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Geant4/externals/g4tools/include/tools/rroot/basket

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Diff markup

Differences between /externals/g4tools/include/tools/rroot/basket (Version 11.3.0) and /externals/g4tools/include/tools/rroot/basket (Version 11.2.2)


  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_rroot_basket                          4 #ifndef tools_rroot_basket
  5 #define tools_rroot_basket                          5 #define tools_rroot_basket
  6                                                     6 
  7 #include "iro"                                      7 #include "iro"
  8 #include "key"                                      8 #include "key"
  9                                                     9 
 10 #include "../scast"                                10 #include "../scast"
 11 #include "buffer"                                  11 #include "buffer"
 12 #include "cids"                                    12 #include "cids"
 13                                                    13 
 14 namespace tools {                                  14 namespace tools {
 15 namespace rroot {                                  15 namespace rroot {
 16                                                    16 
 17 class basket : public virtual iro, public key      17 class basket : public virtual iro, public key {
 18   typedef key parent;                              18   typedef key parent;
 19   static uint32 kDisplacementMask() {return 0x     19   static uint32 kDisplacementMask() {return 0xFF000000;}
 20 public:                                            20 public:
 21   static const std::string& s_class() {            21   static const std::string& s_class() {
 22     static const std::string s_v("tools::rroot     22     static const std::string s_v("tools::rroot::basket");
 23     return s_v;                                    23     return s_v;
 24   }                                                24   }
 25 public: //iro                                      25 public: //iro
 26   virtual void* cast(const std::string& a_clas     26   virtual void* cast(const std::string& a_class) const {
 27     if(void* p = cmp_cast<basket>(this,a_class     27     if(void* p = cmp_cast<basket>(this,a_class)) return p;
 28     return 0;                                      28     return 0;
 29   }                                                29   }
 30   virtual const std::string& s_cls() const {re     30   virtual const std::string& s_cls() const {return s_class();}
 31 public:                                            31 public:
 32   static cid id_class() {return basket_cid();}     32   static cid id_class() {return basket_cid();}
 33   virtual void* cast(cid a_class) const {          33   virtual void* cast(cid a_class) const {
 34     if(void* p = cmp_cast<basket>(this,a_class     34     if(void* p = cmp_cast<basket>(this,a_class)) {return p;}
 35     else return 0;                                 35     else return 0;
 36   }                                                36   }
 37 public:                                            37 public:
 38   virtual iro* copy() const {return new basket     38   virtual iro* copy() const {return new basket(*this);}
 39   virtual bool stream(buffer& a_buffer) {          39   virtual bool stream(buffer& a_buffer) {
 40     _clear();                                      40     _clear();
 41                                                    41 
 42     uint32 startpos = a_buffer.length();           42     uint32 startpos = a_buffer.length();
 43                                                    43 
 44     if(!parent::from_buffer(a_buffer.byte_swap     44     if(!parent::from_buffer(a_buffer.byte_swap(),a_buffer.eob(),a_buffer.pos(),a_buffer.verbose())) return false;
 45                                                    45 
 46     uint32 fBufferSize;                            46     uint32 fBufferSize;
 47                                                    47 
 48     short v;                                       48     short v;
 49     if(!a_buffer.read_version(v)) return false     49     if(!a_buffer.read_version(v)) return false;
 50     if(!a_buffer.read(fBufferSize)) return fal     50     if(!a_buffer.read(fBufferSize)) return false;
 51     if(!a_buffer.read(m_nev_buf_size)) return      51     if(!a_buffer.read(m_nev_buf_size)) return false;
 52     if(!a_buffer.read(m_nev)) return false;        52     if(!a_buffer.read(m_nev)) return false;
 53     if(!a_buffer.read(m_last)) return false;       53     if(!a_buffer.read(m_last)) return false;
 54     char flag;                                     54     char flag;
 55     if(!a_buffer.read(flag)) return false;         55     if(!a_buffer.read(flag)) return false;
 56     if(m_last>fBufferSize) fBufferSize = m_las     56     if(m_last>fBufferSize) fBufferSize = m_last;
 57                                                    57 
 58     uint16 basket_key_length = a_buffer.length     58     uint16 basket_key_length = a_buffer.length()-startpos;
 59     if(basket_key_length!=m_key_length) {          59     if(basket_key_length!=m_key_length) {
 60       //m_out << "tools::rroot::basket::stream     60       //m_out << "tools::rroot::basket::stream :"
 61       //             << " key length not consi     61       //             << " key length not consistent."
 62       //             << " read " << m_key_leng     62       //             << " read " << m_key_length
 63       //             << ", expected " << baske     63       //             << ", expected " << basket_key_length
 64       //             << ". Continue with " <<      64       //             << ". Continue with " << basket_key_length
 65       //             << std::endl;                 65       //             << std::endl;
 66       m_key_length = basket_key_length;            66       m_key_length = basket_key_length;
 67     }                                              67     }
 68     if(!m_object_size) {                           68     if(!m_object_size) {
 69       //m_out << "tools::rroot::basket::stream     69       //m_out << "tools::rroot::basket::stream :"
 70       //             << " m_object_size is fou     70       //             << " m_object_size is found to be zero."
 71       //             << " Continue with (m_nby     71       //             << " Continue with (m_nbytes-m_key_length) "
 72       //             << (m_nbytes-m_key_length     72       //             << (m_nbytes-m_key_length)
 73       //             << std::endl;                 73       //             << std::endl;
 74       m_object_size = m_nbytes-m_key_length;       74       m_object_size = m_nbytes-m_key_length;
 75     }                                              75     }
 76                                                    76 
 77     if(!flag) return true; //fHeaderOnly           77     if(!flag) return true; //fHeaderOnly
 78                                                    78 
 79     //G.Barrand : add the below test.              79     //G.Barrand : add the below test.
 80     if( (flag!=1) &&(flag!=2)  &&                  80     if( (flag!=1) &&(flag!=2)  &&
 81         (flag!=11)&&(flag!=12) &&                  81         (flag!=11)&&(flag!=12) &&
 82         (flag!=41)&&(flag!=42) &&                  82         (flag!=41)&&(flag!=42) &&
 83         (flag!=51)&&(flag!=52) ) {                 83         (flag!=51)&&(flag!=52) ) {
 84       m_out << "tools::rroot::basket::stream :     84       m_out << "tools::rroot::basket::stream :"
 85                    << " bad flag " << (int)fla     85                    << " bad flag " << (int)flag
 86                    << std::endl;                   86                    << std::endl;
 87       return false;                                87       return false;
 88     }                                              88     }
 89                                                    89 
 90     if((flag%10)!=2) {                             90     if((flag%10)!=2) {
 91       //due to the upper "G.Barrand if", flag      91       //due to the upper "G.Barrand if", flag is here in {1,11,41,51}
 92                                                    92 
 93       if(!m_nev_buf_size) {                        93       if(!m_nev_buf_size) {
 94         m_out << "tools::rroot::basket::stream     94         m_out << "tools::rroot::basket::stream :"
 95                      << " m_nev_buf_size is ze     95                      << " m_nev_buf_size is zero." << std::endl;
 96         return false;                              96         return false;
 97       }                                            97       }
 98       if(m_nev>m_nev_buf_size) {                   98       if(m_nev>m_nev_buf_size) {
 99         m_out << "tools::rroot::basket::stream     99         m_out << "tools::rroot::basket::stream :"
100                      << " m_nev>m_nev_buf_size    100                      << " m_nev>m_nev_buf_size !"
101                      << " m_nev " << m_nev        101                      << " m_nev " << m_nev
102                      << " m_nev_buf_size " <<     102                      << " m_nev_buf_size " << m_nev_buf_size
103                      << std::endl;                103                      << std::endl;
104         return false;                             104         return false;
105       }                                           105       }
106       m_entry_offset = new int[m_nev_buf_size]    106       m_entry_offset = new int[m_nev_buf_size];
107       if(m_nev) {                                 107       if(m_nev) {
108         uint32 n;                                 108         uint32 n;
109         if(!a_buffer.read_array<int>(m_nev_buf    109         if(!a_buffer.read_array<int>(m_nev_buf_size,m_entry_offset,n)) {
110           _clear();                               110           _clear();
111           return false;                           111           return false;
112         }                                         112         }
113         if((n!=m_nev)&&(n!=(m_nev+1))) {          113         if((n!=m_nev)&&(n!=(m_nev+1))) {
114           m_out << "tools::rroot::basket::stre    114           m_out << "tools::rroot::basket::stream :"
115                        << " m_entry_offset rea    115                        << " m_entry_offset read len mismatch."
116                        << " n " << n              116                        << " n " << n
117                        << " m_nev " << m_nev      117                        << " m_nev " << m_nev
118                        << std::endl;              118                        << std::endl;
119           _clear();                               119           _clear();
120           return false;                           120           return false;
121         }                                         121         }
122       }                                           122       }
123 /* Due to the upper "G.Barrand if", flag can't    123 /* Due to the upper "G.Barrand if", flag can't be in ]20,40[, then to quiet Coverity we comment the below test.
124       if((20<flag)&&(flag<40)) {                  124       if((20<flag)&&(flag<40)) {
125         for(uint32 i=0;i<m_nev;i++){              125         for(uint32 i=0;i<m_nev;i++){
126           m_entry_offset[i] &= ~kDisplacementM    126           m_entry_offset[i] &= ~kDisplacementMask();
127         }                                         127         }
128       }                                           128       }
129 */                                                129 */
130       if(flag>40) {                               130       if(flag>40) {
131         m_displacement = new int[m_nev_buf_siz    131         m_displacement = new int[m_nev_buf_size];
132         uint32 n;                                 132         uint32 n;
133         if(!a_buffer.read_array<int>(m_nev_buf    133         if(!a_buffer.read_array<int>(m_nev_buf_size,m_displacement,n)) {
134           _clear();                               134           _clear();
135           return false;                           135           return false;
136         }                                         136         }
137         if((n!=m_nev)&&(n!=(m_nev+1))) {          137         if((n!=m_nev)&&(n!=(m_nev+1))) {
138           m_out << "tools::rroot::basket::stre    138           m_out << "tools::rroot::basket::stream :"
139                        << " m_displacement rea    139                        << " m_displacement read len mismatch."
140                        << " n " << n              140                        << " n " << n
141                        << " m_nev " << m_nev      141                        << " m_nev " << m_nev
142                        << std::endl;              142                        << std::endl;
143           _clear();                               143           _clear();
144           return false;                           144           return false;
145         }                                         145         }
146       }                                           146       }
147     } else {                                      147     } else {
148       //m_nev_buf_size is the size in bytes of    148       //m_nev_buf_size is the size in bytes of one entry.
149     }                                             149     }
150     if((flag==1)||(flag>10)) {                    150     if((flag==1)||(flag>10)) {
151       delete [] m_buffer;                         151       delete [] m_buffer;
152       m_buffer = 0;                               152       m_buffer = 0;
153       m_buf_size = 0;                             153       m_buf_size = 0;
154       if(fBufferSize) {                           154       if(fBufferSize) {
155         char* _buf = new char[fBufferSize];       155         char* _buf = new char[fBufferSize];
156         if(!_buf) {                               156         if(!_buf) {
157           m_out << "tools::rroot::basket::stre    157           m_out << "tools::rroot::basket::stream :"
158                        << " can't alloc " << f    158                        << " can't alloc " << fBufferSize << std::endl;
159           _clear();                               159           _clear();
160           return false;                           160           return false;
161         }                                         161         }
162         if(v>1) {                                 162         if(v>1) {
163           if(!a_buffer.read_fast_array(_buf,m_    163           if(!a_buffer.read_fast_array(_buf,m_last)) {
164             _clear();                             164             _clear();
165             delete [] _buf;                       165             delete [] _buf;
166             return false;                         166             return false;
167           }                                       167           }
168         } else {                                  168         } else {
169           uint32 n;                               169           uint32 n;
170           if(!a_buffer.read_array<char>(fBuffe    170           if(!a_buffer.read_array<char>(fBufferSize,_buf,n)) {
171             _clear();                             171             _clear();
172             delete [] _buf;                       172             delete [] _buf;
173             return false;                         173             return false;
174           }                                       174           }
175         }                                         175         }
176         m_buffer = _buf;                          176         m_buffer = _buf;
177         m_buf_size = fBufferSize;                 177         m_buf_size = fBufferSize;
178         //fBufferRef->inline_setBufferOffset(m    178         //fBufferRef->inline_setBufferOffset(m_last);
179         //fBranch.tree().incrementTotalBuffers    179         //fBranch.tree().incrementTotalBuffers(fBufferSize);
180       }                                           180       }
181     }                                             181     }
182                                                   182 
183     return true;                                  183     return true;
184   }                                               184   }
185 public:                                           185 public:
186   basket(std::ostream& a_out)                     186   basket(std::ostream& a_out)
187   :parent(a_out)                                  187   :parent(a_out)
188   ,m_nev_buf_size(0)                              188   ,m_nev_buf_size(0)
189   ,m_nev(0)                                       189   ,m_nev(0)
190   ,m_last(0)                                      190   ,m_last(0)
191   ,m_entry_offset(0)                              191   ,m_entry_offset(0)
192   ,m_displacement(0)                              192   ,m_displacement(0)
193   {                                               193   {
194 #ifdef TOOLS_MEM                                  194 #ifdef TOOLS_MEM
195     mem::increment(s_class().c_str());            195     mem::increment(s_class().c_str());
196 #endif                                            196 #endif
197   }                                               197   }
198   basket(std::ostream& a_out,seek a_pos,uint32    198   basket(std::ostream& a_out,seek a_pos,uint32 a_nbytes)
199   :parent(a_out,a_pos,a_nbytes)                   199   :parent(a_out,a_pos,a_nbytes)
200   ,m_nev_buf_size(0)                              200   ,m_nev_buf_size(0)
201   ,m_nev(0)                                       201   ,m_nev(0)
202   ,m_last(0)                                      202   ,m_last(0)
203   ,m_entry_offset(0)                              203   ,m_entry_offset(0)
204   ,m_displacement(0)                              204   ,m_displacement(0)
205   {                                               205   {
206 #ifdef TOOLS_MEM                                  206 #ifdef TOOLS_MEM
207     mem::increment(s_class().c_str());            207     mem::increment(s_class().c_str());
208 #endif                                            208 #endif
209   }                                               209   }
210   virtual ~basket(){                              210   virtual ~basket(){
211     _clear();                                     211     _clear();
212 #ifdef TOOLS_MEM                                  212 #ifdef TOOLS_MEM
213     mem::decrement(s_class().c_str());            213     mem::decrement(s_class().c_str());
214 #endif                                            214 #endif
215   }                                               215   }
216 public:                                           216 public:
217   basket(const basket& a_from)                    217   basket(const basket& a_from)
218   :iro(a_from)                                    218   :iro(a_from)
219   ,parent(a_from)                                 219   ,parent(a_from)
220   ,m_nev_buf_size(a_from.m_nev_buf_size)          220   ,m_nev_buf_size(a_from.m_nev_buf_size)
221   ,m_nev(a_from.m_nev)                            221   ,m_nev(a_from.m_nev)
222   ,m_last(a_from.m_last)                          222   ,m_last(a_from.m_last)
223   ,m_entry_offset(0)                              223   ,m_entry_offset(0)
224   ,m_displacement(0)                              224   ,m_displacement(0)
225   {                                               225   {
226 #ifdef TOOLS_MEM                                  226 #ifdef TOOLS_MEM
227     mem::increment(s_class().c_str());            227     mem::increment(s_class().c_str());
228 #endif                                            228 #endif
229     if(a_from.m_nev && a_from.m_entry_offset)     229     if(a_from.m_nev && a_from.m_entry_offset) {
230       m_entry_offset = new int[a_from.m_nev];     230       m_entry_offset = new int[a_from.m_nev];
231       if(!m_entry_offset) {                       231       if(!m_entry_offset) {
232         m_out << "tools::rroot::basket::basket    232         m_out << "tools::rroot::basket::basket(cpcstor) :"
233                      << " can't alloc " << a_f    233                      << " can't alloc " << a_from.m_nev << "."
234                      << std::endl;                234                      << std::endl;
235       } else {                                    235       } else {
236         uint32 len = a_from.m_nev*sizeof(int);    236         uint32 len = a_from.m_nev*sizeof(int);
237         ::memcpy(m_entry_offset,a_from.m_entry    237         ::memcpy(m_entry_offset,a_from.m_entry_offset,len);
238       }                                           238       }
239     }                                             239     }
240     if(a_from.m_nev && a_from.m_displacement)     240     if(a_from.m_nev && a_from.m_displacement) {
241       m_displacement = new int[a_from.m_nev];     241       m_displacement = new int[a_from.m_nev];
242       if(!m_displacement) {                       242       if(!m_displacement) {
243         m_out << "tools::rroot::basket::basket    243         m_out << "tools::rroot::basket::basket(cpcstor) :"
244                      << " can't alloc " << a_f    244                      << " can't alloc " << a_from.m_nev << "."
245                      << std::endl;                245                      << std::endl;
246       } else {                                    246       } else {
247         uint32 len = a_from.m_nev*sizeof(int);    247         uint32 len = a_from.m_nev*sizeof(int);
248         ::memcpy(m_displacement,a_from.m_displ    248         ::memcpy(m_displacement,a_from.m_displacement,len);
249       }                                           249       }
250     }                                             250     }
251   }                                               251   }
252   basket& operator=(const basket& a_from){        252   basket& operator=(const basket& a_from){
253     parent::operator=(a_from);                    253     parent::operator=(a_from);
254                                                   254 
255     if(&a_from==this) return *this;               255     if(&a_from==this) return *this;
256                                                   256 
257     m_nev_buf_size = a_from.m_nev_buf_size;       257     m_nev_buf_size = a_from.m_nev_buf_size;
258     m_nev = a_from.m_nev;                         258     m_nev = a_from.m_nev;
259     m_last = a_from.m_last;                       259     m_last = a_from.m_last;
260                                                   260 
261     delete [] m_entry_offset;                     261     delete [] m_entry_offset;
262     m_entry_offset = 0;                           262     m_entry_offset = 0;
263     delete [] m_displacement;                     263     delete [] m_displacement;
264     m_displacement = 0;                           264     m_displacement = 0;
265                                                   265 
266     if(a_from.m_nev && a_from.m_entry_offset)     266     if(a_from.m_nev && a_from.m_entry_offset) {
267       m_entry_offset = new int[a_from.m_nev];     267       m_entry_offset = new int[a_from.m_nev];
268       if(!m_entry_offset) {                       268       if(!m_entry_offset) {
269         m_out << "tools::rroot::basket::operat    269         m_out << "tools::rroot::basket::operator=() :"
270                      << " can't alloc " << a_f    270                      << " can't alloc " << a_from.m_nev << "."
271                      << std::endl;                271                      << std::endl;
272       } else {                                    272       } else {
273         uint32 len = a_from.m_nev*sizeof(int);    273         uint32 len = a_from.m_nev*sizeof(int);
274         ::memcpy(m_entry_offset,a_from.m_entry    274         ::memcpy(m_entry_offset,a_from.m_entry_offset,len);
275       }                                           275       }
276     }                                             276     }
277     if(a_from.m_nev && a_from.m_displacement)     277     if(a_from.m_nev && a_from.m_displacement) {
278       m_displacement = new int[a_from.m_nev];     278       m_displacement = new int[a_from.m_nev];
279       if(!m_displacement) {                       279       if(!m_displacement) {
280         m_out << "tools::rroot::basket::operat    280         m_out << "tools::rroot::basket::operator=() :"
281                      << " can't alloc " << a_f    281                      << " can't alloc " << a_from.m_nev << "."
282                      << std::endl;                282                      << std::endl;
283       } else {                                    283       } else {
284         uint32 len = a_from.m_nev*sizeof(int);    284         uint32 len = a_from.m_nev*sizeof(int);
285         ::memcpy(m_displacement,a_from.m_displ    285         ::memcpy(m_displacement,a_from.m_displacement,len);
286       }                                           286       }
287     }                                             287     }
288                                                   288 
289     return *this;                                 289     return *this;
290   }                                               290   }
291 public:                                           291 public:
292   int* entry_offset() {return m_entry_offset;}    292   int* entry_offset() {return m_entry_offset;}
293   int* displacement() {return m_displacement;}    293   int* displacement() {return m_displacement;}
294   uint32 nev_buf_size() const {return m_nev_bu    294   uint32 nev_buf_size() const {return m_nev_buf_size;}
295   uint32 nev() const {return m_nev;}              295   uint32 nev() const {return m_nev;}
296   uint32 last() const {return m_last;}            296   uint32 last() const {return m_last;}
297                                                   297 
298   bool read_offset_tables(bool a_byte_swap) {     298   bool read_offset_tables(bool a_byte_swap) {
299     if(!m_buffer) return false;                   299     if(!m_buffer) return false;
300     if(!m_last) return false;                     300     if(!m_last) return false;
301                                                   301 
302     delete [] m_entry_offset;                     302     delete [] m_entry_offset;
303     m_entry_offset = 0;                           303     m_entry_offset = 0;
304                                                   304 
305     buffer _buffer(m_out,a_byte_swap,m_buf_siz    305     buffer _buffer(m_out,a_byte_swap,m_buf_size,m_buffer,0,false);
306     _buffer.set_offset(m_last);                   306     _buffer.set_offset(m_last);
307                                                   307 
308    {uint32 n;                                     308    {uint32 n;
309     if(!_buffer.read_array<int>(0,m_entry_offs    309     if(!_buffer.read_array<int>(0,m_entry_offset,n)) {
310       m_out << "tools::rroot::basket::read_off    310       m_out << "tools::rroot::basket::read_offset_tables :"
311                    << " read_array failed."       311                    << " read_array failed."
312                    << std::endl;                  312                    << std::endl;
313       return false;                               313       return false;
314     }                                             314     }
315     if((n!=m_nev)&&(n!=(m_nev+1))) {              315     if((n!=m_nev)&&(n!=(m_nev+1))) {
316       m_out << "tools::rroot::basket::read_off    316       m_out << "tools::rroot::basket::read_offset_tables :"
317                    << " m_entry_offset read le    317                    << " m_entry_offset read len mismatch."
318                    << " n " << n                  318                    << " n " << n
319                    << " m_nev " << m_nev          319                    << " m_nev " << m_nev
320                    << std::endl;                  320                    << std::endl;
321       return false;                               321       return false;
322     }}                                            322     }}
323                                                   323 
324     delete [] m_displacement;                     324     delete [] m_displacement;
325     m_displacement = 0;                           325     m_displacement = 0;
326     if(_buffer.length()!=_buffer.size()) {        326     if(_buffer.length()!=_buffer.size()) {
327       // There is more data in the buffer!  It    327       // There is more data in the buffer!  It is the diplacement
328       // array.                                   328       // array.
329       uint32 n;                                   329       uint32 n;
330       if(!_buffer.read_array<int>(0,m_displace    330       if(!_buffer.read_array<int>(0,m_displacement,n)) {
331         m_out << "tools::rroot::basket::read_o    331         m_out << "tools::rroot::basket::read_offset_tables :"
332                      << " readArray(2) failed.    332                      << " readArray(2) failed."
333                      << std::endl;                333                      << std::endl;
334         return false;                             334         return false;
335       }                                           335       }
336       if((n!=m_nev)&&(n!=(m_nev+1))) {            336       if((n!=m_nev)&&(n!=(m_nev+1))) {
337         m_out << "tools::rroot::basket::read_o    337         m_out << "tools::rroot::basket::read_offset_tables :"
338                      << " m_displacement read     338                      << " m_displacement read len mismatch."
339                      << " n " << n                339                      << " n " << n
340                      << " m_nev " << m_nev        340                      << " m_nev " << m_nev
341                      << std::endl;                341                      << std::endl;
342         return false;                             342         return false;
343       }                                           343       }
344     }                                             344     }
345                                                   345 
346     return true;                                  346     return true;
347   }                                               347   }
348                                                   348 
349 protected:                                        349 protected:
350   void _clear(){                                  350   void _clear(){
351     delete [] m_entry_offset;                     351     delete [] m_entry_offset;
352     delete [] m_displacement;                     352     delete [] m_displacement;
353     m_entry_offset = 0;                           353     m_entry_offset = 0;
354     m_displacement = 0;                           354     m_displacement = 0;
355   }                                               355   }
356 protected: //Named                                356 protected: //Named
357   uint32 m_nev_buf_size;  //Length in Int_t of    357   uint32 m_nev_buf_size;  //Length in Int_t of m_entry_offset
358   uint32 m_nev;           //Number of entries     358   uint32 m_nev;           //Number of entries in basket
359   uint32 m_last;          //Pointer to last us    359   uint32 m_last;          //Pointer to last used byte in basket
360   int* m_entry_offset;    //[m_nev] Offset of     360   int* m_entry_offset;    //[m_nev] Offset of entries in fBuffer(TKey)
361   int* m_displacement;    //![m_nev] Displacem    361   int* m_displacement;    //![m_nev] Displacement of entries in fBuffer(TKey)
362 };                                                362 };
363                                                   363 
364 }}                                                364 }}
365                                                   365 
366 #endif                                            366 #endif