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Geant4/externals/g4tools/include/tools/wroot/buffer

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Diff markup

Differences between /externals/g4tools/include/tools/wroot/buffer (Version 11.3.0) and /externals/g4tools/include/tools/wroot/buffer (Version 11.1)


  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_wroot_buffer                          4 #ifndef tools_wroot_buffer
  5 #define tools_wroot_buffer                          5 #define tools_wroot_buffer
  6                                                     6 
  7 // class used for serializing objects.              7 // class used for serializing objects.
  8                                                     8 
  9 #include "wbuf"                                     9 #include "wbuf"
 10 #include "ibo"                                     10 #include "ibo"
 11                                                    11 
 12 #include "../realloc"                              12 #include "../realloc"
 13 #include "../mnmx"                                 13 #include "../mnmx"
 14 #include "../forit"                                14 #include "../forit"
 15                                                    15 
 16 #ifdef TOOLS_MEM                                   16 #ifdef TOOLS_MEM
 17 #include "../mem"                                  17 #include "../mem"
 18 #endif                                             18 #endif
 19                                                    19 
 20 #include <string>                                  20 #include <string>
 21 #include <vector>                                  21 #include <vector>
 22 #include <ostream>                                 22 #include <ostream>
 23 #include <map>                                     23 #include <map>
 24                                                    24 
 25 namespace tools {                                  25 namespace tools {
 26 namespace wroot {                                  26 namespace wroot {
 27                                                    27 
 28 class buffer {                                     28 class buffer {
 29   static const std::string& s_class() {            29   static const std::string& s_class() {
 30     static const std::string s_v("tools::wroot     30     static const std::string s_v("tools::wroot::buffer");
 31     return s_v;                                    31     return s_v;
 32   }                                                32   }
 33 public:                                            33 public:
 34   buffer(std::ostream& a_out,bool a_byte_swap,     34   buffer(std::ostream& a_out,bool a_byte_swap,uint32 a_size) // we expect a not zero value for a_size.
 35   :m_out(a_out)                                    35   :m_out(a_out)
 36   ,m_byte_swap(a_byte_swap)                        36   ,m_byte_swap(a_byte_swap)
 37   ,m_size(0)                                       37   ,m_size(0)
 38   ,m_buffer(0)                                     38   ,m_buffer(0)
 39   ,m_max(0)                                        39   ,m_max(0)
 40   ,m_pos(0)                                        40   ,m_pos(0)
 41   ,m_wb(a_out,a_byte_swap,0,m_pos) //it holds      41   ,m_wb(a_out,a_byte_swap,0,m_pos) //it holds a ref on m_pos.
 42   {                                                42   {
 43 #ifdef TOOLS_MEM                                   43 #ifdef TOOLS_MEM
 44     mem::increment(s_class().c_str());             44     mem::increment(s_class().c_str());
 45 #endif                                             45 #endif
 46     m_size = a_size;                               46     m_size = a_size;
 47     m_buffer = new char[m_size];                   47     m_buffer = new char[m_size];
 48     //if(!m_buffer) {}                             48     //if(!m_buffer) {}
 49     m_max = m_buffer+m_size;                       49     m_max = m_buffer+m_size;
 50     m_pos = m_buffer;                              50     m_pos = m_buffer;
 51     m_wb.set_eob(m_max);                           51     m_wb.set_eob(m_max);
 52   }                                                52   }
 53                                                    53 
 54   virtual ~buffer(){                               54   virtual ~buffer(){
 55     m_objs.clear();                                55     m_objs.clear();
 56     m_obj_mapped.clear();                          56     m_obj_mapped.clear();
 57                                                    57 
 58     m_clss.clear();                                58     m_clss.clear();
 59     m_cls_mapped.clear();                          59     m_cls_mapped.clear();
 60                                                    60 
 61     delete [] m_buffer;                            61     delete [] m_buffer;
 62 #ifdef TOOLS_MEM                                   62 #ifdef TOOLS_MEM
 63     mem::decrement(s_class().c_str());             63     mem::decrement(s_class().c_str());
 64 #endif                                             64 #endif
 65   }                                                65   }
 66 protected:                                         66 protected:
 67   buffer(const buffer& a_from)                     67   buffer(const buffer& a_from)
 68   :m_out(a_from.m_out)                             68   :m_out(a_from.m_out)
 69   ,m_byte_swap(a_from.m_byte_swap)                 69   ,m_byte_swap(a_from.m_byte_swap)
 70   ,m_size(0)                                       70   ,m_size(0)
 71   ,m_buffer(0)                                     71   ,m_buffer(0)
 72   ,m_max(0)                                        72   ,m_max(0)
 73   ,m_pos(0)                                        73   ,m_pos(0)
 74   ,m_wb(a_from.m_out,a_from.m_byte_swap,0,m_po     74   ,m_wb(a_from.m_out,a_from.m_byte_swap,0,m_pos)
 75   {                                                75   {
 76 #ifdef TOOLS_MEM                                   76 #ifdef TOOLS_MEM
 77     mem::increment(s_class().c_str());             77     mem::increment(s_class().c_str());
 78 #endif                                             78 #endif
 79   }                                                79   }
 80   buffer& operator=(const buffer&){return *thi     80   buffer& operator=(const buffer&){return *this;}
 81 public:                                            81 public:
 82   bool byte_swap() const {return m_byte_swap;}     82   bool byte_swap() const {return m_byte_swap;}
 83   std::ostream& out() const {return m_out;}        83   std::ostream& out() const {return m_out;}
 84                                                    84 
 85   //void set_offset(unsigned int a_off) {m_pos     85   //void set_offset(unsigned int a_off) {m_pos = m_buffer+a_off;}
 86                                                    86 
 87   char* buf() {return m_buffer;}                   87   char* buf() {return m_buffer;}
 88   const char* buf() const {return m_buffer;}       88   const char* buf() const {return m_buffer;}
 89   uint32 length() const {return uint32(m_pos-m     89   uint32 length() const {return uint32(m_pos-m_buffer);}
 90   uint32 size() const {return m_size;}             90   uint32 size() const {return m_size;}
 91                                                    91 
 92   char*& pos() {return m_pos;}          //used     92   char*& pos() {return m_pos;}          //used in basket.
 93   char* max_pos() const {return m_max;} //used     93   char* max_pos() const {return m_max;} //used in basket.
 94                                                    94 
 95 public:                                            95 public:
 96   template <class T>                               96   template <class T>
 97   bool write(T x){                                 97   bool write(T x){
 98     if(m_pos+sizeof(T)>m_max) {                    98     if(m_pos+sizeof(T)>m_max) {
 99       if(!expand2(m_size+sizeof(T))) return fa     99       if(!expand2(m_size+sizeof(T))) return false;
100     }                                             100     }
101     return m_wb.write(x);                         101     return m_wb.write(x);
102   }                                               102   }
103                                                   103 
104   bool write(bool x) {return write<unsigned ch    104   bool write(bool x) {return write<unsigned char>(x?1:0);}
105                                                   105 
106   bool write(const std::string& x) {              106   bool write(const std::string& x) {
107     uint32 sz = (uint32)(x.size() + sizeof(int    107     uint32 sz = (uint32)(x.size() + sizeof(int) + 1);
108     if((m_pos+sz)>m_max) {                        108     if((m_pos+sz)>m_max) {
109       if(!expand2(m_size+sz)) return false;       109       if(!expand2(m_size+sz)) return false;
110     }                                             110     }
111     return m_wb.write(x);                         111     return m_wb.write(x);
112   }                                               112   }
113                                                   113 
114   bool write_fast_array(const char* a_a,uint32    114   bool write_fast_array(const char* a_a,uint32 a_n) {
115     if(!a_n) return true;                         115     if(!a_n) return true;
116     uint32 l = a_n * sizeof(char);                116     uint32 l = a_n * sizeof(char);
117     if((m_pos+l)>m_max) {                         117     if((m_pos+l)>m_max) {
118       if(!expand2(m_size+l)) return false;        118       if(!expand2(m_size+l)) return false;
119     }                                             119     }
120     ::memcpy(m_pos,a_a,l);                        120     ::memcpy(m_pos,a_a,l);
121     m_pos += l;                                   121     m_pos += l;
122     return true;                                  122     return true;
123   }                                               123   }
124                                                   124 
125   bool write_cstring(const char* a_s) {return     125   bool write_cstring(const char* a_s) {return write_fast_array(a_s,(uint32(::strlen(a_s))+1)*sizeof(char));}
126                                                   126 
127   template <class T>                              127   template <class T>
128   bool write_fast_array(const T* a_a,uint32 a_    128   bool write_fast_array(const T* a_a,uint32 a_n) {
129     if(!a_n) return true;                         129     if(!a_n) return true;
130     uint32 l = a_n * sizeof(T);                   130     uint32 l = a_n * sizeof(T);
131     if((m_pos+l)>m_max) {                         131     if((m_pos+l)>m_max) {
132       if(!expand2(m_size+l)) return false;        132       if(!expand2(m_size+l)) return false;
133     }                                             133     }
134     return m_wb.write<T>(a_a,a_n);                134     return m_wb.write<T>(a_a,a_n);
135   }                                               135   }
136                                                   136 
137   template <class T>                              137   template <class T>
138   bool write_fast_array(const std::vector<T>&     138   bool write_fast_array(const std::vector<T>& a_v) {
139     if(a_v.empty()) return true;                  139     if(a_v.empty()) return true;
140     uint32 l = uint32(a_v.size() * sizeof(T));    140     uint32 l = uint32(a_v.size() * sizeof(T));
141     if((m_pos+l)>m_max) {                         141     if((m_pos+l)>m_max) {
142       if(!expand2(m_size+l)) return false;        142       if(!expand2(m_size+l)) return false;
143     }                                             143     }
144     return m_wb.write<T>(a_v);                    144     return m_wb.write<T>(a_v);
145   }                                               145   }
146                                                   146 
147   template <class T>                              147   template <class T>
148   bool write_array(const T* a_a,uint32 a_n) {     148   bool write_array(const T* a_a,uint32 a_n) {
149     if(!write(a_n)) return false;                 149     if(!write(a_n)) return false;
150     return write_fast_array(a_a,a_n);             150     return write_fast_array(a_a,a_n);
151   }                                               151   }
152                                                   152 
153   template <class T>                              153   template <class T>
154   bool write_array(const std::vector<T>& a_v)  << 154   bool write_array(const std::vector<T> a_v) {
155     if(!write((uint32)a_v.size())) return fals    155     if(!write((uint32)a_v.size())) return false;
156     return write_fast_array(a_v);                 156     return write_fast_array(a_v);
157   }                                               157   }
158                                                   158 
159   template <class T>                              159   template <class T>
160   bool write_array2(const std::vector< std::ve << 160   bool write_array2(const std::vector< std::vector<T> > a_v) {
161     if(!write((uint32)a_v.size())) return fals    161     if(!write((uint32)a_v.size())) return false;
162     for(unsigned int index=0;index<a_v.size();    162     for(unsigned int index=0;index<a_v.size();index++) {
163       if(!write_array(a_v[index])) return fals    163       if(!write_array(a_v[index])) return false;
164     }                                             164     }
165     return true;                                  165     return true;
166   }                                               166   }
167                                                   167 
168 public:                                           168 public:
169   bool write_version(short a_version){            169   bool write_version(short a_version){
170     if(a_version>kMaxVersion()) {                 170     if(a_version>kMaxVersion()) {
171       m_out << "tools::wroot::buffer::write_ve    171       m_out << "tools::wroot::buffer::write_version :"
172             << " version number " << a_version    172             << " version number " << a_version
173             << " cannot be larger than " << kM    173             << " cannot be larger than " << kMaxVersion() << "."
174             << std::endl;                         174             << std::endl;
175       return false;                               175       return false;
176     }                                             176     }
177     return write(a_version);                      177     return write(a_version);
178   }                                               178   }
179   bool write_version(short a_version,uint32& a    179   bool write_version(short a_version,uint32& a_pos){
180     // reserve space for leading byte count       180     // reserve space for leading byte count
181     a_pos = (uint32)(m_pos-m_buffer);             181     a_pos = (uint32)(m_pos-m_buffer);
182                                                   182 
183     //NOTE : the below test is lacking in CERN    183     //NOTE : the below test is lacking in CERN-ROOT !
184     if((m_pos+sizeof(unsigned int))>m_max) {      184     if((m_pos+sizeof(unsigned int))>m_max) {
185       if(!expand2(m_size+sizeof(unsigned int))    185       if(!expand2(m_size+sizeof(unsigned int))) return false;
186     }                                             186     }
187     m_pos += sizeof(unsigned int);                187     m_pos += sizeof(unsigned int);
188                                                   188 
189     if(a_version>kMaxVersion()) {                 189     if(a_version>kMaxVersion()) {
190       m_out << "tools::wroot::buffer::write_ve    190       m_out << "tools::wroot::buffer::write_version :"
191             << " version number " << a_version    191             << " version number " << a_version
192             << " cannot be larger than " << kM    192             << " cannot be larger than " << kMaxVersion() << "."
193             << std::endl;                         193             << std::endl;
194       return false;                               194       return false;
195     }                                             195     }
196     return write(a_version);                      196     return write(a_version);
197   }                                               197   }
198                                                   198 
199   bool set_byte_count(uint32 a_pos){              199   bool set_byte_count(uint32 a_pos){
200     uint32 cnt = (uint32)(m_pos-m_buffer) - a_    200     uint32 cnt = (uint32)(m_pos-m_buffer) - a_pos - sizeof(unsigned int);
201     if(cnt>=kMaxMapCount()) {                     201     if(cnt>=kMaxMapCount()) {
202       m_out << "tools::wroot::buffer::set_byte    202       m_out << "tools::wroot::buffer::set_byte_count :"
203             << " bytecount too large (more tha    203             << " bytecount too large (more than "
204             << kMaxMapCount() << ")."             204             << kMaxMapCount() << ")."
205             << std::endl;                         205             << std::endl;
206       return false;                               206       return false;
207     }                                             207     }
208                                                   208 
209     union {                                       209     union {
210       uint32 cnt;                                 210       uint32 cnt;
211       short vers[2];                              211       short vers[2];
212     } v;                                          212     } v;
213     v.cnt = cnt;                                  213     v.cnt = cnt;
214                                                   214 
215     char* opos = m_pos;                           215     char* opos = m_pos;
216     m_pos = (char*)(m_buffer+a_pos);              216     m_pos = (char*)(m_buffer+a_pos);
217     if(m_byte_swap) {                             217     if(m_byte_swap) {
218       if(!m_wb.write(short(v.vers[1]|kByteCoun    218       if(!m_wb.write(short(v.vers[1]|kByteCountVMask())))
219         {m_pos = opos;return false;}              219         {m_pos = opos;return false;}
220       if(!m_wb.write(v.vers[0])) {m_pos = opos    220       if(!m_wb.write(v.vers[0])) {m_pos = opos;return false;}
221     } else {                                      221     } else {
222       if(!m_wb.write(short(v.vers[0]|kByteCoun    222       if(!m_wb.write(short(v.vers[0]|kByteCountVMask())))
223         {m_pos = opos;return false;}              223         {m_pos = opos;return false;}
224       if(!m_wb.write(v.vers[1])) {m_pos = opos    224       if(!m_wb.write(v.vers[1])) {m_pos = opos;return false;}
225     }                                             225     }
226     m_pos = opos;                                 226     m_pos = opos;
227                                                   227 
228     return true;                                  228     return true;
229   }                                               229   }
230                                                   230 
231   bool write_object(const ibo& a_obj){            231   bool write_object(const ibo& a_obj){
232     //GB : if adding a write map logic, think     232     //GB : if adding a write map logic, think to have a displace_mapped()
233     //     in basket::write_on_file().            233     //     in basket::write_on_file().
234                                                   234 
235     std::map<ibo*,uint32>::const_iterator it =    235     std::map<ibo*,uint32>::const_iterator it = m_objs.find((ibo*)&a_obj);
236     if(it!=m_objs.end()) {                        236     if(it!=m_objs.end()) {
237                                                   237 
238       uint32 objIdx = (*it).second;               238       uint32 objIdx = (*it).second;
239                                                   239 
240       unsigned int offset = (unsigned int)(m_p    240       unsigned int offset = (unsigned int)(m_pos-m_buffer);
241                                                   241 
242       // save index of already stored object      242       // save index of already stored object
243       if(!write(objIdx)) return false;            243       if(!write(objIdx)) return false;
244                                                   244 
245       m_obj_mapped.push_back(std::pair<uint32,    245       m_obj_mapped.push_back(std::pair<uint32,uint32>(offset,objIdx));
246                                                   246 
247     } else {                                      247     } else {
248                                                   248 
249       // reserve space for leading byte count     249       // reserve space for leading byte count
250       uint32 cntpos = (unsigned int)(m_pos-m_b    250       uint32 cntpos = (unsigned int)(m_pos-m_buffer);
251                                                   251 
252       //NOTE : the below test is lacking in CE    252       //NOTE : the below test is lacking in CERN-ROOT !
253       if((m_pos+sizeof(unsigned int))>m_max) {    253       if((m_pos+sizeof(unsigned int))>m_max) {
254         if(!expand2(m_size+sizeof(unsigned int    254         if(!expand2(m_size+sizeof(unsigned int))) return false;
255       }                                           255       }
256       m_pos += sizeof(unsigned int);              256       m_pos += sizeof(unsigned int);
257                                                   257 
258       // write class of object first              258       // write class of object first
259       if(!write_class(a_obj.store_cls())) retu    259       if(!write_class(a_obj.store_cls())) return false;
260                                                   260 
261       // add to map before writing rest of obj    261       // add to map before writing rest of object (to handle self reference)
262       // (+kMapOffset so it's != kNullTag)        262       // (+kMapOffset so it's != kNullTag)
263       m_objs[(ibo*)&a_obj] = cntpos + kMapOffs    263       m_objs[(ibo*)&a_obj] = cntpos + kMapOffset();
264                                                   264 
265       // let the object write itself :            265       // let the object write itself :
266       if(!a_obj.stream(*this)) return false;      266       if(!a_obj.stream(*this)) return false;
267                                                   267 
268       // write byte count                         268       // write byte count
269       if(!set_byte_count_obj(cntpos)) return f    269       if(!set_byte_count_obj(cntpos)) return false;
270     }                                             270     }
271     return true;                                  271     return true;
272   }                                               272   }
273                                                   273 
274   bool expand2(uint32 a_new_size) {return expa    274   bool expand2(uint32 a_new_size) {return expand(mx<uint32>(2*m_size,a_new_size));} //CERN-ROOT logic.
275                                                   275 
276   bool expand(uint32 a_new_size) {                276   bool expand(uint32 a_new_size) {
277     diff_pointer_t len = m_pos-m_buffer;          277     diff_pointer_t len = m_pos-m_buffer;
278     if(!realloc<char>(m_buffer,a_new_size,m_si    278     if(!realloc<char>(m_buffer,a_new_size,m_size)) {
279       m_out << "tools::wroot::buffer::expand :    279       m_out << "tools::wroot::buffer::expand :"
280             << " can't realloc " << a_new_size    280             << " can't realloc " << a_new_size << " bytes."
281             << std::endl;                         281             << std::endl;
282       m_size = 0;                                 282       m_size = 0;
283       m_max = 0;                                  283       m_max = 0;
284       m_pos = 0;                                  284       m_pos = 0;
285       m_wb.set_eob(m_max);                        285       m_wb.set_eob(m_max);
286       return false;                               286       return false;
287     }                                             287     }
288     m_size = a_new_size;                          288     m_size = a_new_size;
289     m_max = m_buffer + m_size;                    289     m_max = m_buffer + m_size;
290     m_pos = m_buffer + len;                       290     m_pos = m_buffer + len;
291     m_wb.set_eob(m_max);                          291     m_wb.set_eob(m_max);
292     return true;                                  292     return true;
293   }                                               293   }
294                                                   294 
295   size_t to_displace() const {return m_cls_map    295   size_t to_displace() const {return m_cls_mapped.size()+m_obj_mapped.size();}
296                                                   296 
297   bool displace_mapped(unsigned int a_num){       297   bool displace_mapped(unsigned int a_num){
298     char* opos = m_pos;                           298     char* opos = m_pos;
299                                                   299 
300     //m_out << "tools::wroot::buffer::displace    300     //m_out << "tools::wroot::buffer::displace_mapped :"
301     //      << " cls num " << m_cls_mapped.siz    301     //      << " cls num " << m_cls_mapped.size()
302     //      << std::endl;                         302     //      << std::endl;
303                                                   303 
304     typedef std::pair<uint32,uint32> offset_id    304     typedef std::pair<uint32,uint32> offset_id;
305                                                   305 
306    {tools_vforcit(offset_id,m_cls_mapped,it) {    306    {tools_vforcit(offset_id,m_cls_mapped,it) {
307       unsigned int offset = (*it).first;          307       unsigned int offset = (*it).first;
308       unsigned int id = (*it).second;             308       unsigned int id = (*it).second;
309       //m_out << "displace " << offset << " "     309       //m_out << "displace " << offset << " " << id << std::endl;
310       m_pos = m_buffer+offset;                    310       m_pos = m_buffer+offset;
311       unsigned int clIdx = id+a_num;              311       unsigned int clIdx = id+a_num;
312       if(!write(uint32(clIdx|kClassMask()))) {    312       if(!write(uint32(clIdx|kClassMask()))) {m_pos = opos;return false;}
313     }}                                            313     }}
314                                                   314 
315     //m_out << "tools::wroot::buffer::displace    315     //m_out << "tools::wroot::buffer::displace_mapped :"
316     //      << " obj num " << m_obj_mapped.siz    316     //      << " obj num " << m_obj_mapped.size()
317     //      << std::endl;                         317     //      << std::endl;
318                                                   318 
319    {tools_vforcit(offset_id,m_obj_mapped,it) {    319    {tools_vforcit(offset_id,m_obj_mapped,it) {
320       uint32 offset = (*it).first;                320       uint32 offset = (*it).first;
321       uint32 id = (*it).second;                   321       uint32 id = (*it).second;
322       //m_out << "displace at " << offset         322       //m_out << "displace at " << offset
323       //      << " the obj pos " << id            323       //      << " the obj pos " << id
324       //      << " by " << a_num                  324       //      << " by " << a_num
325       //      << std::endl;                       325       //      << std::endl;
326       m_pos = m_buffer+offset;                    326       m_pos = m_buffer+offset;
327       unsigned int objIdx = id+a_num;             327       unsigned int objIdx = id+a_num;
328       if(!write(objIdx)) {m_pos = opos;return     328       if(!write(objIdx)) {m_pos = opos;return false;}
329     }}                                            329     }}
330                                                   330 
331     m_pos = opos;                                 331     m_pos = opos;
332     return true;                                  332     return true;
333   }                                               333   }
334                                                   334 
335   void reset_objs_map() {                         335   void reset_objs_map() {
336     m_objs.clear();                               336     m_objs.clear();
337     //m_clss.clear();                             337     //m_clss.clear();
338   }                                               338   }
339 protected:                                        339 protected:
340   static short kMaxVersion() {return 0x3FFF;}     340   static short kMaxVersion() {return 0x3FFF;}
341   static uint32 kMaxMapCount() {return 0x3FFFF    341   static uint32 kMaxMapCount() {return 0x3FFFFFFE;}
342   static short kByteCountVMask() {return 0x400    342   static short kByteCountVMask() {return 0x4000;}
343   static uint32 kNewClassTag() {return 0xFFFFF    343   static uint32 kNewClassTag() {return 0xFFFFFFFF;}
344                                                   344 
345   static int kMapOffset() {return 2;}             345   static int kMapOffset() {return 2;}
346   static unsigned int kClassMask() {return 0x8    346   static unsigned int kClassMask() {return 0x80000000;}
347   static uint32 kByteCountMask() {return 0x400    347   static uint32 kByteCountMask() {return 0x40000000;}
348                                                   348 
349   bool write_class(const std::string& a_cls){     349   bool write_class(const std::string& a_cls){
350                                                   350 
351     std::map<std::string,uint32>::const_iterat    351     std::map<std::string,uint32>::const_iterator it = m_clss.find(a_cls);
352     if(it!=m_clss.end()) {                        352     if(it!=m_clss.end()) {
353       uint32 clIdx = (*it).second;                353       uint32 clIdx = (*it).second;
354                                                   354 
355       unsigned int offset = (unsigned int)(m_p    355       unsigned int offset = (unsigned int)(m_pos-m_buffer);
356                                                   356 
357       // save index of already stored class       357       // save index of already stored class
358       if(!write(uint32(clIdx|kClassMask()))) r    358       if(!write(uint32(clIdx|kClassMask()))) return false;
359                                                   359 
360       m_cls_mapped.push_back(std::pair<uint32,    360       m_cls_mapped.push_back(std::pair<uint32,uint32>(offset,clIdx));
361                                                   361 
362     } else {                                      362     } else {
363                                                   363 
364       unsigned int offset = (unsigned int)(m_p    364       unsigned int offset = (unsigned int)(m_pos-m_buffer);
365       if(!write(kNewClassTag())) return false;    365       if(!write(kNewClassTag())) return false;
366       if(!write_cstring(a_cls.c_str())) return    366       if(!write_cstring(a_cls.c_str())) return false;
367       m_clss[a_cls] = offset + kMapOffset();      367       m_clss[a_cls] = offset + kMapOffset();
368                                                   368 
369     }                                             369     }
370     return true;                                  370     return true;
371   }                                               371   }
372                                                   372 
373   bool set_byte_count_obj(uint32 a_pos){          373   bool set_byte_count_obj(uint32 a_pos){
374     uint32 cnt = (uint32)(m_pos-m_buffer) - a_    374     uint32 cnt = (uint32)(m_pos-m_buffer) - a_pos - sizeof(unsigned int);
375     if(cnt>=kMaxMapCount()) {                     375     if(cnt>=kMaxMapCount()) {
376       m_out << "tools::wroot::buffer::set_byte    376       m_out << "tools::wroot::buffer::set_byte_count_obj :"
377             << " bytecount too large (more tha    377             << " bytecount too large (more than "
378             << kMaxMapCount() << ")."             378             << kMaxMapCount() << ")."
379             << std::endl;                         379             << std::endl;
380       return false;                               380       return false;
381     }                                             381     }
382     char* opos = m_pos;                           382     char* opos = m_pos;
383     m_pos = (char*)(m_buffer+a_pos);              383     m_pos = (char*)(m_buffer+a_pos);
384     if(!m_wb.write(uint32(cnt|kByteCountMask()    384     if(!m_wb.write(uint32(cnt|kByteCountMask()))) {m_pos = opos;return false;}
385     m_pos = opos;                                 385     m_pos = opos;
386     return true;                                  386     return true;
387   }                                               387   }
388                                                   388 
389 protected:                                        389 protected:
390   std::ostream& m_out;                            390   std::ostream& m_out;
391   bool m_byte_swap;                               391   bool m_byte_swap;
392   uint32 m_size;                                  392   uint32 m_size;
393   char* m_buffer;                                 393   char* m_buffer;
394   char* m_max;                                    394   char* m_max;
395   char* m_pos;                                    395   char* m_pos;
396   wbuf m_wb;                                      396   wbuf m_wb;
397                                                   397 
398   std::map<ibo*,uint32> m_objs;                   398   std::map<ibo*,uint32> m_objs;
399   std::vector< std::pair<uint32,uint32> > m_ob    399   std::vector< std::pair<uint32,uint32> > m_obj_mapped;
400                                                   400 
401   std::map<std::string,uint32> m_clss;            401   std::map<std::string,uint32> m_clss;
402   std::vector< std::pair<uint32,uint32> > m_cl    402   std::vector< std::pair<uint32,uint32> > m_cls_mapped;
403 };                                                403 };
404                                                   404 
405 }}                                                405 }}
406                                                   406 
407 #endif                                            407 #endif