PutOption.cpp
#include "PutOption.h"
#include "matlib.h"
Matrix PutOption::payoffAtMaturity( const Matrix& stockAtMaturity ) const {
Matrix val = getStrike() - stockAtMaturity;
val.positivePart();
return val;
}
double PutOption::price(
const MultiStockModel& msm ) const {
BlackScholesModel bsm =
msm.getBlackScholesModel(getStock());
double S = bsm.stockPrice;
double K = getStrike();
double sigma = bsm.volatility;
double r = bsm.riskFreeRate;
double T = getMaturity() - bsm.date;
double numerator = log( S/K ) + ( r + sigma*sigma*0.5)*T;
double denominator = sigma * sqrt(T );
double d1 = numerator/denominator;
double d2 = d1 - denominator;
return -S*normcdf(-d1) + exp(-r*T)*K*normcdf(-d2);
}
//////////////////////////
//
// Test the call option class
//
//
//////////////////////////
static void testPayoff() {
PutOption putOption;
putOption.setStrike( 105.0) ;
putOption.setMaturity( 2.0 );
ASSERT_APPROX_EQUAL( putOption.payoffAtMaturity(Matrix(110.0)).asScalar(), 0.0, 0.001);
ASSERT_APPROX_EQUAL( putOption.payoffAtMaturity(Matrix(100.0)).asScalar(), 5.0, 0.001);
}
static void testPutOptionPrice() {
PutOption putOption;
putOption.setStrike( 105.0 );
putOption.setMaturity( 2.0 );
BlackScholesModel bsm;
bsm.date = 1.0;
bsm.volatility = 0.1;
bsm.riskFreeRate = 0.05;
bsm.stockPrice = 100.0;
MultiStockModel msm(bsm);
double price = putOption.price( msm );
ASSERT_APPROX_EQUAL( price, 3.925, 0.01);
}
void testPutOption() {
TEST( testPutOptionPrice );
TEST( testPayoff );
}