Exemplo n.º 1
0
def test_FinFXMktVolSurface4(capsys):
    # USDJPY Example from Paper by Uwe Wystup using Tables 4

    valuation_date = Date(20, 1, 2009)

    forName = "USD"
    domName = "JPY"
    forCCRate = 0.003525  # USD
    domCCRate = 0.0042875  # JPY

    dom_discount_curve = DiscountCurveFlat(valuation_date, domCCRate)
    for_discount_curve = DiscountCurveFlat(valuation_date, forCCRate)

    currency_pair = forName + domName
    spot_fx_rate = 90.68

    tenors = ['1M']
    atm_vols = [21.00]
    marketStrangle25DeltaVols = [0.184]
    riskReversal25DeltaVols = [-5.30]

    notional_currency = forName

    atmMethod = FinFXATMMethod.FWD_DELTA_NEUTRAL
    deltaMethod = FinFXDeltaMethod.SPOT_DELTA_PREM_ADJ

    fxMarket = FXVolSurface(valuation_date, spot_fx_rate, currency_pair,
                            notional_currency, dom_discount_curve,
                            for_discount_curve, tenors, atm_vols,
                            marketStrangle25DeltaVols, riskReversal25DeltaVols,
                            atmMethod, deltaMethod)

    fxMarket.check_calibration(verboseCalibration)
    captured = capsys.readouterr()
    assert captured.out == ""
Exemplo n.º 2
0
def test_FinFXMktVolSurface1(capsys):
    # Example from Book extract by Iain Clarke using Tables 3.3 and 3.4
    # print("EURUSD EXAMPLE CLARK")

    valuation_date = Date(10, 4, 2020)

    forName = "EUR"
    domName = "USD"
    forCCRate = 0.03460  # EUR
    domCCRate = 0.02940  # USD

    dom_discount_curve = DiscountCurveFlat(valuation_date, domCCRate)
    for_discount_curve = DiscountCurveFlat(valuation_date, forCCRate)

    currency_pair = forName + domName
    spot_fx_rate = 1.3465

    tenors = ['1M', '2M', '3M', '6M', '1Y', '2Y']
    atm_vols = [21.00, 21.00, 20.750, 19.400, 18.250, 17.677]
    marketStrangle25DeltaVols = [0.65, 0.75, 0.85, 0.90, 0.95, 0.85]
    riskReversal25DeltaVols = [-0.20, -0.25, -0.30, -0.50, -0.60, -0.562]

    notional_currency = forName

    atmMethod = FinFXATMMethod.FWD_DELTA_NEUTRAL
    deltaMethod = FinFXDeltaMethod.SPOT_DELTA
    vol_functionType = VolFunctionTypes.CLARK

    fxMarket = FXVolSurface(valuation_date, spot_fx_rate, currency_pair,
                            notional_currency, dom_discount_curve,
                            for_discount_curve, tenors, atm_vols,
                            marketStrangle25DeltaVols, riskReversal25DeltaVols,
                            atmMethod, deltaMethod, vol_functionType)

    fxMarket.check_calibration(verboseCalibration, tol=1e-5)
    captured = capsys.readouterr()
    assert captured.out == ""
Exemplo n.º 3
0
def test_FinFXMktVolSurface3(capsys):
    # EURUSD Example from Paper by Uwe Wystup using Tables 4
    #        print("EURUSD EXAMPLE WYSTUP")

    valuation_date = Date(20, 1, 2009)

    forName = "EUR"
    domName = "USD"
    forCCRate = 0.020113  # EUR
    domCCRate = 0.003525  # USD

    dom_discount_curve = DiscountCurveFlat(valuation_date, domCCRate)
    for_discount_curve = DiscountCurveFlat(valuation_date, forCCRate)

    currency_pair = forName + domName
    spot_fx_rate = 1.3088

    tenors = ['1M']
    atm_vols = [21.6215]
    marketStrangle25DeltaVols = [0.7375]
    riskReversal25DeltaVols = [-0.50]

    notional_currency = forName

    atmMethod = FinFXATMMethod.FWD_DELTA_NEUTRAL
    deltaMethod = FinFXDeltaMethod.SPOT_DELTA

    fxMarket = FXVolSurface(valuation_date, spot_fx_rate, currency_pair,
                            notional_currency, dom_discount_curve,
                            for_discount_curve, tenors, atm_vols,
                            marketStrangle25DeltaVols, riskReversal25DeltaVols,
                            atmMethod, deltaMethod)

    fxMarket.check_calibration(verboseCalibration)
    captured = capsys.readouterr()
    assert captured.out == ""
Exemplo n.º 4
0
def test_FinFXMktVolSurface2(capsys):
    # Example from Book extract by Iain Clark using Tables 3.3 and 3.4
    # print("EURJPY EXAMPLE CLARK")

    valuation_date = Date(10, 4, 2020)

    forName = "EUR"
    domName = "JPY"
    forCCRate = 0.0294  # EUR
    domCCRate = 0.0171  # USD

    dom_discount_curve = DiscountCurveFlat(valuation_date, domCCRate)
    for_discount_curve = DiscountCurveFlat(valuation_date, forCCRate)

    currency_pair = forName + domName
    spot_fx_rate = 90.72

    tenors = ['1M', '2M', '3M', '6M', '1Y', '2Y']
    atm_vols = [21.50, 20.50, 19.85, 18.00, 15.95, 14.009]
    marketStrangle25DeltaVols = [0.35, 0.325, 0.300, 0.225, 0.175, 0.100]
    riskReversal25DeltaVols = [-8.350, -8.650, -8.950, -9.250, -9.550, -9.500]

    notional_currency = forName

    atmMethod = FinFXATMMethod.FWD_DELTA_NEUTRAL_PREM_ADJ
    deltaMethod = FinFXDeltaMethod.SPOT_DELTA_PREM_ADJ

    fxMarket = FXVolSurface(valuation_date, spot_fx_rate, currency_pair,
                            notional_currency, dom_discount_curve,
                            for_discount_curve, tenors, atm_vols,
                            marketStrangle25DeltaVols, riskReversal25DeltaVols,
                            atmMethod, deltaMethod)

    fxMarket.check_calibration(verboseCalibration, tol=0.0005)
    captured = capsys.readouterr()
    assert captured.out == ""
Exemplo n.º 5
0
def test_FinFXMktVolSurface1(verboseCalibration):

    ###########################################################################

    if 1 == 1:

        # Example from Book extract by Iain Clarke using Tables 3.3 and 3.4
        # print("EURUSD EXAMPLE CLARK")

        valuation_date = Date(10, 4, 2020)

        forName = "EUR"
        domName = "USD"
        forCCRate = 0.03460  # EUR
        domCCRate = 0.02940  # USD

        dom_discount_curve = DiscountCurveFlat(valuation_date, domCCRate)
        for_discount_curve = DiscountCurveFlat(valuation_date, forCCRate)

        currency_pair = forName + domName
        spot_fx_rate = 1.3465

        tenors = ['1M', '2M', '3M', '6M', '1Y', '2Y']
        atm_vols = [21.00, 21.00, 20.750, 19.400, 18.250, 17.677]
        marketStrangle25DeltaVols = [0.65, 0.75, 0.85, 0.90, 0.95, 0.85]
        riskReversal25DeltaVols = [-0.20, -0.25, -0.30, -0.50, -0.60, -0.562]

        notional_currency = forName

        atmMethod = FinFXATMMethod.FWD_DELTA_NEUTRAL
        deltaMethod = FinFXDeltaMethod.SPOT_DELTA
        vol_functionType = VolFunctionTypes.CLARK

        fxMarket = FXVolSurface(valuation_date, spot_fx_rate, currency_pair,
                                notional_currency, dom_discount_curve,
                                for_discount_curve, tenors, atm_vols,
                                marketStrangle25DeltaVols,
                                riskReversal25DeltaVols, atmMethod,
                                deltaMethod, vol_functionType)

        fxMarket.check_calibration(verboseCalibration)

        # EXPLORE AND TEST DIFFERENT CATEGORICAL PARAMETERS
        # for atmMethod in FinFXATMMethod:
        #     for deltaMethod in FinFXDeltaMethod:
        #         for vol_functionType in VolFunctionTypes:

        #             fxMarket = FinFXVolSurface(valuation_date,
        #                                        spot_fx_rate,
        #                                        currency_pair,
        #                                        notional_currency,
        #                                        dom_discount_curve,
        #                                        for_discount_curve,
        #                                        tenors,
        #                                        atm_vols,
        #                                        marketStrangle25DeltaVols,
        #                                        riskReversal25DeltaVols,
        #                                        atmMethod,
        #                                        deltaMethod,
        #                                        vol_functionType)

        #             fxMarket.check_calibration(verboseCalibration)

        if PLOT_GRAPHS:

            fxMarket.plot_vol_curves()

            dbns = fxMarket.implied_dbns(0.00001, 5.0, 10000)

            for i in range(0, len(dbns)):
                plt.plot(dbns[i]._x, dbns[i]._densitydx)
                plt.title(vol_functionType)
                print("SUM:", dbns[i].sum())
Exemplo n.º 6
0
def test_FinOptionImpliedDbn():

    if 1 == 1:

        # Example from Book extract by Iain Clark using Tables 3.3 and 3.4
        # print("EURUSD EXAMPLE CLARK")

        valuation_date = Date(10, 4, 2020)

        forName = "EUR"
        domName = "USD"
        forCCRate = 0.03460  # EUR
        domCCRate = 0.02940  # USD

        dom_discount_curve = DiscountCurveFlat(valuation_date, domCCRate)
        for_discount_curve = DiscountCurveFlat(valuation_date, forCCRate)

        currency_pair = forName + domName
        spot_fx_rate = 1.3465

        tenors = ['1M', '2M', '3M', '6M', '1Y', '2Y']
        atm_vols = [21.00, 21.00, 20.750, 19.400, 18.250, 17.677]
        marketStrangle25DeltaVols = [0.65, 0.75, 0.85, 0.90, 0.95, 0.85]
        riskReversal25DeltaVols = [-0.20, -0.25, -0.30, -0.50, -0.60, -0.562]

        notional_currency = forName

        atmMethod = FinFXATMMethod.FWD_DELTA_NEUTRAL
        deltaMethod = FinFXDeltaMethod.SPOT_DELTA

        fxMarket = FXVolSurface(valuation_date, spot_fx_rate, currency_pair,
                                notional_currency, dom_discount_curve,
                                for_discount_curve, tenors, atm_vols,
                                marketStrangle25DeltaVols,
                                riskReversal25DeltaVols, atmMethod,
                                deltaMethod)

        #        fxMarket.check_calibration(True)

        PLOT_GRAPHS = False
        if PLOT_GRAPHS:
            fxMarket.plot_vol_curves()

        for iTenor in range(0, len(fxMarket._tenors)):

            F = fxMarket._F0T[iTenor]
            texp = fxMarket._texp[iTenor]

            startFX = F * 0.05
            endFX = F * 5.0

            num_steps = 10000
            dFX = (endFX - startFX) / num_steps

            domDF = dom_discount_curve._df(texp)
            forDF = for_discount_curve._df(texp)

            rd = -np.log(domDF) / texp
            rf = -np.log(forDF) / texp

            params = fxMarket._parameters[iTenor]

            strikes = []
            vols = []

            for iK in range(0, num_steps):
                strike = startFX + iK * dFX
                vol = vol_function_clark(params, F, strike, texp)
                strikes.append(strike)
                vols.append(vol)

            strikes = np.array(strikes)
            vols = np.array(vols)