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/*
Copyright (C) 2003 Paul Davis
Copyright (C) 2004-2008 Grame
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation; either version 2.1 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
#ifndef __JackEngineControl__
#define __JackEngineControl__
#include "JackShmMem.h"
#include "JackFrameTimer.h"
#include "JackTransportEngine.h"
#include "JackConstants.h"
#include "types.h"
#include <stdio.h>
#ifdef JACK_MONITOR
#include "JackEngineProfiling.h"
#endif
namespace Jack
{
class JackClientInterface;
class JackGraphManager;
#define JACK_ENGINE_ROLLING_COUNT 32
#define JACK_ENGINE_ROLLING_INTERVAL 1024
/*!
\brief Engine control in shared memory.
*/
PRE_PACKED_STRUCTURE
struct SERVER_EXPORT JackEngineControl : public JackShmMem
{
// Shared state
jack_nframes_t fBufferSize;
jack_nframes_t fSampleRate;
bool fSyncMode;
bool fTemporary;
jack_time_t fPeriodUsecs;
jack_time_t fTimeOutUsecs;
float fMaxDelayedUsecs;
float fXrunDelayedUsecs;
bool fTimeOut;
bool fRealTime;
bool fSavedRealTime; // RT state saved and restored during Freewheel mode
int fServerPriority;
int fClientPriority;
int fMaxClientPriority;
char fServerName[JACK_SERVER_NAME_SIZE+1];
JackTransportEngine fTransport;
jack_timer_type_t fClockSource;
int fDriverNum;
bool fVerbose;
// CPU Load
jack_time_t fPrevCycleTime;
jack_time_t fCurCycleTime;
jack_time_t fSpareUsecs;
jack_time_t fMaxUsecs;
jack_time_t fRollingClientUsecs[JACK_ENGINE_ROLLING_COUNT];
unsigned int fRollingClientUsecsCnt;
int fRollingClientUsecsIndex;
int fRollingInterval;
float fCPULoad;
// For OSX thread
UInt64 fPeriod;
UInt64 fComputation;
UInt64 fConstraint;
// Timer
JackFrameTimer fFrameTimer;
#ifdef JACK_MONITOR
JackEngineProfiling fProfiler;
#endif
JackEngineControl(bool sync, bool temporary, long timeout, bool rt, long priority, bool verbose, jack_timer_type_t clock, const char* server_name)
{
fBufferSize = 512;
fSampleRate = 48000;
fPeriodUsecs = jack_time_t(1000000.f / fSampleRate * fBufferSize);
fSyncMode = sync;
fTemporary = temporary;
fTimeOut = (timeout > 0);
fTimeOutUsecs = timeout * 1000;
fRealTime = rt;
fSavedRealTime = false;
fServerPriority = priority;
#ifdef WIN32
fClientPriority = (rt) ? priority - 3 : 0;
#else
fClientPriority = (rt) ? priority - 5 : 0;
#endif
fMaxClientPriority = (rt) ? priority - 1 : 0;
fVerbose = verbose;
fPrevCycleTime = 0;
fCurCycleTime = 0;
fSpareUsecs = 0;
fMaxUsecs = 0;
ResetRollingUsecs();
strncpy(fServerName, server_name, sizeof(fServerName));
fCPULoad = 0.f;
fPeriod = 0;
fComputation = 0;
fConstraint = 0;
fMaxDelayedUsecs = 0.f;
fXrunDelayedUsecs = 0.f;
fClockSource = clock;
fDriverNum = 0;
}
~JackEngineControl()
{}
void UpdateTimeOut()
{
fPeriodUsecs = jack_time_t(1000000.f / fSampleRate * fBufferSize); // In microsec
if (!(fTimeOut && fTimeOutUsecs > 2 * fPeriodUsecs)) {
fTimeOutUsecs = 2 * fPeriodUsecs;
}
}
// Cycle
void CycleIncTime(jack_time_t callback_usecs)
{
// Timer
fFrameTimer.IncFrameTime(fBufferSize, callback_usecs, fPeriodUsecs);
}
void CycleBegin(JackClientInterface** table, JackGraphManager* manager, jack_time_t cur_cycle_begin, jack_time_t prev_cycle_end)
{
fTransport.CycleBegin(fSampleRate, cur_cycle_begin);
CalcCPULoad(table, manager, cur_cycle_begin, prev_cycle_end);
#ifdef JACK_MONITOR
fProfiler.Profile(table, manager, fPeriodUsecs, cur_cycle_begin, prev_cycle_end);
#endif
}
void CycleEnd(JackClientInterface** table)
{
fTransport.CycleEnd(table, fSampleRate, fBufferSize);
}
// Timer
void InitFrameTime()
{
fFrameTimer.InitFrameTime();
}
void ResetFrameTime(jack_time_t callback_usecs)
{
fFrameTimer.ResetFrameTime(callback_usecs);
}
void ReadFrameTime(JackTimer* timer)
{
fFrameTimer.ReadFrameTime(timer);
}
// XRun
void NotifyXRun(jack_time_t callback_usecs, float delayed_usecs);
void ResetXRun()
{
fMaxDelayedUsecs = 0.f;
}
// Private
void CalcCPULoad(JackClientInterface** table, JackGraphManager* manager, jack_time_t cur_cycle_begin, jack_time_t prev_cycle_end);
void ResetRollingUsecs();
} POST_PACKED_STRUCTURE;
} // end of namespace
#endif
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