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#pragma once
#include "Runtime/mecanim/memory.h"
template<typename T, int SIZE>
struct StaticArrayTransfer
{
enum
{
m_ArraySize = SIZE
};
size_t m_Size;
typedef T* iterator;
typedef T value_type;
T (&m_Data)[SIZE];
StaticArrayTransfer (T (&data)[SIZE]):m_Data(data),m_Size(m_ArraySize)
{
}
void reserve(size_t size)
{
m_Size = std::min<size_t>(size, m_ArraySize);
}
iterator begin () { return &m_Data[0]; }
iterator end () { return &m_Data[m_Size]; }
size_t size() { return m_Size; }
};
template<typename T, int SIZE>
class SerializeTraits< StaticArrayTransfer<T, SIZE> > : public SerializeTraitsBase< StaticArrayTransfer<T, SIZE> >
{
public:
DEFINE_GET_TYPESTRING_CONTAINER (staticvector)
typedef StaticArrayTransfer<T, SIZE> value_type;
static size_t GetAlignOf() {return ALIGN_OF(T);}
template<class TransferFunction> inline
static void Transfer (value_type& data, TransferFunction& transfer)
{
transfer.TransferSTLStyleArray (data);
}
static bool IsContinousMemoryArray () { return true; }
static void ResizeSTLStyleArray (value_type& data, int rs)
{
data.reserve(rs);
}
static void resource_image_assign_external (value_type& data, void* begin, void* end)
{
}
};
#define STATIC_ARRAY_TRANSFER(TYPE,DATA,SIZE) StaticArrayTransfer<TYPE, SIZE> DATA##ArrayTransfer (DATA); transfer.Transfer(DATA##ArrayTransfer, #DATA);
template<class T, class TransferFunction>
struct ManualArrayTransfer
{
typedef T* iterator;
typedef T value_type;
T** m_Data;
mecanim::uint32_t* m_ArraySize;
void* m_Allocator;
TransferFunction& m_Transfer;
ManualArrayTransfer (T*& data, mecanim::uint32_t& size, void* allocator, TransferFunction& transfer):m_Transfer(transfer)
{
m_Allocator = allocator;
m_Data = &data;
m_ArraySize = &size;
}
T* begin () { return *m_Data; }
T* end () { return *m_Data + *m_ArraySize; }
size_t size() { return *m_ArraySize; }
void resize (int size)
{
if(m_Transfer.IsReading() || m_Transfer.IsWriting() || m_Transfer.IsRemapPPtrTransfer())
{
mecanim::memory::ChainedAllocator* allocator = static_cast<mecanim::memory::ChainedAllocator*> (m_Allocator);
Assert(allocator != NULL);
*m_Data = allocator->ConstructArray<T> (size);
*m_ArraySize = size;
}
}
};
template<class T, class TransferFunction>
struct ManualArrayTransfer<T*, TransferFunction>
{
typedef T** iterator;
typedef T* value_type;
value_type** m_Data;
mecanim::uint32_t* m_ArraySize;
void* m_Allocator;
TransferFunction& m_Transfer;
ManualArrayTransfer (value_type *& data, mecanim::uint32_t& size, void* allocator, TransferFunction& transfer):m_Transfer(transfer)
{
m_Allocator = allocator;
m_Data = &data;
m_ArraySize = &size;
}
value_type* begin () { return *m_Data; }
value_type* end () { return *m_Data + *m_ArraySize; }
size_t size() { return *m_ArraySize; }
void resize (int size)
{
if(m_Transfer.IsReading() || m_Transfer.IsWriting() || m_Transfer.IsRemapPPtrTransfer())
{
mecanim::memory::ChainedAllocator* allocator = static_cast<mecanim::memory::ChainedAllocator*> (m_Allocator);
Assert(allocator != NULL);
*m_Data = allocator->ConstructArray<value_type> (size);
memset(*m_Data, 0, sizeof(value_type)*size);
*m_ArraySize = size;
}
}
};
template<class T, class TransferFunction2>
class SerializeTraits<ManualArrayTransfer<T, TransferFunction2> > : public SerializeTraitsBase<ManualArrayTransfer<T, TransferFunction2> >
{
public:
typedef ManualArrayTransfer<T, TransferFunction2> value_type;
DEFINE_GET_TYPESTRING_CONTAINER (vector)
template<class TransferFunction> inline
static void Transfer (value_type& data, TransferFunction& transfer)
{
transfer.TransferSTLStyleArray (data);
}
static bool IsContinousMemoryArray () { return true; }
static void ResizeSTLStyleArray (value_type& data, int rs)
{
data.resize(rs);
}
static void resource_image_assign_external (value_type& data, void* begin, void* end)
{
}
};
#define TRANSFER_NULLABLE(x,TYPE) \
if (transfer.IsReading () || transfer.IsWriting ()) \
{ \
if (x == NULL) \
{ \
mecanim::memory::ChainedAllocator* allocator = static_cast<mecanim::memory::ChainedAllocator*> (transfer.GetUserData()); \
x = allocator->Construct<TYPE>(); \
} \
transfer.Transfer(*x, #x); \
} \
else \
{ \
TYPE p; \
transfer.Transfer(p, #x); \
}
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