#include #include #include #include #include #include #include #include #include #include "channelSetting.h" ChannelSetting::ChannelSetting(const TGWindow *p, UInt_t w, UInt_t h, Digitizer ** digi, int nDigi){ this->digi = digi; Pixel_t red, green; gClient->GetColorByName("red", red); gClient->GetColorByName("green", green); fMain = new TGMainFrame(p,w,h); fMain->SetWindowName("Channel Settings "); fMain->Connect("CloseWindow()", "ChannelSetting", this, "CloseWindow()"); TGLayoutHints * layoutHints = new TGLayoutHints(kLHintsCenterX | kLHintsCenterY, 5,5,3,3); /// left, right, top, bottom TGLayoutHints * layoutHintsR = new TGLayoutHints(kLHintsRight, 5,5,6,5); /// 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, 0, 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()", "ChannelSetting", this, "ChangeBoard()"); if( nDigi <= 1 ) boardIDEntry->SetState(false); 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::kNEANonNegative); chIDEntry->SetWidth(50); chIDEntry->SetLimits(TGNumberFormat::kNELLimitMinMax, 0, NChannel-1); chIDEntry->Connect("Modified()", "ChannelSetting", this, "ChangeCh()"); hframe0->AddFrame(chIDEntry, new TGLayoutHints(kLHintsCenterX , 5, 5, 3, 4)); ///const uint32_t ChannelADCTemperature = 0x10A8; /// R TGLabel * lbTemp = new TGLabel(hframe0, "Temperature [C] :"); hframe0->AddFrame(lbTemp, new TGLayoutHints(kLHintsCenterX | kLHintsCenterY, 5, 5, 3, 4)); TGTextEntry * eTemp = new TGTextEntry(hframe0, new TGTextBuffer(1)); hframe0->AddFrame(eTemp, new TGLayoutHints(kLHintsRight, 5,5,3,4)); eTemp->SetEnabled(false); eTemp->SetText( "0" ); eTemp->Resize(50,20); int boardID = boardIDEntry->GetNumber(); 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); //pixie->GetChannelOnOff(boardID, ch) ? cbOnOff->Select(1) : cbOnOff->Select(0); cbOnOff->Connect("Selected(Int_t, Int_t)", "ChannelSetting", this, "ChangeOnOff()"); ///----------- 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); //pixie->GetChannelPolarity(boardID, ch) ? cbPolarity->Select(1) : cbPolarity->Select(0); cbPolarity->Connect("Selected(Int_t, Int_t)", "ChannelSetting", this, "ChangeOnOff()"); ///---------- 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->Select(0); ///---------- Record Length TGLabel * lbRecordLength = new TGLabel(vfInput1, "Record Length [ns]"); vfInput1->AddFrame(lbRecordLength, layoutHintsR); TGNumberEntry* numRecordLength = new TGNumberEntry(vfInput2, 20000, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfInput2->AddFrame(numRecordLength, layoutHints); numRecordLength->Resize(width, 20); ///const uint32_t PreTrigger = 0x1038; /// R/W TGLabel * lbPreTrigger = new TGLabel(vfInput1, "Pre trigger [ns]"); vfInput1->AddFrame(lbPreTrigger, layoutHintsR); TGNumberEntry* numPreTrigger = new TGNumberEntry(vfInput2, 2000, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfInput2->AddFrame(numPreTrigger, layoutHints); numPreTrigger->Resize(width, 20); ///const uint32_t NumberEventsPerAggregate_G = 0x1034; /// R/W, TGLabel * lbEventAgg = new TGLabel(vfInput1, "Events / Aggregate"); vfInput1->AddFrame(lbEventAgg, layoutHintsR); TGNumberEntry* numEventAgg = new TGNumberEntry(vfInput2, 512, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfInput2->AddFrame(numEventAgg, layoutHints); numEventAgg->Resize(width, 20); ///================== 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); TGNumberEntry* numTriggerThreshold = new TGNumberEntry(vfTrigger2, 100, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrigger2->AddFrame(numTriggerThreshold, layoutHints); numTriggerThreshold->Resize(width, 20); ///const uint32_t TriggerHoldOffWidth = 0x1074; /// R/W TGLabel * lbTriggerHoldOff = new TGLabel(vfTrigger1, "Trigger Holdoff [ns]"); vfTrigger1->AddFrame(lbTriggerHoldOff, layoutHintsR); TGNumberEntry* numTriggerHoldOff = new TGNumberEntry(vfTrigger2, 20000, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrigger2->AddFrame(numTriggerHoldOff, layoutHints); numTriggerHoldOff->Resize(width, 20); ///const uint32_t ChannelDCOffset = 0x1098; /// R/W TGLabel * lbDCOffset = new TGLabel(vfTrigger1, "DC offset [%]"); vfTrigger1->AddFrame(lbDCOffset, layoutHintsR); TGNumberEntry* numDCOffset = new TGNumberEntry(vfTrigger2, 20, 0, 0, TGNumberFormat::kNESRealTwo, TGNumberFormat::kNEANonNegative); vfTrigger2->AddFrame(numDCOffset, layoutHints); numDCOffset->Resize(width, 20); ///const uint32_t RCCR2SmoothingFactor = 0x1054; /// R/W Trigger Filter smoothing, triggerSmoothingFactor TGLabel * lbTriggerSmoothing = new TGLabel(vfTrigger1, "Trigger Smoothing"); vfTrigger1->AddFrame(lbTriggerSmoothing, layoutHintsR); TGComboBox* 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->Select(16); cbTriggerSmoothing->Resize(width, 20); ///const uint32_t InputRiseTime = 0x1058; /// R/W OK TGLabel * lbInputRiseTime = new TGLabel(vfTrigger1, "Input rise time [ns]"); vfTrigger1->AddFrame(lbInputRiseTime, layoutHintsR); TGNumberEntry* numInputRiseTime = new TGNumberEntry(vfTrigger2, 96, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrigger2->AddFrame(numInputRiseTime, layoutHints); numInputRiseTime->Resize(width, 20); ///const uint32_t RiseTimeValidationWindow = 0x1070; /// R/W OK TGLabel * lbRiseTimeValidWin = new TGLabel(vfTrigger1, "Rise Time Val. Win. [ns]"); vfTrigger1->AddFrame(lbRiseTimeValidWin, layoutHintsR); TGNumberEntry* numRiseTimeValidWin = new TGNumberEntry(vfTrigger2, 20, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrigger2->AddFrame(numRiseTimeValidWin, layoutHints); numRiseTimeValidWin->Resize(width, 20); ///const uint32_t ShapedTriggerWidth = 0x1084; /// R/W not sure ///const uint32_t VetoWidth = 0x10D4; /// R/W ///const uint32_t FineGain = 0x10C4; /// R/W OK ///================== 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); TGNumberEntry* numTrapRiseTime = new TGNumberEntry(vfTrap2, 96, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrap2->AddFrame(numTrapRiseTime, layoutHints); numTrapRiseTime->Resize(width, 20); ///const uint32_t TrapezoidFlatTop = 0x1060; /// R/W OK TGLabel * lbTrapFlatTop = new TGLabel(vfTrap1, "Flat Top [ns]"); vfTrap1->AddFrame(lbTrapFlatTop, layoutHintsR); TGNumberEntry* numTrapFlatTop = new TGNumberEntry(vfTrap2, 96, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrap2->AddFrame(numTrapFlatTop, layoutHints); numTrapFlatTop->Resize(width, 20); ///const uint32_t DecayTime = 0x1068; /// R/W OK TGLabel * lbDecay = new TGLabel(vfTrap1, "Decay [ns]"); vfTrap1->AddFrame(lbDecay, layoutHintsR); TGNumberEntry* numDecay = new TGNumberEntry(vfTrap2, 96, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrap2->AddFrame(numDecay, layoutHints); numDecay->Resize(width, 20); ///const uint32_t PeakingTime = 0x1064; /// R/W OK TGLabel * lbPeaking = new TGLabel(vfTrap1, "Peaking [ns]"); vfTrap1->AddFrame(lbPeaking, layoutHintsR); TGNumberEntry* numPeaking = new TGNumberEntry(vfTrap2, 96, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrap2->AddFrame(numPeaking, layoutHints); numPeaking->Resize(width, 20); ///const uint32_t PeakHoldOff = 0x1078; /// R/W OK TGLabel * lbPeakHoldOff = new TGLabel(vfTrap1, "Peaking Holdoff [ns]"); vfTrap1->AddFrame(lbPeakHoldOff, layoutHintsR); TGNumberEntry* numPeakHoldOff = new TGNumberEntry(vfTrap2, 96, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrap2->AddFrame(numPeakHoldOff, layoutHints); numPeakHoldOff->Resize(width, 20); ///================== const uint32_t DPPAlgorithmControl = 0x1080; /// R/W TGGroupFrame * gfDPPCtrl = new TGGroupFrame(vframe, "DPP Algorithm Control", kHorizontalFrame); vframe->AddFrame(gfDPPCtrl, new TGLayoutHints(kLHintsExpandX)); TGVerticalFrame * vfDPPCtrl = new TGVerticalFrame(gfDPPCtrl); gfDPPCtrl->AddFrame(vfDPPCtrl); TGHorizontalFrame * hfDPPCtrl1 = new TGHorizontalFrame(vfDPPCtrl); vfDPPCtrl->AddFrame(hfDPPCtrl1, layoutHints); ///================== const uint32_t DPPAlgorithmControl2_G = 0x10A0; /// R/W OK TGGroupFrame * gfDPPCtrl2 = new TGGroupFrame(vframe, "DPP Algorithm Control 2", kHorizontalFrame); vframe->AddFrame(gfDPPCtrl2, new TGLayoutHints(kLHintsExpandX)); TGVerticalFrame * vfDPPCtrl2 = new TGVerticalFrame(gfDPPCtrl2); gfDPPCtrl2->AddFrame(vfDPPCtrl2); TGHorizontalFrame * hfDPPCtrl21 = new TGHorizontalFrame(vfDPPCtrl2); vfDPPCtrl2->AddFrame(hfDPPCtrl21, layoutHints); /* ///----- all other TGHorizontalFrame *hframe[NUM_CHANNEL_SETTING]; TGLabel * lb[NUM_CHANNEL_SETTING]; for( int i = 0 ; i < NUM_CHANNEL_SETTING; i++){ hframe[i] = new TGHorizontalFrame(vframe, 50, 50 ); vframe->AddFrame(hframe[i], new TGLayoutHints(kLHintsRight, 2,2,2,2)); double temp = 0; // pixie->GetChannelSetting(settingName[i][0].Data(), boardID, ch, false); TGNumberFormat::EStyle digi = TGNumberFormat::kNESInteger; if( settingName[i][1] == "0" ) digi = TGNumberFormat::kNESInteger; if( settingName[i][1] == "1" ) digi = TGNumberFormat::kNESRealOne; if( settingName[i][1] == "2" ) digi = TGNumberFormat::kNESRealTwo; if( settingName[i][1] == "3" ) digi = TGNumberFormat::kNESRealThree; entry[i] = new TGNumberEntry(hframe[i], temp, 0, 0, digi, TGNumberFormat::kNEANonNegative); entry[i]->Resize(width, 20); if( i >= NUM_CHANNEL_SETTING - 3 ) { entry[i]->SetState(false); }else{ entry[i]->Connect("Modified()", "ChannelSetting", this, Form("ChangeID(=%d)", i)); } hframe[i]->AddFrame(entry[i], new TGLayoutHints(kLHintsRight, 5,5,3,4)); lb[i] = new TGLabel(hframe[i], settingName[i][0] + (settingName[i][2] != "" ? " [" + settingName[i][2] + "]" : "")); hframe[i]->AddFrame(lb[i], new TGLayoutHints(kLHintsRight | kLHintsCenterY, 5, 5, 3, 4)); } */ fMain->MapSubwindows(); fMain->Resize(fMain->GetDefaultSize()); fMain->MapWindow(); isOpened = true; } ChannelSetting::~ChannelSetting(){ isOpened = false; delete boardIDEntry; delete cbOnOff; delete cbInputDynamicRange; delete cbPolarity; /// fMain must be delete last; fMain->Cleanup(); delete fMain; } void ChannelSetting::ChangeBoard(){ ChangeCh(); } void ChannelSetting::ChangeCh(){ int boardID = boardIDEntry->GetNumber(); int ch = chIDEntry->GetNumber(); //pixie->GetChannelOnOff(boardID, ch) ? cbOnOff->Select(1) : cbOnOff->Select(0); //pixie->GetChannelPolarity(boardID, ch) ? cbPolarity->Select(1) : cbPolarity->Select(0); //pixie->GetChannelTraceOnOff(boardID, ch) ? cbTraceOnOff->Select(1) : cbTraceOnOff->Select(0); } void ChannelSetting::ChangeOnOff(){ short boardID = boardIDEntry->GetNumber(); short ch = chIDEntry->GetNumber(); int val = cbOnOff->GetSelected(); //pixie->SetChannelOnOff(val, boardID, ch); //pixie->SaveSettings(pixie->GetSettingFile(boardIDEntry->GetNumber())); } void ChannelSetting::ChangePolarity(){ short boardID = boardIDEntry->GetNumber(); short ch = chIDEntry->GetNumber(); int val = cbPolarity->GetSelected(); printf("------------- testing from BoardSetting\n"); //pixie->SetChannelPositivePolarity(val, boardID, ch); //pixie->SaveSettings(pixie->GetSettingFile(boardIDEntry->GetNumber())); } void ChannelSetting::ChangeID(int id){ short boardID = boardIDEntry->GetNumber(); short ch = chIDEntry->GetNumber(); //pixie->SetChannelSetting(settingName[id][0].Data(), val, boardID, ch, 1); //pixie->SaveSettings(pixie->GetSettingFile(boardIDEntry->GetNumber())); }