detectors/slsDetectorPackage
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slsDetectorPackage/slsReceiverSoftware/include/Implementation.h

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#pragma once
#include "container_utils.h"
#include "logger.h"
#include "receiver_defs.h"
#include "network_utils.h"
class GeneralData;
class Listener;
class DataProcessor;
class DataStreamer;
class Fifo;
class slsDetectorDefs;
#include <atomic>
#include <exception>
#include <memory>
#include <vector>
class Implementation : private virtual slsDetectorDefs {
public:
//*** cosntructor & destructor ***
/**
* Constructor
*/
Implementation();
/**
* Destructor
*/
virtual ~Implementation();
/*************************************************************************
* Getters ***************************************************************
* They access local cache of configuration or detector parameters *******
*************************************************************************/
//**initial parameters***
int *getMultiDetectorSize() const;
int getDetectorPositionId() const;
std::string getDetectorHostname() const;
int getFlippedDataX() const;
bool getGapPixelsEnable() const;
bool getQuad() const;
int getReadNLines() const;
readoutMode getReadoutMode() const;
//***file parameters***
fileFormat getFileFormat() const;
std::string getFileName() const;
std::string getFilePath() const;
uint64_t getFileIndex() const;
uint32_t getFramesPerFile() const;
frameDiscardPolicy getFrameDiscardPolicy() const;
bool getFramePaddingEnable() const;
bool getFileWriteEnable() const;
bool getMasterFileWriteEnable() const;
bool getOverwriteEnable() const;
//***acquisition count parameters***
uint64_t getFramesCaught() const;
uint64_t getAcquisitionIndex() const;
//***connection parameters***
uint32_t getUDPPortNumber() const;
uint32_t getUDPPortNumber2() const;
std::string getEthernetInterface() const;
std::string getEthernetInterface2() const;
int getNumberofUDPInterfaces() const;
//***acquisition parameters***
ROI getROI() const;
uint32_t getADCEnableMask() const;
uint32_t getStreamingFrequency() const;
uint32_t getStreamingTimer() const;
bool getDataStreamEnable() const;
uint64_t getAcquisitionPeriod() const;
uint64_t getAcquisitionTime() const;
uint64_t getSubExpTime() const;
uint64_t getSubPeriod() const;
uint64_t getNumberOfFrames() const;
uint32_t getNumberofAnalogSamples() const;
uint32_t getNumberofDigitalSamples() const;
uint32_t getDynamicRange() const;
bool getTenGigaEnable() const;
uint32_t getFifoDepth() const;
//***receiver status***
runStatus getStatus() const;
bool getSilentMode() const;
std::vector<int> getDbitList() const;
int getDbitOffset() const;
bool getActivate() const;
bool getDeactivatedPadding() const;
uint32_t getStreamingPort() const;
sls::IpAddr getStreamingSourceIP() const;
std::string getAdditionalJsonHeader() const;
int64_t getUDPSocketBufferSize() const;
int64_t getActualUDPSocketBufferSize() const;
/*************************************************************************
* Setters ***************************************************************
* They modify the local cache of configuration or detector parameters ***
*************************************************************************/
//**initial parameters***
void setDetectorHostname(const std::string& c);
void setMultiDetectorSize(const int *size);
void setFlippedDataX(int enable = -1);
/* [Eiger] */
int setGapPixelsEnable(const bool b);
/* [Eiger] */
int setQuad(const bool b);
/* [Eiger] */
void setReadNLines(const int value);
/* [Ctb] */
int setReadoutMode(const readoutMode f);
//***file parameters***
void setFileFormat(slsDetectorDefs::fileFormat f);
void setFileName(const std::string& c);
/* check for existence */
void setFilePath(const std::string& c);
void setFileIndex(const uint64_t i);
/* 0 means infinite */
void setFramesPerFile(const uint32_t i);
void setFrameDiscardPolicy(const frameDiscardPolicy i);
void setFramePaddingEnable(const bool i);
void setFileWriteEnable(const bool b);
void setMasterFileWriteEnable(const bool b);
void setOverwriteEnable(const bool b);
//***connection parameters***
void setUDPPortNumber(const uint32_t i);
/* [Eiger][Jungfrau] */
void setUDPPortNumber2(const uint32_t i);
void setEthernetInterface(const std::string &c);
/* [Jungfrau] */
void setEthernetInterface2(const std::string &c);
/* [Jungfrau] */
int setNumberofUDPInterfaces(const int n);
int setUDPSocketBufferSize(const int64_t s);
//***acquisition parameters***
/* [Gotthard] */
int setROI(ROI arg);
/* [Ctb][Moench] */
int setADCEnableMask(const uint32_t mask);
/* 0 for timer */
int setStreamingFrequency(const uint32_t freq);
void setStreamingTimer(const uint32_t time_in_ms);
int setDataStreamEnable(const bool enable);
void setStreamingPort(const uint32_t i);
void setStreamingSourceIP(const sls::IpAddr ip);
void setAdditionalJsonHeader(const std::string& c);
void setAcquisitionPeriod(const uint64_t i);
void setAcquisitionTime(const uint64_t i);
void setSubExpTime(const uint64_t i);
void setSubPeriod(const uint64_t i);
void setNumberOfFrames(const uint64_t i);
int setNumberofAnalogSamples(const uint32_t i);
int setNumberofDigitalSamples(const uint32_t i);
int setDynamicRange(const uint32_t i);
/* [Eiger][Ctb] */
int setTenGigaEnable(const bool b);
int setFifoDepth(const uint32_t i);
//***receiver parameters***
/** [Eiger]
* Activate / Deactivate Receiver
* If deactivated, receiver will create dummy data if deactivated padding is
* enabled (as it will receive nothing from detector)
* @param enable enable
* @return false for disabled, true for enabled
*/
bool setActivate(const bool enable);
/* [Eiger] */
bool setDeactivatedPadding(const bool enable);
void setSilentMode(const bool i);
/* [Ctb] */
void setDbitList(const std::vector<int> v);
/* [Ctb] */
void setDbitOffset(const int s);
/*************************************************************************
* Behavioral functions***************************************************
* They may modify the status of the receiver ****************************
*************************************************************************/
//***initial functions***
/**
* Set receiver type (and corresponding detector variables in derived
* STANDARD class) It is the first function called by the client when
* connecting to receiver
* @param d detector type
* @return OK or FAIL
*/
int setDetectorType(const detectorType d);
void setDetectorPositionId(const int id);
//***acquisition functions***
int startReceiver(std::string& err);
void stopReceiver();
void startReadout();
void shutDownUDPSockets();
void closeFiles();
int restreamStop();
//***callback functions***
void registerCallBackStartAcquisition(int (*func)(std::string, std::string, uint64_t,
uint32_t, void *),
void *arg);
void registerCallBackAcquisitionFinished(void (*func)(uint64_t, void *),
void *arg);
void registerCallBackRawDataReady(void (*func)(char *, char *, uint32_t,
void *),
void *arg);
void registerCallBackRawDataModifyReady(void (*func)(char *, char *,
uint32_t &, void *),
void *arg);
private:
void DeleteMembers();
void InitializeMembers();
void SetLocalNetworkParameters();
void SetThreadPriorities();
int SetupFifoStructure();
void ResetParametersforNewAcquisition();
int CreateUDPSockets();
int SetupWriter();
void StartRunning();
/*************************************************************************
* Class Members *********************************************************
*************************************************************************/
//**detector parameters***
detectorType myDetectorType;
int numDet[MAX_DIMENSIONS];
int detID;
std::string detHostname;
uint64_t acquisitionPeriod;
uint64_t acquisitionTime;
uint64_t subExpTime;
uint64_t subPeriod;
uint64_t numberOfFrames;
uint64_t numberOfAnalogSamples;
uint64_t numberOfDigitalSamples;
uint32_t dynamicRange;
bool tengigaEnable;
uint32_t fifoDepth;
int flippedDataX;
bool gapPixelsEnable;
bool quadEnable;
int numLinesReadout;
readoutMode readoutType;
//*** receiver parameters ***
int numThreads;
const static int MAX_NUMBER_OF_LISTENING_THREADS = 2;
std::atomic<runStatus> status;
bool activated;
bool deactivatedPaddingEnable;
frameDiscardPolicy frameDiscardMode;
bool framePadding;
bool silentMode;
std::vector<int> ctbDbitList;
int ctbDbitOffset;
int ctbAnalogDataBytes;
//***connection parameters***
int numUDPInterfaces;
std::vector <std::string> eth;
uint32_t udpPortNum[MAX_NUMBER_OF_LISTENING_THREADS];
int64_t udpSocketBufferSize;
int64_t actualUDPSocketBufferSize;
//***file parameters***
fileFormat fileFormatType;
std::string fileName;
std::string filePath;
uint64_t fileIndex;
uint32_t framesPerFile;
bool fileWriteEnable;
bool masterFileWriteEnable;
bool overwriteEnable;
//***acquisition parameters***
ROI roi;
uint32_t adcEnableMask;
uint32_t streamingFrequency;
uint32_t streamingTimerInMs;
bool dataStreamEnable;
uint32_t streamingPort;
sls::IpAddr streamingSrcIP;
std::string additionalJsonHeader;
//** class objects ***
GeneralData *generalData;
std::vector<std::unique_ptr<Listener>> listener;
std::vector<std::unique_ptr<DataProcessor>> dataProcessor;
std::vector<std::unique_ptr<DataStreamer>> dataStreamer;
std::vector<std::unique_ptr<Fifo>> fifo;
//***callback parameters***
int (*startAcquisitionCallBack)(std::string, std::string, uint64_t, uint32_t, void *);
void *pStartAcquisition;
void (*acquisitionFinishedCallBack)(uint64_t, void *);
void *pAcquisitionFinished;
void (*rawDataReadyCallBack)(char *, char *, uint32_t, void *);
void (*rawDataModifyReadyCallBack)(char *, char *, uint32_t &, void *);
void *pRawDataReady;
};
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