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Geant4/externals/g4tools/include/tools/histo/axis

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Diff markup

Differences between /externals/g4tools/include/tools/histo/axis (Version 11.3.0) and /externals/g4tools/include/tools/histo/axis (Version 8.0.p1)


  1 // Copyright (C) 2010, Guy Barrand. All rights    
  2 // See the file tools.license for terms.          
  3                                                   
  4 #ifndef tools_histo_axis                          
  5 #define tools_histo_axis                          
  6                                                   
  7 #include <string>                                 
  8 #include <vector>                                 
  9                                                   
 10 namespace tools {                                 
 11 namespace histo {                                 
 12                                                   
 13 enum { axis_UNDERFLOW_BIN = -2, axis_OVERFLOW_    
 14                                                   
 15 //TC is for a coordinate.                         
 16 //TO is for an offset used to identify a bin.     
 17                                                   
 18 template <class TC,class TO>                      
 19 class axis {                                      
 20 public:                                           
 21   typedef unsigned int bn_t;                      
 22 public:                                           
 23   enum { UNDERFLOW_BIN = axis_UNDERFLOW_BIN, O    
 24 public:                                           
 25   bool is_fixed_binning() const {return m_fixe    
 26   TC lower_edge() const {return m_minimum_valu    
 27   TC upper_edge() const {return m_maximum_valu    
 28   bn_t bins() const {return m_number_of_bins;}    
 29   const std::vector<TC>& edges() const {return    
 30                                                   
 31   TC bin_width(int a_bin) const {                 
 32     if(a_bin==UNDERFLOW_BIN) {                    
 33       return 0; //FIXME return DBL_MAX;           
 34     } else if(a_bin==OVERFLOW_BIN) {              
 35       return 0; //FIXME return DBL_MAX;           
 36     } else if((a_bin<0) ||(a_bin>=(int)m_numbe    
 37       return 0;                                   
 38     } else {                                      
 39       if(m_fixed) {                               
 40         return m_bin_width;                       
 41       } else {                                    
 42         return (m_edges[a_bin+1]-m_edges[a_bin    
 43       }                                           
 44     }                                             
 45   }                                               
 46                                                   
 47   TC bin_lower_edge(int a_bin) const {            
 48     if(a_bin==UNDERFLOW_BIN) {                    
 49       return 0; //FIXME return -DBL_MAX;          
 50     } else if(a_bin==OVERFLOW_BIN) {              
 51       return 0; //FIXME return bin_upper_edge(    
 52     } else if((a_bin<0) ||(a_bin>=(int)m_numbe    
 53       return 0;                                   
 54     } else {                                      
 55       if(m_fixed) {                               
 56         return (m_minimum_value + a_bin * m_bi    
 57       } else {                                    
 58         return m_edges[a_bin];                    
 59       }                                           
 60     }                                             
 61   }                                               
 62                                                   
 63   TC bin_upper_edge(int a_bin) const {            
 64     if(a_bin==UNDERFLOW_BIN) {                    
 65       return 0; //FIXME bin_lower_edge(0)         
 66     } else if(a_bin==OVERFLOW_BIN) {              
 67       return 0; //FIXME return DBL_MAX;           
 68     } else if((a_bin<0) ||(a_bin>=(int)m_numbe    
 69       return 0;                                   
 70     } else {                                      
 71       if(m_fixed) {                               
 72         return (m_minimum_value + (a_bin + 1)     
 73       } else {                                    
 74         return m_edges[a_bin+1];                  
 75       }                                           
 76     }                                             
 77   }                                               
 78                                                   
 79   TC bin_center(int a_bin) const {                
 80     if(a_bin==UNDERFLOW_BIN) {                    
 81       return 0; //FIXME : -INF                    
 82     } else if(a_bin==OVERFLOW_BIN) {              
 83       return 0; //FIXME : +INF                    
 84     } else if(a_bin<0) {                          
 85       return 0; //FIXME : -INF                    
 86     } else if(a_bin>=(int)m_number_of_bins) {     
 87       return 0; //FIXME : +INF                    
 88     } else {                                      
 89       if(m_fixed) {                               
 90         return (m_minimum_value + (a_bin + 0.5    
 91       } else {                                    
 92         return (m_edges[a_bin] + m_edges[a_bin    
 93       }                                           
 94     }                                             
 95   }                                               
 96                                                   
 97   int coord_to_index(TC a_value) const {          
 98     if( a_value <  m_minimum_value) {             
 99       return UNDERFLOW_BIN;                       
100     } else if( a_value >= m_maximum_value) {      
101       return OVERFLOW_BIN;                        
102     } else {                                      
103       if(m_fixed) {                               
104         return (int)((a_value - m_minimum_valu    
105       } else {                                    
106         for(bn_t index=0;index<m_number_of_bin    
107           if((m_edges[index]<=a_value)&&(a_val    
108             return index;                         
109           }                                       
110         }                                         
111         // Should never pass here...              
112         return UNDERFLOW_BIN;                     
113       }                                           
114     }                                             
115   }                                               
116                                                   
117   bool coord_to_absolute_index(TC a_value,bn_t    
118     if( a_value <  m_minimum_value) {             
119       a_index = 0;                                
120       return true;                                
121     } else if( a_value >= m_maximum_value) {      
122       a_index = m_number_of_bins+1;               
123       return true;                                
124     } else {                                      
125       if(m_fixed) {                               
126         a_index = (bn_t)((a_value - m_minimum_    
127         return true;                              
128       } else {                                    
129         for(bn_t index=0;index<m_number_of_bin    
130           if((m_edges[index]<=a_value)&&(a_val    
131             a_index = index+1;                    
132             return true;                          
133           }                                       
134         }                                         
135         // Should never pass here...              
136         a_index = 0;                              
137         return false;                             
138       }                                           
139     }                                             
140   }                                               
141                                                   
142   bool in_range_to_absolute_index(int a_in,bn_    
143     // a_in is given in in-range indexing :       
144     //  - [0,n-1] for in-range bins               
145     //  - UNDERFLOW_BIN for the iaxis underflo    
146     //  - OVERFLOW_BIN for the iaxis overflow     
147     // Return the absolute indexing in [0,n+1]    
148     if(a_in==UNDERFLOW_BIN) {                     
149       a_out = 0;                                  
150       return true;                                
151     } else if(a_in==OVERFLOW_BIN) {               
152       a_out = m_number_of_bins+1;                 
153       return true;                                
154     } else if((a_in>=0)&&(a_in<(int)m_number_o    
155       a_out = a_in + 1;                           
156       return true;                                
157     } else {                                      
158       return false;                               
159     }                                             
160   }                                               
161                                                   
162 public:                                           
163   // Partition :                                  
164   bool configure(const std::vector<TC>& a_edge    
165     // init :                                     
166     m_number_of_bins = 0;                         
167     m_minimum_value = 0;                          
168     m_maximum_value = 0;                          
169     m_fixed = true;                               
170     m_bin_width = 0;                              
171     m_edges.clear();                              
172     // setup :                                    
173     if(a_edges.size()<=1) return false;           
174     bn_t number = (bn_t)a_edges.size()-1;         
175     for(bn_t index=0;index<number;index++) {      
176       if((a_edges[index]>=a_edges[index+1])) {    
177         return false;                             
178       }                                           
179     }                                             
180     m_edges = a_edges;                            
181     m_number_of_bins = number;                    
182     m_minimum_value = a_edges[0];                 
183     m_maximum_value = a_edges[m_number_of_bins    
184     m_fixed = false;                              
185     return true;                                  
186   }                                               
187                                                   
188   bool configure(bn_t aNumber,TC aMin,TC aMax)    
189     // init :                                     
190     m_number_of_bins = 0;                         
191     m_minimum_value = 0;                          
192     m_maximum_value = 0;                          
193     m_fixed = true;                               
194     m_bin_width = 0;                              
195     m_edges.clear();                              
196     // setup :                                    
197     if(aNumber<=0) return false;                  
198     if(aMax<=aMin) return false;                  
199     m_number_of_bins = aNumber;                   
200     m_minimum_value = aMin;                       
201     m_maximum_value = aMax;                       
202     m_bin_width = (aMax - aMin)/ aNumber;         
203     m_fixed = true;                               
204     return true;                                  
205   }                                               
206                                                   
207   bool is_compatible(const axis& a_axis) const    
208     if(m_number_of_bins!=a_axis.m_number_of_bi    
209     if(m_minimum_value!=a_axis.m_minimum_value    
210     if(m_maximum_value!=a_axis.m_maximum_value    
211     return true;                                  
212   }                                               
213                                                   
214 public:                                           
215   axis()                                          
216   :m_offset(0)                                    
217   ,m_number_of_bins(0)                            
218   ,m_minimum_value(0)                             
219   ,m_maximum_value(0)                             
220   ,m_fixed(true)                                  
221   ,m_bin_width(0)                                 
222   {}                                              
223                                                   
224   virtual ~axis(){}                               
225 public:                                           
226   axis(const axis& a_from)                        
227   :m_offset(a_from.m_offset)                      
228   ,m_number_of_bins(a_from.m_number_of_bins)      
229   ,m_minimum_value(a_from.m_minimum_value)        
230   ,m_maximum_value(a_from.m_maximum_value)        
231   ,m_fixed(a_from.m_fixed)                        
232   ,m_bin_width(a_from.m_bin_width)                
233   ,m_edges(a_from.m_edges)                        
234   {}                                              
235                                                   
236   axis& operator=(const axis& a_from) {           
237     if(&a_from==this) return *this;               
238     m_offset = a_from.m_offset;                   
239     m_number_of_bins = a_from.m_number_of_bins    
240     m_minimum_value = a_from.m_minimum_value;     
241     m_maximum_value = a_from.m_maximum_value;     
242     m_fixed = a_from.m_fixed;                     
243     m_bin_width = a_from.m_bin_width;             
244     m_edges = a_from.m_edges;                     
245     return *this;                                 
246   }                                               
247 public:                                           
248   bool equals(const axis& a_from) const {         
249     if(&a_from==this) return true;                
250     if(m_offset!=a_from.m_offset) return false    
251     if(m_number_of_bins!=a_from.m_number_of_bi    
252     if(m_minimum_value!=a_from.m_minimum_value    
253     if(m_maximum_value!=a_from.m_maximum_value    
254     if(m_fixed!=a_from.m_fixed) return false;     
255     if(m_bin_width!=a_from.m_bin_width) return    
256     if(m_edges!=a_from.m_edges) return false;     
257     return true;                                  
258   }                                               
259                                                   
260   bool operator==(const axis& a_from) const {r    
261   bool operator!=(const axis& a_from) const {r    
262                                                   
263 public:                                           
264   TO m_offset;                                    
265   bn_t m_number_of_bins;                          
266   TC m_minimum_value;                             
267   TC m_maximum_value;                             
268   bool m_fixed;                                   
269   // Fixed size bins :                            
270   TC m_bin_width;                                 
271   // Variable size bins :                         
272   std::vector<TC> m_edges;                        
273 };                                                
274                                                   
275 }}                                                
276                                                   
277 #endif                                            
278                                                   
279                                                   
280                                                   
281