// @(#)root/reflex:$Id$ // Author: Markus Frank 2004 // Copyright CERN, CH-1211 Geneva 23, 2004-2006, All rights reserved. // // Permission to use, copy, modify, and distribute this software for any // purpose is hereby granted without fee, provided that this copyright and // permissions notice appear in all copies and derivatives. // // This software is provided "as is" without express or implied warranty. #ifndef Reflex_CollectionProxy #define Reflex_CollectionProxy 1 1 #include <cstddef> #include <assert.h> #include <vector> #include <map> #include <set> // Macro indicating the version of the Collection Proxy interface followed // by this Reflex build, this must match the version number of // ROOT_COLLECTIONPROXY_VERSION in ROOT's TVirtutalCollectionProxy.h #define REFLEX_COLLECTIONPROXY_VERSION 3 // Forward declarations class TVirtualCollectionProxy; namespace std { template <class T, class A> class deque; //template <class T, class A> class vector; template <class T, class A> class list; template <class T, class A> class queue; template <class T, class A> class stack; //template <class K, class T, class A> class set; //template <class K, class T, class A> class multiset; //template <class K, class T, class R, class A> class map; //template <class K, class T, class R, class A> class multimap; //template <class T> class allocator; } // Hash map forward declarations #if defined(__GNUC__) namespace __gnu_cxx { // GNU GCC template <class T, class F, class E, class A> class hash_set; template <class T, class F, class E, class A> class hash_multiset; template <class K, class T, class F, class E, class A> class hash_map; template <class K, class T, class F, class E, class A> class hash_multimap; } #elif defined(_WIN32) namespace stdext { // Visual C++ template <class K, class T, class A> class hash_set; template <class K, class T, class A> class hash_multiset; template <class K, class T, class R, class A> class hash_map; template <class K, class T, class R, class A> class hash_multimap; } #endif namespace Reflex { #ifndef __CINT__ struct EnvironBase { EnvironBase(): fIdx(0), fSize(0), fObject(0), fStart(0), fTemp(0), fDeleteTemp(false), fRefSize(1), fSpace(0) { // fprintf("Running default constructor on %p\n",this); } virtual ~EnvironBase() {} size_t fIdx; size_t fSize; void* fObject; void* fStart; void* fTemp; bool fDeleteTemp; int fRefSize; size_t fSpace; }; template <typename T> struct Environ: public EnvironBase { typedef T Iter_t; Iter_t fIterator; T& iter() { return fIterator; } static void* Create() { return new Environ(); } }; #else struct EnvironBase; template <typename T> struct Environ; #endif template <typename T> struct Address { static void* address(T ref) { return (void*)& ref; } }; // Same value as TVirtualCollectionProxy. static const unsigned int fgIteratorArenaSize = 16; // greater than sizeof(void*) + sizeof(UInt_t) /** @class template TCollectionProxyInfo::IteratorValue * * Small helper to encapsulate whether to return the value * pointed to by the iterator or its address. * **/ template <typename Cont_t, typename value> struct IteratorValue { static void* get(typename Cont_t::iterator &iter) { return (void*)&(*iter); } }; template <typename Cont_t, typename value_ptr> struct IteratorValue<Cont_t, value_ptr*> { static void* get(typename Cont_t::iterator &iter) { return (void*)(*iter); } }; template <> struct IteratorValue<std::vector<bool>,bool> { static void* get(std::vector<bool>::iterator & /* iter */) { return 0; } }; /** @class template TCollectionProxyInfo::Iterators * * Small helper to implement the function to create,access and destroy * iterators. * **/ template <typename Cont_t, bool large = false> struct Iterators { typedef Cont_t *PCont_t; typedef typename Cont_t::iterator iterator; static void create(void *coll, void **begin_arena, void **end_arena, TVirtualCollectionProxy *) { PCont_t c = PCont_t(coll); new (*begin_arena) iterator(c->begin()); new (*end_arena) iterator(c->end()); } static void* copy(void *dest_arena, const void *source_ptr) { iterator *source = (iterator *)(source_ptr); new (dest_arena) iterator(*source); return dest_arena; } static void* next(void *iter_loc, const void *end_loc) { iterator *end = (iterator *)(end_loc); iterator *iter = (iterator *)(iter_loc); if (*iter != *end) { void *result = IteratorValue<Cont_t, typename Cont_t::value_type>::get(*iter); ++(*iter); return result; } return 0; } static void destruct1(void *iter_ptr) { iterator *start = (iterator *)(iter_ptr); start->~iterator(); } static void destruct2(void *begin_ptr, void *end_ptr) { iterator *start = (iterator *)(begin_ptr); iterator *end = (iterator *)(end_ptr); start->~iterator(); end->~iterator(); } }; // For Vector we take an extra short cut to avoid derefencing // the iterator all the time and redefine the 'address' of the // iterator as the iterator itself. This requires special handling // in the looper (see TStreamerInfoAction) but is much faster. template <typename T> struct Iterators<std::vector<T>, false> { typedef std::vector<T> Cont_t; typedef Cont_t *PCont_t; typedef typename Cont_t::iterator iterator; static void create(void *coll, void **begin_arena, void **end_arena, TVirtualCollectionProxy *) { PCont_t c = PCont_t(coll); if (c->empty()) { *begin_arena = 0; *end_arena = 0; return; } *begin_arena = &(*c->begin()); #ifdef R__VISUAL_CPLUSPLUS *end_arena = &(*(c->end()-1)) + 1; // On windows we can not dererence the end iterator at all. #else // coverity[past_the_end] Safe on other platforms *end_arena = &(*c->end()); #endif } static void* copy(void *dest, const void *source) { *(void**)dest = *(void**)source; return dest; } static void* next(void * /* iter_loc */, const void * /* end_loc */) { // Should not be used. assert(0 && "Intentionally not implemented, do not use."); return 0; } static void destruct1(void * /* iter_ptr */) { // Nothing to do } static void destruct2(void * /* begin_ptr */, void * /* end_ptr */) { // Nothing to do } }; template <> struct Iterators<std::vector<bool>, false> { typedef std::vector<bool> Cont_t; typedef Cont_t *PCont_t; typedef Cont_t::iterator iterator; static void create(void *coll, void **begin_arena, void **end_arena, TVirtualCollectionProxy *) { PCont_t c = PCont_t(coll); new (*begin_arena) iterator(c->begin()); new (*end_arena) iterator(c->end()); } static void* copy(void *dest_arena, const void *source_ptr) { iterator *source = (iterator *)(source_ptr); new (dest_arena) iterator(*source); return dest_arena; } static void* next(void *iter_loc, const void *end_loc) { iterator *end = (iterator *)(end_loc); iterator *iter = (iterator *)(iter_loc); if (*iter != *end) { void *result = IteratorValue<Cont_t, Cont_t::value_type>::get(*iter); ++(*iter); return result; } return 0; } static void destruct1(void *iter_ptr) { iterator *start = (iterator *)(iter_ptr); start->~iterator(); } static void destruct2(void *begin_ptr, void *end_ptr) { iterator *start = (iterator *)(begin_ptr); iterator *end = (iterator *)(end_ptr); start->~iterator(); end->~iterator(); } }; template <typename Cont_t> struct Iterators<Cont_t, /* large= */ true > { typedef Cont_t *PCont_t; typedef typename Cont_t::iterator iterator; static void create(void *coll, void **begin_arena, void **end_arena, TVirtualCollectionProxy *) { PCont_t c = PCont_t(coll); *begin_arena = new iterator(c->begin()); *end_arena = new iterator(c->end()); } static void* copy(void * /*dest_arena*/, const void *source_ptr) { iterator *source = (iterator *)(source_ptr); void *iter = new iterator(*source); return iter; } static void* next(void *iter_loc, const void *end_loc) { iterator *end = (iterator *)(end_loc); iterator *iter = (iterator *)(iter_loc); if (*iter != *end) { void *result = IteratorValue<Cont_t, typename Cont_t::value_type>::get(*iter); ++(*iter); return result; } return 0; } static void destruct1(void *begin_ptr) { iterator *start = (iterator *)(begin_ptr); delete start; } static void destruct2(void *begin_ptr, void *end_ptr) { iterator *start = (iterator *)(begin_ptr); iterator *end = (iterator *)(end_ptr); delete start; delete end; } }; template <class T> struct CollType #ifdef _KCC // KAI compiler : public Address<typename T::value_type&> #else : public Address<typename T::const_reference> #endif { #ifdef _KCC // KAI compiler typedef Address<typename T::value_type&> Address_t; #else typedef Address<typename T::const_reference> Address_t; #endif typedef T Cont_t; typedef typename T::iterator Iter_t; typedef typename T::value_type Value_t; typedef Reflex::Environ<Iter_t> Env_t; typedef Env_t* PEnv_t; typedef Cont_t* PCont_t; typedef Value_t* PValue_t; static inline PCont_t object(void* ptr) { return PCont_t(PEnv_t(ptr)->fObject); } static void* size(void* env) { PEnv_t e = PEnv_t(env); e->fSize = PCont_t(e->fObject)->size(); return &e->fSize; } static void* clear(void* env) { object(env)->clear(); return 0; } static void* first(void* env) { PEnv_t e = PEnv_t(env); PCont_t c = PCont_t(e->fObject); // Assume iterators do not need destruction e->fIterator = c->begin(); e->fSize = c->size(); if (0 == e->fSize) { return e->fStart = 0; } #ifdef _KCC // KAI compiler typename T::value_type& ref = *(e->iter()); #else typename T::const_reference ref = *(e->iter()); #endif return e->fStart = Address_t::address(ref); } static void* next(void* env) { PEnv_t e = PEnv_t(env); PCont_t c = PCont_t(e->fObject); for ( ; e->fIdx > 0 && e->iter() != c->end(); ++(e->iter()), --e->fIdx) {} // TODO: Need to find something for going backwards.... if (e->iter() == c->end()) { return 0; } #ifdef _KCC // KAI compiler typename T::value_type& ref = *(e->iter()); #else typename T::const_reference ref = *(e->iter()); #endif return Address_t::address(ref); } static void* construct(void* what, size_t size) { PValue_t m = PValue_t(what); for (size_t i = 0; i < size; ++i, ++m) { ::new (m) Value_t(); } return 0; } static void* collect(void* coll, void *array) { PCont_t c = PCont_t(coll); PValue_t m = PValue_t(array); for (Iter_t i = c->begin(); i != c->end(); ++i, ++m) { ::new (m) Value_t(*i); } return 0; } static void destruct(void* what, size_t size) { PValue_t m = PValue_t(what); for (size_t i = 0; i < size; ++i, ++m) { m->~Value_t(); } } static const bool fgLargeIterator = sizeof(typename Cont_t::iterator) > fgIteratorArenaSize; typedef Iterators<Cont_t,fgLargeIterator> Iterators_t; }; /** @class TCollectionProxy::Map TCollectionProxy.h TCollectionProxy.h * * Small helper to encapsulate all necessary data accesses for * containers like vector, list, deque * * @author M.Frank * @version 1.0 * @date 10/10/2004 */ template <class T> struct Pushback: public CollType<T> { typedef T Cont_t; typedef typename T::iterator Iter_t; typedef typename T::value_type Value_t; typedef Environ<Iter_t> Env_t; typedef Env_t* PEnv_t; typedef Cont_t* PCont_t; typedef Value_t* PValue_t; static void resize(void* obj, size_t n) { PCont_t c = PCont_t(obj); c->resize(n); } static void* feed(void*from,void *to,size_t size) { PValue_t m = PValue_t(from); PCont_t c = PCont_t(to); for (size_t i = 0; i < size; ++i, ++m) { c->push_back(*m); } return 0; } static int value_offset() { return 0; } }; /** @class TCollectionProxy::Map TCollectionProxy.h TCollectionProxy.h * * Small helper to encapsulate all necessary data accesses for * containers like set, multiset etc. * * @author M.Frank * @version 1.0 * @date 10/10/2004 */ template <class T> struct Insert: public CollType<T> { typedef T Cont_t; typedef typename T::iterator Iter_t; typedef typename T::value_type Value_t; typedef Environ<Iter_t> Env_t; typedef Env_t* PEnv_t; typedef Cont_t* PCont_t; typedef Value_t* PValue_t; static void* feed(void*from,void*to,size_t size) { PValue_t m = PValue_t(from); PCont_t c = PCont_t(to); for (size_t i = 0; i < size; ++i, ++m) { c->insert(*m); } return 0; } static void resize(void* /* obj */, size_t) { } static int value_offset() { return 0; } }; /** @class TCollectionProxy::Map TCollectionProxy.h TCollectionProxy.h * * Small helper to encapsulate all necessary data accesses for * containers like Set, multiset etc. * * @author M.Frank * @version 1.0 * @date 10/10/2004 */ template <class T> struct MapInsert: public CollType<T> { typedef T Cont_t; typedef typename T::iterator Iter_t; typedef typename T::value_type Value_t; typedef Environ<Iter_t> Env_t; typedef Env_t* PEnv_t; typedef Cont_t* PCont_t; typedef Value_t* PValue_t; static void* feed(void*from,void *to,size_t size) { PValue_t m = PValue_t(from); PCont_t c = PCont_t(to); for (size_t i = 0; i < size; ++i, ++m) { c->insert(*m); } return 0; } static void resize(void* /* obj */, size_t) { } static int value_offset() { return ((char*) &((PValue_t(0x1000))->second)) - ((char*) PValue_t(0x1000)); } }; #ifndef __CINT__ // Need specialization for boolean references due to stupid STL vector<bool> template <> inline void* Reflex::Address<std::vector<bool, std::allocator<bool> >::const_reference >::address(std::vector<bool, std::allocator<bool> >::const_reference) { return 0; } #endif } #include <vector> namespace Reflex { /** @class CollFuncTable * * Table containing pointers to concrete functions to manipulate * Collections in a generic way * * @author M.Frank */ struct RFLX_API CollFuncTable { size_t iter_size; size_t value_diff; int value_offset; void* (*size_func)(void*); void (*resize_func)(void*,size_t); void* (*clear_func)(void*); void* (*first_func)(void*); void* (*next_func)(void*); void* (*construct_func)(void*,size_t); void (*destruct_func)(void*,size_t); void* (*feed_func)(void*,void*,size_t); void* (*collect_func)(void*,void*); void* (*create_env)(); // Set of function of direct iteration of the collections. void (*fCreateIterators)(void *collection, void **begin_arena, void **end_arena, TVirtualCollectionProxy *proxy); // begin_arena and end_arena should contain the location of memory arena of size fgIteratorSize. // If the collection iterator are of that size or less, the iterators will be constructed in place in those location (new with placement) // Otherwise the iterators will be allocated via a regular new and their address returned by modifying the value of begin_arena and end_arena. void* (*fCopyIterator)(void *dest, const void *source); // Copy the iterator source, into dest. dest should contain should contain the location of memory arena of size fgIteratorSize. // If the collection iterator are of that size or less, the iterator will be constructed in place in this location (new with placement) // Otherwise the iterator will be allocated via a regular new and its address returned by modifying the value of dest. void* (*fNext)(void *iter, const void *end); // iter and end should be pointer to respectively an iterator to be incremented and the result of colleciton.end() // 'Next' will increment the iterator 'iter' and return 0 if the iterator reached the end. // If the end is not reached, 'Next' will return the address of the content unless the collection contains pointers in // which case 'Next' will return the value of the pointer. void (*fDeleteSingleIterator)(void *iter); void (*fDeleteTwoIterators)(void *begin, void *end); // If the sizeof iterator is greater than fgIteratorArenaSize, call delete on the addresses, // Otherwise just call the iterator's destructor. }; template <typename T> struct CFTGenerator { static CollFuncTable* Generate() { typedef typename T::Value_t Value_t; typedef std::pair<Value_t, Value_t> Pair_t; Pair_t* ptr = (Pair_t*) 0x1000; CollFuncTable* p = new CollFuncTable(); p->iter_size = sizeof(typename T::Iter_t); p->value_diff = ((char*) &ptr->second) - ((char*) &ptr->first); p->value_offset = T::value_offset(); p->size_func = T::size; p->first_func = T::first; p->next_func = T::next; p->clear_func = T::clear; p->resize_func = T::resize; p->collect_func = T::collect; p->construct_func = T::construct; p->destruct_func = T::destruct; p->feed_func = T::feed; p->create_env = T::Env_t::Create; p->fCreateIterators = T::Iterators_t::create; p->fCopyIterator = T::Iterators_t::copy; p->fNext = T::Iterators_t::next; p->fDeleteSingleIterator = T::Iterators_t::destruct1; p->fDeleteTwoIterators = T::Iterators_t::destruct2; return p; } // Generate }; struct CFTNullGenerator { static void* Void_func(void*) { return 0; } static void* Void_func0() { return 0; } static void Void_func2b(void*,size_t) { ; } static void* Void_func2c(void*,void*) { return 0; } static void* Void_func2(void*,size_t) { return 0; } static void* Void_func3(void*,void*,size_t) { return 0; } static CollFuncTable* Generate() { CollFuncTable* p = new CollFuncTable(); p->iter_size = 4; p->value_diff = 0; p->value_offset = 0; p->size_func = Void_func; p->first_func = Void_func; p->next_func = Void_func; p->clear_func = Void_func; p->resize_func = Void_func2b; p->collect_func = Void_func2c; p->construct_func = Void_func2; p->destruct_func = Void_func2b; p->feed_func = Void_func3; p->create_env = Void_func0; p->fCreateIterators = 0; p->fCopyIterator = 0; p->fNext = 0; p->fDeleteSingleIterator = 0; p->fDeleteTwoIterators = 0; return p; } // Generate }; // General proxy (dummy) template <typename A> struct Proxy {}; // Specialization for std::vector template <class T, class A> struct Proxy<std::vector<T, A> > { static CollFuncTable* Generate() { return CFTGenerator<Pushback<std::vector<T, A> > >::Generate(); } }; // Specialization for std::list template <class T, class A> struct Proxy<std::list<T, A> > { static CollFuncTable* Generate() { return CFTGenerator<Pushback<std::list<T, A> > >::Generate(); } }; // Specialization for std::deque template <class T, class A> struct Proxy<std::deque<T, A> > { static CollFuncTable* Generate() { return CFTGenerator<Pushback<std::deque<T, A> > >::Generate(); } }; // Specialization for std::set template <class K, class T, class A> struct Proxy<std::set<K, T, A> > { static CollFuncTable* Generate() { return CFTGenerator<Insert<std::set<K, T, A> > >::Generate(); } }; // Specialization for std::multiset template <class K, class T, class A> struct Proxy<std::multiset<K, T, A> > { static CollFuncTable* Generate() { return CFTGenerator<Insert<std::multiset<K, T, A> > >::Generate(); } }; // Specialization for std::map template <class K, class T, class R, class A> struct Proxy<std::map<K, T, R, A> > { static CollFuncTable* Generate() { return CFTGenerator<MapInsert<std::map<K, T, R, A> > >::Generate(); } }; // Specialization for std::multimap template <class K, class T, class R, class A> struct Proxy<std::multimap<K, T, R, A> > { static CollFuncTable* Generate() { return CFTGenerator<MapInsert<std::multimap<K, T, R, A> > >::Generate(); } }; // Specialization for std::queue -- not implemented template <class K, class T> struct Proxy<std::queue<K, T> > { static CollFuncTable* Generate() { return CFTNullGenerator::Generate(); } }; // Specialization for std::stack -- not implemented template <class K, class T> struct Proxy<std::stack<K, T> > { static CollFuncTable* Generate() { return CFTNullGenerator::Generate(); } }; #if defined(__GNUC__) // Specialization for __gnu_cxx::hash_set template <class T, class F, class E, class A> struct Proxy<__gnu_cxx::hash_set<T, F, E, A> > { static CollFuncTable* Generate() { return CFTGenerator<Insert<__gnu_cxx::hash_set<T, F, E, A> > >::Generate(); } }; // Specialization for __gnu_cxx::hash_multiset template <class T, class F, class E, class A> struct Proxy<__gnu_cxx::hash_multiset<T, F, E, A> > { static CollFuncTable* Generate() { return CFTGenerator<Insert<__gnu_cxx::hash_multiset<T, F, E, A> > >::Generate(); } }; // Specialization for __gnu_cxx::hash_map template <class K, class T, class F, class E, class A> struct Proxy<__gnu_cxx::hash_map<K, T, F, E, A> > { static CollFuncTable* Generate() { return CFTGenerator<MapInsert<__gnu_cxx::hash_map<K, T, F, E, A> > >::Generate(); } }; // Specialization for __gnu_cxx::hash_multimap template <class K, class T, class F, class E, class A> struct Proxy<__gnu_cxx::hash_multimap<K, T, F, E, A> > { static CollFuncTable* Generate() { return CFTGenerator<MapInsert<__gnu_cxx::hash_multimap<K, T, F, E, A> > >::Generate(); } }; #elif defined(_WIN32) // Specialization for stdext::hash_multiset template <class K, class T, class A> struct Proxy<stdext::hash_multiset<K, T, A> > { static CollFuncTable* Generate() { return CFTGenerator<Insert<stdext::hash_multiset<K, T, A> > >::Generate(); } }; // Specialization for stdext::hash_set template <class K, class T, class A> struct Proxy<stdext::hash_set<K, T, A> > { static CollFuncTable* Generate() { return CFTGenerator<Insert<stdext::hash_set<K, T, A> > >::Generate(); } }; // Specialization for stdext::hash_map template <class K, class T, class R, class A> struct Proxy<stdext::hash_map<K, T, R, A> > { static CollFuncTable* Generate() { return CFTGenerator<MapInsert<stdext::hash_map<K, T, R, A> > >::Generate(); } }; // Specialization for stdext::hash_multimap template <class K, class T, class R, class A> struct Proxy<stdext::hash_multimap<K, T, R, A> > { static CollFuncTable* Generate() { return CFTGenerator<MapInsert<stdext::hash_multimap<K, T, R, A> > >::Generate(); } }; #endif // Specialization for std::bitset template <typename B> struct StdBitSetHelper {}; #ifndef __CINT__ template <typename Bitset_t> struct CollType<StdBitSetHelper<Bitset_t> > : public Address<const bool&> { typedef Bitset_t Cont_t; typedef std::pair<size_t, bool> Iter_t; typedef bool Value_t; typedef Environ<Iter_t> Env_t; typedef Env_t* PEnv_t; typedef Cont_t* PCont_t; typedef Value_t* PValue_t; virtual ~CollType() {} static inline PCont_t object(void* ptr) { return PCont_t(PEnv_t(ptr)->fObject); } static void* size(void* env) { PEnv_t e = PEnv_t(env); e->fSize = PCont_t(e->fObject)->size(); return &e->fSize; } static void* clear(void* env) { object(env)->reset(); return 0; } static void* first(void* env) { PEnv_t e = PEnv_t(env); PCont_t c = PCont_t(e->fObject); e->fIterator.first = 0; e->fIterator.second = c->size() > 0 ? c->test(e->fIterator.first) : false; // Iterator actually hold the value. e->fSize = c->size(); return 0; } static void* next(void* env) { PEnv_t e = PEnv_t(env); PCont_t c = PCont_t(e->fObject); for ( ; e->fIdx > 0 && e->fIterator.first != c->size(); ++(e->fIterator.first), --e->fIdx) {} e->fIterator.second = (e->fIterator.first != c->size()) ? c->test(e->fIterator.first) : false; return 0; } static void* construct(void*,size_t) { // Nothing to construct. return 0; } static void* collect(void* coll, void *array) { PCont_t c = PCont_t(coll); PValue_t m = PValue_t(array); // 'start' is a buffer outside the container. for (size_t i = 0; i != c->size(); ++i, ++m) { *m = c->test(i); } return 0; } static void destruct(void*,size_t) { // Nothing to destruct. } struct Iterators { typedef Cont_t *PCont_t; union PtrSize_t { size_t fIndex; void *fAddress; }; typedef std::pair<PtrSize_t,bool> iterator; // In the end iterator we store the bitset pointer // and do not use the 'second' part of the pair. // In the other iterator we store the index // and the value. static void create(void *coll, void **begin_arena, void **end_arena, TVirtualCollectionProxy *) { iterator *begin = new (*begin_arena) iterator; begin->first.fIndex = 0; begin->second = false; iterator *end = new (*end_arena) iterator; end->first.fAddress = coll; end->second = false; } static void* copy(void *dest_arena, const void *source_ptr) { const iterator *source = (const iterator *)(source_ptr); new (dest_arena) iterator(*source); return dest_arena; } static void* next(void *iter_loc, const void *end_loc) { const iterator *end = (const iterator *)(end_loc); PCont_t c = (PCont_t)end->first.fAddress; iterator *iter = (iterator *)(iter_loc); if (iter->first.fIndex != c->size()) { iter->second = c->test(iter->first.fIndex); ++(iter->first.fIndex); } return &(iter->second); } static void destruct1(void *iter_ptr) { iterator *start = (iterator *)(iter_ptr); start->~iterator(); } static void destruct2(void *begin_ptr, void *end_ptr) { iterator *start = (iterator *)(begin_ptr); iterator *end = (iterator *)(end_ptr); start->~iterator(); end->~iterator(); } }; typedef Iterators Iterators_t; }; template <typename Bitset_t> struct Pushback<StdBitSetHelper<Bitset_t> > : public CollType<StdBitSetHelper<Bitset_t> > { typedef Bitset_t Cont_t; typedef bool Iter_t; typedef bool Value_t; typedef Environ<Iter_t> Env_t; typedef Env_t* PEnv_t; typedef Cont_t* PCont_t; typedef Value_t* PValue_t; static void resize(void* /*obj*/, size_t) { } static void* feed(void* env) { PEnv_t e = PEnv_t(env); PCont_t c = PCont_t(e->fObject); PValue_t m = PValue_t(e->fStart); // Here start is actually a 'buffer' outside the container. for (size_t i = 0; i < e->fSize; ++i, ++m) { c->set(i, *m); } return 0; } static void* feed(void* from, void* to, size_t size) { PValue_t m = PValue_t(from); PCont_t c = PCont_t(to); for (size_t i = 0; i < size; ++i, ++m) { c->set(i, *m); } return 0; } static int value_offset() { return 0; } }; #endif template <typename B> struct Proxy<StdBitSetHelper<B> > { static CollFuncTable* Generate() { return CFTGenerator<Pushback<StdBitSetHelper<B> > >::Generate(); } }; } #endif // Reflex_CollectionProxy
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