EVOLUTION-MANAGER

Edit File: SugarMath.h

// -*- mode: C++; c-indent-level: 4; c-basic-offset: 4; tab-width: 8 -*- // // SugarBlock.h: Rcpp R/C++ interface class library -- sugar functions // // Copyright (C) 2010 - 2011 Dirk Eddelbuettel and Romain Francois // // This file is part of Rcpp. // // Rcpp is free software: you can redistribute it and/or modify it // under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 2 of the License, or // (at your option) any later version. // // Rcpp 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 // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with Rcpp. If not, see <http://www.gnu.org/licenses/>. #ifndef RCPP_SUGAR_SUGARMATH_H #define RCPP_SUGAR_SUGARMATH_H namespace Rcpp{ namespace sugar{ template <bool NA, typename RESULT_TYPE, typename U1, typename T1, typename FunPtr> class SugarMath_1 : public Rcpp::VectorBase< Rcpp::traits::r_sexptype_traits<RESULT_TYPE>::rtype , NA, SugarMath_1<NA,RESULT_TYPE,U1,T1,FunPtr> > { public: typedef Rcpp::VectorBase< Rcpp::traits::r_sexptype_traits<RESULT_TYPE>::rtype ,NA,T1> VEC_TYPE ; SugarMath_1( FunPtr ptr_, const VEC_TYPE & vec_) : ptr(ptr_), vec(vec_){} inline RESULT_TYPE operator[]( R_xlen_t i) const { U1 x = vec[i] ; if( ISNAN(x) ) return x; return ptr( x ) ; } inline R_xlen_t size() const { return vec.size() ; } private: FunPtr ptr ; const VEC_TYPE& vec ; }; template <bool NA, typename RESULT_TYPE, typename T1, typename FunPtr> class SugarMath_1<NA,RESULT_TYPE,int,T1,FunPtr> : public Rcpp::VectorBase< Rcpp::traits::r_sexptype_traits<RESULT_TYPE>::rtype , NA, SugarMath_1<NA,RESULT_TYPE,int,T1,FunPtr> > { public: typedef Rcpp::VectorBase< INTSXP ,NA,T1> VEC_TYPE ; SugarMath_1( FunPtr ptr_, const VEC_TYPE & vec_) : ptr(ptr_), vec(vec_){} inline RESULT_TYPE operator[]( R_xlen_t i) const { int x = vec[i] ; if( Rcpp::traits::is_na<INTSXP>(x) ) return Rcpp::traits::get_na<REALSXP>( ) ; return ptr( x ) ; } inline R_xlen_t size() const { return vec.size() ; } private: FunPtr ptr ; const VEC_TYPE& vec ; }; template <typename RESULT_TYPE, typename T1, typename FunPtr> class SugarMath_1<false,RESULT_TYPE,int,T1,FunPtr> : public Rcpp::VectorBase< Rcpp::traits::r_sexptype_traits<RESULT_TYPE>::rtype , false, SugarMath_1<false,RESULT_TYPE,int,T1,FunPtr> > { public: typedef Rcpp::VectorBase< INTSXP ,false,T1> VEC_TYPE ; SugarMath_1( FunPtr ptr_, const VEC_TYPE & vec_) : ptr(ptr_), vec(vec_){} inline RESULT_TYPE operator[]( R_xlen_t i) const { return ptr( vec[i] ) ; } inline R_xlen_t size() const { return vec.size() ; } private: FunPtr ptr ; const VEC_TYPE& vec ; }; } // sugar } // Rcpp #define SUGAR_MATH_1(__NAME__,__SYMBOL__) \ namespace Rcpp{ \ template <bool NA, typename T> \ inline sugar::SugarMath_1<NA,double,double,T, double (*)(double) > \ __NAME__( \ const VectorBase<REALSXP,NA,T>& t \ ){ \ return sugar::SugarMath_1<NA,double,double,T, double (*)(double)>( \ &__SYMBOL__ , t \ ) ; \ } \ inline sugar::SugarMath_1<true,double,double,NumericVector,double(*)(double)> \ __NAME__( SEXP x){ return __NAME__( NumericVector( x ) ) ; } \ template <bool NA, typename T> \ inline sugar::SugarMath_1<NA,double,int,T, double (*)(double) > \ __NAME__( \ const VectorBase<INTSXP,NA,T>& t \ ){ \ return sugar::SugarMath_1<NA,double,int,T, double (*)(double)>( \ &__SYMBOL__ , t \ ) ; \ } \ } #endif