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126 lines
3.3 KiB
Go
126 lines
3.3 KiB
Go
package queue
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import (
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"container/list"
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"sync"
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)
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// ConcurrentQueue is a concurrent-safe FIFO queue with unbounded capacity.
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// Clients interact with the queue by pushing items into the in channel and
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// popping items from the out channel. There is a goroutine that manages moving
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// items from the in channel to the out channel in the correct order that must
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// be started by calling Start().
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type ConcurrentQueue struct {
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started sync.Once
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stopped sync.Once
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chanIn chan interface{}
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chanOut chan interface{}
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overflow *list.List
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wg sync.WaitGroup
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quit chan struct{}
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}
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// NewConcurrentQueue constructs a ConcurrentQueue. The bufferSize parameter is
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// the capacity of the output channel. When the size of the queue is below this
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// threshold, pushes do not incur the overhead of the less efficient overflow
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// structure.
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func NewConcurrentQueue(bufferSize int) *ConcurrentQueue {
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return &ConcurrentQueue{
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chanIn: make(chan interface{}),
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chanOut: make(chan interface{}, bufferSize),
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overflow: list.New(),
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quit: make(chan struct{}),
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}
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}
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// ChanIn returns a channel that can be used to push new items into the queue.
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func (cq *ConcurrentQueue) ChanIn() chan<- interface{} {
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return cq.chanIn
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}
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// ChanOut returns a channel that can be used to pop items from the queue.
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func (cq *ConcurrentQueue) ChanOut() <-chan interface{} {
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return cq.chanOut
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}
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// Start begins a goroutine that manages moving items from the in channel to the
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// out channel. The queue tries to move items directly to the out channel
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// minimize overhead, but if the out channel is full it pushes items to an
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// overflow queue. This must be called before using the queue.
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func (cq *ConcurrentQueue) Start() {
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cq.started.Do(cq.start)
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}
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func (cq *ConcurrentQueue) start() {
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cq.wg.Add(1)
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go func() {
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defer cq.wg.Done()
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readLoop:
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for {
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nextElement := cq.overflow.Front()
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if nextElement == nil {
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// Overflow queue is empty so incoming items can be pushed
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// directly to the output channel. If output channel is full
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// though, push to overflow.
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select {
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case item, ok := <-cq.chanIn:
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if !ok {
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break readLoop
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}
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select {
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case cq.chanOut <- item:
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// Optimistically push directly to chanOut
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default:
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cq.overflow.PushBack(item)
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}
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case <-cq.quit:
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return
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}
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} else {
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// Overflow queue is not empty, so any new items get pushed to
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// the back to preserve order.
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select {
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case item, ok := <-cq.chanIn:
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if !ok {
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break readLoop
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}
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cq.overflow.PushBack(item)
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case cq.chanOut <- nextElement.Value:
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cq.overflow.Remove(nextElement)
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case <-cq.quit:
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return
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}
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}
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}
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// Incoming channel has been closed. Empty overflow queue into
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// the outgoing channel.
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nextElement := cq.overflow.Front()
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for nextElement != nil {
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select {
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case cq.chanOut <- nextElement.Value:
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cq.overflow.Remove(nextElement)
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case <-cq.quit:
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return
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}
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nextElement = cq.overflow.Front()
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}
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// Close outgoing channel.
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close(cq.chanOut)
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}()
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}
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// Stop ends the goroutine that moves items from the in channel to the out
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// channel. This does not clear the queue state, so the queue can be restarted
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// without dropping items.
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func (cq *ConcurrentQueue) Stop() {
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cq.stopped.Do(func() {
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close(cq.quit)
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cq.wg.Wait()
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})
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}
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