path: root/src/AllocationPool.h

#pragma once

#include <memory>

template<class T, size_t NumElementsInReserve>
class cAllocationPool {
	public:

		class cStarvationCallbacks
		{
			public:
				virtual ~cStarvationCallbacks() {}
				virtual void OnStartingUsingBuffer() = 0;
				virtual void OnStopUsingBuffer() = 0;
				virtual void OnBufferEmpty() = 0;
		};
		
		cAllocationPool(std::auto_ptr<cStarvationCallbacks> a_Callbacks) :
		m_Callbacks(a_Callbacks)
		{
			for(int i = 0; i < NumElementsInReserve; i++)
			{
				void * space = malloc(sizeof(T));
				if (space == NULL)
				{
					m_Callbacks->OnStartingUsingBuffer();
					break;
				}
				m_FreeList.push_front(space);
			}
		}
		
		~cAllocationPool()
		{
			while (!m_FreeList.empty())
			{
				free (m_FreeList.front());
				m_FreeList.pop_front();
			}
		}	
		
		T* Allocate()
		{
			if (m_FreeList.size() <= NumElementsInReserve)
			{
				void * space = malloc(sizeof(T));
				if (space != NULL)
				{
					return new(space) T;
				}
				else if (m_FreeList.size() == NumElementsInReserve)
				{
					m_Callbacks->OnStartingUsingBuffer();
				}
				else if (m_FreeList.empty())
				{
					m_Callbacks->OnBufferEmpty();
					// Try again until the memory is avalable
					return Allocate();
				}
			}
			// placement new, used to initalize the object
			T* ret = new (m_FreeList.front()) T;
			m_FreeList.pop_front();
			return ret;
		}
		void Free(T* ptr)
		{
			if (ptr == NULL) 
			{
				return;
			}
			// placement destruct.
			ptr->~T();
			m_FreeList.push_front(ptr);
			if (m_FreeList.size() == NumElementsInReserve)
			{
				m_Callbacks->OnStopUsingBuffer();
			}
		}
		
	private:
		std::list<void *> m_FreeList;
		std::auto_ptr<cStarvationCallbacks> m_Callbacks;
};