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Geant4/externals/g4tools/include/tools/histo/c2d

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Differences between /externals/g4tools/include/tools/histo/c2d (Version 11.3.0) and /externals/g4tools/include/tools/histo/c2d (Version 11.1.2)


  1 // Copyright (C) 2010, Guy Barrand. All rights      1 // Copyright (C) 2010, Guy Barrand. All rights reserved.
  2 // See the file tools.license for terms.            2 // See the file tools.license for terms.
  3                                                     3 
  4 #ifndef tools_histo_c2d                             4 #ifndef tools_histo_c2d
  5 #define tools_histo_c2d                             5 #define tools_histo_c2d
  6                                                     6 
  7 #include "base_cloud"                               7 #include "base_cloud"
  8                                                     8 
  9 #include "../mnmx"                                  9 #include "../mnmx"
 10                                                    10 
 11 #include "h2d"                                     11 #include "h2d"
 12                                                    12 
 13 namespace tools {                                  13 namespace tools {
 14 namespace histo {                                  14 namespace histo {
 15                                                    15 
 16 class c2d : public base_cloud {                    16 class c2d : public base_cloud {
 17 public:                                            17 public:
 18   static const std::string& s_class() {            18   static const std::string& s_class() {
 19     static const std::string s_v("tools::histo     19     static const std::string s_v("tools::histo::c2d");
 20     return s_v;                                    20     return s_v;
 21   }                                                21   }
 22 public:                                            22 public:
 23   bool set_title(const std::string&);              23   bool set_title(const std::string&);
 24   unsigned int dimension() const {return 2;}       24   unsigned int dimension() const {return 2;}
 25   bool reset();                                    25   bool reset();
 26   unsigned int entries() const { return m_hist     26   unsigned int entries() const { return m_histo ? m_histo->all_entries() : (unsigned int)m_ws.size();}
 27 public:                                            27 public:
 28   double sum_of_weights() const { return (m_hi     28   double sum_of_weights() const { return (m_histo ? m_histo->sum_bin_heights() : m_Sw);}
 29   bool convert_to_histogram();                     29   bool convert_to_histogram();
 30   bool is_converted() const {return m_histo ?      30   bool is_converted() const {return m_histo ? true : false;}
 31   bool scale(double);                              31   bool scale(double);
 32 public:                                            32 public:
 33   bool fill(double,double,double = 1);             33   bool fill(double,double,double = 1);
 34   double lower_edge_x() const {return m_histo      34   double lower_edge_x() const {return m_histo ? m_histo->axis_x().lower_edge() : m_lower_x;}
 35   double lower_edge_y() const { return m_histo     35   double lower_edge_y() const { return m_histo ? m_histo->axis_y().lower_edge() : m_lower_y;}
 36   double upper_edge_x() const { return m_histo     36   double upper_edge_x() const { return m_histo ? m_histo->axis_x().upper_edge() : m_upper_x;}
 37   double upper_edge_y() const { return m_histo     37   double upper_edge_y() const { return m_histo ? m_histo->axis_y().upper_edge() : m_upper_y;}
 38   double value_x(unsigned int a_index) const {     38   double value_x(unsigned int a_index) const { return m_histo ? 0 : m_xs[a_index];}
 39   double value_y(unsigned int a_index) const {     39   double value_y(unsigned int a_index) const { return m_histo ? 0 : m_ys[a_index];}
 40   double weight(unsigned int a_index) const {      40   double weight(unsigned int a_index) const { return m_histo ? 0 : m_ws[a_index];}
 41   double mean_x() const {return m_histo ? m_hi     41   double mean_x() const {return m_histo ? m_histo->mean_x() : (m_Sw?m_Sxw/m_Sw:0);}
 42   double mean_y() const {return m_histo ? m_hi     42   double mean_y() const {return m_histo ? m_histo->mean_y() : (m_Sw?m_Syw/m_Sw:0);}
 43   double rms_x() const;                            43   double rms_x() const;
 44   double rms_y() const;                            44   double rms_y() const;
 45   bool convert(unsigned int,double,double,unsi     45   bool convert(unsigned int,double,double,unsigned int,double,double);
 46   bool convert(const std::vector<double>&,cons     46   bool convert(const std::vector<double>&,const std::vector<double>&);
 47   const histo::h2d& histogram() const;             47   const histo::h2d& histogram() const;
 48   template <class HISTO>                           48   template <class HISTO>
 49   bool fill_histogram(HISTO& a_histo) const {      49   bool fill_histogram(HISTO& a_histo) const {
 50     size_t number = m_xs.size();                   50     size_t number = m_xs.size();
 51     for(size_t index=0;index<number;index++) {     51     for(size_t index=0;index<number;index++) {
 52       if(!a_histo.fill(m_xs[index],m_ys[index]     52       if(!a_histo.fill(m_xs[index],m_ys[index],m_ws[index])) return false;
 53     }                                              53     }
 54     return true;                                   54     return true;
 55   }                                                55   }
 56   bool set_conversion_parameters(unsigned int,     56   bool set_conversion_parameters(unsigned int,double,double,unsigned int,double,double);
 57                                                    57 
 58   bool set_histogram(h2d* a_histo){ //we take      58   bool set_histogram(h2d* a_histo){ //we take ownership of a_histo.
 59     reset();                                       59     reset();
 60     m_histo = a_histo;                             60     m_histo = a_histo;
 61     return true;                                   61     return true;
 62   }                                                62   }
 63 public:                                            63 public:
 64   c2d();                                           64   c2d();
 65   c2d(const std::string&,int=base_cloud::UNLIM     65   c2d(const std::string&,int=base_cloud::UNLIMITED());
 66   virtual ~c2d(){delete m_histo;}                  66   virtual ~c2d(){delete m_histo;}
 67 public:                                            67 public:
 68   c2d(const c2d& a_from)                           68   c2d(const c2d& a_from)
 69   :base_cloud(a_from)                              69   :base_cloud(a_from)
 70   ,m_xs(a_from.m_xs)                               70   ,m_xs(a_from.m_xs)
 71   ,m_ys(a_from.m_ys)                               71   ,m_ys(a_from.m_ys)
 72   ,m_lower_x(a_from.m_lower_x)                     72   ,m_lower_x(a_from.m_lower_x)
 73   ,m_upper_x(a_from.m_upper_x)                     73   ,m_upper_x(a_from.m_upper_x)
 74   ,m_lower_y(a_from.m_lower_y)                     74   ,m_lower_y(a_from.m_lower_y)
 75   ,m_upper_y(a_from.m_upper_y)                     75   ,m_upper_y(a_from.m_upper_y)
 76   ,m_Sxw(a_from.m_Sxw)                             76   ,m_Sxw(a_from.m_Sxw)
 77   ,m_Sx2w(a_from.m_Sx2w)                           77   ,m_Sx2w(a_from.m_Sx2w)
 78   ,m_Syw(a_from.m_Syw)                             78   ,m_Syw(a_from.m_Syw)
 79   ,m_Sy2w(a_from.m_Sy2w)                           79   ,m_Sy2w(a_from.m_Sy2w)
 80   ,m_cnv_x_num(a_from.m_cnv_x_num)                 80   ,m_cnv_x_num(a_from.m_cnv_x_num)
 81   ,m_cnv_x_min(a_from.m_cnv_x_min)                 81   ,m_cnv_x_min(a_from.m_cnv_x_min)
 82   ,m_cnv_x_max(a_from.m_cnv_x_max)                 82   ,m_cnv_x_max(a_from.m_cnv_x_max)
 83   ,m_cnv_y_num(a_from.m_cnv_y_num)                 83   ,m_cnv_y_num(a_from.m_cnv_y_num)
 84   ,m_cnv_y_min(a_from.m_cnv_y_min)                 84   ,m_cnv_y_min(a_from.m_cnv_y_min)
 85   ,m_cnv_y_max(a_from.m_cnv_y_max)                 85   ,m_cnv_y_max(a_from.m_cnv_y_max)
 86   ,m_histo(0)                                      86   ,m_histo(0)
 87   {                                                87   {
 88     if(a_from.m_histo) {                           88     if(a_from.m_histo) {
 89       m_histo = new histo::h2d(*a_from.m_histo     89       m_histo = new histo::h2d(*a_from.m_histo);
 90     }                                              90     }
 91   }                                                91   }
 92                                                    92 
 93   c2d& operator=(const c2d& a_from) {              93   c2d& operator=(const c2d& a_from) {
 94     base_cloud::operator=(a_from);                 94     base_cloud::operator=(a_from);
 95     if(&a_from==this) return *this;                95     if(&a_from==this) return *this;
 96     m_xs = a_from.m_xs;                            96     m_xs = a_from.m_xs;
 97     m_ys = a_from.m_ys;                            97     m_ys = a_from.m_ys;
 98     m_lower_x = a_from.m_lower_x;                  98     m_lower_x = a_from.m_lower_x;
 99     m_upper_x = a_from.m_upper_x;                  99     m_upper_x = a_from.m_upper_x;
100     m_lower_y = a_from.m_lower_y;                 100     m_lower_y = a_from.m_lower_y;
101     m_upper_y = a_from.m_upper_y;                 101     m_upper_y = a_from.m_upper_y;
102     m_Sxw = a_from.m_Sxw;                         102     m_Sxw = a_from.m_Sxw;
103     m_Sx2w = a_from.m_Sx2w;                       103     m_Sx2w = a_from.m_Sx2w;
104     m_Syw = a_from.m_Syw;                         104     m_Syw = a_from.m_Syw;
105     m_Sy2w = a_from.m_Sy2w;                       105     m_Sy2w = a_from.m_Sy2w;
106     m_cnv_x_num = a_from.m_cnv_x_num;             106     m_cnv_x_num = a_from.m_cnv_x_num;
107     m_cnv_x_min = a_from.m_cnv_x_min;             107     m_cnv_x_min = a_from.m_cnv_x_min;
108     m_cnv_x_max = a_from.m_cnv_x_max;             108     m_cnv_x_max = a_from.m_cnv_x_max;
109     m_cnv_y_num = a_from.m_cnv_y_num;             109     m_cnv_y_num = a_from.m_cnv_y_num;
110     m_cnv_y_min = a_from.m_cnv_y_min;             110     m_cnv_y_min = a_from.m_cnv_y_min;
111     m_cnv_y_max = a_from.m_cnv_y_max;             111     m_cnv_y_max = a_from.m_cnv_y_max;
112     delete m_histo;                               112     delete m_histo;
113     m_histo = 0;                                  113     m_histo = 0;
114     if(a_from.m_histo) {                          114     if(a_from.m_histo) {
115       m_histo = new histo::h2d(*a_from.m_histo    115       m_histo = new histo::h2d(*a_from.m_histo);
116     }                                             116     }
117     return *this;                                 117     return *this;
118   }                                               118   }
119 public: //AIDA API                                119 public: //AIDA API
120   double lowerEdgeX() const {return lower_edge    120   double lowerEdgeX() const {return lower_edge_x();}
121   double lowerEdgeY() const {return lower_edge    121   double lowerEdgeY() const {return lower_edge_y();}
122   double upperEdgeX() const {return upper_edge    122   double upperEdgeX() const {return upper_edge_x();}
123   double upperEdgeY() const {return upper_edge    123   double upperEdgeY() const {return upper_edge_y();}
124   template <class HISTO>                          124   template <class HISTO>
125   bool fillHistogram(HISTO& a_histo) const {re    125   bool fillHistogram(HISTO& a_histo) const {return fill_histogram<HISTO>(a_histo);}
126 protected:                                        126 protected:
127   void clear();                                   127   void clear();
128 protected:                                        128 protected:
129   std::vector<double> m_xs;                       129   std::vector<double> m_xs;
130   std::vector<double> m_ys;                       130   std::vector<double> m_ys;
131   double m_lower_x;                               131   double m_lower_x;
132   double m_upper_x;                               132   double m_upper_x;
133   double m_lower_y;                               133   double m_lower_y;
134   double m_upper_y;                               134   double m_upper_y;
135   double m_Sxw;                                   135   double m_Sxw;
136   double m_Sx2w;                                  136   double m_Sx2w;
137   double m_Syw;                                   137   double m_Syw;
138   double m_Sy2w;                                  138   double m_Sy2w;
139   //                                              139   //
140   unsigned int m_cnv_x_num;                       140   unsigned int m_cnv_x_num;
141   double m_cnv_x_min;                             141   double m_cnv_x_min;
142   double m_cnv_x_max;                             142   double m_cnv_x_max;
143   unsigned int m_cnv_y_num;                       143   unsigned int m_cnv_y_num;
144   double m_cnv_y_min;                             144   double m_cnv_y_min;
145   double m_cnv_y_max;                             145   double m_cnv_y_max;
146   histo::h2d* m_histo;                            146   histo::h2d* m_histo;
147 };                                                147 };
148                                                   148 
149 }}                                                149 }}
150                                                   150 
151 namespace tools {                                 151 namespace tools {
152 namespace histo {                                 152 namespace histo {
153                                                   153 
154 inline                                            154 inline
155 c2d::c2d()                                        155 c2d::c2d()
156 :base_cloud(UNLIMITED())                          156 :base_cloud(UNLIMITED())
157 ,m_lower_x(0)                                     157 ,m_lower_x(0)
158 ,m_upper_x(0)                                     158 ,m_upper_x(0)
159 ,m_lower_y(0)                                     159 ,m_lower_y(0)
160 ,m_upper_y(0)                                     160 ,m_upper_y(0)
161 ,m_Sxw(0)                                         161 ,m_Sxw(0)
162 ,m_Sx2w(0)                                        162 ,m_Sx2w(0)
163 ,m_Syw(0)                                         163 ,m_Syw(0)
164 ,m_Sy2w(0)                                        164 ,m_Sy2w(0)
165 ,m_cnv_x_num(0)                                   165 ,m_cnv_x_num(0)
166 ,m_cnv_x_min(0)                                   166 ,m_cnv_x_min(0)
167 ,m_cnv_x_max(0)                                   167 ,m_cnv_x_max(0)
168 ,m_cnv_y_num(0)                                   168 ,m_cnv_y_num(0)
169 ,m_cnv_y_min(0)                                   169 ,m_cnv_y_min(0)
170 ,m_cnv_y_max(0)                                   170 ,m_cnv_y_max(0)
171 ,m_histo(0)                                       171 ,m_histo(0)
172 {}                                                172 {}
173                                                   173 
174 inline                                            174 inline
175 c2d::c2d(const std::string& a_title,int aLimit    175 c2d::c2d(const std::string& a_title,int aLimit)
176 :base_cloud(aLimit)                               176 :base_cloud(aLimit)
177 ,m_lower_x(0)                                     177 ,m_lower_x(0)
178 ,m_upper_x(0)                                     178 ,m_upper_x(0)
179 ,m_lower_y(0)                                     179 ,m_lower_y(0)
180 ,m_upper_y(0)                                     180 ,m_upper_y(0)
181 ,m_Sxw(0)                                         181 ,m_Sxw(0)
182 ,m_Sx2w(0)                                        182 ,m_Sx2w(0)
183 ,m_Syw(0)                                         183 ,m_Syw(0)
184 ,m_Sy2w(0)                                        184 ,m_Sy2w(0)
185 ,m_cnv_x_num(0)                                   185 ,m_cnv_x_num(0)
186 ,m_cnv_x_min(0)                                   186 ,m_cnv_x_min(0)
187 ,m_cnv_x_max(0)                                   187 ,m_cnv_x_max(0)
188 ,m_cnv_y_num(0)                                   188 ,m_cnv_y_num(0)
189 ,m_cnv_y_min(0)                                   189 ,m_cnv_y_min(0)
190 ,m_cnv_y_max(0)                                   190 ,m_cnv_y_max(0)
191 ,m_histo(0)                                       191 ,m_histo(0)
192 {                                                 192 {
193   set_title(a_title);                             193   set_title(a_title);
194 }                                                 194 }
195                                                   195 
196 inline                                            196 inline
197 void c2d::clear(){                                197 void c2d::clear(){
198   m_lower_x = 0;                                  198   m_lower_x = 0;
199   m_upper_x = 0;                                  199   m_upper_x = 0;
200   m_lower_y = 0;                                  200   m_lower_y = 0;
201   m_upper_y = 0;                                  201   m_upper_y = 0;
202   m_Sw = 0;                                       202   m_Sw = 0;
203   m_Sxw = 0;                                      203   m_Sxw = 0;
204   m_Sx2w = 0;                                     204   m_Sx2w = 0;
205   m_Syw = 0;                                      205   m_Syw = 0;
206   m_Sy2w = 0;                                     206   m_Sy2w = 0;
207   m_xs.clear();                                   207   m_xs.clear();
208   m_ys.clear();                                   208   m_ys.clear();
209   m_ws.clear();                                   209   m_ws.clear();
210 }                                                 210 }
211                                                   211 
212 inline                                            212 inline
213 bool c2d::convert(                                213 bool c2d::convert(
214  unsigned int a_bins_x,double a_lower_edge_x,d    214  unsigned int a_bins_x,double a_lower_edge_x,double a_upper_edge_x
215 ,unsigned int a_bins_y,double a_lower_edge_y,d    215 ,unsigned int a_bins_y,double a_lower_edge_y,double a_upper_edge_y
216 ) {                                               216 ) {
217   if(m_histo) return true; // Done.               217   if(m_histo) return true; // Done.
218   m_histo = new histo::h2d(base_cloud::title()    218   m_histo = new histo::h2d(base_cloud::title(),
219                            a_bins_x,a_lower_ed    219                            a_bins_x,a_lower_edge_x,a_upper_edge_x,
220                            a_bins_y,a_lower_ed    220                            a_bins_y,a_lower_edge_y,a_upper_edge_y);
221   if(!m_histo) return false;                      221   if(!m_histo) return false;
222   bool status = fill_histogram(*m_histo);         222   bool status = fill_histogram(*m_histo);
223   clear();                                        223   clear();
224   return status;                                  224   return status;
225 }                                                 225 }
226                                                   226 
227 inline                                            227 inline
228 bool c2d::convert_to_histogram(){                 228 bool c2d::convert_to_histogram(){
229   if( (m_cnv_x_num<=0) || (m_cnv_x_max<=m_cnv_    229   if( (m_cnv_x_num<=0) || (m_cnv_x_max<=m_cnv_x_min) ||
230       (m_cnv_y_num<=0) || (m_cnv_y_max<=m_cnv_    230       (m_cnv_y_num<=0) || (m_cnv_y_max<=m_cnv_y_min) ) {
231     double dx = 0.01 * (upper_edge_x() - lower    231     double dx = 0.01 * (upper_edge_x() - lower_edge_x())/BINS();
232     double dy = 0.01 * (upper_edge_y() - lower    232     double dy = 0.01 * (upper_edge_y() - lower_edge_y())/BINS();
233     return convert(BINS(),lower_edge_x(),upper    233     return convert(BINS(),lower_edge_x(),upper_edge_x()+dx,
234                    BINS(),lower_edge_y(),upper    234                    BINS(),lower_edge_y(),upper_edge_y()+dy);
235   } else {                                        235   } else {
236     return convert(m_cnv_x_num,m_cnv_x_min,m_c    236     return convert(m_cnv_x_num,m_cnv_x_min,m_cnv_x_max,
237                    m_cnv_y_num,m_cnv_y_min,m_c    237                    m_cnv_y_num,m_cnv_y_min,m_cnv_y_max);
238   }                                               238   }
239 }                                                 239 }
240                                                   240 
241                                                   241 
242 inline                                            242 inline
243 bool c2d::set_title(const std::string& a_title    243 bool c2d::set_title(const std::string& a_title){
244   m_title = a_title;                              244   m_title = a_title;
245   if(m_histo) m_histo->set_title(a_title);        245   if(m_histo) m_histo->set_title(a_title);
246   return true;                                    246   return true;
247 }                                                 247 }
248                                                   248 
249 inline                                            249 inline
250 bool c2d::scale(double a_scale) {                 250 bool c2d::scale(double a_scale) {
251   if(m_histo) {                                   251   if(m_histo) {
252     return m_histo->scale(a_scale);               252     return m_histo->scale(a_scale);
253   } else {                                        253   } else {
254     size_t number = m_ws.size();                  254     size_t number = m_ws.size();
255     for(size_t index=0;index<number;index++) m    255     for(size_t index=0;index<number;index++) m_ws[index] *= a_scale;
256     m_Sw *= a_scale;                              256     m_Sw *= a_scale;
257     m_Sxw *= a_scale;                             257     m_Sxw *= a_scale;
258     m_Sx2w *= a_scale;                            258     m_Sx2w *= a_scale;
259     m_Syw *= a_scale;                             259     m_Syw *= a_scale;
260     m_Sy2w *= a_scale;                            260     m_Sy2w *= a_scale;
261     return true;                                  261     return true;
262   }                                               262   }
263 }                                                 263 }
264                                                   264 
265 inline                                            265 inline
266 bool c2d::reset() {                               266 bool c2d::reset() {
267   clear();                                        267   clear();
268   delete m_histo;                                 268   delete m_histo;
269   m_histo = 0;                                    269   m_histo = 0;
270   return true;                                    270   return true;
271 }                                                 271 }
272                                                   272 
273 inline                                            273 inline
274 bool c2d::fill(double aX,double aY,double aW){    274 bool c2d::fill(double aX,double aY,double aW){
275   if(!m_histo && (m_limit!=UNLIMITED()) && ((i    275   if(!m_histo && (m_limit!=UNLIMITED()) && ((int)m_xs.size()>=m_limit)){
276     convert_to_histogram();                       276     convert_to_histogram();
277   }                                               277   }
278                                                   278 
279   if(m_histo) {                                   279   if(m_histo) {
280     return m_histo->fill(aX,aY,aW);               280     return m_histo->fill(aX,aY,aW);
281   } else {                                        281   } else {
282     if(m_xs.size()) {                             282     if(m_xs.size()) {
283       m_lower_x = mn<double>(aX,m_lower_x);       283       m_lower_x = mn<double>(aX,m_lower_x);
284       m_upper_x = mx<double>(aX,m_upper_x);       284       m_upper_x = mx<double>(aX,m_upper_x);
285     } else {                                      285     } else {
286       m_lower_x = aX;                             286       m_lower_x = aX;
287       m_upper_x = aX;                             287       m_upper_x = aX;
288     }                                             288     }
289     if(m_ys.size()) {                             289     if(m_ys.size()) {
290       m_lower_y = mn<double>(aY,m_lower_y);       290       m_lower_y = mn<double>(aY,m_lower_y);
291       m_upper_y = mx<double>(aY,m_upper_y);       291       m_upper_y = mx<double>(aY,m_upper_y);
292     } else {                                      292     } else {
293       m_lower_y = aY;                             293       m_lower_y = aY;
294       m_upper_y = aY;                             294       m_upper_y = aY;
295     }                                             295     }
296     m_xs.push_back(aX);                           296     m_xs.push_back(aX);
297     m_ys.push_back(aY);                           297     m_ys.push_back(aY);
298     m_ws.push_back(aW);                           298     m_ws.push_back(aW);
299     m_Sw += aW;                                   299     m_Sw += aW;
300     double xw = aX * aW;                          300     double xw = aX * aW;
301     m_Sxw += xw;                                  301     m_Sxw += xw;
302     m_Sx2w += aX * xw;                            302     m_Sx2w += aX * xw;
303     double yw = aY * aW;                          303     double yw = aY * aW;
304     m_Syw += yw;                                  304     m_Syw += yw;
305     m_Sy2w += aY * yw;                            305     m_Sy2w += aY * yw;
306     return true;                                  306     return true;
307   }                                               307   }
308 }                                                 308 }
309                                                   309 
310 inline                                            310 inline
311 bool c2d::convert(const std::vector<double>& a    311 bool c2d::convert(const std::vector<double>& a_edges_x,const std::vector<double>& a_edges_y) {
312   if(m_histo) return true;                        312   if(m_histo) return true;
313   m_histo = new histo::h2d(base_cloud::title()    313   m_histo = new histo::h2d(base_cloud::title(),
314                            a_edges_x,a_edges_y    314                            a_edges_x,a_edges_y);
315   if(!m_histo) return false;                      315   if(!m_histo) return false;
316   bool status = fill_histogram(*m_histo);         316   bool status = fill_histogram(*m_histo);
317   clear();                                        317   clear();
318   return status;                                  318   return status;
319 }                                                 319 }
320                                                   320 
321 inline                                            321 inline
322 bool c2d::set_conversion_parameters(              322 bool c2d::set_conversion_parameters(
323  unsigned int aCnvXnumber,double aCnvXmin,doub    323  unsigned int aCnvXnumber,double aCnvXmin,double aCnvXmax
324 ,unsigned int aCnvYnumber,double aCnvYmin,doub    324 ,unsigned int aCnvYnumber,double aCnvYmin,double aCnvYmax
325 ){                                                325 ){
326   m_cnv_x_num = aCnvXnumber;                      326   m_cnv_x_num = aCnvXnumber;
327   m_cnv_x_min = aCnvXmin;                         327   m_cnv_x_min = aCnvXmin;
328   m_cnv_x_max = aCnvXmax;                         328   m_cnv_x_max = aCnvXmax;
329   m_cnv_y_num = aCnvYnumber;                      329   m_cnv_y_num = aCnvYnumber;
330   m_cnv_y_min = aCnvYmin;                         330   m_cnv_y_min = aCnvYmin;
331   m_cnv_y_max = aCnvYmax;                         331   m_cnv_y_max = aCnvYmax;
332   return true;                                    332   return true;
333 }                                                 333 }
334                                                   334 
335 inline                                            335 inline
336 const h2d& c2d::histogram() const {               336 const h2d& c2d::histogram() const {
337   if(!m_histo) const_cast<c2d&>(*this).convert    337   if(!m_histo) const_cast<c2d&>(*this).convert_to_histogram();
338   return *m_histo;                                338   return *m_histo;
339 }                                                 339 }
340                                                   340 
341 inline                                            341 inline
342 double c2d::rms_x() const {                       342 double c2d::rms_x() const {
343   double rms = 0; //FIXME nan.                    343   double rms = 0; //FIXME nan.
344   if(m_histo) {                                   344   if(m_histo) {
345     rms = m_histo->rms_x();                       345     rms = m_histo->rms_x();
346   } else {                                        346   } else {
347     if(m_Sw==0) {                                 347     if(m_Sw==0) {
348     } else {                                      348     } else {
349       double mean = m_Sxw / m_Sw;                 349       double mean = m_Sxw / m_Sw;
350       rms = ::sqrt(::fabs( (m_Sx2w / m_Sw) - m    350       rms = ::sqrt(::fabs( (m_Sx2w / m_Sw) - mean * mean));
351     }                                             351     }
352   }                                               352   }
353   return rms;                                     353   return rms;
354 }                                                 354 }
355 inline                                            355 inline
356 double c2d::rms_y() const {                       356 double c2d::rms_y() const {
357   double rms = 0; //FIXME nan.                    357   double rms = 0; //FIXME nan.
358   if(m_histo) {                                   358   if(m_histo) {
359     rms = m_histo->rms_y();                       359     rms = m_histo->rms_y();
360   } else {                                        360   } else {
361     if(m_Sw==0) {                                 361     if(m_Sw==0) {
362     } else {                                      362     } else {
363       double mean = m_Syw / m_Sw;                 363       double mean = m_Syw / m_Sw;
364       rms = ::sqrt(::fabs( (m_Sy2w / m_Sw) - m    364       rms = ::sqrt(::fabs( (m_Sy2w / m_Sw) - mean * mean));
365     }                                             365     }
366   }                                               366   }
367   return rms;                                     367   return rms;
368 }                                                 368 }
369                                                   369 
370 }}                                                370 }}
371                                                   371 
372 #endif                                            372 #endif