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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 fltimer.cpp
\brief flext timer functions and classes
*/
#include "flext.h"
#if FLEXT_OS == FLEXT_OS_WIN
#include <windows.h>
#elif FLEXT_OS == FLEXT_OS_LINUX || FLEXT_OS == FLEXT_OS_IRIX || FLEXT_OSAPI == FLEXT_OSAPI_MAC_OSX
#include <unistd.h>
#include <sys/time.h>
#elif FLEXT_OS == FLEXT_OS_MAC
#include <Timer.h>
#include <Threads.h>
#endif
double flext::GetTime()
{
#if FLEXT_SYS == FLEXT_SYS_PD
return clock_gettimesince(0)*0.001;
#elif FLEXT_SYS == FLEXT_SYS_MAX
double tm;
clock_getftime(&tm);
return tm*0.001;
#else
#error Not implemented
#endif
}
double flext::GetTimeGrain()
{
#if FLEXT_SYS == FLEXT_SYS_PD
return 0;
#elif FLEXT_SYS == FLEXT_SYS_MAX
return 0.001;
#else
#error Not implemented
#endif
}
static double getstarttime();
static double starttime = getstarttime();
static double getstarttime()
{
starttime = 0;
return flext::GetOSTime();
}
double flext::GetOSTime()
{
double tm;
#if FLEXT_OS == FLEXT_OS_WIN
LARGE_INTEGER frq,cnt;
if(QueryPerformanceFrequency(&frq) && QueryPerformanceCounter(&cnt))
tm = (double)(cnt.QuadPart)/frq.QuadPart;
else {
SYSTEMTIME systm;
FILETIME fltm;
GetSystemTime(&systm);
SystemTimeToFileTime(&systm,&fltm);
tm = (double)((LARGE_INTEGER *)&fltm)->QuadPart*0.001;
}
#elif FLEXT_OS == FLEXT_OS_LINUX || FLEXT_OS == FLEXT_OS_IRIX || FLEXT_OSAPI == FLEXT_OSAPI_MAC_OSX // POSIX
timeval tmv;
gettimeofday(&tmv,NULL);
tm = tmv.tv_sec+tmv.tv_usec*1.e-6;
#elif FLEXT_OS == FLEXT_OS_MAC // that's just for OS9 & Carbon!
UnsignedWide tick;
Microseconds(&tick);
tm = (tick.hi*((double)(1L<<((sizeof tick.lo)*4))*(double)(1L<<((sizeof tick.lo)*4)))+tick.lo)*1.e-6;
#else
#error Not implemented
#endif
return tm-starttime;
}
void flext::Sleep(double s)
{
#if FLEXT_OS == FLEXT_OS_WIN
::Sleep((long)(s*1000.));
#elif FLEXT_OS == FLEXT_OS_LINUX || FLEXT_OS == FLEXT_OS_IRIX || FLEXT_OSAPI == FLEXT_OSAPI_MAC_OSX // POSIX
usleep((long)(s*1000000.));
#elif FLEXT_OS == FLEXT_OS_MAC // that's just for OS9 & Carbon!
UnsignedWide tick;
Microseconds(&tick);
double target = tick.hi*((double)(1L<<((sizeof tick.lo)*4))*(double)(1L<<((sizeof tick.lo)*4)))+tick.lo+s*1.e6;
for(;;) {
// this is just a loop running until the time has passed - stone age (but we yield at least)
Microseconds(&tick);
if(target <= tick.hi*((double)(1L<<((sizeof tick.lo)*4))*(double)(1L<<((sizeof tick.lo)*4)))+tick.lo) break;
YieldToAnyThread(); // yielding surely reduces the timing precision (but we're civilized)
}
#else
#error Not implemented
#endif
}
/* \param qu determines whether timed messages should be queued (low priority - only when supported by the system).
*/
flext::Timer::Timer(bool qu):
queued(qu),
clss(NULL),userdata(NULL),
period(0)
{
#if FLEXT_SYS == FLEXT_SYS_PD
clk = (t_clock *)clock_new(this,(t_method)callback);
#elif FLEXT_SYS == FLEXT_SYS_MAX
clk = (t_clock *)clock_new(this,(t_method)callback);
if(queued) qelem = (t_qelem *)qelem_new(this,(method)queuefun);
#else
#error Not implemented
#endif
}
flext::Timer::~Timer()
{
#if FLEXT_SYS == FLEXT_SYS_PD
clock_free(clk);
#elif FLEXT_SYS == FLEXT_SYS_MAX
clock_free(clk);
if(queued) qelem_free(qelem);
#else
#error Not implemented
#endif
}
bool flext::Timer::Reset()
{
#if FLEXT_SYS == FLEXT_SYS_PD
clock_unset(clk);
#elif FLEXT_SYS == FLEXT_SYS_MAX
clock_unset(clk);
if(queued) qelem_unset(qelem);
#else
#error Not implemented
#endif
return true;
}
/*! \param tm absolute time (in seconds)
\param data user data
\param dopast if set events with times lying in the past will be triggered immediately, if not set they are ignored
\return true on success
*/
bool flext::Timer::At(double tm,void *data,bool dopast)
{
userdata = data;
period = 0;
#if FLEXT_SYS == FLEXT_SYS_PD
const double ms = tm*1000.;
if(dopast || clock_gettimesince(ms) <= 0)
clock_set(clk,ms);
#elif FLEXT_SYS == FLEXT_SYS_MAX
const double ms = tm*1000.;
double cur;
clock_getftime(&cur);
if(cur <= ms)
clock_fdelay(clk,ms-cur);
else if(dopast) // trigger timer is past
clock_fdelay(clk,0);
#else
#error Not implemented
#endif
return true;
}
/*! \param tm relative time (in seconds)
\param data user data
\return true on success
*/
bool flext::Timer::Delay(double tm,void *data)
{
userdata = data;
period = 0;
#if FLEXT_SYS == FLEXT_SYS_PD
clock_delay(clk,tm*1000);
#elif FLEXT_SYS == FLEXT_SYS_MAX
clock_fdelay(clk,tm*1000.);
#else
#error Not implemented
#endif
return true;
}
/*! \param tm relative time between periodic events (in seconds)
\param data user data
\return true on success
\note the first event will be delayed by tm
*/
bool flext::Timer::Periodic(double tm,void *data)
{
userdata = data;
period = tm;
#if FLEXT_SYS == FLEXT_SYS_PD
clock_delay(clk,tm*1000);
#elif FLEXT_SYS == FLEXT_SYS_MAX
clock_fdelay(clk,tm*1000.);
#else
#error Not implemented
#endif
return true;
}
/*! \brief Callback function for system clock
\todo Make periodic events scheduled as such
*/
void flext::Timer::callback(Timer *tmr)
{
if(tmr->period) {
// clearly it would be more precise if the periodic event is scheduled as such
// and not retriggered every time
#if FLEXT_SYS == FLEXT_SYS_PD
clock_delay(tmr->clk,tmr->period*1000);
#elif FLEXT_SYS == FLEXT_SYS_MAX
clock_fdelay(tmr->clk,tmr->period*1000.);
#else
#error Not implemented
#endif
}
if(tmr->cback) {
#if FLEXT_SYS == FLEXT_SYS_MAX
if(tmr->queued)
qelem_set(tmr->qelem);
else
#endif
tmr->Work();
}
}
#if FLEXT_SYS == FLEXT_SYS_MAX
/*! \brief Callback function for low priority clock (for queued messages)
*/
void flext::Timer::queuefun(Timer *tmr) { tmr->Work(); }
#endif
/*! \brief Virtual worker function - by default it calls the user callback function
\remark The respective callback parameter format is chosen depending on whether clss is defined or not.
*/
void flext::Timer::Work()
{
if(clss)
((bool (*)(flext_base *,void *))cback)(clss,userdata);
else
cback(userdata);
}
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