@Test
 /** Tests the Black volatility sensitivity (vega). */
 public void presentValueBlackNodeSensitivity() {
   final double shift = 1.0E-6;
   final PresentValueBlackSwaptionSensitivity pvbvs =
       METHOD_BLACK.presentValueBlackSensitivity(SWAPTION_LONG_REC, BLACK_MULTICURVES);
   final PresentValueBlackSwaptionSensitivity pvbns =
       BSSNC.calculateNodeSensitivities(pvbvs, BLACK);
   final double[] x =
       ((InterpolatedDoublesSurface) BLACK.getVolatilitySurface()).getXDataAsPrimitive();
   final double[] y =
       ((InterpolatedDoublesSurface) BLACK.getVolatilitySurface()).getYDataAsPrimitive();
   for (int loopindex = 0; loopindex < x.length; loopindex++) {
     final BlackFlatSwaptionParameters BlackP =
         BlackDataSets.createBlackSwaptionEUR6Shift(loopindex, shift);
     final BlackSwaptionFlatProviderDiscount curvesBlackP =
         new BlackSwaptionFlatProviderDiscount(MULTICURVES, BlackP);
     final MultipleCurrencyAmount pvP = METHOD_BLACK.presentValue(SWAPTION_LONG_REC, curvesBlackP);
     final BlackFlatSwaptionParameters BlackM =
         BlackDataSets.createBlackSwaptionEUR6Shift(loopindex, -shift);
     final BlackSwaptionFlatProviderDiscount curvesBlackM =
         new BlackSwaptionFlatProviderDiscount(MULTICURVES, BlackM);
     final MultipleCurrencyAmount pvM = METHOD_BLACK.presentValue(SWAPTION_LONG_REC, curvesBlackM);
     assertEquals(
         "Swaption Black method: present value volatility sensitivity",
         (pvP.getAmount(EUR) - pvM.getAmount(EUR)) / (2 * shift),
         pvbns.getSensitivity().getMap().get(new DoublesPair(x[loopindex], y[loopindex])),
         TOLERANCE_PV_DELTA);
   }
 }
 @Test
 public void presentValue() {
   final MultipleCurrencyAmount pvMethod =
       METHOD_BLACK.presentValue(SWAPTION_LONG_REC, BLACK_MULTICURVES);
   final double forward = SWAPTION_LONG_REC.getUnderlyingSwap().accept(PRDC, MULTICURVES);
   final double pvbp =
       METHOD_SWAP.presentValueBasisPoint(SWAPTION_LONG_REC.getUnderlyingSwap(), MULTICURVES);
   final double volatility =
       BLACK.getVolatility(
           SWAPTION_LONG_REC.getTimeToExpiry(), SWAPTION_LONG_REC.getMaturityTime());
   final BlackPriceFunction blackFunction = new BlackPriceFunction();
   final BlackFunctionData dataBlack = new BlackFunctionData(forward, pvbp, volatility);
   final Function1D<BlackFunctionData, Double> func =
       blackFunction.getPriceFunction(SWAPTION_LONG_REC);
   final double pvExpected = func.evaluate(dataBlack);
   assertEquals(
       "Swaption Black method: present value", pvExpected, pvMethod.getAmount(EUR), TOLERANCE_PV);
 }