/external/chromium_org/third_party/WebKit/Source/core/css/ |
BasicShapeFunctions.cpp | 85 const BasicShapeEllipse* ellipse = static_cast<const BasicShapeEllipse*>(basicShape); local 88 ellipseValue->setCenterX(valueForCenterCoordinate(pool, style, ellipse->centerX(), HORIZONTAL)); 89 ellipseValue->setCenterY(valueForCenterCoordinate(pool, style, ellipse->centerY(), VERTICAL)); 90 ellipseValue->setRadiusX(basicShapeRadiusToCSSValue(pool, style, ellipse->radiusX())); 91 ellipseValue->setRadiusY(basicShapeRadiusToCSSValue(pool, style, ellipse->radiusY())); 224 RefPtr<BasicShapeEllipse> ellipse = BasicShapeEllipse::create(); local 226 ellipse->setCenterX(convertToCenterCoordinate(state, ellipseValue->centerX())); 227 ellipse->setCenterY(convertToCenterCoordinate(state, ellipseValue->centerY())); 228 ellipse->setRadiusX(cssValueToBasicShapeRadius(state, ellipseValue->radiusX())); 229 ellipse->setRadiusY(cssValueToBasicShapeRadius(state, ellipseValue->radiusY())) [all...] |
/external/chromium_org/third_party/WebKit/Source/core/rendering/svg/ |
RenderSVGEllipse.cpp | 91 SVGEllipseElement& ellipse = toSVGEllipseElement(*element()); local 93 SVGLengthContext lengthContext(&ellipse); 94 m_radii = FloatSize(ellipse.rx()->currentValue()->value(lengthContext), ellipse.ry()->currentValue()->value(lengthContext)); 95 m_center = FloatPoint(ellipse.cx()->currentValue()->value(lengthContext), ellipse.cy()->currentValue()->value(lengthContext)); 131 // This works by checking if the point satisfies the ellipse equation, 150 // This works by checking if the point satisfies the ellipse equation.
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SVGPathData.cpp | 51 SVGEllipseElement* ellipse = toSVGEllipseElement(element); local 54 float rx = ellipse->rx()->currentValue()->value(lengthContext); 57 float ry = ellipse->ry()->currentValue()->value(lengthContext); 63 path.addEllipse(FloatRect(ellipse->cx()->currentValue()->value(lengthContext) - rx, ellipse->cy()->currentValue()->value(lengthContext) - ry, rx * 2, ry * 2));
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/external/chromium_org/third_party/WebKit/Source/core/html/canvas/ |
CanvasPathMethods.cpp | 142 * then the arc is the whole circumference of this ellipse, and the point at startAngle along this circle's circumference, 143 * measured in radians clockwise from the ellipse's semi-major axis, acts as both the start point and the end point. 151 * Otherwise, the arc is the path along the circumference of this ellipse from the start point to the end point, 153 * Since the points are on the ellipse, as opposed to being simply angles from zero, 195 * degenerateEllipse() handles a degenerated ellipse using several lines. 197 * Let's see a following example: line to ellipse to line. 204 * If radiusX becomes zero, the ellipse of the example is degenerated. 213 * Angles for P are 0.5Pi and 1.5Pi in the ellipse coordinates. 220 * Angles for P are 0 and Pi in the ellipse coordinates. 223 * NOTE: Before ellipse() calls this function, adjustEndAngle() is called, so endAngle - startAngle must be equal to or le (…) 278 void CanvasPathMethods::ellipse(float x, float y, float radiusX, float radiusY, float rotation, float startAngle, float endAngle, bool anticlockwise, ExceptionState& exceptionState) function in class:WebCore::CanvasPathMethods [all...] |
/external/chromium_org/third_party/WebKit/Source/core/rendering/shapes/ |
Shape.cpp | 120 const BasicShapeEllipse* ellipse = static_cast<const BasicShapeEllipse*>(basicShape); local 121 FloatPoint center = floatPointForCenterCoordinate(ellipse->centerX(), ellipse->centerY(), FloatSize(boxWidth, boxHeight)); 122 float radiusX = ellipse->floatValueForRadiusInBox(ellipse->radiusX(), center.x(), boxWidth); 123 float radiusY = ellipse->floatValueForRadiusInBox(ellipse->radiusY(), center.y(), boxHeight);
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/prebuilts/devtools/tools/lib/ |
jcommon-1.0.12.jar | |
/prebuilts/tools/common/jfreechart/ |
jcommon-1.0.12.jar | |
/prebuilts/tools/common/m2/repository/jfree/jcommon/1.0.12/ |
jcommon-1.0.12.jar | |