/** * Returns a curve node for a Fixed-Inflation swap using the specified instrument template and rate key. * <p> * A suitable default label will be created. * * @param template the template used for building the instrument for the node * @param rateId the identifier of the market rate used when building the instrument for the node * @return a node whose instrument is built from the template using a market rate */ public static FixedInflationSwapCurveNode of(FixedInflationSwapTemplate template, ObservableId rateId) { return of(template, rateId, 0d); }
public void test_requirements() { FixedInflationSwapCurveNode test = FixedInflationSwapCurveNode.of(TEMPLATE, QUOTE_ID, SPREAD); Set<ObservableId> set = test.requirements(); Iterator<ObservableId> itr = set.iterator(); assertEquals(itr.next(), QUOTE_ID); assertFalse(itr.hasNext()); }
public void test_serialization() { FixedInflationSwapCurveNode test = FixedInflationSwapCurveNode.of(TEMPLATE, QUOTE_ID, SPREAD); assertSerialization(test); }
public void test_metadata_end() { FixedInflationSwapCurveNode node = FixedInflationSwapCurveNode.of(TEMPLATE, QUOTE_ID, SPREAD); LocalDate valuationDate = LocalDate.of(2015, 1, 22); ParameterMetadata metadata = node.metadata(valuationDate, REF_DATA); // 2015-01-22 is Thursday, start is 2015-01-26, but 2025-01-26 is Sunday, so end is 2025-01-27 assertEquals(((TenorDateParameterMetadata) metadata).getDate(), LocalDate.of(2025, 1, 27)); assertEquals(((TenorDateParameterMetadata) metadata).getTenor(), Tenor.TENOR_10Y); }
public void test_of_withSpread() { FixedInflationSwapCurveNode test = FixedInflationSwapCurveNode.of(TEMPLATE, QUOTE_ID, SPREAD); assertEquals(test.getLabel(), LABEL_AUTO); assertEquals(test.getRateId(), QUOTE_ID); assertEquals(test.getAdditionalSpread(), SPREAD); assertEquals(test.getTemplate(), TEMPLATE); }
public void test_of_withSpreadAndLabel() { FixedInflationSwapCurveNode test = FixedInflationSwapCurveNode.of(TEMPLATE, QUOTE_ID, SPREAD, LABEL); assertEquals(test.getLabel(), LABEL); assertEquals(test.getRateId(), QUOTE_ID); assertEquals(test.getAdditionalSpread(), SPREAD); assertEquals(test.getTemplate(), TEMPLATE); }
public void test_of_noSpread() { FixedInflationSwapCurveNode test = FixedInflationSwapCurveNode.of(TEMPLATE, QUOTE_ID); assertEquals(test.getLabel(), LABEL_AUTO); assertEquals(test.getRateId(), QUOTE_ID); assertEquals(test.getAdditionalSpread(), 0.0d); assertEquals(test.getTemplate(), TEMPLATE); }
public void test_trade_noMarketData() { FixedInflationSwapCurveNode node = FixedInflationSwapCurveNode.of(TEMPLATE, QUOTE_ID, SPREAD); LocalDate valuationDate = LocalDate.of(2015, 1, 22); MarketData marketData = MarketData.empty(valuationDate); assertThrows(() -> node.trade(1d, marketData, REF_DATA), MarketDataNotFoundException.class); }
public void test_metadata_last_fixing() { FixedInflationSwapCurveNode node = FixedInflationSwapCurveNode.of(TEMPLATE, QUOTE_ID, SPREAD, LABEL).withDate(CurveNodeDate.LAST_FIXING); LocalDate valuationDate = LocalDate.of(2015, 1, 22); LocalDate fixingExpected = LocalDate.of(2024, 10, 31); // Last day of the month DatedParameterMetadata metadata = node.metadata(valuationDate, REF_DATA); assertEquals(metadata.getDate(), fixingExpected); assertEquals(metadata.getLabel(), node.getLabel()); }
public void coverage() { FixedInflationSwapCurveNode test = FixedInflationSwapCurveNode.of(TEMPLATE, QUOTE_ID, SPREAD); coverImmutableBean(test); FixedInflationSwapCurveNode test2 = FixedInflationSwapCurveNode.of( FixedInflationSwapTemplate.of(TENOR_10Y, FixedInflationSwapConventions.USD_FIXED_ZC_US_CPI), QuoteId.of(StandardId.of("OG-Ticker", "Deposit2"))); coverBeanEquals(test, test2); }
public void test_trade() { FixedInflationSwapCurveNode node = FixedInflationSwapCurveNode.of(TEMPLATE, QUOTE_ID, SPREAD); LocalDate tradeDate = LocalDate.of(2015, 1, 22); double rate = 0.125; double quantity = -1234.56; MarketData marketData = ImmutableMarketData.builder(tradeDate).addValue(QUOTE_ID, rate).build(); SwapTrade trade = node.trade(quantity, marketData, REF_DATA); SwapTrade expected = TEMPLATE.createTrade(tradeDate, BUY, -quantity, rate + SPREAD, REF_DATA); assertEquals(trade, expected); }
public void test_metadata_fixed() { FixedInflationSwapCurveNode node = FixedInflationSwapCurveNode.of(TEMPLATE, QUOTE_ID, SPREAD, LABEL).withDate(CurveNodeDate.of(VAL_DATE)); LocalDate valuationDate = LocalDate.of(2015, 1, 22); DatedParameterMetadata metadata = node.metadata(valuationDate, REF_DATA); assertEquals(metadata.getDate(), VAL_DATE); assertEquals(metadata.getLabel(), node.getLabel()); }
public void test_initialGuess_wrongType() { FixedInflationSwapCurveNode node = FixedInflationSwapCurveNode.of(TEMPLATE, QUOTE_ID, SPREAD); MarketData marketData = ImmutableMarketData.builder(VAL_DATE).build(); assertThrowsIllegalArg(() -> node.initialGuess(marketData, ValueType.BLACK_VOLATILITY)); }
public void test_initialGuess() { FixedInflationSwapCurveNode node = FixedInflationSwapCurveNode.of(TEMPLATE, QUOTE_ID, SPREAD); LocalDate valuationDate = LocalDate.of(2015, 1, 22); double rate = 0.035; double lastPriceIndex = 123.4; LocalDateDoubleTimeSeries ts = LocalDateDoubleTimeSeries.builder() .put(LocalDate.of(2024, 10, 31), lastPriceIndex).build(); MarketData marketData = ImmutableMarketData.builder(valuationDate).addValue(QUOTE_ID, rate) .addTimeSeries(IndexQuoteId.of(PriceIndices.EU_EXT_CPI), ts).build(); assertEquals(node.initialGuess(marketData, ValueType.ZERO_RATE), rate); double priceIndexGuess = lastPriceIndex * Math.pow(1.0d + rate, TENOR_10Y.get(ChronoUnit.YEARS)); assertEquals(node.initialGuess(marketData, ValueType.PRICE_INDEX), priceIndexGuess, TOLERANCE_GUESS); }