diff --git a/.vscode/settings.json b/.vscode/settings.json
index 162a9a6..4030e25 100644
--- a/.vscode/settings.json
+++ b/.vscode/settings.json
@@ -124,7 +124,11 @@
"script_multi.C": "cpp",
"Isotope.C": "cpp",
"classisotope.h": "c",
- "knockoutSim.C": "cpp"
+ "knockoutSim.C": "cpp",
+ "test.C": "cpp",
+ "SimTransfer.C": "cpp",
+ "httpaccess.C": "cpp",
+ "httpcontrol.C": "cpp"
},
"better-comments.multilineComments": true,
diff --git a/Armory/EventBuilder.cpp b/Armory/EventBuilder.cpp
deleted file mode 100644
index 13a0f0f..0000000
--- a/Armory/EventBuilder.cpp
+++ /dev/null
@@ -1,351 +0,0 @@
-#include "SolReader.h"
-#include
-#include
-
-#include "TFile.h"
-#include "TTree.h"
-#include "TMath.h"
-#include "TString.h"
-#include "TMacro.h"
-//#include "TClonesArray.h" // plan to save trace as TVector with TClonesArray
-//#include "TVector.h"
-
-#define MAX_MULTI 64
-#define MAX_TRACE_LEN 2500
-
-#define tick2ns 8 // 1 tick = 8 ns
-
-SolReader ** reader;
-Hit ** hit;
-
-std::vector> idList;
-
-unsigned long totFileSize = 0;
-unsigned long processedFileSize = 0;
-
-std::vector activeFileID;
-std::vector groupIndex;
-std::vector> group; // group[i][j], i = group ID, j = group member)
-
-void findEarliestTime(int &fileID, int &groupID){
-
- unsigned long firstTime = 0;
- for( int i = 0; i < (int) activeFileID.size(); i++){
- int id = activeFileID[i];
- if( i == 0 ) {
- firstTime = hit[id]->timestamp;
- fileID = id;
- groupID = i;
- //printf("%d | %d %lu %d | %d \n", id, reader[id]->GetBlockID(), hit[id]->timestamp, hit[id]->channel, (int) activeFileID.size());
- continue;
- }
- if( hit[id]->timestamp <= firstTime) {
- firstTime = hit[id]->timestamp;
- fileID = id;
- groupID = i;
- //printf("%d | %d %lu %d | %d \n", id, reader[id]->GetBlockID(), hit[id]->timestamp, hit[id]->channel, (int) activeFileID.size());
- }
- }
-
-}
-
-unsigned long long evID = 0;
-unsigned int multi = 0;
-unsigned short bd[MAX_MULTI] = {0};
-unsigned short sn[MAX_MULTI] = {0};
-unsigned short ch[MAX_MULTI] = {0};
-unsigned short e[MAX_MULTI] = {0};
-unsigned short e2[MAX_MULTI] = {0}; //for PSD energy short
-unsigned long long e_t[MAX_MULTI] = {0};
-unsigned short e_f[MAX_MULTI] = {0};
-unsigned short lowFlag[MAX_MULTI] = {0};
-unsigned short highFlag[MAX_MULTI] = {0};
-int traceLen[MAX_MULTI] = {0};
-int trace[MAX_MULTI][MAX_TRACE_LEN] = {0};
-
-void fillData(int &fileID, const bool &saveTrace){
- bd[multi] = idList[fileID][1];
- sn[multi] = idList[fileID][3];
- ch[multi] = hit[fileID]->channel;
- e[multi] = hit[fileID]->energy;
- e2[multi] = hit[fileID]->energy_short;
- e_t[multi] = hit[fileID]->timestamp;
- e_f[multi] = hit[fileID]->fine_timestamp;
- lowFlag[multi] = hit[fileID]->flags_low_priority;
- highFlag[multi] = hit[fileID]->flags_high_priority;
-
- if( saveTrace ){
- traceLen[multi] = hit[fileID]->traceLenght;
- for( int i = 0; i < TMath::Min(traceLen[multi], MAX_TRACE_LEN); i++){
- trace[multi][i] = hit[fileID]->analog_probes[0][i];
- }
- }
-
- multi++;
- reader[fileID]->ReadNextBlock();
-}
-
-void printEvent(){
- printf("==================== evID : %llu\n", evID);
- for( int i = 0; i < multi; i++){
- printf(" %2d | %d %d | %llu %d \n", i, bd[i], ch[i], e_t[i], e[i] );
- }
- printf("==========================================\n");
-}
-
-//^##################################################################################
-int main(int argc, char ** argv){
-
- printf("=======================================================\n");
- printf("=== SOLARIS Event Builder sol --> root ===\n");
- printf("=======================================================\n");
-
- if( argc <= 3){
- printf("%s [outfile] [timeWindow] [saveTrace] [sol-1] [sol-2] ... \n", argv[0]);
- printf(" outfile : output root file name\n");
- printf(" timeWindow : number of tick, 1 tick = %d ns.\n", tick2ns);
- printf(" saveTrace : 1 = save trace, 0 = no trace\n");
- printf(" sol-X : the sol file(s)\n");
- return -1;
- }
-
- // for( int i = 0; i < argc; i++){
- // printf("%d | %s\n", i, argv[i]);
- // }
-
- TString outFileName = argv[1];
- int timeWindow = abs(atoi(argv[2]));
- const bool saveTrace = atoi(argv[3]);
-
- const int nFile = argc - 4;
- TString inFileName[nFile];
- for( int i = 0 ; i < nFile ; i++){
- inFileName[i] = argv[i+4];
- }
-
- //*======================================== setup reader
- reader = new SolReader*[nFile];
- hit = new Hit *[nFile];
-
- for( int i = 0 ; i < nFile ; i++){
- reader[i] = new SolReader(inFileName[i].Data());
- hit[i] = reader[i]->hit; //TODO check is file open propertly
- reader[i]->ReadNextBlock(); // read the first block
- }
-
- //*======================================== group files
- idList.clear();
- for( int i = 0; i < nFile; i++){
- TString fn = inFileName[i];
-
- int pos = fn.Last('/'); // path
- fn.Remove(0, pos+1);
-
- pos = fn.First('_'); // expName;
- fn.Remove(0, pos+1);
-
- pos = fn.First('_'); // runNum;
- fn.Remove(0, pos+1);
-
- pos = fn.First('_'); // digiID
- TString f1 = fn;
- int digiID = f1.Remove(pos).Atoi();
- fn.Remove(0, pos+1);
-
- pos = fn.Last('_'); // digi serial num
- f1 = fn;
- int digisn = f1.Remove(pos).Atoi();
- fn.Remove(0, pos+1);
-
- pos = fn.First('.'); // get the file id;
- int indexID = fn.Remove(pos).Atoi();
-
- int fileID = i;
- std::vector haha = {fileID, digiID, indexID, digisn};
- idList.push_back(haha);
- }
-
- // sort by digiID
- std::sort(idList.begin(), idList.end(), [](const std::vector& a, const std::vector& b){
- if (a[1] == b[1]) {
- return a[2] < b[2];
- }
- return a[1] < b[1];
- });
-
- group.clear(); // group[i][j], i is the group Index = digiID
- int last_id = 0;
- std::vector kaka;
- for( int i = 0; i < (int) idList.size() ; i++){
- if( i == 0 ) {
- kaka.clear();
- last_id = idList[i][1];
- kaka.push_back(idList[i][0]);
- continue;
- }
-
- if( idList[i][1] != last_id ) {
- last_id = idList[i][1];
- group.push_back(kaka);
- kaka.clear();
- kaka.push_back(idList[i][0]);
- }else{
- kaka.push_back(idList[i][0]);
- }
- }
- group.push_back(kaka);
-
- printf(" out file : \033[1;33m%s\033[m\n", outFileName.Data());
- printf(" Event building time window : %d tics = %d nsec \n", timeWindow, timeWindow*tick2ns);
- printf(" Save Trace ? %s \n", saveTrace ? "Yes" : "No");
- printf(" Number of input file : %d \n", nFile);
- for( int i = 0; i < nFile; i++){
- printf(" %2d| %5.1f MB| %s \n", i, reader[i]->GetFileSize()/1024./1024., inFileName[i].Data());
- totFileSize += reader[i]->GetFileSize();
- }
- printf("------------------------------------\n");
- for( int i = 0; i < (int) group.size(); i++){
- printf("Group %d :", i);
- for( int j = 0; j < (int) group[i].size(); j ++){
- printf("%d, ", group[i][j]);
- }
- printf("\n");
- }
- printf("------------------------------------\n");
-
- //*======================================== setup tree
- TFile * outRootFile = new TFile(outFileName, "recreate");
- outRootFile->cd();
-
- TTree * tree = new TTree("tree", outFileName);
-
- tree->Branch("evID", &evID, "event_ID/l");
- tree->Branch("multi", &multi, "multi/i");
- tree->Branch("bd", bd, "board[multi]/s");
- tree->Branch("sn", sn, "sn[multi]/s");
- tree->Branch("ch", ch, "channel[multi]/s");
- tree->Branch("e", e, "energy[multi]/s");
- tree->Branch("e2", e2, "energy_short[multi]/s");
- tree->Branch("e_t", e_t, "timestamp[multi]/l");
- tree->Branch("e_f", e_f, "fine_timestamp[multi]/s");
- tree->Branch("lowFlag", lowFlag, "lowFlag[multi]/s");
- tree->Branch("highFlag", highFlag, "highFlag[multi]/s");
-
- if( saveTrace){
- tree->Branch("tl", traceLen, "traceLen[multi]/I");
- tree->Branch("trace", trace, Form("trace[multi][%d]/I", MAX_TRACE_LEN));
- }
-
- //*=========================================== build event
-
- //@---- using file from group[i][0] first
-
- //--- find earlist time among the files
- activeFileID.clear();
- groupIndex.clear(); //the index of each group
-
- for(int i = 0; i < (int) group.size(); i++) {
- groupIndex.push_back(0);
- activeFileID.push_back(group[i][0]);
- }
-
- int fileID = 0;
- int groupID = 0;
- findEarliestTime(fileID, groupID);
- fillData(fileID, saveTrace);
-
- unsigned long firstTimeStamp = hit[fileID]->timestamp;
- unsigned long lastTimeStamp = 0;
-
- int last_precentage = 0;
- while((activeFileID.size() > 0)){
-
- findEarliestTime(fileID, groupID);
- if( reader[fileID]->IsEndOfFile() ){
- groupIndex[groupID] ++;
- if( groupIndex[groupID] < (int) group[groupID].size() ){
- activeFileID[groupID] = group[groupID][groupIndex[groupID]];
- fileID = activeFileID[groupID];
- }else{
- activeFileID.erase(activeFileID.begin() + groupID);
- }
- }
-
- if( hit[fileID]->timestamp - e_t[0] < timeWindow ){
- fillData(fileID, saveTrace);
- }else{
- outRootFile->cd();
- tree->Fill();
- evID ++;
-
- multi = 0;
- fillData(fileID, saveTrace);
- }
-
- ///========= calculate progress
- processedFileSize = 0;
- for( int p = 0; p < (int) group.size(); p ++){
- for( int q = 0; q <= groupIndex[p]; q++){
- if( groupIndex[p] < (int) group[p].size() ){
- int id = group[p][q];
- processedFileSize += reader[id]->GetFilePos();
- }
- }
- }
- double percentage = processedFileSize * 100/ totFileSize;
- if( percentage >= last_precentage ) {
- printf("Processed : %llu, %.0f%% | %lu/%lu | ", evID, percentage, processedFileSize, totFileSize);
- for( int i = 0; i < (int) activeFileID.size(); i++) printf("%d, ", activeFileID[i]);
- printf(" \n\033[A\r");
- last_precentage = percentage + 1.0;
- }
- }; ///====== end of event building loop
-
- processedFileSize = 0;
- for( int p = 0; p < (int) group.size(); p ++){
- for( int q = 0; q < (int) group[p].size(); q++){
- int id = group[p][q];
- processedFileSize += reader[id]->GetFilePos();
- }
- }
- double percentage = processedFileSize * 100/ totFileSize;
- printf("Processed : %llu, %.0f%% | %lu/%lu \n", evID, percentage, processedFileSize, totFileSize);
-
- lastTimeStamp = hit[fileID]->timestamp;
- //*=========================================== save file
- outRootFile->cd();
- tree->Fill();
- evID ++;
- tree->Write();
-
- //*=========================================== Save timestamp as TMacro
- TMacro timeStamp;
- TString str;
- str.Form("%lu", firstTimeStamp); timeStamp.AddLine( str.Data() );
- str.Form("%lu", lastTimeStamp); timeStamp.AddLine( str.Data() );
- timeStamp.Write("timeStamp");
-
- unsigned int numBlock = 0;
- for( int i = 0; i < nFile; i++){
- //printf("%d | %8ld | %10u/%10u\n", i, reader[i]->GetBlockID() + 1, reader[i]->GetFilePos(), reader[i]->GetFileSize());
- numBlock += reader[i]->GetBlockID() + 1;
- }
-
- printf("===================================== done. \n");
- printf("Number of Block Scanned : %u\n", numBlock);
- printf(" Number of Event Built : %lld\n", evID);
- printf(" Output Root File Size : %.2f MB\n", outRootFile->GetSize()/1024./1024.);
- printf(" first timestamp : %lu \n", firstTimeStamp);
- printf(" last timestamp : %lu \n", lastTimeStamp);
- unsigned long duration = lastTimeStamp - firstTimeStamp;
- printf(" total duration : %lu = %.2f sec \n", duration, duration * tick2ns * 1.0 / 1e9 );
- printf("===================================== end of summary. \n");
-
-
- //^############## delete new
- for( int i = 0; i < nFile; i++) delete reader[i];
- delete [] reader;
- outRootFile->Close();
-
- return 0;
-}
\ No newline at end of file
diff --git a/Armory/Hit.h b/Armory/Hit.h
deleted file mode 100644
index 1a945b1..0000000
--- a/Armory/Hit.h
+++ /dev/null
@@ -1,287 +0,0 @@
-#ifndef HIT_H
-#define HIT_H
-
-#include
-#include
-#include
-#include
-
-#define MaxTraceLenght 8100
-
-enum DataFormat{
-
- ALL = 0x00,
- OneTrace = 0x01,
- NoTrace = 0x02,
- Minimum = 0x03,
- MiniWithFineTime = 0x04,
- Raw = 0x0A,
-
-};
-
-namespace DPPType{
-
- const std::string PHA = "DPP_PHA";
- const std::string PSD = "DPP_PSD";
-
-};
-
-class Hit {
- public:
-
- unsigned short dataType;
- std::string DPPType;
-
- ///============= for dpp-pha
- uint8_t channel; // 6 bit
- uint16_t energy; // 16 bit
- uint16_t energy_short; // 16 bit, only for PSD
- uint64_t timestamp; // 48 bit
- uint16_t fine_timestamp; // 10 bit
- uint16_t flags_low_priority; // 12 bit
- uint16_t flags_high_priority; // 8 bit
- size_t traceLenght; // 64 bit
- uint8_t downSampling; // 8 bit
- bool board_fail;
- bool flush;
- uint8_t analog_probes_type[2]; // 3 bit for PHA, 4 bit for PSD
- uint8_t digital_probes_type[4]; // 4 bit for PHA, 5 bit for PSD
- int32_t * analog_probes[2]; // 18 bit
- uint8_t * digital_probes[4]; // 1 bit
- uint16_t trigger_threashold; // 16 bit
- size_t event_size; // 64 bit
- uint32_t aggCounter; // 32 bit
-
- ///============= for raw
- uint8_t * data;
- size_t dataSize; /// number of byte of the data, size/8 = word [64 bits]
- uint32_t n_events;
-
- bool isTraceAllZero;
-
- Hit(){
- Init();
- }
-
- ~Hit(){
- ClearMemory();
- }
-
- void Init(){
- DPPType = DPPType::PHA;
- dataType = DataFormat::ALL;
-
- channel = 0;
- energy = 0;
- energy_short = 0;
- timestamp = 0;
- fine_timestamp = 0;
- downSampling = 0;
- board_fail = false;
- flush = false;
- flags_low_priority = 0;
- flags_high_priority = 0;
- trigger_threashold = 0;
- event_size = 0;
- aggCounter = 0;
- analog_probes[0] = NULL;
- analog_probes[1] = NULL;
- digital_probes[0] = NULL;
- digital_probes[1] = NULL;
- digital_probes[2] = NULL;
- digital_probes[3] = NULL;
-
- analog_probes_type[0] = 0xFF;
- analog_probes_type[1] = 0xFF;
- digital_probes_type[0] = 0xFF;
- digital_probes_type[1] = 0xFF;
- digital_probes_type[2] = 0xFF;
- digital_probes_type[3] = 0xFF;
- data = NULL;
-
- isTraceAllZero = true; // indicate trace are all zero
- }
-
- void ClearMemory(){
- if( data != NULL ) delete data;
-
- if( analog_probes[0] != NULL) delete analog_probes[0];
- if( analog_probes[1] != NULL) delete analog_probes[1];
-
- if( digital_probes[0] != NULL) delete digital_probes[0];
- if( digital_probes[1] != NULL) delete digital_probes[1];
- if( digital_probes[2] != NULL) delete digital_probes[2];
- if( digital_probes[3] != NULL) delete digital_probes[3];
-
- isTraceAllZero = true;
- }
-
- void SetDataType(unsigned int type, std::string dppType){
- dataType = type;
- DPPType = dppType;
- ClearMemory();
-
- if( dataType == DataFormat::Raw){
- data = new uint8_t[20*1024*1024];
- }else{
- analog_probes[0] = new int32_t[MaxTraceLenght];
- analog_probes[1] = new int32_t[MaxTraceLenght];
-
- digital_probes[0] = new uint8_t[MaxTraceLenght];
- digital_probes[1] = new uint8_t[MaxTraceLenght];
- digital_probes[2] = new uint8_t[MaxTraceLenght];
- digital_probes[3] = new uint8_t[MaxTraceLenght];
-
- isTraceAllZero = true;
-
- }
- }
-
- void ClearTrace(){
- if( isTraceAllZero ) return; // no need to clear again
-
- for( int i = 0; i < MaxTraceLenght; i++){
- analog_probes[0][i] = 0;
- analog_probes[1][i] = 0;
-
- digital_probes[0][i] = 0;
- digital_probes[1][i] = 0;
- digital_probes[2][i] = 0;
- digital_probes[3][i] = 0;
- }
- isTraceAllZero = true;
- }
-
- void PrintEnergyTimeStamp(){
- printf("ch: %2d, energy: %u, timestamp: %lu ch, traceLenght: %lu\n", channel, energy, timestamp, traceLenght);
- }
-
- std::string AnaProbeType(uint8_t probeType){
-
- if( DPPType == DPPType::PHA){
- switch(probeType){
- case 0: return "ADC";
- case 1: return "Time filter";
- case 2: return "Energy filter";
- default : return "none";
- }
- }else if (DPPType == DPPType::PSD){
- switch(probeType){
- case 0: return "ADC";
- case 9: return "Baseline";
- case 10: return "CFD";
- default : return "none";
- }
- }else{
- return "none";
- }
- }
-
- std::string DigiProbeType(uint8_t probeType){
-
- if( DPPType == DPPType::PHA){
- switch(probeType){
- case 0: return "Trigger";
- case 1: return "Time filter armed";
- case 2: return "Re-trigger guard";
- case 3: return "Energy filter baseline freeze";
- case 4: return "Energy filter peaking";
- case 5: return "Energy filter peaking ready";
- case 6: return "Energy filter pile-up guard";
- case 7: return "Event pile-up";
- case 8: return "ADC saturation";
- case 9: return "ADC saturation protection";
- case 10: return "Post-saturation event";
- case 11: return "Energy filter saturation";
- case 12: return "Signal inhibit";
- default : return "none";
- }
- }else if (DPPType == DPPType::PSD){
- switch(probeType){
- case 0: return "Trigger";
- case 1: return "CFD Filter Armed";
- case 2: return "Re-trigger guard";
- case 3: return "ADC Input Baseline freeze";
- case 20: return "ADC Input OverThreshold";
- case 21: return "Charge Ready";
- case 22: return "Long Gate";
- case 7: return "Pile-Up Trig.";
- case 24: return "Short Gate";
- case 25: return "Energy Saturation";
- case 26: return "Charge over-range";
- case 27: return "ADC Input Neg. OverThreshold";
- default : return "none";
- }
-
- }else{
- return "none";
- }
- }
-
- std::string HighPriority(uint16_t prio){
- std::string output;
-
- bool pileup = prio & 0x1;
- //bool pileupGuard = (prio >> 1) & 0x1;
- //bool eventSaturated = (prio >> 2) & 0x1;
- //bool postSatEvent = (prio >> 3) & 0x1;
- //bool trapSatEvent = (prio >> 4) & 0x1;
- //bool SCA_Event = (prio >> 5) & 0x1;
-
- output = std::string("Pile-up: ") + (pileup ? "Yes" : "No");
-
- return output;
- }
-
- //TODO LowPriority
-
- void PrintAll(){
-
- switch(dataType){
- case DataFormat::ALL : printf("============= Type : ALL\n"); break;
- case DataFormat::OneTrace : printf("============= Type : OneTrace\n"); break;
- case DataFormat::NoTrace : printf("============= Type : NoTrace\n"); break;
- case DataFormat::MiniWithFineTime : printf("============= Type : Min with FineTimestamp\n"); break;
- case DataFormat::Minimum : printf("============= Type : Minimum\n"); break;
- case DataFormat::Raw : printf("============= Type : Raw\n"); return; break;
- default : return;
- }
-
- printf("ch : %2d (0x%02X), fail: %d, flush: %d\n", channel, channel, board_fail, flush);
- if( DPPType == DPPType::PHA ) printf("energy: %u, timestamp: %lu, fine_timestamp: %u \n", energy, timestamp, fine_timestamp);
- if( DPPType == DPPType::PSD ) printf("energy: %u, energy_S : %u, timestamp: %lu, fine_timestamp: %u \n", energy, energy_short, timestamp, fine_timestamp);
- printf("flag (high): 0x%02X, (low): 0x%03X, traceLength: %lu\n", flags_high_priority, flags_low_priority, traceLenght);
- printf("Agg counter : %u, trigger Thr.: %u, downSampling: %u \n", aggCounter, trigger_threashold, downSampling);
- printf("AnaProbe Type: %s(%u), %s(%u)\n", AnaProbeType(analog_probes_type[0]).c_str(), analog_probes_type[0],
- AnaProbeType(analog_probes_type[1]).c_str(), analog_probes_type[1]);
- printf("DigProbe Type: %s(%u), %s(%u), %s(%u), %s(%u)\n", DigiProbeType(digital_probes_type[0]).c_str(), digital_probes_type[0],
- DigiProbeType(digital_probes_type[1]).c_str(), digital_probes_type[1],
- DigiProbeType(digital_probes_type[2]).c_str(), digital_probes_type[2],
- DigiProbeType(digital_probes_type[3]).c_str(), digital_probes_type[3]);
- }
-
- void PrintTrace(unsigned short ID){
- for(unsigned short i = 0; i < (unsigned short)traceLenght; i++){
- if( ID == 0 ) printf("%4d| %6d\n", i, analog_probes[0][i]);
- if( ID == 1 ) printf("%4d| %6d\n", i, analog_probes[1][i]);
- if( ID == 2 ) printf("%4d| %u\n", i, digital_probes[0][i]);
- if( ID == 3 ) printf("%4d| %u\n", i, digital_probes[1][i]);
- if( ID == 4 ) printf("%4d| %u\n", i, digital_probes[2][i]);
- if( ID == 5 ) printf("%4d| %u\n", i, digital_probes[3][i]);
- }
- }
-
- void PrintAllTrace(){
- for(unsigned short i = 0; i < (unsigned short)traceLenght; i++){
- printf("%4d| %6d %6d %1d %1d %1d %1d\n", i, analog_probes[0][i],
- analog_probes[1][i],
- digital_probes[0][i],
- digital_probes[1][i],
- digital_probes[2][i],
- digital_probes[3][i]);
- }
- }
-
-};
-
-#endif
\ No newline at end of file
diff --git a/Armory/Makefile b/Armory/Makefile
deleted file mode 100644
index 4de3a66..0000000
--- a/Armory/Makefile
+++ /dev/null
@@ -1,12 +0,0 @@
-CC=g++
-CFLAG= -g
-ROOTFLAG=`root-config --cflags --glibs`
-
-all: EventBuilder
-
-EventBuilder: EventBuilder.cpp SolReader.h Hit.h
- $(CC) $(CFLAG) EventBuilder.cpp -o EventBuilder ${ROOTFLAG}
-
-
-clean:
- -rm EventBuilder
\ No newline at end of file
diff --git a/Armory/SolReader.h b/Armory/SolReader.h
deleted file mode 100644
index 8761666..0000000
--- a/Armory/SolReader.h
+++ /dev/null
@@ -1,258 +0,0 @@
-#ifndef SOLREADER_H
-#define SOLREADER_H
-
-#include /// for FILE
-#include
-#include
-#include
-#include
-#include // time in nano-sec
-
-#include "Hit.h"
-
-class SolReader {
- private:
- FILE * inFile;
- unsigned int inFileSize;
- unsigned int filePos;
- unsigned int totNumBlock;
-
- unsigned short blockStartIdentifier;
- unsigned int numBlock;
- bool isScanned;
-
- void init();
-
- std::vector blockPos;
-
- public:
- SolReader();
- SolReader(std::string fileName, unsigned short dataType);
- ~SolReader();
-
- void OpenFile(std::string fileName);
- int ReadNextBlock(int isSkip = 0); // opt = 0, noraml, 1, fast
- int ReadBlock(unsigned int index, bool verbose = false);
-
- void ScanNumBlock();
-
- bool IsEndOfFile() const {return (filePos >= inFileSize ? true : false);}
- unsigned int GetBlockID() const {return numBlock - 1;}
- unsigned int GetNumBlock() const {return numBlock;}
- unsigned int GetTotalNumBlock() const {return totNumBlock;}
- unsigned int GetFilePos() const {return filePos;}
- unsigned int GetFileSize() const {return inFileSize;}
-
- void RewindFile();
-
- Hit * hit;
-
-};
-
-void SolReader::init(){
- inFileSize = 0;
- numBlock = 0;
- filePos = 0;
- totNumBlock = 0;
- hit = new Hit();
-
- isScanned = false;
-
- blockPos.clear();
-
-}
-
-SolReader::SolReader(){
- init();
-}
-
-SolReader::SolReader(std::string fileName, unsigned short dataType = 0){
- init();
- OpenFile(fileName);
- hit->SetDataType(dataType, DPPType::PHA);
-}
-
-SolReader::~SolReader(){
- if( !inFile ) fclose(inFile);
- delete hit;
-}
-
-inline void SolReader::OpenFile(std::string fileName){
- inFile = fopen(fileName.c_str(), "r");
- if( inFile == NULL ){
- printf("Cannot open file : %s \n", fileName.c_str());
- }else{
- fseek(inFile, 0L, SEEK_END);
- inFileSize = ftell(inFile);
- rewind(inFile);
- }
-}
-
-inline int SolReader::ReadBlock(unsigned int index, bool verbose){
- if( isScanned == false) return -1;
- if( index >= totNumBlock )return -1;
- fseek(inFile, 0L, SEEK_SET);
-
- if( verbose ) printf("Block index: %u, File Pos: %u byte\n", index, blockPos[index]);
-
- fseek(inFile, blockPos[index], SEEK_CUR);
-
- filePos = blockPos[index];
-
- numBlock = index;
-
- return ReadNextBlock();
-}
-
-inline int SolReader::ReadNextBlock(int isSkip){
- if( inFile == NULL ) return -1;
- if( feof(inFile) ) return -1;
- if( filePos >= inFileSize) return -1;
-
- fread(&blockStartIdentifier, 2, 1, inFile);
-
- if( (blockStartIdentifier & 0xAA00) != 0xAA00 ) {
- printf("header fail.\n");
- return -2 ;
- }
-
- if( ( blockStartIdentifier & 0xF ) == DataFormat::Raw ){
- hit->SetDataType(DataFormat::Raw, ((blockStartIdentifier >> 1) & 0xF) == 0 ? DPPType::PHA : DPPType::PSD);
- }
- hit->dataType = blockStartIdentifier & 0xF;
- hit->DPPType = ((blockStartIdentifier >> 4) & 0xF) == 0 ? DPPType::PHA : DPPType::PSD;
-
- if( hit->dataType == DataFormat::ALL){
- if( isSkip == 0 ){
- fread(&hit->channel, 1, 1, inFile);
- fread(&hit->energy, 2, 1, inFile);
- if( hit->DPPType == DPPType::PSD ) fread(&hit->energy_short, 2, 1, inFile);
- fread(&hit->timestamp, 6, 1, inFile);
- fread(&hit->fine_timestamp, 2, 1, inFile);
- fread(&hit->flags_high_priority, 1, 1, inFile);
- fread(&hit->flags_low_priority, 2, 1, inFile);
- fread(&hit->downSampling, 1, 1, inFile);
- fread(&hit->board_fail, 1, 1, inFile);
- fread(&hit->flush, 1, 1, inFile);
- fread(&hit->trigger_threashold, 2, 1, inFile);
- fread(&hit->event_size, 8, 1, inFile);
- fread(&hit->aggCounter, 4, 1, inFile);
- }else{
- fseek(inFile, hit->DPPType == DPPType::PHA ? 31 : 33, SEEK_CUR);
- }
- fread(&hit->traceLenght, 8, 1, inFile);
- if( isSkip == 0){
- fread(hit->analog_probes_type, 2, 1, inFile);
- fread(hit->digital_probes_type, 4, 1, inFile);
- fread(hit->analog_probes[0], hit->traceLenght*4, 1, inFile);
- fread(hit->analog_probes[1], hit->traceLenght*4, 1, inFile);
- fread(hit->digital_probes[0], hit->traceLenght, 1, inFile);
- fread(hit->digital_probes[1], hit->traceLenght, 1, inFile);
- fread(hit->digital_probes[2], hit->traceLenght, 1, inFile);
- fread(hit->digital_probes[3], hit->traceLenght, 1, inFile);
- }else{
- fseek(inFile, 6 + hit->traceLenght*(12), SEEK_CUR);
- }
-
- }else if( hit->dataType == DataFormat::OneTrace){
- if( isSkip == 0 ){
- fread(&hit->channel, 1, 1, inFile);
- fread(&hit->energy, 2, 1, inFile);
- if( hit->DPPType == DPPType::PSD ) fread(&hit->energy_short, 2, 1, inFile);
- fread(&hit->timestamp, 6, 1, inFile);
- fread(&hit->fine_timestamp, 2, 1, inFile);
- fread(&hit->flags_high_priority, 1, 1, inFile);
- fread(&hit->flags_low_priority, 2, 1, inFile);
- }else{
- fseek(inFile, hit->DPPType == DPPType::PHA ? 14 : 16, SEEK_CUR);
- }
- fread(&hit->traceLenght, 8, 1, inFile);
- if( isSkip == 0){
- fread(&hit->analog_probes_type[0], 1, 1, inFile);
- fread(hit->analog_probes[0], hit->traceLenght*4, 1, inFile);
- }else{
- fseek(inFile, 1 + hit->traceLenght*4, SEEK_CUR);
- }
-
- }else if( hit->dataType == DataFormat::NoTrace){
- if( isSkip == 0 ){
- fread(&hit->channel, 1, 1, inFile);
- fread(&hit->energy, 2, 1, inFile);
- if( hit->DPPType == DPPType::PSD ) fread(&hit->energy_short, 2, 1, inFile);
- fread(&hit->timestamp, 6, 1, inFile);
- fread(&hit->fine_timestamp, 2, 1, inFile);
- fread(&hit->flags_high_priority, 1, 1, inFile);
- fread(&hit->flags_low_priority, 2, 1, inFile);
- }else{
- fseek(inFile, hit->DPPType == DPPType::PHA ? 14 : 16, SEEK_CUR);
- }
-
- }else if( hit->dataType == DataFormat::MiniWithFineTime){
- if( isSkip == 0 ){
- fread(&hit->channel, 1, 1, inFile);
- fread(&hit->energy, 2, 1, inFile);
- if( hit->DPPType == DPPType::PSD ) fread(&hit->energy_short, 2, 1, inFile);
- fread(&hit->timestamp, 6, 1, inFile);
- fread(&hit->fine_timestamp, 2, 1, inFile);
- }else{
- fseek(inFile, hit->DPPType == DPPType::PHA ? 11 : 13, SEEK_CUR);
- }
-
- }else if( hit->dataType == DataFormat::Minimum){
- if( isSkip == 0 ){
- fread(&hit->channel, 1, 1, inFile);
- fread(&hit->energy, 2, 1, inFile);
- if( hit->DPPType == DPPType::PSD ) fread(&hit->energy_short, 2, 1, inFile);
- fread(&hit->timestamp, 6, 1, inFile);
- }else{
- fseek(inFile, hit->DPPType == DPPType::PHA ? 9 : 11, SEEK_CUR);
- }
-
- }else if( hit->dataType == DataFormat::Raw){
- fread(&hit->dataSize, 8, 1, inFile);
- if( isSkip == 0){
- fread(hit->data, hit->dataSize, 1, inFile);
- }else{
- fseek(inFile, hit->dataSize, SEEK_CUR);
- }
- }
-
- numBlock ++;
- filePos = ftell(inFile);
- return 0;
-}
-
-void SolReader::RewindFile(){
- rewind(inFile);
- filePos = 0;
- numBlock = 0;
-}
-
-void SolReader::ScanNumBlock(){
- if( inFile == NULL ) return;
- if( feof(inFile) ) return;
-
- numBlock = 0;
- blockPos.clear();
-
- blockPos.push_back(0);
-
- while( ReadNextBlock(1) == 0){
- blockPos.push_back(filePos);
- printf("%u, %.2f%% %u/%u\n\033[A\r", numBlock, filePos*100./inFileSize, filePos, inFileSize);
- }
-
- totNumBlock = numBlock;
- numBlock = 0;
- isScanned = true;
- printf("\nScan complete: number of data Block : %u\n", totNumBlock);
- rewind(inFile);
- filePos = 0;
-
- //for( int i = 0; i < totNumBlock; i++){
- // printf("%7d | %u \n", i, blockPos[i]);
- //}
-
-}
-
-#endif
\ No newline at end of file
diff --git a/WebSimHelper/files/.gitkeep b/WebSimHelper/files/.gitkeep
new file mode 100755
index 0000000..e69de29
diff --git a/WebSimHelper/heliosmatics.html b/WebSimHelper/heliosmatics.html
index 57774d5..b911c74 100644
--- a/WebSimHelper/heliosmatics.html
+++ b/WebSimHelper/heliosmatics.html
@@ -289,8 +289,130 @@
-
+
+ DWBA & Monte Carlo Simultion
+DWBA and Ex List:
+For 2-nucleon transfer , Orbital take the form NL=X, where N is number of node, X is momentum number. n and L are related by Σi (2ni +li ) = 2N + X + 2n + l, where ni and li are the principle number and orbital angular momentum of the each transfered nucleon, and n and l are the internal quanta of the 2-nucleon. e.g. (t,p) reaction to 0f orbtial, the left-hand side would be ni = 0 and li = 3 and the sum is 3+3 = 6 = 2N + X + 2n+l. Assume n = l = 0, we have 6 = 2N+L. Thus, 3L=0, 2L=2,1L=4, 0L=6.
+
+Beam Jπ :
+ TODO: guess the orbital for Beam Jπ =0
+
+ Positive parity
+ Negative parity
+ Unknown parity
+
+
+Add known states
+Max Ex: MeV
+
+
+
+
+
+
+ Cal. DWBA
+
+
+
+ Incoming Channel
+
+
+ D | An & Cai (2006) E < 183, 12 < A < 238
+ D | Han, Shi, & Shen (2006) E < 200, 12 < A < 209
+ D | Bojowald et al. (1988) 50 < E < 80, 27 < A < 208
+ D | Daehnick, Childs, Vrcelj (1980) 11.8 < E < 80, 27 < A < 238 (REL)
+ D | Daehnick, Childs, Vrcelj (1980) 11.8 < E < 80, 27 < A < 238 (NON-REL)
+ D | Lohr and Haeberli (1974) 9 < E < 13, 40 < A
+ D | Perey and Perey (1963) 12 < E < 25, 40 < A
+ D | Zhang, Pang, Lou (2016) 5 < E < 170, A < 18, spe 6-7Li
+ P | Koning & Delaroche (2009) E < 200, 24 < A < 209 | Iso.Dep.
+ P | Varner et al. (1991) 16 < E < 65, 4 < A < 209
+ P | Menet et al. (1971) 30 < E < 60, 40 < A
+ P | Becchetti and Greenlees (1969) E < 50, 40 < A
+ P | Perey (1963) E < 20, 30 < A < 100
+ A=3 | Xu, Guo, Han, & Shen (2011) E < 250, 20 < A < 209
+ A=3 | Liang, Li, & Cai (2009) E < 270, All masses
+ A=3 | Pang et al. (2009) all E, all masses, Iso. Dep.
+ A=3 | Li, Liang, Cai (2007), E < 40, 48 < A < 232, Tritons
+ A=3 | Trost et al. (1987) 10 < E < 220, 10 < A < 208
+ A=3 | Hyakutake et al. (1980) 90 < E < 120, About 58 < A < 92
+ A=3 | Becchetti and Greenlees (1971), E < 40, 40 < A, Iso. Dep.
+ A=4 | Su & Han (2015) E < 398, 20 < A < 209
+ A=4 | Avrigeanu et al. (2009)
+ A=4 | Bassani and Picard (1969) 24 < E < 31, A = 90
+
+
+
+
+ Outgoing Channel
+
+
+ D | An & Cai (2006) E < 183, 12 < A < 238
+ D | Han, Shi, & Shen (2006) E < 200, 12 < A < 209
+ D | Bojowald et al. (1988) 50 < E < 80, 27 < A < 208
+ D | Daehnick, Childs, Vrcelj (1980) 11.8 < E < 80, 27 < A < 238 (REL)
+ D | Daehnick, Childs, Vrcelj (1980) 11.8 < E < 80, 27 < A < 238 (NON-REL)
+ D | Lohr and Haeberli (1974) 9 < E < 13, 40 < A
+ D | Perey and Perey (1963) 12 < E < 25, 40 < A
+ D | Zhang, Pang, Lou (2016) 5 < E < 170, A < 18, spe 6-7Li
+ P | Koning & Delaroche (2009) E < 200, 24 < A < 209, Iso.Dep.
+ P | Varner et al. (1991) 16 < E < 65, 4 < A < 209
+ P | Menet et al. (1971) 30 < E < 60, 40 < A
+ P | Becchetti and Greenlees (1969) E < 50, 40 < A
+ P | Perey (1963) E < 20, 30 < A < 100
+ A=3 | Xu, Guo, Han, & Shen (2011) E < 250, 20 < A < 209
+ A=3 | Liang, Li, & Cai (2009) E < 270, All masses
+ A=3 | Pang et al. (2009) all E | all masses, Iso. Dep.
+ A=3 | Li, Liang, Cai (2007), E < 40, 48 < A < 232, Tritons
+ A=3 | Trost et al. (1987) 10 < E < 220, 10 < A < 208
+ A=3 | Hyakutake et al. (1980) 90 < E < 120, About 58 < A < 92
+ A=3 | Becchetti and Greenlees (1971), E < 40, 40 < A, Iso. Dep.
+ A=4 | Su & Han (2015) E < 398, 20 < A < 209
+ A=4 | Avrigeanu et al. (2009)
+ A=4 | Bassani and Picard (1969) 24 < E < 31, A = 90
+
+
+
+
+
+
+
+Run DWBA and Simulation
+
+
+
+
θCM Calculator
The calculation only give θCM after the bending.
@@ -323,94 +445,6 @@ The calculation only give θCM after the bending.
-
-
-
-
HELIOSmatics was first built by Ben P. Kay in MS Excel around 2010. It was modified by Ryan Tang later. And now it migrated to the web on Dec, 2022.
@@ -419,52 +453,11 @@ The calculation can be found in the source code (heliosmatics.js or press F12)
-
-