FSUDAQ/channelSettingPHA.cpp

#include <TApplication.h>
#include <TGClient.h>
#include <TCanvas.h>
#include <TF1.h>
#include <TRandom.h>
#include <TGButton.h>
#include <TRootEmbeddedCanvas.h>
#include <TGTableContainer.h>
#include <TGFileDialog.h>

#include "channelSettingPHA.h"

ChannelSettingPHA::ChannelSettingPHA(const TGWindow *p, UInt_t w, UInt_t h, Digitizer ** digi, int nDigi, int boardID){
  
  this->digi = digi; 
  this->nDigi = nDigi;
  
  Pixel_t red, green;
  gClient->GetColorByName("red", red);  
  gClient->GetColorByName("green", green);  
  
  fMain = new TGMainFrame(p,w,h);
  fMain->SetWindowName("Channel Settings PHA");
  fMain->Connect("CloseWindow()", "ChannelSettingPHA", this, "CloseWindow()");

  TGLayoutHints * layoutHintsR = new TGLayoutHints(kLHintsRight, 5,5,3,2); /// left, right, top, bottom  
  TGLayoutHints * layoutHints = new TGLayoutHints(kLHintsCenterX | kLHintsCenterY, 5,5,0,0); /// left, right, top, bottom
  
  TGVerticalFrame * vframe = new TGVerticalFrame(fMain);
  fMain->AddFrame(vframe, new TGLayoutHints(kLHintsCenterX, 2,2,2,2));
  
  TGHorizontalFrame *hframe0 = new TGHorizontalFrame(vframe, w, 50 ); vframe->AddFrame(hframe0, new TGLayoutHints(kLHintsCenterX, 2,2,2,2));
  
  ///==========Board choose
  TGLabel * lb0 = new TGLabel(hframe0, "Module ID :"); hframe0->AddFrame(lb0, new TGLayoutHints(kLHintsCenterX | kLHintsCenterY, 5, 5, 3, 4));
  boardIDEntry = new TGNumberEntry(hframe0, boardID, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); hframe0->AddFrame(boardIDEntry, new TGLayoutHints(kLHintsCenterX , 5, 5, 3, 4));
  boardIDEntry->SetWidth(50);
  boardIDEntry->SetLimits(TGNumberFormat::kNELLimitMinMax, 0, nDigi);
  boardIDEntry->Connect("Modified()", "ChannelSettingPHA", this, "ChangeBoard()"); 
  if( nDigi <= 1 ) boardIDEntry->SetState(false);
  
  this->presentBoardID = boardID;
  
  NChannel = 16 ;// digi[0]->GetNChannel();
  
  TGLabel * lb1 = new TGLabel(hframe0, "Channel :"); hframe0->AddFrame(lb1, new TGLayoutHints(kLHintsCenterX | kLHintsCenterY, 5, 5, 3, 4));
  chIDEntry = new TGNumberEntry(hframe0, 0, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEAAnyNumber);
  chIDEntry->SetWidth(50);
  chIDEntry->SetLimits(TGNumberFormat::kNELLimitMinMax, -1, NChannel-1);
  chIDEntry->SetNumber(0, false);
  chIDEntry->Connect("Modified()", "ChannelSettingPHA", this, "ChangeCh()"); 
  hframe0->AddFrame(chIDEntry, new TGLayoutHints(kLHintsCenterX , 5, 5, 3, 4));
  
  TGTextButton* bSetAllChannels = new TGTextButton(hframe0, "Set All Channels", 1); hframe0->AddFrame(bSetAllChannels, new TGLayoutHints(kLHintsCenterX | kLHintsCenterY, 5, 5, 3, 4));
  bSetAllChannels->SetState(kButtonUp);
  bSetAllChannels->Connect("Clicked()", "ChannelSettingPHA", this, "SetAllChannels()");

  ///const uint32_t ChannelADCTemperature      = 0x10A8; /// R
  TGLabel * lbTemp = new TGLabel(hframe0, "Temperature [C] :"); hframe0->AddFrame(lbTemp, new TGLayoutHints(kLHintsCenterX | kLHintsCenterY, 5, 5, 3, 4));
  eTemp = new TGTextEntry(hframe0, new TGTextBuffer(1)); hframe0->AddFrame(eTemp, new TGLayoutHints(kLHintsRight, 5,5,3,4));
  eTemp->SetEnabled(false);
  eTemp->Resize(50,20);
  
  int ch = chIDEntry->GetNumber();
  int width = 80;
  
  TGHorizontalFrame *hframe1 = new TGHorizontalFrame(vframe, w, 50 ); vframe->AddFrame(hframe1, new TGLayoutHints(kLHintsCenterX, 2,2,2,2));
  
  {///================== Input Setting
    TGGroupFrame * gfInput = new TGGroupFrame(hframe1, "Input / Misc.", kHorizontalFrame); hframe1->AddFrame(gfInput, new TGLayoutHints(kLHintsExpandY));  
    TGHorizontalFrame * hfInput = new TGHorizontalFrame(gfInput); gfInput->AddFrame(hfInput);

    TGVerticalFrame * vfInput1 = new TGVerticalFrame(hfInput); hfInput->AddFrame(vfInput1);
    TGVerticalFrame * vfInput2 = new TGVerticalFrame(hfInput); hfInput->AddFrame(vfInput2);
    
    ///----------- on/off
    TGLabel * lbOnOff = new TGLabel(vfInput1, "On/Off"); vfInput1->AddFrame(lbOnOff, layoutHintsR);
    cbOnOff = new TGComboBox(vfInput2); vfInput2->AddFrame(cbOnOff,  layoutHints);
    cbOnOff->AddEntry("ON", 1);
    cbOnOff->AddEntry("off", 0);
    cbOnOff->Resize(width, 20);
    cbOnOff->Connect("Selected(Int_t, Int_t)", "ChannelSettingPHA", this, "SetChannelMask()");  
    
    ///----------- Polarity
    TGLabel * lbPol = new TGLabel(vfInput1, "Polarity");vfInput1->AddFrame(lbPol, layoutHintsR);
    cbPolarity = new TGComboBox(vfInput2); vfInput2->AddFrame(cbPolarity,  layoutHints);
    cbPolarity->AddEntry("Positive +", 1);
    cbPolarity->AddEntry("Negative -", 0);
    cbPolarity->Resize(width, 20);
    cbPolarity->Connect("Selected(Int_t, Int_t)", "ChannelSettingPHA", this, "SetDPPAlgorithm1()");  
    
    ///---------- Input Dynamic Range
    TGLabel * lbInputDynamicRange = new TGLabel(vfInput1, "Input Range");vfInput1->AddFrame(lbInputDynamicRange, layoutHintsR);
    cbInputDynamicRange = new TGComboBox(vfInput2); vfInput2->AddFrame(cbInputDynamicRange,  layoutHints);
    cbInputDynamicRange->AddEntry("2.0 Vpp", 0);
    cbInputDynamicRange->AddEntry("0.5 Vpp", 1);
    cbInputDynamicRange->Resize(width, 20);
    cbInputDynamicRange->Connect("Selected(Int_t, Int_t)", "ChannelSettingPHA", this, "SetInputDynamicRange()");  
    
    ///---------- Record Length
    TGLabel * lbRecordLength = new TGLabel(vfInput1, "Record Length [ns]"); vfInput1->AddFrame(lbRecordLength, layoutHintsR);
    numRecordLength = new TGNumberEntry(vfInput2, 20000, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfInput2->AddFrame(numRecordLength, layoutHints);
    numRecordLength->Resize(width, 20);
    numRecordLength->Connect("Modified()", "ChannelSettingPHA", this, "SetRecordLength()"); 
    
    ///const uint32_t PreTrigger                 = 0x1038; /// R/W
    TGLabel * lbPreTrigger = new TGLabel(vfInput1, "Pre trigger [ns]"); vfInput1->AddFrame(lbPreTrigger, layoutHintsR);
    numPreTrigger = new TGNumberEntry(vfInput2, 2000, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfInput2->AddFrame(numPreTrigger, layoutHints);
    numPreTrigger->Resize(width, 20);
    numPreTrigger->Connect("Modified()", "ChannelSettingPHA", this, "SetPreTrigger()"); 
    
    ///const uint32_t NumberEventsPerAggregate_G = 0x1034; /// R/W, 
    TGLabel * lbEventAgg = new TGLabel(vfInput1, "Events / Aggregate"); vfInput1->AddFrame(lbEventAgg, layoutHintsR);
    numEventAgg = new TGNumberEntry(vfInput2, 512, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfInput2->AddFrame(numEventAgg, layoutHints);
    numEventAgg->Resize(width, 20);
    numEventAgg->Connect("Modified()", "ChannelSettingPHA", this, "SetEventAggregate()"); 
    
    ///const uint32_t ChannelDCOffset            = 0x1098; /// R/W
    TGLabel * lbDCOffset = new TGLabel(vfInput1, "DC offset [%]"); vfInput1->AddFrame(lbDCOffset, layoutHintsR);
    numDCOffset = new TGNumberEntry(vfInput2, 20, 0, 0, TGNumberFormat::kNESRealTwo, TGNumberFormat::kNEANonNegative); vfInput2->AddFrame(numDCOffset, layoutHints);
    numDCOffset->Resize(width, 20);
    numDCOffset->Connect("Modified()", "ChannelSettingPHA", this, "SetDCOffset()"); 
    
    ///const uint32_t ShapedTriggerWidth        = 0x1084; /// R/W   not sure
    ///const uint32_t VetoWidth                 = 0x10D4; /// R/W
    ///const uint32_t FineGain                  = 0x10C4; /// R/W   OK
    
  }

  {///================== Trigger Settings
    TGGroupFrame * gfTrigger = new TGGroupFrame(hframe1, "Trigger", kHorizontalFrame); hframe1->AddFrame(gfTrigger, new TGLayoutHints(kLHintsExpandY));  
    TGHorizontalFrame * hfTrigger = new TGHorizontalFrame(gfTrigger); gfTrigger->AddFrame(hfTrigger);

    TGVerticalFrame * vfTrigger1 = new TGVerticalFrame(hfTrigger); hfTrigger->AddFrame(vfTrigger1);
    TGVerticalFrame * vfTrigger2 = new TGVerticalFrame(hfTrigger); hfTrigger->AddFrame(vfTrigger2);

    ///const uint32_t TriggerThreshold           = 0x106C; /// R/W
    TGLabel * lbTriggerThreshold = new TGLabel(vfTrigger1, "Trigger Threshold [LSB]"); vfTrigger1->AddFrame(lbTriggerThreshold, layoutHintsR);
    numTriggerThreshold = new TGNumberEntry(vfTrigger2, 100, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrigger2->AddFrame(numTriggerThreshold, layoutHints);
    numTriggerThreshold->Resize(width, 20);
    numTriggerThreshold->Connect("Modified()", "ChannelSettingPHA", this, "SetTriggerThreshold()"); 
    
    ///const uint32_t TriggerHoldOffWidth        = 0x1074; /// R/W
    TGLabel * lbTriggerHoldOff = new TGLabel(vfTrigger1, "Trigger Holdoff [ns]"); vfTrigger1->AddFrame(lbTriggerHoldOff, layoutHintsR);
    numTriggerHoldOff = new TGNumberEntry(vfTrigger2, 20000, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrigger2->AddFrame(numTriggerHoldOff, layoutHints);
    numTriggerHoldOff->Resize(width, 20);
    numTriggerHoldOff->Connect("Modified()", "ChannelSettingPHA", this, "SetTriggerHoldOff()"); 
    
    ///const uint32_t RCCR2SmoothingFactor      = 0x1054; /// R/W   Trigger Filter smoothing, triggerSmoothingFactor
    TGLabel * lbTriggerSmoothing = new TGLabel(vfTrigger1, "Trigger Smoothing"); vfTrigger1->AddFrame(lbTriggerSmoothing, layoutHintsR);
    cbTriggerSmoothing = new TGComboBox(vfTrigger2); vfTrigger2->AddFrame(cbTriggerSmoothing,  layoutHints);
    cbTriggerSmoothing->AddEntry("disable", 0);
    cbTriggerSmoothing->AddEntry("2 samples", 1);
    cbTriggerSmoothing->AddEntry("4 samples", 2);
    cbTriggerSmoothing->AddEntry("8 samples", 4);
    cbTriggerSmoothing->AddEntry("16 samples", 8);
    cbTriggerSmoothing->AddEntry("32 samples", 16);
    cbTriggerSmoothing->AddEntry("64 samples", 32);
    cbTriggerSmoothing->AddEntry("128 samples", 0x3F);
    cbTriggerSmoothing->Resize(width, 20);
    cbTriggerSmoothing->Connect("Changed()", "ChannelSettingPHA", this, "SetTriggerSmoothing()");
    
    ///const uint32_t InputRiseTime             = 0x1058; /// R/W   OK
    TGLabel * lbInputRiseTime = new TGLabel(vfTrigger1, "Input rise time [ns]"); vfTrigger1->AddFrame(lbInputRiseTime, layoutHintsR);
    numInputRiseTime = new TGNumberEntry(vfTrigger2, 96, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrigger2->AddFrame(numInputRiseTime, layoutHints);
    numInputRiseTime->Resize(width, 20);
    numInputRiseTime->Connect("Modified()", "ChannelSettingPHA", this, "SetInputRiseTime()"); 
    
    ///const uint32_t RiseTimeValidationWindow  = 0x1070; /// R/W   OK
    TGLabel * lbRiseTimeValidWin = new TGLabel(vfTrigger1, "Rise Time Val. Win. [ns]"); vfTrigger1->AddFrame(lbRiseTimeValidWin, layoutHintsR);
    numRiseTimeValidWin = new TGNumberEntry(vfTrigger2, 20, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrigger2->AddFrame(numRiseTimeValidWin, layoutHints);
    numRiseTimeValidWin->Resize(width, 20);
    numRiseTimeValidWin->Connect("Modified()", "ChannelSettingPHA", this, "SetRiseTimeValidWin()"); 
    
    /// DPP1 bit[19:18]
    TGLabel * lbTriggerMode  = new TGLabel(vfTrigger1, "Trigger Mode"); vfTrigger1->AddFrame(lbTriggerMode, layoutHintsR);
    cbTriggerMode = new TGComboBox(vfTrigger2); vfTrigger2->AddFrame(cbTriggerMode, layoutHints);
    cbTriggerMode->AddEntry("Normal", 0);
    cbTriggerMode->AddEntry("Coin.", 1);
    cbTriggerMode->AddEntry("Anti-Coin.", 3);
    cbTriggerMode->Resize(width, 20);
    cbTriggerMode->Connect("Changed()", "ChannelSettingPHA", this, "SetDPPAlgorithm1()");
  }
  
  {///================== Trapezoid Settings
    TGGroupFrame *      gfTrap = new TGGroupFrame(hframe1, "Trapazoid", kHorizontalFrame); hframe1->AddFrame(gfTrap, new TGLayoutHints(kLHintsExpandY));  
    TGHorizontalFrame * hfTrap = new TGHorizontalFrame(gfTrap); gfTrap->AddFrame(hfTrap);
    
    TGVerticalFrame *   vfTrap1 = new TGVerticalFrame(hfTrap); hfTrap->AddFrame(vfTrap1);
    TGVerticalFrame *   vfTrap2 = new TGVerticalFrame(hfTrap); hfTrap->AddFrame(vfTrap2);

    ///const uint32_t TrapezoidRiseTime         = 0x105C; /// R/W   OK
    TGLabel * lbTrapRiseTime = new TGLabel(vfTrap1, "Rise time [ns]"); vfTrap1->AddFrame(lbTrapRiseTime, layoutHintsR);
    numTrapRiseTime = new TGNumberEntry(vfTrap2, 96, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrap2->AddFrame(numTrapRiseTime, layoutHints);
    numTrapRiseTime->Resize(width, 20);
    numTrapRiseTime->Connect("Modified()", "ChannelSettingPHA", this, "SetTrapRiseTime()"); 
    
    ///const uint32_t TrapezoidFlatTop          = 0x1060; /// R/W   OK
    TGLabel * lbTrapFlatTop = new TGLabel(vfTrap1, "Flat Top [ns]"); vfTrap1->AddFrame(lbTrapFlatTop, layoutHintsR);
    numTrapFlatTop = new TGNumberEntry(vfTrap2, 96, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrap2->AddFrame(numTrapFlatTop, layoutHints);
    numTrapFlatTop->Resize(width, 20);
    numTrapFlatTop->Connect("Modified()", "ChannelSettingPHA", this, "SetTrapFlatTop()"); 

    ///const uint32_t DecayTime                 = 0x1068; /// R/W   OK
    TGLabel * lbDecay = new TGLabel(vfTrap1, "Decay [ns]"); vfTrap1->AddFrame(lbDecay, layoutHintsR);
    numDecay = new TGNumberEntry(vfTrap2, 96, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrap2->AddFrame(numDecay, layoutHints);
    numDecay->Resize(width, 20);
    numDecay->Connect("Modified()", "ChannelSettingPHA", this, "SetDecay()"); 

    ///const uint32_t PeakingTime               = 0x1064; /// R/W   OK
    TGLabel * lbPeaking = new TGLabel(vfTrap1, "Peaking [ns]"); vfTrap1->AddFrame(lbPeaking, layoutHintsR);
    numPeaking = new TGNumberEntry(vfTrap2, 96, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrap2->AddFrame(numPeaking, layoutHints);
    numPeaking->Resize(width, 20);
    numPeaking->Connect("Modified()", "ChannelSettingPHA", this, "SetPeaking()"); 

    ///const uint32_t PeakHoldOff               = 0x1078; /// R/W   OK
    TGLabel * lbPeakHoldOff = new TGLabel(vfTrap1, "Peaking Holdoff [ns]"); vfTrap1->AddFrame(lbPeakHoldOff, layoutHintsR);
    numPeakHoldOff = new TGNumberEntry(vfTrap2, 96, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrap2->AddFrame(numPeakHoldOff, layoutHints);
    numPeakHoldOff->Resize(width, 20);
    numPeakHoldOff->Connect("Modified()", "ChannelSettingPHA", this, "SetPeakHoldOff()"); 
    
    /// DPP1 bit[13:12]
    TGLabel * lbPeakMean = new TGLabel(vfTrap1, "Peak Mean"); vfTrap1->AddFrame(lbPeakMean, layoutHintsR);
    cbPeakMean = new TGComboBox(vfTrap2); vfTrap2->AddFrame(cbPeakMean, layoutHints);
    cbPeakMean->AddEntry("1 sample", 0);
    cbPeakMean->AddEntry("4 samples", 1);
    cbPeakMean->AddEntry("16 samples", 2);
    cbPeakMean->AddEntry("64 samples", 3);
    cbPeakMean->Resize(width, 20);
    cbPeakMean->Connect("Changed()", "ChannelSettingPHA", this, "SetDPPAlgorithm1()");
    
    /// DPP1 bit[22:20]
    TGLabel * lbBaseLineAvg = new TGLabel(vfTrap1, "Baseline avg."); vfTrap1->AddFrame(lbBaseLineAvg, layoutHintsR);
    cbBaseLineAvg = new TGComboBox(vfTrap2); vfTrap2->AddFrame(cbBaseLineAvg, layoutHints);
    cbBaseLineAvg->AddEntry("no baseline", 0);
    cbBaseLineAvg->AddEntry("16 sp.", 1);
    cbBaseLineAvg->AddEntry("64 sp.", 2);
    cbBaseLineAvg->AddEntry("256 sp.", 3);
    cbBaseLineAvg->AddEntry("1024 sp.", 4);
    cbBaseLineAvg->AddEntry("4096 sp.", 5);
    cbBaseLineAvg->AddEntry("16384 sp.", 6);
    cbBaseLineAvg->Resize(width, 20);
    cbBaseLineAvg->Connect("Changed()", "ChannelSettingPHA", this, "SetDPPAlgorithm1()");
    
  }

  {///================== const uint32_t DPPAlgorithmControl        = 0x1080; /// R/W 
    TGGroupFrame *      gfDPPCtrl = new TGGroupFrame(vframe, "DPP Algorithm Control 1 & 2", kHorizontalFrame); vframe->AddFrame(gfDPPCtrl, new TGLayoutHints(kLHintsExpandX));  
    
    TGVerticalFrame *   vfDPPCtrl = new TGVerticalFrame(gfDPPCtrl); gfDPPCtrl->AddFrame(vfDPPCtrl, new TGLayoutHints(kLHintsExpandX));
    
    TGHorizontalFrame * hfDPPCtrl1 = new TGHorizontalFrame(vfDPPCtrl); vfDPPCtrl->AddFrame(hfDPPCtrl1, new TGLayoutHints(kLHintsExpandX, 5, 5, 10, 0));
    
    TGVerticalFrame *   vfDPPCtrl11 = new TGVerticalFrame(hfDPPCtrl1); hfDPPCtrl1->AddFrame(vfDPPCtrl11, new TGLayoutHints(kLHintsExpandX, 5, 5, 0, 0));
    TGVerticalFrame *   vfDPPCtrl12 = new TGVerticalFrame(hfDPPCtrl1); hfDPPCtrl1->AddFrame(vfDPPCtrl12);  
    
    TGLayoutHints * haha = new TGLayoutHints(kLHintsRight, 5, 5, 3, 2);    
    
    TGLabel * lbTrapScale = new TGLabel(vfDPPCtrl11, "Trap. Scaling [bit] :"); vfDPPCtrl11->AddFrame(lbTrapScale, haha);
    numTrapScale = new TGNumberEntry(vfDPPCtrl12, 14, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative ); vfDPPCtrl12->AddFrame(numTrapScale);
    numTrapScale->Resize(width, 20);

    TGLabel * lbDecimation = new TGLabel(vfDPPCtrl11, "Decimation :"); vfDPPCtrl11->AddFrame(lbDecimation, haha);
    cbDecimation = new TGComboBox(vfDPPCtrl12); vfDPPCtrl12->AddFrame(cbDecimation);
    cbDecimation->AddEntry("Disable", 0);
    cbDecimation->AddEntry("2 samples", 1);
    cbDecimation->AddEntry("4 samples", 2);
    cbDecimation->AddEntry("8 samples", 3);
    cbDecimation->Resize(width, 20);
    cbDecimation->Connect("Changed()", "ChannelSettingPHA", this, "SetDPPAlgorithm1()");

    TGLabel * lbDecimationGain = new TGLabel(vfDPPCtrl11, "Decimation Gain :"); vfDPPCtrl11->AddFrame(lbDecimationGain, haha);
    cbDecimationGain = new TGComboBox(vfDPPCtrl12); vfDPPCtrl12->AddFrame(cbDecimationGain);
    cbDecimationGain->AddEntry("x 1", 0);
    cbDecimationGain->AddEntry("x 2", 1);
    cbDecimationGain->AddEntry("x 4", 2);
    cbDecimationGain->AddEntry("x 8", 3);
    cbDecimationGain->Resize(width, 20);
    cbDecimationGain->Connect("Changed()", "ChannelSettingPHA", this, "SetDPPAlgorithm1()");

    TGLabel * lbRollOver = new TGLabel(vfDPPCtrl11, "Roll-Over Flag :"); vfDPPCtrl11->AddFrame(lbRollOver, haha);        
    cbRollOver  = new TGComboBox(vfDPPCtrl12); vfDPPCtrl12->AddFrame(cbRollOver);
    cbRollOver->AddEntry("Disabled", 0);
    cbRollOver->AddEntry("Enabled", 1);
    cbRollOver->Resize(width, 20);
    cbRollOver->Connect("Changed()", "ChannelSettingPHA", this, "SetDPPAlgorithm1()");

    TGLabel * lbPileUp = new TGLabel(vfDPPCtrl11, "Pile-Up Flag :"); vfDPPCtrl11->AddFrame(lbPileUp, haha);
    cbPileUp = new TGComboBox(vfDPPCtrl12); vfDPPCtrl12->AddFrame(cbPileUp);
    cbPileUp->AddEntry("Disabled", 0);
    cbPileUp->AddEntry("Enabled", 1);
    cbPileUp->Resize(width, 20);
    cbPileUp->Connect("Changed()", "ChannelSettingPHA", this, "SetDPPAlgorithm1()");

    TGVerticalFrame *   vfDPPCtrl21 = new TGVerticalFrame(hfDPPCtrl1); hfDPPCtrl1->AddFrame(vfDPPCtrl21, new TGLayoutHints(kLHintsExpandX, 5, 5, 0, 0));
    TGVerticalFrame *   vfDPPCtrl22 = new TGVerticalFrame(hfDPPCtrl1); hfDPPCtrl1->AddFrame(vfDPPCtrl22, new TGLayoutHints(kLHintsExpandX, 5, 5, 0, 0));
    
    TGLabel * lbLocalShapedTrigger  = new TGLabel(vfDPPCtrl21, "Local Shaped Trigger :");   vfDPPCtrl21->AddFrame(lbLocalShapedTrigger, haha);
    cbLocalShapedTrigger = new TGComboBox(vfDPPCtrl12); vfDPPCtrl12->AddFrame(cbLocalShapedTrigger);
    cbLocalShapedTrigger->AddEntry("Disabled", -1);
    cbLocalShapedTrigger->AddEntry("AND", 0);
    cbLocalShapedTrigger->AddEntry("Even Channel", 1);
    cbLocalShapedTrigger->AddEntry("Odd Channel", 2);
    cbLocalShapedTrigger->AddEntry("OR", 3);
    cbLocalShapedTrigger->Resize(width, 20);
    cbLocalShapedTrigger->Connect("Changed()", "ChannelSettingPHA", this, "SetDPPAlgorithm2()");
            
    TGLabel * lbLocalTriggerValid   = new TGLabel(vfDPPCtrl21, "Local Trigger Valid. :");   vfDPPCtrl21->AddFrame(lbLocalTriggerValid, haha);
    cbLocalTriggerValid = new TGComboBox(vfDPPCtrl22); vfDPPCtrl22->AddFrame(cbLocalTriggerValid);
    cbLocalTriggerValid->AddEntry("Disabled", -1);
    cbLocalTriggerValid->AddEntry("crossed", 0);
    cbLocalTriggerValid->AddEntry("val0 = val1 from mother-board mask", 1);
    cbLocalTriggerValid->AddEntry("AND", 3);
    cbLocalTriggerValid->AddEntry("OR", 4);
    cbLocalTriggerValid->Resize(100, 20);
    cbLocalTriggerValid->Connect("Changed()", "ChannelSettingPHA", this, "SetDPPAlgorithm2()");

    TGLabel * lbVetoSource          = new TGLabel(vfDPPCtrl21, "Veto Source :"); vfDPPCtrl21->AddFrame(lbVetoSource, haha);    
    cbVetoSource = new TGComboBox(vfDPPCtrl22); vfDPPCtrl22->AddFrame(cbVetoSource);
    cbVetoSource->AddEntry("Disabled", 0);
    cbVetoSource->AddEntry("common to all channels", 1);
    cbVetoSource->AddEntry("individually set for paired channel", 2);
    cbVetoSource->AddEntry("negative saturation", 3);
    cbVetoSource->Resize(width, 20);
    cbVetoSource->Connect("Changed()", "ChannelSettingPHA", this, "SetDPPAlgorithm2()");

    TGLabel * lbTriggerCounterRate  = new TGLabel(vfDPPCtrl21, "Trigger Counter Rate :");   vfDPPCtrl21->AddFrame(lbTriggerCounterRate, haha);
    cbTriggerCounterRate = new TGComboBox(vfDPPCtrl22); vfDPPCtrl22->AddFrame(cbTriggerCounterRate);
    cbTriggerCounterRate->AddEntry("1024", 0);
    cbTriggerCounterRate->AddEntry(" 128", 1);
    cbTriggerCounterRate->AddEntry("8192", 2);
    cbTriggerCounterRate->Resize(width, 20);
    cbTriggerCounterRate->Connect("Changed()", "ChannelSettingPHA", this, "SetDPPAlgorithm2()");

    TGLabel * lbBaselineCal         = new TGLabel(vfDPPCtrl21, "Active Baseline Cal. :");   vfDPPCtrl21->AddFrame(lbBaselineCal, haha);
    cbBaselineCal = new TGComboBox(vfDPPCtrl22); vfDPPCtrl22->AddFrame(cbBaselineCal);
    cbBaselineCal->AddEntry("Enabled", 0);
    cbBaselineCal->AddEntry("Disabled", 1);
    cbBaselineCal->Resize(width, 20);
    cbBaselineCal->Connect("Changed()", "ChannelSettingPHA", this, "SetDPPAlgorithm2()");

    TGLabel * lbTagCorrelatedEvent  = new TGLabel(vfDPPCtrl21, "Tag correlated events :");  vfDPPCtrl21->AddFrame(lbTagCorrelatedEvent, haha);    
    cbTagCorrelatedEvent = new TGComboBox(vfDPPCtrl22); vfDPPCtrl22->AddFrame(cbTagCorrelatedEvent);
    cbTagCorrelatedEvent->AddEntry("Disabled", 0);
    cbTagCorrelatedEvent->AddEntry("Enabled", 1);
    cbTagCorrelatedEvent->Resize(width, 20);
    cbTagCorrelatedEvent->Connect("Changed()", "ChannelSettingPHA", this, "SetDPPAlgorithm2()");

    TGLabel * lbBaselineOptimize = new TGLabel(vfDPPCtrl11, "Baseline Optimaization :"); vfDPPCtrl11->AddFrame(lbBaselineOptimize, haha);
    cbBaselineOptimize = new TGComboBox(vfDPPCtrl22); vfDPPCtrl22->AddFrame(cbBaselineOptimize);
    cbBaselineOptimize->AddEntry("Disabled", 0);
    cbBaselineOptimize->AddEntry("Enabled", 1);
    cbBaselineOptimize->Resize(width, 20);
    cbBaselineOptimize->Connect("Changed()", "ChannelSettingPHA", this, "SetDPPAlgorithm2()");
    
    
    TGHorizontalFrame * hfDPPCtrl2 = new TGHorizontalFrame(vfDPPCtrl); vfDPPCtrl->AddFrame(hfDPPCtrl2, new TGLayoutHints(kLHintsExpandX, 5, 5, 10, 0));
    
    TGVerticalFrame *   vfDPPCtrl_a = new TGVerticalFrame(hfDPPCtrl2); hfDPPCtrl2->AddFrame(vfDPPCtrl_a);
    TGVerticalFrame *   vfDPPCtrl_b = new TGVerticalFrame(hfDPPCtrl2); hfDPPCtrl2->AddFrame(vfDPPCtrl_b, new TGLayoutHints(kLHintsExpandX, 5, 5, 0, 0));
    
    
    TGLabel * lbDisableSelfTrigger = new TGLabel(vfDPPCtrl_a, "Self Trigger :"); vfDPPCtrl_a->AddFrame(lbDisableSelfTrigger, haha);
    cbDisableSelfTrigger = new TGComboBox(vfDPPCtrl_b); vfDPPCtrl_b->AddFrame(cbDisableSelfTrigger);
    cbDisableSelfTrigger->AddEntry("used to acquire and propagate to trigger logic", 0);
    cbDisableSelfTrigger->AddEntry("only propagate to trigger logic", 1);
    cbDisableSelfTrigger->Resize(300, 20);
    cbLocalShapedTrigger->Connect("Changed()", "ChannelSettingPHA", this, "SetDPPAlgorithm1()");
    
    TGLabel * lbExtra2WordOption    = new TGLabel(vfDPPCtrl_a, "Extras 2 Word Option :");   vfDPPCtrl_a->AddFrame(lbExtra2WordOption, haha);
    cbExtra2WordOption    = new TGComboBox(vfDPPCtrl_b); vfDPPCtrl_b->AddFrame(cbExtra2WordOption);
    cbExtra2WordOption->AddEntry("[31:16] Extended Time Stamp [15:0] Baseline * 4", 0);
    cbExtra2WordOption->AddEntry("[31:16] Extended Time Stamp [15:0] Fine Time Stamp", 2);
    cbExtra2WordOption->AddEntry("[31:16] Lost Trigger Counter [15:0] Total Trigger Counter", 4);
    cbExtra2WordOption->AddEntry("[31:16] Event Before Zero Crossing [15:0] Event After Zero Crossing", 5);
    cbExtra2WordOption->Resize(400, 20);
    cbExtra2WordOption->Connect("Changed()", "ChannelSettingPHA", this, "SetDPPAlgorithm2()");

   }       
             
  fMain->MapSubwindows();
  fMain->Resize(fMain->GetDefaultSize());
  fMain->MapWindow();
  
  ch2ns = 4;
  
  isOpened = true;
  
  ChangeBoard();
  
}
ChannelSettingPHA::~ChannelSettingPHA(){
  
  printf("close ChannelSettingPHA window\n");

  isOpened = false;
  
  delete boardIDEntry;
  
  delete cbOnOff;
  delete cbInputDynamicRange;
  delete cbPolarity;
 
  /// fMain must be delete last;
  fMain->Cleanup();
  delete fMain;
  
}

void ChannelSettingPHA::LogMsg(TString msg){
  Emit("LogMsg(char*)", msg.Data());
}

void ChannelSettingPHA::ChangeBoard(){
  if ( digi == NULL ) return;
  
  int boardID = boardIDEntry->GetNumber();
  
  if( digi[boardID]->GetDPPType() != V1730_DPP_PHA_CODE){
    
    if( boardID > presentBoardID ) {
      
      for( int i = boardID +1 ; i < nDigi; i++){
        if( digi[i]->GetDPPType() == V1730_DPP_PHA_CODE ){
          boardID = i;
          boardIDEntry->SetNumber(i, false);
          break;
        }
        if( i = nDigi -1 ) return;
      }
      
    }else{
      
      for( int i = boardID - 1 ; i >= 0; i--){
        if( digi[i]->GetDPPType() == V1730_DPP_PHA_CODE ){
          boardID = i;
          boardIDEntry->SetNumber(i, false);
          break;
        }
        if( i = nDigi -1 ) return;
      }
      
    }
  }
  
  ch2ns = (unsigned short) digi[boardID]->GetCh2ns();
  ChangeCh();
  
}

void ChannelSettingPHA::ChangeCh(){
  
  LogMsg(Form("========== Change to Channel %d", (int)chIDEntry->GetNumber()));
  
  if ( digi == NULL ) return;

  int boardID = boardIDEntry->GetNumber();
  int ch = chIDEntry->GetNumber();
  
  if( ch < 0 ) {
    printf("All channels mode.\n");
    return;
  }

  cbOnOff->Select( (digi[boardID]->GetChannelMask() >> ch) & 0x1, false); /// don't emit signal  
  cbInputDynamicRange->Select( digi[boardID]->ReadRegister(Register::DPP::InputDynamicRange, ch), false);
  numRecordLength->SetNumber( digi[boardID]->ReadRegister(Register::DPP::RecordLength_G, ch) * 8 * ch2ns, false);
  numPreTrigger->SetNumber( digi[boardID]->ReadRegister(Register::DPP::PreTrigger, ch) * 4 * ch2ns, false);
  numEventAgg->SetNumber( digi[boardID]->ReadRegister(Register::DPP::NumberEventsPerAggregate_G, ch), false);
  
  uint32_t temp = digi[boardID]->ReadRegister(Register::DPP::ChannelDCOffset, ch);
  numDCOffset->SetNumber( 1.0 - temp * 1.0/0xFFFF , false);
  
  eTemp->SetText(Form("%d C", digi[boardID]->ReadRegister(Register::DPP::ChannelADCTemperature, ch)), false);
  
  numTriggerThreshold->SetNumber( digi[boardID]->ReadRegister(Register::DPP::PHA::TriggerThreshold, ch), false);
  numTriggerHoldOff  ->SetNumber( digi[boardID]->ReadRegister(Register::DPP::PHA::TriggerHoldOffWidth, ch) * 4 * ch2ns, false);
  cbTriggerSmoothing    ->Select( digi[boardID]->ReadRegister(Register::DPP::PHA::RCCR2SmoothingFactor, ch), false);
  numInputRiseTime   ->SetNumber( digi[boardID]->ReadRegister(Register::DPP::PHA::InputRiseTime, ch) * 4 * ch2ns, false);
  numRiseTimeValidWin->SetNumber( digi[boardID]->ReadRegister(Register::DPP::PHA::RiseTimeValidationWindow, ch) * ch2ns, false);
    
  numTrapRiseTime->SetNumber( digi[boardID]->ReadRegister(Register::DPP::PHA::TrapezoidRiseTime, ch) * 4 * ch2ns, false);
  numTrapFlatTop->SetNumber(  digi[boardID]->ReadRegister(Register::DPP::PHA::TrapezoidFlatTop, ch) * 4 * ch2ns, false);
  numDecay->SetNumber(        digi[boardID]->ReadRegister(Register::DPP::PHA::DecayTime, ch) * 4 * ch2ns, false);
  numPeaking->SetNumber(      digi[boardID]->ReadRegister(Register::DPP::PHA::PeakingTime, ch) * 4 * ch2ns, false);
  numPeakHoldOff->SetNumber(  digi[boardID]->ReadRegister(Register::DPP::PHA::PeakHoldOff, ch) * 4 * ch2ns, false);
  
  temp = digi[boardID]->ReadRegister(Register::DPP::DPPAlgorithmControl, ch);
  numTrapScale->SetNumber(     temp & 0x3F, false );
  cbDecimation->Select(     ( (temp >>  8) & 0x3), false);
  cbDecimationGain->Select( ( (temp >> 10) & 0x3), false);
  cbPeakMean->Select(       ( (temp >> 12) & 0x3), false);
  cbPolarity->Select(       ( (temp >> 16) & 0x1), false);
  cbTriggerMode->Select(    ( (temp >> 18) & 0x3), false);
  cbBaseLineAvg->Select(    ( (temp >> 20) & 0x7), false);
  cbDisableSelfTrigger->Select( ( (temp >> 24) & 0x1), false);
  cbRollOver->Select( ( (temp >> 26) & 0x1), false);
  cbPileUp->Select(   ( (temp >> 27) & 0x1), false);
  
  temp = digi[boardID]->ReadRegister(Register::DPP::PHA::DPPAlgorithmControl2_G, ch);
  
  if( (((temp >> 2)) & 0x1 ) == 1 ){
    cbLocalShapedTrigger->Select( ( (temp >>  0) & 0x3), false);
  }else{
    cbLocalShapedTrigger->Select( -1, false);
  }
  if( (((temp >> 6)) & 0x1 ) == 1 ){
    cbLocalTriggerValid->Select(  ( (temp >> 4) & 0x3), false);
  }else{
    cbLocalTriggerValid->Select(  -1, false);
  }
  cbVetoSource->Select(         ( (temp >> 14) & 0x3), false);
  cbTriggerCounterRate->Select( ( (temp >> 16) & 0x3), false);
  cbBaselineCal->Select(        ( (temp >> 18) & 0x1), false);
  cbTagCorrelatedEvent->Select( ( (temp >> 19) & 0x1), false);
  cbBaselineOptimize->Select(   ( (temp >> 29) & 0x1), false);
  cbExtra2WordOption->Select(   ( (temp >>  8) & 0x7), false);
 
  
}

void ChannelSettingPHA::SetAllChannels(){
  printf("=== %s\n", __func__);  
  
  if ( digi == NULL ) return;
  
  short boardID = boardIDEntry->GetNumber();
  short ch = chIDEntry->GetNumber();
  
  uint32_t bit = 0;
  bit += numTrapScale->GetNumber();
  bit += ((cbDecimation->GetSelected() << 8) & 0x3);
  bit += ((cbDecimationGain->GetSelected() << 10) & 0x3);
  bit += ((cbPeakMean->GetSelected() << 12) & 0x3);
  bit += ((cbPolarity->GetSelected() << 16) & 0x3);
  bit += ((cbTriggerMode->GetSelected() << 18) & 0x3);
  bit += ((cbBaseLineAvg->GetSelected() << 20) & 0x7);
  bit += ((cbDisableSelfTrigger->GetSelected() << 24) & 0x1);
  bit += ((cbRollOver->GetSelected() << 26) & 0x1);
  bit += ((cbPileUp->GetSelected() << 27) & 0x1);
  
  printf(" DPP1 bit: 0x%x\n", bit);
  digi[boardID]->WriteRegister(Register::DPP::DPPAlgorithmControl, bit, -1);
  
  if( cbLocalShapedTrigger->GetSelected() >= 0 ){
    bit += cbLocalShapedTrigger->GetSelected();
    bit += ( 1 << 2);
  }
  if( cbLocalTriggerValid->GetSelected() >= 0 ){
    bit += ((cbLocalTriggerValid->GetSelected() << 4) & 0x3);
    bit += ( 1 << 6);
  }
  bit += ((cbExtra2WordOption->GetSelected() << 8 ) & 0x7);
  bit += ((cbVetoSource->GetSelected() << 14 ) & 0x3);
  bit += ((cbTriggerCounterRate->GetSelected() << 16 ) & 0x3);
  bit += ((cbBaselineCal->GetSelected() << 18 ) & 0x1);
  bit += ((cbTagCorrelatedEvent->GetSelected() << 19 ) & 0x1);
  bit += ((cbBaselineOptimize->GetSelected() << 29 ) & 0x1);
  
  printf(" DPP2 bit: 0x%x\n", bit);
  digi[boardID]->WriteRegister(Register::DPP::PHA::DPPAlgorithmControl2_G, bit, -1);

}

void ChannelSettingPHA::SetChannelMask(){
  printf("=== %s\n", __func__);  
  if ( digi == NULL ) return;

  short boardID = boardIDEntry->GetNumber();
  short ch = chIDEntry->GetNumber();
  unsigned short val = cbOnOff->GetSelected();
  
  uint32_t bitMask = (1 << ch);
  uint32_t chMask = ((digi[boardID]->GetChannelMask() & ~bitMask) | ( val << ch) );
  
  printf("mask : 0x%x \n", chMask);
  digi[boardID]->SetChannelMask(chMask);
  
}

void ChannelSettingPHA::SetDPPAlgorithm1(){
  printf("=== %s\n", __func__);  
  if ( digi == NULL ) return;

  short boardID = boardIDEntry->GetNumber();
  short ch = chIDEntry->GetNumber();
  
  unsigned short ch2ns = digi[boardID]->GetCh2ns();
  
  digi[boardID]->WriteRegister(Register::DPP::InputDynamicRange, cbInputDynamicRange->GetSelected(), -1);
  
  unsigned short temp = ((unsigned short)(numRecordLength->GetNumber())) / 8 / ch2ns; 
  digi[boardID]->WriteRegister(Register::DPP::RecordLength_G, temp , ch);

  uint32_t bit = 0;
  bit = bit + numTrapScale->GetNumber();
  bit = bit + ((cbDecimation->GetSelected() << 8) & 0x3);
  bit = bit + ((cbDecimationGain->GetSelected() << 10) & 0x3);
  bit = bit + ((cbPeakMean->GetSelected() << 12) & 0x3);
  bit = bit + ((cbPolarity->GetSelected() << 16) & 0x3);
  bit = bit + ((cbTriggerMode->GetSelected() << 18) & 0x3);
  bit = bit + ((cbBaseLineAvg->GetSelected() << 20) & 0x7);
  bit = bit + ((cbDisableSelfTrigger->GetSelected() << 24) & 0x1);
  bit = bit + ((cbRollOver->GetSelected() << 26) & 0x1);
  bit = bit + ((cbPileUp->GetSelected() << 27) & 0x1);
  
  printf(" DPP1 bit: 0x%x\n", bit);
  digi[boardID]->WriteRegister(Register::DPP::DPPAlgorithmControl, bit, ch);
  
}

void ChannelSettingPHA::SetDPPAlgorithm2(){
  printf("=== %s\n", __func__);  
  if ( digi == NULL ) return;
  
  short boardID = boardIDEntry->GetNumber();
  short ch = chIDEntry->GetNumber();
  
  uint32_t bit = 0;
  
  if( cbLocalShapedTrigger->GetSelected() >= 0 ){
    bit += cbLocalShapedTrigger->GetSelected();
    bit += ( 1 << 2);
  }
  if( cbLocalTriggerValid->GetSelected() >= 0 ){
    bit += ((cbLocalTriggerValid->GetSelected() << 4) & 0x3);
    bit += ( 1 << 6);
  }
  bit += ((cbExtra2WordOption->GetSelected() << 8 ) & 0x7);
  bit += ((cbVetoSource->GetSelected() << 14 ) & 0x3);
  bit += ((cbTriggerCounterRate->GetSelected() << 16 ) & 0x3);
  bit += ((cbBaselineCal->GetSelected() << 18 ) & 0x1);
  bit += ((cbTagCorrelatedEvent->GetSelected() << 19 ) & 0x1);
  bit += ((cbBaselineOptimize->GetSelected() << 29 ) & 0x1);
  
  printf(" DPP2 bit: 0x%x\n", bit);
  digi[boardID]->WriteRegister(Register::DPP::PHA::DPPAlgorithmControl2_G, bit, ch);
  
}

void ChannelSettingPHA::SetInputDynamicRange(){
  printf("=== %s\n", __func__);  
  if ( digi == NULL ) return;
  
  short boardID = boardIDEntry->GetNumber();
  short ch = chIDEntry->GetNumber();
  digi[boardID]->WriteRegister(Register::DPP::InputDynamicRange, cbInputDynamicRange->GetSelected(), ch);
}


void ChannelSettingPHA::ChangeAStep(TGNumberEntry * numEntry, unsigned short stepSize, uint32_t address){

  unsigned int temp = numEntry->GetNumber();
  unsigned int res = temp % (stepSize * ch2ns);
  temp = temp - res +  ( ( res < (stepSize * ch2ns/2) ) ? (stepSize * ch2ns ) : 0 );
  numEntry->SetNumber(temp, false);
  
  short boardID = boardIDEntry->GetNumber();
  short ch = chIDEntry->GetNumber();
  
  if( digi != NULL ) digi[boardID]->WriteRegister(address, temp / stepSize / ch2ns , ch);
}

void ChannelSettingPHA::SetRecordLength()    {printf("=== %s\n", __func__); ChangeAStep(numRecordLength,     8, Register::DPP::RecordLength_G); }
void ChannelSettingPHA::SetPreTrigger()      {printf("=== %s\n", __func__); ChangeAStep(numPreTrigger,       4, Register::DPP::PreTrigger);}
void ChannelSettingPHA::SetEventAggregate()  {printf("=== %s\n", __func__); ChangeAStep(numEventAgg,         1, Register::DPP::NumberEventsPerAggregate_G);}
void ChannelSettingPHA::SetTriggerThreshold(){printf("=== %s\n", __func__); ChangeAStep(numTriggerThreshold, 1, Register::DPP::PHA::TriggerThreshold); }
void ChannelSettingPHA::SetTriggerHoldOff()  {printf("=== %s\n", __func__); ChangeAStep(numTriggerHoldOff,   4, Register::DPP::PHA::TriggerHoldOffWidth);}
void ChannelSettingPHA::SetInputRiseTime()   {printf("=== %s\n", __func__); ChangeAStep(numInputRiseTime,    4, Register::DPP::PHA::InputRiseTime);}
void ChannelSettingPHA::SetRiseTimeValidWin(){printf("=== %s\n", __func__); ChangeAStep(numRiseTimeValidWin, 1, Register::DPP::PHA::RiseTimeValidationWindow);}
void ChannelSettingPHA::SetTrapRiseTime()    {printf("=== %s\n", __func__); ChangeAStep(numTrapRiseTime,     4, Register::DPP::PHA::TrapezoidRiseTime);}
void ChannelSettingPHA::SetTrapFlatTop()     {printf("=== %s\n", __func__); ChangeAStep(numTrapFlatTop,      4, Register::DPP::PHA::TrapezoidFlatTop);}
void ChannelSettingPHA::SetDecay()           {printf("=== %s\n", __func__); ChangeAStep(numDecay,            4, Register::DPP::PHA::DecayTime);}
void ChannelSettingPHA::SetPeaking()         {printf("=== %s\n", __func__); ChangeAStep(numPeaking,          4, Register::DPP::PHA::PeakingTime);}
void ChannelSettingPHA::SetPeakHoldOff()     {printf("=== %s\n", __func__); ChangeAStep(numPeakHoldOff,      4, Register::DPP::PHA::PeakHoldOff);}

void ChannelSettingPHA::SetDCOffset(){
  printf("=== %s\n", __func__);  
  if ( digi == NULL ) return;
  short boardID = boardIDEntry->GetNumber();
  short ch = chIDEntry->GetNumber();
  double temp = numDCOffset->GetNumber();
  uint32_t bit = uint32_t((1.0 - temp) * 0xFFFF);
  printf("%.2f = 0x%x \n", temp, bit);
  if( digi != NULL ) digi[boardID]->WriteRegister(Register::DPP::ChannelDCOffset, bit , ch);
}

void ChannelSettingPHA::SetTriggerSmoothing(){
  printf("=== %s\n", __func__);  
  if ( digi == NULL ) return;
  short boardID = boardIDEntry->GetNumber();
  short ch = chIDEntry->GetNumber();
  if( digi != NULL ) digi[boardID]->WriteRegister(Register::DPP::PHA::RCCR2SmoothingFactor, (unsigned int)cbTriggerSmoothing->GetSelected() , ch);
}