public override void calculate(IPricingEngineResults r)
{
OneAssetOption.Results results = r as OneAssetOption.Results;
Utils.QL_REQUIRE(results != null, () => "incorrect results type");
double beginDate, endDate;
int dateNumber = stoppingTimes_.Count;
bool lastDateIsResTime = false;
int firstIndex = -1;
int lastIndex = dateNumber - 1;
bool firstDateIsZero = false;
double firstNonZeroDate = getResidualTime();
double dateTolerance = 1e-6;
int j;
if (dateNumber > 0)
{
Utils.QL_REQUIRE(getDividendTime(0) >= 0, () => "first date (" + getDividendTime(0) + ") cannot be negative");
if (getDividendTime(0) < getResidualTime() * dateTolerance)
{
firstDateIsZero = true;
firstIndex = 0;
if (dateNumber >= 2)
{
firstNonZeroDate = getDividendTime(1);
}
}
if (Math.Abs(getDividendTime(lastIndex) - getResidualTime()) < dateTolerance)
{
lastDateIsResTime = true;
lastIndex = dateNumber - 2;
}
if (!firstDateIsZero)
{
firstNonZeroDate = getDividendTime(0);
}
if (dateNumber >= 2)
{
for (j = 1; j < dateNumber; j++)
{
Utils.QL_REQUIRE(getDividendTime(j - 1) < getDividendTime(j), () =>
"dates must be in increasing order: " + getDividendTime(j - 1) +
" is not strictly smaller than " + getDividendTime(j));
}
}
}
double dt = getResidualTime() / (timeStepPerPeriod_ * (dateNumber + 1));
// Ensure that dt is always smaller than the first non-zero date
if (firstNonZeroDate <= dt)
{
dt = firstNonZeroDate / 2.0;
}
setGridLimits();
initializeInitialCondition();
initializeOperator();
initializeBoundaryConditions();
initializeModel();
initializeStepCondition();
prices_ = (SampledCurve)intrinsicValues_.Clone();
if (lastDateIsResTime)
{
executeIntermediateStep(dateNumber - 1);
}
j = lastIndex;
object temp;
do
{
if (j == dateNumber - 1)
{
beginDate = getResidualTime();
}
else
{
beginDate = getDividendTime(j + 1);
}
if (j >= 0)
{
endDate = getDividendTime(j);
}
else
{
endDate = dt;
}
temp = prices_.values();
model_.rollback(ref temp, beginDate, endDate, timeStepPerPeriod_, stepCondition_);
prices_.setValues((Vector)temp);
if (j >= 0)
{
executeIntermediateStep(j);
}
} while (--j >= firstIndex);
temp = prices_.values();
model_.rollback(ref temp, dt, 0, 1, stepCondition_);
prices_.setValues((Vector)temp);
if (firstDateIsZero)
{
executeIntermediateStep(0);
}
results.value = prices_.valueAtCenter();
results.delta = prices_.firstDerivativeAtCenter();
results.gamma = prices_.secondDerivativeAtCenter();
results.additionalResults["priceCurve"] = prices_;
}
public override void calculate(IPricingEngineResults r)
{
OneAssetOption.Results results = r as OneAssetOption.Results;
setGridLimits();
initializeInitialCondition();
initializeOperator();
initializeBoundaryConditions();
initializeStepCondition();
List <IOperator> operatorSet = new List <IOperator>();
List <Vector> arraySet = new List <Vector>();
BoundaryConditionSet bcSet = new BoundaryConditionSet();
StepConditionSet <Vector> conditionSet = new StepConditionSet <Vector>();
prices_ = (SampledCurve)intrinsicValues_.Clone();
controlPrices_ = (SampledCurve)intrinsicValues_.Clone();
controlOperator_ = (TridiagonalOperator)finiteDifferenceOperator_.Clone();
controlBCs_[0] = BCs_[0];
controlBCs_[1] = BCs_[1];
operatorSet.Add(finiteDifferenceOperator_);
operatorSet.Add(controlOperator_);
arraySet.Add(prices_.values());
arraySet.Add(controlPrices_.values());
bcSet.Add(BCs_);
bcSet.Add(controlBCs_);
conditionSet.Add(stepCondition_);
conditionSet.Add(new NullCondition <Vector>());
var model = new FiniteDifferenceModel <ParallelEvolver <CrankNicolson <TridiagonalOperator> > >(operatorSet, bcSet);
object temp = arraySet;
model.rollback(ref temp, getResidualTime(), 0.0, timeSteps_, conditionSet);
arraySet = (List <Vector>)temp;
prices_.setValues(arraySet[0]);
controlPrices_.setValues(arraySet[1]);
StrikedTypePayoff striked_payoff = payoff_ as StrikedTypePayoff;
Utils.QL_REQUIRE(striked_payoff != null, () => "non-striked payoff given");
double variance = process_.blackVolatility().link.blackVariance(exerciseDate_, striked_payoff.strike());
double dividendDiscount = process_.dividendYield().link.discount(exerciseDate_);
double riskFreeDiscount = process_.riskFreeRate().link.discount(exerciseDate_);
double spot = process_.stateVariable().link.value();
double forwardPrice = spot * dividendDiscount / riskFreeDiscount;
BlackCalculator black = new BlackCalculator(striked_payoff, forwardPrice, Math.Sqrt(variance), riskFreeDiscount);
results.value = prices_.valueAtCenter()
- controlPrices_.valueAtCenter()
+ black.value();
results.delta = prices_.firstDerivativeAtCenter()
- controlPrices_.firstDerivativeAtCenter()
+ black.delta(spot);
results.gamma = prices_.secondDerivativeAtCenter()
- controlPrices_.secondDerivativeAtCenter()
+ black.gamma(spot);
results.additionalResults["priceCurve"] = prices_;
}