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00028 #ifndef EIGEN_NUMERICAL_DIFF_H
00029 #define EIGEN_NUMERICAL_DIFF_H
00030
00031 enum NumericalDiffMode {
00032 Forward,
00033 Central
00034 };
00035
00036
00048 template<typename _Functor, NumericalDiffMode mode=Forward>
00049 class NumericalDiff : public _Functor
00050 {
00051 public:
00052 typedef _Functor Functor;
00053 typedef typename Functor::Scalar Scalar;
00054 typedef typename Functor::InputType InputType;
00055 typedef typename Functor::ValueType ValueType;
00056 typedef typename Functor::JacobianType JacobianType;
00057
00058 NumericalDiff(Scalar _epsfcn=0.) : Functor(), epsfcn(_epsfcn) {}
00059 NumericalDiff(const Functor& f, Scalar _epsfcn=0.) : Functor(f), epsfcn(_epsfcn) {}
00060
00061
00062 template<typename T0>
00063 NumericalDiff(const T0& a0) : Functor(a0), epsfcn(0) {}
00064 template<typename T0, typename T1>
00065 NumericalDiff(const T0& a0, const T1& a1) : Functor(a0, a1), epsfcn(0) {}
00066 template<typename T0, typename T1, typename T2>
00067 NumericalDiff(const T0& a0, const T1& a1, const T1& a2) : Functor(a0, a1, a2), epsfcn(0) {}
00068
00069 enum {
00070 InputsAtCompileTime = Functor::InputsAtCompileTime,
00071 ValuesAtCompileTime = Functor::ValuesAtCompileTime
00072 };
00073
00077 int df(const InputType& _x, JacobianType &jac) const
00078 {
00079
00080 Scalar h;
00081 int nfev=0;
00082 const typename InputType::Index n = _x.size();
00083 const Scalar eps = internal::sqrt(((std::max)(epsfcn,NumTraits<Scalar>::epsilon() )));
00084 ValueType val1, val2;
00085 InputType x = _x;
00086
00087 val1.resize(Functor::values());
00088 val2.resize(Functor::values());
00089
00090
00091 switch(mode) {
00092 case Forward:
00093
00094 Functor::operator()(x, val1); nfev++;
00095 break;
00096 case Central:
00097
00098 break;
00099 default:
00100 assert(false);
00101 };
00102
00103
00104 for (int j = 0; j < n; ++j) {
00105 h = eps * internal::abs(x[j]);
00106 if (h == 0.) {
00107 h = eps;
00108 }
00109 switch(mode) {
00110 case Forward:
00111 x[j] += h;
00112 Functor::operator()(x, val2);
00113 nfev++;
00114 x[j] = _x[j];
00115 jac.col(j) = (val2-val1)/h;
00116 break;
00117 case Central:
00118 x[j] += h;
00119 Functor::operator()(x, val2); nfev++;
00120 x[j] -= 2*h;
00121 Functor::operator()(x, val1); nfev++;
00122 x[j] = _x[j];
00123 jac.col(j) = (val2-val1)/(2*h);
00124 break;
00125 default:
00126 assert(false);
00127 };
00128 }
00129 return nfev;
00130 }
00131 private:
00132 Scalar epsfcn;
00133
00134 NumericalDiff& operator=(const NumericalDiff&);
00135 };
00136
00137
00138 #endif // EIGEN_NUMERICAL_DIFF_H
00139