src/pkg/sync/cond.go - go - Git at Google

 // Copyright 2011 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 package sync

 import "runtime"

 // Cond implements a condition variable, a rendezvous point
 // for goroutines waiting for or announcing the occurrence
 // of an event.
 //
 // Each Cond has an associated Locker L (often a *Mutex or *RWMutex),
 // which must be held when changing the condition and
 // when calling the Wait method.
 type Cond struct {
 	L Locker // held while observing or changing the condition
 	m Mutex  // held to avoid internal races

 	// We must be careful to make sure that when Signal
 	// releases a semaphore, the corresponding acquire is
 	// executed by a goroutine that was already waiting at
 	// the time of the call to Signal, not one that arrived later.
 	// To ensure this, we segment waiting goroutines into
 	// generations punctuated by calls to Signal.  Each call to
 	// Signal begins another generation if there are no goroutines
 	// left in older generations for it to wake.  Because of this
 	// optimization (only begin another generation if there
 	// are no older goroutines left), we only need to keep track
 	// of the two most recent generations, which we call old
 	// and new.
 	oldWaiters int     // number of waiters in old generation...
 	oldSema    *uint32 // ... waiting on this semaphore

 	newWaiters int     // number of waiters in new generation...
 	newSema    *uint32 // ... waiting on this semaphore
 }

 // NewCond returns a new Cond with Locker l.
 func NewCond(l Locker) *Cond {
 	return &Cond{L: l}
 }

 // Wait atomically unlocks c.L and suspends execution
 // of the calling goroutine.  After later resuming execution,
 // Wait locks c.L before returning.
 //
 // Because L is not locked when Wait first resumes, the caller
 // typically cannot assume that the condition is true when
 // Wait returns.  Instead, the caller should Wait in a loop:
 //
 //    c.L.Lock()
 //    for !condition() {
 //        c.Wait()
 //    }
 //    ... make use of condition ...
 //    c.L.Unlock()
 //
 func (c *Cond) Wait() {
 	c.m.Lock()
 	if c.newSema == nil {
 		c.newSema = new(uint32)
 	}
 	s := c.newSema
 	c.newWaiters++
 	c.m.Unlock()
 	c.L.Unlock()
 	runtime.Semacquire(s)
 	c.L.Lock()
 }

 // Signal wakes one goroutine waiting on c, if there is any.
 //
 // It is allowed but not required for the caller to hold c.L
 // during the call.
 func (c *Cond) Signal() {
 	c.m.Lock()
 	if c.oldWaiters == 0 && c.newWaiters > 0 {
 		// Retire old generation; rename new to old.
 		c.oldWaiters = c.newWaiters
 		c.oldSema = c.newSema
 		c.newWaiters = 0
 		c.newSema = nil
 	}
 	if c.oldWaiters > 0 {
 		c.oldWaiters--
 		runtime.Semrelease(c.oldSema)
 	}
 	c.m.Unlock()
 }

 // Broadcast wakes all goroutines waiting on c.
 //
 // It is allowed but not required for the caller to hold c.L
 // during the call.
 func (c *Cond) Broadcast() {
 	c.m.Lock()
 	// Wake both generations.
 	if c.oldWaiters > 0 {
 		for i := 0; i < c.oldWaiters; i++ {
 			runtime.Semrelease(c.oldSema)
 		}
 		c.oldWaiters = 0
 	}
 	if c.newWaiters > 0 {
 		for i := 0; i < c.newWaiters; i++ {
 			runtime.Semrelease(c.newSema)
 		}
 		c.newWaiters = 0
 		c.newSema = nil
 	}
 	c.m.Unlock()
 }
	// Copyright 2011 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	package sync

	import "runtime"

	// Cond implements a condition variable, a rendezvous point
	// for goroutines waiting for or announcing the occurrence
	// of an event.
	//
	// Each Cond has an associated Locker L (often a Mutex or RWMutex),
	// which must be held when changing the condition and
	// when calling the Wait method.
	type Cond struct {
	L Locker // held while observing or changing the condition
	m Mutex // held to avoid internal races

	// We must be careful to make sure that when Signal
	// releases a semaphore, the corresponding acquire is
	// executed by a goroutine that was already waiting at
	// the time of the call to Signal, not one that arrived later.
	// To ensure this, we segment waiting goroutines into
	// generations punctuated by calls to Signal. Each call to
	// Signal begins another generation if there are no goroutines
	// left in older generations for it to wake. Because of this
	// optimization (only begin another generation if there
	// are no older goroutines left), we only need to keep track
	// of the two most recent generations, which we call old
	// and new.
	oldWaiters int // number of waiters in old generation...
	oldSema *uint32 // ... waiting on this semaphore

	newWaiters int // number of waiters in new generation...
	newSema *uint32 // ... waiting on this semaphore
	}

	// NewCond returns a new Cond with Locker l.
	func NewCond(l Locker) *Cond {
	return &Cond{L: l}
	}

	// Wait atomically unlocks c.L and suspends execution
	// of the calling goroutine. After later resuming execution,
	// Wait locks c.L before returning.
	//
	// Because L is not locked when Wait first resumes, the caller
	// typically cannot assume that the condition is true when
	// Wait returns. Instead, the caller should Wait in a loop:
	//
	// c.L.Lock()
	// for !condition() {
	// c.Wait()
	// }
	// ... make use of condition ...
	// c.L.Unlock()
	//
	func (c *Cond) Wait() {
	c.m.Lock()
	if c.newSema == nil {
	c.newSema = new(uint32)
	}
	s := c.newSema
	c.newWaiters++
	c.m.Unlock()
	c.L.Unlock()
	runtime.Semacquire(s)
	c.L.Lock()
	}

	// Signal wakes one goroutine waiting on c, if there is any.
	//
	// It is allowed but not required for the caller to hold c.L
	// during the call.
	func (c *Cond) Signal() {
	c.m.Lock()
	if c.oldWaiters == 0 && c.newWaiters > 0 {
	// Retire old generation; rename new to old.
	c.oldWaiters = c.newWaiters
	c.oldSema = c.newSema
	c.newWaiters = 0
	c.newSema = nil
	}
	if c.oldWaiters > 0 {
	c.oldWaiters--
	runtime.Semrelease(c.oldSema)
	}
	c.m.Unlock()
	}

	// Broadcast wakes all goroutines waiting on c.
	//
	// It is allowed but not required for the caller to hold c.L
	// during the call.
	func (c *Cond) Broadcast() {
	c.m.Lock()
	// Wake both generations.
	if c.oldWaiters > 0 {
	for i := 0; i < c.oldWaiters; i++ {
	runtime.Semrelease(c.oldSema)
	}
	c.oldWaiters = 0
	}
	if c.newWaiters > 0 {
	for i := 0; i < c.newWaiters; i++ {
	runtime.Semrelease(c.newSema)
	}
	c.newWaiters = 0
	c.newSema = nil
	}
	c.m.Unlock()
	}