@Override protected Object propertyGet(Bean bean, String propertyName, boolean quiet) { switch (propertyName.hashCode()) { case -731183871: // seasonalityMonthOnMonth return ((SeasonalityDefinition) bean).getSeasonalityMonthOnMonth(); case -1002343865: // adjustmentType return ((SeasonalityDefinition) bean).getAdjustmentType(); } return super.propertyGet(bean, propertyName, quiet); }
public void test_builder1() { SeasonalityDefinition test = SeasonalityDefinition.of(SEASONALITY_ADDITIVE, ADDITIVE); assertEquals(test.getSeasonalityMonthOnMonth(), SEASONALITY_ADDITIVE); assertEquals(test.getAdjustmentType(), ADDITIVE); }
public void test_of() { SeasonalityDefinition test = SeasonalityDefinition.of(SEASONALITY_ADDITIVE, ADDITIVE); assertEquals(test.getSeasonalityMonthOnMonth(), SEASONALITY_ADDITIVE); assertEquals(test.getAdjustmentType(), ADDITIVE); }
public void test_loadSeasonalityDefinition() { Map<CurveName, SeasonalityDefinition> defns = SeasonalityDefinitionCsvLoader.loadSeasonalityDefinitions(ResourceLocator.of(GROUPS_1)); assertEquals(defns.size(), 1); SeasonalityDefinition defn = defns.get(CurveName.of("USD-CPI")); assertEquals(defn.getAdjustmentType(), ShiftType.SCALED); assertEquals(defn.getSeasonalityMonthOnMonth().size(), 12); }
public void test_bind_no_seasonality() { RatesCurveGroupDefinition test = RatesCurveGroupDefinition.builder() .name(CurveGroupName.of("Test")) .addCurve(CURVE_DEFN1, GBP, GBP_LIBOR_1M, GBP_LIBOR_3M) .addForwardCurve(CURVE_DEFN_I, GB_RPI) .build(); LocalDate valuationDate = LocalDate.of(2015, 11, 10); LocalDate lastFixingDate = LocalDate.of(2015, 10, 31); LocalDate otherFixingDate = LocalDate.of(2015, 9, 30); double lastFixingValue = 234.56; Map<Index, LocalDateDoubleTimeSeries> map = ImmutableMap.of(GB_RPI, LocalDateDoubleTimeSeries.builder() .put(lastFixingDate, 234.56).put(otherFixingDate, lastFixingValue - 1).build()); RatesCurveGroupDefinition testBound = test.bindTimeSeries(valuationDate, map); List<CurveDefinition> list = testBound.getCurveDefinitions(); assertEquals(list.size(), 2); assertTrue(list.get(0) instanceof InterpolatedNodalCurveDefinition); assertTrue(list.get(1) instanceof InflationNodalCurveDefinition); InflationNodalCurveDefinition seasonDef = (InflationNodalCurveDefinition) list.get(1); assertEquals(seasonDef.getCurveWithoutFixingDefinition(), CURVE_DEFN_I); assertEquals(seasonDef.getLastFixingMonth(), YearMonth.from(lastFixingDate)); assertEquals(seasonDef.getLastFixingValue(), lastFixingValue); assertEquals(seasonDef.getName(), CURVE_NAME_I); assertEquals(seasonDef.getYValueType(), ValueType.PRICE_INDEX); // Check the default assertTrue(seasonDef.getSeasonalityDefinition().getSeasonalityMonthOnMonth() .equalWithTolerance(DoubleArray.filled(12, 1d), 1.0E-10)); assertEquals(seasonDef.getSeasonalityDefinition().getAdjustmentType(), ShiftType.SCALED); }
int lastMonthIndex = lastMonth.getMonth().getValue() - 1; seasonalityCompoundedArray[(int) ((nbMonth + 12 + 1) % 12)] = seasonalityDefinition.getSeasonalityMonthOnMonth().get(lastMonthIndex % 12); for (int i = 1; i < 12; i++) { int j = (int) ((nbMonth + 12 + 1 + i) % 12); seasonalityCompoundedArray[j] = seasonalityDefinition.getAdjustmentType().applyShift( seasonalityCompoundedArray[(j - 1 + 12) % 12], seasonalityDefinition.getSeasonalityMonthOnMonth().get((lastMonthIndex + i) % 12));