libphobos/libdruntime/rt/critical_.d - gcc - Git at Google

 /**
  * Implementation of support routines for synchronized blocks.
  *
  * Copyright: Copyright Digital Mars 2000 - 2011.
  * License:   $(WEB www.boost.org/LICENSE_1_0.txt, Boost License 1.0).
  * Authors:   Walter Bright, Sean Kelly
  */

 /*          Copyright Digital Mars 2000 - 2011.
  * Distributed under the Boost Software License, Version 1.0.
  *    (See accompanying file LICENSE or copy at
  *          http://www.boost.org/LICENSE_1_0.txt)
  */
 module rt.critical_;

 nothrow:

 import rt.monitor_, core.atomic;

 extern (C) void _d_critical_init()
 {
     initMutex(cast(Mutex*)&gcs.mtx);
     head = &gcs;
 }

 extern (C) void _d_critical_term()
 {
     // This function is only ever called by the runtime shutdown code
     // and therefore is single threaded so the following cast is fine.
     auto h = cast()head;
     for (auto p = h; p; p = p.next)
         destroyMutex(cast(Mutex*)&p.mtx);
 }

 extern (C) void _d_criticalenter(D_CRITICAL_SECTION* cs)
 {
     assert(cs !is null);
     ensureMutex(cast(shared(D_CRITICAL_SECTION*)) cs);
     lockMutex(&cs.mtx);
 }

 extern (C) void _d_criticalenter2(D_CRITICAL_SECTION** pcs)
 {
     if (atomicLoad!(MemoryOrder.acq)(*cast(shared) pcs) is null)
     {
         lockMutex(cast(Mutex*)&gcs.mtx);
         if (atomicLoad!(MemoryOrder.raw)(*cast(shared) pcs) is null)
         {
             auto cs = new shared D_CRITICAL_SECTION;
             initMutex(cast(Mutex*)&cs.mtx);
             atomicStore!(MemoryOrder.rel)(*cast(shared) pcs, cs);
         }
         unlockMutex(cast(Mutex*)&gcs.mtx);
     }
     lockMutex(&(*pcs).mtx);
 }

 extern (C) void _d_criticalexit(D_CRITICAL_SECTION* cs)
 {
     assert(cs !is null);
     unlockMutex(&cs.mtx);
 }

 private:

 shared D_CRITICAL_SECTION* head;
 shared D_CRITICAL_SECTION gcs;

 struct D_CRITICAL_SECTION
 {
     D_CRITICAL_SECTION* next;
     Mutex mtx;
 }

 void ensureMutex(shared(D_CRITICAL_SECTION)* cs)
 {
     if (atomicLoad!(MemoryOrder.acq)(cs.next) is null)
     {
         lockMutex(cast(Mutex*)&gcs.mtx);
         if (atomicLoad!(MemoryOrder.raw)(cs.next) is null)
         {
             initMutex(cast(Mutex*)&cs.mtx);
             auto ohead = head;
             head = cs;
             atomicStore!(MemoryOrder.rel)(cs.next, ohead);
         }
         unlockMutex(cast(Mutex*)&gcs.mtx);
     }
 }
	/**
	* Implementation of support routines for synchronized blocks.
	*
	* Copyright: Copyright Digital Mars 2000 - 2011.
	* License: $(WEB www.boost.org/LICENSE_1_0.txt, Boost License 1.0).
	* Authors: Walter Bright, Sean Kelly
	*/

	/* Copyright Digital Mars 2000 - 2011.
	* Distributed under the Boost Software License, Version 1.0.
	* (See accompanying file LICENSE or copy at
	* http://www.boost.org/LICENSE_1_0.txt)
	*/
	module rt.critical_;

	nothrow:

	import rt.monitor_, core.atomic;

	extern (C) void _d_critical_init()
	{
	initMutex(cast(Mutex*)&gcs.mtx);
	head = &gcs;
	}

	extern (C) void _d_critical_term()
	{
	// This function is only ever called by the runtime shutdown code
	// and therefore is single threaded so the following cast is fine.
	auto h = cast()head;
	for (auto p = h; p; p = p.next)
	destroyMutex(cast(Mutex*)&p.mtx);
	}

	extern (C) void _d_criticalenter(D_CRITICAL_SECTION* cs)
	{
	assert(cs !is null);
	ensureMutex(cast(shared(D_CRITICAL_SECTION*)) cs);
	lockMutex(&cs.mtx);
	}

	extern (C) void _d_criticalenter2(D_CRITICAL_SECTION** pcs)
	{
	if (atomicLoad!(MemoryOrder.acq)(*cast(shared) pcs) is null)
	{
	lockMutex(cast(Mutex*)&gcs.mtx);
	if (atomicLoad!(MemoryOrder.raw)(*cast(shared) pcs) is null)
	{
	auto cs = new shared D_CRITICAL_SECTION;
	initMutex(cast(Mutex*)&cs.mtx);
	atomicStore!(MemoryOrder.rel)(*cast(shared) pcs, cs);
	}
	unlockMutex(cast(Mutex*)&gcs.mtx);
	}
	lockMutex(&(*pcs).mtx);
	}

	extern (C) void _d_criticalexit(D_CRITICAL_SECTION* cs)
	{
	assert(cs !is null);
	unlockMutex(&cs.mtx);
	}

	private:

	shared D_CRITICAL_SECTION* head;
	shared D_CRITICAL_SECTION gcs;

	struct D_CRITICAL_SECTION
	{
	D_CRITICAL_SECTION* next;
	Mutex mtx;
	}

	void ensureMutex(shared(D_CRITICAL_SECTION)* cs)
	{
	if (atomicLoad!(MemoryOrder.acq)(cs.next) is null)
	{
	lockMutex(cast(Mutex*)&gcs.mtx);
	if (atomicLoad!(MemoryOrder.raw)(cs.next) is null)
	{
	initMutex(cast(Mutex*)&cs.mtx);
	auto ohead = head;
	head = cs;
	atomicStore!(MemoryOrder.rel)(cs.next, ohead);
	}
	unlockMutex(cast(Mutex*)&gcs.mtx);
	}
	}