metaforce/Runtime/CToken.hpp

190 lines
5.6 KiB
C++

#pragma once
#include <memory>
#include "IObj.hpp"
#include "RetroTypes.hpp"
#include "IVParamObj.hpp"
#include "IObjectStore.hpp"
#include "IFactory.hpp"
namespace urde
{
class IObjectStore;
/** Shared data-structure for CToken references, analogous to std::shared_ptr */
class CObjectReference
{
friend class CToken;
friend class CSimplePool;
u16 x0_refCount = 0;
u16 x2_lockCount = 0;
bool x3_loading = false; /* Rightmost bit of lockCount */
SObjectTag x4_objTag;
IObjectStore* xC_objectStore = nullptr;
std::unique_ptr<IObj> x10_object;
CVParamTransfer x14_params;
/** Mechanism by which CToken decrements 1st ref-count, indicating CToken invalidation or reset.
* Reaching 0 indicates the CToken should delete the CObjectReference */
u16 RemoveReference();
CObjectReference(IObjectStore& objStore, std::unique_ptr<IObj>&& obj,
const SObjectTag& objTag, CVParamTransfer buildParams);
CObjectReference(std::unique_ptr<IObj>&& obj);
/** Indicates an asynchronous load transaction has been submitted and is not yet finished */
bool IsLoading() const {return x3_loading;}
/** Indicates an asynchronous load transaction has finished and object is completely loaded */
bool IsLoaded() const {return x10_object.operator bool();}
/** Decrements 2nd ref-count, performing unload or async-load-cancel if 0 reached */
void Unlock();
/** Increments 2nd ref-count, performing async-factory-load if needed */
void Lock();
void CancelLoad();
/** Pointer-synchronized object-destructor, another building Lock cycle may be performed after */
void Unload();
/** Synchronous object-fetch, guaranteed to return complete object on-demand, blocking build if not ready */
IObj* GetObject();
public:
const SObjectTag& GetObjectTag() const { return x4_objTag; }
~CObjectReference();
};
/** Counted meta-object, reference-counting against a shared CObjectReference
* This class is analogous to std::shared_ptr and C++11 rvalues have been implemented accordingly
* (default/empty constructor, move constructor/assign) */
class CToken
{
friend class CSimplePool;
friend class CModel;
CObjectReference* x0_objRef = nullptr;
bool x4_lockHeld = false;
void RemoveRef();
CToken(CObjectReference* obj);
public:
/* Added to test for non-null state */
operator bool() const {return x0_objRef != nullptr;}
void Unlock();
void Lock();
bool IsLocked() const {return x4_lockHeld;}
bool IsLoaded() const;
IObj* GetObj();
const IObj* GetObj() const
{
return const_cast<CToken*>(this)->GetObj();
}
CToken& operator=(const CToken& other);
CToken& operator=(CToken&& other);
CToken() = default;
CToken(const CToken& other);
CToken(CToken&& other);
CToken(IObj* obj);
CToken(std::unique_ptr<IObj>&& obj);
const SObjectTag* GetObjectTag() const;
~CToken();
};
template <class T>
class TToken : public CToken
{
public:
static std::unique_ptr<TObjOwnerDerivedFromIObj<T>> GetIObjObjectFor(std::unique_ptr<T>&& obj)
{
return TObjOwnerDerivedFromIObj<T>::GetNewDerivedObject(std::move(obj));
}
TToken() = default;
TToken(const CToken& other) : CToken(other) {}
TToken(CToken&& other) : CToken(std::move(other)) {}
TToken(std::unique_ptr<T>&& obj) : CToken(GetIObjObjectFor(std::move(obj))) {}
TToken& operator=(std::unique_ptr<T>&& obj)
{
*this = CToken(GetIObjObjectFor(std::move(obj)));
return this;
}
T* GetObj()
{
TObjOwnerDerivedFromIObj<T>* owner = static_cast<TObjOwnerDerivedFromIObj<T>*>(CToken::GetObj());
if (owner)
return owner->GetObj();
return nullptr;
}
const T* GetObj() const
{
return const_cast<TToken<T>*>(this)->GetObj();
}
T* operator->() {return GetObj();}
const T* operator->() const {return GetObj();}
T& operator*() {return *GetObj();}
const T& operator*() const {return *GetObj();}
};
template <class T>
class TCachedToken : public TToken<T>
{
protected:
T* m_obj = nullptr;
public:
TCachedToken() = default;
TCachedToken(const CToken& other) : TToken<T>(other) {}
TCachedToken(CToken&& other) : TToken<T>(std::move(other)) {}
T* GetObj()
{
if (!m_obj)
m_obj = TToken<T>::GetObj();
return m_obj;
}
const T* GetObj() const
{
return const_cast<TCachedToken<T>*>(this)->GetObj();
}
T* operator->() {return GetObj();}
const T* operator->() const {return GetObj();}
void Unlock() {TToken<T>::Unlock(); m_obj = nullptr;}
TCachedToken& operator=(const TCachedToken& other) { CToken::operator=(other); m_obj = nullptr; return *this; }
TCachedToken& operator=(const CToken& other) { CToken::operator=(other); m_obj = nullptr; return *this; }
};
template <class T>
class TLockedToken : public TCachedToken<T>
{
public:
TLockedToken() = default;
TLockedToken(const TLockedToken& other) : TCachedToken<T>(other) { CToken::Lock(); }
TLockedToken& operator=(const TLockedToken& other)
{
CToken oldTok = std::move(*this);
TCachedToken<T>::operator=(other);
CToken::Lock();
return *this;
}
TLockedToken(const CToken& other) : TCachedToken<T>(other) { CToken::Lock(); }
TLockedToken& operator=(const CToken& other)
{
CToken oldTok = std::move(*this);
TCachedToken<T>::operator=(other);
CToken::Lock();
return *this;
}
TLockedToken(CToken&& other)
{
CToken oldTok = std::move(*this);
*this = TCachedToken<T>(std::move(other));
CToken::Lock();
}
};
}