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/*
flext - C++ layer for Max/MSP and pd (pure data) externals
Copyright (c) 2001-2005 Thomas Grill (gr@grrrr.org)
For information on usage and redistribution, and for a DISCLAIMER OF ALL
WARRANTIES, see the file, "license.txt," in this distribution.
*/
/*! \file flqueue.cpp
\brief Implementation of the flext message queuing functionality.
\todo Let's see if queuing can be implemented for Max/MSP with defer_low
if FLEXT_PDLOCK is defined, the new PD thread lock functions are used
*/
#include "flext.h"
#include "flinternal.h"
#include "flcontainers.h"
#include <string.h> // for memcpy
#ifdef FLEXT_THREADS
//! Thread id of message queue thread
flext::thrid_t flext::thrmsgid = 0;
#endif
#ifdef FLEXT_SHARED
/*
For the shared version it _should_ be possible to have only one queue for all externals.
Yet I don't know how to do this cross-platform
*/
#define PERMANENTIDLE
#endif
static void Trigger();
class qmsg:
public flext,
public Fifo::Cell
{
public:
inline qmsg &Set(flext_base *t,int o,const t_symbol *s,int ac,const t_atom *av)
{
th = t;
out = o;
msg(s,ac,av);
return *this;
}
inline qmsg &Set(const t_symbol *r,const t_symbol *s,int ac,const t_atom *av)
{
th = NULL;
recv = r;
msg(s,ac,av);
return *this;
}
// \note PD sys lock must already be held by caller
inline void Send() const
{
if(th) {
if(out < 0)
// message to self
th->CbMethodHandler(-1-out,msg.Header(),msg.Count(),msg.Atoms());
else
// message to outlet
th->ToSysAnything(out,msg.Header(),msg.Count(),msg.Atoms());
}
else
flext::Forward(recv,msg,true);
}
private:
flext_base *th;
union {
int out;
const t_symbol *recv;
};
AtomAnything msg;
};
typedef PooledFifo<qmsg> QueueFifo;
class Queue:
public flext,
public QueueFifo
{
public:
inline bool Empty() const { return Size() == 0; }
inline void Push(flext_base *t,int o,const t_symbol *s,int ac,const t_atom *av)
{
qmsg *m = QueueFifo::New();
FLEXT_ASSERT(m);
m->Set(t,o,s,ac,av);
Put(m);
Trigger();
}
inline void Push(const t_symbol *r,const t_symbol *s,int ac,const t_atom *av)
{
qmsg *m = QueueFifo::New();
FLEXT_ASSERT(m);
m->Set(r,s,ac,av);
Put(m);
Trigger();
}
inline void Push(flext_base *th,int o) // bang
{
Push(th,o,sym_bang,0,NULL);
}
inline void Push(flext_base *th,int o,float dt)
{
t_atom at;
SetFloat(at,dt);
Push(th,o,sym_float,1,&at);
}
inline void Push(flext_base *th,int o,int dt)
{
t_atom at;
SetInt(at,dt);
const t_symbol *sym;
#if FLEXT_SYS == FLEXT_SYS_PD
sym = sym_float;
#elif FLEXT_SYS == FLEXT_SYS_MAX
sym = sym_int;
#else
#error Not implemented!
#endif
Push(th,o,sym,1,&at);
}
inline void Push(flext_base *th,int o,const t_symbol *dt)
{
t_atom at;
SetSymbol(at,dt);
Push(th,o,sym_symbol,1,&at);
}
void Push(flext_base *th,int o,const t_atom &a)
{
const t_symbol *sym;
if(IsSymbol(a))
sym = sym_symbol;
else if(IsFloat(a))
sym = sym_float;
#if FLEXT_SYS == FLEXT_SYS_MAX
else if(IsInt(a))
sym = sym_int;
#endif
#if FLEXT_SYS == FLEXT_SYS_PD
else if(IsPointer(a))
sym = sym_pointer;
#endif
else {
error("atom type not supported");
return;
}
Push(th,o,sym,1,&a);
}
inline void Push(flext_base *th,int o,int argc,const t_atom *argv)
{
Push(th,o,sym_list,argc,argv);
}
};
static Queue queue;
#if FLEXT_QMODE == 2
static flext::ThrCond qthrcond;
#elif FLEXT_QMODE == 0
//static t_qelem *qclk = NULL;
static t_clock *qclk = NULL;
#endif
#define CHUNK 10
static void QWork(bool syslock)
{
for(;;) {
// Since qcnt can only be increased from any other function than QWork
// qc will be a minimum guaranteed number of present queue elements.
// On the other hand, if new queue elements are added by the methods called
// in the loop, these will be sent in the next tick to avoid recursion overflow.
size_t qc = queue.Size();
if(!qc) break;
#if FLEXT_QMODE == 2
if(syslock) flext::Lock();
#endif
qmsg *q;
while((q = queue.Get()) != NULL) {
q->Send();
queue.Free(q);
}
#if FLEXT_QMODE == 2
if(syslock) flext::Unlock();
#endif
}
}
#if FLEXT_QMODE == 0
#if FLEXT_SYS == FLEXT_SYS_JMAX
static void QTick(fts_object_t *c,int winlet, fts_symbol_t s, int ac, const fts_atom_t *at)
{
#else
static void QTick(flext_base *c)
{
#endif
#ifdef FLEXT_THREADS
FLEXT_ASSERT(flext::IsSystemThread());
#endif
QWork(false);
}
#elif FLEXT_QMODE == 1
#ifndef PERMANENTIDLE
static bool qtickactive = false;
#endif
static t_int QTick(t_int *)
{
#ifndef PERMANENTIDLE
qtickactive = false;
#endif
QWork(false);
#ifdef PERMANENTIDLE
// will be run in the next idle cycle
return 2;
#else
// won't be run again
// for non-shared externals assume that there's rarely a message waiting
// so it's better to delete the callback meanwhile
return 0;
#endif
}
#endif
/*
It would be sufficient to only flush messages belonging to object th
But then the order of sent messages is not as intended
*/
void flext_base::QFlush(flext_base *th)
{
#ifdef FLEXT_THREADS
if(!IsSystemThread()) {
error("flext - Queue flush called by wrong thread!");
return;
}
#endif
while(!queue.Empty()) QWork(false);
}
static void Trigger()
{
#if FLEXT_SYS == FLEXT_SYS_PD
#if FLEXT_QMODE == 2
// wake up worker thread
qthrcond.Signal();
#elif FLEXT_QMODE == 1 && !defined(PERMANENTIDLE)
if(!qtickactive) {
sys_callback(QTick,NULL,0);
qtickactive = true;
}
#elif FLEXT_QMODE == 0
clock_delay(qclk,0);
#endif
#elif FLEXT_SYS == FLEXT_SYS_MAX
#if FLEXT_QMODE == 0
// qelem_front(qclk);
clock_delay(qclk,0);
#endif
#elif FLEXT_SYS == FLEXT_SYS_JMAX
#if FLEXT_QMODE == 0
// this is dangerous because there may be other timers on this object!
fts_timebase_add_call(fts_get_timebase(), (fts_object_t *)thisHdr(), QTick, NULL, 0);
#endif
#else
#error Not implemented
#endif
}
#if FLEXT_QMODE == 2
void flext_base::QWorker(thr_params *)
{
thrmsgid = GetThreadId();
for(;;) {
qthrcond.Wait();
QWork(true);
}
}
#endif
void flext_base::StartQueue()
{
static bool started = false;
if(started) return;
else started = true;
#if FLEXT_QMODE == 1
#ifdef PERMANENTIDLE
sys_callback(QTick,NULL,0);
#endif
#elif FLEXT_QMODE == 2
LaunchThread(QWorker,NULL);
#elif FLEXT_QMODE == 0 && (FLEXT_SYS == FLEXT_SYS_PD || FLEXT_SYS == FLEXT_SYS_MAX)
// qclk = (t_qelem *)(qelem_new(NULL,(t_method)QTick));
qclk = (t_clock *)(clock_new(NULL,(t_method)QTick));
#else
#error Not implemented!
#endif
}
void flext_base::ToQueueBang(int o) const
{
queue.Push(const_cast<flext_base *>(this),o);
}
void flext_base::ToQueueFloat(int o,float f) const
{
queue.Push(const_cast<flext_base *>(this),o,f);
}
void flext_base::ToQueueInt(int o,int f) const
{
queue.Push(const_cast<flext_base *>(this),o,f);
}
void flext_base::ToQueueSymbol(int o,const t_symbol *s) const
{
queue.Push(const_cast<flext_base *>(this),o,s);
}
void flext_base::ToQueueAtom(int o,const t_atom &at) const
{
queue.Push(const_cast<flext_base *>(this),o,at);
}
void flext_base::ToQueueList(int o,int argc,const t_atom *argv) const
{
queue.Push(const_cast<flext_base *>(this),o,argc,argv);
}
void flext_base::ToQueueAnything(int o,const t_symbol *s,int argc,const t_atom *argv) const
{
queue.Push(const_cast<flext_base *>(this),o,s,argc,argv);
}
bool flext::Forward(const t_symbol *recv,const t_symbol *s,int argc,const t_atom *argv,bool direct)
{
if(direct || IsSystemThread()) {
void *cl = recv->s_thing;
if(!cl) return false;
#if FLEXT_SYS == FLEXT_SYS_PD
pd_typedmess((t_class **)cl,(t_symbol *)s,argc,(t_atom *)argv);
#elif FLEXT_SYS == FLEXT_SYS_MAX
typedmess(recv->s_thing,(t_symbol *)s,argc,(t_atom *)argv);
#else
#error Not implemented
#endif
}
else
// send over queue
queue.Push(recv,s,argc,argv);
return true;
}
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