SOLARIS_QT6_DAQ/SOLARISpanel.cpp

801 lines
31 KiB
C++

#include "SOLARISpanel.h"
#include <QFile>
#include <QLabel>
#include <QSet>
#include <QList>
#include <QFrame>
#include <QFileDialog>
#define NCOL 10 // number of column
#define ChStartIndex 2 // the index of detIDList for channel
std::vector<Reg> SettingItems = {PHA::CH::TriggerThreshold, PHA::CH::DC_Offset};
SOLARISpanel::SOLARISpanel(Digitizer2Gen **digi, unsigned short nDigi,
QString analysisPath,
std::vector<std::vector<int>> mapping,
QStringList detType,
QStringList detGroupName,
std::vector<int> detGroupID,
std::vector<int> detMaxID,
QWidget *parent) : QWidget(parent){
setWindowTitle("SOLARIS Settings");
setGeometry(0, 0, 1350, 800);
this->digi = digi;
this->nDigi = nDigi;
if( this->nDigi > MaxNumberOfDigitizer ) {
this->nDigi = MaxNumberOfDigitizer;
qDebug() << "Please increase the MaxNumberOfChannel";
}
this->mapping = mapping;
this->detTypeNameList = detType;
this->detMaxID = detMaxID;
this->detGroupID = detGroupID;
this->detGroupNameList = detGroupName;
this->digiSettingPath = analysisPath + "/working/Settings/";
//Check number of detector type; Array 0-199, Recoil 200-299, other 300-
int nDetType = detTypeNameList.size();
for( int k = 0 ; k < nDetType; k++) nDetinType.push_back(0);
std::vector<int> condenGroupID = detGroupID;
std::sort(condenGroupID.begin(), condenGroupID.end()); // sort the detGroupID
auto last = std::unique(condenGroupID.begin(), condenGroupID.end());
condenGroupID.erase(last, condenGroupID.end());
int nDetGroup = condenGroupID.size();
for( int k = 0 ; k < nDetGroup; k++) nDetinGroup.push_back(0);
QList<QList<int>> detIDListTemp; // store { detGroup, detID, (Digi << 8 ) + ch}, making mapping into 1-D array to be consolidated
printf("################################# \n");
for( int i = 0; i < (int) mapping.size() ; i++){
for( int j = 0; j < (int) mapping[i].size(); j++ ){
printf("%4d,", mapping[i][j]);
if( mapping[i][j] >= 0 ) {
int groupID = FindDetGroup(mapping[i][j]);
int typeID = FindDetTypeID(mapping[i][j]);
QList<int> haha ;
haha << groupID << mapping[i][j] << ((i << 8 ) + j);
detIDListTemp << haha;
nDetinType[typeID] ++;
nDetinGroup[groupID] ++;
}
if( j % 16 == 15 ) printf("\n");
}
printf("------------------ \n");
}
//consolidate detIDListTemp --> 2D array of (detID, (Digi << 8) + ch, +.... )
//for example, {2, 0, 0}, {2, 100, 1}, {2, 200, 2}--> {2, 0, 0, 1, 2};
//for example, {2, 1, 3}, {2, 101, 4}, {2, 201, 5}--> {2, 0, 3, 4, 5};
detIDArrayList.clear();
bool repeated = false;
for( int i = 0; i < detIDListTemp.size(); i++ ){
repeated = false;
if( detIDArrayList.size() == 0 ){
detIDArrayList << detIDListTemp[i];
continue;
}
for( int j = 0; j < detIDArrayList.size() ; j++){
if( detIDArrayList[j][0] == detIDListTemp[i][0] ) { // same group
int type1 = FindDetTypeID(detIDArrayList[j][1]);
int type2 = FindDetTypeID(detIDListTemp[i][1]);
int low1 = (type1 == 0 ? 0 : detMaxID[type1-1]);
int low2 = (type2 == 0 ? 0 : detMaxID[type2-1]);
int detID1 = detIDArrayList[j][1] - low1;
int detID2 = detIDListTemp[i][1] - low2;
if( detID1 == detID2) {
repeated = true;
detIDArrayList[j] << detIDListTemp[i][2];
break;
}
}
}
if( !repeated ) {
detIDArrayList << detIDListTemp[i];
}
}
//---- sort detIDList;
std::sort(detIDArrayList.begin(), detIDArrayList.end(), [](const QList<int>& a, const QList<int>& b) {
return a.at(1) < b.at(1);
});
//------------- display detector summary
//qDebug() << detIDList;
printf("---------- num. of det. Type : %d\n", nDetType);
for( int i =0; i < nDetType; i ++ ) {
detType[i].remove(' ');
printf(" Type-%d (%6s) : %3d det. (%3d - %3d)\n", i, detType[i].toStdString().c_str(), nDetinType[i], (i==0 ? 0 : detMaxID[i-1]), detMaxID[i]-1);
}
printf("---------- num. of det. Group : %d\n", nDetGroup);
for( int i =0; i < nDetGroup; i++){
printf(" Group-%d (%10s) : %3d det.\n", i, detGroupName[i].toStdString().c_str(), nDetinGroup[i]);
}
//---------- Set Panel
QGridLayout * mainLayout = new QGridLayout(this); this->setLayout(mainLayout);
///=================================
int rowIndex = 0 ;
QPushButton * bnRefresh = new QPushButton("Refresh Settings", this);
connect(bnRefresh, &QPushButton::clicked, this, &SOLARISpanel::RefreshSettings );
mainLayout->addWidget(bnRefresh, rowIndex, 0, 1, 2);
QPushButton * bnSaveSetting = new QPushButton("Save Settings", this);
connect(bnSaveSetting, &QPushButton::clicked, this, &SOLARISpanel::SaveSettings);
mainLayout->addWidget(bnSaveSetting, rowIndex, 2, 1, 2);
QPushButton * bnLoadSetting = new QPushButton("Load Settings", this);
connect(bnLoadSetting, &QPushButton::clicked, this, &SOLARISpanel::LoadSettings);
mainLayout->addWidget(bnLoadSetting, rowIndex, 4, 1, 2);
QLabel * lbCoinTime = new QLabel("Coin. Time (all ch.) [ns]", this);
lbCoinTime->setAlignment(Qt::AlignRight | Qt::AlignCenter);
mainLayout->addWidget(lbCoinTime, rowIndex, 6, 1, 2);
sbCoinTime = new RSpinBox(this);
sbCoinTime->setMinimum(-1);
sbCoinTime->setMaximum(atof(PHA::CH::CoincidenceLength.GetAnswers()[1].first.c_str()));
sbCoinTime->setSingleStep(atof(PHA::CH::CoincidenceLength.GetAnswers()[2].first.c_str()));
sbCoinTime->setDecimals(0);
sbCoinTime->SetToolTip(atof(PHA::CH::CoincidenceLength.GetAnswers()[1].first.c_str()));
mainLayout->addWidget(sbCoinTime, rowIndex, 8, 1, 2);
connect(sbCoinTime, &RSpinBox::valueChanged, this, [=](){
if( !enableSignalSlot ) return;
sbCoinTime->setStyleSheet("color:blue;");
});
connect(sbCoinTime, &RSpinBox::returnPressed, this, [=](){
if( !enableSignalSlot ) return;
//printf("%s %d %d \n", para.GetPara().c_str(), index, spb->value());
if( sbCoinTime->decimals() == 0 && sbCoinTime->singleStep() != 1) {
double step = sbCoinTime->singleStep();
double value = sbCoinTime->value();
sbCoinTime->setValue( (std::round(value/step) * step) );
}
for(int i = 0; i < (int) mapping.size(); i ++){
if( i >= nDigi || digi[i]->IsDummy() || !digi[i]->IsConnected() ) return;
QString msg;
msg = QString::fromStdString(PHA::CH::CoincidenceLength.GetPara()) + "|DIG:"+ QString::number(digi[i]->GetSerialNumber());
msg += ",CH:All = " + QString::number(sbCoinTime->value());
if( digi[i]->WriteValue(PHA::CH::CoincidenceLength, std::to_string(sbCoinTime->value()))){
SendLogMsg(msg + "|OK.");
sbCoinTime->setStyleSheet("");
}else{
SendLogMsg(msg + "|Fail.");
sbCoinTime->setStyleSheet("color:red;");
}
}
UpdatePanelFromMemory();
});
///=================================
rowIndex ++;
QLabel * info = new QLabel("Only simple trigger is avalible. For complex trigger scheme, please use the setting panel.", this);
mainLayout->addWidget(info, rowIndex, 0, 1, 4);
rowIndex ++;
QLabel * info2 = new QLabel("The panel is defined by " + analysisPath + "/working/Mapping.h", this);
mainLayout->addWidget(info2, rowIndex, 0, 1, 4);
///=================================
rowIndex ++;
QTabWidget * tabWidget = new QTabWidget(this); mainLayout->addWidget(tabWidget, rowIndex, 0, 1, 10);
for( int detGroup = 0; detGroup < nDetGroup; detGroup ++ ){
QTabWidget * tabSetting = new QTabWidget(tabWidget);
tabWidget->addTab(tabSetting, detGroupName[detGroup]);
for( int SettingID = 0; SettingID < (int) SettingItems.size(); SettingID ++){
QScrollArea * scrollArea = new QScrollArea(this);
scrollArea->setWidgetResizable(true);
scrollArea->setSizePolicy(QSizePolicy::Expanding, QSizePolicy::Expanding);
tabSetting->addTab(scrollArea, QString::fromStdString(SettingItems[SettingID]));
QWidget * tab = new QWidget(tabSetting);
scrollArea->setWidget(tab);
QGridLayout * layout = new QGridLayout(tab);
layout->setAlignment(Qt::AlignLeft|Qt::AlignTop);
layout->setSpacing(0);
chkAll[detGroup][SettingID] = new QCheckBox("Set for all", tab);
layout->addWidget(chkAll[detGroup][SettingID], 0, 0);
connect(chkAll[detGroup][SettingID], &QCheckBox::stateChanged, this, [=](bool state){
bool found = false;
for(int i = 0; i < detIDArrayList.size(); i++){
if( detIDArrayList[i][0] != detGroup ) continue;
if( found == false ){
found = true;
continue;
}else{
groupBox[detGroup][SettingID][detIDArrayList[i][1]]->setEnabled(!state);
}
}
});
QFrame *line = new QFrame(tab);
line->setFrameShape(QFrame::HLine);
line->setFrameShadow(QFrame::Sunken);
line->setFixedHeight(10);
layout->addWidget(line, 1, 0, 1, NCOL);
for(int i = 0; i < detIDArrayList.size(); i++){
if( detIDArrayList[i][0] != detGroup ) continue;
CreateDetGroup(SettingID, detIDArrayList[i], layout, i/NCOL + 2, i%NCOL);
}
}
}
enableSignalSlot = true;
}
SOLARISpanel::~SOLARISpanel(){
}
//^######################################################################
int SOLARISpanel::FindDetTypeID(int detID){
for( int i = 0; i < (int) detTypeNameList.size(); i++){
int lowID = (i == 0) ? 0 : detMaxID[i-1];
if( lowID <= detID && detID < detMaxID[i]) {
return i;
}
}
return -1;
}
int SOLARISpanel::FindDetGroup(int detID){
int typeID = FindDetTypeID(detID);
if( typeID == -1) return -999;
return detGroupID[typeID];
}
void SOLARISpanel::CreateDetGroup(int SettingID, QList<int> detIDArray, QGridLayout * &layout, int row, int col){
int detGroup = detIDArray[0];
int detID = detIDArray[1];
groupBox[detGroup][SettingID][detID] = new QGroupBox("Det-" + QString::number(detID), this);
groupBox[detGroup][SettingID][detID]->setFixedWidth(130);
groupBox[detGroup][SettingID][detID]->setAlignment(Qt::AlignCenter);
QGridLayout * layout0 = new QGridLayout(groupBox[detGroup][SettingID][detID]);
layout0->setSpacing(0);
layout0->setAlignment(Qt::AlignLeft);
//@======================================== SpinBox and Display
bool isDisableDetector = false;
int nChInGroupBox = 0;
for( int ppp = ChStartIndex; ppp < detIDArray.size(); ppp ++){
int chIndex = ppp - ChStartIndex;
isDisableDetector = false;
nChInGroupBox ++;
int digiID = (detIDArray[ppp] >> 8 );
int chID = (detIDArray[ppp] & 0xFF);
int typeID = FindDetTypeID(mapping[digiID][chID]);
QLabel * lb = new QLabel(detTypeNameList[typeID].remove(' '), this);
layout0->addWidget(lb, 2*chIndex, 0, 2, 1);
chkOnOff[SettingID][digiID][chID] = new QCheckBox(this);
layout0->addWidget(chkOnOff[SettingID][digiID][chID], 2*chIndex, 1, 2, 1);
leDisplay[SettingID][digiID][chID] = new QLineEdit(this);
leDisplay[SettingID][digiID][chID]->setFixedWidth(70);
leDisplay[SettingID][digiID][chID]->setReadOnly(true);
leDisplay[SettingID][digiID][chID]->setStyleSheet("color : green;");
layout0->addWidget(leDisplay[SettingID][digiID][chID], 2*chIndex, 2);
sbSetting[SettingID][digiID][chID] = new RSpinBox(this);
if( digiID < nDigi ) sbSetting[SettingID][digiID][chID]->setToolTip( "Digi-" + QString::number(digi[digiID]->GetSerialNumber()) + ", Ch-" + QString::number(chID));
sbSetting[SettingID][digiID][chID]->setToolTipDuration(-1);
sbSetting[SettingID][digiID][chID]->setFixedWidth(70);
sbSetting[SettingID][digiID][chID]->setMinimum(atoi(SettingItems[SettingID].GetAnswers()[0].first.c_str()));
sbSetting[SettingID][digiID][chID]->setMaximum(atoi(SettingItems[SettingID].GetAnswers()[1].first.c_str()));
sbSetting[SettingID][digiID][chID]->setSingleStep(atoi(SettingItems[SettingID].GetAnswers()[2].first.c_str()));
layout0->addWidget(sbSetting[SettingID][digiID][chID], 2*chIndex+1, 2);
if( digiID >= nDigi || chID >= digi[digiID]->GetNChannels() ) {
leDisplay[SettingID][digiID][chID]->setEnabled(false);
sbSetting[SettingID][digiID][chID]->setEnabled(false);
chkOnOff[SettingID][digiID][chID]->setEnabled(false);
isDisableDetector = true;
}
///========================= for SpinBox
RSpinBox * spb = sbSetting[SettingID][digiID][chID];
const Reg para = SettingItems[SettingID];
connect(spb, &RSpinBox::valueChanged, this, [=](){
if( !enableSignalSlot ) return;
spb->setStyleSheet("color:blue;");
});
connect(spb, &RSpinBox::returnPressed, this, [=](){
if( !enableSignalSlot ) return;
//printf("%s %d %d \n", para.GetPara().c_str(), index, spb->value());
if( spb->decimals() == 0 && spb->singleStep() != 1) {
double step = spb->singleStep();
double value = spb->value();
spb->setValue( (std::round(value/step) * step) );
}
if( chkAll[detGroup][SettingID]->isChecked() ){
for(int k = 0; k < detIDArrayList.size() ; k++){
if( detGroup == detIDArrayList[k][0] ){
for( int h = ChStartIndex; h < detIDArrayList[k].size() ; h++){
if( h != chIndex + ChStartIndex) continue;
int digiK = (detIDArrayList[k][h] >> 8);
if( digiK >= nDigi ) continue;
int index = (detIDArrayList[k][h] & 0xFF);
QString msg;
msg = QString::fromStdString(para.GetPara()) + "|DIG:"+ QString::number(digi[digiK]->GetSerialNumber());
msg += ",CH:" + QString::number(index) + "(" + detTypeNameList[typeID] + ")";
msg += " = " + QString::number(spb->value());
if( digi[digiK]->WriteValue(para, std::to_string(spb->value()), index)){
SendLogMsg(msg + "|OK.");
spb->setStyleSheet("");
}else{
SendLogMsg(msg + "|Fail.");
spb->setStyleSheet("color:red;");
}
}
}
}
}else{
QString msg;
msg = QString::fromStdString(para.GetPara()) + "|DIG:"+ QString::number(digi[digiID]->GetSerialNumber());
msg += ",CH:" + QString::number(chID) + "(" + detTypeNameList[typeID] + ")";
msg += " = " + QString::number(spb->value());
if( digi[digiID]->WriteValue(para, std::to_string(spb->value()), chID)){
SendLogMsg(msg + "|OK.");
spb->setStyleSheet("");
}else{
SendLogMsg(msg + "|Fail.");
spb->setStyleSheet("color:red;");
}
}
UpdatePanelFromMemory();
UpdateOtherPanels();
});
///===================== for the OnOff CheckBox
connect(chkOnOff[SettingID][digiID][chID], &QCheckBox::stateChanged, this, [=](int state){
if( !enableSignalSlot ) return;
if( chkAll[detGroup][SettingID]->isChecked() ){
for(int k = 0; k < detIDArrayList.size() ; k++){
if( detGroup == detIDArrayList[k][0] ){
for( int h = ChStartIndex; h < detIDArrayList[k].size() ; h++){
if( h != chIndex + ChStartIndex) continue;
int digiK = (detIDArrayList[k][h] >> 8);
if( digiK >= nDigi ) continue;
int index = (detIDArrayList[k][h] & 0xFF);
QString msg;
msg = QString::fromStdString(PHA::CH::ChannelEnable.GetPara()) + "|DIG:"+ QString::number(digi[digiK]->GetSerialNumber());
msg += ",CH:" + QString::number(index) + "(" + detTypeNameList[typeID] + ")";
msg += ( state ? " = True" : " = False");
if( digi[digiK]->WriteValue(PHA::CH::ChannelEnable, state ? "True" : "False", index)){
SendLogMsg(msg + "|OK.");
enableSignalSlot = false;
leDisplay[detGroup][digiK][index]->setEnabled(state);
sbSetting[detGroup][digiK][index]->setEnabled(state);
chkOnOff [detGroup][digiK][index]->setChecked(state);
enableSignalSlot = true;
}else{
SendLogMsg(msg + "|Fail.");
}
}
}
}
}else{
QString msg;
msg = QString::fromStdString(PHA::CH::ChannelEnable.GetPara()) + "|DIG:"+ QString::number(digi[digiID]->GetSerialNumber());
msg += ",CH:" + QString::number(chID) + "(" + detTypeNameList[typeID] + ")";
msg += ( state ? " = True" : " = False");
qDebug() << msg;
if( digi[digiID]->WriteValue(PHA::CH::ChannelEnable, state ? "True" : "False", chID)){
SendLogMsg(msg + "|OK.");
enableSignalSlot = false;
leDisplay[detGroup][digiID][chID]->setEnabled(state);
sbSetting[detGroup][digiID][chID]->setEnabled(state);
chkOnOff [detGroup][digiID][chID]->setChecked(state);
enableSignalSlot = true;
}else{
SendLogMsg(msg + "|Fail.");
}
}
UpdatePanelFromMemory();
UpdateOtherPanels();
});
layout0->setColumnStretch(0, 1);
layout0->setColumnStretch(1, 1);
layout0->setColumnStretch(2, 5);
}
//@======================================== Trigger Combox
//=================== The Trigger depnds on 5 settings (at least)
// EventTriggerSource, WaveTriggerSource, CoincidentMask, AntiCoincidentMask
// 1, EventTriggerSource has 8 settings, ITLA, ITLB, GlobalTriggerSource, TRGIN, SWTrigger, ChSelfTrigger, Ch64Trigger, Disabled
// 2, WaveTriggerSource has 8 settings, always set to be equal EventTriggerSource
// 3, CoincidentMak has 6 Settings, Disabled, Ch64Trigger, TRGIN, GloableTriggerSource, ITLA, ITLB
// 4, AntiCoincidentMask has 6 Settings, always disabled
// 5, ChannelTriggerMask is a 64-bit
// 6, CoincidenceLengthT in ns, set to be 100 ns.
if( SettingItems[SettingID].GetPara() == PHA::CH::TriggerThreshold.GetPara()){
cbTrigger[detGroup][detID] = new RComboBox(this);
cbTrigger[detGroup][detID]->addItem("Self Trigger", "ChSelfTrigger"); /// no coincident
cbTrigger[detGroup][detID]->addItem("Trigger e", 0x1); // Self-trigger and coincient Ch64Trigger
cbTrigger[detGroup][detID]->addItem("Ext. Trigger", "TRGIN"); // with coincident with TRGIN.
cbTrigger[detGroup][detID]->addItem("Disabled", "Disabled"); // no Trigger, no coincident, basically channel still alive, but no recording
cbTrigger[detGroup][detID]->addItem("Others", -999); // other settings
layout0->addWidget(cbTrigger[detGroup][detID], 2*nChInGroupBox, 0, 1, 3);
if( isDisableDetector ) cbTrigger[detGroup][detID]->setEnabled(false);
//*========== connection
connect(cbTrigger[detGroup][detID], &RComboBox::currentIndexChanged, this , [=](int index){
if( !enableSignalSlot) return;
if( cbTrigger[detGroup][detID]->itemData(index).toInt() == -999 ) return;
if( chkAll[detGroup][SettingID]->isChecked() ){
for( int k = 0; k < detIDArrayList.size(); k++){
if( detIDArrayList[k][0] != detGroup ) continue;
int haha = detIDArrayList[k][1];
if( haha == detID )continue;
cbTrigger[detGroup][haha]->setCurrentIndex(index);
}
}
///----------- single
for( int i = ChStartIndex ; i < detIDArray.size(); i++){
int digiID = (detIDArray[i] >> 8 );
if( digiID >= nDigi) continue;
int chID = (detIDArray[i] & 0xFF);
if( digi[digiID]->IsDummy() || !digi[digiID]->IsConnected() ) continue;
digi[digiID]->WriteValue(PHA::CH::AntiCoincidenceMask, "Disabled", chID);
switch(index){
case 0 : { /// Self Trigger
digi[digiID]->WriteValue(PHA::CH::EventTriggerSource, "ChSelfTrigger", chID);
digi[digiID]->WriteValue(PHA::CH::WaveTriggerSource, "ChSelfTrigger", chID);
digi[digiID]->WriteValue(PHA::CH::CoincidenceMask, "Disabled", chID);
}; break;
case 1 : { /// trigger by energy
digi[digiID]->WriteValue(PHA::CH::EventTriggerSource, "ChSelfTrigger", chID);
digi[digiID]->WriteValue(PHA::CH::WaveTriggerSource, "ChSelfTrigger", chID);
if( i == ChStartIndex ){
digi[digiID]->WriteValue(PHA::CH::CoincidenceMask, "Disabled", chID);
}else {
digi[digiID]->WriteValue(PHA::CH::CoincidenceMask, "Ch64Trigger", chID);
digi[digiID]->WriteValue(PHA::CH::CoincidenceLength, "100");
//Form the trigger bit
unsigned long mask = 1ULL << (detIDArray[ChStartIndex] & 0xFF ); // trigger by energy
QString maskStr = QString::number(mask);
digi[digiID]->WriteValue(PHA::CH::ChannelsTriggerMask, maskStr.toStdString() , chID);
}
}; break;
case 2 : { /// TRGIN, when the whole board is trigger by TRG-IN
digi[digiID]->WriteValue(PHA::CH::EventTriggerSource, "TRGIN", chID);
digi[digiID]->WriteValue(PHA::CH::WaveTriggerSource, "TRGIN", chID);
digi[digiID]->WriteValue(PHA::CH::CoincidenceMask, "TRGIN", chID);
digi[digiID]->WriteValue(PHA::CH::CoincidenceLength, "100");
}; break;
case 3 : { /// disbaled
digi[digiID]->WriteValue(PHA::CH::EventTriggerSource, "Disabled", chID);
digi[digiID]->WriteValue(PHA::CH::WaveTriggerSource, "Disabled", chID);
digi[digiID]->WriteValue(PHA::CH::CoincidenceMask, "Disabled", chID);
}; break;
}
SendLogMsg("SOLARIS panel : Set Trigger = " + cbTrigger[detGroup][detID]->itemText(index) + "|Digi:" + QString::number(digi[digiID]->GetSerialNumber()) + ",Det:" + QString::number(detID));
}
UpdatePanelFromMemory();
UpdateOtherPanels();
});
}
layout->addWidget(groupBox[detGroup][SettingID][detID], row, col);
}
//^##############################################################
void SOLARISpanel::RefreshSettings(){
for( int i = 0 ; i < nDigi; i++){
if( digi[i]->IsDummy() || !digi[i]->IsConnected()){
digi[i]->ReadAllSettings();
}
}
UpdatePanelFromMemory();
}
void SOLARISpanel::UpdatePanelFromMemory(){
if( !isVisible() ) return;
enableSignalSlot = false;
printf("SOLARISpanel::%s\n", __func__);
//@===================== LineEdit and SpinBox
for( int SettingID = 0; SettingID < (int) SettingItems.size() ; SettingID ++){
for( int DigiID = 0; DigiID < (int) mapping.size(); DigiID ++){
if( DigiID >= nDigi ) continue;;
for( int chID = 0; chID < (int) mapping[DigiID].size(); chID++){
if( mapping[DigiID][chID] < 0 ) continue;
std::string haha = digi[DigiID]->GetSettingValueFromMemory(SettingItems[SettingID], chID);
sbSetting[SettingID][DigiID][chID]->setValue( atof(haha.c_str()));
if( SettingItems[SettingID].GetPara() == PHA::CH::TriggerThreshold.GetPara() ){
std::string haha = digi[DigiID]->GetSettingValueFromMemory(PHA::CH::SelfTrgRate, chID);
leDisplay[SettingID][DigiID][chID]->setText(QString::number(atof(haha.c_str()), 'f', 2) );
}else{
leDisplay[SettingID][DigiID][chID]->setText(QString::number(atof(haha.c_str()), 'f', 2) );
}
haha = digi[DigiID]->GetSettingValueFromMemory(PHA::CH::ChannelEnable, chID);
chkOnOff[SettingID][DigiID][chID]->setChecked( haha == "True" ? true : false);
leDisplay[SettingID][DigiID][chID]->setEnabled(haha == "True" ? true : false);
sbSetting[SettingID][DigiID][chID]->setEnabled(haha == "True" ? true : false);
//printf("====== %d %d %d |%s|\n", SettingID, DigiID, chID, haha.c_str());
}
}
}
//@===================== Trigger
for( int k = 0; k < detIDArrayList.size() ; k++){
if( detIDArrayList[k][1] >= detMaxID[0] || 0 > detIDArrayList[k][1]) continue; //! only for array
if( detIDArrayList[k][0] != 0 ) continue;
//if( detIDList[k].size() <= 2) continue;
bool skipFlag = false;
std::vector<unsigned long> triggerMap;
std::vector<std::string> coincidentMask;
std::vector<std::string> antiCoincidentMask;
std::vector<std::string> eventTriggerSource;
std::vector<std::string> waveTriggerSource;
for( int h = ChStartIndex; h < detIDArrayList[k].size(); h++){
int digiID = detIDArrayList[k][h] >> 8;
if( digiID >= nDigi) {
skipFlag = true;
continue;
}
int chID = (detIDArrayList[k][h] & 0xFF);
triggerMap.push_back(Utility::TenBase(digi[digiID]->GetSettingValueFromMemory(PHA::CH::ChannelsTriggerMask, chID)));
coincidentMask.push_back(digi[digiID]->GetSettingValueFromMemory(PHA::CH::CoincidenceMask, chID));
antiCoincidentMask.push_back(digi[digiID]->GetSettingValueFromMemory(PHA::CH::AntiCoincidenceMask, chID));
eventTriggerSource.push_back(digi[digiID]->GetSettingValueFromMemory(PHA::CH::EventTriggerSource, chID));
waveTriggerSource.push_back(digi[digiID]->GetSettingValueFromMemory(PHA::CH::WaveTriggerSource, chID));
}
if(skipFlag) continue;
//====== only acceptable condition is eventTriggerSource are all ChSelfTrigger
// and coincidentMask for e, xf, xn, are at least one for Ch64Trigger
// and waveTriggerSource are all ChSelfTrigger
//====== a stupid way
// triggerSource : Other = 0x0, Disabled = 0x1, ChSelfTrigger = 0x2, TRGIN = 0x3
// CoinMask : Other = 0x0, Disbaled = 0x1, Ch64Trigger = 0x2, TRGIN = 0x3
// for example, SelfTrigger should be, 0x2211, triggerMask does not matter.
// |||+-- anti-coin
// ||+-- coin
// |+-- wave
// +-- event
// comboxIndex 0) SelfTrigger 0x2211, any trigger mask
// comboxIndex 2) TRGIN 0x3331, any trigger mask
// comboxIndex 3) Disable 0x1111, any trigger mask
// comboxIndex 1) Trigger E {0x2211 - e , 0x2221 - xf, 0x2221 - xn },
// triggerMask { 0, 0x1, 0x1}
// comboxIndex 4) Other settings
std::vector<unsigned int> stupidIndex;
for( int i = 0 ; i < (int) triggerMap.size(); i++){
unsigned int index = 0;
if(antiCoincidentMask[i] == "Disabled") index += 0x1;
if(antiCoincidentMask[i] == "Ch64Trigger") index += 0x2;
if(antiCoincidentMask[i] == "TRGIN") index += 0x3;
if(coincidentMask[i] == "Disabled") index += 0x10;
if(coincidentMask[i] == "Ch64Trigger") index += 0x20;
if(coincidentMask[i] == "TRGIN") index += 0x30;
if(waveTriggerSource[i] == "Disabled") index += 0x100;
if(waveTriggerSource[i] == "ChSelfTrigger") index += 0x200;
if(waveTriggerSource[i] == "TRGIN") index += 0x300;
if(eventTriggerSource[i] == "Disabled") index += 0x1000;
if(eventTriggerSource[i] == "ChSelfTrigger") index += 0x2000;
if(eventTriggerSource[i] == "TRGIN") index += 0x3000;
stupidIndex.push_back(index);
}
//printf("===================== detIDList : %d %d \n", detIDList[k][0], detIDList[k][1]);
int jaja[5] = {0}; // this store the count for each comboxIndex;
for( int i = 0; i < (int) stupidIndex.size(); i++){
//printf(" %d | 0x%s \n", i, QString::number(stupidIndex[i], 16).toUpper().toStdString().c_str());
if( stupidIndex[i] == 0x2211 ) jaja[0] ++;
if( stupidIndex[i] == 0x3331 ) jaja[2] ++;
if( stupidIndex[i] == 0x1111 ) jaja[3] ++;
if( i == 0 && stupidIndex[i] == 0x2211 ) jaja[1] ++;
if( i > 0 && stupidIndex[i] == 0x2221 ) jaja[1] ++;
}
//Search for jaja, see is there any one equal to total number of ch;
int comboxIndex = 4;
for( int i = 0; i < 5; i++){
//printf("%d | %d \n", i, jaja[i]);
if( jaja[i] == (int) stupidIndex.size() )comboxIndex = i;
}
//printf("comboxIndex : %d \n", comboxIndex);
// if Trigger e, need to check the trigger mask;
if( comboxIndex == 3){
unsigned long ShouldBeMask = 1ULL << (detIDArrayList[k][ChStartIndex] & 0xFF);
for( int i = 1; i < (int) triggerMap.size(); i ++){
//printf(" %d | %lu =? %lu \n", i, triggerMap[i], ShouldBeMask);
if( triggerMap[i] != ShouldBeMask) comboxIndex = 4;
}
}
int detGroup = FindDetGroup(detIDArrayList[k][1]);
cbTrigger[detGroup][detIDArrayList[k][1]]->setCurrentIndex(comboxIndex);
}
//@===================== Coin. time
std::vector<int> coinTime;
for( int i = 0; i < detIDArrayList.size(); i++){
for( int j = ChStartIndex; j < detIDArrayList[i].size(); j++){
int digiID = detIDArrayList[i][j] >> 8;
int chID = (detIDArrayList[i][j] & 0xFF);
if( digiID >= nDigi ) continue;
if( digi[digiID]->IsDummy() || !digi[digiID]->IsConnected() ) continue;
coinTime.push_back( atoi(digi[digiID]->GetSettingValueFromMemory(PHA::CH::CoincidenceLength, chID).c_str()));
}
}
bool isSameCoinTime = true;
for( int i = 1; i < (int) coinTime.size(); i++){
if( coinTime[i] != coinTime[0]) {
isSameCoinTime = false;
break;
}
}
if( isSameCoinTime ){
sbCoinTime->setValue(coinTime[0]);
}else{
sbCoinTime->setValue(-1);
}
enableSignalSlot = true;
}
void SOLARISpanel::UpdateThreshold(){
for( int SettingID = 0; SettingID < (int) SettingItems.size() ; SettingID ++){
if( SettingItems[SettingID].GetPara() != PHA::CH::TriggerThreshold.GetPara() ) continue;
for( int DigiID = 0; DigiID < (int) mapping.size(); DigiID ++){
if( DigiID >= nDigi ) continue;;
for( int chID = 0; chID < (int) mapping[DigiID].size(); chID++){
if( mapping[DigiID][chID] < 0 ) continue;
std::string haha = digi[DigiID]->GetSettingValueFromMemory(PHA::CH::SelfTrgRate, chID);
leDisplay[SettingID][DigiID][chID]->setText(QString::fromStdString(haha));
///printf("====== %d %d %d |%s|\n", SettingID, DigiID, chID, haha.c_str());
}
}
}
}
//^#########################################
void SOLARISpanel::SaveSettings(){
for(int i = 0; i < nDigi; i++){
//*------ search for settings_XXXX.dat
//Check path exist
QDir dir(digiSettingPath);
if( !dir.exists() ) dir.mkpath(".");
QString settingFile = digiSettingPath + "/setting_" + QString::number(digi[i]->GetSerialNumber()) + "_" + QDateTime::currentDateTime().toString("yyyyMMdd_hhmmss") + ".dat";
int flag = digi[i]->SaveSettingsToFile(settingFile.toStdString().c_str());
switch (flag) {
case 1 : {
SendLogMsg("Saved setting file <b>" + settingFile + "</b>.");
}; break;
case 0 : {
SendLogMsg("<font style=\"color:red;\"> Fail to write setting file. <b> " + settingFile + " </b></font>");
}; break;
case -1 : {
SendLogMsg("<font style=\"color:red;\"> Fail to save setting file <b> " + settingFile + " </b>, same settings are empty.</font>");
}; break;
};
}
}
void SOLARISpanel::LoadSettings(){
for(int i = 0; i < nDigi; i++){
//*------ search for settings_XXXX.dat
QString settingFile = digiSettingPath + "/settings_" + QString::number(digi[i]->GetSerialNumber()) + ".dat";
if( digi[i]->LoadSettingsFromFile( settingFile.toStdString().c_str() ) ){
SendLogMsg("Found setting file <b>" + settingFile + "</b> and loading. please wait.");
digi[i]->SetSettingFileName(settingFile.toStdString());
SendLogMsg("done settings.");
}else{
SendLogMsg("<font style=\"color: red;\">Unable to found setting file <b>" + settingFile + "</b>. </font>");
digi[i]->SetSettingFileName("");
}
}
}