Package org.jquantlib.daycounters

Examples of org.jquantlib.daycounters.Actual365Fixed$Impl


    public CapVolatilityStructure(final DayCounter dc) {
        super(dc == null ? new Actual365Fixed() : dc);
    }

    public CapVolatilityStructure(final Date referenceDate, final Calendar cal, final DayCounter dc) {
        super(referenceDate, cal == null ? new NullCalendar() : cal, dc == null ? new Actual365Fixed() : dc);
    }
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    public CapVolatilityStructure(final Date referenceDate, final Calendar cal, final DayCounter dc) {
        super(referenceDate, cal == null ? new NullCalendar() : cal, dc == null ? new Actual365Fixed() : dc);
    }

    public CapVolatilityStructure(final int settlementDays, final Calendar cal, final DayCounter dc) {
        super(settlementDays, cal == null ? new NullCalendar() : cal, dc == null ? new Actual365Fixed() : dc);
    }
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        /*@Rate*/final double riskFreeRate = 0.06;
        final double volatility = 0.2;
        final double dividendYield = 0.00;

        final Date maturity = new Date(17, Month.May, 1999);
        final DayCounter dayCounter = new Actual365Fixed();

        // write column headings
        //                 "         1         2         3         4         5         6         7         8"
        //                 "12345678901234567890123456789012345678901234567890123456789012345678901234567890"
        System.out.println("                            Method      European      Bermudan      American");
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   * @see TermStructure documentation for issues regarding constructors.
   *
   * @param dc
   */
  public ZeroYieldStructure() {
    this(new Actual365Fixed());
        QL.validateExperimentalMode();
  }
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   * @param refDate
   * @param cal
   * @param dc
   */
  public ZeroYieldStructure(final Date refDate, final Calendar cal) {
    this(refDate, cal, new Actual365Fixed());
        QL.validateExperimentalMode();
  }
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   * @param refDate
   * @param cal
   * @param dc
   */
  public ZeroYieldStructure(final Date refDate) {
    this(refDate, new Target(), new Actual365Fixed()); // FIXME: code review : default calendar
        QL.validateExperimentalMode();
  }
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   * @param settlementDays
   * @param cal
   * @param dc
   */
  public ZeroYieldStructure(final int settlementDays, final Calendar cal) {
    this(settlementDays, cal, new Actual365Fixed());
        QL.validateExperimentalMode();
  }
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        final Quote zc3mRate = new SimpleQuote(zc3mQuote);
        final Quote zc6mRate = new SimpleQuote(zc6mQuote);
        final Quote zc1yRate = new SimpleQuote(zc1yQuote);

        final DayCounter zcBondsDayCounter = new Actual365Fixed();

        final RateHelper zc3m = new DepositRateHelper(
                new Handle<Quote>(zc3mRate), new Period(3, TimeUnit.Months),
                fixingDays, calendar,
                BusinessDayConvention.ModifiedFollowing, true, zcBondsDayCounter);
        final RateHelper zc6m = new DepositRateHelper(
                new Handle<Quote>(zc6mRate), new Period(6, TimeUnit.Months),
                fixingDays, calendar,
                BusinessDayConvention.ModifiedFollowing, true, zcBondsDayCounter);
        final RateHelper zc1y = new DepositRateHelper(
                new Handle<Quote>(zc1yRate), new Period(1, TimeUnit.Years),
                fixingDays, calendar,
                BusinessDayConvention.ModifiedFollowing, true, zcBondsDayCounter);

        // setup bonds
        final double redemption = 100.0;
        final int numberOfBonds = 5;

        final Date issueDates[] = {
                new Date(15, Month.March,    2005),
                new Date(15, Month.June,     2005),
                new Date(30, Month.June,     2006),
                new Date(15, Month.November, 2002),
                new Date(15, Month.May,      1987) };

        final Date maturities[] = {
                new Date(31, Month.August, 2010),
                new Date(31, Month.August, 2011),
                new Date(31, Month.August, 2013),
                new Date(15, Month.August, 2018),
                new Date(15, Month.May,    2038) };

        final double couponRates[] = 0.02375,
                        0.04625,
                        0.03125,
                        0.04000,
                        0.04500
                        };

        final double marketQuotes[] = { 100.390625,
                        106.21875,
                        100.59375,
                        101.6875,
                        102.140625
                        };

        final List<SimpleQuote> quote = new ArrayList<SimpleQuote>(numberOfBonds);
        final List<RelinkableHandle<Quote>> quoteHandle = new ArrayList<RelinkableHandle<Quote>>(numberOfBonds);
        for (int i = 0; i < numberOfBonds; i++) {
          final SimpleQuote sq = new SimpleQuote(marketQuotes[i]);
          final RelinkableHandle<Quote> handle = new RelinkableHandle<Quote>(sq);
            quote.add(sq);
            quoteHandle.add(handle);  
        }

        // Definition of the rate helpers
//        final List<FixedRateBondHelper<YieldTermStructure>> bondsHelpers = new ArrayList<FixedRateBondHelper<YieldTermStructure>>();
        final List<FixedRateBondHelper> bondsHelpers = new ArrayList<FixedRateBondHelper>();

        for (int i = 0; i < numberOfBonds; i++) {
            final Schedule schedule = new Schedule(
                    issueDates[i], maturities[i],
                    new Period(Frequency.Semiannual),
                    new UnitedStates(UnitedStates.Market.GOVERNMENTBOND),
                    BusinessDayConvention.Unadjusted,
                    BusinessDayConvention.Unadjusted,
                    DateGeneration.Rule.Backward,
                    false);
            final FixedRateBondHelper bondHelper = new FixedRateBondHelper(
                            quoteHandle.get(i),
                            settlementDays,
                            100.0,
                            schedule,
                            new double[]{ couponRates[i] },
                            new ActualActual(ActualActual.Convention.Bond),
                            BusinessDayConvention.Unadjusted,
                            redemption,
                            issueDates[i]);

            bondsHelpers.add(bondHelper);
        }

        /*********************
         ** CURVE BUILDING **
         *********************/

        // Any DayCounter would be fine.
        // ActualActual::ISDA ensures that 30 years is 30.0
        final DayCounter termStructureDayCounter = new ActualActual(ActualActual.Convention.ISDA);

        final double tolerance = 1.0e-15;

        // A depo-bond curve
        final List<RateHelper> bondInstruments = new ArrayList<RateHelper>();

        // Adding the ZC bonds to the curve for the short end
        bondInstruments.add(zc3m);
        bondInstruments.add(zc6m);
        bondInstruments.add(zc1y);

        // Adding the Fixed rate bonds to the curve for the long end
        for (int i = 0; i < numberOfBonds; i++) {
            bondInstruments.add(bondsHelpers.get(i));
        }
        final RateHelper[] instruments1 = new RateHelper[bondInstruments.size()];
        bondInstruments.toArray(instruments1);
        final Handle[] jumps1 = new Handle[0];
        final Date[] jumpDates1 = new Date[0];
        final double tolerance1 = 1.0e-15;
        final LogLinear interpolator = null;
        final IterativeBootstrap bootstrap = null;
       
        final YieldTermStructure  bondDiscountingTermStructur =
                 new PiecewiseYieldCurve<Discount,LogLinear,IterativeBootstrap>(
                     Discount.class, LogLinear.class, IterativeBootstrap.class,
                     settlementDate,
                     instruments1,
                     termStructureDayCounter,
                     jumps1,
                     jumpDates1,
                     tolerance1,
                     interpolator,
                     bootstrap){/* anonymous */};

        // Building of the Libor forecasting curve
        // deposits
        final double d1wQuote = 0.043375;
        final double d1mQuote = 0.031875;
        final double d3mQuote = 0.0320375;
        final double d6mQuote = 0.03385;
        final double d9mQuote = 0.0338125;
        final double d1yQuote = 0.0335125;
        // swaps
        final double s2yQuote = 0.0295;
        final double s3yQuote = 0.0323;
        final double s5yQuote = 0.0359;
        final double s10yQuote = 0.0412;
        final double s15yQuote = 0.0433;

        /********************
         *** QUOTES ***
         ********************/

        // SimpleQuote stores a value which can be manually changed;
        // other Quote subclasses could read the value from a database
        // or some kind of data feed.

        // deposits
        final Quote d1wRate = (new SimpleQuote(d1wQuote));
        final Quote d1mRate = (new SimpleQuote(d1mQuote));
        final Quote d3mRate = (new SimpleQuote(d3mQuote));
        final Quote d6mRate = (new SimpleQuote(d6mQuote));
        final Quote d9mRate = (new SimpleQuote(d9mQuote));
        final Quote d1yRate = (new SimpleQuote(d1yQuote));
        // swaps
        final Quote s2yRate = (new SimpleQuote(s2yQuote));
        final Quote s3yRate = (new SimpleQuote(s3yQuote));
        final Quote s5yRate = (new SimpleQuote(s5yQuote));
        final Quote s10yRate = (new SimpleQuote(s10yQuote));
        final Quote s15yRate = (new SimpleQuote(s15yQuote));

        /*********************
         *** RATE HELPERS ***
         *********************/

        // RateHelpers are built from the above quotes together with
        // other instrument dependant infos. Quotes are passed in
        // relinkable handles which could be relinked to some other
        // data source later.

        // deposits
        final DayCounter depositDayCounter = new Actual360();

        final RateHelper d1w = new DepositRateHelper(
                  new Handle<Quote>(d1wRate),
                  new Period(1, TimeUnit.Weeks),
                  fixingDays, calendar,
                  BusinessDayConvention.ModifiedFollowing,
                  true, depositDayCounter);
        final RateHelper d1m = new DepositRateHelper(
                  new Handle<Quote>(d1mRate),
                  new Period(1, TimeUnit.Months),
                  fixingDays, calendar,
                  BusinessDayConvention.ModifiedFollowing,
                  true, depositDayCounter);
        final RateHelper d3m = new DepositRateHelper(
                  new Handle<Quote>(d3mRate),
                  new Period(3, TimeUnit.Months),
                  fixingDays, calendar,
                  BusinessDayConvention.ModifiedFollowing,
                  true, depositDayCounter);
        final RateHelper d6m = new DepositRateHelper(
                  new Handle<Quote>(d6mRate),
                  new Period(6, TimeUnit.Months),
                  fixingDays, calendar,
                  BusinessDayConvention.ModifiedFollowing,
                  true, depositDayCounter);
        final RateHelper d9m = new DepositRateHelper(
                new Handle<Quote>(d9mRate),
                new Period(9, TimeUnit.Months),
                fixingDays, calendar,
                BusinessDayConvention.ModifiedFollowing,
                true, depositDayCounter);
        final RateHelper d1y = new DepositRateHelper(
                new Handle<Quote>(d1yRate),
                new Period(1, TimeUnit.Years),
                fixingDays, calendar,
                BusinessDayConvention.ModifiedFollowing,
                true, depositDayCounter);

        // setup swaps
        final Frequency swFixedLegFrequency = Frequency.Annual;
        final BusinessDayConvention swFixedLegConvention = BusinessDayConvention.Unadjusted;
        final DayCounter swFixedLegDayCounter = new Thirty360(Convention.European);
        final IborIndex  swFloatingLegIndex = new Euribor6M(new Handle<YieldTermStructure>());

        // TODO and FIXME: not sure whether the class stuff works properly
        // final IborIndex swFloatingLegIndex = Euribor.getEuribor6M(new Handle<YieldTermStructure>(YieldTermStructure.class)); //FIXME::RG::Handle
//        final YieldTermStructure nullYieldTermStructure = new AbstractYieldTermStructure() {
//            @Override
//            protected double discountImpl(final double t) {
//                throw new UnsupportedOperationException();
//            }
//            @Override
//            public Date maxDate() {
//                throw new UnsupportedOperationException();
//            }
//        };
//        final IborIndex swFloatingLegIndex = new Euribor6M(new Handle<YieldTermStructure>(nullYieldTermStructure));


        final Period forwardStart = new Period(1, TimeUnit.Days);
       
        final RateHelper s2y = new SwapRateHelper(
              new Handle<Quote>(s2yRate),
              new Period(2, TimeUnit.Years),
              calendar,
              swFixedLegFrequency,
              swFixedLegConvention,
              swFixedLegDayCounter,
              swFloatingLegIndex,
              new Handle<Quote>(),
              forwardStart);
         final RateHelper s3y = new SwapRateHelper(
                 new Handle<Quote>(s3yRate),
                 new Period(3, TimeUnit.Years),
                 calendar,
                 swFixedLegFrequency,
                 swFixedLegConvention,
                 swFixedLegDayCounter,             
                 swFloatingLegIndex,
                 new Handle<Quote>(),
                 forwardStart);
        final RateHelper  s5y = new SwapRateHelper(
                new Handle<Quote>(s5yRate),
                new Period(5, TimeUnit.Years),
                calendar,
                swFixedLegFrequency,
                swFixedLegConvention,
                swFixedLegDayCounter,
                swFloatingLegIndex,
                new Handle<Quote>(),
                forwardStart);
        final RateHelper s10y = new SwapRateHelper(
                new Handle<Quote>(s10yRate),
                new Period(10, TimeUnit.Years),
                calendar,
                swFixedLegFrequency,
                swFixedLegConvention,
                swFixedLegDayCounter,
                swFloatingLegIndex,
                new Handle<Quote>(),
                forwardStart);
        final RateHelper  s15y = new SwapRateHelper(
                new Handle<Quote>(s15yRate),
                new Period(15, TimeUnit.Years),
                calendar,
                swFixedLegFrequency,
                swFixedLegConvention,
                swFixedLegDayCounter,
                swFloatingLegIndex,
                new Handle<Quote>(),
                forwardStart);

         /*********************
         ** CURVE BUILDING **
         *********************/
       
         // Any DayCounter would be fine.
         // ActualActual::ISDA ensures that 30 years is 30.0
       
         // A depo-swap curve
         final List<RateHelper> depoSwapInstruments = new ArrayList<RateHelper>();
         depoSwapInstruments.add(d1w);
         depoSwapInstruments.add(d1m);
         depoSwapInstruments.add(d3m);
         depoSwapInstruments.add(d6m);
         depoSwapInstruments.add(d9m);
         depoSwapInstruments.add(d1y);
         depoSwapInstruments.add(s2y);
         depoSwapInstruments.add(s3y);
         depoSwapInstruments.add(s5y);
         depoSwapInstruments.add(s10y);
         depoSwapInstruments.add(s15y);
        
         final RateHelper[] instruments = new RateHelper[depoSwapInstruments.size()];
         depoSwapInstruments.toArray(instruments);
         final Handle[] jumps= new Handle[0];//]<Quote>[]) new ArrayList<Handle<Quote>>().toArray();
         final Date[] jumpDates = new Date[0];// new ArrayList<Date>().toArray();
        
         final YieldTermStructure  depoSwapTermStructure =
             new PiecewiseYieldCurve<Discount,LogLinear,IterativeBootstrap>(
                 Discount.class, LogLinear.class, IterativeBootstrap.class,
                 settlementDate,
                 instruments,
                 termStructureDayCounter,
                 jumps,
                 jumpDates,
                 tolerance,
            interpolator,/*Hack*/
             bootstrap /*Hack*/){/* anonymous */};

         // Term structures that will be used for pricing:
         // the one used for discounting cash flows
         final RelinkableHandle<YieldTermStructure> discountingTermStructure = new RelinkableHandle<YieldTermStructure>();
         // the one used for forward rate forecasting
         final RelinkableHandle<YieldTermStructure> forecastingTermStructure = new RelinkableHandle<YieldTermStructure>();
       
         /*********************
         * BONDS TO BE PRICED *
         **********************/
       
         // Common data
         final double faceAmount = 100;
       
         // Pricing engine
        final PricingEngine  bondEngine = new DiscountingBondEngine(discountingTermStructure);
       
         // Zero coupon bond
         final ZeroCouponBond zeroCouponBond = new ZeroCouponBond(
                           settlementDays,
                           new UnitedStates(UnitedStates.Market.GOVERNMENTBOND),
                           faceAmount,
                           new Date(15,Month.August,2013),
                           BusinessDayConvention.Following,
                           116.92,
                           new Date(15,Month.August,2003));
       
         zeroCouponBond.setPricingEngine(bondEngine);
       
         // Fixed 4.5% US Treasury Note
         final Schedule fixedBondSchedule = new Schedule(
                     new Date(15, Month.May, 2007),
                     new Date(15,Month.May,2017),
                     new Period(Frequency.Semiannual),
                     new UnitedStates(UnitedStates.Market.GOVERNMENTBOND),
                     BusinessDayConvention.Unadjusted,
                     BusinessDayConvention.Unadjusted,
                     DateGeneration.Rule.Backward, false);
       
         final FixedRateBond fixedRateBond = new FixedRateBond(
                     settlementDays,
                     faceAmount,
                     fixedBondSchedule,
                     new double[]{0.045},
                     new ActualActual(ActualActual.Convention.Bond),
                     BusinessDayConvention.ModifiedFollowing,
                     100.0,
                     new Date(15, Month.May, 2007));
       
         fixedRateBond.setPricingEngine(bondEngine);
       
         // Floating rate bond (3M USD Libor + 0.1%)
         // Should and will be priced on another curve later...
       
         final RelinkableHandle<YieldTermStructure> liborTermStructure = new RelinkableHandle<YieldTermStructure>();
         final IborIndex libor3m =  new USDLibor(new Period(3, TimeUnit.Months), liborTermStructure);
         libor3m.addFixing(new Date(17, Month.July, 2008), 0.0278625);
       
         final Schedule floatingBondSchedule = new Schedule(
                     new Date(21, Month.October, 2005),
                     new Date(21, Month.October, 2010), new Period(Frequency.Quarterly),
                     new UnitedStates(UnitedStates.Market.NYSE),
                     BusinessDayConvention.Unadjusted,
                     BusinessDayConvention.Unadjusted,
                     DateGeneration.Rule.Backward, true);
       
         final FloatingRateBond floatingRateBond = new FloatingRateBond(
                     settlementDays,
                     faceAmount,
                     floatingBondSchedule,
                     libor3m,
                     new Actual360(),
                     BusinessDayConvention.ModifiedFollowing,
                     2,                    
                     new Array(1).fill(1.0)//Gearings                    
                     new Array(1).fill(0.001),//Spreads
                     new Array(0),         // Caps
                     new Array(0),         // Floors
                     true,             // Fixing in arrears
                     100.0,
                     new Date(21, Month.October, 2005));
       
         floatingRateBond.setPricingEngine(bondEngine);
              
         // optionLet volatilities
         final double volatility = 0.0;
         final Handle<OptionletVolatilityStructure> vol =
               new Handle<OptionletVolatilityStructure>(
                     new ConstantOptionletVolatility(
                         settlementDays,
                         calendar,
                         BusinessDayConvention.ModifiedFollowing,
                         volatility,
                         new Actual365Fixed()));
       
         // Coupon pricers
         final IborCouponPricer pricer = new BlackIborCouponPricer(vol);
         PricerSetter.setCouponPricer(floatingRateBond.cashflows(),pricer);
       
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                new GBPCurrency(),
                new Target(),
                tenor.gt(new Period(1,TimeUnit.Years)) ? new Period(6,TimeUnit.Months):
                                     new Period(1,TimeUnit.Years),
                BusinessDayConvention.ModifiedFollowing,
                new Actual365Fixed(),
                tenor.gt(new Period(1,TimeUnit.Years)) ? new GBPLibor(new Period(6,TimeUnit.Months), h):
                                      new GBPLibor(new Period(3,TimeUnit.Months), h)
                   
                );
        }
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        //Following is the volatility axis
        final double[] volatilities = {0.1,0.2,0.3,0.4,0.5,0.6};

        //Following is the curve
        final BlackVarianceTermStructure varianceCurve = new BlackVarianceCurve(today, dates,volatilities, new Actual365Fixed(), false);
        ((BlackVarianceCurve)varianceCurve).setInterpolation();

        //Dividend termstructure
        final SimpleQuote dividendQuote = new SimpleQuote(0.3);
        final RelinkableHandle<Quote>  handleToInterestRateQuote = new RelinkableHandle<Quote>(dividendQuote);
        final YieldTermStructure dividendTermStructure = new FlatForward(2,new UnitedStates(Market.NYSE),handleToInterestRateQuote, new Actual365Fixed(), Compounding.Continuous,Frequency.Daily);

        //Risk free term structure
        final SimpleQuote riskFreeRateQuote = new SimpleQuote(0.3);
        final RelinkableHandle<Quote>  handleToRiskFreeRateQuote = new RelinkableHandle<Quote>(riskFreeRateQuote);
        final YieldTermStructure riskFreeTermStructure = new FlatForward(2,new UnitedStates(Market.NYSE),handleToRiskFreeRateQuote, new Actual365Fixed(), Compounding.Continuous,Frequency.Daily);

        //Creating the process
        final StochasticProcess1D process = new GeneralizedBlackScholesProcess(handleToStockQuote,new RelinkableHandle<YieldTermStructure>(dividendTermStructure),new RelinkableHandle<YieldTermStructure>(riskFreeTermStructure),new RelinkableHandle<BlackVolTermStructure>(varianceCurve),new EulerDiscretization());

        //Calculating the drift of the stochastic process after time = 18th day from today with value of the stock as specified from the quote
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