1 year ago · e98206b11f
--- a/src/TactiloController/ovpCBoxAlgorithmTactiloController.cpp
+++ b/src/TactiloController/ovpCBoxAlgorithmTactiloController.cpp
@@ -1,138 +1,138 @@
 ///-------------------------------------------------------------------------------------------------
 /// 
 /// \file ovpCBoxAlgorithmTactiloController.cpp
 /// \brief Functions of the Box Tactilo Controller.
 /// \author Tobias Baumann (TH-Nürnberg).
 /// \version 1.0.
 /// \date Mon Feb 21 14:59:56 2022.
 /// \copyright <a href="https://choosealicense.com/licenses/agpl-3.0/">GNU Affero General Public License v3.0</a>.
 /// 
 ///-------------------------------------------------------------------------------------------------

 //includes
 #include "ovpCBoxAlgorithmTactiloController.h"
 #include <string>

 using namespace OpenViBE;
 using namespace /*OpenViBE::*/Kernel;
 using namespace /*OpenViBE::*/Plugins;
 using namespace /*OpenViBE::Plugins::*/Tactilebci;

 /*******************************************************************************/

 bool CBoxAlgorithmTactiloController::initialize()
 {
 	m_StimDecoder.initialize(*this, 0);
 	m_StimEncoder.initialize(*this, 0);
 	
 	//get Box Settings
 	m_PortName  = FSettingValueAutoCast(*this->getBoxAlgorithmContext(), 0);
 	m_RowBase   = FSettingValueAutoCast(*this->getBoxAlgorithmContext(), 1);
 	m_nTactilos = FSettingValueAutoCast(*this->getBoxAlgorithmContext(), 3);
 	
 	//set m_nTactilos to 2 if lower than 2
 	if(m_nTactilos < 2)
 	{
 		m_nTactilos = 2;
 	}
 	//set m_nTactilos to MAX if greater than MAX_TACTILOS
 	if(m_nTactilos > MAX_TACTILOS)
 	{
 		m_nTactilos = MAX_TACTILOS;
 	}
 	
 	//open serial port and set baudrate to 115200
 	m_Port.open(m_PortName.toASCIIString());
  	m_Port.set_option(boost::asio::serial_port::baud_rate(115200));
 	
 	if(m_Port.is_open())
 	{
 		this->getLogManager() << LogLevel_Info << "Connected to Serial Port: " << m_PortName << "\n";
 		m_Port.write_some(boost::asio::buffer("b"));
 	}
 	
 	return true;
 }

 /*******************************************************************************/

 bool CBoxAlgorithmTactiloController::uninitialize()
 {
 	this->getLogManager() << LogLevel_Info << "Disconnect from Serial Port: " << m_PortName << "\n";
 	m_Port.write_some(boost::asio::buffer("e"));
 	m_Port.close();

 	m_StimDecoder.uninitialize();
 	m_StimEncoder.uninitialize();
 	
 	return true;
 }

 /*******************************************************************************/

 bool CBoxAlgorithmTactiloController::processInput(const size_t index)
 {
 	// some pre-processing code if needed...

 	// ready to process !
 	getBoxAlgorithmContext()->markAlgorithmAsReadyToProcess();

 	return true;
 }

 /*******************************************************************************/
 bool CBoxAlgorithmTactiloController::process()
 {
 	
 	// the static box context describes the box inputs, outputs, settings structures
 	const IBox& staticBoxContext = this->getStaticBoxContext();
 	// the dynamic box context describes the current state of the box inputs and outputs (i.e. the chunks)
 	IBoxIO& boxContext       = this->getDynamicBoxContext();
 	
 	uint64_t StimulationID   = 0;
 	uint64_t ChunkStartTime  = 0;
 	uint64_t ChunkEndTime    = 0;
 	uint64_t Size            = 0;
 	const uint8_t*  Buffer   = nullptr;    

 	//iterate over all chunk on input 0
 	for (uint64_t i = 0; i < boxContext.getInputChunkCount(0); ++i)
 	{
 		// decode the chunk i
 		m_StimDecoder.decode(i);

 		if(m_StimDecoder.isBufferReceived())
 		{
 			//check received stimulations
 			IStimulationSet* StimSet = m_StimDecoder.getOutputStimulationSet();
 			for(uint64_t j=0; j<StimSet->getStimulationCount(); j++)
 			{
 				StimulationID   = StimSet->getStimulationIdentifier(j);
 				
 				if(StimulationID >= m_RowBase && StimulationID < (m_RowBase + m_nTactilos))
 				{				
 					m_currTactiloNr = StimulationID-m_RowBase+1;
 				}
 				if(StimulationID == OVTK_StimulationId_VisualStimulationStart)
 				{
 					this->getLogManager() << LogLevel_Info << "Tactilo Nr. " << m_currTactiloNr << " ON\n";
 					m_Port.write_some(boost::asio::buffer(std::to_string(m_currTactiloNr)));
 				}
 				if(StimulationID == OVTK_StimulationId_VisualStimulationStop)
 				{
 					this->getLogManager() << LogLevel_Info << "Tactilo Nr. " << m_currTactiloNr << " OFF\n";
 					m_Port.write_some(boost::asio::buffer(std::to_string(m_currTactiloNr)));
 				}
 			}
 		}
 		// forward input chunks
 		boxContext.getInputChunk(0, i, ChunkStartTime, ChunkEndTime, Size, Buffer);
 		boxContext.appendOutputChunkData(0, Buffer, Size);
 		boxContext.markOutputAsReadyToSend(0, ChunkStartTime, ChunkEndTime);
 		boxContext.markInputAsDeprecated(0, i);
 	}

 	return true;
 }

 ///-------------------------------------------------------------------------------------------------
 /// 
 /// \file ovpCBoxAlgorithmTactiloController.cpp
 /// \brief Functions of the Box Tactilo Controller.
 /// \author Tobias Baumann (TH-Nürnberg).
 /// \version 1.0.
 /// \date Mon Feb 21 14:59:56 2022.
 /// \copyright <a href="https://choosealicense.com/licenses/agpl-3.0/">GNU Affero General Public License v3.0</a>.
 /// 
 ///-------------------------------------------------------------------------------------------------

 //includes
 #include "ovpCBoxAlgorithmTactiloController.h"
 #include <string>

 using namespace OpenViBE;
 using namespace /*OpenViBE::*/Kernel;
 using namespace /*OpenViBE::*/Plugins;
 using namespace /*OpenViBE::Plugins::*/Tactilebci;

 /*******************************************************************************/

 bool CBoxAlgorithmTactiloController::initialize()
 {
 	m_StimDecoder.initialize(*this, 0);
 	m_StimEncoder.initialize(*this, 0);
 	
 	//get Box Settings
 	m_PortName  = FSettingValueAutoCast(*this->getBoxAlgorithmContext(), 0);
 	m_RowBase   = FSettingValueAutoCast(*this->getBoxAlgorithmContext(), 1);
 	m_nTactilos = FSettingValueAutoCast(*this->getBoxAlgorithmContext(), 2);
 	
 	//set m_nTactilos to 2 if lower than 2
 	if(m_nTactilos < 2)
 	{
 		m_nTactilos = 2;
 	}
 	//set m_nTactilos to MAX if greater than MAX_TACTILOS
 	if(m_nTactilos > MAX_TACTILOS)
 	{
 		m_nTactilos = MAX_TACTILOS;
 	}
 	
 	//open serial port and set baudrate to 115200
 	m_Port.open(m_PortName.toASCIIString());
  	m_Port.set_option(boost::asio::serial_port::baud_rate(115200));
 	
 	if(m_Port.is_open())
 	{
 		this->getLogManager() << LogLevel_Info << "Connected to Serial Port: " << m_PortName << "\n";
 		m_Port.write_some(boost::asio::buffer("b"));
 	}
 	
 	return true;
 }

 /*******************************************************************************/

 bool CBoxAlgorithmTactiloController::uninitialize()
 {
 	this->getLogManager() << LogLevel_Info << "Disconnect from Serial Port: " << m_PortName << "\n";
 	m_Port.write_some(boost::asio::buffer("e"));
 	m_Port.close();

 	m_StimDecoder.uninitialize();
 	m_StimEncoder.uninitialize();
 	
 	return true;
 }

 /*******************************************************************************/

 bool CBoxAlgorithmTactiloController::processInput(const size_t index)
 {
 	// some pre-processing code if needed...

 	// ready to process !
 	getBoxAlgorithmContext()->markAlgorithmAsReadyToProcess();

 	return true;
 }

 /*******************************************************************************/
 bool CBoxAlgorithmTactiloController::process()
 {
 	
 	// the static box context describes the box inputs, outputs, settings structures
 	const IBox& staticBoxContext = this->getStaticBoxContext();
 	// the dynamic box context describes the current state of the box inputs and outputs (i.e. the chunks)
 	IBoxIO& boxContext       = this->getDynamicBoxContext();
 	
 	uint64_t StimulationID   = 0;
 	uint64_t ChunkStartTime  = 0;
 	uint64_t ChunkEndTime    = 0;
 	uint64_t Size            = 0;
 	const uint8_t*  Buffer   = nullptr;    

 	//iterate over all chunk on input 0
 	for (uint64_t i = 0; i < boxContext.getInputChunkCount(0); ++i)
 	{
 		// decode the chunk i
 		m_StimDecoder.decode(i);

 		if(m_StimDecoder.isBufferReceived())
 		{
 			//check received stimulations
 			IStimulationSet* StimSet = m_StimDecoder.getOutputStimulationSet();
 			for(uint64_t j=0; j<StimSet->getStimulationCount(); j++)
 			{
 				StimulationID   = StimSet->getStimulationIdentifier(j);
 				
 				if(StimulationID >= m_RowBase && StimulationID < (m_RowBase + m_nTactilos))
 				{				
 					m_currTactiloNr = StimulationID-m_RowBase+1;
 				}
 				if(StimulationID == OVTK_StimulationId_VisualStimulationStart)
 				{
 					this->getLogManager() << LogLevel_Info << "Tactilo Nr. " << m_currTactiloNr << " ON\n";
 					m_Port.write_some(boost::asio::buffer(std::to_string(m_currTactiloNr)));
 				}
 				if(StimulationID == OVTK_StimulationId_VisualStimulationStop)
 				{
 					this->getLogManager() << LogLevel_Info << "Tactilo Nr. " << m_currTactiloNr << " OFF\n";
 					m_Port.write_some(boost::asio::buffer(std::to_string(m_currTactiloNr)));
 				}
 			}
 		}
 		// forward input chunks
 		boxContext.getInputChunk(0, i, ChunkStartTime, ChunkEndTime, Size, Buffer);
 		boxContext.appendOutputChunkData(0, Buffer, Size);
 		boxContext.markOutputAsReadyToSend(0, ChunkStartTime, ChunkEndTime);
 		boxContext.markInputAsDeprecated(0, i);
 	}

 	return true;
 }

 /*******************************************************************************/