/////////////////////////////////////////////////////////////////////////////// // File: geom_2d.cpp // // Description: source file for two-dimensional geometry tools // // This file is part of the SISCone project. // // For more details, see http://projects.hepforge.org/siscone // // // // Copyright (c) 2006 Gavin Salam and Gregory Soyez // // // // This program 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. // // // // This program 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 this program; if not, write to the Free Software // // Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA // // // // $Revision: 1.1 $// // $Date: 2008-10-02 15:20:25 $// /////////////////////////////////////////////////////////////////////////////// #include "geom_2d.h" #include namespace siscone{ #define PHI_RANGE_MASK 0xFFFFFFFF /********************************************************* * class Ceta_phi_range implementation * * class for holding a covering range in eta-phi * * * * This class deals with ranges in the eta-phi plane. It * * implements methods to test if two ranges overlap and * * to take the union of two overlapping intervals. * *********************************************************/ using namespace std; // static member default init //---------------------------- double Ceta_phi_range::eta_min = -100.0; double Ceta_phi_range::eta_max = 100.0; // default ctor //-------------- Ceta_phi_range::Ceta_phi_range(){ eta_range = 0; phi_range = 0; } // ctor with initialisation // we initialise with a centre (in eta,phi) and a radius // - c_eta eta coordinate of the centre // - c_phi phi coordinate of the centre // - R radius //------------------------------------------------------- Ceta_phi_range::Ceta_phi_range(double c_eta, double c_phi, double R){ // determination of the eta range //------------------------------- double xmin = max(c_eta-R,eta_min+0.0001); double xmax = min(c_eta+R,eta_max-0.0001); unsigned int cell_min = get_eta_cell(xmin); unsigned int cell_max = get_eta_cell(xmax); // warning: if cell_max==2^31, 2*cell_max==0 hence, // even if the next formula is formally (2*cell_max-cell_min), // expressing it as (cell_max-cell_min)+cell_max is safe. eta_range = (cell_max-cell_min)+cell_max; // determination of the phi range // !! taking care of periodicity !! //--------------------------------- xmin = phi_in_range(c_phi-R); xmax = phi_in_range(c_phi+R); cell_min = get_phi_cell(xmin); cell_max = get_phi_cell(xmax); // Also, if the interval goes through pi, inversion is needed if (xmax>xmin) phi_range = (cell_max-cell_min)+cell_max; else { phi_range = (cell_min==cell_max) ? PHI_RANGE_MASK : ((PHI_RANGE_MASK^(cell_min-cell_max)) + cell_max); } } // assignment of range // - r range to assign to current one //--------------------------------------- Ceta_phi_range& Ceta_phi_range::operator = (const Ceta_phi_range &r){ eta_range = r.eta_range; phi_range = r.phi_range; return *this; } // add a particle to the range // - eta eta coordinate of the particle // - phi phi coordinate of the particle // \return 0 on success, 1 on error //---------------------------------------- int Ceta_phi_range::add_particle(const double eta, const double phi){ // deal with the eta coordinate eta_range |= get_eta_cell(eta); // deal with the phi coordinate phi_range |= get_phi_cell(phi); return 0; } // test overlap // - r1 first range // - r2 second range // return true if overlap, false otherwise. //------------------------------------------ bool is_range_overlap(const Ceta_phi_range &r1, const Ceta_phi_range &r2){ // check overlap in eta AND phi return ((r1.eta_range & r2.eta_range) && (r1.phi_range & r2.phi_range)); } // compute union // Note: we assume that the two intervals overlap // - r1 first range // - r2 second range // \return union of the two ranges //------------------------------------------ const Ceta_phi_range range_union (const Ceta_phi_range &r1, const Ceta_phi_range &r2){ Ceta_phi_range tmp; // compute union in eta tmp.eta_range = r1.eta_range | r2.eta_range; // compute union in phi tmp.phi_range = r1.phi_range | r2.phi_range; return tmp; } }