/********************************************************************** * * GEOS - Geometry Engine Open Source * http://geos.osgeo.org * * Copyright (C) 2006 Refractions Research * * This is free software; you can redistribute and/or modify it under * the terms of the GNU Lesser General Public Licence as published * by the Free Software Foundation. * See the COPYING file for more information. * **********************************************************************/ #include #include #include namespace geos { namespace util { // geos.util /* * Symmetric Rounding Algorithm - equivalent to C99 round() */ double GEOS_DLL sym_round(double val) { double n; double f = std::fabs(std::modf(val, &n)); if(val >= 0) { if(f < 0.5) { return std::floor(val); } else if(f > 0.5) { return std::ceil(val); } else { return (n + 1.0); } } else { if(f < 0.5) { return std::ceil(val); } else if(f > 0.5) { return std::floor(val); } else { return (n - 1.0); } } } /* * Asymmetric Rounding Algorithm - equivalent to Java Math.round() */ double GEOS_DLL java_math_round(double val) { double n; double f = std::fabs(std::modf(val, &n)); if(val >= 0) { if(f < 0.5) { return std::floor(val); } else if(f > 0.5) { return std::ceil(val); } else { return (n + 1.0); } } else { if(f < 0.5) { return std::ceil(val); } else if(f > 0.5) { return std::floor(val); } else { return n; } } } // java_math_round /* * Implementation of rint() */ double rint_vc(double val) { double n; double f = std::fabs(std::modf(val, &n)); if(val >= 0) { if(f < 0.5) { return std::floor(val); } else if(f > 0.5) { return std::ceil(val); } else { return(std::floor(n / 2) == n / 2) ? n : n + 1.0; } } else { if(f < 0.5) { return std::ceil(val); } else if(f > 0.5) { return std::floor(val); } else { return(std::floor(n / 2) == n / 2) ? n : n - 1.0; } } } double GEOS_DLL clamp(double x, double min, double max) { if (x < min) return min; if (x > max) return max; return x; } } // namespace geos.util } // namespace geos