/**
* Copyright (C) 2016 - present by OpenGamma Inc. and the OpenGamma group of companies
*
* Please see distribution for license.
*/
package com.opengamma.strata.measure.fxopt;
import static com.opengamma.strata.basics.currency.Currency.EUR;
import static com.opengamma.strata.basics.currency.Currency.USD;
import static com.opengamma.strata.basics.date.DayCounts.ACT_360;
import static com.opengamma.strata.basics.date.DayCounts.ACT_365F;
import static com.opengamma.strata.product.common.LongShort.SHORT;
import static org.assertj.core.api.Assertions.assertThat;
import java.time.LocalDate;
import java.time.LocalTime;
import java.time.ZoneId;
import java.time.ZoneOffset;
import java.util.Set;
import org.testng.annotations.Test;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableMap;
import com.google.common.collect.ImmutableSet;
import com.opengamma.strata.basics.ReferenceData;
import com.opengamma.strata.basics.currency.AdjustablePayment;
import com.opengamma.strata.basics.currency.CurrencyAmount;
import com.opengamma.strata.basics.currency.CurrencyPair;
import com.opengamma.strata.basics.currency.FxRate;
import com.opengamma.strata.basics.currency.MultiCurrencyAmount;
import com.opengamma.strata.calc.Measure;
import com.opengamma.strata.calc.runner.CalculationParameters;
import com.opengamma.strata.calc.runner.FunctionRequirements;
import com.opengamma.strata.collect.array.DoubleArray;
import com.opengamma.strata.collect.array.DoubleMatrix;
import com.opengamma.strata.collect.result.Result;
import com.opengamma.strata.data.FxRateId;
import com.opengamma.strata.data.scenario.CurrencyScenarioArray;
import com.opengamma.strata.data.scenario.MultiCurrencyScenarioArray;
import com.opengamma.strata.data.scenario.ScenarioArray;
import com.opengamma.strata.data.scenario.ScenarioMarketData;
import com.opengamma.strata.market.curve.ConstantCurve;
import com.opengamma.strata.market.curve.Curve;
import com.opengamma.strata.market.curve.CurveId;
import com.opengamma.strata.market.curve.Curves;
import com.opengamma.strata.market.param.CurrencyParameterSensitivities;
import com.opengamma.strata.market.sensitivity.PointSensitivities;
import com.opengamma.strata.measure.Measures;
import com.opengamma.strata.measure.curve.TestMarketDataMap;
import com.opengamma.strata.measure.rate.RatesMarketDataLookup;
import com.opengamma.strata.pricer.datasets.RatesProviderDataSets;
import com.opengamma.strata.pricer.fxopt.BlackFxOptionSmileVolatilities;
import com.opengamma.strata.pricer.fxopt.BlackFxVanillaOptionTradePricer;
import com.opengamma.strata.pricer.fxopt.FxOptionVolatilitiesId;
import com.opengamma.strata.pricer.fxopt.FxOptionVolatilitiesName;
import com.opengamma.strata.pricer.fxopt.InterpolatedStrikeSmileDeltaTermStructure;
import com.opengamma.strata.pricer.rate.RatesProvider;
import com.opengamma.strata.product.TradeInfo;
import com.opengamma.strata.product.fx.FxSingle;
import com.opengamma.strata.product.fxopt.FxVanillaOption;
import com.opengamma.strata.product.fxopt.FxVanillaOptionTrade;
import com.opengamma.strata.product.fxopt.ResolvedFxVanillaOptionTrade;
/**
* Test {@link FxVanillaOptionTradeCalculationFunction}.
*/
@Test
public class FxVanillaOptionTradeCalculationFunctionTest {
private static final ReferenceData REF_DATA = ReferenceData.standard();
private static final LocalDate VAL_DATE = RatesProviderDataSets.VAL_DATE_2014_01_22;
private static final ZoneId ZONE = ZoneId.of("Z");
private static final LocalDate PAYMENT_DATE = LocalDate.of(2014, 5, 13);
private static final double NOTIONAL = 1.0e6;
private static final CurrencyAmount EUR_AMOUNT = CurrencyAmount.of(EUR, NOTIONAL);
private static final CurrencyAmount USD_AMOUNT = CurrencyAmount.of(USD, -NOTIONAL * 1.1d);
private static final FxSingle FX_PRODUCT = FxSingle.of(EUR_AMOUNT, USD_AMOUNT, PAYMENT_DATE);
private static final FxVanillaOption OPTION_PRODUCT = FxVanillaOption.builder()
.longShort(SHORT)
.expiryDate(LocalDate.of(2014, 5, 9))
.expiryTime(LocalTime.of(13, 10))
.expiryZone(ZONE)
.underlying(FX_PRODUCT)
.build();
private static final TradeInfo TRADE_INFO = TradeInfo.builder().tradeDate(VAL_DATE).build();
private static final LocalDate CASH_SETTLE_DATE = LocalDate.of(2014, 1, 25);
private static final AdjustablePayment PREMIUM = AdjustablePayment.of(EUR, NOTIONAL * 0.027, CASH_SETTLE_DATE);
public static final FxVanillaOptionTrade TRADE = FxVanillaOptionTrade.builder()
.premium(PREMIUM)
.product(OPTION_PRODUCT)
.info(TRADE_INFO)
.build();
public static final ResolvedFxVanillaOptionTrade RTRADE = TRADE.resolve(REF_DATA);
private static final CurveId DISCOUNT_CURVE_EUR_ID = CurveId.of("Default", "Discount-EUR");
private static final CurveId DISCOUNT_CURVE_USD_ID = CurveId.of("Default", "Discount-USD");
static final RatesMarketDataLookup RATES_LOOKUP = RatesMarketDataLookup.of(
ImmutableMap.of(EUR, DISCOUNT_CURVE_EUR_ID, USD, DISCOUNT_CURVE_USD_ID),
ImmutableMap.of());
private static final DoubleArray TIME_TO_EXPIRY = DoubleArray.of(0.01, 0.252, 0.501, 1.0, 2.0, 5.0);
private static final DoubleArray ATM = DoubleArray.of(0.175, 0.185, 0.18, 0.17, 0.16, 0.16);
private static final DoubleArray DELTA = DoubleArray.of(0.10, 0.25);
private static final DoubleMatrix RISK_REVERSAL = DoubleMatrix.ofUnsafe(new double[][] {
{-0.010, -0.0050}, {-0.011, -0.0060}, {-0.012, -0.0070},
{-0.013, -0.0080}, {-0.014, -0.0090}, {-0.014, -0.0090}});
private static final DoubleMatrix STRANGLE = DoubleMatrix.ofUnsafe(new double[][] {
{0.0300, 0.0100}, {0.0310, 0.0110}, {0.0320, 0.0120},
{0.0330, 0.0130}, {0.0340, 0.0140}, {0.0340, 0.0140}});
private static final InterpolatedStrikeSmileDeltaTermStructure SMILE_TERM =
InterpolatedStrikeSmileDeltaTermStructure.of(TIME_TO_EXPIRY, DELTA, ATM, RISK_REVERSAL, STRANGLE, ACT_365F);
private static final CurrencyPair CURRENCY_PAIR = CurrencyPair.of(EUR, USD);
public static final BlackFxOptionSmileVolatilities VOLS =
BlackFxOptionSmileVolatilities.of(
FxOptionVolatilitiesName.of("Test"),
CURRENCY_PAIR,
VAL_DATE.atStartOfDay(ZoneOffset.UTC),
SMILE_TERM);
private static final FxOptionVolatilitiesId VOL_ID = FxOptionVolatilitiesId.of("EUR-USD");
public static final FxOptionMarketDataLookup FX_OPTION_LOOKUP = FxOptionMarketDataLookup.of(CURRENCY_PAIR, VOL_ID);
private static final CalculationParameters PARAMS = CalculationParameters.of(RATES_LOOKUP, FX_OPTION_LOOKUP);
//-------------------------------------------------------------------------
public void test_requirementsAndCurrency() {
FxVanillaOptionTradeCalculationFunction function = new FxVanillaOptionTradeCalculationFunction();
Set<Measure> measures = function.supportedMeasures();
FunctionRequirements reqs = function.requirements(TRADE, measures, PARAMS, REF_DATA);
assertThat(reqs.getOutputCurrencies()).containsExactly(EUR, USD);
assertThat(reqs.getValueRequirements()).isEqualTo(
ImmutableSet.of(DISCOUNT_CURVE_EUR_ID, DISCOUNT_CURVE_USD_ID, VOL_ID));
assertThat(reqs.getTimeSeriesRequirements()).isEmpty();
assertThat(function.naturalCurrency(TRADE, REF_DATA)).isEqualTo(EUR);
}
public void test_simpleMeasures() {
FxVanillaOptionTradeCalculationFunction function = new FxVanillaOptionTradeCalculationFunction();
ScenarioMarketData md = marketData();
RatesProvider provider = RATES_LOOKUP.ratesProvider(md.scenario(0));
BlackFxVanillaOptionTradePricer pricer = BlackFxVanillaOptionTradePricer.DEFAULT;
MultiCurrencyAmount expectedPv = pricer.presentValue(RTRADE, provider, VOLS);
MultiCurrencyAmount expectedCurrencyExp = pricer.currencyExposure(RTRADE, provider, VOLS);
CurrencyAmount expectedCash = pricer.currentCash(RTRADE, VAL_DATE);
Set<Measure> measures = ImmutableSet.of(
Measures.PRESENT_VALUE,
Measures.PAR_SPREAD,
Measures.CURRENCY_EXPOSURE,
Measures.CURRENT_CASH,
Measures.RESOLVED_TARGET);
assertThat(function.calculate(TRADE, measures, PARAMS, md, REF_DATA))
.containsEntry(
Measures.PRESENT_VALUE, Result.success(MultiCurrencyScenarioArray.of(ImmutableList.of(expectedPv))))
.containsEntry(
Measures.CURRENCY_EXPOSURE, Result.success(MultiCurrencyScenarioArray.of(ImmutableList.of(expectedCurrencyExp))))
.containsEntry(
Measures.CURRENT_CASH, Result.success(CurrencyScenarioArray.of(ImmutableList.of(expectedCash))))
.containsEntry(
Measures.RESOLVED_TARGET, Result.success(RTRADE));
}
public void test_pv01() {
FxVanillaOptionTradeCalculationFunction function = new FxVanillaOptionTradeCalculationFunction();
ScenarioMarketData md = marketData();
RatesProvider provider = RATES_LOOKUP.ratesProvider(md.scenario(0));
BlackFxVanillaOptionTradePricer pricer = BlackFxVanillaOptionTradePricer.DEFAULT;
PointSensitivities pvPointSens = pricer.presentValueSensitivityRatesStickyStrike(RTRADE, provider, VOLS);
CurrencyParameterSensitivities pvParamSens = provider.parameterSensitivity(pvPointSens);
MultiCurrencyAmount expectedPv01 = pvParamSens.total().multipliedBy(1e-4);
CurrencyParameterSensitivities expectedBucketedPv01 = pvParamSens.multipliedBy(1e-4);
Set<Measure> measures = ImmutableSet.of(
Measures.PV01_CALIBRATED_SUM,
Measures.PV01_CALIBRATED_BUCKETED);
assertThat(function.calculate(TRADE, measures, PARAMS, md, REF_DATA))
.containsEntry(
Measures.PV01_CALIBRATED_SUM, Result.success(MultiCurrencyScenarioArray.of(ImmutableList.of(expectedPv01))))
.containsEntry(
Measures.PV01_CALIBRATED_BUCKETED, Result.success(ScenarioArray.of(ImmutableList.of(expectedBucketedPv01))));
}
//-------------------------------------------------------------------------
static ScenarioMarketData marketData() {
Curve curve1 = ConstantCurve.of(Curves.discountFactors("Test", ACT_360), 0.992);
Curve curve2 = ConstantCurve.of(Curves.discountFactors("Test", ACT_360), 0.991);
TestMarketDataMap md = new TestMarketDataMap(
VAL_DATE,
ImmutableMap.of(
DISCOUNT_CURVE_EUR_ID, curve1,
DISCOUNT_CURVE_USD_ID, curve2,
VOL_ID, VOLS,
FxRateId.of(EUR, USD), FxRate.of(EUR, USD, 1.62)),
ImmutableMap.of());
return md;
}
}