Examples of org.jquantlib.time.Date

org.jquantlib.time.Date
Date class to represent time in days. @author Richard Gomes

                new EuropeanOptionData( Option.Type.Put,  100.00, 110.00, 0.10, 0.10, 0.50, 0.35,  5.7963, 1.0e-4),
                // pag 27
                new EuropeanOptionData( Option.Type.Call,  40.00,  42.00, 0.08, 0.04, 0.75, 0.35,  5.0975, 1.0e-4)
        };


        final Date today = new Settings().evaluationDate();


        final DayCounter dc = new Actual360();


        final SimpleQuote           spot  = new SimpleQuote(0.0);
        final SimpleQuote           qRate = new SimpleQuote(0.0);
        final YieldTermStructure    qTS   = Utilities.flatRate(today, qRate, dc);
        final SimpleQuote           rRate = new SimpleQuote(0.0);
        final YieldTermStructure    rTS   = Utilities.flatRate(today, rRate, dc);
        final SimpleQuote           vol   = new SimpleQuote(0.0);
        final BlackVolTermStructure volTS = Utilities.flatVol(today, vol, dc);


        for (int i=0; i<values.length-1; i++) {


            QL.debug(values[i].toString());


            final StrikedTypePayoff payoff = new PlainVanillaPayoff(values[i].type, values[i].strike);
            final Date exDate = today.add( timeToDays(values[i].t) );
            final Exercise exercise = new EuropeanExercise(exDate);


            spot.setValue(values[i].s);
            qRate.setValue(values[i].q);
            rRate.setValue(values[i].r);

View Full Code Here


        // tolerance is fixed
        final double tolerance = 1e-4;




        final Date today = new Settings().evaluationDate();


        final DayCounter         dc    = new Actual360();
        final SimpleQuote        spot  = new SimpleQuote(0.0);
        final SimpleQuote        qRate = new SimpleQuote(0.0);
        final YieldTermStructure qTS   = Utilities.flatRate(today, qRate, dc);


        final SimpleQuote           rRate = new SimpleQuote(0.0);
        final YieldTermStructure    rTS   = Utilities.flatRate(today, rRate, dc);
        final SimpleQuote           vol   = new SimpleQuote(0.0);
        final BlackVolTermStructure volTS = Utilities.flatVol(today, vol, dc);




        StrikedTypePayoff payoff;
        Date exDate;
        Exercise exercise;
        double calculated;
        double error;


        int i = -1;

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        final double residualTimes[] = { 1.0, 2.0 };
        final double vols[] = { 0.11, 0.50, 1.20 };


        final DayCounter dc = new Actual360();
        new Settings().setEvaluationDate(Date.todaysDate());
        final Date today = new Settings().evaluationDate();


        final SimpleQuote           spot  = new SimpleQuote(0.0);
        final SimpleQuote           qRate = new SimpleQuote(0.0);
        final YieldTermStructure    qTS   = Utilities.flatRate(qRate, dc);
        final SimpleQuote           rRate = new SimpleQuote(0.0);
        final YieldTermStructure    rTS   = Utilities.flatRate(rRate, dc);
        final SimpleQuote           vol   = new SimpleQuote(0.0);
        final BlackVolTermStructure volTS = Utilities.flatVol(vol, dc);


        for (final Type type : types) {
            for (final double strike : strikes) {
                for (final double residualTime : residualTimes) {


                    final Date exDate = today.add( timeToDays(residualTime) ); //TODO: code review
                    final Exercise exercise = new EuropeanExercise(exDate);


                    for (int kk=0; kk<4; kk++) {
                        StrikedTypePayoff payoff = null;
                        // option to check
                        if (kk==0) {
                            payoff = new PlainVanillaPayoff(type, strike);
                        } else if (kk==1) {
                            //FIXME check constructor
                            payoff = new CashOrNothingPayoff(type, strike, 100);
                        } else if (kk==2) {
                            payoff = new AssetOrNothingPayoff(type, strike);
                        } else if (kk==3) {
                            payoff = new GapPayoff(type, strike, 100);
                        }


                        final BlackScholesMertonProcess stochProcess = new BlackScholesMertonProcess(
                                new Handle<Quote>(spot),
                                new Handle<YieldTermStructure>(qTS),
                                new Handle<YieldTermStructure>(rTS),
                                new Handle<BlackVolTermStructure>(volTS));
                        final PricingEngine engine = new AnalyticEuropeanEngine(stochProcess);


                        if (payoff==null)
                            throw new IllegalArgumentException();


                        final EuropeanOption option = new EuropeanOption(payoff, exercise);
                        option.setPricingEngine(engine);


                        for (final double u : underlyings) {
                            for (final double q : qRates) {
                                for (final double r : rRates) {
                                    for (final double v : vols) {
                                        //something wrong here for vanilla payoff?
                                        spot.setValue(u);
                                        qRate.setValue(q);
                                        rRate.setValue(r);
                                        vol.setValue(v);


                                        final double value = option.NPV();
                                        final double delta = option.delta();
                                        final double gamma = option.gamma();
                                        final double theta = option.theta();
                                        final double rho   = option.rho();
                                        final double drho  = option.dividendRho();
                                        final double vega  = option.vega();


                                        calculated.put("delta",  delta);
                                        calculated.put("gamma",  gamma);
                                        calculated.put("theta",  theta);
                                        calculated.put("rho",    rho);
                                        calculated.put("divRho", drho);
                                        calculated.put("vega",   vega);


                                        if (value > spot.value()*1.0e-5) {
                                            // perturb spot and get delta and gamma
                                            final double du = u*1.0e-4;
                                            spot.setValue(u+du);
                                            double value_p = option.NPV();
                                            final double delta_p = option.delta();
                                            spot.setValue(u-du);


                                            double value_m = option.NPV();
                                            final double delta_m = option.delta();
                                            spot.setValue(u);
                                            expected.put("delta", (value_p - value_m)/(2*du));
                                            expected.put("gamma", (delta_p - delta_m)/(2*du));


                                            // perturb rates and get rho and dividend rho
                                            final double dr = r*1.0e-4;
                                            rRate.setValue(r+dr);
                                            value_p = option.NPV();
                                            rRate.setValue(r-dr);
                                            value_m = option.NPV();
                                            rRate.setValue(r);
                                            expected.put("rho", (value_p - value_m)/(2*dr));


                                            final double dq = q*1.0e-4;
                                            qRate.setValue(q+dq);
                                            value_p = option.NPV();
                                            qRate.setValue(q-dq);
                                            value_m = option.NPV();
                                            qRate.setValue(q);
                                            expected.put("divRho",(value_p - value_m)/(2*dq));


                                            // perturb volatility and get vega
                                            final double dv = v*1.0e-4;
                                            vol.setValue(v+dv);
                                            value_p = option.NPV();
                                            vol.setValue(v-dv);
                                            value_m = option.NPV();
                                            vol.setValue(v);
                                            expected.put("vega",(value_p - value_m)/(2*dv));


                                            // perturb date and get theta
                                            final Date yesterday = today.sub(1);
                                            final Date tomorrow  = today.add(1);
                                            final double dT = dc.yearFraction(yesterday, tomorrow);
                                            new Settings().setEvaluationDate(yesterday);
                                            value_m = option.NPV();
                                            new Settings().setEvaluationDate(tomorrow);
                                            value_p = option.NPV();

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        final double qRates[] = { 0.01, 0.05, 0.10 };
        final double rRates[] = { 0.01, 0.05, 0.10 };
        final double vols[] = { 0.01, 0.20, 0.30, 0.70, 0.90 };


        final DayCounter dc = new Actual360();
        final Date today = Date.todaysDate();


        final SimpleQuote           spot  = new SimpleQuote(0.0);
        final SimpleQuote           qRate = new SimpleQuote(0.0);
        final YieldTermStructure    qTS   = Utilities.flatRate(today, qRate, dc);
        final SimpleQuote           rRate = new SimpleQuote(0.0);
        final YieldTermStructure    rTS   = Utilities.flatRate(today, rRate, dc);
        final SimpleQuote           vol   = new SimpleQuote(0.0);
        final BlackVolTermStructure volTS = Utilities.flatVol(today, vol, dc);


        for (final Type type : types) {
            for (final double strike2 : strikes) {
                for (final int length : lengths) {
                    // option to check
                    final Date exDate = today.add( length );
                    final Exercise exercise = new EuropeanExercise(exDate);
                    final StrikedTypePayoff payoff = new PlainVanillaPayoff(type, strike2);
                    final VanillaOption option = makeOption(payoff, exercise, spot, qTS, rTS, volTS, EngineType.Analytic, 0, 0);


                    final GeneralizedBlackScholesProcess process = makeProcess(spot, qTS, rTS,volTS);

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        QL.info("Testing self-containment of implied volatility calculation... running");


        final int maxEvaluations = 100;
        final double tolerance = 1.0e-6;


        final Date today = new Settings().evaluationDate();


        final DayCounter dc = new Actual360();
        final SimpleQuote           spot  = new SimpleQuote(100.0);
        final Quote                 u     = spot;
        final SimpleQuote           qRate = new SimpleQuote(0.05);
        final YieldTermStructure    qTS   = Utilities.flatRate(today, qRate, dc);
        final SimpleQuote           rRate = new SimpleQuote(0.003);
        final YieldTermStructure    rTS   = Utilities.flatRate(today, rRate, dc);
        final SimpleQuote           vol   = new SimpleQuote(0.20);
        final BlackVolTermStructure volTS = Utilities.flatVol(today, vol, dc);


        final Date exerciseDate = today.add(Period.ONE_YEAR_FORWARD);
        final Exercise exercise = new EuropeanExercise(exerciseDate);
        final StrikedTypePayoff payoff = new PlainVanillaPayoff(Option.Type.Call, 100);


        final BlackScholesMertonProcess stochProcess = new BlackScholesMertonProcess(
                new Handle<Quote>(u),

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        final double underlyings[] = { 100.0 };
        final double /* @Rate */qRates[] = { 0.00, 0.05 };
        final double /* @Rate */rRates[] = { 0.01, 0.05, 0.15 };
        final double /* @Volatility */vols[] = { 0.11, 0.50, 1.20 };


        final Date today = new Settings().evaluationDate();


        final DayCounter dc = new Actual360();


        final SimpleQuote           spot  = new SimpleQuote(0.0);
        final SimpleQuote           qRate = new SimpleQuote(0.0);
        final YieldTermStructure    qTS   = Utilities.flatRate(today, qRate, dc);
        final SimpleQuote           rRate = new SimpleQuote(0.0);
        final YieldTermStructure    rTS   = Utilities.flatRate(today, rRate, dc);
        final SimpleQuote           vol   = new SimpleQuote(0.0);
        final BlackVolTermStructure volTS = Utilities.flatVol(today, vol, dc);


        for (final Type type : types) {
            for (final double strike3 : strikes) {
                for (final int length2 : lengths) {


                    final Date exDate = today.add(timeToDays(length2));
                    final Exercise exercise = new EuropeanExercise(exDate);


                    final StrikedTypePayoff payoff = new PlainVanillaPayoff(type, strike3);


                    // reference option

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        final Pair<Double, Double> p = convertDates(optionDate, swapTenor);
        return vol * vol * p.getFirst();
    }


    public double volatility(final Period optionTenor, final Period swapTenor, final double strike, final boolean extrapolate) {
        final Date optionDate = optionDateFromTenor(optionTenor);
        return volatility(optionDate, swapTenor, strike, extrapolate);
    }

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        final Date optionDate = optionDateFromTenor(optionTenor);
        return volatility(optionDate, swapTenor, strike, extrapolate);
    }


    public double blackVariance(final Period optionTenor, final Period swapTenor, final double strike, final boolean extrapolate) {
        final Date optionDate = optionDateFromTenor(optionTenor);
        final double vol = volatility(optionDate, swapTenor, strike, extrapolate);
        final Pair<Double, Double> p = convertDates(optionDate, swapTenor);
        return vol * vol * p.getFirst();
    }

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        final Pair<Double, Double> p = convertDates(optionDate, swapTenor);
        return vol * vol * p.getFirst();
    }


    public SmileSection smileSection(final Period optionTenor, final Period swapTenor) {
        final Date optionDate = optionDateFromTenor(optionTenor);
        return smileSectionImpl(optionDate, swapTenor);
    }

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    public double maxSwapLength() {
        return timeFromReference(referenceDate().add(maxSwapTenor()));
    }


    public Pair<Double, Double> convertDates(final Date optionDate, final Period swapTenor) {
        final Date end = optionDate.add(swapTenor);
        // TODO: code review :: please verify against QL/C++ code
        QL.require(end.gt(optionDate) , "negative swap tenorgiven"); // QA:[RG]::verified // TODO: message
        final double optionTime = timeFromReference(optionDate);
        final double timeLength = dayCounter().yearFraction(optionDate, end);
        return new Pair<Double, Double>(optionTime, timeLength);
    }

View Full Code Here

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