static CalibrationDiscountingSmithWilsonTest() { IBOR_INDICES.Add(GBP_LIBOR_6M); DSC_NAMES[CURVE_NAME] = GBP; IDX_NAMES[CURVE_NAME] = IBOR_INDICES; for (int i = 0; i < FWD6_NB_NODES; i++) { ALL_NODES[i] = FixedIborSwapCurveNode.of(FixedIborSwapTemplate.of(Period.ZERO, Tenor.of(FWD6_IRS_TENORS[i]), GBP_FIXED_6M_LIBOR_6M), QuoteId.of(StandardId.of(SCHEME, FWD6_ID_VALUE[i]))); NODE_TIMES[i] = CURVE_DC.relativeYearFraction(VAL_DATE, ALL_NODES[i].date(VAL_DATE, REF_DATA)); } ImmutableMarketDataBuilder builder = ImmutableMarketData.builder(VAL_DATE); for (int i = 0; i < FWD6_NB_NODES; i++) { builder.addValue(QuoteId.of(StandardId.of(SCHEME, FWD6_ID_VALUE[i])), FWD6_MARKET_QUOTES[i]); } ALL_QUOTES = builder.build(); IList <CurveNode[]> groupNodes = new List <CurveNode[]>(); groupNodes.Add(ALL_NODES); CURVES_NODES.Add(groupNodes); IList <CurveMetadata> groupMetadata = new List <CurveMetadata>(); groupMetadata.Add(DefaultCurveMetadata.builder().curveName(CURVE_NAME).xValueType(ValueType.YEAR_FRACTION).yValueType(ValueType.DISCOUNT_FACTOR).dayCount(CURVE_DC).build()); CURVES_METADATA.Add(groupMetadata); }
static CalibrationDiscountingSimple1Test() { IBOR_INDICES.Add(USD_LIBOR_3M); DSC_NAMES[ALL_CURVE_NAME] = USD; IDX_NAMES[ALL_CURVE_NAME] = IBOR_INDICES; ALL_NODES[0] = IborFixingDepositCurveNode.of(IborFixingDepositTemplate.of(USD_LIBOR_3M), QuoteId.of(StandardId.of(SCHEME, FWD3_ID_VALUE[0]))); for (int i = 0; i < FWD3_NB_FRA_NODES; i++) { ALL_NODES[i + 1] = FraCurveNode.of(FraTemplate.of(FWD3_FRA_TENORS[i], USD_LIBOR_3M), QuoteId.of(StandardId.of(SCHEME, FWD3_ID_VALUE[1]))); } for (int i = 0; i < FWD3_NB_IRS_NODES; i++) { ALL_NODES[i + 1 + FWD3_NB_FRA_NODES] = FixedIborSwapCurveNode.of(FixedIborSwapTemplate.of(Period.ZERO, Tenor.of(FWD3_IRS_TENORS[i]), USD_FIXED_6M_LIBOR_3M), QuoteId.of(StandardId.of(SCHEME, FWD3_ID_VALUE[i]))); } ImmutableMarketDataBuilder builder = ImmutableMarketData.builder(VAL_DATE); for (int i = 0; i < FWD3_NB_NODES; i++) { builder.addValue(QuoteId.of(StandardId.of(SCHEME, FWD3_ID_VALUE[i])), FWD3_MARKET_QUOTES[i]); } ALL_QUOTES = builder.build(); IList <CurveNode[]> groupNodes = new List <CurveNode[]>(); groupNodes.Add(ALL_NODES); CURVES_NODES.Add(groupNodes); IList <CurveMetadata> groupMetadata = new List <CurveMetadata>(); groupMetadata.Add(DefaultCurveMetadata.builder().curveName(ALL_CURVE_NAME).xValueType(ValueType.YEAR_FRACTION).yValueType(ValueType.ZERO_RATE).dayCount(CURVE_DC).build()); CURVES_METADATA.Add(groupMetadata); }
static IsdaCompliantIndexCurveCalibratorTest() { ImmutableList.Builder <StandardId> legalEntityIdsbuilder = ImmutableList.builder(); ImmutableMarketDataBuilder marketDataBuilder = ImmutableMarketData.builder(VALUATION_DATE); ImmutableMarketDataBuilder marketDataPsBuilder = ImmutableMarketData.builder(VALUATION_DATE); for (int?i = 0; i.Value < INDEX_SIZE; ++i) { StandardId legalEntityId = StandardId.of("OG", "ABC" + i.ToString()); LegalEntityInformation information = DEFAULTED_NAMES.contains(i) ? LegalEntityInformation.isDefaulted(legalEntityId) : LegalEntityInformation.isNotDefaulted(legalEntityId); legalEntityIdsbuilder.add(legalEntityId); marketDataBuilder.addValue(LegalEntityInformationId.of(legalEntityId), information); marketDataPsBuilder.addValue(LegalEntityInformationId.of(legalEntityId), information); } LEGAL_ENTITIES = legalEntityIdsbuilder.build(); ImmutableList.Builder <CdsIndexIsdaCreditCurveNode> curveNodesBuilder = ImmutableList.builder(); ImmutableList.Builder <CdsIndexIsdaCreditCurveNode> curveNodesPsBuilder = ImmutableList.builder(); for (int i = 0; i < NUM_PILLARS; ++i) { QuoteId id = QuoteId.of(StandardId.of("OG", INDEX_TENORS[i].ToString())); CdsTemplate temp = TenorCdsTemplate.of(INDEX_TENORS[i], CONVENTION); curveNodesBuilder.add(CdsIndexIsdaCreditCurveNode.ofPointsUpfront(temp, id, INDEX_ID, LEGAL_ENTITIES, COUPON)); curveNodesPsBuilder.add(CdsIndexIsdaCreditCurveNode.ofParSpread(temp, id, INDEX_ID, LEGAL_ENTITIES)); marketDataBuilder.addValue(id, PUF_QUOTES[i]); marketDataPsBuilder.addValue(id, PS_QUOTES[i]); } CURVE_NODES = curveNodesBuilder.build(); MARKET_DATA = marketDataBuilder.build(); CURVE_NODES_PS = curveNodesPsBuilder.build(); MARKET_DATA_PS = marketDataPsBuilder.build(); }
//------------------------------------------------------------------------- protected internal virtual void testJacobian(LegalEntitySurvivalProbabilities curve, ImmutableCreditRatesProvider ratesProvider, IList <CdsIndexIsdaCreditCurveNode> nodes, double[] quotes) { int nNode = nodes.Count; IsdaCreditDiscountFactors df = (IsdaCreditDiscountFactors)curve.SurvivalProbabilities; int nCurveNode = df.ParameterCount; for (int i = 0; i < nCurveNode; ++i) { double[] quotesUp = Arrays.copyOf(quotes, nNode); double[] quotesDw = Arrays.copyOf(quotes, nNode); quotesUp[i] += EPS; quotesDw[i] -= EPS; ImmutableMarketDataBuilder builderCreditUp = MARKET_DATA.toBuilder(); ImmutableMarketDataBuilder builderCreditDw = MARKET_DATA.toBuilder(); for (int j = 0; j < nNode; ++j) { builderCreditUp.addValue(nodes[j].ObservableId, quotesUp[j]); builderCreditDw.addValue(nodes[j].ObservableId, quotesDw[j]); } ImmutableMarketData marketDataUp = builderCreditUp.build(); ImmutableMarketData marketDataDw = builderCreditDw.build(); IsdaCreditCurveDefinition definition = IsdaCreditCurveDefinition.of(df.Curve.Name, df.Currency, df.ValuationDate, df.DayCount, nodes, false, false); IsdaCreditDiscountFactors ccUp = (IsdaCreditDiscountFactors)CALIBRATOR.calibrate(definition, marketDataUp, ratesProvider, REF_DATA).SurvivalProbabilities; IsdaCreditDiscountFactors ccDw = (IsdaCreditDiscountFactors)CALIBRATOR.calibrate(definition, marketDataDw, ratesProvider, REF_DATA).SurvivalProbabilities; for (int j = 0; j < nNode; ++j) { double computed = df.Curve.Metadata.findInfo(CurveInfoType.JACOBIAN).get().JacobianMatrix.get(j, i); double expected = 0.5 * (ccUp.Curve.YValues.get(j) - ccDw.Curve.YValues.get(j)) / EPS; assertEquals(computed, expected, EPS * 10d); } } }
// load quotes private void loadQuotes(ImmutableMarketDataBuilder builder, LocalDate marketDataDate) { if (!subdirectoryExists(QUOTES_DIR)) { log.debug("No quotes directory found"); return; } ResourceLocator quotesResource = getResource(QUOTES_DIR, QUOTES_FILE); if (quotesResource == null) { log.error("Unable to load quotes: quotes file not found at {}/{}", QUOTES_DIR, QUOTES_FILE); return; } try { IDictionary <QuoteId, double> quotes = QuotesCsvLoader.load(marketDataDate, quotesResource); builder.addValueMap(quotes); } catch (Exception ex) { log.error("Error loading quotes", ex); } }
protected internal virtual void testJacobian(IsdaCompliantCreditCurveCalibrator builder, LegalEntitySurvivalProbabilities curve, ImmutableCreditRatesProvider ratesProvider, IList <CdsIsdaCreditCurveNode> nodes, double[] quotes, double quoteScale, double eps) { LocalDate valuationDate = curve.ValuationDate; int nNode = nodes.Count; IsdaCreditDiscountFactors df = (IsdaCreditDiscountFactors)curve.SurvivalProbabilities; CurveName name = df.Curve.Name; int nCurveNode = df.ParameterCount; for (int i = 0; i < nCurveNode; ++i) { double[] quotesUp = Arrays.copyOf(quotes, nNode); double[] quotesDw = Arrays.copyOf(quotes, nNode); quotesUp[i] += eps / quoteScale; quotesDw[i] -= eps / quoteScale; ImmutableMarketDataBuilder builderCreditUp = ImmutableMarketData.builder(valuationDate); ImmutableMarketDataBuilder builderCreditDw = ImmutableMarketData.builder(valuationDate); for (int j = 0; j < nNode; ++j) { builderCreditUp.addValue(nodes[j].ObservableId, quotesUp[j] * quoteScale); builderCreditDw.addValue(nodes[j].ObservableId, quotesDw[j] * quoteScale); } ImmutableMarketData marketDataUp = builderCreditUp.build(); ImmutableMarketData marketDataDw = builderCreditDw.build(); IsdaCreditDiscountFactors ccUp = (IsdaCreditDiscountFactors)builder.calibrate(nodes, name, marketDataUp, ratesProvider, curve.SurvivalProbabilities.DayCount, curve.Currency, false, false, REF_DATA).SurvivalProbabilities; IsdaCreditDiscountFactors ccDw = (IsdaCreditDiscountFactors)builder.calibrate(nodes, name, marketDataDw, ratesProvider, curve.SurvivalProbabilities.DayCount, curve.Currency, false, false, REF_DATA).SurvivalProbabilities; for (int j = 0; j < nNode; ++j) { double computed = df.Curve.Metadata.findInfo(CurveInfoType.JACOBIAN).get().JacobianMatrix.get(j, i); double expected = 0.5 * (ccUp.Curve.YValues.get(j) - ccDw.Curve.YValues.get(j)) / eps; assertEquals(computed, expected, eps * 10d); } } }
static CalibrationDiscountingSimpleEurStdTenorsTest() { for (int i = 0; i < DSC_NB_OIS_NODES; i++) { DSC_NODES[i] = FixedOvernightSwapCurveNode.of(FixedOvernightSwapTemplate.of(Period.ZERO, Tenor.of(DSC_OIS_TENORS[i]), EUR_FIXED_1Y_EONIA_OIS), QuoteId.of(StandardId.of(SCHEME, DSC_ID_VALUE[i]))); } for (int i = 0; i < FWD3_NB_IRS_NODES; i++) { FWD3_NODES[i] = FixedIborSwapCurveNode.of(FixedIborSwapTemplate.of(Period.ZERO, Tenor.of(FWD3_IRS_TENORS[i]), EUR_FIXED_1Y_EURIBOR_3M), QuoteId.of(StandardId.of(SCHEME, FWD3_ID_VALUE[i]))); } for (int i = 0; i < FWD6_NB_IRS_NODES; i++) { FWD6_NODES[i] = FixedIborSwapCurveNode.of(FixedIborSwapTemplate.of(Period.ZERO, Tenor.of(FWD6_IRS_TENORS[i]), EUR_FIXED_1Y_EURIBOR_6M), QuoteId.of(StandardId.of(SCHEME, FWD6_ID_VALUE[i]))); } ImmutableMarketDataBuilder builder = ImmutableMarketData.builder(VAL_DATE); for (int i = 0; i < DSC_NB_NODES; i++) { builder.addValue(QuoteId.of(StandardId.of(SCHEME, DSC_ID_VALUE[i])), DSC_MARKET_QUOTES[i]); } for (int i = 0; i < FWD3_NB_NODES; i++) { builder.addValue(QuoteId.of(StandardId.of(SCHEME, FWD3_ID_VALUE[i])), FWD3_MARKET_QUOTES[i]); } for (int i = 0; i < FWD6_NB_NODES; i++) { builder.addValue(QuoteId.of(StandardId.of(SCHEME, FWD6_ID_VALUE[i])), FWD6_MARKET_QUOTES[i]); } ALL_QUOTES = builder.build(); }
static CalibrationZeroRateUsdEur2OisFxTest() { DSC_NAMES[USD_DSCON_CURVE_NAME] = USD; ISet <Index> usdFedFundSet = new HashSet <Index>(); usdFedFundSet.Add(USD_FED_FUND); IDX_NAMES[USD_DSCON_CURVE_NAME] = usdFedFundSet; USD_DSC_NODES[0] = TermDepositCurveNode.of(TermDepositTemplate.of(Period.ofDays(1), USD_SHORT_DEPOSIT_T0), QuoteId.of(StandardId.of(SCHEME, USD_DSC_ID_VALUE[0]))); USD_DSC_NODES[1] = TermDepositCurveNode.of(TermDepositTemplate.of(Period.ofDays(1), USD_SHORT_DEPOSIT_T1), QuoteId.of(StandardId.of(SCHEME, USD_DSC_ID_VALUE[1]))); for (int i = 0; i < USD_DSC_NB_OIS_NODES; i++) { USD_DSC_NODES[USD_DSC_NB_DEPO_NODES + i] = FixedOvernightSwapCurveNode.of(FixedOvernightSwapTemplate.of(Period.ZERO, Tenor.of(USD_DSC_OIS_TENORS[i]), USD_FIXED_1Y_FED_FUND_OIS), QuoteId.of(StandardId.of(SCHEME, USD_DSC_ID_VALUE[USD_DSC_NB_DEPO_NODES + i]))); } for (int i = 0; i < EUR_DSC_NB_FX_NODES; i++) { EUR_DSC_NODES[i] = FxSwapCurveNode.of(FxSwapTemplate.of(EUR_DSC_FX_TENORS[i], EUR_USD), QuoteId.of(StandardId.of(SCHEME, EUR_DSC_ID_VALUE[i]))); } ImmutableMarketDataBuilder builder = ImmutableMarketData.builder(VAL_DATE); for (int i = 0; i < USD_DSC_NB_NODES; i++) { builder.addValue(QuoteId.of(StandardId.of(SCHEME, USD_DSC_ID_VALUE[i])), USD_DSC_MARKET_QUOTES[i]); } for (int i = 0; i < EUR_DSC_NB_NODES; i++) { builder.addValue(QuoteId.of(StandardId.of(SCHEME, EUR_DSC_ID_VALUE[i])), EUR_DSC_MARKET_QUOTES[i]); } builder.addValue(FxRateId.of(EUR, USD), FX_RATE_EUR_USD); ALL_QUOTES = builder.build(); }
static CalibrationZeroRateAndDiscountFactorUsd2OisIrsTest() { DSC_NAMES[DSCON_CURVE_NAME] = USD; ISet <Index> usdFedFundSet = new HashSet <Index>(); usdFedFundSet.Add(USD_FED_FUND); IDX_NAMES[DSCON_CURVE_NAME] = usdFedFundSet; ISet <Index> usdLibor3Set = new HashSet <Index>(); usdLibor3Set.Add(USD_LIBOR_3M); IDX_NAMES[FWD3_CURVE_NAME] = usdLibor3Set; double fixingValue = 0.002345; LocalDateDoubleTimeSeries tsBdUsdLibor3M = LocalDateDoubleTimeSeries.builder().put(VAL_DATE_BD, fixingValue).build(); LocalDate fixingDateHo = LocalDate.of(2015, 12, 24); LocalDateDoubleTimeSeries tsHoUsdLibor3M = LocalDateDoubleTimeSeries.builder().put(fixingDateHo, fixingValue).build(); TS_BD_LIBOR3M = ImmutableMarketData.builder(VAL_DATE_BD).addTimeSeries(IndexQuoteId.of(USD_LIBOR_3M), tsBdUsdLibor3M).build(); TS_HO_LIBOR3M = ImmutableMarketData.builder(VAL_DATE_HO).addTimeSeries(IndexQuoteId.of(USD_LIBOR_3M), tsHoUsdLibor3M).build(); for (int i = 0; i < DSC_NB_OIS_NODES; i++) { DSC_NODES[i] = FixedOvernightSwapCurveNode.of(FixedOvernightSwapTemplate.of(Period.ZERO, Tenor.of(DSC_OIS_TENORS[i]), USD_FIXED_1Y_FED_FUND_OIS), QuoteId.of(StandardId.of(SCHEME, DSC_ID_VALUE[i]))); } FWD3_NODES[0] = IborFixingDepositCurveNode.of(IborFixingDepositTemplate.of(USD_LIBOR_3M), QuoteId.of(StandardId.of(SCHEME, FWD3_ID_VALUE[0]))); for (int i = 0; i < FWD3_NB_FRA_NODES; i++) { FWD3_NODES[i + 1] = FraCurveNode.of(FraTemplate.of(FWD3_FRA_TENORS[i], USD_LIBOR_3M), QuoteId.of(StandardId.of(SCHEME, FWD3_ID_VALUE[i + 1]))); } for (int i = 0; i < FWD3_NB_IRS_NODES; i++) { FWD3_NODES[i + 1 + FWD3_NB_FRA_NODES] = FixedIborSwapCurveNode.of(FixedIborSwapTemplate.of(Period.ZERO, Tenor.of(FWD3_IRS_TENORS[i]), USD_FIXED_6M_LIBOR_3M), QuoteId.of(StandardId.of(SCHEME, FWD3_ID_VALUE[i + 1 + FWD3_NB_FRA_NODES]))); } ImmutableMarketDataBuilder builder = ImmutableMarketData.builder(VAL_DATE_BD); for (int i = 0; i < FWD3_NB_NODES; i++) { builder.addValue(QuoteId.of(StandardId.of(SCHEME, FWD3_ID_VALUE[i])), FWD3_MARKET_QUOTES[i]); } for (int i = 0; i < DSC_NB_NODES; i++) { builder.addValue(QuoteId.of(StandardId.of(SCHEME, DSC_ID_VALUE[i])), DSC_MARKET_QUOTES[i]); } ALL_QUOTES_BD = builder.build(); IList <CurveNode[]> groupDsc = new List <CurveNode[]>(); groupDsc.Add(DSC_NODES); CURVES_NODES.Add(groupDsc); IList <CurveNode[]> groupFwd3 = new List <CurveNode[]>(); groupFwd3.Add(FWD3_NODES); CURVES_NODES.Add(groupFwd3); IList <CurveMetadata> groupDsc = new List <CurveMetadata>(); groupDsc.Add(DefaultCurveMetadata.builder().curveName(DSCON_CURVE_NAME).xValueType(ValueType.YEAR_FRACTION).yValueType(ValueType.ZERO_RATE).dayCount(CURVE_DC).build()); CURVES_METADATA.Add(groupDsc); IList <CurveMetadata> groupFwd3 = new List <CurveMetadata>(); groupFwd3.Add(DefaultCurveMetadata.builder().curveName(FWD3_CURVE_NAME).xValueType(ValueType.YEAR_FRACTION).yValueType(ValueType.ZERO_RATE).dayCount(CURVE_DC).build()); CURVES_METADATA.Add(groupFwd3); }
static CalibrationZeroRateUsdOisIrsEurFxXCcyIrsTest() { USD_DSC_NODES[0] = TermDepositCurveNode.of(TermDepositTemplate.of(Period.ofDays(1), USD_SHORT_DEPOSIT_T0), QuoteId.of(StandardId.of(SCHEME, USD_DSC_ID_VALUE[0]))); USD_DSC_NODES[1] = TermDepositCurveNode.of(TermDepositTemplate.of(Period.ofDays(1), USD_SHORT_DEPOSIT_T1), QuoteId.of(StandardId.of(SCHEME, USD_DSC_ID_VALUE[1]))); for (int i = 0; i < USD_DSC_NB_OIS_NODES; i++) { USD_DSC_NODES[2 + i] = FixedOvernightSwapCurveNode.of(FixedOvernightSwapTemplate.of(Period.ZERO, Tenor.of(USD_DSC_OIS_TENORS[i]), USD_FIXED_1Y_FED_FUND_OIS), QuoteId.of(StandardId.of(SCHEME, USD_DSC_ID_VALUE[2 + i]))); } USD_FWD3_NODES[0] = IborFixingDepositCurveNode.of(IborFixingDepositTemplate.of(USD_LIBOR_3M), QuoteId.of(StandardId.of(SCHEME, USD_FWD3_ID_VALUE[0]))); for (int i = 0; i < USD_FWD3_NB_FRA_NODES; i++) { USD_FWD3_NODES[i + 1] = FraCurveNode.of(FraTemplate.of(USD_FWD3_FRA_TENORS[i], USD_LIBOR_3M), QuoteId.of(StandardId.of(SCHEME, USD_FWD3_ID_VALUE[i + 1]))); } for (int i = 0; i < USD_FWD3_NB_IRS_NODES; i++) { USD_FWD3_NODES[i + 1 + USD_FWD3_NB_FRA_NODES] = FixedIborSwapCurveNode.of(FixedIborSwapTemplate.of(Period.ZERO, Tenor.of(USD_FWD3_IRS_TENORS[i]), USD_FIXED_6M_LIBOR_3M), QuoteId.of(StandardId.of(SCHEME, USD_FWD3_ID_VALUE[i + 1 + USD_FWD3_NB_FRA_NODES]))); } for (int i = 0; i < EUR_DSC_NB_FX_NODES; i++) { EUR_DSC_NODES[i] = FxSwapCurveNode.of(FxSwapTemplate.of(EUR_DSC_FX_TENORS[i], EUR_USD), QuoteId.of(StandardId.of(SCHEME, EUR_DSC_ID_VALUE[i]))); } for (int i = 0; i < EUR_DSC_NB_XCCY_NODES; i++) { EUR_DSC_NODES[EUR_DSC_NB_FX_NODES + i] = XCcyIborIborSwapCurveNode.of(XCcyIborIborSwapTemplate.of(Tenor.of(EUR_DSC_XCCY_TENORS[i]), EUR_EURIBOR_3M_USD_LIBOR_3M), QuoteId.of(StandardId.of(SCHEME, EUR_DSC_ID_VALUE[EUR_DSC_NB_FX_NODES + i]))); } EUR_FWD3_NODES[0] = IborFixingDepositCurveNode.of(IborFixingDepositTemplate.of(EUR_EURIBOR_3M), QuoteId.of(StandardId.of(SCHEME, EUR_FWD3_ID_VALUE[0]))); for (int i = 0; i < EUR_FWD3_NB_FRA_NODES; i++) { EUR_FWD3_NODES[i + 1] = FraCurveNode.of(FraTemplate.of(EUR_FWD3_FRA_TENORS[i], EUR_EURIBOR_3M), QuoteId.of(StandardId.of(SCHEME, EUR_FWD3_ID_VALUE[i + 1]))); } for (int i = 0; i < EUR_FWD3_NB_IRS_NODES; i++) { EUR_FWD3_NODES[i + 1 + EUR_FWD3_NB_FRA_NODES] = FixedIborSwapCurveNode.of(FixedIborSwapTemplate.of(Period.ZERO, Tenor.of(EUR_FWD3_IRS_TENORS[i]), EUR_FIXED_1Y_EURIBOR_3M), QuoteId.of(StandardId.of(SCHEME, EUR_FWD3_ID_VALUE[i + 1 + EUR_FWD3_NB_FRA_NODES]))); } ImmutableMarketDataBuilder builder = ImmutableMarketData.builder(VAL_DATE); for (int i = 0; i < USD_DSC_NB_NODES; i++) { builder.addValue(QuoteId.of(StandardId.of(SCHEME, USD_DSC_ID_VALUE[i])), USD_DSC_MARKET_QUOTES[i]); } for (int i = 0; i < USD_FWD3_NB_NODES; i++) { builder.addValue(QuoteId.of(StandardId.of(SCHEME, USD_FWD3_ID_VALUE[i])), USD_FWD3_MARKET_QUOTES[i]); } for (int i = 0; i < EUR_DSC_NB_NODES; i++) { builder.addValue(QuoteId.of(StandardId.of(SCHEME, EUR_DSC_ID_VALUE[i])), EUR_DSC_MARKET_QUOTES[i]); } for (int i = 0; i < EUR_FWD3_NB_NODES; i++) { builder.addValue(QuoteId.of(StandardId.of(SCHEME, EUR_FWD3_ID_VALUE[i])), EUR_FWD3_MARKET_QUOTES[i]); } builder.addValue(QuoteId.of(StandardId.of(SCHEME, EUR_USD_ID_VALUE)), FX_RATE_EUR_USD); builder.addValue(FxRateId.of(EUR, USD), FxRate.of(EUR, USD, FX_RATE_EUR_USD)); ALL_QUOTES = builder.build(); }
//------------------------------------------------------------------------- /// <summary> /// Builds a market data snapshot from this environment. /// </summary> /// <param name="marketDataDate"> the date of the market data </param> /// <returns> the snapshot </returns> public virtual ImmutableMarketData buildSnapshot(LocalDate marketDataDate) { ImmutableMarketDataBuilder builder = ImmutableMarketData.builder(marketDataDate); loadFixingSeries(builder); loadRatesCurves(builder, marketDataDate); loadQuotes(builder, marketDataDate); loadFxRates(builder); return(builder.build()); }
//------------------------------------------------------------------------- private static ImmutableCreditRatesProvider createRatesProvider(LocalDate tradeDate, LocalDate snapDate, double rateScale, double recoveryRate) { ImmutableMarketDataBuilder builder = ImmutableMarketData.builder(snapDate); for (int j = 0; j < NUM_INSTRUMENTS; j++) { builder.addValue(QuoteId.of(StandardId.of("OG", ID_VALUES[j])), RATES[j] * rateScale); } ImmutableMarketData quotes = builder.build(); IsdaCreditCurveDefinition curveDefinition = IsdaCreditCurveDefinition.of(CurveName.of("yield"), EUR, tradeDate, ACT_365F, DSC_NODES, false, false); IsdaCreditDiscountFactors yc = IsdaCompliantDiscountCurveCalibrator.standard().calibrate(curveDefinition, quotes, REF_DATA); return(ImmutableCreditRatesProvider.builder().valuationDate(tradeDate).discountCurves(ImmutableMap.of(EUR, yc)).recoveryRateCurves(ImmutableMap.of(LEGAL_ENTITY, ConstantRecoveryRates.of(LEGAL_ENTITY, tradeDate, recoveryRate))).creditCurves(ImmutableMap.of()).build()); }
public virtual void parSpreadTest() { LocalDate valuationDate = LocalDate.of(2013, 2, 27); DoubleArray ycTime = DoubleArray.ofUnsafe(new double[] { 0.09041095890410959, 0.1726027397260274, 0.26301369863013696, 0.5123287671232877, 0.7616438356164383, 1.010958904109589, 2.008219178082192, 3.008219178082192, 4.008219178082192, 5.008219178082192, 6.008219178082192, 7.013698630136987, 8.01095890410959, 9.01095890410959, 10.01095890410959, 12.01917808219178, 15.016438356164384, 20.01917808219178, 25.021917808219175, 30.027397260273972 }); DoubleArray ycRate = DoubleArray.ofUnsafe(new double[] { 0.0020651105531615476, 0.0024506037920717797, 0.0028872269869485313, 0.004599628230463427, 0.006160809466806469, 0.0075703969168129295, 0.003965128877560435, 0.005059104202201957, 0.0069669135253734825, 0.009361825469323602, 0.011916895611422482, 0.014311922779901886, 0.016519187063048578, 0.018512121993907647, 0.020289623737560873, 0.02329885162861984, 0.026399509889410745, 0.029087919732133784, 0.03037740056662963, 0.03110021763406523 }); IsdaCreditDiscountFactors yc = IsdaCreditDiscountFactors.of(EUR, valuationDate, CurveName.of("yc_usd"), ycTime, ycRate, ACT_365F); double[] timeNodeExp = new double[] { 0.5616438356164384, 1.0575342465753426, 2.0575342465753423, 3.0602739726027397, 4.06027397260274, 5.06027397260274, 6.06027397260274, 7.063013698630137, 8.063013698630137, 9.063013698630137, 10.063013698630137 }; double[] rateNodeExp = new double[] { 0.00876054089781935, 0.011037345646850688, 0.015955126945240167, 0.020617953392829177, 0.025787811343896218, 0.030329992053915133, 0.03313419899444371, 0.03528129159875671, 0.03675340516560903, 0.037946169956317416, 0.038951101800190346 }; double[] rateNodeExpMf = new double[] { 0.008754510260229803, 0.011030502992814844, 0.01594817866773906, 0.02060947097554756, 0.025776720596175737, 0.030316032527460755, 0.03311839631615255, 0.03526404051997617, 0.03673513322394772, 0.03792689865945585, 0.03893107891569398 }; ImmutableCreditRatesProvider ratesProvider = ImmutableCreditRatesProvider.builder().valuationDate(valuationDate).discountCurves(ImmutableMap.of(EUR, yc)).recoveryRateCurves(ImmutableMap.of(LEGAL_ENTITY, ConstantRecoveryRates.of(LEGAL_ENTITY, valuationDate, 0.25))).creditCurves(ImmutableMap.of()).build(); LocalDate startDate = LocalDate.of(2012, 12, 20); LocalDate[] pillarDates = new LocalDate[] { LocalDate.of(2013, 9, 20), LocalDate.of(2014, 3, 20), LocalDate.of(2015, 3, 20), LocalDate.of(2016, 3, 20), LocalDate.of(2017, 3, 20), LocalDate.of(2018, 3, 20), LocalDate.of(2019, 3, 20), LocalDate.of(2020, 3, 20), LocalDate.of(2021, 3, 20), LocalDate.of(2022, 3, 20), LocalDate.of(2023, 3, 20) }; int nPillars = pillarDates.Length; ImmutableMarketDataBuilder builderCredit = ImmutableMarketData.builder(valuationDate); IList <CdsIsdaCreditCurveNode> nodes = new List <CdsIsdaCreditCurveNode>(nPillars); double[] quotes = new double[] { 0.006485, 0.008163, 0.011763, 0.015136, 0.018787, 0.021905, 0.023797, 0.025211, 0.02617, 0.026928, 0.027549 }; for (int i = 0; i < nPillars; ++i) { CdsConvention conv = ImmutableCdsConvention.of("conv", EUR, ACT_360, Frequency.P3M, BUS_ADJ, CDS_SETTLE_STD); CdsTemplate temp = DatesCdsTemplate.of(startDate, pillarDates[i], conv); QuoteId id = QuoteId.of(StandardId.of("OG", pillarDates[i].ToString())); nodes.Add(CdsIsdaCreditCurveNode.ofParSpread(temp, id, LEGAL_ENTITY)); builderCredit.addValue(id, quotes[i]); } ImmutableMarketData marketData = builderCredit.build(); IsdaCreditCurveDefinition curveDefinition = IsdaCreditCurveDefinition.of(CurveName.of("zz"), EUR, valuationDate, ACT_365F, nodes, true, true); LegalEntitySurvivalProbabilities cc = BUILDER_ISDA.calibrate(curveDefinition, marketData, ratesProvider, REF_DATA); NodalCurve resCurve = ((IsdaCreditDiscountFactors)cc.SurvivalProbabilities).Curve; for (int i = 0; i < nPillars; ++i) { ParameterMetadata param = resCurve.getParameterMetadata(i); assertTrue(param is ResolvedTradeParameterMetadata); ResolvedTradeParameterMetadata tradeParam = (ResolvedTradeParameterMetadata)param; assertTrue(tradeParam.Trade is ResolvedCdsTrade); } assertTrue(DoubleArrayMath.fuzzyEquals(resCurve.XValues.toArray(), timeNodeExp, TOL)); assertTrue(DoubleArrayMath.fuzzyEquals(resCurve.YValues.toArray(), rateNodeExp, TOL)); testJacobian(BUILDER_ISDA, cc, ratesProvider, nodes, quotes, 1d, EPS); LegalEntitySurvivalProbabilities ccMf = BUILDER_MARKIT.calibrate(curveDefinition, marketData, ratesProvider, REF_DATA); NodalCurve resCurveMf = ((IsdaCreditDiscountFactors)ccMf.SurvivalProbabilities).Curve; assertTrue(DoubleArrayMath.fuzzyEquals(resCurveMf.XValues.toArray(), timeNodeExp, TOL)); assertTrue(DoubleArrayMath.fuzzyEquals(resCurveMf.YValues.toArray(), rateNodeExpMf, TOL)); testJacobian(BUILDER_MARKIT, ccMf, ratesProvider, nodes, quotes, 1d, EPS); }
static CalibrationInflationUsdTest() { DSC_NAMES[DSCON_CURVE_NAME] = USD; ISet <Index> usdFedFundSet = new HashSet <Index>(); usdFedFundSet.Add(USD_FED_FUND); IDX_NAMES[DSCON_CURVE_NAME] = usdFedFundSet; ISet <Index> usdLibor3Set = new HashSet <Index>(); usdLibor3Set.Add(USD_LIBOR_3M); IDX_NAMES[CPI_CURVE_NAME] = usdLibor3Set; for (int i = 0; i < DSC_NB_DEPO_NODES; i++) { BusinessDayAdjustment bda = BusinessDayAdjustment.of(FOLLOWING, USNY); TermDepositConvention convention = ImmutableTermDepositConvention.of("USD-Dep", USD, bda, ACT_360, DaysAdjustment.ofBusinessDays(DSC_DEPO_OFFSET[i], USNY)); DSC_NODES[i] = TermDepositCurveNode.of(TermDepositTemplate.of(Period.ofDays(1), convention), QuoteId.of(StandardId.of(SCHEME, DSC_ID_VALUE[i]))); } for (int i = 0; i < DSC_NB_OIS_NODES; i++) { DSC_NODES[DSC_NB_DEPO_NODES + i] = FixedOvernightSwapCurveNode.of(FixedOvernightSwapTemplate.of(Period.ZERO, Tenor.of(DSC_OIS_TENORS[i]), USD_FIXED_1Y_FED_FUND_OIS), QuoteId.of(StandardId.of(SCHEME, DSC_ID_VALUE[DSC_NB_DEPO_NODES + i]))); } for (int i = 0; i < CPI_NB_NODES; i++) { CPI_NODES[i] = FixedInflationSwapCurveNode.builder().template(FixedInflationSwapTemplate.of(Tenor.of(CPI_TENORS[i]), FixedInflationSwapConventions.USD_FIXED_ZC_US_CPI)).rateId(QuoteId.of(StandardId.of(SCHEME, CPI_ID_VALUE[i]))).date(CurveNodeDate.LAST_FIXING).build(); } ImmutableMarketDataBuilder builder = ImmutableMarketData.builder(VAL_DATE); for (int i = 0; i < DSC_NB_NODES; i++) { builder.addValue(QuoteId.of(StandardId.of(SCHEME, DSC_ID_VALUE[i])), DSC_MARKET_QUOTES[i]); } for (int i = 0; i < CPI_NB_NODES; i++) { builder.addValue(QuoteId.of(StandardId.of(SCHEME, CPI_ID_VALUE[i])), CPI_MARKET_QUOTES[i]); } builder.addTimeSeries(IndexQuoteId.of(US_CPI_U), TS_USD_CPI); ALL_QUOTES = builder.build(); IList <CurveNode[]> groupDsc = new List <CurveNode[]>(); groupDsc.Add(DSC_NODES); CURVES_NODES.Add(groupDsc); IList <CurveNode[]> groupCpi = new List <CurveNode[]>(); groupCpi.Add(CPI_NODES); CURVES_NODES.Add(groupCpi); }
//------------------------------------------------------------------------- private void loadFixingSeries(ImmutableMarketDataBuilder builder) { if (!subdirectoryExists(HISTORICAL_FIXINGS_DIR)) { log.debug("No historical fixings directory found"); return; } try { ICollection <ResourceLocator> fixingSeriesResources = getAllResources(HISTORICAL_FIXINGS_DIR); IDictionary <ObservableId, LocalDateDoubleTimeSeries> fixingSeries = FixingSeriesCsvLoader.load(fixingSeriesResources); builder.addTimeSeriesMap(fixingSeries); } catch (Exception e) { log.error("Error loading fixing series", e); } }
public static MarketData allQuotes(LocalDate valuationDate, double[] dscOisQuotes, string[] dscIdValues, double[] fwd3MarketQuotes, string[] fwd3IdValue, double[] fwd6MarketQuotes, string[] fwd6IdValue) { /* All quotes for the curve calibration */ ImmutableMarketDataBuilder builder = ImmutableMarketData.builder(valuationDate); for (int i = 0; i < dscOisQuotes.Length; i++) { builder.addValue(QuoteId.of(StandardId.of(SCHEME, dscIdValues[i])), dscOisQuotes[i]); } for (int i = 0; i < fwd3MarketQuotes.Length; i++) { builder.addValue(QuoteId.of(StandardId.of(SCHEME, fwd3IdValue[i])), fwd3MarketQuotes[i]); } for (int i = 0; i < fwd6MarketQuotes.Length; i++) { builder.addValue(QuoteId.of(StandardId.of(SCHEME, fwd6IdValue[i])), fwd6MarketQuotes[i]); } return(builder.build()); }
public virtual void pufTest() { LocalDate valuationDate = LocalDate.of(2013, 4, 10); DoubleArray ycTime = DoubleArray.ofUnsafe(new double[] { 0.09041095890410959, 0.1726027397260274, 0.2547945205479452, 0.5123287671232877, 0.7616438356164383, 1.010958904109589, 2.008219178082192, 3.008219178082192, 4.008219178082192, 5.008219178082192, 6.008219178082192, 7.013698630136987, 8.01095890410959, 9.01095890410959, 10.01095890410959, 12.01917808219178, 15.016438356164384, 20.01917808219178, 25.021917808219175, 30.027397260273972 }); DoubleArray ycRate = DoubleArray.ofUnsafe(new double[] { 0.0020205071813561414, 0.0024226927083852126, 0.00280147037504029, 0.004449041082144009, 0.005821804782808804, 0.007254879152733453, 0.00378133614924816, 0.004815163234294319, 0.006576302084547871, 0.00884241431837336, 0.011358805989279104, 0.013793391727035883, 0.016014197840890115, 0.01801564209277191, 0.019757164421290663, 0.022773295945438254, 0.025862337032619587, 0.02848646344754061, 0.029753383126110852, 0.03045277462637107 }); IsdaCreditDiscountFactors yc = IsdaCreditDiscountFactors.of(EUR, valuationDate, CurveName.of("yc_usd"), ycTime, ycRate, ACT_365F); double[] timeNodeExp = new double[] { 0.19452054794520549, 0.4465753424657534, 0.6958904109589041, 0.9424657534246575, 1.1945205479452055, 1.4465753424657535, 1.6958904109589041, 1.9424657534246574, 2.1945205479452055, 2.4465753424657533, 2.695890410958904, 2.9452054794520546, 3.197260273972603, 3.4493150684931506, 3.6986301369863015, 3.9452054794520546, 4.197260273972603, 4.449315068493151, 4.698630136986301, 4.945205479452055, 5.197260273972603, 5.449315068493151, 5.698630136986301, 5.945205479452055, 6.197260273972603, 6.449315068493151, 6.698630136986301, 6.947945205479452, 7.2, 7.4520547945205475, 7.701369863013698, 7.947945205479452, 8.2, 8.452054794520548, 8.7013698630137, 8.947945205479453, 9.2, 9.452054794520548, 9.7013698630137, 9.947945205479453, 10.2 }; double[] rateNodeExp = new double[] { 0.11219168510100914, 0.11085321179769615, 0.11753783265486063, 0.11806409789291543, 0.12007843111645247, 0.12273722191216528, 0.12541993298405366, 0.12773640093265545, 0.1290535220739981, 0.13294183149211675, 0.13659302947963856, 0.13988488561043758, 0.1429469312254705, 0.14606538453369572, 0.14916286828444447, 0.15219682906227, 0.1548315745851032, 0.158141193071526, 0.16163981714033765, 0.1650400193930357, 0.1682351993447916, 0.1683744003954113, 0.168657453080796, 0.16915067878510565, 0.1694852880010724, 0.16990705130936645, 0.1704456138969621, 0.17105852486248443, 0.1717088423125347, 0.1727906445582425, 0.17407566745397665, 0.17547300248653266, 0.17679395545074758, 0.17769841457372118, 0.1788064602071617, 0.18001498257267778, 0.18123747758791092, 0.18253661761388457, 0.18406319235262744, 0.18582983758830868, 0.18750386499176422 }; double[] rateNodeExpMf = new double[] { 0.11107220823737506, 0.11011543264900588, 0.11685607164947402, 0.11742079953945683, 0.1194445192166302, 0.12220026187805585, 0.12494798294628297, 0.12731185688090763, 0.12860146674492023, 0.1325216904413876, 0.1362014254649678, 0.13951646788193767, 0.14254141853655264, 0.14567581048732742, 0.1487851622438674, 0.15182838855605538, 0.15442415754322128, 0.15774061191016645, 0.16124288871765308, 0.1646451035564102, 0.167796451103847, 0.16794456750248196, 0.16823438468063495, 0.1687328171292339, 0.16904360885724334, 0.16947020572961907, 0.17001201556723175, 0.17062724832190826, 0.17125190473373603, 0.17233319414449558, 0.17361785479583028, 0.1750136127341691, 0.17630530410589512, 0.17720871748506664, 0.17831270423353415, 0.17951604233911425, 0.18070939732103264, 0.18200162521943403, 0.18351891000003046, 0.1852740041292825, 0.18691086960422418 }; ImmutableCreditRatesProvider ratesProvider = ImmutableCreditRatesProvider.builder().valuationDate(valuationDate).discountCurves(ImmutableMap.of(EUR, yc)).recoveryRateCurves(ImmutableMap.of(LEGAL_ENTITY, ConstantRecoveryRates.of(LEGAL_ENTITY, valuationDate, 0.4))).creditCurves(ImmutableMap.of()).build(); LocalDate startDate = LocalDate.of(2013, 3, 20); LocalDate[] pillarDate = new LocalDate[] { LocalDate.of(2013, 6, 20), LocalDate.of(2013, 9, 20), LocalDate.of(2013, 12, 20), LocalDate.of(2014, 3, 20), LocalDate.of(2014, 6, 20), LocalDate.of(2014, 9, 20), LocalDate.of(2014, 12, 20), LocalDate.of(2015, 3, 20), LocalDate.of(2015, 6, 20), LocalDate.of(2015, 9, 20), LocalDate.of(2015, 12, 20), LocalDate.of(2016, 3, 20), LocalDate.of(2016, 6, 20), LocalDate.of(2016, 9, 20), LocalDate.of(2016, 12, 20), LocalDate.of(2017, 3, 20), LocalDate.of(2017, 6, 20), LocalDate.of(2017, 9, 20), LocalDate.of(2017, 12, 20), LocalDate.of(2018, 3, 20), LocalDate.of(2018, 6, 20), LocalDate.of(2018, 9, 20), LocalDate.of(2018, 12, 20), LocalDate.of(2019, 3, 20), LocalDate.of(2019, 6, 20), LocalDate.of(2019, 9, 20), LocalDate.of(2019, 12, 20), LocalDate.of(2020, 3, 20), LocalDate.of(2020, 6, 20), LocalDate.of(2020, 9, 20), LocalDate.of(2020, 12, 20), LocalDate.of(2021, 3, 20), LocalDate.of(2021, 6, 20), LocalDate.of(2021, 9, 20), LocalDate.of(2021, 12, 20), LocalDate.of(2022, 3, 20), LocalDate.of(2022, 6, 20), LocalDate.of(2022, 9, 20), LocalDate.of(2022, 12, 20), LocalDate.of(2023, 3, 20), LocalDate.of(2023, 6, 20) }; int nPillars = pillarDate.Length; double coupon = 500d * ONE_BP; ImmutableMarketDataBuilder builderCredit = ImmutableMarketData.builder(valuationDate); IList <CdsIsdaCreditCurveNode> nodes = new List <CdsIsdaCreditCurveNode>(nPillars); double[] quotes = new double[] { 0.32, 0.69, 1.32, 1.79, 2.36, 3.01, 3.7, 4.39, 5.02, 5.93, 6.85, 7.76, 8.67, 9.6, 10.53, 11.45, 12.33, 13.29, 14.26, 15.2, 16.11, 16.62, 17.12, 17.62, 18.09, 18.55, 19, 19.44, 19.87, 20.33, 20.79, 21.24, 21.67, 22.04, 22.41, 22.77, 23.12, 23.46, 23.8, 24.14, 24.46 }; for (int i = 0; i < nPillars; ++i) { CdsConvention conv = ImmutableCdsConvention.of("conv", EUR, ACT_360, Frequency.P3M, BUS_ADJ, CDS_SETTLE_STD); CdsTemplate temp = DatesCdsTemplate.of(startDate, pillarDate[i], conv); QuoteId id = QuoteId.of(StandardId.of("OG", pillarDate[i].ToString())); nodes.Add(CdsIsdaCreditCurveNode.ofPointsUpfront(temp, id, LEGAL_ENTITY, coupon)); builderCredit.addValue(id, quotes[i] * ONE_PC); } ImmutableMarketData marketData = builderCredit.build(); IsdaCreditCurveDefinition curveDefinition = IsdaCreditCurveDefinition.of(CurveName.of("cc"), EUR, valuationDate, ACT_365F, nodes, true, false); LegalEntitySurvivalProbabilities cc = BUILDER_ISDA.calibrate(curveDefinition, marketData, ratesProvider, REF_DATA); NodalCurve resCurve = ((IsdaCreditDiscountFactors)cc.SurvivalProbabilities).Curve; assertTrue(DoubleArrayMath.fuzzyEquals(resCurve.XValues.toArray(), timeNodeExp, TOL)); assertTrue(DoubleArrayMath.fuzzyEquals(resCurve.YValues.toArray(), rateNodeExp, TOL)); testJacobian(BUILDER_ISDA, cc, ratesProvider, nodes, quotes, ONE_PC, EPS); LegalEntitySurvivalProbabilities ccMf = BUILDER_MARKIT.calibrate(curveDefinition, marketData, ratesProvider, REF_DATA); NodalCurve resCurveMf = ((IsdaCreditDiscountFactors)ccMf.SurvivalProbabilities).Curve; assertTrue(DoubleArrayMath.fuzzyEquals(resCurveMf.XValues.toArray(), timeNodeExp, TOL)); assertTrue(DoubleArrayMath.fuzzyEquals(resCurveMf.YValues.toArray(), rateNodeExpMf, TOL)); testJacobian(BUILDER_MARKIT, ccMf, ratesProvider, nodes, quotes, ONE_PC, EPS); }
private void loadRatesCurves(ImmutableMarketDataBuilder builder, LocalDate marketDataDate) { if (!subdirectoryExists(CURVES_DIR)) { log.debug("No rates curves directory found"); return; } ResourceLocator curveGroupsResource = getResource(CURVES_DIR, CURVES_GROUPS_FILE); if (curveGroupsResource == null) { log.error("Unable to load rates curves: curve groups file not found at {}/{}", CURVES_DIR, CURVES_GROUPS_FILE); return; } ResourceLocator curveSettingsResource = getResource(CURVES_DIR, CURVES_SETTINGS_FILE); if (curveSettingsResource == null) { log.error("Unable to load rates curves: curve settings file not found at {}/{}", CURVES_DIR, CURVES_SETTINGS_FILE); return; } try { ICollection <ResourceLocator> curvesResources = RatesCurvesResources; IList <RatesCurveGroup> ratesCurves = RatesCurvesCsvLoader.load(marketDataDate, curveGroupsResource, curveSettingsResource, curvesResources); foreach (RatesCurveGroup group in ratesCurves) { // add entry for higher level discount curve name group.DiscountCurves.forEach((ccy, curve) => builder.addValue(CurveId.of(group.Name, curve.Name), curve)); // add entry for higher level forward curve name group.ForwardCurves.forEach((idx, curve) => builder.addValue(CurveId.of(group.Name, curve.Name), curve)); } } catch (Exception e) { log.error("Error loading rates curves", e); } }
static CalibrationDiscountFactorUsd2FomcDatesOisIrsTest() { DSC_NAMES[DSCON_CURVE_NAME] = USD; ISet <Index> usdFedFundSet = new HashSet <Index>(); usdFedFundSet.Add(USD_FED_FUND); IDX_NAMES[DSCON_CURVE_NAME] = usdFedFundSet; ISet <Index> usdLibor3Set = new HashSet <Index>(); usdLibor3Set.Add(USD_LIBOR_3M); IDX_NAMES[FWD3_CURVE_NAME] = usdLibor3Set; double fixingValue = 0.002345; LocalDateDoubleTimeSeries tsBdUsdLibor3M = LocalDateDoubleTimeSeries.builder().put(VAL_DATE_BD, fixingValue).build(); TS_BD_LIBOR3M = ImmutableMarketData.builder(VAL_DATE_BD).addTimeSeries(IndexQuoteId.of(USD_LIBOR_3M), tsBdUsdLibor3M).build(); for (int i = 0; i < DSC_NB_DEPO_NODES; i++) { BusinessDayAdjustment bda = BusinessDayAdjustment.of(FOLLOWING, USNY); TermDepositConvention convention = ImmutableTermDepositConvention.of("USD-Dep", USD, bda, ACT_360, DaysAdjustment.ofBusinessDays(DSC_DEPO_OFFSET[i], USNY)); LocalDate nodeDate = FOMC_NODES[i]; if (nodeDate != null) { DSC_NODES[i] = TermDepositCurveNode.builder().template(TermDepositTemplate.of(Period.ofDays(1), convention)).rateId(QuoteId.of(StandardId.of(SCHEME, DSC_ID_VALUE[i]))).date(CurveNodeDate.of(nodeDate)).build(); } else { DSC_NODES[i] = TermDepositCurveNode.of(TermDepositTemplate.of(Period.ofDays(1), convention), QuoteId.of(StandardId.of(SCHEME, DSC_ID_VALUE[i]))); } } for (int i = 0; i < DSC_NB_OIS_NODES; i++) { LocalDate nodeDate = FOMC_NODES[DSC_NB_DEPO_NODES + i]; if (nodeDate != null) { DSC_NODES[DSC_NB_DEPO_NODES + i] = FixedOvernightSwapCurveNode.builder().template(FixedOvernightSwapTemplate.of(Period.ZERO, Tenor.of(DSC_OIS_TENORS[i]), USD_FIXED_1Y_FED_FUND_OIS)).rateId(QuoteId.of(StandardId.of(SCHEME, DSC_ID_VALUE[DSC_NB_DEPO_NODES + i]))).date(CurveNodeDate.of(nodeDate)).build(); } else { DSC_NODES[DSC_NB_DEPO_NODES + i] = FixedOvernightSwapCurveNode.of(FixedOvernightSwapTemplate.of(Period.ZERO, Tenor.of(DSC_OIS_TENORS[i]), USD_FIXED_1Y_FED_FUND_OIS), QuoteId.of(StandardId.of(SCHEME, DSC_ID_VALUE[DSC_NB_DEPO_NODES + i]))); } } FWD3_NODES[0] = IborFixingDepositCurveNode.of(IborFixingDepositTemplate.of(USD_LIBOR_3M), QuoteId.of(StandardId.of(SCHEME, FWD3_ID_VALUE[0]))); for (int i = 0; i < FWD3_NB_FRA_NODES; i++) { FWD3_NODES[i + 1] = FraCurveNode.of(FraTemplate.of(FWD3_FRA_TENORS[i], USD_LIBOR_3M), QuoteId.of(StandardId.of(SCHEME, FWD3_ID_VALUE[i + 1]))); } for (int i = 0; i < FWD3_NB_IRS_NODES; i++) { FWD3_NODES[i + 1 + FWD3_NB_FRA_NODES] = FixedIborSwapCurveNode.of(FixedIborSwapTemplate.of(Period.ZERO, Tenor.of(FWD3_IRS_TENORS[i]), USD_FIXED_6M_LIBOR_3M), QuoteId.of(StandardId.of(SCHEME, FWD3_ID_VALUE[i + 1 + FWD3_NB_FRA_NODES]))); } ImmutableMarketDataBuilder builder = ImmutableMarketData.builder(VAL_DATE_BD); for (int i = 0; i < FWD3_NB_NODES; i++) { builder.addValue(QuoteId.of(StandardId.of(SCHEME, FWD3_ID_VALUE[i])), FWD3_MARKET_QUOTES[i]); } for (int i = 0; i < DSC_NB_NODES; i++) { builder.addValue(QuoteId.of(StandardId.of(SCHEME, DSC_ID_VALUE[i])), DSC_MARKET_QUOTES[i]); } ALL_QUOTES_BD = builder.build(); IList <CurveNode[]> groupDsc = new List <CurveNode[]>(); groupDsc.Add(DSC_NODES); CURVES_NODES.Add(groupDsc); IList <CurveNode[]> groupFwd3 = new List <CurveNode[]>(); groupFwd3.Add(FWD3_NODES); CURVES_NODES.Add(groupFwd3); IList <CurveMetadata> groupDsc = new List <CurveMetadata>(); groupDsc.Add(DefaultCurveMetadata.builder().curveName(DSCON_CURVE_NAME).xValueType(ValueType.YEAR_FRACTION).yValueType(ValueType.ZERO_RATE).dayCount(CURVE_DC).build()); CURVES_METADATA.Add(groupDsc); IList <CurveMetadata> groupFwd3 = new List <CurveMetadata>(); groupFwd3.Add(DefaultCurveMetadata.builder().curveName(FWD3_CURVE_NAME).xValueType(ValueType.YEAR_FRACTION).yValueType(ValueType.ZERO_RATE).dayCount(CURVE_DC).build()); CURVES_METADATA.Add(groupFwd3); }
private void loadFxRates(ImmutableMarketDataBuilder builder) { // TODO - load from CSV file - format to be defined builder.addValue(FxRateId.of(Currency.GBP, Currency.USD), FxRate.of(Currency.GBP, Currency.USD, 1.61)); }
static IsdaCompliantCreditCurveCalibratorBase() { ImmutableList.Builder <IsdaCreditCurveNode> dscNodeBuilder = ImmutableList.builder(); for (int i = 0; i < NUM_MM; i++) { Tenor tenor = Tenor.ofMonths(MM_MONTHS[i]); dscNodeBuilder.add(DepositIsdaCreditCurveNode.of(QuoteId.of(StandardId.of("OG", ID_VALUES[i])), ADJ_3D, BUS_ADJ, tenor, ACT_360)); } for (int i = NUM_MM; i < NUM_INSTRUMENTS; i++) { Tenor tenor = Tenor.ofYears(SWAP_YEARS[i - NUM_MM]); dscNodeBuilder.add(SwapIsdaCreditCurveNode.of(QuoteId.of(StandardId.of("OG", ID_VALUES[i])), ADJ_3D, BUS_ADJ, tenor, THIRTY_U_360, Frequency.P12M)); } DSC_NODES = dscNodeBuilder.build(); EXP_NODE_CDS = new ResolvedCdsTrade[NUM_TESTS][]; NODE_CDS = new CdsIsdaCreditCurveNode[NUM_TESTS][]; CDS_MARKET_DATA = new ImmutableMarketData[NUM_TESTS]; SPREADS = new double[NUM_TESTS][]; YIELD_CURVES = new ImmutableCreditRatesProvider[NUM_TESTS]; // case0 LocalDate tradeDate0 = LocalDate.of(2011, 6, 19); LocalDate startDate0 = LocalDate.of(2011, 3, 21); YIELD_CURVES[0] = createRatesProvider(tradeDate0, tradeDate0, 1d, 0.4); Period[] tenors = new Period[] { Period.ofMonths(6), Period.ofYears(1), Period.ofYears(3), Period.ofYears(5), Period.ofYears(7), Period.ofYears(10) }; int nTenors = tenors.Length; EXP_NODE_CDS[0] = new ResolvedCdsTrade[nTenors]; NODE_CDS[0] = new CdsIsdaCreditCurveNode[nTenors]; ImmutableMarketDataBuilder builderCredit0 = ImmutableMarketData.builder(tradeDate0); SPREADS[0] = new double[] { 0.00886315689995649, 0.00886315689995649, 0.0133044689825873, 0.0171490070952563, 0.0183903639181293, 0.0194721890639724 }; for (int i = 0; i < nTenors; ++i) { Cds product = Cds.of(BUY, LEGAL_ENTITY, EUR, 1d, startDate0, LocalDate.of(2011, 6, 20).plus(tenors[i]), Frequency.P3M, DEFAULT_CALENDAR, SPREADS[0][i]); EXP_NODE_CDS[0][i] = CdsTrade.builder().info(TradeInfo.builder().settlementDate(product.SettlementDateOffset.adjust(tradeDate0, REF_DATA)).build()).product(product).build().resolve(REF_DATA); CdsConvention conv = ImmutableCdsConvention.of("conv", EUR, ACT_360, Frequency.P3M, BUS_ADJ, CDS_SETTLE_STD); CdsTemplate temp = DatesCdsTemplate.of(startDate0, LocalDate.of(2011, 6, 20).plus(tenors[i]), conv); QuoteId id = QuoteId.of(StandardId.of("OG", tenors[i].ToString())); NODE_CDS[0][i] = CdsIsdaCreditCurveNode.ofParSpread(temp, id, LEGAL_ENTITY); builderCredit0.addValue(id, SPREADS[0][i]); } CDS_MARKET_DATA[0] = builderCredit0.build(); // case1 LocalDate tradeDate1 = LocalDate.of(2011, 3, 21); LocalDate snapDate1 = LocalDate.of(2011, 3, 18); LocalDate effDate1 = LocalDate.of(2011, 3, 20); //note this is a Sunday - for a standard CDS this would roll to the Monday. YIELD_CURVES[1] = createRatesProvider(tradeDate1, snapDate1, 1d, 0.4); tenors = new Period[] { Period.ofMonths(6), Period.ofYears(1), Period.ofYears(3), Period.ofYears(5), Period.ofYears(7), Period.ofYears(10) }; nTenors = tenors.Length; NODE_CDS[1] = new CdsIsdaCreditCurveNode[nTenors]; ImmutableMarketDataBuilder builderCredit1 = ImmutableMarketData.builder(tradeDate1); EXP_NODE_CDS[1] = new ResolvedCdsTrade[nTenors]; SPREADS[1] = new double[] { 0.027, 0.018, 0.012, 0.009, 0.007, 0.006 }; for (int i = 0; i < nTenors; ++i) { Cds product = Cds.of(BUY, LEGAL_ENTITY, EUR, 1d, effDate1, LocalDate.of(2011, 6, 20).plus(tenors[i]), P3M, DEFAULT_CALENDAR, SPREADS[1][i]); EXP_NODE_CDS[1][i] = CdsTrade.builder().info(TradeInfo.builder().settlementDate(product.SettlementDateOffset.adjust(tradeDate1, REF_DATA)).build()).product(product).build().resolve(REF_DATA); CdsConvention conv = ImmutableCdsConvention.builder().name("conv").currency(EUR).dayCount(ACT_360).paymentFrequency(P3M).startDateBusinessDayAdjustment(BusinessDayAdjustment.NONE).businessDayAdjustment(BUS_ADJ).settlementDateOffset(CDS_SETTLE_STD).build(); CdsTemplate temp = DatesCdsTemplate.of(effDate1, LocalDate.of(2011, 6, 20).plus(tenors[i]), conv); QuoteId id = QuoteId.of(StandardId.of("OG", tenors[i].ToString())); NODE_CDS[1][i] = CdsIsdaCreditCurveNode.ofParSpread(temp, id, LEGAL_ENTITY); builderCredit1.addValue(id, SPREADS[1][i]); } CDS_MARKET_DATA[1] = builderCredit1.build(); // case2 LocalDate tradeDate2 = LocalDate.of(2011, 5, 30); LocalDate snapDate2 = LocalDate.of(2011, 5, 29); YIELD_CURVES[2] = createRatesProvider(tradeDate2, snapDate2, 1d, 0.25); LocalDate[] matDates2 = new LocalDate[] { LocalDate.of(2011, 6, 20), LocalDate.of(2012, 5, 30), LocalDate.of(2014, 6, 20), LocalDate.of(2016, 6, 20), LocalDate.of(2018, 6, 20) }; int nMatDates2 = matDates2.Length; NODE_CDS[2] = new CdsIsdaCreditCurveNode[nMatDates2]; ImmutableMarketDataBuilder builderCredit2 = ImmutableMarketData.builder(tradeDate2); EXP_NODE_CDS[2] = new ResolvedCdsTrade[nMatDates2]; SPREADS[2] = new double[] { 0.05, 0.05, 0.05, 0.05, 0.05 }; for (int i = 0; i < nMatDates2; ++i) { Cds product = Cds.of(BUY, LEGAL_ENTITY, EUR, 1d, tradeDate2.plusDays(1), matDates2[i], P3M, DEFAULT_CALENDAR, SPREADS[2][i]).toBuilder().dayCount(THIRTY_U_360).build(); EXP_NODE_CDS[2][i] = CdsTrade.builder().info(TradeInfo.builder().settlementDate(product.SettlementDateOffset.adjust(tradeDate2, REF_DATA)).build()).product(product).build().resolve(REF_DATA); CdsConvention conv = ImmutableCdsConvention.builder().name("conv").currency(EUR).dayCount(THIRTY_U_360).paymentFrequency(P3M).rollConvention(RollConventions.NONE).businessDayAdjustment(BUS_ADJ).settlementDateOffset(CDS_SETTLE_STD).build(); CdsTemplate temp = DatesCdsTemplate.of(tradeDate2.plusDays(1), matDates2[i], conv); QuoteId id = QuoteId.of(StandardId.of("OG", matDates2[i].ToString())); NODE_CDS[2][i] = CdsIsdaCreditCurveNode.ofParSpread(temp, id, LEGAL_ENTITY); builderCredit2.addValue(id, SPREADS[2][i]); } CDS_MARKET_DATA[2] = builderCredit2.build(); // case3 LocalDate tradeDate3 = LocalDate.of(2011, 5, 30); LocalDate snapDate3 = LocalDate.of(2011, 5, 29); LocalDate effDate3 = LocalDate.of(2011, 7, 31); YIELD_CURVES[3] = createRatesProvider(tradeDate3, snapDate3, 1d, 0.25); LocalDate[] matDates3 = new LocalDate[] { LocalDate.of(2011, 11, 30), LocalDate.of(2012, 5, 30), LocalDate.of(2014, 5, 30), LocalDate.of(2016, 5, 30), LocalDate.of(2018, 5, 30), LocalDate.of(2021, 5, 30) }; int nMatDates3 = matDates3.Length; NODE_CDS[3] = new CdsIsdaCreditCurveNode[nMatDates3]; ImmutableMarketDataBuilder builderCredit3 = ImmutableMarketData.builder(tradeDate3); EXP_NODE_CDS[3] = new ResolvedCdsTrade[nMatDates3]; SPREADS[3] = new double[] { 0.07, 0.06, 0.05, 0.055, 0.06, 0.065 }; for (int i = 0; i < nMatDates3; ++i) { Cds product = Cds.builder().buySell(BUY).legalEntityId(LEGAL_ENTITY).currency(EUR).dayCount(ACT_365F).fixedRate(SPREADS[3][i]).notional(1d).paymentSchedule(PeriodicSchedule.builder().businessDayAdjustment(BusinessDayAdjustment.of(FOLLOWING, DEFAULT_CALENDAR)).startDate(effDate3).endDate(matDates3[i]).startDateBusinessDayAdjustment(BusinessDayAdjustment.NONE).endDateBusinessDayAdjustment(BusinessDayAdjustment.NONE).frequency(Frequency.P6M).rollConvention(RollConventions.NONE).stubConvention(StubConvention.LONG_INITIAL).build()).paymentOnDefault(PaymentOnDefault.ACCRUED_PREMIUM).protectionStart(ProtectionStartOfDay.BEGINNING).stepinDateOffset(DaysAdjustment.ofCalendarDays(1)).settlementDateOffset(CDS_SETTLE_STD).build(); EXP_NODE_CDS[3][i] = CdsTrade.builder().info(TradeInfo.builder().settlementDate(product.SettlementDateOffset.adjust(tradeDate3, REF_DATA)).build()).product(product).build().resolve(REF_DATA); CdsConvention conv = ImmutableCdsConvention.builder().name("conv").currency(EUR).dayCount(ACT_365F).paymentFrequency(Frequency.P6M).rollConvention(RollConventions.NONE).stubConvention(StubConvention.LONG_INITIAL).startDateBusinessDayAdjustment(BusinessDayAdjustment.NONE).businessDayAdjustment(BusinessDayAdjustment.of(FOLLOWING, DEFAULT_CALENDAR)).settlementDateOffset(CDS_SETTLE_STD).build(); CdsTemplate temp = DatesCdsTemplate.of(effDate3, matDates3[i], conv); QuoteId id = QuoteId.of(StandardId.of("OG", matDates3[i].ToString())); NODE_CDS[3][i] = CdsIsdaCreditCurveNode.ofParSpread(temp, id, LEGAL_ENTITY); builderCredit3.addValue(id, SPREADS[3][i]); } CDS_MARKET_DATA[3] = builderCredit3.build(); // case4: designed to trip the low rates/low spreads branch LocalDate tradeDate4 = LocalDate.of(2014, 1, 14); LocalDate snapDate4 = LocalDate.of(2014, 1, 13); YIELD_CURVES[4] = createRatesProvider(tradeDate4, snapDate4, 1d / 1000d, 0.4); int nSpreads4 = 6; NODE_CDS[4] = new CdsIsdaCreditCurveNode[nSpreads4]; ImmutableMarketDataBuilder builderCredit4 = ImmutableMarketData.builder(tradeDate4); SPREADS[4] = new double[nSpreads4]; Arrays.fill(SPREADS[4], 1.0e-4); EXP_NODE_CDS[4] = new ResolvedCdsTrade[nSpreads4]; for (int i = 0; i < nSpreads4; ++i) { Cds product = Cds.of(BUY, LEGAL_ENTITY, EUR, 1d, LocalDate.of(2013, 12, 20), LocalDate.of(2014, 3, 20).plus(tenors[i]), P3M, DEFAULT_CALENDAR, SPREADS[4][i]); EXP_NODE_CDS[4][i] = CdsTrade.builder().info(TradeInfo.builder().settlementDate(product.SettlementDateOffset.adjust(tradeDate4, REF_DATA)).build()).product(product).build().resolve(REF_DATA); CdsConvention conv = ImmutableCdsConvention.of("conv", EUR, ACT_360, P3M, BUS_ADJ, CDS_SETTLE_STD); CdsTemplate temp = DatesCdsTemplate.of(LocalDate.of(2013, 12, 20), LocalDate.of(2014, 3, 20).plus(tenors[i]), conv); QuoteId id = QuoteId.of(StandardId.of("OG", tenors[i].ToString())); NODE_CDS[4][i] = CdsIsdaCreditCurveNode.ofParSpread(temp, id, LEGAL_ENTITY); builderCredit4.addValue(id, SPREADS[4][i]); } CDS_MARKET_DATA[4] = builderCredit4.build(); }
static CalibrationZeroRateUsd3OisIrsBsTest() { DSC_NAMES[DSCON_CURVE_NAME] = USD; ISet <Index> usdFedFundSet = new HashSet <Index>(); usdFedFundSet.Add(USD_FED_FUND); IDX_NAMES[DSCON_CURVE_NAME] = usdFedFundSet; ISet <Index> usdLibor3Set = new HashSet <Index>(); usdLibor3Set.Add(USD_LIBOR_3M); IDX_NAMES[FWD3_CURVE_NAME] = usdLibor3Set; ISet <Index> usdLibor6Set = new HashSet <Index>(); usdLibor6Set.Add(USD_LIBOR_6M); IDX_NAMES[FWD6_CURVE_NAME] = usdLibor6Set; for (int i = 0; i < DSC_NB_DEPO_NODES; i++) { BusinessDayAdjustment bda = BusinessDayAdjustment.of(FOLLOWING, USNY); TermDepositConvention convention = ImmutableTermDepositConvention.of("USD-Dep", USD, bda, ACT_360, DaysAdjustment.ofBusinessDays(DSC_DEPO_OFFSET[i], USNY)); DSC_NODES[i] = TermDepositCurveNode.of(TermDepositTemplate.of(Period.ofDays(1), convention), QuoteId.of(StandardId.of(SCHEME, DSC_ID_VALUE[i]))); } for (int i = 0; i < DSC_NB_OIS_NODES; i++) { DSC_NODES[DSC_NB_DEPO_NODES + i] = FixedOvernightSwapCurveNode.of(FixedOvernightSwapTemplate.of(Period.ZERO, Tenor.of(DSC_OIS_TENORS[i]), USD_FIXED_1Y_FED_FUND_OIS), QuoteId.of(StandardId.of(SCHEME, DSC_ID_VALUE[DSC_NB_DEPO_NODES + i]))); } FWD3_NODES[0] = IborFixingDepositCurveNode.of(IborFixingDepositTemplate.of(USD_LIBOR_3M), QuoteId.of(StandardId.of(SCHEME, FWD3_ID_VALUE[0]))); for (int i = 0; i < FWD3_NB_FRA_NODES; i++) { FWD3_NODES[i + 1] = FraCurveNode.of(FraTemplate.of(FWD3_FRA_TENORS[i], USD_LIBOR_3M), QuoteId.of(StandardId.of(SCHEME, FWD3_ID_VALUE[i + 1]))); } for (int i = 0; i < FWD3_NB_IRS_NODES; i++) { FWD3_NODES[i + 1 + FWD3_NB_FRA_NODES] = FixedIborSwapCurveNode.of(FixedIborSwapTemplate.of(Period.ZERO, Tenor.of(FWD3_IRS_TENORS[i]), USD_FIXED_6M_LIBOR_3M), QuoteId.of(StandardId.of(SCHEME, FWD3_ID_VALUE[i + 1 + FWD3_NB_FRA_NODES]))); } FWD6_NODES[0] = IborFixingDepositCurveNode.of(IborFixingDepositTemplate.of(USD_LIBOR_6M), QuoteId.of(StandardId.of(SCHEME, FWD6_ID_VALUE[0]))); for (int i = 0; i < FWD6_NB_FRA_NODES; i++) { FWD6_NODES[i + 1] = FraCurveNode.of(FraTemplate.of(FWD6_FRA_TENORS[i], USD_LIBOR_6M), QuoteId.of(StandardId.of(SCHEME, FWD6_ID_VALUE[i + 1]))); } for (int i = 0; i < FWD6_NB_IRS_NODES; i++) { FWD6_NODES[i + 1 + FWD6_NB_FRA_NODES] = IborIborSwapCurveNode.of(IborIborSwapTemplate.of(Period.ZERO, Tenor.of(FWD6_IRS_TENORS[i]), USD_LIBOR_3M_LIBOR_6M), QuoteId.of(StandardId.of(SCHEME, FWD6_ID_VALUE[i + 1 + FWD6_NB_FRA_NODES]))); } ImmutableMarketDataBuilder builder = ImmutableMarketData.builder(VAL_DATE); for (int i = 0; i < DSC_NB_NODES; i++) { builder.addValue(QuoteId.of(StandardId.of(SCHEME, DSC_ID_VALUE[i])), DSC_MARKET_QUOTES[i]); } for (int i = 0; i < FWD3_NB_NODES; i++) { builder.addValue(QuoteId.of(StandardId.of(SCHEME, FWD3_ID_VALUE[i])), FWD3_MARKET_QUOTES[i]); } for (int i = 0; i < FWD6_NB_NODES; i++) { builder.addValue(QuoteId.of(StandardId.of(SCHEME, FWD6_ID_VALUE[i])), FWD6_MARKET_QUOTES[i]); } ALL_QUOTES = builder.build(); IList <CurveNode[]> groupDsc = new List <CurveNode[]>(); groupDsc.Add(DSC_NODES); CURVES_NODES.Add(groupDsc); IList <CurveNode[]> groupFwd3 = new List <CurveNode[]>(); groupFwd3.Add(FWD3_NODES); CURVES_NODES.Add(groupFwd3); IList <CurveNode[]> groupFwd6 = new List <CurveNode[]>(); groupFwd6.Add(FWD6_NODES); CURVES_NODES.Add(groupFwd6); IList <CurveMetadata> groupDsc = new List <CurveMetadata>(); groupDsc.Add(DefaultCurveMetadata.builder().curveName(DSCON_CURVE_NAME).xValueType(ValueType.YEAR_FRACTION).yValueType(ValueType.ZERO_RATE).dayCount(CURVE_DC).build()); CURVES_METADATA.Add(groupDsc); IList <CurveMetadata> groupFwd3 = new List <CurveMetadata>(); groupFwd3.Add(DefaultCurveMetadata.builder().curveName(FWD3_CURVE_NAME).xValueType(ValueType.YEAR_FRACTION).yValueType(ValueType.ZERO_RATE).dayCount(CURVE_DC).build()); CURVES_METADATA.Add(groupFwd3); IList <CurveMetadata> groupFwd6 = new List <CurveMetadata>(); groupFwd6.Add(DefaultCurveMetadata.builder().curveName(FWD6_CURVE_NAME).xValueType(ValueType.YEAR_FRACTION).yValueType(ValueType.ZERO_RATE).dayCount(CURVE_DC).build()); CURVES_METADATA.Add(groupFwd6); }