public void TestCalibration()
{
InterestRateMarketData IData = InterestRateMarketData.FromFile("../../TestData/IRMD-sample.xml");
CallPriceMarketData HData = CallPriceMarketData.FromFile("../../TestData/CallData-sample.xml");
//InterestRateMarketData IData = InterestRateMarketData.FromFile("../../../EquityModels.Tests/TestData/IRMD-EU-30102012-close.xml");
//CallPriceMarketData HData = CallPriceMarketData.FromFile("../../../EquityModels.Tests/TestData/30102012-SX5E_Index-HestonData.xml");
//CallPriceMarketData HData = ObjectSerialization.ReadFromXMLFile("../../../EquityModels.Tests/TestData/FTSE.xml") as CallPriceMarketData;
List <object> l = new List <object>();
l.Add(IData.DiscountingCurve);
l.Add(HData);
DupireEstimator DE = new DupireEstimator();
DupireCalibrationSettings settings = new DupireCalibrationSettings();
settings.LocalVolatilityCalculation = LocalVolatilityCalculation.Method1;
//settings.LocalVolatilityCalculation = LocalVolatilityCalculation.QuantLib;
EstimationResult res = DE.Estimate(l, settings);
//int nmat = HData.Maturity.Length;
//int nstrike = HData.Strike.Length;
int i = 5; // Maturity.
int j = 4; // Strike.
Engine.MultiThread = true;
Document doc = new Document();
ProjectROV rov = new ProjectROV(doc);
doc.Part.Add(rov);
doc.DefaultProject.NMethods.m_UseAntiteticPaths = true;
int n_sim = 10000;
int n_steps = 500;
double strike = HData.Strike[j];
//double volatility = HData.Volatility[i, j];
/*
* PFunction2D.PFunction2D impvolfunc = new PFunction2D.PFunction2D(rov);
* impvolfunc = res.Objects[3] as PFunction2D.PFunction2D;
* impvolfunc.VarName = "impvol";
* rov.Symbols.Add(impvolfunc);
* double volatility = impvolfunc.Evaluate(HData.Maturity[i], HData.Strike[j]);
*/
double volatility = 0.2;
double maturity = HData.Maturity[i];
ModelParameter Pstrike = new ModelParameter(strike, string.Empty, "strike");
rov.Symbols.Add(Pstrike);
AFunction payoff = new AFunction(rov);
payoff.VarName = "payoff";
payoff.m_IndependentVariables = 1;
payoff.m_Value = (RightValue)("max(x1 - strike ; 0)");
rov.Symbols.Add(payoff);
bool found;
double S0 = PopulateHelper.GetValue("S0", res.Names, res.Values, out found);
ModelParameter PS0 = new ModelParameter(S0, string.Empty, "S0");
rov.Symbols.Add(PS0);
PFunction rfunc = new PFunction(rov);
rfunc = res.Objects[0] as PFunction;
rfunc.VarName = "r";
rov.Symbols.Add(rfunc);
PFunction qfunc = new PFunction(rov);
qfunc = res.Objects[1] as PFunction;
qfunc.VarName = "q";
rov.Symbols.Add(qfunc);
PFunction2D.PFunction2D volfunc = new PFunction2D.PFunction2D(rov);
volfunc = res.Objects[2] as PFunction2D.PFunction2D;
volfunc.VarName = "localvol";
rov.Symbols.Add(volfunc);
DupireProcess process = new DupireProcess();
process.s0 = (ModelParameter)"S0";
process.r = (ModelParameter)"@r";
process.q = (ModelParameter)"@q";
process.localVol = (ModelParameter)"@localvol";
double rate = rfunc.Evaluate(maturity);
double dy = qfunc.Evaluate(maturity);
StochasticProcessExtendible s = new StochasticProcessExtendible(rov, process);
rov.Processes.AddProcess(s);
// Set the discounting.
RiskFreeInfo rfi = rov.GetDiscountingModel() as RiskFreeInfo;
rfi.ActualizationType = EActualizationType.RiskFree;
rfi.m_deterministicRF = rate;
OptionTree op = new OptionTree(rov);
op.PayoffInfo.PayoffExpression = "payoff(v1)";
op.PayoffInfo.Timing.EndingTime.m_Value = (RightValue)maturity;
op.PayoffInfo.European = true;
rov.Map.Root = op;
rov.NMethods.Technology = ETechType.T_SIMULATION;
rov.NMethods.PathsNumber = n_sim;
rov.NMethods.SimulationSteps = n_steps;
ROVSolver solver = new ROVSolver();
solver.BindToProject(rov);
solver.DoValuation(-1);
if (rov.HasErrors)
{
rov.DisplayErrors();
}
Assert.IsFalse(rov.HasErrors);
ResultItem price = rov.m_ResultList[0] as ResultItem;
double samplePrice = price.value;
double sampleDevSt = price.stdDev / Math.Sqrt((double)n_sim);
Console.WriteLine("Surf = " + volfunc.Expr);
// Calculation of the theoretical value of the call.
double theoreticalPrice = BlackScholes.Call(rate, S0, strike, volatility, maturity, dy);
Console.WriteLine("Theoretical Price = " + theoreticalPrice.ToString());
Console.WriteLine("Monte Carlo Price = " + samplePrice);
Console.WriteLine("Standard Deviation = " + sampleDevSt.ToString());
double tol = 4.0 * sampleDevSt;
doc.WriteToXMLFile("Dupire.fair");
Assert.LessOrEqual(Math.Abs(theoreticalPrice - samplePrice), tol);
}
public static void Main(string[] args)
{
int Caso = 1;
if (Caso == 0)
{
InterestRateMarketData MData = InterestRateMarketData.FromFile("../../../TestData/InterestRatesModels/05052009-EU.xml");
CallPriceMarketData test = CallPriceMarketData.FromFile("../../../TestData/Heston/05052009-SX5E-HestonData.xml");
EquityCalibrationData CalData = new EquityCalibrationData(test, MData);
Matrix CallMarketPrice = (Matrix)test.CallPrice;
Vector Maturity = (Vector)test.Maturity;
Vector Strike = (Vector)test.Strike;
Vector DividendYield = (Vector)test.DividendYield;
Vector Drift = CalData.Rate - CalData.DividendYield;
Vector Rate = CalData.Rate;
double u, kappa, theta, sigma, rho, v0, s0, r, q, T, K, val;
u = 1.0;
kappa = 19.4;
theta = 0.235;
sigma = 0.00500999;
rho = -0.96;
v0 = 0.664;
s0 = 3872.15;
r = -0.0867303549580581;
q = 0;
T = 0.50;
K = 6000;
Vector MatBound = new Vector(2);
Vector StrikeBound = new Vector(2);
MatBound[0] = 0.0;
MatBound[1] = 2.0;
StrikeBound[0] = 0.7;
StrikeBound[1] = 1.3;
Matrix Volatility = new Matrix(test.CallPrice.R, test.CallPrice.C);
HestonCallOptimizationProblem HP = new HestonCallOptimizationProblem(CallMarketPrice, Maturity, Strike, Rate, DividendYield, test.S0, MatBound, StrikeBound, Volatility);
Complex Cval, Cu;
Cu = u - Complex.I;
HestonCall hc = new HestonCall(HP);
Cval = hc.phi(u, kappa, theta, sigma, rho, s0, v0, r, T);
Console.WriteLine("phi1 = {0}", Cval);
Cval = hc.phi(Cu, kappa, theta, sigma, rho, s0, v0, r, T);
Console.WriteLine("phi2 = {0}", Cval);
val = hc.IntegrandFunc(u, kappa, theta, sigma, rho, s0, v0, r, q, T, K);
Console.WriteLine("IntFunc = {0}", val);
Vector x = new Vector(5);
x[0] = kappa;
x[1] = theta;
x[2] = sigma;
x[3] = rho;
x[4] = v0;
DateTime T1, T2;
TimeSpan ElapsedTime;
double Time, Time2, Time3;
T1 = DateTime.Now;
val = hc.HestonCallPrice(x, s0, T, K, r, q);
T2 = DateTime.Now;
ElapsedTime = T2 - T1;
Time = (double)ElapsedTime.Milliseconds;
Time2 = (double)ElapsedTime.Seconds;
Console.WriteLine("Price = {0}", val);
Console.WriteLine("Elapsed Time = {0}", Time2 + Time / 1000);
int NProve = 10;
int NPassi = 1000;
double val2;
Random CasNum = new Random();
for (int i = 0; i < NProve; i++)
{
for (int j = 0; j < 5; j++)
{
val2 = ((double)CasNum.Next(0, NPassi)) / ((double)NPassi);
x[j] = HP.Bounds.Lb[j] + (HP.Bounds.Ub[j] - HP.Bounds.Lb[j]) * val2;
}
Console.Write("Trial {0} x = " + x.ToString(), i + 1);
T1 = DateTime.Now;
val = HP.Obj(x);
T2 = DateTime.Now;
ElapsedTime = T2 - T1;
Time = (double)ElapsedTime.Milliseconds;
Time2 = (double)ElapsedTime.Seconds;
Time3 = (double)ElapsedTime.Minutes;
Console.WriteLine(" Time = {0}' {1}'' Val = {2}", Time3, Time2 + Time / 1000, val);
}
}
if (Caso == 1)
{
TestHestonCallEstimation NewTest = new TestHestonCallEstimation();
bool Result = NewTest.Run();
}
}