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/*
flext - C++ layer for Max/MSP and pd (pure data) externals
Copyright (c) 2001-2003 Thomas Grill (xovo@gmx.net)
For information on usage and redistribution, and for a DISCLAIMER OF ALL
WARRANTIES, see the file, "license.txt," in this distribution.
*/
/*! \file flthr.cpp
\brief Implementation of the flext thread functionality.
*/
#include "flext.h"
#include "flinternal.h"
#ifdef FLEXT_THREADS
#include <errno.h>
//! Thread id of system thread
flext::thrid_t flext::thrid = 0;
//! Thread id of helper thread
flext::thrid_t flext::thrhelpid = 0;
/*
flext::thr_entry *flext::thrhead = NULL,*flext::thrtail = NULL;
flext::ThrMutex flext::tlmutex;
*/
static flext::thr_entry *thrhead = NULL,*thrtail = NULL;
static flext::ThrMutex tlmutex;
//! Helper thread should terminate
static bool thrhelpexit = false;
//! Helper thread conditional
static flext::ThrCond *thrhelpcond = NULL;
flext::thrid_t flext::GetSysThreadId() { return thrid; }
//! Start helper thread
bool flext::StartHelper()
{
if(thrhelpid) return true;
if(!thrid) {
// system thread has not been set
ERRINTERNAL();
return false;
}
bool ok = false;
#if FLEXT_THREADS == FLEXT_THR_POSIX
pthread_attr_t attr;
pthread_attr_init(&attr);
pthread_attr_setdetachstate(&attr,PTHREAD_CREATE_DETACHED);
thrhelpexit = false;
int ret = pthread_create (&thrhelpid,&attr,(void *(*)(void *))ThrHelper,NULL);
ok = !ret;
#elif FLEXT_THREADS == FLEXT_THR_MP
if(!MPLibraryIsLoaded())
error("Thread library is not loaded");
else {
OSStatus ret = MPCreateTask((TaskProc)ThrHelper,NULL,0,0,0,0,0,&thrhelpid);
ok = ret == noErr;
}
#else
#error
#endif
if(!ok)
error("flext - Could not launch helper thread!");
else {
// now we have to wait for thread helper to initialize
while(!thrhelpid || !thrhelpcond) Sleep(0.001);
// we are ready for threading now!
}
return ok;
}
#if 0
/*! \brief Stop helper thread
\note Never called!
*/
bool flext::StopHelper()
{
thrhelpexit = true;
if(thrhelpcond) thrhelpcond->Signal();
}
#endif
//! Static helper thread function
void flext::ThrHelper(void *)
{
#if FLEXT_THREADS == FLEXT_THR_POSIX
// set prototype thread attributes
pthread_attr_t attr;
pthread_attr_init(&attr);
pthread_attr_setdetachstate(&attr,PTHREAD_CREATE_DETACHED);
#endif
// post("Helper thread started");
// set thread priority one point below normal
// so thread construction won't disturb real-time audio
RelPriority(-1);
thrhelpcond = new ThrCond;
// helper loop
for(;;) {
// post("Helper loop");
thrhelpcond->Wait();
if(thrhelpexit) break;
// post("Helper signalled");
tlmutex.Lock();
// post("Helper after lock");
// start all inactive threads in queue
thr_entry *prv = NULL,*ti;
for(ti = thrhead; ti; prv = ti,ti = ti->nxt) {
if(!ti->active) {
bool ok;
// post("Helper start thread");
#if FLEXT_THREADS == FLEXT_THR_POSIX
ok = pthread_create (&ti->thrid,&attr,(void *(*)(void *))ti->meth,ti->params) == 0;
#elif FLEXT_THREADS == FLEXT_THR_MP
ok = MPCreateTask((TaskProc)ti->meth,ti->params,0,0,0,0,0,&ti->thrid) == noErr;
#else
#error
#endif
if(!ok) {
error("flext - Could not launch thread!");
// delete from queue
if(prv)
prv->nxt = ti->nxt;
else
thrhead = ti->nxt;
if(thrtail == ti) thrtail = prv;
ti->nxt = NULL;
delete ti;
}
else {
// post("Helper thread ok");
// set active flag
ti->active = true;
}
}
}
tlmutex.Unlock();
}
delete thrhelpcond;
thrhelpcond = NULL;
}
bool flext::LaunchThread(void (*meth)(thr_params *p),thr_params *p)
{
#ifdef FLEXT_DEBUG
if(!thrhelpcond) {
ERRINTERNAL();
return false;
}
#endif
// post("make threads");
tlmutex.Lock();
// make an entry into thread list
thr_entry *nt = new thr_entry(meth,p);
if(thrtail) thrtail->nxt = nt;
else thrhead = nt;
thrtail = nt;
tlmutex.Unlock();
// post("signal helper");
// signal thread helper
thrhelpcond->Signal();
return true;
}
bool flext_base::ShouldExit() const
{
bool ret = true;
tlmutex.Lock();
for(thr_entry *ti = thrhead; ti; ti = ti->nxt)
if(ti->Is()) { ret = ti->shouldexit; break; }
tlmutex.Unlock();
// thread was not found -> EXIT!!!
return ret;
}
bool flext::PushThread()
{
// set priority of newly created thread one point below the system thread's
RelPriority(-1);
return true;
}
void flext::PopThread()
{
tlmutex.Lock();
// post("Pop thread");
thr_entry *prv = NULL,*ti;
for(ti = thrhead; ti; prv = ti,ti = ti->nxt)
if(ti->Is()) break;
if(ti) {
if(prv)
prv->nxt = ti->nxt;
else
thrhead = ti->nxt;
if(thrtail == ti) thrtail = prv;
ti->nxt = NULL;
delete ti;
}
else {
#ifdef FLEXT_DEBUG
post("flext - INTERNAL ERROR: Thread not found!");
#endif
}
tlmutex.Unlock();
}
//! Terminate all object threads
bool flext_base::StopThreads()
{
thr_entry *t;
// signal termination for all object's threads
tlmutex.Lock();
for(t = thrhead; t; t = t->nxt) {
if(t->This() == this) t->shouldexit = true;
}
tlmutex.Unlock();
// TODO: maybe there should be a thread conditional for every thread so that it can be signalled efficiently
// wait for thread termination (1 second max.)
int cnt;
for(int wi = 0; wi < 100; ++wi) {
// lock and count this object's threads
tlmutex.Lock();
for(cnt = 0,t = thrhead; t; t = t->nxt)
if(t->This() == this) ++cnt;
tlmutex.Unlock();
// if no threads are remaining, we are done
if(!cnt) break;
// Wait
Sleep(0.01f);
}
if(cnt) {
#ifdef FLEXT_DEBUG
post("flext - doing hard thread termination");
#endif
// --- all object threads have terminated by now -------
tlmutex.Lock();
// timeout -> hard termination
for(t = thrhead; t; )
if(t->This() == this) {
#if FLEXT_THREADS == FLEXT_THR_POSIX
if(pthread_cancel(t->thrid)) post("%s - Thread could not be terminated!",thisName());
#elif FLEXT_THREADS == FLEXT_THR_MP
MPTerminateTask(t->thrid,0);
// here, we should use a task queue to check whether the task has really terminated!!
#else
#error
#endif
thr_entry *tn = t->nxt;
t->nxt = NULL; delete t;
t = tn;
}
else t = t->nxt;
thrhead = NULL;
tlmutex.Unlock();
}
// post("All threads have terminated");
return true;
}
bool flext::RelPriority(int dp,thrid_t ref,thrid_t id)
{
#if FLEXT_THREADS == FLEXT_THR_POSIX
sched_param parm;
int policy;
if(pthread_getschedparam(ref,&policy,&parm) < 0) {
#ifdef FLEXT_DEBUG
post("flext - failed to get thread priority");
#endif
return false;
}
else {
parm.sched_priority += dp;
// MSVC++ 6 produces wrong code with the following lines!!!
// int schmin = sched_get_priority_min(policy);
// int schmax = sched_get_priority_max(policy);
if(parm.sched_priority < sched_get_priority_min(policy)) {
#ifdef FLEXT_DEBUG
post("flext - minimum thread priority reached");
#endif
parm.sched_priority = sched_get_priority_min(policy);
}
else if(parm.sched_priority > sched_get_priority_max(policy)) {
#ifdef FLEXT_DEBUG
post("flext - maximum thread priority reached");
#endif
parm.sched_priority = sched_get_priority_max(policy);
}
if(pthread_setschedparam(id,policy,&parm) < 0) {
#ifdef FLEXT_DEBUG
post("flext - failed to change thread priority");
#endif
return false;
}
}
return true;
#elif FLEXT_THREADS == FLEXT_THR_MP
thr_entry *t;
for(t = thrhead; t && t->Id() != id; t = t->nxt) {}
if(t) {
// thread found in list
int w = GetPriority(id);
if(dp < 0) w /= 1<<(-dp);
else w *= 1<<dp;
if(w < 1) {
#ifdef FLEXT_DEBUG
post("flext - minimum thread priority reached");
#endif
w = 1;
}
else if(w > 10000) {
#ifdef FLEXT_DEBUG
post("flext - maximum thread priority reached");
#endif
w = 10000;
}
t->weight = w;
return MPSetTaskWeight(id,w) == noErr;
}
else return false;
#else
#error
#endif
}
int flext::GetPriority(thrid_t id)
{
#if FLEXT_THREADS == FLEXT_THR_POSIX
sched_param parm;
int policy;
if(pthread_getschedparam(id,&policy,&parm) < 0) {
#ifdef FLEXT_DEBUG
post("flext - failed to get parms");
#endif
return -1;
}
return parm.sched_priority;
#elif FLEXT_THREADS == FLEXT_THR_MP
thr_entry *t;
for(t = thrhead; t && t->Id() != id; t = t->nxt) {}
return t?t->weight:-1;
#else
#error
#endif
}
bool flext::SetPriority(int p,thrid_t id)
{
#if FLEXT_THREADS == FLEXT_THR_POSIX
sched_param parm;
int policy;
if(pthread_getschedparam(id,&policy,&parm) < 0) {
#ifdef FLEXT_DEBUG
post("flext - failed to get parms");
#endif
return false;
}
else {
parm.sched_priority = p;
if(pthread_setschedparam(id,policy,&parm) < 0) {
#ifdef FLEXT_DEBUG
post("flext - failed to change priority");
#endif
return false;
}
}
return true;
#elif FLEXT_THREADS == FLEXT_THR_MP
thr_entry *t;
for(t = thrhead; t && t->Id() != id; t = t->nxt) {}
if(t)
return MPSetTaskWeight(id,t->weight = p) == noErr;
else
return false;
#else
#error
#endif
}
flext_base::thr_params::thr_params(int n): cl(NULL),var(new _data[n]) {}
flext_base::thr_params::~thr_params() { if(var) delete[] var; }
void flext_base::thr_params::set_any(const t_symbol *s,int argc,const t_atom *argv) { var[0]._any.args = new AtomAnything(s,argc,argv); }
void flext_base::thr_params::set_list(int argc,const t_atom *argv) { var[0]._list.args = new AtomList(argc,argv); }
flext_base::thr_entry::thr_entry(void (*m)(thr_params *),thr_params *p,thrid_t id):
th(p?p->cl:NULL),meth(m),params(p),thrid(id),
active(false),shouldexit(false),
#if FLEXT_THREADS == FLEXT_THR_MP
weight(100), // MP default weight
#endif
nxt(NULL)
{}
#endif // FLEXT_THREADS
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