def prtfCalc(self): calc = {} calc["FairValue"], calc["Delta"], calc["Gamma"], calc["Vega"], calc[ "Rho"], calc["Theta"] = 0.0, 0.0, 0.0, 0.0, 0.0, 0.0 calc["Vanna"], calc["Volga"], calc["Veta"], calc[ "Charm"] = 0.0, 0.0, 0.0, 0.0 for tr in self.tradeRecord: if tr: opt = EuropeanOption(tr["CallOrPut"] == "Call", tr["Strike"], tr["DayToExpiry"], tr["DvdYield"] / 100.0) opt.setLevel(self.spot, tr["ImplVol"] / 100.0, tr["RiskFree"] / 100.0) calc["FairValue"] += opt.fairValue() * tr["Notional"] calc["Delta"] += opt.delta() * tr["Notional"] calc["Gamma"] += opt.gamma() * tr["Notional"] calc["Vega"] += opt.vega() * tr["Notional"] calc["Rho"] += opt.rho() * tr["Notional"] calc["Theta"] += opt.theta( ) * tr["Notional"] / self.DaysPerYear calc["Vanna"] += opt.vanna() * tr["Notional"] calc["Volga"] += opt.volga() * tr["Notional"] calc["Veta"] += opt.veta() * tr["Notional"] calc["Charm"] += opt.charm() * tr["Notional"] return calc
def test_e_volga(self): #Delta Decay/ Charm: - d2X/dt dv = -dDelta/dt = -dTheta/dS dvol = 0.001 opt1 = EuropeanOption(True, 204.0, 91.0, 0.02) #isCall, strike, dayToExpiry, dvdYield opt1.setLevel(200.0, 0.300, 0.03) #spot, ivol, riskFree #note for the option class, theta convention = -dV/dt v1 = opt1.vega() opt2 = EuropeanOption(True, 204.0, 91.0, 0.02) #isCall, strike, dayToExpiry, dvdYield opt2.setLevel(200.0, 0.300+dvol, 0.03) #spot, ivol, riskFree v2 = opt2.vega() approx = (v2-v1)/dvol optMid = EuropeanOption(True, 204.0, 91.0, 0.02) #isCall, strike, dayToExpiry, dvdYield optMid.setLevel(200.0, 0.300+dvol*0.5, 0.03) #spot, ivol, riskFree assert self._isFloatNear( approx/ optMid.volga(), 1.0, 1e-3)