OpenTTD-patches/src/fiber_thread.cpp

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/* $Id$ */
/** @file fiber_thread.cpp ThreadObject implementation of Fiber. */
#include "stdafx.h"
#include "fiber.hpp"
#include "thread.h"
#include <stdlib.h>
class Fiber_Thread : public Fiber {
private:
ThreadObject *m_thread;
FiberFunc m_proc;
void *m_param;
bool m_attached;
ThreadSemaphore *m_sem;
bool m_kill;
static Fiber_Thread *s_current;
static Fiber_Thread *s_main;
public:
/**
* Create a ThreadObject fiber and start it, calling proc(param).
*/
Fiber_Thread(FiberFunc proc, void *param) :
m_thread(NULL),
m_proc(proc),
m_param(param),
m_attached(false),
m_kill(false)
{
this->m_sem = ThreadSemaphore::New();
/* Create a thread and start stFiberProc */
this->m_thread = ThreadObject::New(&stFiberProc, this, NULL);
}
/**
* Create a ThreadObject fiber and attach current thread to it.
*/
Fiber_Thread(void *param) :
m_thread(NULL),
m_proc(NULL),
m_param(param),
m_attached(true),
m_kill(false)
{
this->m_sem = ThreadSemaphore::New();
/* Attach the current thread to this Fiber */
this->m_thread = ThreadObject::AttachCurrent();
/* We are the current thread */
if (s_current == NULL) s_current = this;
if (s_main == NULL) s_main = this;
}
~Fiber_Thread()
{
/* Remove the thread if needed */
if (this->m_thread != NULL) {
assert(this->m_attached || !this->m_thread->IsRunning());
delete this->m_thread;
}
/* Remove the semaphore */
delete this->m_sem;
}
/* virtual */ void SwitchToFiber()
{
/* You can't switch to yourself */
assert(s_current != this);
Fiber_Thread *cur = s_current;
/* Continue the execution of 'this' Fiber */
this->m_sem->Set();
/* Hold the execution of the current Fiber */
cur->m_sem->Wait();
if (this->m_kill) {
/* If the thread we switched too was killed, join it so it can finish quiting */
this->m_thread->Join();
}
/* If we continue, we are the current thread */
s_current = cur;
}
/* virtual */ void Exit()
{
/* Kill off our thread */
this->m_kill = true;
this->m_thread->Exit();
}
/* virtual */ bool IsRunning()
{
if (this->m_thread == NULL) return false;
return this->m_thread->IsRunning();
}
/* virtual */ void *GetFiberData()
{
return this->m_param;
}
static Fiber_Thread *GetCurrentFiber()
{
return s_current;
}
private:
/**
* First function which is called within the fiber.
*/
static void stFiberProc(void *fiber)
{
Fiber_Thread *cur = (Fiber_Thread *)fiber;
/* Now suspend the thread until we get SwitchToFiber() for the first time */
cur->m_sem->Wait();
/* If we continue, we are the current thread */
s_current = cur;
try {
cur->m_proc(cur->m_param);
} catch (...) {
/* Unlock the main thread */
s_main->m_sem->Set();
throw;
}
}
};
/* Initialize the static member of Fiber_Thread */
/* static */ Fiber_Thread *Fiber_Thread::s_current = NULL;
/* static */ Fiber_Thread *Fiber_Thread::s_main = NULL;
#ifndef WIN32
/* static */ Fiber *Fiber::New(FiberFunc proc, void *param)
{
return new Fiber_Thread(proc, param);
}
/* static */ Fiber *Fiber::AttachCurrent(void *param)
{
return new Fiber_Thread(param);
}
/* static */ void *Fiber::GetCurrentFiberData()
{
return Fiber_Thread::GetCurrentFiber()->GetFiberData();
}
#endif /* WIN32 */