Examples of org.jquantlib.daycounters.ActualActual$ImplISMA

org.jquantlib.daycounters.ActualActual
pedia.org/wiki/Day_count_convention">Day count convention @author Srinivas Hasti @author Richard Gomes

        
        final DayCounter business252China = new Business252(new China(China.Market.SSE));
        final DayCounter simpleDayCounter = new SimpleDayCounter();      
        final DayCounter actual360 = new Actual360();        
        final DayCounter actual365Fixed = new Actual365Fixed();        
        final DayCounter actualActual = new ActualActual();        
        final DayCounter thirty360 = new Thirty360();        
        final DayCounter thirty360_2 = new Thirty360(); 
        
        assertFalse(thirty360.equals(null));
        assertEquals(thirty360, thirty360);
        assertEquals(thirty360, thirty360_2);
        
        assertFalse(simpleDayCounter.equals(business252Brazil));
        assertFalse(business252Brazil.equals(simpleDayCounter));
        assertFalse(actual360.equals(actual365Fixed));
        assertFalse(actual365Fixed.equals(actual360));
        assertFalse(actualActual.equals(thirty360));
        assertFalse(thirty360.equals(actualActual));
        assertFalse(business252Brazil.equals(business252China));
        assertFalse(business252China.equals(business252Brazil));
        assertTrue(business252Brazil.equals(business252Brazil1));

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        final double faceAmount = 1000000.0;


        // with implicit settlement calculation:


      final Calendar bondCalendar = new NullCalendar();
      final DayCounter bondDayCount = new ActualActual(ActualActual.Convention.ISMA);
      final int settlementDays = 1;


    final Handle<YieldTermStructure> discountCurve = new Handle<YieldTermStructure>(Utilities.flatRate(today, 0.03, new Actual360()));


      // actual market values from the evaluation date


      final Frequency freq = Frequency.Semiannual;
      final Schedule sch1 = new Schedule(new Date(31, Month.October, 2004),
                    new Date(31, Month.October, 2006), new Period(freq), bondCalendar,
                    BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted, DateGeneration.Rule.Backward, false);


      final FixedRateBond bond1 = new FixedRateBond(settlementDays, faceAmount, sch1,
                          new double[] {0.025},
                          bondDayCount, BusinessDayConvention.ModifiedFollowing,
                          100.0, new Date(1, Month.November, 2004));


    final PricingEngine bondEngine = new DiscountingBondEngine(discountCurve);


      bond1.setPricingEngine(bondEngine);


      final double marketPrice1 = 99.203125;
      final double marketYield1 = 0.02925;


      final Schedule sch2 = new Schedule(new Date(15, Month.November, 2004),
          new Date(15, Month.November, 2009), new Period(freq), bondCalendar,
          BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted, DateGeneration.Rule.Backward, false);


      final FixedRateBond bond2 = new FixedRateBond(settlementDays, faceAmount, sch2,
                          new double [] {0.035},
                          bondDayCount, BusinessDayConvention.ModifiedFollowing,
                          100.0, new Date(15, Month.November, 2004));


      bond2.setPricingEngine(bondEngine);


      final double marketPrice2 = 99.6875;
      final double marketYield2 = 0.03569;


      // calculated values


      final double cachedPrice1a = 99.204505, cachedPrice2a = 99.687192;
      final double cachedPrice1b = 98.943393, cachedPrice2b = 101.986794;
      final double cachedYield1a = 0.029257,  cachedYield2a = 0.035689;
      final double cachedYield1b = 0.029045,  cachedYield2b = 0.035375;
      final double cachedYield1c = 0.030423,  cachedYield2c = 0.030432;


      // check
      final double tolerance = 1.0e-6;
      double price, yield;


      price = bond1.cleanPrice(marketYield1,
                               bondDayCount, Compounding.Compounded, freq);
      if (Math.abs(price-cachedPrice1a) > tolerance) {
        fail("failed to reproduce cached price:"
                     + "\n    calculated: " + price
                     + "\n    expected:   " + cachedPrice1a
                     + "\n    tolerance:  " + tolerance
                     + "\n    error:      " + (price-cachedPrice1a));
      }


      price = bond1.cleanPrice();
      if (Math.abs(price-cachedPrice1b) > tolerance) {
        fail("failed to reproduce cached price:"
                     + "\n    calculated: " + price
                     + "\n    expected:   " + cachedPrice1b
                     + "\n    tolerance:  " + tolerance
                     + "\n    error:      " + (price-cachedPrice1b));
      }


      yield = bond1.yield(marketPrice1, bondDayCount, Compounding.Compounded, freq);
      if (Math.abs(yield-cachedYield1a) > tolerance) {
        fail("failed to reproduce cached compounded yield:"
                     + "\n    calculated: " + yield
                     + "\n    expected:   " + cachedYield1a
                     + "\n    tolerance:  " + tolerance
                     + "\n    error:      " + (yield-cachedYield1a));
      }


      yield = bond1.yield(marketPrice1, bondDayCount, Compounding.Continuous, freq);
      if (Math.abs(yield-cachedYield1b) > tolerance) {
        fail("failed to reproduce cached continuous yield:"
                     + "\n    calculated: " + yield
                     + "\n    expected:   " + cachedYield1b
                     + "\n    tolerance:  " + tolerance
                     + "\n    error:      " + (yield-cachedYield1b));
      }


      yield = bond1.yield(bondDayCount, Compounding.Continuous, freq);
      if (Math.abs(yield-cachedYield1c) > tolerance) {
        fail("failed to reproduce cached continuous yield:"
                     + "\n    calculated: " + yield
                     + "\n    expected:   " + cachedYield1c
                     + "\n    tolerance:  " + tolerance
                     + "\n    error:      " + (yield-cachedYield1c));
      }




      price = bond2.cleanPrice(marketYield2, bondDayCount, Compounding.Compounded, freq);
      if (Math.abs(price-cachedPrice2a) > tolerance) {
        fail("failed to reproduce cached price:"
                     + "\n    calculated: " + price
                     + "\n    expected:   " + cachedPrice2a
                     + "\n    tolerance:  " + tolerance
                     + "\n    error:      " + (price-cachedPrice2a));
      }


      price = bond2.cleanPrice();
      if (Math.abs(price-cachedPrice2b) > tolerance) {
        fail("failed to reproduce cached price:"
                     + "\n    calculated: " + price
                     + "\n    expected:   " + cachedPrice2b
                     + "\n    tolerance:  " + tolerance
                     + "\n    error:      " + (price-cachedPrice2b));
      }


      yield = bond2.yield(marketPrice2, bondDayCount, Compounding.Compounded, freq);
      if (Math.abs(yield-cachedYield2a) > tolerance) {
        fail("failed to reproduce cached compounded yield:"
                     + "\n    calculated: " + yield
                     + "\n    expected:   " + cachedYield2a
                     + "\n    tolerance:  " + tolerance
                     + "\n    error:      " + (yield-cachedYield2a));
      }


      yield = bond2.yield(marketPrice2, bondDayCount, Compounding.Continuous, freq);
      if (Math.abs(yield-cachedYield2b) > tolerance) {
        fail("failed to reproduce cached continuous yield:"
                     + "\n    calculated: " + yield
                     + "\n    expected:   " + cachedYield2b
                     + "\n    tolerance:  " + tolerance
                     + "\n    error:      " + (yield-cachedYield2b));
      }


      yield = bond2.yield(bondDayCount, Compounding.Continuous, freq);
      if (Math.abs(yield-cachedYield2c) > tolerance) {
        fail("failed to reproduce cached continuous yield:"
                     + "\n    calculated: " + yield
                     + "\n    expected:   " + cachedYield2c
                     + "\n    tolerance:  " + tolerance
                     + "\n    error:      " + (yield-cachedYield2c));
      }


      // with explicit settlement date:


      final Schedule sch3 = new Schedule(new Date(30,Month.November,2004),
                    new Date(30,Month.November,2006), new Period(freq),
                    new UnitedStates(UnitedStates.Market.GOVERNMENTBOND),
                    BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted, DateGeneration.Rule.Backward, false);


      final FixedRateBond bond3 = new FixedRateBond(settlementDays, faceAmount, sch3,
                          new double[] {0.02875},
                          new ActualActual(ActualActual.Convention.ISMA),
                          BusinessDayConvention.ModifiedFollowing,
                          100.0, new Date(30,Month.November,2004));


      bond3.setPricingEngine(bondEngine);

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                   new UnitedStates(UnitedStates.Market.GOVERNMENTBOND),
                   BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted, DateGeneration.Rule.Backward, false);


      final FixedRateBond bond1 = new FixedRateBond(settlementDays, faceAmount, sch,
                          new double [] { 0.02875 },
                          new ActualActual(ActualActual.Convention.ISMA),
                          BusinessDayConvention.ModifiedFollowing,
                          100.0, new Date(30,Month.November,2004));


      final PricingEngine bondEngine = new DiscountingBondEngine(discountCurve);
      bond1.setPricingEngine(bondEngine);


      final double cachedPrice1 = 99.298100;


      double price = bond1.cleanPrice();
      if (Math.abs(price-cachedPrice1) > tolerance) {
          fail("failed to reproduce cached price:\n"
                     + "    calculated: " + price + "\n"
                     + "    expected:   " + cachedPrice1 + "\n"
                     + "    error:      " + (price-cachedPrice1));
      }


      // varying coupons


      final double [] couponRates = new double[] { 0.02875, 0.03, 0.03125, 0.0325 };


      final FixedRateBond bond2 = new FixedRateBond(settlementDays, faceAmount, sch,
                            couponRates,
                            new ActualActual(ActualActual.Convention.ISMA),
                            BusinessDayConvention.ModifiedFollowing,
                            100.0, new Date(30,Month.November,2004));


      bond2.setPricingEngine(bondEngine);


      final double cachedPrice2 = 100.334149;


      price = bond2.cleanPrice();
      if (Math.abs(price-cachedPrice2) > tolerance) {
          fail("failed to reproduce cached price:\n"
                     + "    calculated: " + price + "\n"
                     + "    expected:   " + cachedPrice2 + "\n"
                     + "    error:      " + (price-cachedPrice2));
      }


      // stub date


      final Schedule sch3 = new Schedule(new Date(30,Month.November,2004),
                    new Date(30,Month.March,2009), new Period(Frequency.Semiannual),
                    new UnitedStates(UnitedStates.Market.GOVERNMENTBOND),
                    BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                    DateGeneration.Rule.Backward, false,
                    new Date(), new Date(30,Month.November,2008));


      final FixedRateBond bond3 = new FixedRateBond(settlementDays, faceAmount, sch3,
                            couponRates, new ActualActual(ActualActual.Convention.ISMA),
                            BusinessDayConvention.ModifiedFollowing,
                            100.0, new Date(30,Month.November,2004));


      bond3.setPricingEngine(bondEngine);

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                    BusinessDayConvention.ModifiedFollowing, 
                    BusinessDayConvention.ModifiedFollowing,
                    DateGeneration.Rule.Backward, false);


      final FloatingRateBond bond1 = new FloatingRateBond(settlementDays, vars.faceAmount, sch,
                             index, new ActualActual(ActualActual.Convention.ISMA),
                             BusinessDayConvention.ModifiedFollowing, fixingDays,
                             new Array(0), new Array(0),
                             new Array(0), new Array(0),
                             false,
                             100.0, new Date(30,Month.November,2004));


      final PricingEngine bondEngine = new DiscountingBondEngine(riskFreeRate);
      bond1.setPricingEngine(bondEngine);


      PricerSetter.setCouponPricer(bond1.cashflows(),pricer);


      final boolean indexedCoupon = new Settings().isUseIndexedCoupon();
      
      final double cachedPrice1 = indexedCoupon ? 99.874645 : 99.874646;


      double price = bond1.cleanPrice();
      if (Math.abs(price-cachedPrice1) > tolerance) {
          fail("failed to reproduce cached price:\n"
                     + "    calculated: " + price + "\n"
                     + "    expected:   " + cachedPrice1 + "\n"
                     + "    error:      " + (price-cachedPrice1));
      }


      // different risk-free and discount curve


      final FloatingRateBond bond2 = new FloatingRateBond(settlementDays, vars.faceAmount, sch,
                             index, new ActualActual(ActualActual.Convention.ISMA),
                             BusinessDayConvention.ModifiedFollowing, fixingDays,
                             new Array(0), new Array(0),
                             new Array(0), new Array(0),
                             false,
                             100.0, new Date(30,Month.November,2004));


      final PricingEngine bondEngine2 = new DiscountingBondEngine(discountCurve);
      bond2.setPricingEngine(bondEngine2);


      PricerSetter.setCouponPricer(bond2.cashflows(),pricer);


        final double cachedPrice2 = indexedCoupon ? 97.955904 : 97.955904; // yes, they are the same, according to QuantLib/C++


      price = bond2.cleanPrice();
      if (Math.abs(price-cachedPrice2) > tolerance) {
          fail("failed to reproduce cached price:\n"
                     + "    calculated: " + price + "\n"
                     + "    expected:   " + cachedPrice2 + "\n"
                     + "    error:      " + (price-cachedPrice2));
      }


      // varying spread
      final double [] spreads = new double[] { 0.001, 0.0012, 0.0014, 0.0016 };


      final FloatingRateBond bond3 = new FloatingRateBond(settlementDays, vars.faceAmount, sch,
                             index, new ActualActual(ActualActual.Convention.ISMA),
                             BusinessDayConvention.ModifiedFollowing, fixingDays,
                             new Array(0), new Array(spreads),
                             new Array(0), new Array(0),
                             false,
                             100.0, new Date(30,Month.November,2004));

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