/// <summary>
        /// Test that ScenarioArrays containing a single value are unwrapped when calling calculateAsync().
        /// </summary>
        public virtual void unwrapScenarioResultsAsync()
        {
            ScenarioArray <string> scenarioResult = ScenarioArray.of("foo");
            ScenarioResultFunction fn             = new ScenarioResultFunction(TestingMeasures.PRESENT_VALUE, scenarioResult);
            CalculationTaskCell    cell           = CalculationTaskCell.of(0, 0, TestingMeasures.PRESENT_VALUE, NATURAL);
            CalculationTask        task           = CalculationTask.of(TARGET, fn, cell);
            Column           column = Column.of(TestingMeasures.PRESENT_VALUE);
            CalculationTasks tasks  = CalculationTasks.of(ImmutableList.of(task), ImmutableList.of(column));

            // using the direct executor means there is no need to close/shutdown the runner
            CalculationTaskRunner test = CalculationTaskRunner.of(MoreExecutors.newDirectExecutorService());
            Listener listener          = new Listener();

            MarketData marketData = MarketData.empty(VAL_DATE);

            test.calculateAsync(tasks, marketData, REF_DATA, listener);
            CalculationResult calculationResult1 = listener.result;
//JAVA TO C# CONVERTER WARNING: Java wildcard generics have no direct equivalent in .NET:
//ORIGINAL LINE: com.opengamma.strata.collect.result.Result<?> result1 = calculationResult1.getResult();
            Result <object> result1 = calculationResult1.Result;

            // Check the result contains the string directly, not the result wrapping the string
            assertThat(result1).hasValue("foo");

            test.calculateMultiScenarioAsync(tasks, ScenarioMarketData.of(1, marketData), REF_DATA, listener);
            CalculationResult calculationResult2 = listener.result;
//JAVA TO C# CONVERTER WARNING: Java wildcard generics have no direct equivalent in .NET:
//ORIGINAL LINE: com.opengamma.strata.collect.result.Result<?> result2 = calculationResult2.getResult();
            Result <object> result2 = calculationResult2.Result;

            // Check the result contains the scenario result wrapping the string
            assertThat(result2).hasValue(scenarioResult);
        }
        /// <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);
        }
Ejemplo n.º 3
0
        /// <summary>
        /// End-to-end test for curve calibration and round-tripping that uses the <seealso cref="MarketDataFactory"/>
        /// to calibrate a curve and calculate PVs for the instruments at the curve nodes.
        ///
        /// This tests the full pipeline of market data functions:
        ///   - Par rates
        ///   - Curve group (including calibration)
        ///   - Individual curves
        ///   - Discount factors
        /// </summary>
        public virtual void roundTripFraAndFixedFloatSwap()
        {
            // Configuration and market data for the curve ---------------------------------

            string fra3x6 = "fra3x6";
            string fra6x9 = "fra6x9";
            string swap1y = "swap1y";
            string swap2y = "swap2y";
            string swap3y = "swap3y";

            FraCurveNode           fra3x6Node = fraNode(3, fra3x6);
            FraCurveNode           fra6x9Node = fraNode(6, fra6x9);
            FixedIborSwapCurveNode swap1yNode = fixedIborSwapNode(Tenor.TENOR_1Y, swap1y);
            FixedIborSwapCurveNode swap2yNode = fixedIborSwapNode(Tenor.TENOR_2Y, swap2y);
            FixedIborSwapCurveNode swap3yNode = fixedIborSwapNode(Tenor.TENOR_3Y, swap3y);

            IDictionary <ObservableId, double> parRateData = ImmutableMap.builder <ObservableId, double>().put(id(fra3x6), 0.0037).put(id(fra6x9), 0.0054).put(id(swap1y), 0.005).put(id(swap2y), 0.0087).put(id(swap3y), 0.012).build();

            LocalDate valuationDate = date(2011, 3, 8);

            // Build the trades from the node instruments
            MarketData quotes      = ImmutableMarketData.of(valuationDate, parRateData);
            Trade      fra3x6Trade = fra3x6Node.trade(1d, quotes, REF_DATA);
            Trade      fra6x9Trade = fra6x9Node.trade(1d, quotes, REF_DATA);
            Trade      swap1yTrade = swap1yNode.trade(1d, quotes, REF_DATA);
            Trade      swap2yTrade = swap2yNode.trade(1d, quotes, REF_DATA);
            Trade      swap3yTrade = swap3yNode.trade(1d, quotes, REF_DATA);

            IList <Trade> trades = ImmutableList.of(fra3x6Trade, fra6x9Trade, swap1yTrade, swap2yTrade, swap3yTrade);

            IList <CurveNode> nodes     = ImmutableList.of(fra3x6Node, fra6x9Node, swap1yNode, swap2yNode, swap3yNode);
            CurveGroupName    groupName = CurveGroupName.of("Curve Group");
            CurveName         curveName = CurveName.of("FRA and Fixed-Float Swap Curve");

            InterpolatedNodalCurveDefinition curveDefn = InterpolatedNodalCurveDefinition.builder().name(curveName).xValueType(ValueType.YEAR_FRACTION).yValueType(ValueType.ZERO_RATE).dayCount(DayCounts.ACT_ACT_ISDA).nodes(nodes).interpolator(CurveInterpolators.DOUBLE_QUADRATIC).extrapolatorLeft(CurveExtrapolators.FLAT).extrapolatorRight(CurveExtrapolators.FLAT).build();

            RatesCurveGroupDefinition groupDefn = RatesCurveGroupDefinition.builder().name(groupName).addCurve(curveDefn, Currency.USD, IborIndices.USD_LIBOR_3M).build();

            MarketDataConfig marketDataConfig = MarketDataConfig.builder().add(groupName, groupDefn).build();

            // Rules for market data and calculations ---------------------------------

            RatesMarketDataLookup ratesLookup      = RatesMarketDataLookup.of(groupDefn);
            CalculationRules      calculationRules = CalculationRules.of(functions(), Currency.USD, ratesLookup);

            // Calculate the results and check the PVs for the node instruments are zero ----------------------

            IList <Column> columns         = ImmutableList.of(Column.of(Measures.PRESENT_VALUE));
            MarketData     knownMarketData = MarketData.of(date(2011, 3, 8), parRateData);

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

            results.Cells.ForEach(this.checkPvIsZero);
        }
//JAVA TO C# CONVERTER TODO TASK: Most Java annotations will not have direct .NET equivalent attributes:
//ORIGINAL LINE: @Test(timeOut = 5000) public void interruptHangingResultsListener() throws InterruptedException
//JAVA TO C# CONVERTER WARNING: Method 'throws' clauses are not available in .NET:
        public virtual void interruptHangingResultsListener()
        {
            HangingFunction     fn   = new HangingFunction();
            CalculationTaskCell cell = CalculationTaskCell.of(0, 0, TestingMeasures.PRESENT_VALUE, NATURAL);
            CalculationTask     task = CalculationTask.of(TARGET, fn, cell);
            Column           column  = Column.of(TestingMeasures.PRESENT_VALUE);
            CalculationTasks tasks   = CalculationTasks.of(ImmutableList.of(task), ImmutableList.of(column));

            ExecutorService executor = Executors.newSingleThreadExecutor();

            try
            {
                CalculationTaskRunner test       = CalculationTaskRunner.of(executor);
                MarketData            marketData = MarketData.empty(VAL_DATE);

                AtomicBoolean shouldNeverComplete    = new AtomicBoolean();
                AtomicBoolean interrupted            = new AtomicBoolean();
                AtomicReference <Exception> thrown   = new AtomicReference <Exception>();
                ResultsListener             listener = new ResultsListener();
                test.calculateAsync(tasks, marketData, REF_DATA, listener);
                System.Threading.CountdownEvent latch = new System.Threading.CountdownEvent(1);
                Thread thread = new Thread(() =>
                {
                    try
                    {
                        listener.result();
                        shouldNeverComplete.set(true);
                    }
                    catch (Exception ex)
                    {
                        interrupted.set(Thread.CurrentThread.Interrupted);
                        thrown.set(ex);
                    }
                    latch.Signal();
                });
                // run the thread, wait until properly started, then interrupt, wait until properly handled
                thread.Start();
                while (!fn.started)
                {
                }
                thread.Interrupt();
                latch.await();
                // asserts
                assertEquals(interrupted.get(), true);
                assertEquals(shouldNeverComplete.get(), false);
                assertEquals(thrown.get() is Exception, true);
                assertEquals(thrown.get().Cause is InterruptedException, true);
            }
            finally
            {
                executor.shutdownNow();
            }
        }
        //-------------------------------------------------------------------------
//JAVA TO C# CONVERTER TODO TASK: Most Java annotations will not have direct .NET equivalent attributes:
//ORIGINAL LINE: @Test(timeOut = 5000) public void interruptHangingCalculate() throws InterruptedException
//JAVA TO C# CONVERTER WARNING: Method 'throws' clauses are not available in .NET:
        public virtual void interruptHangingCalculate()
        {
            HangingFunction     fn   = new HangingFunction();
            CalculationTaskCell cell = CalculationTaskCell.of(0, 0, TestingMeasures.PRESENT_VALUE, NATURAL);
            CalculationTask     task = CalculationTask.of(TARGET, fn, cell);
            Column           column  = Column.of(TestingMeasures.PRESENT_VALUE);
            CalculationTasks tasks   = CalculationTasks.of(ImmutableList.of(task), ImmutableList.of(column));

            // using the direct executor means there is no need to close/shutdown the runner
            CalculationTaskRunner test       = CalculationTaskRunner.of(MoreExecutors.newDirectExecutorService());
            MarketData            marketData = MarketData.empty(VAL_DATE);

            AtomicBoolean             shouldNeverThrow = new AtomicBoolean();
            AtomicBoolean             interrupted      = new AtomicBoolean();
            AtomicReference <Results> results          = new AtomicReference <Results>();

            System.Threading.CountdownEvent latch = new System.Threading.CountdownEvent(1);
            Thread thread = new Thread(() =>
            {
                try
                {
                    Results result = test.calculate(tasks, marketData, REF_DATA);
                    interrupted.set(Thread.CurrentThread.Interrupted);
                    results.set(result);
                }
                catch (Exception)
                {
                    shouldNeverThrow.set(true);
                }
                latch.Signal();
            });

            // run the thread, wait until properly started, then interrupt, wait until properly handled
            thread.Start();
            while (!fn.started)
            {
            }
            thread.Interrupt();
            latch.await();
            // asserts
            assertEquals(interrupted.get(), true);
            assertEquals(shouldNeverThrow.get(), false);
//JAVA TO C# CONVERTER WARNING: Java wildcard generics have no direct equivalent in .NET:
//ORIGINAL LINE: com.opengamma.strata.collect.result.Result<?> result00 = results.get().get(0, 0);
            Result <object> result00 = results.get().get(0, 0);

            assertEquals(result00.Failure, true);
            assertEquals(result00.Failure.Reason, FailureReason.CALCULATION_FAILED);
            assertEquals(result00.Failure.Message.Contains("Runtime interrupted"), true);
        }
        //-------------------------------------------------------------------------
        /// <summary>
        /// Tests that running an empty list of tasks completes and returns a set of results with zero rows.
        /// </summary>
        public virtual void runWithNoTasks()
        {
            Column           column = Column.of(TestingMeasures.PRESENT_VALUE);
            CalculationTasks tasks  = CalculationTasks.of(ImmutableList.of(), ImmutableList.of(column));

            // using the direct executor means there is no need to close/shutdown the runner
            CalculationTaskRunner test = CalculationTaskRunner.of(MoreExecutors.newDirectExecutorService());

            MarketData marketData = MarketData.empty(VAL_DATE);
            Results    results    = test.calculate(tasks, marketData, REF_DATA);

            assertThat(results.RowCount).isEqualTo(0);
            assertThat(results.ColumnCount).isEqualTo(1);
            assertThat(results.Columns.get(0).Measure).isEqualTo(TestingMeasures.PRESENT_VALUE);
        }
        /// <summary>
        /// Test that ScenarioArrays containing multiple values are an error.
        /// </summary>
        public virtual void unwrapMultipleScenarioResults()
        {
            ScenarioArray <string> scenarioResult = ScenarioArray.of("foo", "bar");
            ScenarioResultFunction fn             = new ScenarioResultFunction(TestingMeasures.PAR_RATE, scenarioResult);
            CalculationTaskCell    cell           = CalculationTaskCell.of(0, 0, TestingMeasures.PAR_RATE, NATURAL);
            CalculationTask        task           = CalculationTask.of(TARGET, fn, cell);
            Column           column = Column.of(TestingMeasures.PAR_RATE);
            CalculationTasks tasks  = CalculationTasks.of(ImmutableList.of(task), ImmutableList.of(column));

            // using the direct executor means there is no need to close/shutdown the runner
            CalculationTaskRunner test = CalculationTaskRunner.of(MoreExecutors.newDirectExecutorService());

            MarketData marketData = MarketData.empty(VAL_DATE);

            assertThrowsIllegalArg(() => test.calculate(tasks, marketData, REF_DATA));
        }
        //-------------------------------------------------------------------------
        // Test that ScenarioArrays containing a single value are unwrapped.
//JAVA TO C# CONVERTER WARNING: Method 'throws' clauses are not available in .NET:
//ORIGINAL LINE: public void unwrapScenarioResults() throws Exception
        public virtual void unwrapScenarioResults()
        {
            ScenarioArray <string> scenarioResult = ScenarioArray.of("foo");
            ScenarioResultFunction fn             = new ScenarioResultFunction(TestingMeasures.PRESENT_VALUE, scenarioResult);
            CalculationTaskCell    cell           = CalculationTaskCell.of(0, 0, TestingMeasures.PRESENT_VALUE, NATURAL);
            CalculationTask        task           = CalculationTask.of(TARGET, fn, cell);
            Column           column = Column.of(TestingMeasures.PRESENT_VALUE);
            CalculationTasks tasks  = CalculationTasks.of(ImmutableList.of(task), ImmutableList.of(column));

            // using the direct executor means there is no need to close/shutdown the runner
            CalculationTaskRunner test = CalculationTaskRunner.of(MoreExecutors.newDirectExecutorService());

            MarketData marketData = MarketData.empty(VAL_DATE);
            Results    results1   = test.calculate(tasks, marketData, REF_DATA);
//JAVA TO C# CONVERTER WARNING: Java wildcard generics have no direct equivalent in .NET:
//ORIGINAL LINE: com.opengamma.strata.collect.result.Result<?> result1 = results1.get(0, 0);
            Result <object> result1 = results1.get(0, 0);

            // Check the result contains the string directly, not the result wrapping the string
            assertThat(result1).hasValue("foo");

            Results results2 = test.calculateMultiScenario(tasks, ScenarioMarketData.of(1, marketData), REF_DATA);
//JAVA TO C# CONVERTER WARNING: Java wildcard generics have no direct equivalent in .NET:
//ORIGINAL LINE: com.opengamma.strata.collect.result.Result<?> result2 = results2.get(0, 0);
            Result <object> result2 = results2.get(0, 0);

            // Check the result contains the scenario result wrapping the string
            assertThat(result2).hasValue(scenarioResult);

            ResultsListener resultsListener = new ResultsListener();

            test.calculateAsync(tasks, marketData, REF_DATA, resultsListener);
            CompletableFuture <Results> future = resultsListener.Future;

            // The future is guaranteed to be done because everything is running on a single thread
            assertThat(future.Done).True;
            Results results3 = future.get();
//JAVA TO C# CONVERTER WARNING: Java wildcard generics have no direct equivalent in .NET:
//ORIGINAL LINE: com.opengamma.strata.collect.result.Result<?> result3 = results3.get(0, 0);
            Result <object> result3 = results3.get(0, 0);

            // Check the result contains the string directly, not the result wrapping the string
            assertThat(result3).hasValue("foo");
        }
Ejemplo n.º 9
0
 /// <summary>
 /// Creates a calculation runner capable of performing calculations, specifying the executor.
 /// <para>
 /// It is the callers responsibility to manage the life-cycle of the executor.
 ///
 /// </para>
 /// </summary>
 /// <param name="executor">  the executor to use </param>
 /// <returns> the calculation runner </returns>
 internal static DefaultCalculationRunner of(ExecutorService executor)
 {
     return(new DefaultCalculationRunner(CalculationTaskRunner.of(executor)));
 }