/*
     File: CAAtomicStack.h
 Abstract: Part of CoreAudio Utility Classes
  Version: 1.1

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*/
#ifndef __CAAtomicStack_h__
#define __CAAtomicStack_h__

#if !defined(__COREAUDIO_USE_FLAT_INCLUDES__)
	#include <libkern/OSAtomic.h>
#else
	#include <CAAtomic.h>
#endif

#if MAC_OS_X_VERSION_MAX_ALLOWED < MAC_OS_X_VERSION_10_4
	#include <CoreServices/CoreServices.h>
#endif

//  linked list LIFO or FIFO (pop_all_reversed) stack, elements are pushed and popped atomically
//  class T must implement T *& next().
template <class T>
class TAtomicStack {
public:
	TAtomicStack() : mHead(NULL) { }

	// non-atomic routines, for use when initializing/deinitializing, operate NON-atomically
	void	push_NA(T *item)
	{
		item->next() = mHead;
		mHead = item;
	}

	T *		pop_NA()
	{
		T *result = mHead;
		if (result)
			mHead = result->next();
		return result;
	}

	bool	empty() const { return mHead == NULL; }

	T *		head() { return mHead; }

	// atomic routines
	void	push_atomic(T *item)
	{
		T *head_;
		do {
			head_ = mHead;
			item->next() = head_;
		} while (!compare_and_swap(head_, item, &mHead));
	}

	void	push_multiple_atomic(T *item)
		// pushes entire linked list headed by item
	{
		T *head_, *p = item, *tail;
		// find the last one -- when done, it will be linked to head
		do {
			tail = p;
			p = p->next();
		} while (p);
		do {
			head_ = mHead;
			tail->next() = head_;
		} while (!compare_and_swap(head_, item, &mHead));
	}

	T *		pop_atomic_single_reader()
		// this may only be used when only one thread may potentially pop from the stack.
		// if multiple threads may pop, this suffers from the ABA problem.
		// <rdar://problem/4606346> TAtomicStack suffers from the ABA problem
	{
		T *result;
		do {
			if ((result = mHead) == NULL)
				break;
		} while (!compare_and_swap(result, result->next(), &mHead));
		return result;
	}

	T *		pop_atomic()
		// This is inefficient for large linked lists.
		// prefer pop_all() to a series of calls to pop_atomic.
		// push_multiple_atomic has to traverse the entire list.
	{
		T *result = pop_all();
		if (result) {
			T *next = result->next();
			if (next)
				// push all the remaining items back onto the stack
				push_multiple_atomic(next);
		}
		return result;
	}

	T *		pop_all()
	{
		T *result;
		do {
			if ((result = mHead) == NULL)
				break;
		} while (!compare_and_swap(result, NULL, &mHead));
		return result;
	}

	T*		pop_all_reversed()
	{
		TAtomicStack<T> reversed;
		T *p = pop_all(), *next;
		while (p != NULL) {
			next = p->next();
			reversed.push_NA(p);
			p = next;
		}
		return reversed.mHead;
	}

	static bool	compare_and_swap(T *oldvalue, T *newvalue, T **pvalue)
	{
#if TARGET_OS_MAC
	#if __LP64__
			return ::OSAtomicCompareAndSwap64Barrier(int64_t(oldvalue), int64_t(newvalue), (int64_t *)pvalue);
	#elif MAC_OS_X_VERSION_MAX_ALLOWED >= MAC_OS_X_VERSION_10_4
			return ::OSAtomicCompareAndSwap32Barrier(int32_t(oldvalue), int32_t(newvalue), (int32_t *)pvalue);
	#else
			return ::CompareAndSwap(UInt32(oldvalue), UInt32(newvalue), (UInt32 *)pvalue);
	#endif
#else
			//return ::CompareAndSwap(UInt32(oldvalue), UInt32(newvalue), (UInt32 *)pvalue);
			return CAAtomicCompareAndSwap32Barrier(SInt32(oldvalue), SInt32(newvalue), (SInt32*)pvalue);
#endif
	}

protected:
	T *		mHead;
};

#if ((MAC_OS_X_VERSION_MAX_ALLOWED >= MAC_OS_X_VERSION_10_5) && !TARGET_OS_WIN32)
#include <libkern/OSAtomic.h>

class CAAtomicStack {
public:
	CAAtomicStack(size_t nextPtrOffset) : mNextPtrOffset(nextPtrOffset) {
		/*OSQueueHead h = OS_ATOMIC_QUEUE_INIT; mHead = h;*/
		mHead.opaque1 = 0; mHead.opaque2 = 0;
	}
	// a subset of the above
	void	push_atomic(void *p) { OSAtomicEnqueue(&mHead, p, mNextPtrOffset); }
	void	push_NA(void *p) { push_atomic(p); }

	void *	pop_atomic() { return OSAtomicDequeue(&mHead, mNextPtrOffset); }
	void *	pop_atomic_single_reader() { return pop_atomic(); }
	void *	pop_NA() { return pop_atomic(); }

private:
	OSQueueHead		mHead;
	size_t			mNextPtrOffset;
};

// a more efficient subset of TAtomicStack using OSQueue.
template <class T>
class TAtomicStack2 {
public:
	TAtomicStack2() {
		/*OSQueueHead h = OS_ATOMIC_QUEUE_INIT; mHead = h;*/
		mHead.opaque1 = 0; mHead.opaque2 = 0;
		mNextPtrOffset = -1;
	}
	void	push_atomic(T *item) {
		if (mNextPtrOffset < 0) {
			T **pnext = &item->next();	// hack around offsetof not working with C++
			mNextPtrOffset = (Byte *)pnext - (Byte *)item;
		}
		OSAtomicEnqueue(&mHead, item, mNextPtrOffset);
	}
	void	push_NA(T *item) { push_atomic(item); }

	T *		pop_atomic() { return (T *)OSAtomicDequeue(&mHead, mNextPtrOffset); }
	T *		pop_atomic_single_reader() { return pop_atomic(); }
	T *		pop_NA() { return pop_atomic(); }

	// caution: do not try to implement pop_all_reversed here. the writer could add new elements
	// while the reader is trying to pop old ones!

private:
	OSQueueHead		mHead;
	ssize_t			mNextPtrOffset;
};

#else

#define TAtomicStack2 TAtomicStack

#endif // MAC_OS_X_VERSION_MAX_ALLOWED && !TARGET_OS_WIN32

#endif // __CAAtomicStack_h__