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Geant4/externals/g4tools/include/tools/lina/vec4

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Differences between /externals/g4tools/include/tools/lina/vec4 (Version 11.3.0) and /externals/g4tools/include/tools/lina/vec4 (Version 6.2.p2)


  1 // Copyright (C) 2010, Guy Barrand. All rights    
  2 // See the file tools.license for terms.          
  3                                                   
  4 #ifndef tools_vec4                                
  5 #define tools_vec4                                
  6                                                   
  7 #include <cstddef> //size_t                       
  8                                                   
  9 #ifdef TOOLS_MEM                                  
 10 #include "../mem"                                 
 11 #endif                                            
 12                                                   
 13 namespace tools {                                 
 14                                                   
 15 template <class T>                                
 16 class vec4 {                                      
 17 #ifdef TOOLS_MEM                                  
 18 public:                                           
 19   static const std::string& s_class() {           
 20     static const std::string s_v("tools::vec4"    
 21     return s_v;                                   
 22   }                                               
 23 #endif                                            
 24 protected:                                        
 25   static T zero() {return T();}                   
 26   static T minus_one() {return T(-1);}            
 27 public:                                           
 28   typedef T elem_t;                               
 29   unsigned int dimension() const {return 4;}      
 30 public:                                           
 31   vec4(){                                         
 32 #ifdef TOOLS_MEM                                  
 33     mem::increment(s_class().c_str());            
 34 #endif                                            
 35     m_data[0] = T();                              
 36     m_data[1] = T();                              
 37     m_data[2] = T();                              
 38     m_data[3] = T();                              
 39   }                                               
 40   vec4(const T a_vec[4]) {                        
 41 #ifdef TOOLS_MEM                                  
 42     mem::increment(s_class().c_str());            
 43 #endif                                            
 44     m_data[0] = a_vec[0];                         
 45     m_data[1] = a_vec[1];                         
 46     m_data[2] = a_vec[2];                         
 47     m_data[3] = a_vec[3];                         
 48   }                                               
 49   vec4(const T& a0,const T& a1,const T& a2,con    
 50 #ifdef TOOLS_MEM                                  
 51        ,bool a_inc = true                         
 52 #endif                                            
 53        ) {                                        
 54 #ifdef TOOLS_MEM                                  
 55     if(a_inc) mem::increment(s_class().c_str()    
 56 #endif                                            
 57     m_data[0] = a0;                               
 58     m_data[1] = a1;                               
 59     m_data[2] = a2;                               
 60     m_data[3] = a3;                               
 61   }                                               
 62   virtual ~vec4() {                               
 63 #ifdef TOOLS_MEM                                  
 64     mem::decrement(s_class().c_str());            
 65 #endif                                            
 66   }                                               
 67 public:                                           
 68   vec4(const vec4& a_from){                       
 69 #ifdef TOOLS_MEM                                  
 70     mem::increment(s_class().c_str());            
 71 #endif                                            
 72     m_data[0] = a_from.m_data[0];                 
 73     m_data[1] = a_from.m_data[1];                 
 74     m_data[2] = a_from.m_data[2];                 
 75     m_data[3] = a_from.m_data[3];                 
 76   }                                               
 77   vec4& operator=(const vec4& a_from) {           
 78     m_data[0] = a_from.m_data[0];                 
 79     m_data[1] = a_from.m_data[1];                 
 80     m_data[2] = a_from.m_data[2];                 
 81     m_data[3] = a_from.m_data[3];                 
 82     return *this;                                 
 83   }                                               
 84 public:                                           
 85   const T& v0() const { return m_data[0];}        
 86   const T& v1() const { return m_data[1];}        
 87   const T& v2() const { return m_data[2];}        
 88   const T& v3() const { return m_data[3];}        
 89                                                   
 90   void v0(const T& a_value) { m_data[0] = a_va    
 91   void v1(const T& a_value) { m_data[1] = a_va    
 92   void v2(const T& a_value) { m_data[2] = a_va    
 93   void v3(const T& a_value) { m_data[3] = a_va    
 94                                                   
 95   const T& x() const { return m_data[0];}         
 96   const T& y() const { return m_data[1];}         
 97   const T& z() const { return m_data[2];}         
 98   const T& t() const { return m_data[3];}         
 99                                                   
100   void set_value(const T& a0,const T& a1,const    
101     m_data[0] = a0;                               
102     m_data[1] = a1;                               
103     m_data[2] = a2;                               
104     m_data[3] = a3;                               
105   }                                               
106   void set_value(const T aV[4]) {                 
107     m_data[0] = aV[0];                            
108     m_data[1] = aV[1];                            
109     m_data[2] = aV[2];                            
110     m_data[3] = aV[3];                            
111   }                                               
112   void value(T& a0,T& a1,T& a2,T& a3) const {     
113     a0 = m_data[0];                               
114     a1 = m_data[1];                               
115     a2 = m_data[2];                               
116     a3 = m_data[3];                               
117   }                                               
118                                                   
119   bool set_value(unsigned int a_index,const T&    
120     if(a_index>=4) return false;                  
121     m_data[a_index] = a_value;                    
122     return true;                                  
123   }                                               
124                                                   
125   T length(T(*a_sqrt)(T)) const {                 
126     return a_sqrt(m_data[0]*m_data[0]+m_data[1    
127   }                                               
128                                                   
129   T normalize(T(*a_sqrt)(T)) {                    
130     T norme = length(a_sqrt);                     
131     if(norme==T()) return T();                    
132     divide(norme);                                
133     return norme;                                 
134   }                                               
135                                                   
136   bool equal(const vec4& a_vec) const {           
137     if(m_data[0]!=a_vec.m_data[0]) return fals    
138     if(m_data[1]!=a_vec.m_data[1]) return fals    
139     if(m_data[2]!=a_vec.m_data[2]) return fals    
140     if(m_data[3]!=a_vec.m_data[3]) return fals    
141     return true;                                  
142   }                                               
143   bool equal(const vec4& a_vec,const T& a_epsi    
144     T* tp = (T*)m_data;                           
145     T* ap = (T*)a_vec.m_data;                     
146     for(unsigned int i=0;i<4;i++,tp++,ap++) {     
147       T diff = (*tp) - (*ap);                     
148       if(diff<zero()) diff *= minus_one();        
149       if(diff>=a_epsil) return false;             
150     }                                             
151     return true;                                  
152   }                                               
153                                                   
154   bool is_proportional(const vec4& a_vec,T& a_    
155     // If true, then : a_vec = a_factor * this    
156     a_factor = zero();                            
157     bool first = true;                            
158     T* tp = (T*)m_data;                           
159     T* ap = (T*)a_vec.m_data;                     
160     for(unsigned int i=0;i<4;i++,tp++,ap++) {     
161              if( ((*tp)==zero()) && ((*ap)==ze    
162         continue;                                 
163       } else if( ((*tp)!=zero()) && ((*ap)==ze    
164         return false;                             
165       } else if( ((*tp)==zero()) && ((*ap)!=ze    
166         return false;                             
167       } else {                                    
168         if(first) {                               
169           a_factor = (*ap)/(*tp);                 
170           first = false;                          
171         } else {                                  
172           if((*ap)!=(*tp)*a_factor) return fal    
173         }                                         
174       }                                           
175     }                                             
176     return true;                                  
177   }                                               
178                                                   
179   void multiply(const T& a_T) {                   
180     m_data[0] *= a_T;                             
181     m_data[1] *= a_T;                             
182     m_data[2] *= a_T;                             
183     m_data[3] *= a_T;                             
184   }                                               
185                                                   
186   bool divide(const T& a_T) {                     
187     if(a_T==T()) return false;                    
188     m_data[0] /= a_T;                             
189     m_data[1] /= a_T;                             
190     m_data[2] /= a_T;                             
191     m_data[3] /= a_T;                             
192     return true;                                  
193   }                                               
194                                                   
195   void add(const vec4& a_v) {                     
196     m_data[0] += a_v.m_data[0];                   
197     m_data[1] += a_v.m_data[1];                   
198     m_data[2] += a_v.m_data[2];                   
199     m_data[3] += a_v.m_data[3];                   
200   }                                               
201                                                   
202   void add(const T& a0,const T& a1,const T& a2    
203     m_data[0] += a0;                              
204     m_data[1] += a1;                              
205     m_data[2] += a2;                              
206     m_data[3] += a3;                              
207   }                                               
208                                                   
209   void subtract(const vec4& a_v) {                
210     m_data[0] -= a_v.m_data[0];                   
211     m_data[1] -= a_v.m_data[1];                   
212     m_data[2] -= a_v.m_data[2];                   
213     m_data[3] -= a_v.m_data[3];                   
214   }                                               
215                                                   
216   void subtract(const T& a0,const T& a1,const     
217     m_data[0] -= a0;                              
218     m_data[1] -= a1;                              
219     m_data[2] -= a2;                              
220     m_data[3] -= a3;                              
221   }                                               
222                                                   
223 public: //operators                               
224   T& operator[](size_t a_index) {                 
225     //WARNING : no check on a_index.              
226     return m_data[a_index];                       
227   }                                               
228   const T& operator[](size_t a_index) const {     
229     //WARNING : no check on a_index.              
230     return m_data[a_index];                       
231   }                                               
232                                                   
233   vec4 operator+(const vec4& a_v) const {         
234     return vec4(m_data[0]+a_v.m_data[0],          
235                 m_data[1]+a_v.m_data[1],          
236                 m_data[2]+a_v.m_data[2],          
237                 m_data[3]+a_v.m_data[3]);         
238   }                                               
239                                                   
240   vec4 operator-(const vec4& a_v) const {         
241     return vec4(m_data[0]-a_v.m_data[0],          
242                 m_data[1]-a_v.m_data[1],          
243                 m_data[2]-a_v.m_data[2],          
244                 m_data[3]-a_v.m_data[3]);         
245   }                                               
246                                                   
247   vec4 operator*(const T& a_v) const {            
248     return vec4(m_data[0]*a_v,                    
249                 m_data[1]*a_v,                    
250                 m_data[2]*a_v,                    
251                 m_data[3]*a_v);                   
252   }                                               
253                                                   
254   bool operator==(const vec4& a_v) const {retu    
255   bool operator!=(const vec4& a_v) const {retu    
256                                                   
257 public: //for tools/sg/sf_vec                     
258   typedef unsigned int size_type;                 
259   size_type size() const {return 4;}              
260   const T* data() const {return m_data;}          
261 protected:                                        
262   T m_data[4];                                    
263 private:static void check_instantiation() {vec    
264 };                                                
265                                                   
266 //for sf, mf :                                    
267 template <class T>                                
268 inline const T* get_data(const vec4<T>& a_v) {    
269                                                   
270 }                                                 
271                                                   
272 #include <ostream>                                
273                                                   
274 namespace tools {                                 
275                                                   
276 // for sf_vec::dump().                            
277 template <class T>                                
278 inline std::ostream& operator<<(std::ostream&     
279   a_out << "x = " << a_this.v0()                  
280         << ",y = " << a_this.v1()                 
281         << ",z = " << a_this.v2()                 
282         << ",t = " << a_this.v3();                
283   return a_out;                                   
284 }                                                 
285                                                   
286 }                                                 
287                                                   
288 #endif