1
0
mirror of https://github.com/vcmi/vcmi.git synced 2024-12-16 10:19:47 +02:00
vcmi/lib/serializer/CSerializer.h
Dydzio 98140aab6b Add option to toggle monthly artifact change in black market (#341)
* Add black market art change as hardcodedFeature
2017-07-15 00:46:18 +03:00

200 lines
5.3 KiB
C++

/*
* CSerializer.h, part of VCMI engine
*
* Authors: listed in file AUTHORS in main folder
*
* License: GNU General Public License v2.0 or later
* Full text of license available in license.txt file, in main folder
*
*/
#pragma once
#include "../ConstTransitivePtr.h"
#include "../GameConstants.h"
const ui32 SERIALIZATION_VERSION = 776;
const ui32 MINIMAL_SERIALIZATION_VERSION = 753;
const std::string SAVEGAME_MAGIC = "VCMISVG";
class CHero;
class CGHeroInstance;
class CGObjectInstance;
class CGameState;
class LibClasses;
extern DLL_LINKAGE LibClasses * VLC;
struct TypeComparer
{
bool operator()(const std::type_info *a, const std::type_info *b) const
{
//#ifndef __APPLE__
// return a->before(*b);
//#else
return strcmp(a->name(), b->name()) < 0;
//#endif
}
};
template <typename ObjType, typename IdType>
struct VectorizedObjectInfo
{
const std::vector<ConstTransitivePtr<ObjType> > *vector; //pointer to the appropriate vector
std::function<IdType(const ObjType &)> idRetriever;
VectorizedObjectInfo(const std::vector< ConstTransitivePtr<ObjType> > *Vector, std::function<IdType(const ObjType &)> IdGetter)
:vector(Vector), idRetriever(IdGetter)
{
}
};
/// Base class for serializers capable of reading or writing data
class DLL_LINKAGE CSerializer
{
template<typename T>
static si32 idToNumber(const T &t, typename boost::enable_if<boost::is_convertible<T,si32> >::type * dummy = 0)
{
return t;
}
template<typename T, typename NT>
static NT idToNumber(const BaseForID<T, NT> &t)
{
return t.getNum();
}
template <typename T, typename U>
void registerVectoredType(const std::vector<T*> *Vector, const std::function<U(const T&)> &idRetriever)
{
vectors[&typeid(T)] = VectorizedObjectInfo<T, U>(Vector, idRetriever);
}
template <typename T, typename U>
void registerVectoredType(const std::vector<ConstTransitivePtr<T> > *Vector, const std::function<U(const T&)> &idRetriever)
{
vectors[&typeid(T)] = VectorizedObjectInfo<T, U>(Vector, idRetriever);
}
typedef std::map<const std::type_info *, boost::any, TypeComparer> TTypeVecMap;
TTypeVecMap vectors; //entry must be a pointer to vector containing pointers to the objects of key type
public:
bool smartVectorMembersSerialization;
bool sendStackInstanceByIds;
CSerializer();
~CSerializer();
virtual void reportState(CLogger * out){};
template <typename T, typename U>
const VectorizedObjectInfo<T, U> *getVectorizedTypeInfo()
{
const std::type_info *myType = nullptr;
myType = &typeid(T);
TTypeVecMap::iterator i = vectors.find(myType);
if(i == vectors.end())
return nullptr;
else
{
assert(!i->second.empty());
assert(i->second.type() == typeid(VectorizedObjectInfo<T, U>));
VectorizedObjectInfo<T, U> *ret = &(boost::any_cast<VectorizedObjectInfo<T, U>&>(i->second));
return ret;
}
}
template <typename T, typename U>
T* getVectorItemFromId(const VectorizedObjectInfo<T, U> &oInfo, U id) const
{
si32 idAsNumber = idToNumber(id);
assert(oInfo.vector);
assert(static_cast<si32>(oInfo.vector->size()) > idAsNumber);
return const_cast<T*>((*oInfo.vector)[idAsNumber].get());
}
template <typename T, typename U>
U getIdFromVectorItem(const VectorizedObjectInfo<T, U> &oInfo, const T* obj) const
{
if(!obj)
return U(-1);
return oInfo.idRetriever(*obj);
}
void addStdVecItems(CGameState *gs, LibClasses *lib = VLC);
};
/// Helper to detect classes with user-provided serialize(S&, int version) method
template<class S, class T>
struct is_serializeable
{
typedef char (&Yes)[1];
typedef char (&No)[2];
template<class U>
static Yes test(U * data, S* arg1 = 0,
typename std::enable_if<std::is_void<
decltype(data->serialize(*arg1, int(0)))
>::value>::type * = 0);
static No test(...);
static const bool value = sizeof(Yes) == sizeof(is_serializeable::test((typename std::remove_reference<typename std::remove_cv<T>::type>::type*)0));
};
template <typename T> //metafunction returning CGObjectInstance if T is its derivate or T elsewise
struct VectorizedTypeFor
{
typedef typename
//if
boost::mpl::eval_if<std::is_same<CGHeroInstance,T>,
boost::mpl::identity<CGHeroInstance>,
//else if
boost::mpl::eval_if<std::is_base_of<CGObjectInstance,T>,
boost::mpl::identity<CGObjectInstance>,
//else
boost::mpl::identity<T>
> >::type type;
};
template <typename U>
struct VectorizedIDType
{
typedef typename
//if
boost::mpl::eval_if<std::is_same<CArtifact,U>,
boost::mpl::identity<ArtifactID>,
//else if
boost::mpl::eval_if<std::is_same<CCreature,U>,
boost::mpl::identity<CreatureID>,
//else if
boost::mpl::eval_if<std::is_same<CHero,U>,
boost::mpl::identity<HeroTypeID>,
//else if
boost::mpl::eval_if<std::is_same<CArtifactInstance,U>,
boost::mpl::identity<ArtifactInstanceID>,
//else if
boost::mpl::eval_if<std::is_same<CGHeroInstance,U>,
boost::mpl::identity<HeroTypeID>,
//else if
boost::mpl::eval_if<std::is_base_of<CGObjectInstance,U>,
boost::mpl::identity<ObjectInstanceID>,
//else
boost::mpl::identity<si32>
> > > > > >::type type;
};
/// Base class for deserializers
class IBinaryReader : public virtual CSerializer
{
public:
virtual int read(void * data, unsigned size) = 0;
};
/// Base class for serializers
class IBinaryWriter : public virtual CSerializer
{
public:
virtual int write(const void * data, unsigned size) = 0;
};