7,309 → 7,361 |
//#include "TROOT.h" |
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#include <stdio.h> |
#include <time.h> |
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#define DATA_PATH "./data/" |
#define CFRAC 0.4 |
#define DWIDTH 1024 |
void drs(int nev=1000, int updfrq=20, const char *FileName="drs000.dat", int trgch=0, int debug=0) |
#define NCH 4 |
#include "drs.h" |
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ClassImp (drs) |
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drs::drs( const char *FileName, int nch, DrsChannel* d, int trgch, int nev, int updfrq) |
{ |
int i,ich,iev; |
int stat; |
char histname[128]; |
int debug=0; |
int i,ich,iev; |
int stat; |
char histname[128]; |
// char FileName[300]="./data/n2.dat"; |
FILE *fin; |
FILE *fin; |
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char recid[5]="SAMO"; |
unsigned short *srecid = (unsigned short *) &recid[0]; |
char recid[5]="SAMO"; |
unsigned short *srecid = (unsigned short *) &recid[0]; |
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struct evrec { |
unsigned long evn; |
unsigned short tYear,tMonth,tDay,tHour,tMin,tSec,tmSec,rc; |
} evrec; |
struct evrec { |
unsigned long evn; |
unsigned short tYear,tMonth,tDay,tHour,tMin,tSec,tmSec,rc; |
} evrec; |
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float dtdata[4][DWIDTH]; |
float tcdata[4][DWIDTH]; |
float tccalib[4]; |
float scaler[4]; |
float *t; |
float *y; |
float *ay; |
float dtdata[NCH][DWIDTH]; |
float tcdata[NCH][DWIDTH]; |
float tccalib[NCH]; |
float scaler[NCH]; |
float *t; |
float *y; |
float *ay; |
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short lwfm[4]; |
int nwfm[4]; |
int board; |
int version; |
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short lwfm[NCH]; |
int nwfm[NCH]; |
int board; |
int version; |
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unsigned short ichdat[4][DWIDTH]; |
float chdat[4][DWIDTH]; |
float achdat[4][DWIDTH]; |
float chmax[4][2]; |
float chmin[4][2]; |
float letime[4][2],cftime[4][2],qdc[4]; |
// float threshold[4][2]={{0.,-0.02},{0.,0.},{0.,0.},{0.,-0.25}}; |
// float twin[4][2]={{120.,130.},{100.,150.},{100.,150.},{70.,90.}}; |
// float adcgate[4][2]={{124.,136.},{120.,140.},{120.,140.},{70.,90.}}; |
// float threshold[4][2]={{0.,-0.05},{0.,-0.05},{0.,-0.25},{0.,-0.25}}; |
// float twin[4][2]={{80.,100.},{80.,100.},{90.,110.},{50.,70.}}; |
// float adcgate[4][2]={{80.,110.},{80.,110.},{90.,110.},{50.,70.}}; |
float threshold[4][2]={{0.,-0.1 },{0.,-0.05 },{0.,-0.25 },{0.,-0.25}}; |
float twin[4][2] ={{100.,120.},{100.,120.},{40.,130. },{60.,80. }}; |
float adcgate[4][2] ={{105.,125.},{105.,125.},{110.,130.},{60.,80. }}; |
float vcut[4][2] ={{-1,1 },{-1,1 },{-1,1 },{-1,1 }}; |
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unsigned short ichdat[NCH][DWIDTH]; |
float chdat[NCH][DWIDTH]; |
float achdat[NCH][DWIDTH]; |
float chmax[NCH][2]; |
float chmin[NCH][2]; |
float letime[NCH],cftime[NCH],qdc[NCH]; |
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// gROOT->Reset(); |
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gStyle->SetOptStat(1111111); |
gStyle->SetOptStat(1111111); |
// gStyle->SetPalette(52); |
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TH1F *h1_chmax[4]; |
TH1F *h1_chmaxt[4]; |
TH1F *h1_chmin[4]; |
TH1F *h1_chmint[4]; |
TH1F *h1_letime[4][2]; |
TH1F *h1_cftime[4][2]; |
TH1F *h1_cftdif[4]; |
TH1F *h1_qdc[4]; |
TH2F *h2_dpo[4]; |
TH2F *h2_tdcadc[4]; |
TH2F *h2_ctdcadc[4]; |
TH2F *h2_ctalk; |
TGraph *gr_wfm[4]; |
TCanvas *c_wfm= new TCanvas("c_wfm","WFM",50,50,700,700); |
TLegend *leg = new TLegend(0.8, 0.8, 1, 1); |
c_wfm->Divide(1,1); |
c_wfm->cd(1); |
TH1F *h1_chmax[NCH]; |
TH1F *h1_chmaxt[NCH]; |
TH1F *h1_chmin[NCH]; |
TH1F *h1_chmint[NCH]; |
TH1F *h1_letime[NCH]; |
TH1F *h1_cftime[NCH]; |
TH1F *h1_cftdif[NCH]; |
TH1F *h1_qdc[NCH]; |
TH2F *h2_dpo[NCH]; |
TH2F *h2_tdcadc[NCH]; |
TH2F *h2_ctdcadc[NCH]; |
TH2F *h2_ctalk; |
TGraph *gr_wfm[NCH]; |
TCanvas *c_wfm= new TCanvas("c_wfm","WFM",50,50,700,700); |
TLegend *leg = new TLegend(0.8, 0.8, 1, 1); |
c_wfm->Divide(1,1); |
c_wfm->cd(1); |
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for (i=0;i<4;i++) { |
sprintf(histname,"chmax_%02d",i); |
h1_chmax[i]=new TH1F(histname,histname,1100,-0.55,0.55); |
sprintf(histname,"chmaxt_%02d",i); |
h1_chmaxt[i]=new TH1F(histname,histname,DWIDTH,-0.1,204.7); |
sprintf(histname,"chmin_%02d",i); |
h1_chmin[i]=new TH1F(histname,histname,1100,-0.55,0.55); |
sprintf(histname,"chmint_%02d",i); |
h1_chmint[i]=new TH1F(histname,histname,DWIDTH,-0.1,204.7); |
sprintf(histname,"letimep_%02d",i); |
h1_letime[i][0]=new TH1F(histname,histname,500,twin[i][0],twin[i][1]); |
sprintf(histname,"letimen_%02d",i); |
h1_letime[i][1]=new TH1F(histname,histname,500,twin[i][0],twin[i][1]); |
sprintf(histname,"cftimep_%02d",i); |
h1_cftime[i][0]=new TH1F(histname,histname,500,twin[i][0],twin[i][1]); |
sprintf(histname,"cftimen_%02d",i); |
h1_cftime[i][1]=new TH1F(histname,histname,500,twin[i][0],twin[i][1]); |
sprintf(histname,"cftdif_%02d",i); |
h1_cftdif[i]=new TH1F(histname,histname,2000,twin[i][0],twin[i][1]); |
sprintf(histname,"qdc_%02d",i); |
h1_qdc[i]=new TH1F(histname,histname,500,-0.1,4.9); |
sprintf(histname,"dpo_%02d",i); |
h2_dpo[i]=new TH2F(histname,histname,DWIDTH,-0.1,204.7,1100,-0.55,0.55); |
sprintf(histname,"tdcadc_%02d",i); |
h2_tdcadc[i]=new TH2F(histname,histname,250,0.,0.5,400,twin[i][0],twin[i][1]); |
sprintf(histname,"ctdcadc_%02d",i); |
h2_ctdcadc[i]=new TH2F(histname,histname,250,0.,0.5,400,twin[i][0],twin[i][1]); |
gr_wfm[i]=new TGraph(DWIDTH); |
gr_wfm[i]->SetMinimum(-0.55); |
gr_wfm[i]->SetMaximum(0.55); |
gr_wfm[i]->SetLineColor(i+1); |
gr_wfm[i]->SetMarkerColor(i+1); |
sprintf(histname,"ch %d",i); |
leg->AddEntry(gr_wfm[i], histname, "l"); |
if (i) gr_wfm[i]->Draw("LP"); else gr_wfm[i]->Draw("ALP"); |
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} |
leg->Draw(); |
h2_ctalk=new TH2F("ctalk","ctalk",250,0.,0.5,250,0.,0.5); |
for (i=0; i<nch; i++) { |
sprintf(histname,"chmax_%02d",i); |
h1_chmax[i]=new TH1F(histname,histname,1100,-0.55,0.55); |
sprintf(histname,"chmaxt_%02d",i); |
h1_chmaxt[i]=new TH1F(histname,histname,DWIDTH,-0.1,204.7); |
sprintf(histname,"chmin_%02d",i); |
h1_chmin[i]=new TH1F(histname,histname,1100,-0.55,0.55); |
sprintf(histname,"chmint_%02d",i); |
h1_chmint[i]=new TH1F(histname,histname,DWIDTH,-0.1,204.7); |
sprintf(histname,"letime_%02d",i); |
h1_letime[i]=new TH1F(histname,histname,500,d[i].twin[0],d[i].twin[1]); |
sprintf(histname,"cftime_%02d",i); |
h1_cftime[i]=new TH1F(histname,histname,500,d[i].twin[0],d[i].twin[1]); |
sprintf(histname,"cftdif_%02d",i); |
h1_cftdif[i]=new TH1F(histname,histname,2000,d[i].twin[0],d[i].twin[1]); |
sprintf(histname,"qdc_%02d",i); |
h1_qdc[i]=new TH1F(histname,histname,500,-0.1,4.9); |
sprintf(histname,"dpo_%02d",i); |
h2_dpo[i]=new TH2F(histname,histname,DWIDTH,-0.1,204.7,1100,-0.55,0.55); |
sprintf(histname,"tdcadc_%02d",i); |
h2_tdcadc[i]=new TH2F(histname,histname,250,0.,0.5,400,d[i].twin[0],d[i].twin[1]); |
sprintf(histname,"ctdcadc_%02d",i); |
h2_ctdcadc[i]=new TH2F(histname,histname,250,0.,0.5,400,d[i].twin[0],d[i].twin[1]); |
gr_wfm[i]=new TGraph(DWIDTH); |
gr_wfm[i]->SetMinimum(-0.55); |
gr_wfm[i]->SetMaximum(0.55); |
gr_wfm[i]->SetLineColor(i+1); |
gr_wfm[i]->SetMarkerColor(i+1); |
sprintf(histname,"ch %d",i); |
leg->AddEntry(gr_wfm[i], histname, "l"); |
if (i) gr_wfm[i]->Draw("LP"); else gr_wfm[i]->Draw("ALP"); |
gr_wfm[i]->GetHistogram()->SetTitle("WaveForms"); |
} |
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fin=fopen(FileName,"rb"); |
if (fin==NULL) { |
printf("Error opening file %s\n",FileName); |
return; |
} |
printf("%s, %lu\n",recid,sizeof(evrec)); |
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leg->Draw(); |
h2_ctalk=new TH2F("ctalk","ctalk",250,0.,0.5,250,0.,0.5); |
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for (ich=0;ich<4;ich++){ |
nwfm[ich]=0; |
for (i=0;i<DWIDTH;i++){ |
achdat[ich][i]=0; |
} |
} |
unsigned int trgcell = 0; |
int event = -1; |
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iev=0; |
while(!feof(fin)){ |
if (iev>=nev) break; |
stat=fread(recid,1,4,fin); |
if (debug){ |
if (recid[1]=='#') printf("%c%c%u\n",recid[0],recid[1],srecid[1]); |
else printf("%s\n",recid ); |
} |
switch (recid[0]){ |
case 'D': // DRS |
version = atoi(&recid[3]); |
break; |
case 'T': // TIME |
switch (recid[1]){ |
case 'I': |
event=0; |
if (version ==0) version++; |
break; |
case '#': trgcell = srecid[1]; break; |
} |
break; |
case 'B': |
board = srecid[1]; |
break; |
case 'C': |
sscanf(recid,"C%d",&ich); |
ich=ich-1; |
if (event) { |
if (version>1) stat=fread(&scaler[ich],1,sizeof(float),fin); |
stat=fread(ichdat[ich],1,sizeof(ichdat[ich]),fin); |
} else { |
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stat=fread(dtdata[ich],1,sizeof(float)*DWIDTH,fin); |
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} |
break; |
case 'E': |
stat=fread(&evrec.evn,1,sizeof(evrec),fin); |
iev++; |
if (!version) { |
stat=fread(dtdata[0],1,sizeof(float)*DWIDTH,fin); |
} |
event=1; |
break; |
default: |
printf("Unknown header! %s\n", recid); |
break; |
} |
fin=fopen(FileName,"rb"); |
if (fin==NULL) { |
printf("Error opening file %s\n",FileName); |
return; |
} |
printf("%s, %lu\n",recid,sizeof(evrec)); |
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if (recid[0] == 'E'){ |
for ( i=0;i<4;i++){ |
if (!lwfm[i]) continue; |
if ((chmin[i][0]>vcut[i][0])&&(chmin[i][0]<vcut[i][1])) { |
h1_cftdif[i]->Fill(cftime[i][1]-cftime[trgch][1]+110.); |
} |
for (ich=0; ich<nch; ich++) { |
nwfm[ich]=0; |
for (i=0; i<DWIDTH; i++) { |
achdat[ich][i]=0; |
} |
} |
unsigned int trgcell = 0; |
int event = -1; |
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iev=0; |
time_t t0,told; |
time(&t0); |
told=t0-1; |
while(!feof(fin)) { |
if (iev>=nev) break; |
stat=fread(recid,1,4,fin); |
if (debug) { |
if (recid[1]=='#') printf("%c%c%u\n",recid[0],recid[1],srecid[1]); |
else printf("%s\n",recid ); |
} |
switch (recid[0]) { |
case 'D': // DRS |
version = atoi(&recid[3]); |
break; |
case 'T': // TIME |
switch (recid[1]) { |
case 'I': |
event=0; |
if (version ==0) version++; |
break; |
case '#': trgcell = srecid[1]; break; |
} |
break; |
case 'B': |
board = srecid[1]; |
break; |
case 'C': |
sscanf(recid,"C%d",&ich); |
ich=ich-1; |
if (event) { |
if (version>1) stat=fread(&scaler[ich],1,sizeof(float),fin); |
stat=fread(ichdat[ich],1,sizeof(ichdat[ich]),fin); |
} else { |
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stat=fread(dtdata[ich],1,sizeof(float)*DWIDTH,fin); |
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} |
break; |
case 'E': |
stat=fread(&evrec.evn,1,sizeof(evrec),fin); |
iev++; |
if (!version) { |
stat=fread(dtdata[0],1,sizeof(float)*DWIDTH,fin); |
} |
event=1; |
break; |
default: |
printf("Unknown header! %s\n", recid); |
break; |
} |
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if (recid[0] == 'E') { |
for ( i=0; i<nch; i++) { |
if (!lwfm[i]) continue; |
if ((chmin[i][0]>d[i].vcut[0])&&(chmin[i][0]<d[i].vcut[1])) { |
h1_cftdif[i]->Fill(cftime[i]-cftime[trgch]+110.); |
} |
// h2_tdcadc[i]->Fill(-chmin[i][0],letime[i][1]-cftime[trgch][1]+72); |
// h2_ctdcadc[i]->Fill(-chmin[i][0],cftime[i][1]-cftime[trgch][1]+72); |
h2_tdcadc[i]->Fill(-chmin[0][0],letime[i][1]-cftime[trgch][1]+72); |
h2_ctdcadc[i]->Fill(-chmin[0][0],cftime[i][1]-cftime[trgch][1]+72); |
} |
h2_ctalk->Fill(-chmin[0][0],-chmin[1][0]); |
} |
if (event<1) continue; |
if (recid[0]!='C') continue; |
h2_tdcadc[i]->Fill(-chmin[0][0],letime[i]-cftime[trgch]+72); |
h2_ctdcadc[i]->Fill(-chmin[0][0],cftime[i]-cftime[trgch]+72); |
} |
h2_ctalk->Fill(-chmin[0][0],-chmin[1][0]); |
} |
if (event<1) continue; |
if (recid[0]!='C') continue; |
if (ich>=nch) continue; |
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lwfm[ich]=0; |
qdc[ich]=0; |
chmax[ich][0]=-1; chmax[ich][1]=-1; |
chmin[ich][0]=1; chmin[ich][1]=-1; |
letime[ich][0]=-1.; letime[ich][1]=-1.; |
cftime[ich][0]=-1.; cftime[ich][1]=-1.; |
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lwfm[ich]=0; |
qdc[ich]=0; |
chmax[ich][0]=-1; chmax[ich][1]=-1; |
chmin[ich][0]=1; chmin[ich][1]=-1; |
letime[ich]=-1.; letime[ich]=-1.; |
cftime[ich]=-1.; cftime[ich]=-1.; |
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lwfm[ich]=1; |
nwfm[ich]+=1; |
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t = &tcdata[ich][0]; |
y = &chdat[ich][0]; |
ay = &achdat[ich][0]; |
lwfm[ich]=1; |
nwfm[ich]+=1; |
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float sum=0; |
for (i=0;i<DWIDTH;i++) { |
sum+= dtdata[ich][(i+trgcell)%DWIDTH]; |
if (version) t[i]=sum; |
else t[i]=dtdata[0][i]; // old format |
} |
tccalib[ich]=t[(DWIDTH-trgcell)%DWIDTH]; |
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for (i=0;i<DWIDTH;i++) { |
if (version) t[i]-=(tccalib[ich]-tccalib[0]); // assume ich 0 is connected and always first in the data |
y[i]=-0.5+(float)ichdat[ich][i]/0xFFFF; |
if (version) y[i]+=evrec.rc; |
h2_dpo[ich]->Fill(t[i],y[i]); |
gr_wfm[ich]->SetPoint(i,t[i],y[i]+0.05*(ich-1)); |
} |
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for (i=0;i<DWIDTH;i++) { |
// accumulated waveforms |
ay[i]+=y[i]; |
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// signal minumum |
if (y[i]>chmax[ich][0]) { |
chmax[ich][0]=y[i]; |
chmax[ich][1]=t[i]; |
} |
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// signal maximum |
if (y[i]<chmin[ich][0]) { |
chmin[ich][0]=y[i]; |
chmin[ich][1]=t[i]; |
} |
float t0 = t[i]; |
float t0p = t[i+1]; |
float t0n = t[i-1]; |
// charge in the range |
if ((t0>adcgate[ich][0])&&(t0<adcgate[ich][1])) { |
qdc[ich]+=-y[i]*(t0p-t0n)/2; |
} |
} |
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for (i=1;i<DWIDTH-1;i++) { |
float t0 = t[i]; |
float t0p = t[i+1]; |
float t0n = t[i-1]; |
// leading edge in the range |
if ((t0>twin[ich][0])&&(t0<twin[ich][1])) { |
if ((y[i]<threshold[ich][1])&&(letime[ich][1]<0.)) { |
letime[ich][1]=t0n+(t0-t0n)*(threshold[ich][1]-y[i-1])/(y[i]-y[i-1]); |
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t = &tcdata[ich][0]; |
y = &chdat[ich][0]; |
ay = &achdat[ich][0]; |
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float sum=0; |
for (i=0; i<DWIDTH; i++) { |
sum+= dtdata[ich][(i+trgcell)%DWIDTH]; |
if (version) t[i]=sum; |
else t[i]=dtdata[0][i]; // old format |
} |
tccalib[ich]=t[(DWIDTH-trgcell)%DWIDTH]; |
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for (i=0; i<DWIDTH; i++) { |
if (version) t[i]-=(tccalib[ich]-tccalib[0]); // assume ich 0 is connected and always first in the data |
y[i]=-0.5+(float)ichdat[ich][i]/0xFFFF; |
if (version) y[i]+=evrec.rc; |
h2_dpo[ich]->Fill(t[i],y[i]); |
gr_wfm[ich]->SetPoint(i,t[i],y[i]+0.05*(ich-1)); |
} |
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for (i=0; i<DWIDTH; i++) { |
// accumulated waveforms |
ay[i]+=y[i]; |
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// signal minumum |
if (y[i]>chmax[ich][0]) { |
chmax[ich][0]=y[i]; |
chmax[ich][1]=t[i]; |
} |
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// signal maximum |
if (y[i]<chmin[ich][0]) { |
chmin[ich][0]=y[i]; |
chmin[ich][1]=t[i]; |
} |
float t0 = t[i]; |
float t0p = t[i+1]; |
float t0n = t[i-1]; |
// charge in the range |
if ((t0>d[ich].adcgate[0])&&(t0<d[ich].adcgate[1])) { |
qdc[ich]+=-y[i]*(t0p-t0n)/2; |
} |
} |
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for (i=1; i<DWIDTH-1; i++) { |
float t0 = t[i]; |
float t0p = t[i+1]; |
float t0n = t[i-1]; |
// leading edge in the range |
if ((t0>d[ich].twin[0])&&(t0<d[ich].twin[1])) { |
if ( ((!d[ich].edge)&&(y[i]<d[ich].threshold) || |
( d[ich].edge)&&(y[i]>d[ich].threshold ) ) |
&&(letime[ich]<0.)) { |
letime[ich]=t0n+(t0-t0n)*(d[ich].threshold-y[i-1])/(y[i]-y[i-1]); |
} |
// constant fraction time in the range |
if ( ( ((!d[ich].edge) && (chmin[ich][0]<d[ich].threshold)&&(y[i]<chmin[ich][0]*d[ich].cfrac)) || |
(( d[ich].edge) && (chmax[ich][0]>d[ich].threshold)&&(y[i]>chmax[ich][0]*d[ich].cfrac)) ) |
&&(cftime[ich]<0.) |
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) { |
cftime[ich]=t0n+(t0-t0n)*(chmin[ich][0]*d[ich].cfrac-y[i-1])/(y[i]-y[i-1]); |
} |
} |
} |
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if ((chmax[ich][1]>d[ich].twin[0])&&(chmax[ich][1]<d[ich].twin[1])) { |
h1_chmax[ich]->Fill(chmax[ich][0]); |
if (chmax[ich][0]>d[ich].threshold) h1_chmaxt[ich]->Fill(chmax[ich][1]); |
} |
if ((chmin[ich][1]>d[ich].twin[0])&&(chmin[ich][1]<d[ich].twin[1])) { |
h1_chmin[ich]->Fill(chmin[ich][0]); |
if (chmin[ich][0]<d[ich].threshold) h1_chmint[ich]->Fill(chmin[ich][1]); |
} |
h1_qdc[ich]->Fill(qdc[ich]); |
h1_letime[ich]->Fill(letime[ich]); |
h1_cftime[ich]->Fill(cftime[ich]); |
time(&t0); |
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if ((t0!=told) || ((updfrq>0)&&(!(iev%updfrq) ) ) ) { |
c_wfm->Update(); |
for (i=0; i<DWIDTH; i++) { |
ay[i]/=nwfm[ich]; |
gr_wfm[ich]->SetPoint(i,t[i],ay[i]+0.00*(ich-1)); |
} |
printf("processing event %d\n",iev); |
told=t0; |
} |
} |
// constant fraction time in the range |
if ((chmin[ich][0]<threshold[ich][1])&&(y[i]<chmin[ich][0]*CFRAC)&&(cftime[ich][1]<0.)) { |
cftime[ich][1]=t0n+(t0-t0n)*(chmin[ich][0]*CFRAC-y[i-1])/(y[i]-y[i-1]); |
} |
} |
} |
|
if ((chmax[ich][1]>twin[ich][0])&&(chmax[ich][1]<twin[ich][1])) { |
h1_chmax[ich]->Fill(chmax[ich][0]); |
if (chmax[ich][0]>threshold[ich][0]) h1_chmaxt[ich]->Fill(chmax[ich][1]); |
} |
if ((chmin[ich][1]>twin[ich][0])&&(chmin[ich][1]<twin[ich][1])) { |
h1_chmin[ich]->Fill(chmin[ich][0]); |
if (chmin[ich][0]<threshold[ich][1]) h1_chmint[ich]->Fill(chmin[ich][1]); |
} |
h1_qdc[ich]->Fill(qdc[ich]); |
h1_letime[ich][1]->Fill(letime[ich][1]); |
h1_cftime[ich][1]->Fill(cftime[ich][1]); |
|
if (!(iev%updfrq)) { |
c_wfm->Update(); |
for (i=0;i<DWIDTH;i++) { |
ay[i]/=nwfm[ich]; |
gr_wfm[ich]->SetPoint(i,t[i],ay[i]+0.05*(ich-1)); |
} |
printf("processing event %d\n",iev); |
} |
} |
printf("number of events: %d\n",iev); |
fclose(fin); |
|
printf("number of events: %d\n",iev); |
fclose(fin); |
TCanvas* c_dpo= new TCanvas("c_dpo","DPO",750,50,700,700); |
c_dpo->Divide(2,2); |
for (i=0; i<nch; i++) {c_dpo->cd(i+1); h2_dpo[i]->Draw("colz");} |
|
TCanvas* c_dpo= new TCanvas("c_dpo","DPO",750,50,700,700); |
c_dpo->Divide(2,2); |
for (i=0;i<4;i++) {c_dpo->cd(i+1);h2_dpo[i]->Draw("colz");} |
TCanvas* c_cftdif= new TCanvas("c_cftdif","DPO",750,50,700,700); |
c_cftdif->Divide(2,2); |
for (i=0; i<nch; i++) {c_cftdif->cd(i+1); h1_cftdif[i]->Draw();} |
return; |
} |
|
TCanvas* c_cftdif= new TCanvas("c_cftdif","DPO",750,50,700,700); |
c_cftdif->Divide(2,2); |
for (i=0;i<4;i++) {c_cftdif->cd(i+1);h1_cftdif[i]->Draw();} |
return; |
|
void drsana(int nev=1000, int updfrq=20, char *FileName="./data/x1.dat", int trgch=0){ |
|
// float threshold[nch][2]={{0.,-0.02},{0.,0.},{0.,0.},{0.,-0.25}}; |
// float twin[nch][2]={{120.,130.},{100.,150.},{100.,150.},{70.,90.}}; |
// float adcgate[nch][2]={{12nch.,136.},{120.,140.},{120.,140.},{70.,90.}}; |
// float threshold[4][2]={{0.,-0.05},{0.,-0.05},{0.,-0.25},{0.,-0.25}}; |
// float twin[4][2]={{80.,100.},{80.,100.},{90.,110.},{50.,70.}}; |
// float adcgate[4][2]={{80.,110.},{80.,110.},{90.,110.},{50.,70.}}; |
float threshold[4][2]={{0.,-0.05},{0.,-0.05},{0.,-0.25},{0.,-0.25}}; |
float twin[4][2]={{100.,120.},{100.,120.},{110.,130.},{60.,80.}}; |
float adcgate[4][2]={{105.,125.},{105.,125.},{110.,130.},{60.,80.}}; |
float vcut[4][2]={{-0.49,-0.07},{-1,1},{-1,1},{-1,1}}; |
int edge[4]={1,1,1,1};// 0 -- rising, 1 -- falling |
|
DrsChannel c[2]; |
|
c[0].cfrac = CFRAC; |
c[0].threshold = threshold[0][0]; |
c[0].twin[0] = twin[0][0]; |
c[0].twin[1] = twin[0][1]; |
|
c[0].adcgate[0] = adcgate[0][0]; |
c[0].adcgate[1] = adcgate[0][1]; |
|
c[0].vcut[0] = vcut[0][0]; |
c[0].vcut[1] = vcut[0][1]; |
|
c[0].edge = edge[0]; |
|
|
c[1].cfrac = CFRAC; |
c[1].threshold = threshold[1][0]; |
c[1].twin[0] = twin[1][0]; |
c[1].twin[1] = twin[1][1]; |
|
c[1].adcgate[0] = adcgate[1][0]; |
c[1].adcgate[1] = adcgate[1][1]; |
|
c[1].vcut[0] = vcut[1][0]; |
c[1].vcut[1] = vcut[1][1]; |
|
c[1].edge = edge[1]; |
drs * d = new drs(FileName, 2, c, trgch, nev, updfrq ); |
} |