void MonitorRequesterImpl::monitorEvent(Monitor::shared_pointer const & monitor)
{
qDebug() << "monitorEvent " << m_channelIndex;
MonitorElement::shared_pointer element;
knobData *kPtr = m_mutexData->GetMutexKnobDataPtr(m_channelIndex); // use pointer
if(kPtr->index == -1) return;
qDebug() << "connection state" << kPtr->edata.connected;
while (element = monitor->poll()) {
PVField::shared_pointer value = element->pvStructurePtr->getSubField("value");
if (value.get() == 0) {
std::cout << "no 'value' field" << m_channelName << std::endl;
std::cout << *(element->pvStructurePtr.get()) << std::endl;
} else {
Type valueType = value->getField()->getType();
// we have a structure
if (valueType != scalar && valueType != scalarArray) {
std::cout << "structure " << m_channelName << std::endl;
std::cout << *(element->pvStructurePtr.get()) << std::endl;
// we have a scalar value or scalar array
} else {
if (value->getField()->getType() == scalar) {
std::cout << "scalar "<< m_channelName << std::endl;
ParseScalar("", static_pointer_cast<PVScalar>(value), kPtr);
PVField::shared_pointer alarm = element->pvStructurePtr->getSubField("alarm");
if (alarm.get() != 0) ParsePVStructure(static_pointer_cast<PVStructure>(alarm), kPtr, false);
PVField::shared_pointer display = element->pvStructurePtr->getSubField("display");
if (display.get() != 0) ParsePVStructure(static_pointer_cast<PVStructure>(display), kPtr, false);
PVField::shared_pointer control = element->pvStructurePtr->getSubField("control");
if (control.get() != 0) ParsePVStructure(static_pointer_cast<PVStructure>(control), kPtr, false);
PVField::shared_pointer valueAlarm = element->pvStructurePtr->getSubField("valueAlarm");
if (valueAlarm.get() != 0) ParsePVStructure(static_pointer_cast<PVStructure>(valueAlarm), kPtr, false);
} else {
std::cout << "scalar array " << m_channelName << " values: " << std::endl;
ParseScalarArray(static_pointer_cast<PVScalarArray>(value), kPtr);
}
}
}
}
kPtr->edata.accessW = true;
kPtr->edata.accessR = true;
kPtr->edata.monitorCount++;
strcpy(kPtr->edata.fec, "EPICS4");
m_mutexData->SetMutexKnobDataReceived(kPtr);
monitor->release(element);
}
virtual void monitorEvent(Monitor::shared_pointer const & monitor)
{
std::cout << "monitorEvent" << std::endl;
MonitorElement::shared_pointer element = monitor->poll();
std::cout << "changed/overrun " << *element->changedBitSet << '/' <<
*element->overrunBitSet << std::endl << *element->pvStructurePtr << std::endl;
monitor->release(element);
}
virtual void monitorEvent(Monitor::shared_pointer const & monitor)
{
MonitorElement::shared_pointer element;
while ((element = monitor->poll()))
{
channelCount++;
if (channelCount == channels)
{
iterationCount++;
channelCount = 0;
}
if (iterationCount == iterations)
{
epicsTimeStamp endTime;
epicsTimeGetCurrent(&endTime);
double duration = epicsTime(endTime) - epicsTime(startTime);
double getPerSec = iterations*channels/duration;
double gbit = getPerSec*arraySize*sizeof(double)*8/(1000*1000*1000); // * bits / giga; NO, it's really 1000 and not 1024
if (verbose)
printf("%5.6f seconds, %.3f (x %d = %.3f) monitors/s, data throughput %5.3f Gbits/s\n",
duration, iterations/duration, channels, getPerSec, gbit);
sum += getPerSec;
iterationCount = 0;
epicsTimeGetCurrent(&startTime);
runCount++;
if (runs == 0 || runCount < runs)
{
// noop
}
else
{
printf("%d %d %d %d %.3f\n", channels, arraySize, iterations, runs, sum/runs);
Lock guard(waitLoopPtrMutex);
waitLoopEvent->signal(); // all done
}
}
else if (channelCount == 0)
{
// noop
}
monitor->release(element);
}
}
virtual void monitorEvent(Monitor::shared_pointer const & monitor)
{
MonitorElement::shared_pointer element;
while ((element = monitor->poll()))
{
if (mode == ValueOnlyMode)
{
PVField::shared_pointer value = element->pvStructurePtr->getSubField("value");
if (value.get() == 0)
{
std::cerr << "no 'value' field" << std::endl;
std::cout << m_channelName << std::endl;
//std::cout << *(element->pvStructurePtr.get()) << std::endl << std::endl;
pvutil_ostream myos(std::cout.rdbuf());
myos << *(element->pvStructurePtr.get()) << std::endl << std::endl;
}
else
{
Type valueType = value->getField()->getType();
if (valueType != scalar && valueType != scalarArray)
{
// switch to structure mode, unless it's T-type
if (valueType == structure && isTType(static_pointer_cast<PVStructure>(value)))
{
std::cout << std::setw(30) << std::left << m_channelName;
std::cout << fieldSeparator;
formatTType(std::cout, static_pointer_cast<PVStructure>(value));
std::cout << std::endl;
}
else
{
std::cout << m_channelName << std::endl;
//std::cout << *(element->pvStructurePtr.get()) << std::endl << std::endl;
pvutil_ostream myos(std::cout.rdbuf());
myos << *(element->pvStructurePtr.get()) << std::endl << std::endl;
}
}
else
{
if (fieldSeparator == ' ' && value->getField()->getType() == scalar)
std::cout << std::setw(30) << std::left << m_channelName;
else
std::cout << m_channelName;
std::cout << fieldSeparator;
terse(std::cout, value) << std::endl;
}
}
}
else if (mode == TerseMode)
{
if (fieldSeparator == ' ')
std::cout << std::setw(30) << std::left << m_channelName;
else
std::cout << m_channelName;
std::cout << fieldSeparator;
terseStructure(std::cout, element->pvStructurePtr) << std::endl;
}
else
{
std::cout << m_channelName << std::endl;
//std::cout << *(element->pvStructurePtr.get()) << std::endl << std::endl;
pvutil_ostream myos(std::cout.rdbuf());
myos << *(element->pvStructurePtr.get()) << std::endl << std::endl;
}
monitor->release(element);
}
}
