queue

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Published: Mar 25, 2021 License: MIT Imports: 2 Imported by: 0

Documentation

Overview

Package queue delivers an implementation of lock-free concurrent queue based on the algorithm presented by Maged M. Michael and Michael L. Scot. in 1996: https://dl.acm.org/doi/10.1145/248052.248106

Pseudocode of non-Blocking concurrent queue algorithm:

structure pointer_t {ptr: pointer to node_t, count: unsigned integer}
structure node_t {value: data type, next: pointer_t}
structure queue_t {Head: pointer_t, Tail: pointer_t}

initialize(Q: pointer to queue_t)
node = new_node()		// Allocate a free node
node->next.ptr = NULL	// Make it the only node in the linked list
Q->Head.ptr = Q->Tail.ptr = node	// Both Head and Tail point to it

enqueue(Q: pointer to queue_t, value: data type)
E1:   node = new_node()	// Allocate a new node from the free list
E2:   node->value = value	// Copy enqueued value into node
E3:   node->next.ptr = NULL	// Set next pointer of node to NULL
E4:   loop			// Keep trying until Enqueue is done
E5:      tail = Q->Tail	// Read Tail.ptr and Tail.count together
E6:      next = tail.ptr->next	// Read next ptr and count fields together
E7:      if tail == Q->Tail	// Are tail and next consistent?
			// Was Tail pointing to the last node?
E8:         if next.ptr == NULL
				// Try to link node at the end of the linked list
E9:            if CAS(&tail.ptr->next, next, <node, next.count+1>)
E10:               break	// Enqueue is done.  Exit loop
E11:            endif
E12:         else		// Tail was not pointing to the last node
				// Try to swing Tail to the next node
E13:            CAS(&Q->Tail, tail, <next.ptr, tail.count+1>)
E14:         endif
E15:      endif
E16:   endloop
		// Enqueue is done.  Try to swing Tail to the inserted node
E17:   CAS(&Q->Tail, tail, <node, tail.count+1>)

dequeue(Q: pointer to queue_t, pvalue: pointer to data type): boolean
D1:   loop			     // Keep trying until Dequeue is done
D2:      head = Q->Head	     // Read Head
D3:      tail = Q->Tail	     // Read Tail
D4:      next = head.ptr->next    // Read Head.ptr->next
D5:      if head == Q->Head	     // Are head, tail, and next consistent?
D6:         if head.ptr == tail.ptr // Is queue empty or Tail falling behind?
D7:            if next.ptr == NULL  // Is queue empty?
D8:               return FALSE      // Queue is empty, couldn't dequeue
D9:            endif
				// Tail is falling behind.  Try to advance it
D10:            CAS(&Q->Tail, tail, <next.ptr, tail.count+1>)
D11:         else		     // No need to deal with Tail
				// Read value before CAS
				// Otherwise, another dequeue might free the next node
D12:            *pvalue = next.ptr->value
				// Try to swing Head to the next node
D13:            if CAS(&Q->Head, head, <next.ptr, head.count+1>)
D14:               break             // Dequeue is done.  Exit loop
D15:            endif
D16:         endif
D17:      endif
D18:   endloop
D19:   free(head.ptr)		     // It is safe now to free the old node
D20:   return TRUE                   // Queue was not empty, dequeue succeeded

Index

Constants

This section is empty.

Variables

This section is empty.

Functions

This section is empty.

Types

type AsyncTaskQueue

type AsyncTaskQueue interface {
	Enqueue(Task)
	Dequeue() Task
	Empty() bool
}

AsyncTaskQueue is a queue storing asynchronous tasks.

func NewLockFreeQueue

func NewLockFreeQueue() AsyncTaskQueue

NewLockFreeQueue instantiates and returns a lockFreeQueue.

type Task

type Task func() error

Task is a asynchronous function.

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