cwMpScQueue.h : Initial commit.

This commit is contained in:
kevin 2020-10-30 09:41:01 -04:00
parent 6dd882312d
commit 635b673492

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cwMpScQueue.h Normal file
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#ifndef cwMpScQueue_h
#define cwMpScQueue_h
namespace cw
{
template<typename T>
class MpScQueue
{
public:
typedef struct node_str
{
struct node_str* next = nullptr;
T* payload = nullptr;
} node_t;
MpScQueue()
{
node_t* stub = mem::allocZ<node_t>();
_head = stub; // last-in
_tail = stub; // first-out
mutex::create( _mH );
}
virtual ~MpScQueue()
{
mem::free(_tail);
mutex::destroy( _mH );
}
MpScQueue( const MpScQueue& ) = delete;
MpScQueue( const MpScQueue&& ) = delete;
MpScQueue& operator=(const MpScQueue& ) = delete;
MpScQueue& operator=(const MpScQueue&& ) = delete;
void push( T* payload )
{
node_t* new_node = mem::allocZ<node_t>(1);
new_node->payload = payload;
new_node->next = nullptr;
if( mutex::lock(_mH) == kOkRC )
{
// Note that the elements of the queue are only accessed from the end of the queue (tail).
// New nodes can therefore safely be updated in two steps:
// 1. Atomically set _head to the new node and return 'old-head'
node_t* prev = _head.exchange(new_node,std::memory_order_acq_rel);
// Note that at this point only the new node may have the 'old-head' as it's predecssor.
// Other threads may therefore safely interrupt at this point.
// 2. Set the old-head next pointer to the new node (thereby adding the new node to the list)
prev->next = new_node; // RELEASE 'next' to consumer
mutex::unlock(_mH);
}
}
T* pop()
{
T* payload = nullptr;
node_t* t = _tail;
if( mutex::lock(_mH) == kOkRC )
{
node_t* next = t->next; // ACQUIRE 'next' from producer
if( next != nullptr )
{
_tail = next;
payload = next->payload;
mem::free(t);
}
mutex::unlock(_mH);
}
return payload;
}
bool isempty() const
{
return _tail->next == nullptr; // ACQUIRE 'next' from producer
}
private:
node_t* _stub;
node_t* _tail;
node_t* _head;
mutex::handle_t _mH;
};
}
#endif