// obtains the data and calculates the grid of results
        private static void calculate(CalculationRunner runner)
        {
            // the trades that will have measures calculated
            IList <Trade> trades = createSwapTrades();

            // the columns, specifying the measures to be calculated
            IList <Column> columns = ImmutableList.of(Column.of(Measures.LEG_INITIAL_NOTIONAL), Column.of(Measures.PRESENT_VALUE), Column.of(Measures.LEG_PRESENT_VALUE), Column.of(Measures.PV01_CALIBRATED_SUM), Column.of(Measures.PAR_RATE), Column.of(Measures.ACCRUED_INTEREST), Column.of(Measures.PV01_CALIBRATED_BUCKETED), Column.of(AdvancedMeasures.PV01_SEMI_PARALLEL_GAMMA_BUCKETED));

            // use the built-in example market data
            LocalDate valuationDate = LocalDate.of(2014, 1, 22);
            ExampleMarketDataBuilder marketDataBuilder = ExampleMarketData.builder();
            MarketData marketData = marketDataBuilder.buildSnapshot(valuationDate);

            // the complete set of rules for calculating measures
            CalculationFunctions functions = StandardComponents.calculationFunctions();
            CalculationRules     rules     = CalculationRules.of(functions, marketDataBuilder.ratesLookup(valuationDate));

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

            // calculate the results
            Results results = runner.calculate(rules, trades, columns, marketData, refData);

            // use the report runner to transform the engine results into a trade report
            ReportCalculationResults calculationResults = ReportCalculationResults.of(valuationDate, trades, columns, results, functions, refData);

            TradeReportTemplate reportTemplate = ExampleData.loadTradeReportTemplate("swap-report-template");
            TradeReport         tradeReport    = TradeReport.of(calculationResults, reportTemplate);

            tradeReport.writeAsciiTable(System.out);
        }
예제 #2
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        // obtains the data and calculates the grid of results
        private static void calculate(CalculationRunner runner)
        {
            // the trades that will have measures calculated
            IList <Trade> trades = ImmutableList.of(createFutureTrade1(), createFutureTrade2(), createOptionTrade1(), createOptionTrade2());

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

            // use the built-in example market data
            LocalDate valuationDate = LocalDate.of(2014, 1, 22);
            ExampleMarketDataBuilder marketDataBuilder = ExampleMarketData.builder();
            MarketData marketData = marketDataBuilder.buildSnapshot(valuationDate);

            // the complete set of rules for calculating measures
            CalculationFunctions functions = StandardComponents.calculationFunctions();
            CalculationRules     rules     = CalculationRules.of(functions);

            // the reference data, such as holidays and securities
//JAVA TO C# CONVERTER WARNING: Java wildcard generics have no direct equivalent in .NET:
//ORIGINAL LINE: com.opengamma.strata.basics.ReferenceData refData = com.opengamma.strata.basics.ImmutableReferenceData.of(com.google.common.collect.ImmutableMap.of<com.opengamma.strata.basics.ReferenceDataId<?>, Object>(FGBL_MAR14_ID, FGBL_MAR14, OGBL_MAR14_C150_ID, OGBL_MAR14_C150, ED_MAR14_ID, ED_MAR14));
            ReferenceData refData = ImmutableReferenceData.of(ImmutableMap.of <ReferenceDataId <object>, object>(FGBL_MAR14_ID, FGBL_MAR14, OGBL_MAR14_C150_ID, OGBL_MAR14_C150, ED_MAR14_ID, ED_MAR14));

            // calculate the results
            Results results = runner.calculate(rules, trades, columns, marketData, refData);

            // use the report runner to transform the engine results into a trade report
            ReportCalculationResults calculationResults = ReportCalculationResults.of(valuationDate, trades, columns, results, functions, refData);

            TradeReportTemplate reportTemplate = ExampleData.loadTradeReportTemplate("security-report-template");
            TradeReport         tradeReport    = TradeReport.of(calculationResults, reportTemplate);

            tradeReport.writeAsciiTable(System.out);
        }
        /// <summary>
        /// Tests the full set of results against a golden copy.
        /// </summary>
        public virtual void testResults()
        {
            IList <Trade> trades = ImmutableList.of(createTrade1());

            IList <Column> columns = ImmutableList.of(Column.of(Measures.LEG_INITIAL_NOTIONAL), Column.of(Measures.PRESENT_VALUE), Column.of(Measures.LEG_PRESENT_VALUE), Column.of(Measures.PV01_CALIBRATED_SUM), Column.of(Measures.ACCRUED_INTEREST));

            ExampleMarketDataBuilder marketDataBuilder = ExampleMarketData.builder();

            LocalDate        valuationDate = LocalDate.of(2009, 7, 31);
            CalculationRules rules         = CalculationRules.of(StandardComponents.calculationFunctions(), Currency.USD, marketDataBuilder.ratesLookup(valuationDate));

            MarketData marketData = marketDataBuilder.buildSnapshot(valuationDate);

            // using the direct executor means there is no need to close/shutdown the runner
            CalculationTasks       tasks = CalculationTasks.of(rules, trades, columns, REF_DATA);
            MarketDataRequirements reqs  = tasks.requirements(REF_DATA);
            MarketData             calibratedMarketData = marketDataFactory().create(reqs, MarketDataConfig.empty(), marketData, REF_DATA);
            CalculationTaskRunner  runner = CalculationTaskRunner.of(MoreExecutors.newDirectExecutorService());
            Results results = runner.calculate(tasks, calibratedMarketData, REF_DATA);

            ReportCalculationResults calculationResults = ReportCalculationResults.of(valuationDate, trades, columns, results);

            TradeReportTemplate reportTemplate = ExampleData.loadTradeReportTemplate("swap-report-regression-test-template");
            TradeReport         tradeReport    = TradeReport.of(calculationResults, reportTemplate);

            string expectedResults = ExampleData.loadExpectedResults("swap-report");

            TradeReportRegressionTestUtils.assertAsciiTableEquals(tradeReport.toAsciiTableString(), expectedResults);
        }
        // obtains the data and calculates the grid of results
        private static void calculate(CalculationRunner runner)
        {
            // the trades that will have measures calculated
            IList <Trade> trades = createSwapTrades();

            // the columns, specifying the measures to be calculated
            IList <Column> columns = ImmutableList.of(Column.of(Measures.PRESENT_VALUE), Column.of(Measures.PAR_RATE), Column.of(Measures.PV01_MARKET_QUOTE_BUCKETED), Column.of(Measures.PV01_CALIBRATED_BUCKETED));

            // load quotes
            ImmutableMap <QuoteId, double> quotesCcp1 = QuotesCsvLoader.load(VAL_DATE, QUOTES_RESOURCE_CCP1);
            ImmutableMap <QuoteId, double> quotesCcp2 = QuotesCsvLoader.load(VAL_DATE, QUOTES_RESOURCE_CCP2);

            // load fixings
            ImmutableMap <ObservableId, LocalDateDoubleTimeSeries> fixings = FixingSeriesCsvLoader.load(FIXINGS_RESOURCE);

            // create the market data
            MarketData marketData = ImmutableMarketData.builder(VAL_DATE).addValueMap(quotesCcp1).addValueMap(quotesCcp2).addTimeSeriesMap(fixings).build();

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

            // load the curve definition
            IDictionary <CurveGroupName, RatesCurveGroupDefinition> defnsCcp1 = RatesCalibrationCsvLoader.load(GROUPS_RESOURCE_CCP1, SETTINGS_RESOURCE_CCP1, CALIBRATION_RESOURCE_CCP1);
            IDictionary <CurveGroupName, RatesCurveGroupDefinition> defnsCcp2 = RatesCalibrationCsvLoader.load(GROUPS_RESOURCE_CCP2, SETTINGS_RESOURCE_CCP2, CALIBRATION_RESOURCE_CCP2);
            RatesCurveGroupDefinition curveGroupDefinitionCcp1 = defnsCcp1[CURVE_GROUP_NAME_CCP1].filtered(VAL_DATE, refData);
            RatesCurveGroupDefinition curveGroupDefinitionCcp2 = defnsCcp2[CURVE_GROUP_NAME_CCP2].filtered(VAL_DATE, refData);

            // the configuration that defines how to create the curves when a curve group is requested
            MarketDataConfig marketDataConfig = MarketDataConfig.builder().add(CURVE_GROUP_NAME_CCP1, curveGroupDefinitionCcp1).add(CURVE_GROUP_NAME_CCP2, curveGroupDefinitionCcp2).build();

            // the complete set of rules for calculating measures
            CalculationFunctions  functions       = StandardComponents.calculationFunctions();
            RatesMarketDataLookup ratesLookupCcp1 = RatesMarketDataLookup.of(curveGroupDefinitionCcp1);
            RatesMarketDataLookup ratesLookupCcp2 = RatesMarketDataLookup.of(curveGroupDefinitionCcp2);
            // choose RatesMarketDataLookup instance based on counterparty
            TradeCounterpartyCalculationParameter perCounterparty = TradeCounterpartyCalculationParameter.of(ImmutableMap.of(CCP1_ID, ratesLookupCcp1, CCP2_ID, ratesLookupCcp2), ratesLookupCcp1);
            CalculationRules rules = CalculationRules.of(functions, perCounterparty);

            // calibrate the curves and calculate the results
            MarketDataRequirements reqs = MarketDataRequirements.of(rules, trades, columns, refData);
            MarketData             calibratedMarketData = marketDataFactory().create(reqs, marketDataConfig, marketData, refData);
            Results results = runner.calculate(rules, trades, columns, calibratedMarketData, refData);

            // use the report runner to transform the engine results into a trade report
            ReportCalculationResults calculationResults = ReportCalculationResults.of(VAL_DATE, trades, columns, results, functions, refData);
            TradeReportTemplate      reportTemplate     = ExampleData.loadTradeReportTemplate("swap-report-template2");
            TradeReport tradeReport = TradeReport.of(calculationResults, reportTemplate);

            tradeReport.writeAsciiTable(System.out);
        }
        // obtains the data and calculates the grid of results
        private static void calculate(CalculationRunner runner)
        {
            // the trades that will have measures calculated
            IList <Trade> trades = createSwapTrades();

            // the columns, specifying the measures to be calculated
            IList <Column> columns = ImmutableList.of(Column.of(Measures.LEG_INITIAL_NOTIONAL), Column.of(Measures.PRESENT_VALUE), Column.of(Measures.LEG_PRESENT_VALUE), Column.of(Measures.PV01_CALIBRATED_SUM), Column.of(Measures.PAR_RATE), Column.of(Measures.ACCRUED_INTEREST), Column.of(Measures.PV01_CALIBRATED_BUCKETED), Column.of(AdvancedMeasures.PV01_SEMI_PARALLEL_GAMMA_BUCKETED));

            // load quotes
            ImmutableMap <QuoteId, double> quotes = QuotesCsvLoader.load(VAL_DATE, QUOTES_RESOURCE);

            // load fixings
            ImmutableMap <ObservableId, LocalDateDoubleTimeSeries> fixings = FixingSeriesCsvLoader.load(FIXINGS_RESOURCE);

            // create the market data
            MarketData marketData = MarketData.of(VAL_DATE, quotes, fixings);

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

            // load the curve definition
            IDictionary <CurveGroupName, RatesCurveGroupDefinition> defns = RatesCalibrationCsvLoader.load(GROUPS_RESOURCE, SETTINGS_RESOURCE, CALIBRATION_RESOURCE);
            RatesCurveGroupDefinition curveGroupDefinition = defns[CURVE_GROUP_NAME].filtered(VAL_DATE, refData);

            // the configuration that defines how to create the curves when a curve group is requested
            MarketDataConfig marketDataConfig = MarketDataConfig.builder().add(CURVE_GROUP_NAME, curveGroupDefinition).build();

            // the complete set of rules for calculating measures
            CalculationFunctions  functions   = StandardComponents.calculationFunctions();
            RatesMarketDataLookup ratesLookup = RatesMarketDataLookup.of(curveGroupDefinition);
            CalculationRules      rules       = CalculationRules.of(functions, ratesLookup);

            // calibrate the curves and calculate the results
            MarketDataRequirements reqs = MarketDataRequirements.of(rules, trades, columns, refData);
            MarketData             calibratedMarketData = marketDataFactory().create(reqs, marketDataConfig, marketData, refData);
            Results results = runner.calculate(rules, trades, columns, calibratedMarketData, refData);

            // use the report runner to transform the engine results into a trade report
            ReportCalculationResults calculationResults = ReportCalculationResults.of(VAL_DATE, trades, columns, results, functions, refData);
            TradeReportTemplate      reportTemplate     = ExampleData.loadTradeReportTemplate("swap-report-template");
            TradeReport tradeReport = TradeReport.of(calculationResults, reportTemplate);

            tradeReport.writeAsciiTable(System.out);
        }