Exemplo n.º 1
0
        public static AmortizingFixedRateBond makeAmortizingFixedBond(Date startDate,
                                                                      Period bondLength,
                                                                      DayCounter dCounter,
                                                                      Frequency payFrequency,
                                                                      double amount,
                                                                      double rate,
                                                                      Calendar calendar)
        {
            AmortizingFixedRateBond bond;
            Date endDate = calendar.advance(startDate, bondLength);

            Schedule schedule = new Schedule(startDate, endDate, bondLength, calendar, BusinessDayConvention.Unadjusted,
                                             BusinessDayConvention.Unadjusted, DateGeneration.Rule.Backward, false);

            bond = new AmortizingFixedRateBond(0, calendar, amount, startDate, bondLength, payFrequency, rate, dCounter);

            return(bond);
        }
Exemplo n.º 2
0
        public static AmortizingFixedRateBond makeAmortizingFixedBond( Date startDate, 
                                                                     Period bondLength, 
                                                                     DayCounter dCounter, 
                                                                     Frequency payFrequency, 
                                                                     double amount, 
                                                                     double rate,
                                                                     Calendar calendar)
        {
            AmortizingFixedRateBond bond;
             Date endDate = calendar.advance(startDate,bondLength);

             Schedule schedule = new Schedule(startDate,endDate,bondLength,calendar,BusinessDayConvention.Unadjusted,
                                          BusinessDayConvention.Unadjusted,DateGeneration.Rule.Backward,false);

             bond = new AmortizingFixedRateBond(0, calendar, amount, startDate, bondLength, payFrequency, rate, dCounter);

             return bond;
        }
Exemplo n.º 3
0
        public void testAmortizingFixedRateBond()
        {
            // Testing amortizing fixed rate bond

             /*
             * Following data is generated from Excel using function pmt with Nper = 360, PV = 100.0
             */

             double[] rates = { 0.0, 0.01, 0.02, 0.03, 0.04, 0.05, 0.06, 0.07, 0.08, 0.09, 0.10, 0.11, 0.12 };
             double[] amounts = {0.277777778, 0.321639520, 0.369619473, 0.421604034,
                             0.477415295, 0.536821623, 0.599550525,
                             0.665302495, 0.733764574, 0.804622617,
                             0.877571570, 0.952323396, 1.028612597};

             Frequency freq = Frequency.Monthly;

             Date refDate = Date.Today;

             double tolerance = 1.0e-6;

             for (int i = 0; i < rates.Length; ++i)
             {
            AmortizingFixedRateBond myBond = new AmortizingFixedRateBond(0,
               new NullCalendar(), 100.0, refDate, new Period(30, TimeUnit.Years), freq, rates[i], new ActualActual(ActualActual.Convention.ISMA));

            List<CashFlow> cashflows = myBond.cashflows();

            List<double> notionals = myBond.notionals();

            for (int k = 0; k < cashflows.Count / 2; ++k)
            {
               double coupon = cashflows[2 * k].amount();
               double principal = cashflows[2 * k + 1].amount();
               double totalAmount = coupon + principal;

               // Check the amount is same as pmt returned

               double error = Math.Abs(totalAmount - amounts[i]);
               if (error > tolerance)
               {
                  Assert.Fail(" Rate: " + rates[i] +
                           " " + k + "th cash flow " +
                           " Failed!" +
                           " Expected Amount: " + amounts[i] +
                           " Calculated Amount: " + totalAmount);
               }

               // Check the coupon result
               double expectedCoupon = notionals[k] * rates[i] / (int)freq;
               error = Math.Abs(coupon - expectedCoupon);

               if (error > tolerance)
               {
                  Assert.Fail(" Rate: " + rates[i] +
                               " " + k + "th cash flow " +
                               " Failed!" +
                               " Expected Coupon: " + expectedCoupon +
                               " Calculated Coupon: " + coupon);
               }

            }
             }
        }