#ifndef BOOT_STRIP #define BOOT_STRIP #include #include #include #include #include #include #include using std::cout; namespace opt_utilities { template class bootstrap { private: Ty rand_norm(Ty y0,Ty y_err)const { Ty y; do { y=(rand()/(Ty)RAND_MAX-(Ty).5)*(10*y_err)+y0; } while(rand()/(Ty)RAND_MAX>exp(-(y-y0)*(y-y0)/(y_err*y_err))); return y; } public: std::vector param_pool; default_data_set current_data_set; default_data_set origin_data_set; fitter* p_fitter; Tp origin_param; public: bootstrap() :p_fitter(NULL) {} void set_fitter(fitter& pf) { param_pool.clear(); p_fitter=&pf; origin_data_set=dynamic_cast&>(pf.datas()); origin_param=pf.get_all_params(); } void sample(int n) { if(p_fitter!=NULL) { for(int i=0;iload_data(origin_data_set); p_fitter->set_param_value(origin_param); } else { throw opt_exception("Fitter unset"); } } const Tp& get_param(int i)const { return param_pool.at(i); } private: void sample() { current_data_set=default_data_set(); for(int i=0;i d; d=origin_data_set.get_data(i); d.set_y(rand_norm(d.get_y(),(d.get_y_upper_err()+d.get_y_lower_err())/2)); current_data_set.push_back(d); } p_fitter->load_data(current_data_set); p_fitter->set_param_value(origin_param); param_pool.push_back(p_fitter->fit()); for(size_t i=0;i<(param_pool.back()).size();++i) { cout<::element_type,typename element_type_trait::element_type> interval(const Tstr& param_name,double level) { if(p_fitter==NULL) { throw opt_exception("Fitter unset"); } if(param_pool.empty()) { throw opt_exception("Bootstrap not done"); } //sample(); std::vector::element_type> _tmp; int order=p_fitter->get_param_order(param_name); for(typename std::vector::iterator i=param_pool.begin(); i!=param_pool.end();++i) { _tmp.push_back((*i)[order]); } sort(_tmp.begin(),_tmp.end()); std::pair::element_type>::iterator, typename std::vector::element_type>::iterator> itv=equal_range(_tmp.begin(),_tmp.end(),origin_param[order]); int current_param_position=itv.second-_tmp.begin(); std::cout<<_tmp.size()<::element_type, typename element_type_trait::element_type>( _tmp.at((int)((1-level)*current_param_position)), _tmp.at((int)(current_param_position+level*(_tmp.size()-current_param_position))) ); } }; }; #endif //EOF