334         maControlPointB(rBezier.maControlPointB)  in B2DCubicBezier()
346         maControlPointB(rEnd)  in B2DCubicBezier()
354         maControlPointB(rControlPointB)  in B2DCubicBezier()
368         maControlPointB = rBezier.maControlPointB;  in operator =()
380             && maControlPointB == rBezier.maControlPointB  in operator ==()
390             || maControlPointB != rBezier.maControlPointB  in operator !=()
400             && maControlPointB.equal(rBezier.maControlPointB)  in equal()
407         if(maControlPointA != maStartPoint || maControlPointB != maEndPoint)  in isBezier()
417         if(maControlPointA != maStartPoint || maControlPointB != maEndPoint)  in testAndSolveTrivialBezier()
427                 const B2DVector aVecB(maControlPointB - maEndPoint);  in testAndSolveTrivialBezier()
493                     maControlPointB = maEndPoint;  in testAndSolveTrivialBezier()
550         const B2DVector aVectorB(maEndPoint - maControlPointB);  in getControlPolygonLength()
554             const B2DVector aTop(maControlPointB - maControlPointA);  in getControlPolygonLength()
568 …ImpSubDivAngleStart(maStartPoint, maControlPointA, maControlPointB, maEndPoint, rTarget, fAngleBou…  in adaptiveSubdivideByAngle()
651             ImpSubDivDistance(maStartPoint, maControlPointA, maControlPointB, maEndPoint, rTarget,  in adaptiveSubdivideByDistance()
667             const B2DPoint aS1C(interpolate(maControlPointA, maControlPointB, t));  in interpolatePoint()
668             const B2DPoint aS1R(interpolate(maControlPointB, maEndPoint, t));  in interpolatePoint()
796             const B2DPoint aS1C(interpolate(maControlPointA, maControlPointB, t));  in split()
797             const B2DPoint aS1R(interpolate(maControlPointB, maEndPoint, t));  in split()
917         aRetval.expand(maControlPointB);  in getRange()
971         const B2DPoint aControlDiff( maControlPointA - maControlPointB );  in getAllExtremumPositions()
1042 …const double fA = (3 * (maControlPointA.getX() - maControlPointB.getX()) + aRelativeEndPoint.getX(…  in getMaxDistancePositions()
1043 …- (3 * (maControlPointA.getY() - maControlPointB.getY()) + aRelativeEndPoint.getY()) * aRelativeEn…  in getMaxDistancePositions()
1044 …const double fB = (maControlPointB.getX() - 2 * maControlPointA.getX() + maStartPoint.getX()) * aR…  in getMaxDistancePositions()
1045 …- (maControlPointB.getY() - 2 * maControlPointA.getY() + maStartPoint.getY()) * aRelativeEndPoint.…  in getMaxDistancePositions()