// @(#)root/mathmore:$Id: OneDimFunctionAdapter.h 20063 2007-09-24 13:16:14Z moneta $ // Author: L. Moneta Wed Dec 6 11:45:55 2006 /********************************************************************** * * * Copyright (c) 2006 LCG ROOT Math Team, CERN/PH-SFT * * * * * **********************************************************************/ // Header file for class OneDimMultiFunctionAdapter #ifndef ROOT_Math_OneDimFunctionAdapter #define ROOT_Math_OneDimFunctionAdapter #include "Math/IFunction.h" #include "Math/IParamFunction.h" #include namespace ROOT { namespace Math { // struct using for evaluating the function template struct EvaluatorOneDim { // evaluate function (in general case no param) static double F (MultiFuncType f, const double * x, const double * = 0 ) { return f( x ); } }; // specialized for param functions template<> struct EvaluatorOneDim< const ROOT::Math::IParamMultiFunction &> { static double F ( const ROOT::Math::IParamMultiFunction & f, const double * x, const double * p = 0 ) { return f( x, p ); } }; /** OneDimMultiFunctionAdapter class to wrap a multidimensional function in one dimensional one. Given a f(x1,x2,x3,....xn) transforms in a f( x_i) given the coordinate intex i and the vector x[] of the coordinates. It provides the possibility to copy and own the data array of the coordinates or to maintain internally a pointer to an external array for being more efficient. In this last case the user must garantee the life of the given passed pointer @ingroup GenFunc */ template class OneDimMultiFunctionAdapter : public ROOT::Math::IGenFunction { public: /** Constructor from the function object , pointer to an external array of x values and coordinate we want to adapt */ OneDimMultiFunctionAdapter (MultiFuncType f, const double * x, unsigned int icoord =0, const double * p = 0 ) : fFunc(f), fX( const_cast(x) ), // wee need to modify x but then we restore it as before fParams(p), fCoord(icoord), fDim(0), fOwn(false) { assert(fX != 0); } /** Constructor from the function object , dimension of the function and and coordinate we want to adapt. The coordinate cached vector is created inside and eventually the values must be passed later with the SetX which will copy them */ OneDimMultiFunctionAdapter (MultiFuncType f, unsigned int dim = 1, unsigned int icoord =0, const double * p = 0 ) : fFunc(f), fX(0 ), fParams(p), fCoord(icoord), fDim(dim), fOwn(true) { fX = new double[dim]; } /** Destructor (no operations) */ virtual ~OneDimMultiFunctionAdapter () { if (fOwn && fX) delete [] fX; } /** clone */ virtual OneDimMultiFunctionAdapter * Clone( ) const { if (fOwn) { OneDimMultiFunctionAdapter * f = new OneDimMultiFunctionAdapter( fFunc, fDim, fCoord, fParams); std::copy(fX, fX+fDim, f->fX); return f; } else return new OneDimMultiFunctionAdapter( fFunc, fX, fCoord, fParams); } public: /** Set X values in case vector is own, iterator size must match previous set dimension */ template void SetX(Iterator begin, Iterator end) { if (fOwn) std::copy(begin, end, fX); } /** set pointer without copying the values */ void SetX(double * x) { if (!fOwn) fX = x; } /** set values */ void SetX(const double * x) { if (fOwn) std::copy(x, x+fDim, fX); else SetX( const_cast(x) ); // wee need to modify x but then we restore it as before } void SetCoord(int icoord) { fCoord=icoord;} // copy constructor OneDimMultiFunctionAdapter( const OneDimMultiFunctionAdapter & rhs) : fFunc(rhs.fFunc), fParams(rhs.fParams), fCoord(rhs.fCoord), fDim(rhs.fDim), fOwn(rhs.fOwn) { if (fOwn) { fX = new double[fDim]; std::copy( rhs.fX, rhs.fX+fDim, fX); } else fX = rhs.fX; } private: // dummy assignment (should never be called and clone must be used) OneDimMultiFunctionAdapter & operator= ( const OneDimMultiFunctionAdapter & rhs) { if (this == &rhs) return *this; assert(false); } /** evaluate function at the values x[] given in the constructor and as function of the coordinate fCoord. */ double DoEval(double x) const { if (fOwn) { fX[fCoord] = x; return EvaluatorOneDim::F( fFunc, fX, fParams ); } else { // case vector fX represents useful values needed later // need to modify fX and restore afterwards the original values double xprev = fX[fCoord]; // keep original value to restore in fX fX[fCoord] = x; double y = EvaluatorOneDim::F( fFunc, fX, fParams ); // restore original values fX[fCoord] = xprev; return y; } } private: MultiFuncType fFunc; mutable double * fX; const double * fParams; unsigned int fCoord; unsigned int fDim; bool fOwn; }; /** OneDimParamFunctionAdapter class to wrap a multi-dim parameteric function in one dimensional one. Given a f(x[],p1,...pn) transforms in a f( p_i) given the param index i and the vectors x[] and p[] of the coordinates and parameters It has to be used carefully, since for efficiency reason it does not copy the parameter object but re-uses the given pointer for the p[] vector. The ParamFuncType reference by default is not const because the operator()(x,p) is not a const method @ingroup GenFunc */ template class OneDimParamFunctionAdapter : public ROOT::Math::IGenFunction { public: /** Constructor from the function object , x value and coordinate we want to adapt */ OneDimParamFunctionAdapter (ParamFuncType f, const double * x, const double * p, unsigned int ipar =0 ) : fFunc(f), fX(x ), fParams(p), fIpar(ipar) { assert(fX != 0); assert(fParams != 0); } /** Destructor (no operations) */ ~OneDimParamFunctionAdapter () {} /** clone */ virtual OneDimParamFunctionAdapter * Clone( ) const { return new OneDimParamFunctionAdapter(fFunc, fX, fParams, fIpar); } // can use default copy constructor private: /** evaluate function at the values x[] given in the constructor and as function of the coordinate fCoord. */ double DoEval(double x) const { // HACK: use const_cast to modify the function values x[] and restore afterwards the original ones double * p = const_cast(fParams); double pprev = fParams[fIpar]; // keep original value to restore in fX p[fIpar] = x; double y = fFunc( fX, p ); p[fIpar] = pprev; return y; } private: ParamFuncType fFunc; const double * fX; const double * fParams; unsigned int fIpar; }; } // end namespace Math } // end namespace ROOT #endif /* ROOT_Math_OneDimFunctionAdapter */