📄 singleassetoption.cpp
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/* -*- mode: c++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
Copyright (C) 2000, 2001, 2002, 2003 RiskMap srl
This file is part of QuantLib, a free-software/open-source library
for financial quantitative analysts and developers - http://quantlib.org/
QuantLib is free software: you can redistribute it and/or modify it
under the terms of the QuantLib license. You should have received a
copy of the license along with this program; if not, please email
<quantlib-dev@lists.sf.net>. The license is also available online at
<http://quantlib.org/license.shtml>.
This program is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
FOR A PARTICULAR PURPOSE. See the license for more details.
*/
#include <ql/legacy/pricers/singleassetoption.hpp>
#include <ql/math/solvers1d/brent.hpp>
namespace QuantLib {
const Real SingleAssetOption::dVolMultiplier_ = 0.0001;
const Real SingleAssetOption::dRMultiplier_ = 0.0001;
// const Real SingleAssetOption::dSMultiplier_ = 0.0001;
// const Real SingleAssetOption::dTMultiplier_ = 0.0001;
SingleAssetOption::SingleAssetOption(Option::Type type,
Real underlying, Real strike,
Spread dividendYield,
Rate riskFreeRate, Time residualTime,
Volatility volatility)
: underlying_(underlying),
payoff_(type, strike), dividendYield_(dividendYield),
residualTime_(residualTime), hasBeenCalculated_(false),
rhoComputed_(false), dividendRhoComputed_(false),
vegaComputed_(false), thetaComputed_(false) {
QL_REQUIRE(strike>=0.0,
"strike (" << strike << ") must be non negative");
QL_REQUIRE(underlying > 0.0,
"underlying (" << underlying << ") must be positive");
QL_REQUIRE(residualTime > 0.0,
"residual time (" << residualTime << ") must be positive");
// checks on volatility values are in setVolatility
setVolatility(volatility);
// checks on the risk-free rate are in setRiskFreeRate
setRiskFreeRate(riskFreeRate);
}
void SingleAssetOption::setVolatility(Volatility volatility) {
QL_REQUIRE(volatility >= 1.0e-7,
"volatility too small (" << volatility << ")");
QL_REQUIRE(volatility <= 4.0,
"volatility too high (" << volatility << ")");
volatility_ = volatility;
hasBeenCalculated_ = false;
vegaComputed_ = false;
rhoComputed_ = false;
dividendRhoComputed_ = false;
thetaComputed_ = false;
}
void SingleAssetOption::setRiskFreeRate(Rate newRiskFreeRate) {
riskFreeRate_ = newRiskFreeRate;
hasBeenCalculated_ = false;
}
void SingleAssetOption::setDividendYield(Rate newDividendYield) {
dividendYield_ = newDividendYield;
hasBeenCalculated_ = false;
}
Real SingleAssetOption::theta() const {
if(!thetaComputed_) {
// use Black-Scholes equation for theta computation
theta_ = riskFreeRate_ * value()
-(riskFreeRate_ - dividendYield_ ) * underlying_ * delta()
- 0.5 * volatility_ * volatility_ *
underlying_ * underlying_ * gamma();
thetaComputed_ = true;
}
return theta_;
}
Real SingleAssetOption::vega() const {
if(!vegaComputed_) {
Real valuePlus = value();
boost::shared_ptr<SingleAssetOption> brandNewFD = clone();
Volatility volMinus = volatility_ * (1.0 - dVolMultiplier_);
brandNewFD -> setVolatility(volMinus);
Real valueMinus = brandNewFD -> value();
vega_ = (valuePlus - valueMinus )/
(volatility_ * dVolMultiplier_);
vegaComputed_ = true;
}
return vega_;
}
Real SingleAssetOption::dividendRho() const {
if(!dividendRhoComputed_){
Real valuePlus = value();
boost::shared_ptr<SingleAssetOption> brandNewFD = clone();
Rate dMinus = (dividendYield_ ?
dividendYield_ * (1.0 - dRMultiplier_) : 0.0001);
brandNewFD -> setDividendYield(dMinus);
Real valueMinus = brandNewFD -> value();
dividendRho_=(valuePlus - valueMinus) /
(dividendYield_ - dMinus);
dividendRhoComputed_ = true;
}
return dividendRho_;
}
Real SingleAssetOption::rho() const {
if(!rhoComputed_){
Real valuePlus = value();
boost::shared_ptr<SingleAssetOption> brandNewFD = clone();
Rate rMinus= (riskFreeRate_ ?
riskFreeRate_ * (1.0 - dRMultiplier_) : 0.0001);
brandNewFD -> setRiskFreeRate(rMinus);
Real valueMinus = brandNewFD -> value();
rho_=(valuePlus - valueMinus) /
(riskFreeRate_ - rMinus);
rhoComputed_ = true;
}
return rho_;
}
Volatility SingleAssetOption::impliedVolatility(Real targetValue,
Real accuracy,
Size maxEvaluations,
Volatility minVol,
Volatility maxVol) const {
// check option targetValue boundary condition
QL_REQUIRE(targetValue > 0.0,
"targetValue must be positive");
Real optionValue = value();
if (optionValue == targetValue)
return volatility_;
// clone used for root finding
boost::shared_ptr<SingleAssetOption> tempBSM = clone();
// objective function
VolatilityFunction bsmf(tempBSM, targetValue);
// solver
Brent s1d;
s1d.setMaxEvaluations(maxEvaluations);
s1d.setLowerBound(minVol);
s1d.setUpperBound(maxVol);
return s1d.solve(bsmf, accuracy, volatility_, minVol, maxVol);
}
Spread SingleAssetOption::impliedDivYield(Real targetValue,
Real accuracy,
Size maxEvaluations,
Spread minDivYield,
Spread maxDivYield) const {
// check option targetValue boundary condition
QL_REQUIRE(targetValue > 0.0,
"targetValue must be positive");
Real optionValue = value();
if (optionValue == targetValue)
return dividendYield_;
// clone used for root finding
boost::shared_ptr<SingleAssetOption> tempBSM = clone();
// objective function
DivYieldFunction bsmf(tempBSM, targetValue);
// solver
Brent s1d;
s1d.setMaxEvaluations(maxEvaluations);
s1d.setLowerBound(minDivYield);
s1d.setUpperBound(maxDivYield);
return s1d.solve(bsmf, accuracy, dividendYield_,
minDivYield, maxDivYield);
}
}
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