mirror of
https://github.com/vcmi/vcmi.git
synced 2024-12-22 22:13:35 +02:00
380 lines
9.3 KiB
C++
380 lines
9.3 KiB
C++
/*
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* BinarySerializer.h, part of VCMI engine
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*
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* Authors: listed in file AUTHORS in main folder
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*
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* License: GNU General Public License v2.0 or later
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* Full text of license available in license.txt file, in main folder
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*
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*/
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#pragma once
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#include "CTypeList.h"
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#include "../mapObjects/CArmedInstance.h"
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class FileStream;
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class DLL_LINKAGE CSaverBase
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{
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protected:
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IBinaryWriter * writer;
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public:
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CSaverBase(IBinaryWriter * w): writer(w){};
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inline int write(const void * data, unsigned size)
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{
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return writer->write(data, size);
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};
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};
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/// Main class for serialization of classes into binary form
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/// Behaviour for various classes is following:
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/// Primitives: copy memory into underlying stream (defined in CSaverBase)
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/// Containers: custom overloaded method that decouples class into primitives
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/// VCMI Classes: recursively serialize them via ClassName::serialize( BinarySerializer &, int version) call
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class DLL_LINKAGE BinarySerializer : public CSaverBase
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{
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template <typename Handler>
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struct VariantVisitorSaver : boost::static_visitor<>
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{
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Handler &h;
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VariantVisitorSaver(Handler &H):h(H)
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{
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}
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template <typename T>
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void operator()(const T &t)
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{
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h & t;
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}
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};
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template<typename Ser,typename T>
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struct SaveIfStackInstance
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{
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static bool invoke(Ser &s, const T &data)
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{
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return false;
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}
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};
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template<typename Ser>
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struct SaveIfStackInstance<Ser, CStackInstance *>
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{
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static bool invoke(Ser &s, const CStackInstance* const &data)
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{
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assert(data->armyObj);
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SlotID slot;
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if(data->getNodeType() == CBonusSystemNode::COMMANDER)
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slot = SlotID::COMMANDER_SLOT_PLACEHOLDER;
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else
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slot = data->armyObj->findStack(data);
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assert(slot != SlotID());
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s & data->armyObj & slot;
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return true;
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}
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};
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template <typename T> class CPointerSaver;
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class CBasicPointerSaver
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{
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public:
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virtual void savePtr(CSaverBase &ar, const void *data) const =0;
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virtual ~CBasicPointerSaver(){}
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template<typename T> static CBasicPointerSaver *getApplier(const T * t=nullptr)
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{
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return new CPointerSaver<T>();
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}
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};
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template <typename T>
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class CPointerSaver : public CBasicPointerSaver
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{
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public:
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void savePtr(CSaverBase &ar, const void *data) const override
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{
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BinarySerializer &s = static_cast<BinarySerializer&>(ar);
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const T *ptr = static_cast<const T*>(data);
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//T is most derived known type, it's time to call actual serialize
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const_cast<T*>(ptr)->serialize(s, SERIALIZATION_VERSION);
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}
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};
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CApplier<CBasicPointerSaver> applier;
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public:
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std::map<const void*, ui32> savedPointers;
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bool smartPointerSerialization;
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bool saving;
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BinarySerializer(IBinaryWriter * w): CSaverBase(w)
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{
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saving=true;
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smartPointerSerialization = true;
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}
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template<typename Base, typename Derived>
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void registerType(const Base * b = nullptr, const Derived * d = nullptr)
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{
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applier.registerType(b, d);
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}
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template<class T>
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BinarySerializer & operator&(const T & t)
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{
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this->save(t);
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return * this;
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}
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template < typename T, typename std::enable_if < std::is_same<T, bool>::value, int >::type = 0 >
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void save(const T &data)
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{
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ui8 writ = static_cast<ui8>(data);
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save(writ);
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}
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template < typename T, typename std::enable_if < std::is_same<T, std::vector<bool> >::value, int >::type = 0 >
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void save(const T &data)
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{
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std::vector<ui8> convData;
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std::copy(data.begin(), data.end(), std::back_inserter(convData));
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save(convData);
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}
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template < class T, typename std::enable_if < std::is_fundamental<T>::value && !std::is_same<T, bool>::value, int >::type = 0 >
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void save(const T &data)
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{
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// save primitive - simply dump binary data to output
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this->write(&data,sizeof(data));
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}
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template < typename T, typename std::enable_if < std::is_enum<T>::value, int >::type = 0 >
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void save(const T &data)
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{
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si32 writ = static_cast<si32>(data);
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*this & writ;
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}
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template < typename T, typename std::enable_if < std::is_array<T>::value, int >::type = 0 >
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void save(const T &data)
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{
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ui32 size = ARRAY_COUNT(data);
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for(ui32 i=0; i < size; i++)
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*this & data[i];
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}
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template < typename T, typename std::enable_if < std::is_pointer<T>::value, int >::type = 0 >
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void save(const T &data)
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{
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//write if pointer is not nullptr
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ui8 hlp = (data!=nullptr);
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save(hlp);
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//if pointer is nullptr then we don't need anything more...
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if(!hlp)
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return;
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if(writer->smartVectorMembersSerialization)
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{
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typedef typename std::remove_const<typename std::remove_pointer<T>::type>::type TObjectType;
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typedef typename VectorizedTypeFor<TObjectType>::type VType;
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typedef typename VectorizedIDType<TObjectType>::type IDType;
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if(const auto *info = writer->getVectorizedTypeInfo<VType, IDType>())
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{
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IDType id = writer->getIdFromVectorItem<VType>(*info, data);
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save(id);
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if(id != IDType(-1)) //vector id is enough
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return;
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}
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}
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if(writer->sendStackInstanceByIds)
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{
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const bool gotSaved = SaveIfStackInstance<BinarySerializer,T>::invoke(*this, data);
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if(gotSaved)
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return;
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}
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if(smartPointerSerialization)
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{
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// We might have an object that has multiple inheritance and store it via the non-first base pointer.
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// Therefore, all pointers need to be normalized to the actual object address.
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auto actualPointer = typeList.castToMostDerived(data);
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std::map<const void*,ui32>::iterator i = savedPointers.find(actualPointer);
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if(i != savedPointers.end())
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{
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//this pointer has been already serialized - write only it's id
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save(i->second);
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return;
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}
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//give id to this pointer
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ui32 pid = (ui32)savedPointers.size();
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savedPointers[actualPointer] = pid;
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save(pid);
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}
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//write type identifier
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ui16 tid = typeList.getTypeID(data);
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save(tid);
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if(!tid)
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save(*data); //if type is unregistered simply write all data in a standard way
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else
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applier.getApplier(tid)->savePtr(*this, typeList.castToMostDerived(data)); //call serializer specific for our real type
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}
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template < typename T, typename std::enable_if < is_serializeable<BinarySerializer, T>::value, int >::type = 0 >
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void save(const T &data)
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{
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const_cast<T&>(data).serialize(*this, SERIALIZATION_VERSION);
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}
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template <typename T>
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void save(const std::shared_ptr<T> &data)
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{
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T *internalPtr = data.get();
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save(internalPtr);
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}
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template <typename T>
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void save(const std::shared_ptr<const T> &data)
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{
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const T *internalPtr = data.get();
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save(internalPtr);
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}
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template <typename T>
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void save(const std::unique_ptr<T> &data)
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{
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T *internalPtr = data.get();
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save(internalPtr);
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}
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template <typename T, typename std::enable_if < !std::is_same<T, bool >::value, int >::type = 0>
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void save(const std::vector<T> &data)
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{
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ui32 length = (ui32)data.size();
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*this & length;
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for(ui32 i=0;i<length;i++)
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save(data[i]);
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}
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template <typename T, size_t N>
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void save(const std::array<T, N> &data)
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{
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for(ui32 i=0; i < N; i++)
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save(data[i]);
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}
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template <typename T>
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void save(const std::set<T> &data)
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{
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std::set<T> &d = const_cast<std::set<T> &>(data);
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ui32 length = (ui32)d.size();
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save(length);
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for(typename std::set<T>::iterator i=d.begin();i!=d.end();i++)
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save(*i);
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}
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template <typename T, typename U>
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void save(const std::unordered_set<T, U> &data)
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{
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std::unordered_set<T, U> &d = const_cast<std::unordered_set<T, U> &>(data);
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ui32 length = (ui32)d.size();
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*this & length;
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for(typename std::unordered_set<T, U>::iterator i=d.begin();i!=d.end();i++)
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save(*i);
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}
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template <typename T>
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void save(const std::list<T> &data)
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{
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std::list<T> &d = const_cast<std::list<T> &>(data);
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ui32 length = (ui32)d.size();
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*this & length;
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for(typename std::list<T>::iterator i=d.begin();i!=d.end();i++)
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save(*i);
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}
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void save(const std::string &data)
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{
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save(ui32(data.length()));
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this->write(data.c_str(),(unsigned int)data.size());
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}
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template <typename T1, typename T2>
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void save(const std::pair<T1,T2> &data)
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{
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save(data.first);
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save(data.second);
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}
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template <typename T1, typename T2>
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void save(const std::map<T1,T2> &data)
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{
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*this & ui32(data.size());
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for(typename std::map<T1,T2>::const_iterator i=data.begin();i!=data.end();i++)
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{
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save(i->first);
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save(i->second);
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}
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}
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template <typename T1, typename T2>
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void save(const std::multimap<T1, T2> &data)
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{
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*this & ui32(data.size());
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for(typename std::map<T1, T2>::const_iterator i = data.begin(); i != data.end(); i++)
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{
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save(i->first);
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save(i->second);
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}
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}
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template <BOOST_VARIANT_ENUM_PARAMS(typename T)>
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void save(const boost::variant<BOOST_VARIANT_ENUM_PARAMS(T)> &data)
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{
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si32 which = data.which();
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save(which);
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VariantVisitorSaver<BinarySerializer> visitor(*this);
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boost::apply_visitor(visitor, data);
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}
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template <typename T>
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void save(const boost::optional<T> &data)
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{
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if(data)
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{
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save((ui8)1);
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save(*data);
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}
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else
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{
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save((ui8)0);
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}
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}
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};
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class DLL_LINKAGE CSaveFile : public IBinaryWriter
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{
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public:
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BinarySerializer serializer;
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boost::filesystem::path fName;
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std::unique_ptr<FileStream> sfile;
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CSaveFile(const boost::filesystem::path &fname); //throws!
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~CSaveFile();
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int write(const void * data, unsigned size) override;
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void openNextFile(const boost::filesystem::path &fname); //throws!
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void clear();
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void reportState(vstd::CLoggerBase * out) override;
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void putMagicBytes(const std::string &text);
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template<class T>
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CSaveFile & operator<<(const T &t)
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{
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serializer & t;
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return * this;
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}
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};
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