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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

 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/Pricers/discretegeometricaso.hpp>
#include <numeric>

namespace QuantLib {

    const CumulativeNormalDistribution DiscreteGeometricASO::f_;

                   Option::Type type, Real underlying, Spread dividendYield,
                   Rate riskFreeRate, const std::vector<Time>& times,
                   Volatility volatility)
    : SingleAssetOption(type, underlying, underlying, dividendYield,
                        riskFreeRate, times.back(), volatility),
      times_(times) {}

    Real DiscreteGeometricASO::value() const {
        // almost ready for mid-life re-evaluation
        std::vector<Real> pastFixings(0, 0.0);
        Real runningAverage = std::accumulate(pastFixings.begin(),
                                              pastFixings.end(), 1.0,
        Size m = pastFixings.size();
        Real runningLogAverage = std::log(runningAverage);
        QL_REQUIRE(runningLogAverage==0.0, "not zero");

        Real N = Real(times_.size()+m);
        Real pastWeight = m/N;
        Real futureWeight = 1-pastWeight;
        QL_REQUIRE(futureWeight==1.0, "not one");

        Rate nu = riskFreeRate_ - dividendYield_ -
        Real muG = pastWeight * runningLogAverage +
            futureWeight * std::log(underlying_) +
            nu/N*std::accumulate(times_.begin(), times_.end(), 0.0);

        Size i;
        Real temp = 0.0;
        for (i=m+1; i<N; i++)
            temp += times_[i-m-1]*(N-i);
        Real sigmaG_2 = volatility_*volatility_ /N/N *
            (std::accumulate(times_.begin(), times_.end(), 0.0)+ 2.0*temp);

        Real covarianceTerm = volatility_*volatility_/N *
            std::accumulate(times_.begin(), times_.end(), 0.0);
        Real sigmaSum_2 = sigmaG_2+
        Real y1 = (std::log(underlying_)+
                     muG - sigmaG_2/2.0 + sigmaSum_2/2.0)
        Real y2=y1-std::sqrt(sigmaSum_2);

        Real result;
        switch (payoff_.optionType()) {
          case Option::Call:
            result = underlying_*std::exp(-dividendYield_*residualTime_)
          case Option::Put:
            result = -underlying_*std::exp(-dividendYield_*residualTime_)
            QL_FAIL("invalid option type");
        return result;


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