Esempio n. 1
0
        public virtual void test_quote_secenarioDefinition()
        {
//JAVA TO C# CONVERTER WARNING: Java wildcard generics have no direct equivalent in .NET:
//ORIGINAL LINE: java.util.List<com.opengamma.strata.calc.marketdata.PerturbationMapping<?>> perturbationMapping = new java.util.ArrayList<>();
            IList <PerturbationMapping <object> > perturbationMapping = new List <PerturbationMapping <object> >();
            int nScenarios = 3;

            foreach (KeyValuePair <QuoteId, double> entry in MARKET_QUOTES.entrySet())
            {
                DoubleArray shifts = DoubleArray.of(nScenarios, n => Math.Pow(0.9, n));
                ScenarioPerturbation <double> perturb = GenericDoubleShifts.of(ShiftType.SCALED, shifts);
                perturbationMapping.Add(PerturbationMapping.of(MarketDataFilter.ofId(entry.Key), perturb));
            }
            ScenarioDefinition    scenarioDefinition   = ScenarioDefinition.ofMappings(perturbationMapping);
            ScenarioMarketData    marketDataCalibrated = StandardComponents.marketDataFactory().createMultiScenario(REQUIREMENTS, SCENARIO_CONFIG, MARKET_DATA, REF_DATA, scenarioDefinition);
            Results               results = CALC_RUNNER.calculateMultiScenario(RULES, TARGETS, COLUMN, marketDataCalibrated, REF_DATA);
            CurrencyScenarioArray pvs     = results.get(0, 0, typeof(CurrencyScenarioArray)).Value;

            for (int i = 0; i < nScenarios; ++i)
            {
                ImmutableMap.Builder <QuoteId, double> builder = ImmutableMap.builder();
                foreach (KeyValuePair <QuoteId, double> entry in MARKET_QUOTES.entrySet())
                {
                    builder.put(entry.Key, entry.Value * Math.Pow(0.9, i));
                }
                ImmutableMarketData shiftedMarketData           = ImmutableMarketData.builder(VALUATION_DATE).addValueMap(builder.build()).addValueMap(MARKET_FX_QUOTES).build();
                MarketData          shiftedMarketDataCalibrated = StandardComponents.marketDataFactory().create(REQUIREMENTS, CONFIG, shiftedMarketData, REF_DATA);
                Results             shiftedResults = CALC_RUNNER.calculate(RULES, TARGETS, COLUMN, shiftedMarketDataCalibrated, REF_DATA);
                CurrencyAmount      pv             = shiftedResults.get(0, 0, typeof(CurrencyAmount)).Value;
                assertEquals(pvs.get(i), pv);
            }
        }
Esempio n. 2
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        public virtual void test_parameter_secenarioDefinition()
        {
//JAVA TO C# CONVERTER WARNING: Java wildcard generics have no direct equivalent in .NET:
//ORIGINAL LINE: java.util.List<com.opengamma.strata.calc.marketdata.PerturbationMapping<?>> perturbationMapping = new java.util.ArrayList<>();
            IList <PerturbationMapping <object> > perturbationMapping = new List <PerturbationMapping <object> >();
            int nVolParams             = EXP_VOLS.ParameterCount;
            int nScenarios             = 3;
            PointShiftsBuilder builder = PointShifts.builder(ShiftType.SCALED);

            for (int i = 0; i < nVolParams; ++i)
            {
                object id = EXP_VOLS.getParameterMetadata(i).Identifier;
                for (int j = 0; j < nScenarios; ++j)
                {
                    builder.addShift(j, id, Math.Pow(0.9, j));
                }
            }
            ScenarioPerturbation <ParameterizedData> perturb = builder.build();

            perturbationMapping.Add(PerturbationMapping.of(MarketDataFilter.ofId(VOL_ID), perturb));
            ScenarioDefinition    scenarioDefinition   = ScenarioDefinition.ofMappings(perturbationMapping);
            ScenarioMarketData    marketDataCalibrated = StandardComponents.marketDataFactory().createMultiScenario(REQUIREMENTS, SCENARIO_CONFIG, MARKET_DATA, REF_DATA, scenarioDefinition);
            Results               results = CALC_RUNNER.calculateMultiScenario(RULES, TARGETS, COLUMN, marketDataCalibrated, REF_DATA);
            CurrencyScenarioArray pvs     = results.get(0, 0, typeof(CurrencyScenarioArray)).Value;

            for (int i = 0; i < nScenarios; ++i)
            {
                int index = i;
                BlackFxOptionSmileVolatilities shiftedSmile = EXP_VOLS.withPerturbation((j, v, m) => Math.Pow(0.9, index) * v);
                CurrencyAmount pv = PRICER.presentValue(OPTION_TRADE.resolve(REF_DATA), EXP_RATES, shiftedSmile).convertedTo(USD, EXP_RATES);
                assertEquals(pvs.get(i), pv);
            }
        }
        // obtains the data and calculates the grid of results
        private static void calculate(CalculationRunner runner)
        {
            // the trade that will have measures calculated
            IList <Trade> trades = ImmutableList.of(createVanillaFixedVsLibor3mSwap());

            // the columns, specifying the measures to be calculated
            IList <Column> columns = ImmutableList.of(Column.of(Measures.PRESENT_VALUE), Column.of(Measures.PV01_CALIBRATED_SUM));

            // use the built-in example market data
            ExampleMarketDataBuilder marketDataBuilder = ExampleMarketData.builder();

            // the complete set of rules for calculating measures
            LocalDate            valuationDate = LocalDate.of(2014, 1, 22);
            CalculationFunctions functions     = StandardComponents.calculationFunctions();
            CalculationRules     rules         = CalculationRules.of(functions, Currency.USD, marketDataBuilder.ratesLookup(valuationDate));

            // mappings that select which market data to apply perturbations to
            // this applies the perturbations above to all curves
            PerturbationMapping <Curve> mapping = PerturbationMapping.of(MarketDataFilter.ofIdType(typeof(CurveId)), CurveParallelShifts.absolute(0, ONE_BP));

            // create a scenario definition containing the single mapping above
            // this creates two scenarios - one for each perturbation in the mapping
            ScenarioDefinition scenarioDefinition = ScenarioDefinition.ofMappings(mapping);

            // build a market data snapshot for the valuation date
            MarketData marketData = marketDataBuilder.buildSnapshot(valuationDate);

            // the reference data, such as holidays and securities
            ReferenceData refData = ReferenceData.standard();

            // calculate the results
            MarketDataRequirements reqs = MarketDataRequirements.of(rules, trades, columns, refData);
            ScenarioMarketData     scenarioMarketData = marketDataFactory().createMultiScenario(reqs, MarketDataConfig.empty(), marketData, refData, scenarioDefinition);
            Results results = runner.calculateMultiScenario(rules, trades, columns, scenarioMarketData, refData);

            // TODO Replace the results processing below with a report once the reporting framework supports scenarios

            // The results are lists of currency amounts containing one value for each scenario
//JAVA TO C# CONVERTER WARNING: Java wildcard generics have no direct equivalent in .NET:
//ORIGINAL LINE: com.opengamma.strata.data.scenario.ScenarioArray<?> pvList = (com.opengamma.strata.data.scenario.ScenarioArray<?>) results.get(0, 0).getValue();
            ScenarioArray <object> pvList = (ScenarioArray <object>)results.get(0, 0).Value;
//JAVA TO C# CONVERTER WARNING: Java wildcard generics have no direct equivalent in .NET:
//ORIGINAL LINE: com.opengamma.strata.data.scenario.ScenarioArray<?> pv01List = (com.opengamma.strata.data.scenario.ScenarioArray<?>) results.get(0, 1).getValue();
            ScenarioArray <object> pv01List = (ScenarioArray <object>)results.get(0, 1).Value;

            double       pvBase       = ((CurrencyAmount)pvList.get(0)).Amount;
            double       pvShifted    = ((CurrencyAmount)pvList.get(1)).Amount;
            double       pv01Base     = ((CurrencyAmount)pv01List.get(0)).Amount;
            NumberFormat numberFormat = new DecimalFormat("###,##0.00", new DecimalFormatSymbols(Locale.ENGLISH));

            Console.WriteLine("                         PV (base) = " + numberFormat.format(pvBase));
            Console.WriteLine("             PV (1 bp curve shift) = " + numberFormat.format(pvShifted));
            Console.WriteLine("PV01 (algorithmic differentiation) = " + numberFormat.format(pv01Base));
            Console.WriteLine("          PV01 (finite difference) = " + numberFormat.format(pvShifted - pvBase));
        }
Esempio n. 4
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        private static ScenarioDefinition buildHistoricalScenarios(IDictionary <LocalDate, RatesCurveGroup> historicalCurves, IList <LocalDate> scenarioDates)
        {
            // extract the curves to perturb
//JAVA TO C# CONVERTER TODO TASK: Most Java stream collectors are not converted by Java to C# Converter:
            IList <Curve> usdDiscountCurves = scenarioDates.Select(date => historicalCurves[date]).Select(group => group.findDiscountCurve(Currency.USD).get()).collect(toImmutableList());

//JAVA TO C# CONVERTER TODO TASK: Most Java stream collectors are not converted by Java to C# Converter:
            IList <Curve> libor3mCurves = scenarioDates.Select(date => historicalCurves[date]).Select(group => group.findForwardCurve(IborIndices.USD_LIBOR_3M).get()).collect(toImmutableList());

//JAVA TO C# CONVERTER TODO TASK: Most Java stream collectors are not converted by Java to C# Converter:
            IList <Curve> libor6mCurves = scenarioDates.Select(date => historicalCurves[date]).Select(group => group.findForwardCurve(IborIndices.USD_LIBOR_6M).get()).collect(toImmutableList());

            // create mappings which will cause the point shift perturbations generated above
            // to be applied to the correct curves
            PerturbationMapping <ParameterizedData> discountCurveMappings = PerturbationMapping.of(MarketDataFilter.ofName(CurveName.of("USD-Disc")), buildShifts(usdDiscountCurves));

            PerturbationMapping <ParameterizedData> libor3mMappings = PerturbationMapping.of(MarketDataFilter.ofName(CurveName.of("USD-3ML")), buildShifts(libor3mCurves));

            PerturbationMapping <ParameterizedData> libor6mMappings = PerturbationMapping.of(MarketDataFilter.ofName(CurveName.of("USD-6ML")), buildShifts(libor6mCurves));

            // create a scenario definition from these mappings
            return(ScenarioDefinition.ofMappings(discountCurveMappings, libor3mMappings, libor6mMappings));
        }
Esempio n. 5
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        public virtual void test_builtData()
        {
//JAVA TO C# CONVERTER WARNING: Java wildcard generics have no direct equivalent in .NET:
//ORIGINAL LINE: java.util.List<com.opengamma.strata.calc.marketdata.PerturbationMapping<?>> perturbationMapping = new java.util.ArrayList<>();
            IList <PerturbationMapping <object> > perturbationMapping = new List <PerturbationMapping <object> >();
            int nScenarios = 3;

            foreach (KeyValuePair <QuoteId, double> entry in MARKET_QUOTES.entrySet())
            {
                DoubleArray shifts = DoubleArray.of(nScenarios, n => Math.Pow(0.9, n));
                ScenarioPerturbation <double> perturb = GenericDoubleShifts.of(ShiftType.SCALED, shifts);
                perturbationMapping.Add(PerturbationMapping.of(MarketDataFilter.ofId(entry.Key), perturb));
            }
            ScenarioDefinition    scenarioDefinition   = ScenarioDefinition.ofMappings(perturbationMapping);
            ImmutableMarketData   dataWithSurface      = ImmutableMarketData.builder(VALUATION_DATE).addValueMap(MARKET_QUOTES).addValueMap(MARKET_FX_QUOTES).addValue(VOL_ID, EXP_VOLS).addValue(RatesCurveGroupId.of(CURVE_GROUP_NAME), RatesCurveGroup.ofCurves(CURVE_GROUP_DEFINITION, EXP_RATES.toImmutableRatesProvider().DiscountCurves.values())).build();
            ScenarioMarketData    marketDataCalibrated = StandardComponents.marketDataFactory().createMultiScenario(REQUIREMENTS, SCENARIO_CONFIG, dataWithSurface, REF_DATA, scenarioDefinition);
            Results               results  = CALC_RUNNER.calculateMultiScenario(RULES, TARGETS, COLUMN, marketDataCalibrated, REF_DATA);
            CurrencyScenarioArray computed = results.get(0, 0, typeof(CurrencyScenarioArray)).Value;
            CurrencyAmount        expected = PRICER.presentValue(OPTION_TRADE.resolve(REF_DATA), EXP_RATES, EXP_VOLS).convertedTo(USD, EXP_RATES);

            // dependency graph is absent, thus scenarios are not created
            assertTrue(computed.ScenarioCount == 1);
            assertEquals(computed.get(0), expected);
        }