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path: root/clients/tde/src/part/commanalyzer/part.cpp
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//Author:    Timothy Pearson <kb9vqf@pearsoncomputing.net>, (C) 2012
//Copyright: See COPYING file that comes with this distribution

#include "debug.h"
#include "define.h"
#include "part.h"

#include <kaboutdata.h>   //::createAboutData()
#include <kaction.h>
#include <klocale.h>
#include <kmessagebox.h>  //::start()
#include <kparts/genericfactory.h>
#include <kstatusbar.h>
#include <kstdaction.h>
#include <tqfile.h>        //encodeName()
#include <tqtimer.h>       //postInit() hack
#include <tqvbox.h>
#include <tqsocket.h>
#include <tqmutex.h>
#include <tqeventloop.h>
#include <tqapplication.h>
#include <unistd.h>       //access()
#include <stdint.h>

#include "tracewidget.h"
#include "floatspinbox.h"
#include "layout.h"

namespace RemoteLab {

typedef KParts::GenericFactory<RemoteLab::CommAnalyzerPart> Factory;
K_EXPORT_COMPONENT_FACTORY( libremotelab_commanalyzer, RemoteLab::Factory )


CommAnalyzerPart::CommAnalyzerPart( TQWidget *parentWidget, const char *widgetName, TQObject *parent, const char *name, const TQStringList& )
	: ReadOnlyPart( parent, name ), m_traceWidget(0), m_socket(0), m_base(0), stopTraceUpdate(false)
{
	// Initialize mutex
	m_instrumentMutex = new TQMutex(false);

	// Initialize kpart
	setInstance(Factory::instance());
	setWidget(new TQVBox(parentWidget, widgetName));

	// Create widgets
	m_base = new CommAnalyzerBase(widget());
	m_traceWidget = m_base->traceWidget;
	m_base->saRefLevel->setFloatMin(-128);
	m_base->saRefLevel->setFloatMax(128);
	m_base->saRefLevel->setLineStep(1);

	connect(m_base->saRefLevel, SIGNAL(floatValueChanged(double)), this, SLOT(saRefLevelChanged(double)));

	TQTimer::singleShot(0, this, TQT_SLOT(postInit()));
}

CommAnalyzerPart::~CommAnalyzerPart() {
	if (m_traceWidget) {
		delete m_traceWidget;
	}
	if (m_socket) {
		m_socket->close();
		while (m_socket->state() == TQSocket::Closing) {
			tqApp->processEvents();
		}
		delete m_socket;
	}

	delete m_instrumentMutex;
}

void CommAnalyzerPart::postInit() {
	m_updateTimer = new TQTimer(this);
	connect(m_updateTimer, SIGNAL(timeout()), this, SLOT(updateTrace()));
}

bool CommAnalyzerPart::openURL(const KURL &url) {
	connectToServer(url.url());
}

bool CommAnalyzerPart::closeURL() {
	if (m_socket) {
		m_socket->close();
	
		while (m_socket->state() != TQSocket::Idle) {
			tqApp->processEvents();
		}
	}

	m_url = KURL();
	
	return true;
}

TQString CommAnalyzerPart::callServerMethod(int command) {
	if (m_instrumentMutex->locked() == true) {
		printf("[WARN] An attempt was made to access the instrument asynchronously, and was rejected to prevent a lockup\n\r"); fflush(stdout);
		return TQString::null;
	}
	m_instrumentMutex->lock();
	if (m_socket->state() == TQSocket::Connected) {
		TQString cmd = TQChar(command);
		cmd.append('\r');
		m_socket->writeBlock(cmd.latin1(), cmd.length());
		// Read from the server
		TQString serverRet;
		while ((!serverRet.contains('\r')) && (m_socket->state() == TQSocket::Connected)) {
			char data[1];
			if( m_socket->readBlock(data, 1) > 0) {
				serverRet.append(data[0]);
			}
			tqApp->eventLoop()->processEvents(TQEventLoop::AllEvents);
		}
		m_instrumentMutex->unlock();
		return serverRet;
	}
	else {
		m_instrumentMutex->unlock();
		return TQString::null;
	}
}

int16_t CommAnalyzerPart::callServerMethodInt16(int command) {
	if (m_instrumentMutex->locked() == true) {
		printf("[WARN] An attempt was made to access the instrument asynchronously, and was rejected to prevent a lockup\n\r"); fflush(stdout);
		return 0;
	}
	m_instrumentMutex->lock();
	if (m_socket->state() == TQSocket::Connected) {
		TQString cmd = TQChar(command);
		cmd.append('\r');
		m_socket->writeBlock(cmd.latin1(), cmd.length());
		// Read from the server
		int bytesread = 0;
		int16_t data[1];
		while ((bytesread < 2) && (m_socket->state() == TQSocket::Connected)) {
			int ret = m_socket->readBlock(((char*)data)+bytesread, 1);
			if (ret > 0) {
				bytesread += ret;
			}
			tqApp->eventLoop()->processEvents(TQEventLoop::AllEvents);
		}
		TQString serverRet;
		while ((!serverRet.contains('\r')) && (m_socket->state() == TQSocket::Connected)) {
			char data[1];
			if( m_socket->readBlock(data, 1) > 0) {
				serverRet.append(data[0]);
			}
			tqApp->eventLoop()->processEvents(TQEventLoop::AllEvents);
		}
		m_instrumentMutex->unlock();
		return data[0];
	}
	else {
		m_instrumentMutex->unlock();
		return 0;
	}
}

double CommAnalyzerPart::callServerMethodDouble(int command) {
	if (m_instrumentMutex->locked() == true) {
		printf("[WARN] An attempt was made to access the instrument asynchronously, and was rejected to prevent a lockup\n\r"); fflush(stdout);
		return 0;
	}
	m_instrumentMutex->lock();
	if (m_socket->state() == TQSocket::Connected) {
		TQString cmd = TQChar(command);
		cmd.append('\r');
		m_socket->writeBlock(cmd.latin1(), cmd.length());
		// Read from the server
		unsigned int bytesread = 0;
		double data[1];
		while ((bytesread < sizeof(double)) && (m_socket->state() == TQSocket::Connected)) {
			int ret = m_socket->readBlock(((char*)data)+bytesread, 1);
			if (ret > 0) {
				bytesread += ret;
			}
			tqApp->eventLoop()->processEvents(TQEventLoop::AllEvents);
		}
		TQString serverRet;
		while ((!serverRet.contains('\r')) && (m_socket->state() == TQSocket::Connected)) {
			char data[1];
			if( m_socket->readBlock(data, 1) > 0) {
				serverRet.append(data[0]);
			}
			tqApp->eventLoop()->processEvents(TQEventLoop::AllEvents);
		}
		m_instrumentMutex->unlock();
		return data[0];
	}
	else {
		m_instrumentMutex->unlock();
		return 0;
	}
}

void CommAnalyzerPart::sendServerCommandWithParameter(int command, TQString param) {
	if (m_instrumentMutex->locked() == true) {
		printf("[WARN] An attempt was made to access the instrument asynchronously, and was rejected to prevent a lockup\n\r"); fflush(stdout);
		return;
	}
	m_instrumentMutex->lock();
	if (m_socket->state() == TQSocket::Connected) {
		TQString cmd = TQChar(command);
		param = TQString("%1%2%3").arg(param).arg(TQChar('°')).arg(TQChar('\r'));
		cmd += param;
		m_socket->writeBlock(cmd.ascii(), cmd.length());
		// Read from the server
		TQString serverRet;
		while ((!serverRet.contains('\r')) && (m_socket->state() == TQSocket::Connected)) {
			char data[1];
			if( m_socket->readBlock(data, 1) > 0) {
				serverRet.append(data[0]);
			}
			tqApp->eventLoop()->processEvents(TQEventLoop::AllEvents);
		}
	}
	m_instrumentMutex->unlock();
}

void CommAnalyzerPart::sendServerCommand(int command) {
	if (m_instrumentMutex->locked() == true) {
		printf("[WARN] An attempt was made to access the instrument asynchronously, and was rejected to prevent a lockup\n\r"); fflush(stdout);
		return;
	}
	m_instrumentMutex->lock();
	if (m_socket->state() == TQSocket::Connected) {
		TQString cmd = TQChar(command);
		cmd.append('\r');
		m_socket->writeBlock(cmd.latin1(), cmd.length());
		// Read from the server
		TQString serverRet;
		while ((!serverRet.contains('\r')) && (m_socket->state() == TQSocket::Connected)) {
			char data[1];
			if( m_socket->readBlock(data, 1) > 0) {
				serverRet.append(data[0]);
			}
			tqApp->eventLoop()->processEvents(TQEventLoop::AllEvents);
		}
	}
	m_instrumentMutex->unlock();
}

void CommAnalyzerPart::callServerMethodDoubleArray(int command, double * array, int arrayLen) {
	if (m_instrumentMutex->locked() == true) {
		printf("[WARN] An attempt was made to access the instrument asynchronously, and was rejected to prevent a lockup\n\r"); fflush(stdout);
		return;
	}
	m_instrumentMutex->lock();
	if (m_socket->state() == TQSocket::Connected) {
		TQString cmd = TQChar(command);
		cmd.append('\r');
		m_socket->writeBlock(cmd.latin1(), cmd.length());
		// Read from the server
		TQString serverRet;
		while ((!serverRet.contains('\r')) && (m_socket->state() == TQSocket::Connected)) {
			char data[1];
			if( m_socket->readBlock(data, 1) > 0) {
				serverRet.append(data[0]);
			}
			tqApp->eventLoop()->processEvents(TQEventLoop::AllEvents);
		}
		unsigned int bytesread = 0;
		int16_t data[1];
		while ((bytesread < 2) && (m_socket->state() == TQSocket::Connected)) {
			int ret = m_socket->readBlock(((char*)data)+bytesread, 1);
			if (ret > 0) {
				bytesread += ret;
			}
			tqApp->eventLoop()->processEvents(TQEventLoop::AllEvents);
		}
		serverRet = "";
		while ((!serverRet.contains('\r')) && (m_socket->state() == TQSocket::Connected)) {
			char data[1];
			if( m_socket->readBlock(data, 1) > 0) {
				serverRet.append(data[0]);
			}
			tqApp->eventLoop()->processEvents(TQEventLoop::AllEvents);
		}
		bytesread = 0;
		int elementsread = 0;
		for (elementsread=0;elementsread<arrayLen;elementsread++) {
			bytesread = 0;
			while ((bytesread < sizeof(double)) && (m_socket->state() == TQSocket::Connected)) {
				if (m_socket->size() < 1) {
					tqApp->eventLoop()->processEvents(TQEventLoop::AllEvents);
				}
				int ret = m_socket->readBlock(((char*)array)+bytesread+(elementsread*sizeof(double)), 1);
				if (ret > 0) {
					bytesread += ret;
				}
			}
		}
	}
	m_instrumentMutex->unlock();
}

int CommAnalyzerPart::connectToServer(TQString server) {
	if (!m_socket) {
		m_socket = new TQSocket(this);
// 		connect(m_socket, SIGNAL(connected()), SLOT(socketConnected()));
// 		connect(m_socket, SIGNAL(connectionClosed()), SLOT(socketConnectionClosed()));
// 		connect(m_socket, SIGNAL(readyRead()), SLOT(socketReadyRead()));
// 		connect(m_socket, SIGNAL(error(int)), SLOT(socketError(int)));
	}
	m_socket->connectToHost(server, 4002);
	while ((m_socket->state() != TQSocket::Connected) && (m_socket->state() != TQSocket::Idle)) {
		tqApp->eventLoop()->processEvents(TQEventLoop::AllEvents);
	}
	if (m_socket->state() != TQSocket::Connected) {
		return -1;
	}

	// Gather information from the server
	if (callServerMethod(41) == "NCK") {
		// FIXME
		// Display message and exit
		return -1;
	}
	sendServerCommand(40);					// Set spectrum analyzer mode
	m_samplesInTrace = callServerMethodInt16(63);		// Get number of samples in trace
	m_traceWidget->setNumberOfSamples(m_samplesInTrace);
	m_hdivs = callServerMethodInt16(62);			// Get number of horizontal divisions
	m_traceWidget->setNumberOfHorizontalDivisions(m_hdivs);
	m_vdivs = callServerMethodInt16(64);			// Get number of vertical divisions
	m_traceWidget->setNumberOfVerticalDivisions(m_vdivs);

	m_rpower = callServerMethodDouble(65);			// Get reference power level
	m_vscale = callServerMethodDouble(66);			// Get vertical division scale

	m_centerfreq = callServerMethodDouble(67);		// Get center frequency
	m_spanfreq = callServerMethodDouble(68);		// Get frequency span

	updateGraticule();

	// Start trace update timer
	m_updateTimer->start(10, FALSE);
}

void CommAnalyzerPart::postProcessTrace() {
	return;
}

void CommAnalyzerPart::updateTrace() {
	m_updateTimer->stop();
	callServerMethodDoubleArray(42, m_traceWidget->samples(), m_samplesInTrace);
	postProcessTrace();
	m_traceWidget->repaint();
	if (m_socket->state() == TQSocket::Connected) {
		if (stopTraceUpdate == true) {
			stopTraceUpdate = false;
		}
		else {
			m_updateTimer->start(10, FALSE);
		}
	}
}

void CommAnalyzerPart::updateGraticule() {
	m_leftFrequency = m_centerfreq - (m_spanfreq/2.0);
	m_rightFrequency = m_centerfreq + (m_spanfreq/2.0);
	m_traceWidget->setDisplayLimits(m_leftFrequency, m_rpower, m_rightFrequency, m_rpower-(m_vscale*m_hdivs));

	// Also update controls
	m_base->saRefLevel->blockSignals(true);
	m_base->saRefLevel->setFloatValue(m_rpower);
	m_base->saRefLevel->blockSignals(false);
}

void CommAnalyzerPart::saRefLevelChanged(double newval) {
	// We cannot directly send data to the remote instrument because the GUI event may have ocurred during a remote instrument transaction
	// This "flaw" is a direct result of maximizing performance by processing GUI events during network transfers, as well as the fact that this client is a multithreaded application
	m_rpower = newval;
	stopTraceUpdate = true;
	TQTimer::singleShot(0, this, SLOT(changeSaRefLevel()));
}

void CommAnalyzerPart::changeSaRefLevel() {
	// Keep trying to set the new power level
	if (m_instrumentMutex->locked() == false) {
		sendServerCommandWithParameter(61, TQString("%1").arg(m_rpower, 0, 'E'));	// Set reference power level
		m_rpower = callServerMethodDouble(65);						// Get reference power level
		updateGraticule();								// Update the display grid
		m_updateTimer->start(10, FALSE);						// Restart trace update timer
	}
	else {
		tqApp->eventLoop()->processEvents(TQEventLoop::ExcludeUserInput);
		TQTimer::singleShot(0, this, SLOT(changeSaRefLevel()));
	}
}

KAboutData* CommAnalyzerPart::createAboutData() {
	return new KAboutData( APP_NAME, I18N_NOOP( APP_PRETTYNAME ), APP_VERSION );
}

} //namespace RemoteLab

#include "part.moc"