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Geant4/externals/g4tools/include/tools/vmanip

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Diff markup

Differences between /externals/g4tools/include/tools/vmanip (Version 11.3.0) and /externals/g4tools/include/tools/vmanip (Version 11.0.p2)


  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_vmanip                                4 #ifndef tools_vmanip
  5 #define tools_vmanip                                5 #define tools_vmanip
  6                                                     6 
  7 #include <vector>                                   7 #include <vector>
  8                                                     8 
  9 namespace tools {                                   9 namespace tools {
 10                                                    10 
 11 //////////////////////////////////////////////     11 //////////////////////////////////////////////////////////
 12 /// T* : /////////////////////////////////////     12 /// T* : /////////////////////////////////////////////////
 13 //////////////////////////////////////////////     13 //////////////////////////////////////////////////////////
 14                                                    14 
 15 template <class T>                                 15 template <class T>
 16 inline void safe_clear(std::vector<T*>& a_vec)     16 inline void safe_clear(std::vector<T*>& a_vec){
 17   // the below takes into account the case in      17   // the below takes into account the case in
 18   // which "delete entry" could modify a_vec.      18   // which "delete entry" could modify a_vec.
 19   typedef typename std::vector<T*>::iterator i     19   typedef typename std::vector<T*>::iterator it_t;
 20   while(!a_vec.empty()) {                          20   while(!a_vec.empty()) {
 21     it_t it = a_vec.begin();                       21     it_t it = a_vec.begin();
 22     T* entry  = *it;                               22     T* entry  = *it;
 23     a_vec.erase(it);                               23     a_vec.erase(it);
 24     delete entry;                                  24     delete entry;
 25   }                                                25   }
 26 }                                                  26 }
 27                                                    27 
 28 template <class T>                                 28 template <class T>
 29 inline void safe_reverse_clear(std::vector<T*>     29 inline void safe_reverse_clear(std::vector<T*>& a_vec){ //used in sg/group.
 30   // the below takes into account the case in      30   // the below takes into account the case in
 31   // which "delete entry" could modify a_vec.      31   // which "delete entry" could modify a_vec.
 32   typedef typename std::vector<T*>::iterator i     32   typedef typename std::vector<T*>::iterator it_t;
 33   while(!a_vec.empty()) {                          33   while(!a_vec.empty()) {
 34     it_t it = a_vec.end();                         34     it_t it = a_vec.end();
 35     it--;                                          35     it--;
 36     T* entry  = *it;                               36     T* entry  = *it;
 37     a_vec.erase(it);                               37     a_vec.erase(it);
 38     delete entry;                                  38     delete entry;
 39   }                                                39   }
 40 }                                                  40 }
 41                                                    41 
 42 #ifdef TOOLS_DEPRECATED                            42 #ifdef TOOLS_DEPRECATED
 43 template <class T> inline void clear(std::vect     43 template <class T> inline void clear(std::vector<T*>& a_vec){safe_clear<T>(a_vec);}
 44 #endif                                             44 #endif
 45                                                    45 
 46 template <class T>                                 46 template <class T>
 47 inline void raw_clear(std::vector<T*>& a_vec){     47 inline void raw_clear(std::vector<T*>& a_vec){
 48   typedef typename std::vector<T*>::iterator i     48   typedef typename std::vector<T*>::iterator it_t;
 49   for(it_t it = a_vec.begin();it!=a_vec.end();     49   for(it_t it = a_vec.begin();it!=a_vec.end();++it) delete *it;
 50   a_vec.clear();                                   50   a_vec.clear();
 51 }                                                  51 }
 52                                                    52 
 53 template <class T>                                 53 template <class T>
 54 inline void copy(std::vector<T*>& a_to,const s     54 inline void copy(std::vector<T*>& a_to,const std::vector<T*>& a_from){
 55   raw_clear<T>(a_to);                              55   raw_clear<T>(a_to);
 56   typedef typename std::vector<T*>::const_iter     56   typedef typename std::vector<T*>::const_iterator it_t;
 57   for(it_t it = a_from.begin();it!=a_from.end(     57   for(it_t it = a_from.begin();it!=a_from.end();++it) {
 58     a_to.push_back((*it)->copy());                 58     a_to.push_back((*it)->copy());
 59   }                                                59   }
 60 }                                                  60 }
 61                                                    61 
 62 template <class T>                                 62 template <class T>
 63 inline void vcopy(std::vector<T*>& a_to,const      63 inline void vcopy(std::vector<T*>& a_to,const std::vector<T*>& a_from) {return copy<T>(a_to,a_from);}
 64                                                    64 
 65 template <class T>                                 65 template <class T>
 66 inline void append(std::vector<T>& a_vec,const     66 inline void append(std::vector<T>& a_vec,const std::vector<T>& a_from) {
 67   typedef typename std::vector<T>::size_type s     67   typedef typename std::vector<T>::size_type sz_t;
 68   sz_t number = a_from.size();                     68   sz_t number = a_from.size();
 69   sz_t offset = a_vec.size();                      69   sz_t offset = a_vec.size();
 70   a_vec.resize(offset+number);                     70   a_vec.resize(offset+number);
 71   for(sz_t index=0;index<number;index++,offset     71   for(sz_t index=0;index<number;index++,offset++) {
 72     a_vec[offset] = a_from[index];                 72     a_vec[offset] = a_from[index];
 73   }                                                73   }
 74 }                                                  74 }
 75                                                    75 
 76 template <class T>                                 76 template <class T>
 77 inline void append(std::vector<T>& a_vec,typen     77 inline void append(std::vector<T>& a_vec,typename std::vector<T>::size_type a_num,const T* a_from) {
 78   typedef typename std::vector<T>::size_type s     78   typedef typename std::vector<T>::size_type sz_t;
 79   sz_t vsize = a_vec.size();                       79   sz_t vsize = a_vec.size();
 80   a_vec.resize(vsize+a_num);                       80   a_vec.resize(vsize+a_num);
 81   sz_t offset = vsize;                             81   sz_t offset = vsize;
 82   for(sz_t index=0;index<a_num;index++,offset+     82   for(sz_t index=0;index<a_num;index++,offset++) {
 83     a_vec[offset] = a_from[index];                 83     a_vec[offset] = a_from[index];
 84   }                                                84   }
 85 }                                                  85 }
 86                                                    86 
 87 template <class T>                                 87 template <class T>
 88 inline void removep(std::vector<T*>& a_vec,con     88 inline void removep(std::vector<T*>& a_vec,const T* a_elem) {
 89   typedef typename std::vector<T*>::iterator i     89   typedef typename std::vector<T*>::iterator it_t;
 90   for(it_t it=a_vec.begin();it!=a_vec.end();)      90   for(it_t it=a_vec.begin();it!=a_vec.end();) {
 91     if(*it==a_elem) {                              91     if(*it==a_elem) {
 92       it = a_vec.erase(it);                        92       it = a_vec.erase(it);
 93     } else {                                       93     } else {
 94       ++it;                                        94       ++it;
 95     }                                              95     }
 96   }                                                96   }
 97 }                                                  97 }
 98                                                    98 
 99 template <class T>                                 99 template <class T>
100 inline bool is_inp(const std::vector<T*>& a_ve    100 inline bool is_inp(const std::vector<T*>& a_vec,const T* a_item){
101   typedef typename std::vector<T*>::const_iter    101   typedef typename std::vector<T*>::const_iterator it_t;
102   for(it_t it=a_vec.begin();it!=a_vec.end();++    102   for(it_t it=a_vec.begin();it!=a_vec.end();++it) {
103     if(*it==a_item) return true;                  103     if(*it==a_item) return true;
104   }                                               104   }
105   return false;                                   105   return false;
106 }                                                 106 }
107                                                   107 
108 //////////////////////////////////////////////    108 ////////////////////////////////////////////////////////////////////////////
109 /// T : //////////////////////////////////////    109 /// T : ////////////////////////////////////////////////////////////////////
110 //////////////////////////////////////////////    110 ////////////////////////////////////////////////////////////////////////////
111 template <class T>                                111 template <class T>
112 inline void push_back_unique(std::vector<T>& a    112 inline void push_back_unique(std::vector<T>& a_vec,const T& a_v) {
113   typedef typename std::vector<T>::const_itera    113   typedef typename std::vector<T>::const_iterator it_t;
114   for(it_t it=a_vec.begin();it!=a_vec.end();++    114   for(it_t it=a_vec.begin();it!=a_vec.end();++it) {if(*it==a_v) return;}
115   a_vec.push_back(a_v);                           115   a_vec.push_back(a_v);
116 }                                                 116 }
117                                                   117 
118 template <class T>                                118 template <class T>
119 inline bool remove(std::vector<T>& a_vals,cons    119 inline bool remove(std::vector<T>& a_vals,const T& a_elem){
120   bool found_some = false;                        120   bool found_some = false;
121   //std::vector<T>::iterator it;                  121   //std::vector<T>::iterator it;
122   //for(it=a_vals.begin();it!=a_vals.end();) {    122   //for(it=a_vals.begin();it!=a_vals.end();) {
123   //  if(*it==a_elem) {                           123   //  if(*it==a_elem) {
124   //    it = a_vals.erase(it);                    124   //    it = a_vals.erase(it);
125   //    found_some = true;                        125   //    found_some = true;
126   //  } else {                                    126   //  } else {
127   //    ++it;                                     127   //    ++it;
128   //  }                                           128   //  }
129   //}                                             129   //}
130   //TOOLS_STL : brut force avoiding erase() :     130   //TOOLS_STL : brut force avoiding erase() :
131   std::vector<T> vs;                              131   std::vector<T> vs;
132   typedef typename std::vector<T>::iterator it    132   typedef typename std::vector<T>::iterator it_t;
133   for(it_t it=a_vals.begin();it!=a_vals.end();    133   for(it_t it=a_vals.begin();it!=a_vals.end();++it) {
134     if(*it==a_elem) {                             134     if(*it==a_elem) {
135       found_some = true;                          135       found_some = true;
136     } else {                                      136     } else {
137       vs.push_back(*it);                          137       vs.push_back(*it);
138     }                                             138     }
139   }                                               139   }
140   a_vals = vs;                                    140   a_vals = vs;
141   return found_some;                              141   return found_some;
142 }                                                 142 }
143                                                   143 
144 template <class T>                                144 template <class T>
145 inline void vfilter(std::vector<T>& a_vals,boo    145 inline void vfilter(std::vector<T>& a_vals,bool(*a_filter_func)(const T& a_elem)){
146   std::vector<T> vs;                              146   std::vector<T> vs;
147   typedef typename std::vector<T>::iterator it    147   typedef typename std::vector<T>::iterator it_t;
148   for(it_t it=a_vals.begin();it!=a_vals.end();    148   for(it_t it=a_vals.begin();it!=a_vals.end();++it) {
149     if(a_filter_func(*it)) vs.push_back(*it);     149     if(a_filter_func(*it)) vs.push_back(*it);
150   }                                               150   }
151   a_vals = vs;                                    151   a_vals = vs;
152 }                                                 152 }
153                                                   153 
154 template <class T>                                154 template <class T>
155 inline void unique(std::vector<T>& a_vec) {       155 inline void unique(std::vector<T>& a_vec) {
156   typedef typename std::vector<T>::iterator it    156   typedef typename std::vector<T>::iterator it_t;
157   it_t it,it2;                                    157   it_t it,it2;
158   for(it=a_vec.begin();it!=a_vec.end();++it) {    158   for(it=a_vec.begin();it!=a_vec.end();++it) {
159     it2 = it;it2++; //TOOLS_STL : it2=it+1 doe    159     it2 = it;it2++; //TOOLS_STL : it2=it+1 does not compile.
160     for(;it2!=a_vec.end();) {                     160     for(;it2!=a_vec.end();) {
161       if((*it2)==(*it)) {                         161       if((*it2)==(*it)) {
162         it2 = a_vec.erase(it2);                   162         it2 = a_vec.erase(it2);
163       } else {                                    163       } else {
164         ++it2;                                    164         ++it2;
165       }                                           165       }
166     }                                             166     }
167   }                                               167   }
168 }                                                 168 }
169                                                   169 
170 template <class T>                                170 template <class T>
171 inline bool is_in(const std::vector<T>& a_vec,    171 inline bool is_in(const std::vector<T>& a_vec,const T& a_item){
172   typedef typename std::vector<T>::const_itera    172   typedef typename std::vector<T>::const_iterator it_t;
173   it_t it;                                        173   it_t it;
174   for(it=a_vec.begin();it!=a_vec.end();++it) {    174   for(it=a_vec.begin();it!=a_vec.end();++it) {
175     if(*it==a_item) return true;                  175     if(*it==a_item) return true;
176   }                                               176   }
177   return false;                                   177   return false;
178 }                                                 178 }
179                                                   179 
180 template <class T>                                180 template <class T>
181 inline bool item_index(const std::vector<T>& a    181 inline bool item_index(const std::vector<T>& a_vec,const T& a_item,unsigned int& a_index){
182   a_index = 0;                                    182   a_index = 0;
183   typedef typename std::vector<T>::const_itera    183   typedef typename std::vector<T>::const_iterator it_t;
184   it_t it;                                        184   it_t it;
185   for(it=a_vec.begin();it!=a_vec.end();++it,a_    185   for(it=a_vec.begin();it!=a_vec.end();++it,a_index++) {
186     if(*it==a_item) return true;                  186     if(*it==a_item) return true;
187   }                                               187   }
188   a_index = 0;                                    188   a_index = 0;
189   return false;                                   189   return false;
190 }                                                 190 }
191                                                   191 
192 template <class T>                                192 template <class T>
193 inline bool belong(const std::vector<T>& a_vec    193 inline bool belong(const std::vector<T>& a_vec,const T& a_item){
194   typedef typename std::vector<T>::const_itera    194   typedef typename std::vector<T>::const_iterator it_t;
195   it_t it;                                        195   it_t it;
196   for(it=a_vec.begin();it!=a_vec.end();++it) {    196   for(it=a_vec.begin();it!=a_vec.end();++it) {
197     if(*it==a_item) return true;                  197     if(*it==a_item) return true;
198   }                                               198   }
199   return false;                                   199   return false;
200 }                                                 200 }
201                                                   201 
202 template <class T>                                202 template <class T>
203 inline bool minimum(const std::vector<T>& a_ve    203 inline bool minimum(const std::vector<T>& a_vec,T& a_value) {
204   if(a_vec.empty()) {a_value = T();return fals    204   if(a_vec.empty()) {a_value = T();return false;}
205   a_value = a_vec[0];                             205   a_value = a_vec[0];
206   typedef typename std::vector<T>::const_itera    206   typedef typename std::vector<T>::const_iterator it_t;
207   for(it_t it = a_vec.begin();it!=a_vec.end();    207   for(it_t it = a_vec.begin();it!=a_vec.end();++it) {
208     a_value = (a_value<(*it)?a_value:(*it));      208     a_value = (a_value<(*it)?a_value:(*it));
209   }                                               209   }
210   return true;                                    210   return true;
211 }                                                 211 }
212                                                   212 
213 template <class T>                                213 template <class T>
214 inline bool maximum(const std::vector<T>& a_ve    214 inline bool maximum(const std::vector<T>& a_vec,T& a_value) {
215   if(a_vec.empty()) {a_value = T();return fals    215   if(a_vec.empty()) {a_value = T();return false;}
216   a_value = a_vec[0];                             216   a_value = a_vec[0];
217   typedef typename std::vector<T>::const_itera    217   typedef typename std::vector<T>::const_iterator it_t;
218   for(it_t it = a_vec.begin();it!=a_vec.end();    218   for(it_t it = a_vec.begin();it!=a_vec.end();++it) {
219     a_value = (a_value>(*it)?a_value:(*it));      219     a_value = (a_value>(*it)?a_value:(*it));
220   }                                               220   }
221   return true;                                    221   return true;
222 }                                                 222 }
223                                                   223 
224 template <class T>                                224 template <class T>
225 inline T sum(const std::vector<T>& a_vec) {       225 inline T sum(const std::vector<T>& a_vec) {
226   T sum = T();                                    226   T sum = T();
227   typedef typename std::vector<T>::const_itera    227   typedef typename std::vector<T>::const_iterator it_t;
228   for(it_t it = a_vec.begin();it!=a_vec.end();    228   for(it_t it = a_vec.begin();it!=a_vec.end();++it) sum += *it;
229   return sum;                                     229   return sum;
230 }                                                 230 }
231                                                   231 
232 template <class T>                                232 template <class T>
233 inline void filter(std::vector<T>& a_vec,unsig    233 inline void filter(std::vector<T>& a_vec,unsigned int a_min,unsigned int a_max){
234   unsigned int imx = a_vec.size()-1;              234   unsigned int imx = a_vec.size()-1;
235   unsigned int mx = a_max<imx?a_max:imx;          235   unsigned int mx = a_max<imx?a_max:imx;
236   unsigned int i = 0;                             236   unsigned int i = 0;
237   for(unsigned int index=a_min;index<=mx;index    237   for(unsigned int index=a_min;index<=mx;index++) {
238     a_vec[i] = a_vec[index];i++;                  238     a_vec[i] = a_vec[index];i++;
239   }                                               239   }
240   a_vec.resize(i);                                240   a_vec.resize(i);
241 }                                                 241 }
242                                                   242 
243 template <class T>                                243 template <class T>
244 inline void steps(std::vector<T>& a_vec,unsign    244 inline void steps(std::vector<T>& a_vec,unsigned int a_number){
245   a_vec.resize(a_number);                         245   a_vec.resize(a_number);
246   for(unsigned int index=0;index<a_number;inde    246   for(unsigned int index=0;index<a_number;index++) a_vec[index] = T(index);
247 }                                                 247 }
248                                                   248 
249 template <class T>                                249 template <class T>
250 inline bool add(std::vector<T>& a_vec,const st    250 inline bool add(std::vector<T>& a_vec,const std::vector<T>& a_v){
251   if(a_vec.size()!=a_v.size()) return false;      251   if(a_vec.size()!=a_v.size()) return false;
252   typedef typename std::vector<T>::iterator it    252   typedef typename std::vector<T>::iterator it_t;
253   typedef typename std::vector<T>::const_itera    253   typedef typename std::vector<T>::const_iterator cit_t;
254   it_t it = a_vec.begin();                        254   it_t it = a_vec.begin();
255   cit_t vit = a_v.begin();                        255   cit_t vit = a_v.begin();
256   for(;it!=a_vec.end();++it,++vit) *it += *vit    256   for(;it!=a_vec.end();++it,++vit) *it += *vit;
257   return true;                                    257   return true;
258 }                                                 258 }
259                                                   259 
260 template <class T>                                260 template <class T>
261 inline bool vequ(const std::vector<T>& a_vec,c    261 inline bool vequ(const std::vector<T>& a_vec,const std::vector<T>& a_v){
262   if(a_vec.size()!=a_v.size()) return false;      262   if(a_vec.size()!=a_v.size()) return false;
263   typedef typename std::vector<T>::const_itera    263   typedef typename std::vector<T>::const_iterator it_t;
264   typedef typename std::vector<T>::const_itera    264   typedef typename std::vector<T>::const_iterator cit_t;
265   it_t it = a_vec.begin();                        265   it_t it = a_vec.begin();
266   cit_t vit = a_v.begin();                        266   cit_t vit = a_v.begin();
267   //size_t count = 0;                             267   //size_t count = 0;
268   for(;it!=a_vec.end();++it,++vit                 268   for(;it!=a_vec.end();++it,++vit
269   //  ,count++                                    269   //  ,count++
270   ) {                                             270   ) {
271     if((*it)!=(*vit))                             271     if((*it)!=(*vit))
272     //{::printf("debug : %lu : %d %d\n",count,    272     //{::printf("debug : %lu : %d %d\n",count,(*it),(*vit));
273       return false;                               273       return false;
274     //}                                           274     //}
275   }                                               275   }
276   return true;                                    276   return true;
277 }                                                 277 }
278                                                   278 
279 template <class T>                                279 template <class T>
280 inline bool vadd(std::vector<T>& a_vec,const s    280 inline bool vadd(std::vector<T>& a_vec,const std::vector<T>& a_v) {return add<T>(a_vec,a_v);}
281                                                   281 
282 template <class T>                                282 template <class T>
283 inline bool sub(std::vector<T>& a_vec,const st    283 inline bool sub(std::vector<T>& a_vec,const std::vector<T>& a_v){
284   if(a_vec.size()!=a_v.size()) return false;      284   if(a_vec.size()!=a_v.size()) return false;
285   typedef typename std::vector<T>::iterator it    285   typedef typename std::vector<T>::iterator it_t;
286   typedef typename std::vector<T>::const_itera    286   typedef typename std::vector<T>::const_iterator cit_t;
287   it_t it = a_vec.begin();                        287   it_t it = a_vec.begin();
288   cit_t vit = a_v.begin();                        288   cit_t vit = a_v.begin();
289   for(;it!=a_vec.end();++it,++vit) *it -= *vit    289   for(;it!=a_vec.end();++it,++vit) *it -= *vit;
290   return true;                                    290   return true;
291 }                                                 291 }
292                                                   292 
293 template <class T>                                293 template <class T>
294 inline bool div(std::vector<T>& a_vec,const st    294 inline bool div(std::vector<T>& a_vec,const std::vector<T>& a_v){
295   if(a_vec.size()!=a_v.size()) return false;      295   if(a_vec.size()!=a_v.size()) return false;
296   typedef typename std::vector<T>::iterator it    296   typedef typename std::vector<T>::iterator it_t;
297   typedef typename std::vector<T>::const_itera    297   typedef typename std::vector<T>::const_iterator cit_t;
298   it_t it = a_vec.begin();                        298   it_t it = a_vec.begin();
299   cit_t vit = a_v.begin();                        299   cit_t vit = a_v.begin();
300   bool errors = false;                            300   bool errors = false;
301   for(;it!=a_vec.end();++it,++vit) {              301   for(;it!=a_vec.end();++it,++vit) {
302     if(*vit==T()) {                               302     if(*vit==T()) {
303       errors = true;                              303       errors = true;
304     } else {                                      304     } else {
305       *it /= *vit;                                305       *it /= *vit;
306     }                                             306     }
307   }                                               307   }
308   return errors;                                  308   return errors;
309 }                                                 309 }
310                                                   310 
311 template <class T>                                311 template <class T>
312 inline void add(std::vector<T>& a_vec,const T&    312 inline void add(std::vector<T>& a_vec,const T& a_v){
313   typedef typename std::vector<T>::iterator it    313   typedef typename std::vector<T>::iterator it_t;
314   for(it_t it=a_vec.begin();it!=a_vec.end();++    314   for(it_t it=a_vec.begin();it!=a_vec.end();++it) *it += a_v;
315 }                                                 315 }
316                                                   316 
317 template <class T>                                317 template <class T>
318 inline void sub(std::vector<T>& a_vec,const T&    318 inline void sub(std::vector<T>& a_vec,const T& a_v){
319   typedef typename std::vector<T>::iterator it    319   typedef typename std::vector<T>::iterator it_t;
320   for(it_t it=a_vec.begin();it!=a_vec.end();++    320   for(it_t it=a_vec.begin();it!=a_vec.end();++it) *it -= a_v;
321 }                                                 321 }
322                                                   322 
323 template <class T>                                323 template <class T>
324 inline void mul(std::vector<T>& a_vec,const T&    324 inline void mul(std::vector<T>& a_vec,const T& a_v){
325   typedef typename std::vector<T>::iterator it    325   typedef typename std::vector<T>::iterator it_t;
326   for(it_t it=a_vec.begin();it!=a_vec.end();++    326   for(it_t it=a_vec.begin();it!=a_vec.end();++it) *it *= a_v;
327 }                                                 327 }
328 template <class T>                                328 template <class T>
329 inline bool vmul(std::vector<T>& a_vec,const s    329 inline bool vmul(std::vector<T>& a_vec,const std::vector<T>& a_v) {return vmul<T>(a_vec,a_v);}
330                                                   330 
331 template <class T>                                331 template <class T>
332 inline void div(std::vector<T>& a_vec,const T&    332 inline void div(std::vector<T>& a_vec,const T& a_v){
333   typedef typename std::vector<T>::iterator it    333   typedef typename std::vector<T>::iterator it_t;
334   for(it_t it=a_vec.begin();it!=a_vec.end();++    334   for(it_t it=a_vec.begin();it!=a_vec.end();++it) *it /= a_v;
335 }                                                 335 }
336                                                   336 
337 /*                                                337 /*
338 template <class FROM,class TO>                    338 template <class FROM,class TO>
339 inline std::vector<TO> convert(const std::vect    339 inline std::vector<TO> convert(const std::vector<FROM>& a_from){
340   typedef typename std::vector<FROM>::const_it    340   typedef typename std::vector<FROM>::const_iterator const_it_t;
341   typedef typename std::vector<TO>::iterator i    341   typedef typename std::vector<TO>::iterator it_t;
342   std::vector<TO> to(a_from.size());              342   std::vector<TO> to(a_from.size());
343   const_it_t ait = a_from.begin();                343   const_it_t ait = a_from.begin();
344   it_t toit = to.begin();                         344   it_t toit = to.begin();
345   for(;ait!=a_from.end();++ait,++toit) {*toit     345   for(;ait!=a_from.end();++ait,++toit) {*toit = (TO)*ait;}
346   return to;                                      346   return to;
347 }                                                 347 }
348 */                                                348 */
349 template <class FROM,class TO>                    349 template <class FROM,class TO>
350 inline void convert(const std::vector<FROM>& a    350 inline void convert(const std::vector<FROM>& a_from,std::vector<TO>& a_to) {
351   typedef typename std::vector<FROM>::const_it    351   typedef typename std::vector<FROM>::const_iterator const_it_t;
352   typedef typename std::vector<TO>::iterator i    352   typedef typename std::vector<TO>::iterator it_t;
353   a_to.resize(a_from.size());                     353   a_to.resize(a_from.size());
354   const_it_t ait = a_from.begin();                354   const_it_t ait = a_from.begin();
355   it_t toit = a_to.begin();                       355   it_t toit = a_to.begin();
356   for(;ait!=a_from.end();++ait,++toit) {*toit     356   for(;ait!=a_from.end();++ait,++toit) {*toit = (TO)*ait;}
357 }                                                 357 }
358                                                   358 
359 template <class T>                                359 template <class T>
360 inline bool min_max(const std::vector<T>& a_ve    360 inline bool min_max(const std::vector<T>& a_vec,T& a_min,T& a_max) {
361   if(a_vec.empty()) {a_min=T();a_max=T();retur    361   if(a_vec.empty()) {a_min=T();a_max=T();return false;}
362   a_min = *(a_vec.begin());                       362   a_min = *(a_vec.begin());
363   a_max = a_min;                                  363   a_max = a_min;
364   typedef typename std::vector<T>::const_itera    364   typedef typename std::vector<T>::const_iterator it_t;
365   for(it_t it = a_vec.begin();it!=a_vec.end();    365   for(it_t it = a_vec.begin();it!=a_vec.end();++it) {
366     a_min = *it<a_min?*it:a_min;                  366     a_min = *it<a_min?*it:a_min;
367     a_max = *it>a_max?*it:a_max;                  367     a_max = *it>a_max?*it:a_max;
368   }                                               368   }
369   return true;                                    369   return true;
370 }                                                 370 }
371                                                   371 
372 //////////////////////////////////////////////    372 ///////////////////////////////////////////////////////////////////////////////////////////////////////////////
373 /// T(*a_fabs)(T) : //////////////////////////    373 /// T(*a_fabs)(T) : ///////////////////////////////////////////////////////////////////////////////////////////
374 //////////////////////////////////////////////    374 ///////////////////////////////////////////////////////////////////////////////////////////////////////////////
375 template <class T>                                375 template <class T>
376 inline bool mean_rms(const std::vector<T>& a_v    376 inline bool mean_rms(const std::vector<T>& a_vec,T& a_mean,T& a_rms,T(*a_sqrt)(T),T(*a_fabs)(T)) {
377   if(a_vec.empty()) {a_mean=T();a_rms=T();retu    377   if(a_vec.empty()) {a_mean=T();a_rms=T();return false;}
378   T S = T();                                      378   T S = T();
379   T S2 = T();                                     379   T S2 = T();
380   typedef typename std::vector<T>::const_itera    380   typedef typename std::vector<T>::const_iterator it_t;
381   for(it_t it = a_vec.begin();it!=a_vec.end();    381   for(it_t it = a_vec.begin();it!=a_vec.end();++it) {
382     S += *it;                                     382     S += *it;
383     S2 += (*it) * (*it);                          383     S2 += (*it) * (*it);
384   }                                               384   }
385   a_mean = S/T(a_vec.size());                     385   a_mean = S/T(a_vec.size());
386   a_rms = a_sqrt(a_fabs(S2/T(a_vec.size()) - a    386   a_rms = a_sqrt(a_fabs(S2/T(a_vec.size()) - a_mean * a_mean));
387   return true;                                    387   return true;
388 }                                                 388 }
389                                                   389 
390 template <class T>                                390 template <class T>
391 inline bool min_max_mean_rms(const std::vector    391 inline bool min_max_mean_rms(const std::vector<T>& a_vec,T& a_min,T& a_max,T& a_mean,T& a_rms,
392                              T(*a_sqrt)(T),T(*    392                              T(*a_sqrt)(T),T(*a_fabs)(T)) {
393   if(a_vec.empty()) {a_min=T();a_max=T();a_mea    393   if(a_vec.empty()) {a_min=T();a_max=T();a_mean=T();a_rms=T();return false;}
394   a_min = *(a_vec.begin());                       394   a_min = *(a_vec.begin());
395   a_max = a_min;                                  395   a_max = a_min;
396   T S = T();                                      396   T S = T();
397   T S2 = T();                                     397   T S2 = T();
398   typedef typename std::vector<T>::const_itera    398   typedef typename std::vector<T>::const_iterator it_t;
399   for(it_t it = a_vec.begin();it!=a_vec.end();    399   for(it_t it = a_vec.begin();it!=a_vec.end();++it) {
400     a_min = *it<a_min?*it:a_min;                  400     a_min = *it<a_min?*it:a_min;
401     a_max = *it>a_max?*it:a_max;                  401     a_max = *it>a_max?*it:a_max;
402     S += *it;                                     402     S += *it;
403     S2 += (*it) * (*it);                          403     S2 += (*it) * (*it);
404   }                                               404   }
405   a_mean = S/T(a_vec.size());                     405   a_mean = S/T(a_vec.size());
406   a_rms = a_sqrt(a_fabs(S2/T(a_vec.size()) - a    406   a_rms = a_sqrt(a_fabs(S2/T(a_vec.size()) - a_mean * a_mean));
407   return true;                                    407   return true;
408 }                                                 408 }
409                                                   409 
410 //////////////////////////////////////////////    410 ///////////////////////////////////////////////////////////////////////////////////////////////////////////////
411 /// T(*a_fabs)(const T&) : ///////////////////    411 /// T(*a_fabs)(const T&) : ///////////////////////////////////////////////////////////////////////////////////////////
412 //////////////////////////////////////////////    412 ///////////////////////////////////////////////////////////////////////////////////////////////////////////////
413 template <class T>                                413 template <class T>
414 inline bool mean_rms(const std::vector<T>& a_v    414 inline bool mean_rms(const std::vector<T>& a_vec,T& a_mean,T& a_rms,T(*a_sqrt)(const T&),T(*a_fabs)(const T&)) {
415   if(a_vec.empty()) {a_mean=T();a_rms=T();retu    415   if(a_vec.empty()) {a_mean=T();a_rms=T();return false;}
416   T S = T();                                      416   T S = T();
417   T S2 = T();                                     417   T S2 = T();
418   typedef typename std::vector<T>::const_itera    418   typedef typename std::vector<T>::const_iterator it_t;
419   for(it_t it = a_vec.begin();it!=a_vec.end();    419   for(it_t it = a_vec.begin();it!=a_vec.end();++it) {
420     S += *it;                                     420     S += *it;
421     S2 += (*it) * (*it);                          421     S2 += (*it) * (*it);
422   }                                               422   }
423   a_mean = S/T(a_vec.size());                     423   a_mean = S/T(a_vec.size());
424   a_rms = a_sqrt(a_fabs(S2/T(a_vec.size()) - a    424   a_rms = a_sqrt(a_fabs(S2/T(a_vec.size()) - a_mean * a_mean));
425   return true;                                    425   return true;
426 }                                                 426 }
427                                                   427 
428 template <class T>                                428 template <class T>
429 inline bool min_max_mean_rms(const std::vector    429 inline bool min_max_mean_rms(const std::vector<T>& a_vec,T& a_min,T& a_max,T& a_mean,T& a_rms,
430                              T(*a_sqrt)(const     430                              T(*a_sqrt)(const T&),T(*a_fabs)(const T&)) {
431   if(a_vec.empty()) {a_min=T();a_max=T();a_mea    431   if(a_vec.empty()) {a_min=T();a_max=T();a_mean=T();a_rms=T();return false;}
432   a_min = *(a_vec.begin());                       432   a_min = *(a_vec.begin());
433   a_max = a_min;                                  433   a_max = a_min;
434   T S = T();                                      434   T S = T();
435   T S2 = T();                                     435   T S2 = T();
436   typedef typename std::vector<T>::const_itera    436   typedef typename std::vector<T>::const_iterator it_t;
437   for(it_t it = a_vec.begin();it!=a_vec.end();    437   for(it_t it = a_vec.begin();it!=a_vec.end();++it) {
438     a_min = *it<a_min?*it:a_min;                  438     a_min = *it<a_min?*it:a_min;
439     a_max = *it>a_max?*it:a_max;                  439     a_max = *it>a_max?*it:a_max;
440     S += *it;                                     440     S += *it;
441     S2 += (*it) * (*it);                          441     S2 += (*it) * (*it);
442   }                                               442   }
443   a_mean = S/T(a_vec.size());                     443   a_mean = S/T(a_vec.size());
444   a_rms = a_sqrt(a_fabs(S2/T(a_vec.size()) - a    444   a_rms = a_sqrt(a_fabs(S2/T(a_vec.size()) - a_mean * a_mean));
445   return true;                                    445   return true;
446 }                                                 446 }
447                                                   447 
448 }                                                 448 }
449                                                   449 
450 //////////////////////////////////////////////    450 ///////////////////////////////////////////////////////////
451 /// manipulations that induces other includes     451 /// manipulations that induces other includes : ///////////
452 //////////////////////////////////////////////    452 ///////////////////////////////////////////////////////////
453 #include <ostream>                                453 #include <ostream>
454                                                   454 
455 namespace tools {                                 455 namespace tools {
456                                                   456 
457 //NOTE : print is a Python keyword.               457 //NOTE : print is a Python keyword.
458 template <class T>                                458 template <class T>
459 inline void dump(const std::vector<T>& a_vec,s    459 inline void dump(const std::vector<T>& a_vec,std::ostream& a_out){
460   typedef typename std::vector<T>::const_itera    460   typedef typename std::vector<T>::const_iterator it_t;
461   it_t it;                                        461   it_t it;
462   for(it=a_vec.begin();it!=a_vec.end();++it) {    462   for(it=a_vec.begin();it!=a_vec.end();++it) {
463     a_out << *it << std::endl;                    463     a_out << *it << std::endl;
464   }                                               464   }
465 }                                                 465 }
466                                                   466 
467 }                                                 467 }
468                                                   468 
469 #endif                                            469 #endif