValue(this)->~CSSBasicShapeCircleValue();
      return;
    case BasicShapeEllipseClass:
      toCSSBasicShapeEllipseValue(this)->~CSSBasicShapeEllipseValue();
      return;
    case BasicShapePolygonClass:
      toCSSBasicShapePolygonValue(this)->~CSSBasicShapePolygonValue();
      return;
    case BasicShapeInsetClass:
      toCSSBasicShapeInsetValue(this)->~CSSBasicShapeInsetValue();
      return;
    case BorderImageSliceClass:
      toCSSBorderImageSliceValue(this)->~CSSBorderImageSliceValue();
      return;
    case ColorClass:
      toCSSColorValue(this)->~CSSColorValue();
      return;
    case CounterClass:
      toCSSCounterValue(this)->~CSSCounterValue();
      return;
    case CursorImageClass:
      toCSSCursorImageValue(this)->~CSSCursorImageValue();
      return;
    case FontFaceSrcClass:
      toCSSFontFaceSrcValue(this)->~CSSFontFaceSrcValue();
      return;
    case FontFamilyClass:
      toCSSFontFamilyValue(this)->~CSSFontFamilyValue();
      return;
    case FontFeatureClass:
      toCSSFontFeatureValue(this)->~CSSFontFeatureValue();
      return;
    case FunctionClass:
      toCSSFunctionValue(this)->~CSSFunctionValue();
      return;
    case LinearGradientClass:
      toCSSLinearGradientValue(this)->~CSSLinearGradientValue();
      return;
    case RadialGradientClass:
      toCSSRadialGradientValue(this)->~CSSRadialGradientValue();
      return;
    case CrossfadeClass:
      toCSSCrossfadeValue(this)->~CSSCrossfadeValue();
      return;
    case PaintClass:
      toCSSPaintValue(this)->~CSSPaintValue();
      return;
    case CustomIdentClass:
      toCSSCustomIdentValue(this)->~CSSCustomIdentValue();
      return;
    case ImageClass:
      toCSSImageValue(this)->~CSSImageValue();
      return;
    case InheritedClass:
      toCSSInheritedValue(this)->~CSSInheritedValue();
      return;
    case InitialClass:
      toCSSInitialValue(this)->~CSSInitialValue();
      return;
    case UnsetClass:
      toCSSUnsetValue(this)->~CSSUnsetValue();
      return;
    case GridAutoRepeatClass:
      toCSSGridAutoRepeatValue(this)->~CSSGridAutoRepeatValue();
      return;
    case GridLineNamesClass:
      toCSSGridLineNamesValue(this)->~CSSGridLineNamesValue();
      return;
    case GridTemplateAreasClass:
      toCSSGridTemplateAreasValue(this)->~CSSGridTemplateAreasValue();
      return;
    case PathClass:
      toCSSPathValue(this)->~CSSPathValue();
      return;
    case PrimitiveClass:
      toCSSPrimitiveValue(this)->~CSSPrimitiveValue();
      return;
    case IdentifierClass:
      toCSSIdentifierValue(this)->~CSSIdentifierValue();
      return;
    case QuadClass:
      toCSSQuadValue(this)->~CSSQuadValue();
      return;
    case ReflectClass:
      toCSSReflectValue(this)->~CSSReflectValue();
      return;
    case ShadowClass:
      toCSSShadowValue(this)->~CSSShadowValue();
      return;
    case StringClass:
      toCSSStringValue(this)->~CSSStringValue();
      return;
    case CubicBezierTimingFunctionClass:
      toCSSCubicBezierTimingFunctionValue(this)
          ->~CSSCubicBezierTimingFunctionValue();
      return;
    case StepsTimingFunctionClass:
      toCSSStepsTimingFunctionValue(this)->~CSSStepsTimingFunctionValue();
      return;
    case UnicodeRangeClass:
      toCSSUnicodeRangeValue(this)->~CSSUnicodeRangeValue();
      return;
    case URIClass:
      toCSSURIValue(this)->~CSSURIValue();
      return;
    case ValueListClass:
      toCSSValueList(this)->~CSSValueList();
      return;
    case ValuePairClass:
      toCSSValuePair(this)->~CSSValuePair();
      return;
    case ImageSetClass:
      toCSSImageSetValue(this)->~CSSImageSetValue();
      return;
    case CSSContentDistributionClass:
      toCSSContentDistributionValue(this)->~CSSContentDistributionValue();
      return;
    case VariableReferenceClass:
      toCSSVariableReferenceValue(this)->~CSSVariableReferenceValue();
      return;
    case CustomPropertyDeclarationClass:
      toCSSCustomPropertyDeclaration(this)->~CSSCustomPropertyDeclaration();
      return;
    case PendingSubstitutionValueClass:
      toCSSPendingSubstitutionValue(this)->~CSSPendingSubstitutionValue();
      return;
  }
  ASSERT_NOT_REACHED();
}