1 | ///////////////////////////////////////////////////////////////////////////////
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2 | // File: protocones.cpp //
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3 | // Description: source file for stable cones determination (Cstable_cones) //
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4 | // This file is part of the SISCone project. //
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5 | // For more details, see http://projects.hepforge.org/siscone //
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6 | // //
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7 | // Copyright (c) 2006 Gavin Salam and Gregory Soyez //
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8 | // //
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9 | // This program is free software; you can redistribute it and/or modify //
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10 | // it under the terms of the GNU General Public License as published by //
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11 | // the Free Software Foundation; either version 2 of the License, or //
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12 | // (at your option) any later version. //
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13 | // //
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14 | // This program is distributed in the hope that it will be useful, //
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15 | // but WITHOUT ANY WARRANTY; without even the implied warranty of //
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16 | // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the //
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17 | // GNU General Public License for more details. //
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18 | // //
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19 | // You should have received a copy of the GNU General Public License //
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20 | // along with this program; if not, write to the Free Software //
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21 | // Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA //
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22 | // //
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23 | // $Revision: 1.1 $//
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24 | // $Date: 2008-11-06 14:32:12 $//
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25 | ///////////////////////////////////////////////////////////////////////////////
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26 |
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27 | /*******************************************************
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28 | * Introductory note: *
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29 | * Since this file has many member functions, we have *
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30 | * structured them in categories: *
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31 | * INITIALISATION FUNCTIONS *
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32 | * - ctor() *
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33 | * - ctor(particle_list) *
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34 | * - dtor() *
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35 | * - init(particle_list) *
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36 | * ALGORITHM MAIN ENTRY *
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37 | * - get_stable_cone(radius) *
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38 | * ALGORITHM MAIN STEPS *
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39 | * - init_cone() *
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40 | * - test_cone() *
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41 | * - update_cone() *
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42 | * - proceed_with_stability() *
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43 | * ALGORITHM MAIN STEPS FOR COCIRCULAR SITUATIONS *
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44 | * - cocircular_pt_less(v1, v2) *
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45 | * - prepare_cocircular_list() *
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46 | * - test_cone_cocircular() *
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47 | * - test_stability(candidate, border_list) *
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48 | * - updat_cone_cocircular() *
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49 | * RECOMPUTATION OF CONE CONTENTS *
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50 | * - compute_cone_contents() *
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51 | * - recompute_cone_contents() *
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52 | * - recompute_cone_contents_if_needed() *
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53 | * VARIOUS TOOLS *
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54 | * - circle_intersect() *
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55 | * - is_inside() *
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56 | * - abs_dangle() *
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57 | *******************************************************/
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58 |
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59 | #include "../interface/protocones.h"
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60 | #include "../interface/siscone_error.h"
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61 | #include "../interface/defines.h"
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62 | #include <math.h>
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63 | #include <iostream>
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64 | #include "../interface/circulator.h"
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65 | #include <algorithm>
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66 |
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67 | namespace siscone{
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68 |
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69 | using namespace std;
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70 |
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71 | /**********************************************************************
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72 | * Cstable_cones implementation *
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73 | * Computes the list of stable comes from a particle list. *
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74 | * This class does the first fundamental task of te cone algorithm: *
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75 | * it is used to compute the list of stable cones given a list *
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76 | * of particles. *
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77 | **********************************************************************/
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78 |
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79 | ////////////////////////////////////////////////////////
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80 | // INITIALISATION FUNCTIONS //
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81 | // - ctor() //
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82 | // - ctor(particle_list) //
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83 | // - dtor() //
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84 | // - init(particle_list) //
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85 | ////////////////////////////////////////////////////////
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86 |
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87 | // default ctor
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88 | //--------------
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89 | Cstable_cones::Cstable_cones(){
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90 | nb_tot = 0;
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91 | hc = NULL;
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92 | }
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93 |
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94 | // ctor with initialisation
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95 | //--------------------------
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96 | Cstable_cones::Cstable_cones(vector<Cmomentum> &_particle_list)
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97 | : Cvicinity(_particle_list){
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98 |
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99 | nb_tot = 0;
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100 | hc = NULL;
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101 | }
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102 |
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103 | // default dtor
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104 | //--------------
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105 | Cstable_cones::~Cstable_cones(){
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106 | if (hc!=NULL) delete hc;
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107 | }
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108 |
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109 | /*
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110 | * initialisation
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111 | * - _particle_list list of particles
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112 | * - _n number of particles
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113 | *********************************************************************/
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114 | void Cstable_cones::init(vector<Cmomentum> &_particle_list){
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115 | // check already allocated mem
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116 | if (hc!=NULL){
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117 | delete hc;
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118 | }
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119 | if (protocones.size()!=0)
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120 | protocones.clear();
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121 |
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122 | multiple_centre_done.clear();
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123 |
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124 | // initialisation
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125 | set_particle_list(_particle_list);
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126 | }
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127 |
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128 |
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129 | ////////////////////////////////////////////////////////
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130 | // ALGORITHM MAIN ENTRY //
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131 | // - get_stable_cone(radius) //
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132 | ////////////////////////////////////////////////////////
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133 |
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134 | /*
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135 | * compute stable cones.
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136 | * This function really does the job i.e. computes
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137 | * the list of stable cones (in a seedless way)
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138 | * - _radius: radius of the cones
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139 | * The number of stable cones found is returned
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140 | *********************************************************************/
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141 | int Cstable_cones::get_stable_cones(double _radius){
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142 | int p_idx;
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143 |
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144 | // check if everything is correctly initialised
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145 | if (n_part==0){
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146 | return 0;
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147 | }
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148 |
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149 | R = _radius;
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150 | R2 = R*R;
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151 |
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152 | // allow hash for cones candidates
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153 | hc = new hash_cones(n_part, R2);
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154 |
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155 | // browse all particles
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156 | for (p_idx=0;p_idx<n_part;p_idx++){
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157 | // step 0: compute the child list CL.
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158 | // Note that this automatically sets the parent P
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159 | build(&plist[p_idx], 2.0*R);
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160 |
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161 | // special case:
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162 | // if the vicinity is empty, the parent particle is a
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163 | // stable cone by itself. Add it to protocones list.
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164 | if (vicinity_size==0){
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165 | protocones.push_back(*parent);
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166 | continue;
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167 | }
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168 |
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169 | // step 1: initialise with the first cone candidate
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170 | init_cone();
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171 |
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172 | do{
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173 | // step 2: test cone stability for that pair (P,C)
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174 | test_cone();
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175 |
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176 | // step 3: go to the next cone child candidate C
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177 | } while (!update_cone());
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178 | }
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179 |
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180 | return proceed_with_stability();
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181 | }
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182 |
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183 |
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184 | ////////////////////////////////////////////////////////
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185 | // ALGORITHM MAIN STEPS //
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186 | // - init_cone() //
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187 | // - test_cone() //
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188 | // - update_cone() //
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189 | // - proceed_with_stability() //
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190 | ////////////////////////////////////////////////////////
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191 |
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192 | /*
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193 | * initialise the cone.
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194 | * We take the first particle in the angular ordering to compute
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195 | * this one
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196 | * return 0 on success, 1 on error
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197 | *********************************************************************/
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198 | int Cstable_cones::init_cone(){
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199 | // The previous version of the algorithm was starting the
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200 | // loop around vicinity elements with the "most isolated" child.
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201 | // given the nodist method to calculate the cone contents, we no
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202 | // longer need to worry about which cone comes first...
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203 | first_cone=0;
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204 |
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205 | // now make sure we have lists of the cocircular particles
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206 | prepare_cocircular_lists();
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207 |
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208 | //TODO? deal with a configuration with only degeneracies ?
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209 | // The only possibility seems a regular hexagon with a parent point
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210 | // in the centre. And this situation is by itself unclear.
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211 | // Hence, we do nothing here !
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212 |
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213 | // init set child C
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214 | centre = vicinity[first_cone];
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215 | child = centre->v;
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216 | centre_idx = first_cone;
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217 |
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218 | // build the initial cone (nodist: avoids calculating distances --
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219 | // just deduces contents by circulating around all in/out operations)
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220 | // this function also sets the list of included particles
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221 | compute_cone_contents();
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222 |
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223 | return 0;
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224 | }
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225 |
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226 |
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227 | /*
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228 | * test cones.
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229 | * We check if the cone(s) built with the present parent and child
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230 | * are stable
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231 | * return 0 on success 1 on error
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232 | *********************************************************************/
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233 | int Cstable_cones::test_cone(){
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234 | Creference weighted_cone_ref;
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235 |
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236 | // depending on the side we are taking the child particle,
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237 | // we test different configuration.
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238 | // Each time, two configurations are tested in such a way that
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239 | // all 4 possible cases (parent or child in or out the cone)
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240 | // are tested when taking the pair of particle parent+child
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241 | // and child+parent.
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242 |
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243 | // here are the tests entering the first series:
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244 | // 1. check if the cone is already inserted
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245 | // 2. check cone stability for the parent and child particles
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246 |
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247 | if (centre->side){
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248 | // test when both particles are not in the cone
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249 | // or when both are in.
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250 | // Note: for the totally exclusive case, test emptyness before
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251 | cone_candidate = cone;
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252 | if (cone.ref.not_empty()){
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253 | hc->insert(&cone_candidate, parent, child, false, false);
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254 | }
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255 |
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256 | cone_candidate = cone;
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257 | cone_candidate+= *parent + *child;
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258 | hc->insert(&cone_candidate, parent, child, true, true);
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259 | } else {
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260 | // test when 1! of the particles is in the cone
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261 | cone_candidate = cone + *parent;
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262 | hc->insert(&cone_candidate, parent, child, true, false);
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263 |
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264 | cone_candidate = cone + *child;
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265 | hc->insert(&cone_candidate, parent, child, false, true);
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266 | }
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267 |
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268 | nb_tot+=2;
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269 |
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270 | return 0;
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271 | }
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272 |
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273 |
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274 | /*
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275 | * update the cone
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276 | * go to the next child for that parent and update 'cone' appropriately
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277 | * return 0 if update candidate found, 1 otherwise
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278 | ***********************************************************************/
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279 | int Cstable_cones::update_cone(){
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280 | // get the next child and centre
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281 | centre_idx++;
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282 | if (centre_idx==vicinity_size)
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283 | centre_idx=0;
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284 | if (centre_idx==first_cone)
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285 | return 1;
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286 |
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287 | // update the cone w.r.t. the old child
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288 | // only required if the old child is entering inside in which
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289 | // case we need to add it. We also know that the child is
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290 | // inside iff its side is -.
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291 | if (!centre->side){
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292 | // update cone
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293 | cone += (*child);
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294 |
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295 | // update info on particles inside
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296 | centre->is_inside->cone = true;
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297 |
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298 | // update stability check quantities
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299 | dpt += fabs(child->px)+fabs(child->py);
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300 | }
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301 |
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302 | // update centre and child to correspond to the new position
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303 | centre = vicinity[centre_idx];
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304 | child = centre->v;
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305 |
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306 | // check cocircularity
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307 | // note that if cocirculaity is detected (i.e. if we receive 1
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308 | // in the next test), we need to recall 'update_cone' directly
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309 | // since tests and remaining part of te update has been performed
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310 | //if (cocircular_check())
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311 | if (cocircular_check())
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312 | return update_cone();
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313 |
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314 |
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315 | // update the cone w.r.t. the new child
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316 | // only required if the new child was already inside in which
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317 | // case we need to remove it. We also know that the child is
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318 | // inside iff its side is +.
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319 | if ((centre->side) && (cone.ref.not_empty())){
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320 | // update cone
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321 | cone -= (*child);
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322 |
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323 | // update info on particles inside
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324 | centre->is_inside->cone = false;
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325 |
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326 | // update stability check quantities
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327 | dpt += fabs(child->px)+fabs(child->py); //child->perp2();
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328 | }
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329 |
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330 | // check that the addition and subtraction of vectors does
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331 | // not lead to too much rounding error
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332 | // for that, we compute the sum of pt modifications and of |pt|
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333 | // since last recomputation and once the ratio overpasses a threshold
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334 | // we recompute vicinity.
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335 | if ((dpt>PT_TSHOLD*(fabs(cone.px)+fabs(cone.py))) && (cone.ref.not_empty())){
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336 | recompute_cone_contents();
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337 | }
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338 | if (cone.ref.is_empty()){
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339 | cone = Cmomentum();
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340 | dpt=0.0;
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341 | }
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342 |
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343 | return 0;
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344 | }
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345 |
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346 |
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347 | /*
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348 | * compute stability of all enumerated candidates.
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349 | * For all candidate cones which are stable w.r.t. their border particles,
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350 | * pass the last test: stability with quadtree intersection
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351 | ************************************************************************/
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352 | int Cstable_cones::proceed_with_stability(){
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353 | int i,n;
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354 | hash_element *elm;
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355 |
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356 | n=0;
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357 | for (i=0;i<=hc->mask;i++){
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358 | // test ith cell of the hash array
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359 | elm = hc->hash_array[i];
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360 |
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361 | // browse elements therein
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362 | while (elm!=NULL){
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363 | // test stability
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364 | if (elm->is_stable){
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365 | // stability is not ensured by all pairs of "edges" already browsed
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366 | #ifdef USE_QUADTREE_FOR_STABILITY_TEST
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367 | // => testing stability with quadtree intersection
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368 | if (quadtree->circle_intersect(elm->eta, elm->phi, R2)==elm->ref)
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369 | #else
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370 | // => testing stability with the particle-list intersection
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371 | if (circle_intersect(elm->eta, elm->phi)==elm->ref)
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372 | #endif
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373 | protocones.push_back(Cmomentum(elm->eta, elm->phi, elm->ref));
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374 | }
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375 |
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376 | // jump to the next one
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377 | elm = elm->next;
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378 | }
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379 | }
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380 |
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381 | // free hash
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382 | // we do that at this level because hash eats rather a lot of memory
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383 | // we want to free it before running the split/merge algorithm
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384 | delete hc;
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385 | hc=NULL;
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386 |
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387 | return protocones.size();
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388 | }
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389 |
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390 |
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391 | ////////////////////////////////////////////////////////
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392 | // ALGORITHM MAIN STEPS FOR COCIRCULAR SITUATIONS //
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393 | // - cocircular_pt_less(v1, v2) //
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394 | // - prepare_cocircular_list() //
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395 | // - test_cone_cocircular() //
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396 | // - test_stability(candidate, border_vect) //
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397 | // - updat_cone_cocircular() //
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398 | ////////////////////////////////////////////////////////
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399 |
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400 | /// pt-ordering of momenta used for the cocircular case
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401 | bool cocircular_pt_less(Cmomentum *v1, Cmomentum *v2){
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402 | return v1->perp2() < v2->perp2();
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403 | }
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404 |
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405 | /*
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406 | * run through the vicinity of the current parent and for each child
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407 | * establish which other members are cocircular... Note that the list
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408 | * associated with each child contains references to vicinity
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409 | * elements: thus two vicinity elements each associated with one given
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410 | * particle may appear in a list -- this needs to be watched out for
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411 | * later on...
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412 | **********************************************************************/
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413 | void Cstable_cones::prepare_cocircular_lists() {
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414 | circulator<vector<Cvicinity_elm*>::iterator > here(vicinity.begin(),
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415 | vicinity.begin(),
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416 | vicinity.end());
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417 |
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418 | circulator<vector<Cvicinity_elm*>::iterator > search(here);
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419 |
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420 | do {
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421 | Cvicinity_elm* here_pntr = *here();
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422 | search.set_position(here);
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423 |
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424 | // search forwards for things that should have "here" included in
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425 | // their cocircularity list
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426 | while (true) {
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427 | ++search;
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428 | if ( abs_dphi((*search())->angle, here_pntr->angle) <
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429 | here_pntr->cocircular_range
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430 | && search() != here()) {
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431 | (*search())->cocircular.push_back(here_pntr);
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432 | } else {
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433 | break;
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434 | }
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435 | }
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436 |
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437 | // search backwards
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438 | search.set_position(here);
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439 | while (true) {
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440 | --search;
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441 | if ( abs_dphi((*search())->angle, here_pntr->angle) <
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442 | here_pntr->cocircular_range
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443 | && search() != here()) {
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444 | (*search())->cocircular.push_back(here_pntr);
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445 | } else {
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446 | break;
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447 | }
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448 | }
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449 |
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450 | ++here;
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451 | } while (here() != vicinity.begin());
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452 |
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453 | }
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454 |
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455 | /*
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456 | * Testing cocircular configurations in p^3 time,
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457 | * rather than 2^p time; we will test all contiguous subsets of points
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458 | * on the border --- note that this is till probably overkill, since
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459 | * in principle we only have to test situations where up to a
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460 | * half-circle is filled (but going to a full circle is simpler)
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461 | ******************************************************************/
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462 | void Cstable_cones::test_cone_cocircular(Cmomentum & borderless_cone,
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463 | list<Cmomentum *> & border_list) {
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464 | vector<Cborder_store> border_vect;
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465 |
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466 | border_vect.reserve(border_list.size());
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467 | for (list<Cmomentum *>::iterator it = border_list.begin();
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468 | it != border_list.end(); it++) {
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469 | border_vect.push_back(Cborder_store(*it, centre->eta, centre->phi));
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470 | }
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471 |
|
---|
472 | // get them into order of angle
|
---|
473 | sort(border_vect.begin(), border_vect.end());
|
---|
474 |
|
---|
475 | // set up some circulators, since these will help us go around the
|
---|
476 | // circle easily
|
---|
477 | circulator<vector<Cborder_store>::iterator >
|
---|
478 | start(border_vect.begin(), border_vect.begin(),border_vect.end());
|
---|
479 | circulator<vector<Cborder_store>::iterator > mid(start), end(start);
|
---|
480 |
|
---|
481 | // test the borderless cone
|
---|
482 | Cmomentum candidate = borderless_cone;
|
---|
483 | candidate.build_etaphi();
|
---|
484 | if (candidate.ref.not_empty())
|
---|
485 | test_stability(candidate, border_vect);
|
---|
486 |
|
---|
487 | do {
|
---|
488 | // reset status wrt inclusion in the cone
|
---|
489 | mid = start;
|
---|
490 | do {
|
---|
491 | mid()->is_in = false;
|
---|
492 | } while (++mid != start);
|
---|
493 |
|
---|
494 | // now run over all inclusion possibilities with this starting point
|
---|
495 | candidate = borderless_cone;
|
---|
496 | while (++mid != start) {
|
---|
497 | // will begin with start+1 and go up to start-1
|
---|
498 | mid()->is_in = true;
|
---|
499 | candidate += *(mid()->mom);
|
---|
500 | test_stability(candidate, border_vect);
|
---|
501 | }
|
---|
502 |
|
---|
503 | } while (++start != end);
|
---|
504 |
|
---|
505 | // mid corresponds to momentum that we need to include to get the
|
---|
506 | // full cone
|
---|
507 | mid()->is_in = true;
|
---|
508 | candidate += *(mid()->mom);
|
---|
509 | test_stability(candidate, border_vect);
|
---|
510 | }
|
---|
511 |
|
---|
512 |
|
---|
513 | /**
|
---|
514 | * carry out the computations needed for the stability check of the
|
---|
515 | * candidate, using the border_vect to indicate which particles
|
---|
516 | * should / should not be in the stable cone; if the cone is stable
|
---|
517 | * insert it into the hash.
|
---|
518 | **********************************************************************/
|
---|
519 | void Cstable_cones::test_stability(Cmomentum & candidate, const vector<Cborder_store> & border_vect) {
|
---|
520 |
|
---|
521 | // this almost certainly has not been done...
|
---|
522 | candidate.build_etaphi();
|
---|
523 |
|
---|
524 | bool stable = true;
|
---|
525 | for (unsigned i = 0; i < border_vect.size(); i++) {
|
---|
526 | if (is_inside(&candidate, border_vect[i].mom) ^ (border_vect[i].is_in)) {
|
---|
527 | stable = false;
|
---|
528 | break; // it's unstable so there's no point continuing
|
---|
529 | }
|
---|
530 | }
|
---|
531 |
|
---|
532 | if (stable) hc->insert(&candidate);
|
---|
533 | }
|
---|
534 |
|
---|
535 | /*
|
---|
536 | * check if we are in a situation of cocircularity.
|
---|
537 | * if it is the case, update and test in the corresponding way
|
---|
538 | * return 'false' if no cocircularity detected, 'true' otherwise
|
---|
539 | * Note that if cocircularity is detected, we need to
|
---|
540 | * recall 'update' from 'update' !!!
|
---|
541 | ***************************************************************/
|
---|
542 | bool Cstable_cones::cocircular_check(){
|
---|
543 | // check if many configurations have the same centre.
|
---|
544 | // if this is the case, branch on the algorithm for this
|
---|
545 | // special case.
|
---|
546 | // Note that those situation, being considered separately in
|
---|
547 | // test_cone_multiple, must only be considered here if all
|
---|
548 | // angles are on the same side (this avoid multiple counting)
|
---|
549 |
|
---|
550 | if (centre->cocircular.empty()) return false;
|
---|
551 |
|
---|
552 | // first get cone into status required at end...
|
---|
553 | if ((centre->side) && (cone.ref.not_empty())){
|
---|
554 | // update cone
|
---|
555 | cone -= (*child);
|
---|
556 |
|
---|
557 | // update info on particles inside
|
---|
558 | centre->is_inside->cone = false;
|
---|
559 |
|
---|
560 | // update stability check quantities
|
---|
561 | dpt += fabs(child->px)+fabs(child->py); //child->perp2();
|
---|
562 | }
|
---|
563 |
|
---|
564 |
|
---|
565 | // now establish the list of unique children in the list
|
---|
566 | // first make sure parent and child are in!
|
---|
567 |
|
---|
568 | list<Cvicinity_inclusion *> removed_from_cone;
|
---|
569 | list<Cvicinity_inclusion *> put_in_border;
|
---|
570 | list<Cmomentum *> border_list;
|
---|
571 |
|
---|
572 | Cmomentum cone_removal;
|
---|
573 | Cmomentum border = *parent;
|
---|
574 | border_list.push_back(parent);
|
---|
575 |
|
---|
576 | // make sure child appears in the border region
|
---|
577 | centre->cocircular.push_back(centre);
|
---|
578 |
|
---|
579 | // now establish the full contents of the cone minus the cocircular
|
---|
580 | // region and of the cocircular region itself
|
---|
581 | for(list<Cvicinity_elm *>::iterator it = centre->cocircular.begin();
|
---|
582 | it != centre->cocircular.end(); it++) {
|
---|
583 |
|
---|
584 | if ((*it)->is_inside->cone) {
|
---|
585 | cone_removal += *((*it)->v);
|
---|
586 | (*it)->is_inside->cone = false;
|
---|
587 | removed_from_cone.push_back((*it)->is_inside);
|
---|
588 | }
|
---|
589 |
|
---|
590 | // if a point appears twice (i.e. with + and - sign) in the list of
|
---|
591 | // points on the border, we take care not to include it twice.
|
---|
592 | // Note that this situation may appear when a point is at a distance
|
---|
593 | // close to 2R from the parent
|
---|
594 | if (!(*it)->is_inside->cocirc) {
|
---|
595 | border += *((*it)->v);
|
---|
596 | (*it)->is_inside->cocirc = true;
|
---|
597 | put_in_border.push_back((*it)->is_inside);
|
---|
598 | border_list.push_back((*it)->v);
|
---|
599 | }
|
---|
600 | }
|
---|
601 |
|
---|
602 |
|
---|
603 | // figure out whether this pairing has been observed before
|
---|
604 | Cmomentum borderless_cone = cone;
|
---|
605 | borderless_cone -= cone_removal;
|
---|
606 | bool consider = true;
|
---|
607 | for (unsigned int i=0;i<multiple_centre_done.size();i++){
|
---|
608 | if ((multiple_centre_done[i].first ==borderless_cone.ref) &&
|
---|
609 | (multiple_centre_done[i].second==border.ref))
|
---|
610 | consider = false;
|
---|
611 | }
|
---|
612 |
|
---|
613 | // now prepare the hard work
|
---|
614 | if (consider) {
|
---|
615 | // record the fact that we've now seen this combination
|
---|
616 | multiple_centre_done.push_back(pair<Creference,Creference>(borderless_cone.ref,
|
---|
617 | border.ref));
|
---|
618 |
|
---|
619 | // first figure out whether our cone momentum is good
|
---|
620 | double local_dpt = fabs(cone_removal.px) + fabs(cone_removal.py);
|
---|
621 | double total_dpt = dpt + local_dpt;
|
---|
622 |
|
---|
623 | recompute_cone_contents_if_needed(borderless_cone, total_dpt);
|
---|
624 | if (total_dpt == 0) {
|
---|
625 | // a recomputation has taken place -- so take advantage of this
|
---|
626 | // and update the member cone momentum
|
---|
627 | cone = borderless_cone + cone_removal;
|
---|
628 | dpt = local_dpt;
|
---|
629 | }
|
---|
630 |
|
---|
631 | test_cone_cocircular(borderless_cone, border_list);
|
---|
632 | }
|
---|
633 |
|
---|
634 |
|
---|
635 | // relabel things that were in the cone but got removed
|
---|
636 | for(list<Cvicinity_inclusion *>::iterator is_in = removed_from_cone.begin();
|
---|
637 | is_in != removed_from_cone.end(); is_in++) {
|
---|
638 | (*is_in)->cone = true;
|
---|
639 | }
|
---|
640 |
|
---|
641 | // relabel things that got put into the border
|
---|
642 | for(list<Cvicinity_inclusion *>::iterator is_in = put_in_border.begin();
|
---|
643 | is_in != put_in_border.end(); is_in++) {
|
---|
644 | (*is_in)->cocirc = false;
|
---|
645 | }
|
---|
646 |
|
---|
647 | // we're done with everything -- return true to signal to user that we've
|
---|
648 | // been through the co-circularity rigmarole
|
---|
649 | return true;
|
---|
650 | }
|
---|
651 |
|
---|
652 |
|
---|
653 | ////////////////////////////////////////////////////////
|
---|
654 | // RECOMPUTATION OF CONE CONTENTS //
|
---|
655 | // - compute_cone_contents() //
|
---|
656 | // - recompute_cone_contents() //
|
---|
657 | // - recompute_cone_contents_if_needed() //
|
---|
658 | ////////////////////////////////////////////////////////
|
---|
659 |
|
---|
660 | /**
|
---|
661 | * compute the cone contents by going once around the full set of
|
---|
662 | * circles and tracking the entry/exit status each time
|
---|
663 | * given parent, child and centre compute the momentum
|
---|
664 | * of the particle inside the cone
|
---|
665 | * This sets up the inclusion information, which can then be directly
|
---|
666 | * used to calculate the cone momentum.
|
---|
667 | **********************************************************************/
|
---|
668 | void Cstable_cones::compute_cone_contents() {
|
---|
669 | circulator<vector<Cvicinity_elm*>::iterator >
|
---|
670 | start(vicinity.begin()+first_cone, vicinity.begin(), vicinity.end());
|
---|
671 |
|
---|
672 | circulator<vector<Cvicinity_elm*>::iterator > here(start);
|
---|
673 |
|
---|
674 | // note that in the following algorithm, the cone contents never includes
|
---|
675 | // the child. Indeed, if it has positive sign, then it will be set as
|
---|
676 | // outside at the last step in the loop. If it has negative sign, then the
|
---|
677 | // loop will at some point go to the corresponding situation with positive
|
---|
678 | // sign and set the inclusion status to 0.
|
---|
679 |
|
---|
680 | do {
|
---|
681 | // as we leave this position a particle enters if its side is
|
---|
682 | // negative (i.e. the centre is the one at -ve angle wrt to the
|
---|
683 | // parent-child line
|
---|
684 | if (!(*here())->side) ((*here())->is_inside->cone) = 1;
|
---|
685 |
|
---|
686 | // move on to the next position
|
---|
687 | ++here;
|
---|
688 |
|
---|
689 | // as we arrive at this position a particle leaves if its side is positive
|
---|
690 | if ((*here())->side) ((*here())->is_inside->cone) = 0;
|
---|
691 | } while (here != start);
|
---|
692 |
|
---|
693 | // once we've reached the start the 'is_inside' information should be
|
---|
694 | // 100% complete, so we can use it to calculate the cone contents
|
---|
695 | // and then exit
|
---|
696 | recompute_cone_contents();
|
---|
697 | return;
|
---|
698 |
|
---|
699 | }
|
---|
700 |
|
---|
701 |
|
---|
702 | /*
|
---|
703 | * compute the cone momentum from particle list.
|
---|
704 | * in this version, we use the 'pincluded' information
|
---|
705 | * from the Cvicinity class
|
---|
706 | */
|
---|
707 | void Cstable_cones::recompute_cone_contents(){
|
---|
708 | unsigned int i;
|
---|
709 |
|
---|
710 | // set momentum to 0
|
---|
711 | cone = Cmomentum();
|
---|
712 |
|
---|
713 | // Important note: we can browse only the particles
|
---|
714 | // in vicinity since all particles in the cone are
|
---|
715 | // withing a distance 2R w.r.t. parent hence in vicinity.
|
---|
716 | // Among those, we only add the particles for which 'is_inside' is true !
|
---|
717 | // This methos rather than a direct comparison avoids rounding errors
|
---|
718 | for (i=0;i<vicinity_size;i++){
|
---|
719 | // to avoid double-counting, only use particles with + angle
|
---|
720 | if ((vicinity[i]->side) && (vicinity[i]->is_inside->cone))
|
---|
721 | cone += *vicinity[i]->v;
|
---|
722 | }
|
---|
723 |
|
---|
724 | // set check variables back to 0
|
---|
725 | dpt = 0.0;
|
---|
726 | }
|
---|
727 |
|
---|
728 |
|
---|
729 | /*
|
---|
730 | * if we have gone beyond the acceptable threshold of change, compute
|
---|
731 | * the cone momentum from particle list. in this version, we use the
|
---|
732 | * 'pincluded' information from the Cvicinity class, but we don't
|
---|
733 | * change the member cone, only the locally supplied one
|
---|
734 | */
|
---|
735 | void Cstable_cones::recompute_cone_contents_if_needed(Cmomentum & this_cone,
|
---|
736 | double & this_dpt){
|
---|
737 |
|
---|
738 | if (this_dpt > PT_TSHOLD*(fabs(this_cone.px)+fabs(this_cone.py))) {
|
---|
739 | if (cone.ref.is_empty()) {
|
---|
740 | this_cone = Cmomentum();
|
---|
741 | } else {
|
---|
742 | // set momentum to 0
|
---|
743 | this_cone = Cmomentum();
|
---|
744 |
|
---|
745 | // Important note: we can browse only the particles
|
---|
746 | // in vicinity since all particles in the this_cone are
|
---|
747 | // withing a distance 2R w.r.t. parent hence in vicinity.
|
---|
748 | // Among those, we only add the particles for which 'is_inside' is true !
|
---|
749 | // This methos rather than a direct comparison avoids rounding errors
|
---|
750 | for (unsigned int i=0;i<vicinity_size;i++){
|
---|
751 | // to avoid double-counting, only use particles with + angle
|
---|
752 | if ((vicinity[i]->side) && (vicinity[i]->is_inside->cone))
|
---|
753 | this_cone += *vicinity[i]->v;
|
---|
754 | }
|
---|
755 |
|
---|
756 | }
|
---|
757 | // set check variables back to 0
|
---|
758 | this_dpt = 0.0;
|
---|
759 | }
|
---|
760 |
|
---|
761 | }
|
---|
762 |
|
---|
763 |
|
---|
764 | ////////////////////////////////////////////////////////
|
---|
765 | // VARIOUS TOOLS //
|
---|
766 | // - circle_intersect() //
|
---|
767 | // - is_inside() //
|
---|
768 | // - abs_dangle() //
|
---|
769 | ////////////////////////////////////////////////////////
|
---|
770 |
|
---|
771 |
|
---|
772 | /*
|
---|
773 | * circle intersection.
|
---|
774 | * computes the intersection with a circle of given centre and radius.
|
---|
775 | * The output takes the form of a checkxor of the intersection's particles
|
---|
776 | * - cx circle centre x coordinate
|
---|
777 | * - cy circle centre y coordinate
|
---|
778 | * return the checkxor for the intersection
|
---|
779 | ******************************************************************/
|
---|
780 | Creference Cstable_cones::circle_intersect(double cx, double cy){
|
---|
781 | Creference intersection;
|
---|
782 | int i;
|
---|
783 | double dx, dy;
|
---|
784 |
|
---|
785 | for (i=0;i<n_part;i++){
|
---|
786 | // compute the distance of the i-th particle with the parent
|
---|
787 | dx = plist[i].eta - cx;
|
---|
788 | dy = fabs(plist[i].phi - cy);
|
---|
789 |
|
---|
790 | // pay attention to the periodicity in phi !
|
---|
791 | if (dy>M_PI)
|
---|
792 | dy -= twopi;
|
---|
793 |
|
---|
794 | // really check if the distance is less than VR
|
---|
795 | if (dx*dx+dy*dy<R2)
|
---|
796 | intersection+=plist[i].ref;
|
---|
797 | }
|
---|
798 |
|
---|
799 | return intersection;
|
---|
800 | }
|
---|
801 |
|
---|
802 | /*
|
---|
803 | * test if a particle is inside a cone of given centre.
|
---|
804 | * check if the particle of coordinates 'v' is inside the circle of radius R
|
---|
805 | * centered at 'centre'.
|
---|
806 | * - centre centre of the circle
|
---|
807 | * - v particle to test
|
---|
808 | * return true if inside, false if outside
|
---|
809 | *****************************************************************************/
|
---|
810 | inline bool Cstable_cones::is_inside(Cmomentum *centre, Cmomentum *v){
|
---|
811 | double dx, dy;
|
---|
812 |
|
---|
813 | dx = centre->eta - v->eta;
|
---|
814 | dy = fabs(centre->phi - v->phi);
|
---|
815 | if (dy>M_PI)
|
---|
816 | dy -= twopi;
|
---|
817 |
|
---|
818 | return dx*dx+dy*dy<R2;
|
---|
819 | }
|
---|
820 |
|
---|
821 | /*
|
---|
822 | * compute the absolute value of the difference between 2 angles.
|
---|
823 | * We take care of the 2pi periodicity
|
---|
824 | * - angle1 first angle
|
---|
825 | * - angle2 second angle
|
---|
826 | * return the absolute value of the difference between the angles
|
---|
827 | *****************************************************************/
|
---|
828 | inline double abs_dangle(double &angle1, double &angle2){
|
---|
829 | double dphi;
|
---|
830 |
|
---|
831 | dphi = fabs(angle1-angle2);
|
---|
832 | if (dphi>M_PI)
|
---|
833 | dphi = dphi-twopi;
|
---|
834 |
|
---|
835 | return dphi;
|
---|
836 | }
|
---|
837 |
|
---|
838 | }
|
---|