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merged zmqdata to developer

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This commit is contained in:
Dhanya Maliakal
2016-10-20 08:46:48 +02:00
parent fa7536e1d1 e49f97a03c
commit 12574f4c05
21 changed files with 743 additions and 487 deletions
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481
slsDetectorSoftware/multiSlsDetector/multiSlsDetector.cpp
View File

@ -23,6 +23,8 @@ ID: $Id$
#include <sys/shm.h>
#include <iostream>
#include <string>
#include <zmq.h>
#include <rapidjson/document.h> //to scan json header in zmq stream
using namespace std;
@ -299,7 +301,7 @@ int multiSlsDetector::createThreadPool(){
break;
default:
#ifdef VERBOSE
cout << "Initialized Threadpool" << endl;
cout << "Initialized Threadpool " << threadpool << endl;
#endif
break;
}
@ -311,7 +313,7 @@ void multiSlsDetector::destroyThreadPool(){
threadpool->destroy_threadpool();
threadpool=0;
#ifdef VERBOSE
cout<<"Destroyed Threadpool"<<endl;
cout<<"Destroyed Threadpool "<< threadpool << endl;
#endif
}
}
@ -392,7 +394,6 @@ int multiSlsDetector::addSlsDetector(int id, int pos) {
//set offsets
updateOffsets();
destroyThreadPool();
if(createThreadPool() == FAIL)
exit(-1);
@ -654,7 +655,6 @@ int multiSlsDetector::setDetectorId(int ival, int pos){
int multiSlsDetector::addSlsDetector(const char *name, int pos) {
detectorType t=getDetectorType(string(name));
int online=0;
slsDetector *s=NULL;
@ -866,7 +866,6 @@ int multiSlsDetector::removeSlsDetector(int pos) {
}
updateOffsets();
destroyThreadPool();
if(createThreadPool() == FAIL)
exit(-1);
@ -1198,6 +1197,7 @@ slsDetectorDefs::detectorSettings multiSlsDetector::getSettings(int pos) {
threadpool->add_task(task);
}
}
threadpool->startExecuting();
threadpool->wait_for_tasks_to_complete();
for(int idet=posmin; idet<posmax; idet++){
if(detectors[idet]){
@ -1245,6 +1245,7 @@ slsDetectorDefs::detectorSettings multiSlsDetector::setSettings(detectorSettings
threadpool->add_task(task);
}
}
threadpool->startExecuting();
threadpool->wait_for_tasks_to_complete();
for(int idet=posmin; idet<posmax; idet++){
if(detectors[idet]){
@ -1628,6 +1629,7 @@ int multiSlsDetector::startAndReadAllNoWait(){
threadpool->add_task(task);
}
}
threadpool->startExecuting();
threadpool->wait_for_tasks_to_complete();
for(int idet=posmin; idet<posmax; idet++){
if((idet!=thisMultiDetector->masterPosition) && (detectors[idet])){
@ -3320,6 +3322,7 @@ char* multiSlsDetector::setNetworkParameter(networkParameter p, string s){
threadpool->add_task(task);
}
}
threadpool->startExecuting();
threadpool->wait_for_tasks_to_complete();
for(int idet=0; idet<thisMultiDetector->numberOfDetectors; idet++){
if(detectors[idet]){
@ -3351,6 +3354,7 @@ char* multiSlsDetector::setNetworkParameter(networkParameter p, string s){
}
}
return getNetworkParameter(p);
}
@ -3928,6 +3932,7 @@ int multiSlsDetector::executeTrimming(trimMode mode, int par1, int par2, int imo
threadpool->add_task(task);
}
}
threadpool->startExecuting();
threadpool->wait_for_tasks_to_complete();
for(int idet=0; idet<thisMultiDetector->numberOfDetectors; idet++){
if(detectors[idet]){
@ -3994,6 +3999,7 @@ int multiSlsDetector::loadSettingsFile(string fname, int imod) {
threadpool->add_task(task);
}
}
threadpool->startExecuting();
threadpool->wait_for_tasks_to_complete();
for(int idet=0; idet<thisMultiDetector->numberOfDetectors; idet++){
if(detectors[idet]){
@ -4068,6 +4074,7 @@ int multiSlsDetector::setAllTrimbits(int val, int imod){
threadpool->add_task(task);
}
}
threadpool->startExecuting();
threadpool->wait_for_tasks_to_complete();
for(int idet=0; idet<thisMultiDetector->numberOfDetectors; idet++){
if(detectors[idet]){
@ -4117,6 +4124,7 @@ int multiSlsDetector::loadCalibrationFile(string fname, int imod) {
threadpool->add_task(task);
}
}
threadpool->startExecuting();
threadpool->wait_for_tasks_to_complete();
for(int idet=0; idet<thisMultiDetector->numberOfDetectors; idet++){
if(detectors[idet]){
@ -4774,6 +4782,7 @@ int multiSlsDetector::startReceiver(){
threadpool->add_task(task);
}
}
threadpool->startExecuting();
threadpool->wait_for_tasks_to_complete();
for(int idet=posmin; idet<posmax; idet++){
if((idet!=thisMultiDetector->masterPosition) && (detectors[idet])){
@ -4835,6 +4844,7 @@ int multiSlsDetector::stopReceiver(){
threadpool->add_task(task);
}
}
threadpool->startExecuting();
threadpool->wait_for_tasks_to_complete();
for(int idet=posmin; idet<posmax; idet++){
if((idet!=thisMultiDetector->masterPosition) && (detectors[idet])){
@ -4919,7 +4929,6 @@ slsDetectorDefs::runStatus multiSlsDetector::getReceiverStatus(){
int multiSlsDetector::getFramesCaughtByReceiver() {
int ret=0,ret1=0;
if(thisMultiDetector->numberOfDetectors>10) {
if (detectors[0]){
ret =detectors[0]->getFramesCaughtByReceiver();
@ -4981,99 +4990,353 @@ int multiSlsDetector::resetFramesCaught() {
}
int multiSlsDetector::createReceivingDataThreads(bool destroy){
if(!destroy) cprintf(MAGENTA,"Going to create data threads\n");
else cprintf(MAGENTA,"Going to destroy data threads\n");
int* multiSlsDetector::readFrameFromReceiver(char* fName, int &acquisitionIndex, int &frameIndex, int &subFrameIndex){
int nel=(thisMultiDetector->dataBytes)/sizeof(int);
if(nel <= 0){
cout << "Multislsdetector databytes not valid :" << thisMultiDetector->dataBytes << endl;
acquisitionIndex = -1;
return NULL;
int numReadouts = thisMultiDetector->numberOfDetectors;
if(getDetectorsType() == EIGER)
numReadouts *= 2;
//reset masks
killAllReceivingDataThreads = false;
//destroy
if(destroy){
#ifdef DEBUG
cout << "Destroying Receiving Data Thread(s)" << endl;
#endif
killAllReceivingDataThreads = true;
for(int i = 0; i < numReadouts; ++i){
sem_post(&sem_singlewait[i]);
pthread_join(receivingDataThreads[i],NULL);
sem_destroy(&sem_singlewait[i]);
sem_destroy(&sem_singledone[i]);
#ifdef DEBUG
cout << "." << flush << endl;
#endif
}
killAllReceivingDataThreads = false;
threadStarted = false;
cout << "Destroyed Receiving Data Thread(s)" << endl;
}
int n,complete=OK;
int i,k,offsetX, offsetY, maxX, maxY; double dr;
int* retval=new int[nel];
int *retdet = NULL, *p=retval;
string fullFName="";
string ext="";
int index=-1,f_index=-1,p_index=-1,det_index=-1;
double sv0=-1,sv1=-1;
//create
else{
#ifdef DEBUG
cout << "Creating Receiving Data Thread(s)" << endl;
#endif
//reset current index
currentThreadIndex = -1;
for(int i = 0; i < numReadouts; ++i){
sem_init(&sem_singlewait[i],1,0);
sem_init(&sem_singledone[i],1,0);
threadStarted = false;
currentThreadIndex = i;
if(pthread_create(&receivingDataThreads[i], NULL,staticstartReceivingDataThread, (void*) this)){
cprintf(RED, "Could not create receiving data thread with index %d\n",i);
return FAIL;
}
while(!threadStarted);
#ifdef DEBUG
cout << "." << flush << endl;
#endif
}
cout << "Receiving Data Thread(s) created" << endl;
}
return OK;
}
void* multiSlsDetector::staticstartReceivingDataThread(void* this_pointer){
((multiSlsDetector*)this_pointer)->startReceivingDataThread();
//while(true);
return this_pointer;
}
void multiSlsDetector::startReceivingDataThread(){
int ithread = currentThreadIndex; //set current thread value index
//server details
char hostname[100] = "tcp://127.0.0.1:";
int portno = DEFAULT_ZMQ_PORTNO + ithread;
sprintf(hostname,"%s%d",hostname,portno);
//socket details
zmq_msg_t message;
void *context;
void *zmqsocket;
context = zmq_ctx_new();
zmqsocket = zmq_socket(context, ZMQ_PULL);
//int hwmval = 10;
//zmq_setsockopt(zmqsocket,ZMQ_RCVHWM,&hwmval,sizeof(hwmval)); //set receive HIGH WATER MARK (8-9ms slower//should not drop last packets)
zmq_connect(zmqsocket, hostname);
cout << "ZMQ Client of " << ithread << " at " << hostname << endl;
cprintf(BLUE,"%d Created socket\n",ithread);
//initializations
int numReadoutPerDetector = 1;
bool jungfrau = false;
if(getDetectorsType() == EIGER){
numReadoutPerDetector = 2;
}else if(getDetectorsType() == JUNGFRAU)
jungfrau = true;
int singleDatabytes = detectors[ithread/numReadoutPerDetector]->getDataBytes();
int nel=(singleDatabytes/numReadoutPerDetector)/sizeof(int);
int* image = new int[nel];
int len,idet = 0;
singleframe[ithread]=NULL;
threadStarted = true; //let calling function know thread started and obtained current
//infinite loop, exited only (if gui restarted/ enabledatastreaming called)
while(true){
sem_wait(&sem_singlewait[ithread]); //wait for it to be copied
//check to exit thread
if(killAllReceivingDataThreads){
delete [] singleframe[ithread];
break;
}
//scan header-------------------------------------------------------------------
zmq_msg_init (&message);
len = zmq_msg_recv(&message, zmqsocket, 0);
if (len == -1) {
cprintf(BG_RED,"Could not read header for socket %d\n",ithread);
zmq_msg_close(&message);
cprintf(RED, "%d message null\n",ithread);
continue;
}
// error if you print it
// cout << ithread << " header len:"<<len<<" value:"<< (char*)zmq_msg_data(&message)<<endl;
//cprintf(BLUE,"%d header %d\n",ithread,len);
rapidjson::Document d;
d.Parse( (char*)zmq_msg_data(&message), zmq_msg_size(&message));
#ifdef VERYVERBOSE
// htype is an array of strings
rapidjson::Value::Array htype = d["htype"].GetArray();
for(int i=0; i< htype.Size(); i++)
std::cout << ithread << "htype: " << htype[i].GetString() << std::endl;
// shape is an array of ints
rapidjson::Value::Array shape = d["shape"].GetArray();
cout << ithread << "shape: ";
for(int i=0; i< shape.Size(); i++)
cout << ithread << shape[i].GetInt() << " ";
cout << endl;
cout << ithread << "type: " << d["type"].GetString() << endl;
#endif
if(!ithread){
currentAcquisitionIndex = d["acqIndex"].GetInt();
currentFrameIndex = d["fIndex"].GetInt();
currentSubFrameIndex = d["subfnum"].GetInt();
strcpy(currentFileName ,d["fname"].GetString());
#ifdef VERYVERBOSE
cout << "Acquisition index: " << currentAcquisitionIndex << endl;
cout << "Frame index: " << currentFrameIndex << endl;
cout << "Subframe index: " << currentSubFrameIndex << endl;
cout << "File name: " << currentFileName << endl;
#endif
if(currentFrameIndex ==-1) cprintf(RED,"multi frame index -1!!\n");
}
singleframe[ithread]=image;
// close the message
zmq_msg_close(&message);
//scan data-------------------------------------------------------------------
zmq_msg_init (&message);
len = zmq_msg_recv(&message, zmqsocket, 0);
//cprintf(BLUE,"%d data %d\n",ithread,len);
//end of socket ("end")
if (len < 1024*256 ) {
if(len == 3){
//cprintf(RED,"Received end of acquisition for socket %d\n", ithread);
singleframe[ithread] = NULL;
//break;
}else{
cprintf(RED,"Received weird packet size %d in socket for %d\n", len, ithread);
memset((char*)(singleframe[ithread]),0xFF,singleDatabytes/numReadoutPerDetector);
}
}
else{
//actual data
//cprintf(BLUE,"%d actual dataaa\n",ithread);
memcpy((char*)(singleframe[ithread]),(char*)zmq_msg_data(&message),singleDatabytes/numReadoutPerDetector);
//jungfrau masking adcval
if(jungfrau){
for(unsigned int i=0;i<nel;i++){
singleframe[ithread][i] = (singleframe[ithread][i] & 0x3FFF3FFF);
}
}
}
sem_post(&sem_singledone[ithread]);//let multi know is ready
zmq_msg_close(&message); // close the message
}
cprintf(RED,"%d Closing socket\n",ithread);
//close socket
zmq_disconnect(zmqsocket, hostname);
zmq_close(zmqsocket);
zmq_ctx_destroy(context);
#ifdef DEBUG
cprintf(MAGENTA,"Receiving Data Thread %d:Goodbye!\n",ithread);
#endif
}
void multiSlsDetector::readFrameFromReceiver(){
//determine number of half readouts and maxX and maxY
int maxX=0,maxY=0;
int numReadoutPerDetector = 1;
if(getDetectorsType() == EIGER){
numReadoutPerDetector = 2;
maxX = thisMultiDetector->numberOfChannel[X];
maxY = thisMultiDetector->numberOfChannel[Y];
}
int numReadouts = numReadoutPerDetector * thisMultiDetector->numberOfDetectors;
//initializing variables
strcpy(currentFileName,"");
currentAcquisitionIndex = -1;
currentFrameIndex = -1;
currentSubFrameIndex = -1;
for (int id=0; id<thisMultiDetector->numberOfDetectors; id++) {
if (detectors[id]) {
n=detectors[id]->getDataBytes();
retdet=detectors[id]->readFrameFromReceiver(fName, acquisitionIndex, frameIndex, subFrameIndex);
if(detectors[id]->getErrorMask())
setErrorMask(getErrorMask()|(1<<id));
if (retdet){
if (acquisitionIndex==-1){
complete = FAIL;
delete [] retdet;
}else{
n=detectors[id]->getDataBytes();
if(getDetectorsType() == EIGER){
//cout << "fname:"<<fName<<" findex:"<<fIndex<<endl;//cout<<"n:"<<n<<endl;//cout<<"maxchan:"<<detectors[id]->getMaxNumberOfChannels()<<" n:"<<n<<endl;
dr = (double)n/detectors[id]->getMaxNumberOfChannels();
k=(int)(detectors[id]->getMaxNumberOfChannels(X)*dr);//bit mode
//cout << "dr:"<<dr<<endl;//cout << "k:"<<k<<endl;
offsetY = (int)(((maxY - (thisMultiDetector->offsetY[id] + detectors[id]->getMaxNumberOfChannels(Y))) * maxX)*dr);//bit mode
offsetX = (int)(thisMultiDetector->offsetX[id]*dr);
//cout << "offsetY"<<offsetY<< " offsetX:"<<offsetX<<endl;
for(i=0; i< 256;i++){
memcpy((((char*)p) + offsetY + offsetX + ((int)(i*maxX*dr))) ,(((char*)retdet) + (i*k)),k);//bit mode
}
}
else{
memcpy(p,retdet,n);
p+=n/sizeof(int);
}
//getting values
int slsdatabytes = 0, slsmaxchannels = 0, bytesperchannel = 0, slsmaxX = 0, slsmaxY=0;
if(detectors[0]){
slsdatabytes = detectors[0]->getDataBytes();
slsmaxchannels = detectors[0]->getMaxNumberOfChannels();
bytesperchannel = slsdatabytes/slsmaxchannels;
slsmaxX = detectors[0]->getTotalNumberOfChannels(X);
slsmaxY = detectors[0]->getTotalNumberOfChannels(Y);
}
int nel=(thisMultiDetector->dataBytes)/sizeof(int);
if(nel <= 0){
cprintf(RED,"Error: Multislsdetector databytes not valid : %d\n", thisMultiDetector->dataBytes);
return;
}
int* multiframe=new int[nel];
int* p = multiframe;
int idet,offsetY,offsetX;
int halfreadoutoffset = (slsmaxX/numReadoutPerDetector);
int nx =getTotalNumberOfChannels(slsDetectorDefs::X);
int ny =getTotalNumberOfChannels(slsDetectorDefs::Y);
delete [] retdet;
//concatenate filenames
if(!fullFName.length()){
//assign file prefix
fullFName.assign(fileIO::getFileName());
if (strrchr(fName,'.')!=NULL){
ext.assign(fName);
size_t dot = ext.rfind(".");
if(dot != string::npos)
ext = ext.erase(0,dot);
else
ext = "";
//get variables
fileIOStatic::getVariablesFromFileName(fName,index, f_index, p_index, sv0, sv1, det_index);
//append scan and det variables
fullFName.append(fileIOStatic::getReceiverFileNameToConcatenate(fName));
}
}
//append only if scan variables are different
if(!fileIOStatic::verifySameFrame(fName,index,f_index, p_index, sv0, sv1, det_index)){
fullFName.append(fileIOStatic::getReceiverFileNameToConcatenate(fName));
}
}
}else {
#ifdef VERBOSE
cout << "Receiver for detector " << id << " does not have data left " << endl;
#endif
delete [] retval;
return NULL;
volatile uint64_t dataThreadMask = 0x0;
for(int i = 0; i < numReadouts; ++i)
dataThreadMask|=(1<<i);
//construct complete image and send to callback
while(true){
memset(((char*)multiframe),0xFF,slsdatabytes*thisMultiDetector->numberOfDetectors); //reset frame memory
//post all of them to start
for(int ireadout=0; ireadout<numReadouts; ++ireadout){
if((1 << ireadout) & dataThreadMask){
sem_post(&sem_singlewait[ireadout]); //sls to continue
}
}
//get each frame
for(int ireadout=0; ireadout<numReadouts; ++ireadout){
//cprintf(BLUE,"multi checking %d mask:0x%x\n",ireadout,receivingDataThreadMask);
idet = ireadout/numReadoutPerDetector;
if((1 << ireadout) & dataThreadMask){ //if running
sem_wait(&sem_singledone[ireadout]); //wait for sls to copy
//this socket closed
if(singleframe[ireadout] == NULL){ //if got nothing
dataThreadMask^=(1<<ireadout);
continue;
}
//assemble data
if(maxX){ //eiger, so interleaving between ports in one readout itself
offsetY = (maxY - (thisMultiDetector->offsetY[idet] + slsmaxY)) * maxX * bytesperchannel;
//the left half or right half
if(!(ireadout%numReadoutPerDetector))
offsetX = thisMultiDetector->offsetX[idet];
else
offsetX = thisMultiDetector->offsetX[idet] + halfreadoutoffset;
offsetX *= bytesperchannel;
//cprintf(BLUE,"offsetx:%d offsety:%d maxx:%d slsmaxX:%d slsmaxY:%d bytesperchannel:%d\n",
// offsetX,offsetY,maxX,slsmaxX,slsmaxY,bytesperchannel);
// cprintf(BLUE,"copying bytes:%d\n", (slsmaxX/numReadoutPerDetector)*bytesperchannel);
//itnerleaving with other detectors
//bottom
if(((idet+1)%2) == 0){
for(int i=0;i<slsmaxY;++i)
memcpy(((char*)multiframe) + offsetY + offsetX + ((slsmaxY-i)*maxX*bytesperchannel),
(char*)singleframe[ireadout]+ i*(slsmaxX/numReadoutPerDetector)*bytesperchannel,
(slsmaxX/numReadoutPerDetector)*bytesperchannel);
}
//top
else{
for(int i=0;i<slsmaxY;++i)
memcpy(((char*)multiframe) + offsetY + offsetX + (i*maxX*bytesperchannel),
(char*)singleframe[ireadout]+ i*(slsmaxX/numReadoutPerDetector)*bytesperchannel,
(slsmaxX/numReadoutPerDetector)*bytesperchannel);
}
}
//no interleaving, just add to the end
//numReadout always 1 here
else{
memcpy(p,multiframe,slsdatabytes);
p+=slsdatabytes/sizeof(int);
}
}
}
//all done
if(!dataThreadMask)
break;
//send data to callback
fdata = decodeData(multiframe);
if ((fdata) && (dataReady)){
thisData = new detectorData(fdata,NULL,NULL,getCurrentProgress(),currentFileName,nx,ny);
dataReady(thisData, currentFrameIndex, currentSubFrameIndex, pCallbackArg);//should be fnum and subfnum from json header
delete thisData;
fdata = NULL;
//cout<<"Send frame #"<< currentFrameIndex << " to gui"<<endl;
}
setCurrentProgress(currentAcquisitionIndex+1);
}
//append extension
fullFName.append(ext);
strcpy(fName,fullFName.c_str());
//if some of the receivers did not give data, dont count it
if((getDetectorsType() == EIGER) &&(complete ==FAIL))
acquisitionIndex = -1;
return retval;
};
//free resources
delete[] multiframe;
}
@ -5276,7 +5539,7 @@ int multiSlsDetector::calibratePedestal(int frames){
return ret;
}
int multiSlsDetector::setReadReceiverFrequency(int getFromReceiver,int i){
int multiSlsDetector::setReadReceiverFrequency(int getFromReceiver, int freq){
int ret=-100, ret1;
if(!getFromReceiver)
@ -5284,7 +5547,7 @@ int multiSlsDetector::setReadReceiverFrequency(int getFromReceiver,int i){
for (int idet=0; idet<thisMultiDetector->numberOfDetectors; idet++) {
if (detectors[idet]) {
ret1=detectors[idet]->setReadReceiverFrequency(getFromReceiver,i);
ret1=detectors[idet]->setReadReceiverFrequency(getFromReceiver,freq);
if(detectors[idet]->getErrorMask())
setErrorMask(getErrorMask()|(1<<idet));
if (ret==-100)
@ -5300,6 +5563,47 @@ int multiSlsDetector::setReadReceiverFrequency(int getFromReceiver,int i){
}
// only called from gui or that wants zmq data packets
int multiSlsDetector::enableDataStreamingFromReceiver(int enable){
if(enable >= 0){
if(threadStarted != enable){
//destroy data threads
if(threadStarted)
createReceivingDataThreads(true);
//create data threads
if(enable > 0){
if(createReceivingDataThreads() == FAIL){
std::cout << "Could not create data threads in client. Aborting creating data threads in receiver" << std::endl;
//only for the first det as theres no general one
setErrorMask(getErrorMask()|(1<<0));
detectors[0]->setErrorMask((detectors[0]->getErrorMask())|(DATA_STREAMING));
return -1;
}
}
}
}else enable = threadStarted;
int ret=-100, ret1;
for (int idet=0; idet<thisMultiDetector->numberOfDetectors; idet++) {
if (detectors[idet]) {
ret1=detectors[idet]->enableDataStreamingFromReceiver(enable);
if(detectors[idet]->getErrorMask())
setErrorMask(getErrorMask()|(1<<idet));
if (ret==-100)
ret=ret1;
else if (ret!=ret1)
ret=-1;
}
}
/*
if(enable == -1)
return threadStarted;
*/
return (threadStarted & ret);
}
int multiSlsDetector::enableReceiverCompression(int i){
int ret=-100,ret1;
@ -5506,6 +5810,7 @@ int multiSlsDetector::pulsePixel(int n,int x,int y) {
threadpool->add_task(task);
}
}
threadpool->startExecuting();
threadpool->wait_for_tasks_to_complete();
for(int idet=0; idet<thisMultiDetector->numberOfDetectors; idet++){
if(detectors[idet]){
@ -5542,6 +5847,7 @@ int multiSlsDetector::pulsePixelNMove(int n,int x,int y) {
threadpool->add_task(task);
}
}
threadpool->startExecuting();
threadpool->wait_for_tasks_to_complete();
for(int idet=0; idet<thisMultiDetector->numberOfDetectors; idet++){
if(detectors[idet]){
@ -5578,6 +5884,7 @@ int multiSlsDetector::pulseChip(int n) {
threadpool->add_task(task);
}
}
threadpool->startExecuting();
threadpool->wait_for_tasks_to_complete();
for(int idet=0; idet<thisMultiDetector->numberOfDetectors; idet++){
if(detectors[idet]){

61
slsDetectorSoftware/multiSlsDetector/multiSlsDetector.h
View File

@ -1181,18 +1181,21 @@ class multiSlsDetector : public slsDetectorUtils {
/**
* resets framescaught
* @param index frames caught by receiver
*/
*/
int resetFramesCaught();
/**
* Reads a frame from receiver
* @param fName file name of current frame()
* @param acquisitionIndex current acquisition index
* @param frameIndex current frame index (for each scan)
* @param subFrameIndex current sub frame index (for 32 bit mode for eiger)
/returns a frame read from recever
* Create Receiving Data Threads
* @param destroy is true to destroy all the threads
* @return OK or FAIL
*/
int createReceivingDataThreads(bool destroy = false);
/** Reads frames from receiver through a constant socket
*/
int* readFrameFromReceiver(char* fName, int &acquisitionIndex, int &frameIndex, int &subFrameIndex);
void readFrameFromReceiver();
/** Locks/Unlocks the connection to the receiver
/param lock sets (1), usets (0), gets (-1) the lock
@ -1253,14 +1256,20 @@ class multiSlsDetector : public slsDetectorUtils {
int calibratePedestal(int frames = 0);
/** Sets the read receiver frequency
if Receiver read upon gui request, readRxrFrequency=0,
if data required from receiver randomly readRxrFrequency=0,
else every nth frame to be sent to gui
@param getFromReceiver is 1 if it should ask the receiver,
0 if it can get it from multislsdetecter
@param i is the receiver read frequency
0 if it can get it from multi structure
@param freq is the receiver read frequency
/returns read receiver frequency
*/
int setReadReceiverFrequency(int getFromReceiver, int i=-1);
int setReadReceiverFrequency(int getFromReceiver, int freq=-1);
/** Enable or disable streaming data from receiver to client
* @param enable 0 to disable 1 to enable -1 to only get the value
* @returns data streaming
*/
int enableDataStreamingFromReceiver(int enable=-1);
/** updates the multidetector offsets */
void updateOffsets();
@ -1363,11 +1372,36 @@ class multiSlsDetector : public slsDetectorUtils {
bool getAcquiringFlag();
private:
/**
* Static function - Starts Data Thread of this object
* @param this_pointer pointer to this object
*/
static void* staticstartReceivingDataThread(void *this_pointer);
/**
* Thread that receives data packets from receiver
*/
void startReceivingDataThread();
/* synchronizing between zmq threads */
sem_t sem_singledone[MAXDET];
sem_t sem_singlewait[MAXDET];
int* singleframe[MAXDET];
/* Parameters given to the gui picked up from zmq threads*/
int currentAcquisitionIndex;
int currentFrameIndex;
int currentSubFrameIndex;
char currentFileName[MAX_STR_LENGTH];
pthread_t receivingDataThreads[MAXDET];
/** Ensures if threads created successfully */
bool threadStarted;
/** Current Thread Index*/
int currentThreadIndex;
/** Set to self-terminate data receiving threads waiting for semaphores */
bool killAllReceivingDataThreads;
protected:
@ -1385,7 +1419,6 @@ class multiSlsDetector : public slsDetectorUtils {
ThreadPool* threadpool;
};