WebSVN – f9daq – Blame – //cvi/apps/l2d2_easyroc/d2r.cpp

Rev	Author	Line No.	Line
291	f9daq	1	#include "stdio.h"
		2	#include "TROOT.h"
		3	#include "TSystem.h"
		4	#include "TFile.h"
		5	#include "TH1F.h"
		6	#include "TH2F.h"
		7	#include "TF1.h"
		8	#include "TMath.h"
		9	#include "TStyle.h"
		10	#include "TCanvas.h"
		11	#include "TLine.h"
		12
		13	//kobayashi
		14	#include "TTree.h"
		15
		16	//~ #define USE_ZLIB
		17	#ifdef USE_ZLIB
		18	# include "zlib.h"
		19	#endif
		20	// ------------------------------------------------------------------------------
		21
		22	#define POSMARG 1000
		23
		24	#define READBUFFERLENGTH 500000
		25
		26	// data format
		27	#define MAXDATA 64
		28	#define NCH 32
		29	#define ANALYSE_CH 32
		30	#define MPPC_1_CH 0
		31	#define MPPC_2_CH 1
		32	#define TRIGGER_CH 31
		33	//~ #define ANALYSE_CH 8
		34	//~ #define MPPC_1_CH 2
		35	//~ #define MPPC_2_CH 5
		36	#define REF_CH 0
		37	#define TDC_BIN (25./1000.) //1 TDC bin in ns
		38	#define MIKRO_BIN 0.3595/1000. //1 mikro step in mm
		39
		40	#define RUNREC_ID 1
		41	#define ENDREC_ID 2
		42	#define POSREC_ID 3
		43	#define EVTREC_ID 4
		44
		45	//define testpulse
		46	typedef struct {
		47	unsigned long id,len;
		48	unsigned long fver,time;
		49	unsigned long nev,nch,ped,xy;
		50	long nx,x0,dx,ny,y0,dy;
		51	} RUNREC;
		52	RUNREC *runrec;
		53	RUNREC run;
		54
		55	typedef struct {
		56	unsigned long id,len;
		57	unsigned long time;
		58	} ENDREC;
		59	ENDREC *endrec;
		60
		61	typedef struct {
		62	unsigned long id,len;
		63	unsigned long time;
		64	long ix,x,xset,iy,y,yset;
		65	} POSREC;
		66	POSREC *posrec;
		67	POSREC pos;
		68
		69	typedef struct {
		70	unsigned long id,len;
		71	unsigned long nev;
		72	unsigned short data[MAXDATA];
		73	} EVTREC;
		74	EVTREC *evtrec;
		75
		76	// ------------------------------------------------------------------------------
		77
		78	int d2r(char* dfile0="test", double qdcmi=0, double qdcma=4096, double tdcmi=-1.5, double tdcma=3, double adc_cor_min=200.0, double deltaT_ctdcdiff=0)
		79	{
		80	int dbg=0;
		81	printf(" dat 2 root conversion program\nUsage:\nd2r(input file -.dat, TDC min [ps], TDC max [ps], QDC min, QDC max)\n\n");
		82
		83	char fullname[256], sbuff[256];
		84	FILE *fp;
		85
		86	//Chanel information
		87	//~ int chmapx[NCH]={7,6,5,4,3,2,1,0};
		88	//~ int chmapx[NCH]={ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9,10,11,12,13,14,15,16,17,18,19};
		89	int chmapx[NCH]; for(int i=0; i<NCH; i++) {chmapx[i]=i;};
		90
		91	//~ double padcenter[NCH][2]={ {201000, 210000},
		92	//~ {183000, 210000},
		93	//~ {165000, 210000},
		94	//~ {147000, 210000},
		95	//~ {129000, 210000},
		96	//~ {111000, 210000},
		97	//~ { 93000, 210000},
		98	//~ { 75000, 210000} };
		99	//~ // double tdcoffset[NCH]={57.78, 57.28, 57.86, 57.64, 56.06, 56.46, 57.5, 57.41};
		100	//~ double tdcoffset[NCH]={2311TDC_BIN, 2291TDC_BIN, 2314TDC_BIN, 2306TDC_BIN,
		101	//~ 2242TDC_BIN, 2258TDC_BIN, 2300TDC_BIN, 2296TDC_BIN};
		102	double padcenter[NCH][2]; for(int i=0; i<NCH; i++) {padcenter[i][0]=0; padcenter[i][1]=0;};
		103	double tdcoffset[NCH]; for(int i=0; i<NCH; i++) {tdcoffset[i]=0;};
		104	sprintf(fullname, "d2r.ini");
		105	if( (fp=fopen(fullname, "rt")) == NULL )
		106	printf("Cannot open pad centers file %s !!!\n", fullname);
		107	else {
		108	printf("Opened pad centers file %s\n", fullname);
		109	fgets(sbuff,256, fp);printf("%s", sbuff);
		110	for(int i=0; i<NCH; i++)
		111	fscanf(fp, "%lf %lf %lf\n", &padcenter[i][0], &padcenter[i][1], &tdcoffset[i]);
		112	fclose(fp);
		113	}
		114	for(int i=0; i<NCH; i++) printf("%.2lf %.2lf %.2lf\n", padcenter[i][0], padcenter[i][1], tdcoffset[i]);
		115
		116	//TDC correction parameters
		117	//~ double corpar[NCH][3]={ {-0.8, 25, 0},
		118	//~ {-0.8, 25, 0},
		119	//~ {-0.8, 25, 0},
		120	//~ {-0.8, 25, 0},
		121	//~ {-0.8, 25, 0},
		122	//~ {-0.8, 25, 0},
		123	//~ {-0.8, 25, 0},
		124	//~ {-0.8, 25, 0} };
		125	double corpar[NCH][3]; for(int i=0; i<NCH; i++) {corpar[i][0]=0.0; corpar[i][1]=0.005; corpar[i][2]=0.0;};
		126	sprintf(fullname, "data/%s_cor.txt", dfile0);
		127	if( (fp=fopen(fullname, "rt")) == NULL )
		128	printf("Cannot open parameter file %s !!!\n", fullname);
		129	else {
		130	printf("Opened parameter file %s\n", fullname);
		131	for(int i=0; i<NCH; i++) {
		132	fscanf(fp, "%lf %lf %lf\n", &corpar[i][0], &corpar[i][1], &corpar[i][2]);
		133	/*// check if parameters make sense
		134	if( (corpar[i][0] < (tdcmi-0.2tdcmi)) \|\| ((tdcma+0.2tdcma) < corpar[i][0]) \|\|
		135	(corpar[i][1] < 0) \|\| (1e4*TDC_BIN < corpar[i][1]) \|\|
		136	(1e4 < TMath::Abs(corpar[i][2])) ) {
		137	printf("Warning: parameters for ch%d out of limits -> using default!\n", i);
		138	corpar[i][0]=2200TDC_BIN; corpar[i][1]=1000TDC_BIN; corpar[i][2]=-100*TDC_BIN;
		139	}*/
		140	}
		141	fclose(fp);
		142	}
		143	for(int i=0; i<NCH; i++) printf("%.2lf %.2lf %.2lf\n", corpar[i][0], corpar[i][1], corpar[i][2]);
		144
		145
		146	//histograms
		147	char hname[256], htitle[256];
		148	double adc,tdc;
		149	TH1F hadc[NCH], hadc_cut[NCH], *hadc_cut_2[NCH];
		150	TH1F htdc[NCH], htdc_cut[NCH], htdc_cut_2[NCH], hctdc[NCH];
		151	TH2F h2d[NCH], hcor[NCH];
		152	TH2F *hdiffcor[NCH][NCH];
		153	TH2F *hdiffcor_low[NCH][NCH];
		154	TH2F *hdiffcor_hi[NCH][NCH];
		155	TH2F *hadccor;
		156	TH2F *htdccor;
		157	TH2F hcoradctdc0, hcoradctdc1, hcoradctdc01, hcoradctdc11;
		158	TH1F htesttdc1, htesttdc2;
		159	TTree *ftt;
		160
		161	TH1F htdcdiff, htdcdiff_cut, *htdcdiff_cut_2;
		162
		163	double ref_cut_1_lo = qdcmi;
		164	double ref_cut_1_hi = qdcma;
		165	double ref_cut_2_lo = tdcmi;
		166	double ref_cut_2_hi = tdcma;
		167
		168	//kobayashi
		169	double t_adc0, t_tdc0, t_adc1, t_tdc1, t_ctdc;
		170
		171	//data buffer
		172	char readbuf[READBUFFERLENGTH];
		173	runrec = (RUNREC *) readbuf;
		174	endrec = (ENDREC *) readbuf;
		175	posrec = (POSREC *) readbuf;
		176	evtrec = (EVTREC *) readbuf;
		177
		178	//data file
		179	#ifdef USE_ZLIB
		180	gzFile dfp;
		181	#else
		182	FILE *dfp;
		183	#endif
		184	char dfile[256];
		185	int ftype=0, fcount=1;
		186	do {
		187	switch(ftype++) {
		188	case 0:
		189	sprintf(dfile, "data/%s_file%02d.dat", dfile0, fcount);
		190	break;
		191	case 1:
		192	sprintf(dfile, "data/%s_file%02d.dat.gz", dfile0, fcount);
		193	break;
		194	case 2:
		195	sprintf(dfile, "data/%s_file%02d.gz", dfile0, fcount);
		196	break;
		197	default:
		198	printf(" Cannot find data file for %s !!!\n", dfile0);
		199	return -1;
		200	}
		201	#ifdef USE_ZLIB
		202	dfp=gzopen(dfile,"rb");
		203	#else
		204	dfp=fopen(dfile,"rb");
		205	#endif
		206
		207	} while(!dfp);
		208	printf("Opened data file %s\n", dfile);
		209
		210	//opens ROOT file
		211	TFile *rootfile; char fnameroot[256];
		212	sprintf(fnameroot, "root/%s.root", dfile0);
		213	//rootfile = (TFile *) gROOT->FindObjectAny(dfile0);
		214	//if (rootfile!=NULL) {printf("!!!\n");rootfile->Close();}
		215	//rootfile = new TFile(fnameroot);
		216	//if(rootfile) rootfile->Close();
		217	rootfile = new TFile(fnameroot,"RECREATE",dfile0);
		218
		219	// -----------------------------------------------
		220	// loop trough records
		221	UInt_t rec_id, rec_len;
		222	unsigned ulsize = 4;
		223	int ceve=0;
		224	int end_of_file = 0;
		225
		226	while(1) {
		227	#ifdef USE_ZLIB
		228	if(gzeof(dfp)) end_of_file = 1;
		229	#else
		230	if(feof(dfp)) end_of_file = 1;
		231	#endif
		232
		233	#ifdef USE_ZLIB
		234	gzread(dfp, (voidp)&readbuf, 2*ulsize);
		235	#else
		236	fread( (void)&readbuf, 2ulsize, 1, dfp);
		237
		238	#endif
		239	rec_id=readbuf[0];
		240	rec_len=readbuf[ulsize];
		241	//kobayashi
		242	if(rec_id == 4) rec_len = 140;
		243
		244	//~ if(dbg) printf("-----------------------------------------------\n");
		245	//~ if(dbg) printf("[%d] rec_id = %d \| rec_len = %d\n", ceve, rec_id, rec_len);
		246
		247	//printf("[%d] rec_id = %d \| rec_len = %u\n", ceve, readbuf[0], readbuf[ulsize]);
		248	switch(rec_id)
		249	{
		250
		251	case RUNREC_ID:
		252	#ifdef USE_ZLIB
		253	gzread(dfp, (voidp)&readbuf[2ulsize], (rec_len-2ulsize));
		254	#else
		255	fread( (void)&readbuf[2ulsize], (rec_len-2*ulsize), 1, dfp);
		256	#endif
		257	run=*runrec;
		258
		259	if(dbg) {
		260	printf("RUNREC_ID\n");
		261	printf("id = %d, len = %d, time = %d\n", run.id, run.len, run.time);
		262	printf("nev = %d, nch = %d\n", run.nev, run.nch);
		263	printf("nx = %d, x0 = %d, dx = %d\n", run.nx, run.x0, run.dx);
		264	printf("ny = %d, y0 = %d, dy = %d\n", run.ny, run.y0, run.dy);
		265
		266	//~ break;
		267	}
		268
		269	//create histograms
		270
		271	sprintf(hname, "htdcdiff");
		272	htdcdiff = (TH1F*)gROOT->FindObject(hname);
		273	if(htdcdiff) delete htdcdiff;
		274	htdcdiff = new TH1F(hname, hname, 4096, -2048.5TDC_BIN, 2047.5TDC_BIN);
		275	//~ htdcdiff = new TH1F(hname, hname, 4096, -0.5TDC_BIN, 4095.5TDC_BIN);
		276
		277	sprintf(hname, "htdcdiff_cut");
		278	htdcdiff_cut = (TH1F*)gROOT->FindObject(hname);
		279	if(htdcdiff_cut) delete htdcdiff_cut;
		280	//~ htdcdiff_cut = new TH1F(hname, hname, 4096, -2048.5TDC_BIN, 2047.5TDC_BIN);
		281	htdcdiff_cut = new TH1F(hname, hname, 4096, -2048.5TDC_BIN, 2047.5TDC_BIN);
		282	//kobayashi
		283	//~ htdcdiff_cut = new TH1F(hname, hname, 4096, -0.5TDC_BIN, 4095.5TDC_BIN);
		284
		285	sprintf(hname, "htdcdiff_cut_2");
		286	htdcdiff_cut_2 = (TH1F*)gROOT->FindObject(hname);
		287	if(htdcdiff_cut_2) delete htdcdiff_cut_2;
		288	htdcdiff_cut_2 = new TH1F(hname, hname, 4096, -2048.5TDC_BIN, 2047.5TDC_BIN);
		289	//~ htdcdiff_cut_2 = new TH1F(hname, hname, 4096, -0.5TDC_BIN, 4095.5TDC_BIN);
		290
		291	sprintf(hname, "hadccor");
		292	hadccor = (TH2F*)gROOT->FindObject(hname);
		293	if(hadccor) delete hadccor;
		294	//~ hadccor = new TH2F(hname, hname, 256, 0, 4096, 256, 0, 4096);
		295	hadccor = new TH2F(hname, hname, 256, 0, 4096, 256, -32768.5TDC_BIN, 32767.5TDC_BIN);
		296
		297	sprintf(hname, "htdccor");
		298	htdccor = (TH2F*)gROOT->FindObject(hname);
		299	if(htdccor) delete hadccor;
		300	//~ htdccor = new TH2F(hname, hname, 512, 0, 1024TDC_BIN, 512, 0, 1024TDC_BIN);
		301	htdccor = new TH2F(hname, hname, 512, 1024TDC_BIN, 2048TDC_BIN, 512, 1024TDC_BIN, 2048TDC_BIN);
		302	//~ htdccor = new TH2F(hname, hname, 512, 0, 2048TDC_BIN, 512, 0, 2048TDC_BIN);
		303	//~ htdccor = new TH2F(hname, hname, 1120+1, 15.985, 27.035, 340+1, 15.990,19.015);
		304	//~ htdccor = new TH2F(hname, hname, 512, 0, 2047.5TDC_BIN, 340+1, 15.990,19.015);
		305
		306	//kobayashi
		307	sprintf(hname, "hcoradctdc0");
		308	hcoradctdc0 = (TH2F*)gROOT->FindObject(hname);
		309	hcoradctdc0 = new TH2F(hname,hname,2000,0,2000,800,-10,10);
		310	sprintf(hname, "hcoradctdc1");
		311	hcoradctdc1 = (TH2F*)gROOT->FindObject(hname);
		312	hcoradctdc1 = new TH2F(hname,hname,2000,0,2000,800,-10,10);
		313	ftt = (TTree*)gROOT->FindObject("ftt");
		314	if(ftt) delete ftt;
		315	ftt = new TTree("ftt","ftt");
		316	ftt->Branch("t_adc0",&t_adc0,"t_adc0/D");
		317	ftt->Branch("t_adc1",&t_adc1,"t_adc1/D");
		318	ftt->Branch("t_tdc0",&t_tdc0,"t_tdc0/D");
		319	ftt->Branch("t_tdc1",&t_tdc1,"t_tdc1/D");
		320	ftt->Branch("t_ctdc",&t_ctdc,"t_ctdc/D");
		321	#ifdef testpulse
		322	sprintf(hname, "htesttdc1");
		323	htesttdc1 = (TH1F*)gROOT->FindObject(hname);
		324	if(htesttdc1) delete htesttdc1;
		325	htesttdc1 = new TH1F(hname, hname, 65536, -0.5TDC_BIN, 65535.5TDC_BIN);
		326	sprintf(hname, "htesttdc2");
		327	htesttdc2 = (TH1F*)gROOT->FindObject(hname);
		328	if(htesttdc2) delete htesttdc2;
		329	htesttdc2 = new TH1F(hname, hname, 65536, -0.5TDC_BIN, 65535.5TDC_BIN);
		330	#endif
		331
		332	for(int i=0; i<ANALYSE_CH; i++) {
		333	sprintf(hname, "hadc%d", i);
		334	hadc[i] = (TH1F*)gROOT->FindObject(hname);
		335	if(hadc[i]) delete hadc[i];
		336	hadc[i] = new TH1F(hname, hname, 4096, -0.5, 4095.5);
		337
		338	sprintf(hname, "hadc_cut%d", i);
		339	hadc_cut[i] = (TH1F*)gROOT->FindObject(hname);
		340	if(hadc_cut[i]) delete hadc_cut[i];
		341	hadc_cut[i] = new TH1F(hname, hname, 4096, -0.5, 4095.5);
		342
		343	sprintf(hname, "hadc_cut_2%d", i);
		344	hadc_cut_2[i] = (TH1F*)gROOT->FindObject(hname);
		345	if(hadc_cut_2[i]) delete hadc_cut_2[i];
		346	hadc_cut_2[i] = new TH1F(hname, hname, 4096, -0.5, 4095.5);
		347
		348	sprintf(hname, "htdc%d", i);
		349	htdc[i] = (TH1F*)gROOT->FindObject(hname);
		350	if(htdc[i]) delete htdc[i];
		351	//~ htdc[i] = new TH1F(hname, hname, 4096, -2048.5TDC_BIN, 2047.5TDC_BIN);
		352	//~ htdc[i] = new TH1F(hname, hname, 4096, -0.5TDC_BIN, 4095.5TDC_BIN); //original
		353	//~ htdc[i] = new TH1F(hname, hname, 65536/2, -0.5TDC_BIN, 65535.5TDC_BIN); //koba
		354	//~ htdc[i] = new TH1F(hname, hname, 65536/2, -32768.5TDC_BIN, 32767.5TDC_BIN); //koba
		355	htdc[i] = new TH1F(hname, hname, 65536, -32768.5TDC_BIN, 32767.5TDC_BIN);
		356	//~ htdc[i] = new TH1F(hname, hname, 65536, -0.5TDC_BIN, 65535.5TDC_BIN);
		357
		358	sprintf(hname, "htdc_cut%d", i);
		359	htdc_cut[i] = (TH1F*)gROOT->FindObject(hname);
		360	if(htdc_cut[i]) delete htdc_cut[i];
		361	//~ htdc_cut[i] = new TH1F(hname, hname, 4096, -2048.5TDC_BIN, 2047.5TDC_BIN);
		362	//~ htdc_cut[i] = new TH1F(hname, hname, 4096, -0.5TDC_BIN, 4095.5TDC_BIN);//original
		363	//~ htdc_cut[i] = new TH1F(hname, hname, 65536/2, -0.5TDC_BIN, 65535.5TDC_BIN); //koba
		364	htdc_cut[i] = new TH1F(hname, hname, 65536/2, -32768.5TDC_BIN, 32767.5TDC_BIN); //koba
		365	//~ htdc_cut[i] = new TH1F(hname, hname, 65536, -32768.5TDC_BIN, 32767.5TDC_BIN);
		366
		367	sprintf(hname, "htdc_cut_2%d", i);
		368	htdc_cut_2[i] = (TH1F*)gROOT->FindObject(hname);
		369	if(htdc_cut_2[i]) delete htdc_cut_2[i];
		370	//~ htdc_cut_2[i] = new TH1F(hname, hname, 4096, -2048.5TDC_BIN, 2047.5TDC_BIN);
		371	//~ htdc_cut_2[i] = new TH1F(hname, hname, 4096, -0.5TDC_BIN, 4095.5TDC_BIN);//original
		372	htdc_cut_2[i] = new TH1F(hname, hname, 65536, -0.5TDC_BIN, 65535.5TDC_BIN); //koba
		373
		374	sprintf(hname, "hctdc%d", i);
		375	hctdc[i] = (TH1F*)gROOT->FindObject(hname);
		376	if(hctdc[i]) delete hctdc[i];
		377	//~ hctdc[i] = new TH1F(hname, hname, 4096, -2048.5TDC_BIN, 2047.5TDC_BIN);
		378	//~ hctdc[i] = new TH1F(hname, hname, 65536/2, -32768.5TDC_BIN, 32767.5TDC_BIN);
		379	hctdc[i] = new TH1F(hname, hname, 65536, -32768.5TDC_BIN, 32767.5TDC_BIN);
		380
		381	sprintf(hname, "h2d%d", i);
		382	h2d[i] = (TH2F*)gROOT->FindObject(hname);
		383	if(h2d[i]) delete h2d[i];
		384	h2d[i] = new TH2F(hname, hname, run.nx, (run.x0-0.5run.dx)MIKRO_BIN, (run.x0+(run.nx-0.5)run.dx)MIKRO_BIN,
		385	run.ny, (run.y0-0.5run.dy)MIKRO_BIN, (run.y0+(run.ny-0.5)run.dy)MIKRO_BIN);
		386
		387	sprintf(hname, "hcor%d", i);
		388	hcor[i] = (TH2F*)gROOT->FindObject(hname);
		389	if(hcor[i]) delete hcor[i];
		390	//~ hcor[i] = new TH2F(hname, hname, 256, 0-0.5, 1024-0.5, 200, 10-(TDC_BIN/2), 20-(TDC_BIN/2));
		391	//~ hcor[i] = new TH2F(hname, hname, 512, 0-0.5, 1024-0.5, 4096, -32768.5TDC_BIN, 32767.5TDC_BIN);
		392	//~ hcor[i] = new TH2F(hname, hname, 256, 0-0.5, 512-0.5, 160, -2-(TDC_BIN/2), 2-(TDC_BIN/2));
		393	hcor[i] = new TH2F(hname, hname, 512, 0-0.5, 1024-0.5, 160, -1.5-(TDC_BIN/2), 2.5-(TDC_BIN/2));
		394
		395
		396	for(int j=0; j<ANALYSE_CH; j++) {
		397	sprintf(hname, "hdiffcor_%d_%d",i,j);
		398	sprintf(htitle, "ch.%d - ch.%d",i,j);
		399	hdiffcor[i][j] = (TH2F*)gROOT->FindObject(hname);
		400	if(hdiffcor[i][j]) delete hdiffcor[i][j];
		401	hdiffcor[i][j] = new TH2F(hname, htitle, 256, 0-0.5, 1024-0.5, 128, -6.4-(TDC_BIN/2), 6.4-(TDC_BIN/2));
		402
		403	sprintf(hname, "hdiffcor_low_%d_%d",i,j);
		404	sprintf(htitle, "ch.%d - ch.%d",i,j);
		405	hdiffcor_low[i][j] = (TH2F*)gROOT->FindObject(hname);
		406	if(hdiffcor_low[i][j]) delete hdiffcor_low[i][j];
		407	hdiffcor_low[i][j] = new TH2F(hname, htitle, 256, 0-0.5, 512-0.5, 128, -6.4-(TDC_BIN/2), 6.4-(TDC_BIN/2));
		408
		409	sprintf(hname, "hdiffcor_hi_%d_%d",i,j);
		410	sprintf(htitle, "ch.%d - ch.%d",i,j);
		411	hdiffcor_hi[i][j] = (TH2F*)gROOT->FindObject(hname);
		412	if(hdiffcor_hi[i][j]) delete hdiffcor_hi[i][j];
		413	hdiffcor_hi[i][j] = new TH2F(hname, htitle, 256, 0-0.5, 2048-0.5, 128, -6.4-(TDC_BIN/2), 6.4-(TDC_BIN/2));
		414	}
		415	}
		416
		417	break;
		418
		419	case POSREC_ID:
		420	#ifdef USE_ZLIB
		421	gzread(dfp, (voidp)&readbuf[2ulsize], (rec_len-2ulsize));
		422	#else
		423	fread( (void)&readbuf[2ulsize], (rec_len-2*ulsize), 1, dfp);
		424	#endif
		425
		426	pos=*posrec;
		427
		428	if(dbg) {
		429	printf("POSREC_ID\n");
		430	printf("id = %d, len = %d, time = %d\n", posrec->id, posrec->len, posrec->time);
		431	printf("ix = %d, x = %d, xset = %d\n", posrec->ix, posrec->x, posrec->xset);
		432	printf("iy = %d, y = %d, yset = %d\n", posrec->iy, posrec->y, posrec->yset);
		433	} else printf(" [%d,%d] %d, %d\n", pos.ix, pos.iy, pos.xset, pos.yset);
		434
		435	break;
		436
		437	case EVTREC_ID:
		438	#ifdef USE_ZLIB
		439	gzread(dfp, (voidp)&readbuf[2ulsize], (rec_len-2ulsize));
		440	#else
		441	fread( (void)&readbuf[2ulsize], (rec_len-2*ulsize), 1, dfp);
		442	#endif
		443
		444
		445	if(dbg) {
		446	//~ printf("EVTREC_ID\n");
		447	//~ printf("id = %d, len = %d, nev = %d\n", evtrec->id, evtrec->len, evtrec->nev);
		448	//for(int datai = 0; datai < NCH; datai++) printf("%u ", evtrec->data[datai]);
		449	//printf("\n");
		450	//for(int datai = NCH; datai < NCH+NCH; datai++) printf("%u ", evtrec->data[datai]);
		451	//printf("\n");
		452	//break;
		453	}
		454	// events ------------------------------------------------------------------------------------------
		455	// fill histograms
		456
		457	double tdc_noise_cut;
		458	//~ double adc_cor_min;
		459	double tdca[ANALYSE_CH];
		460	double ctdca[ANALYSE_CH];
		461	double adca[ANALYSE_CH];
		462	double ctdcdiff, tdcdiff;
		463
		464
		465	tdc_noise_cut = 5.0;
		466	//~ adc_cor_min = 200.0;
		467
		468	for(int i=0; i<ANALYSE_CH; i++) {
		469	tdc=((double)evtrec->data[i])*TDC_BIN + tdcoffset[i];
		470	//~ tdc=((double)evtrec->data[i])*TDC_BIN;
		471
		472	adc=(double)evtrec->data[i+NCH];
		473	//~ if(i==15) printf("aaaaaaaaaaa15 norma %f\n",tdc);
		474	tdca[i]=tdc;
		475	adca[i]=adc;
		476
		477	//~ if(ceve < 100) {
		478	//~ printf("[%3d] tdc[%2d] = %lf \| adc[%2d] = %lf\n", ceve, i, tdc, i, adc);
		479	//~ }
		480	}
		481	for(int i=0; i<ANALYSE_CH; i++) {
		482	if(0 < adca[i]) hadc[i]->Fill(adca[i]);
		483	//~ if( (qdcmi < adca[i]) && (adca[i] < qdcma) )
		484	if(0 < tdca[i]) htdc[i]->Fill(tdca[i]-tdca[TRIGGER_CH]);
		485	//~ if(0 < tdca[i]) htdc[i]->Fill(tdca[i]);
		486	hcor[i]->Fill(adca[i],tdca[i]-tdca[TRIGGER_CH]);
		487
		488	if(adca[i] > corpar[i][2]) {
		489	ctdca[i] = tdca[i]-tdca[TRIGGER_CH] - (corpar[i][0] + corpar[i][1]/TMath::Sqrt(adca[i] - corpar[i][2]));
		490	} else {
		491	ctdca[i] = -999.9*(i+1);
		492	}
		493	//~ if(tdc_noise_cut < tdca[i])
		494	double adc_max_cut = 1000;
		495	if(adca[i] < adc_max_cut)
		496	hctdc[i]->Fill( ctdca[i] );
		497
		498	//~ if(dbg && (i<4) && (1 < tdca[0] && (1 < tdca[1]))) printf("tdca[%d] = %lf \| tdca[TRG] = %lf \| ctdca[i] = %lf \| adca[i] = %lf\n", i, tdca[i],tdca[TRIGGER_CH],ctdca[i],adca[i]);
		499	if(dbg && (i<4) ) printf("[%4d] tdca[%d] = %lf \| tdca[TRG] = %lf \| ctdca[i] = %lf \| adca[i] = %lf\n", ceve, i, tdca[i],tdca[TRIGGER_CH],ctdca[i],adca[i]);
		500
		501	if( (qdcmi < adca[i]) && (adca[i] < qdcma) && (tdcmi < tdca[i]) && (tdca[i] < tdcma)) {
		502	h2d[i]->Fill(pos.xsetMIKRO_BIN, pos.ysetMIKRO_BIN);
		503	}
		504	}
		505
		506	//~ printf("aaaaaaaaaaa15 %f\n",((double)evtrec->data[15])); printf("aaaaaaaaaaa15 %f\n",((double)evtrec->data[15])*TDC_BIN);
		507	//~ printf("aaaaaaaaaaa30 %d\n",evtrec->data[30]);
		508	//~ printf("aaaaaaaaaaa31 %d\n",evtrec->data[31]);
		509	//~ printf("aaaaaaaaaaa15 %f\n",tdca[15]);
		510	//~ printf("aaaaaaaaaaa30 %d\n",tdca[30]);
		511	//~ printf("aaaaaaaaaaa31 %d\n",tdca[31]);
		512	//~
		513	//kobayashi
		514	ctdcdiff = ctdca[MPPC_2_CH] - ctdca[MPPC_1_CH] +deltaT_ctdcdiff;
		515	tdcdiff = tdca[MPPC_2_CH] - tdca[MPPC_1_CH];
		516	t_ctdc = ctdcdiff;
		517	t_tdc0=tdca[0];
		518	t_tdc1=tdca[1];
		519	t_adc0=adca[15];
		520	t_adc1=adca[1];
		521
		522	hcoradctdc0->Fill(adca[0],ctdcdiff);
		523	hcoradctdc1->Fill(adca[1],ctdcdiff);
		524	ftt->Fill();
		525	#ifdef testpulse
		526	htesttdc1->Fill(tdca[16]-tdca[14]);
		527	htesttdc2->Fill(tdca[14]-tdca[15]);
		528	#endif
		529
		530	//cut za timing:
		531	#define CUT_1_CONDITION ( (qdcmi < adca[MPPC_1_CH]) && (adca[MPPC_1_CH] < qdcma) && (tdcmi < adca[MPPC_2_CH]) && (adca[MPPC_2_CH] < tdcma) )
		532	//~ // cut za meritev efficiency:
		533	//~ #define CUT_1_CONDITION ( (qdcmi < adca[MPPC_1_CH]) && (adca[MPPC_1_CH] < qdcma) )
		534
		535	//~ #define CUT_1_CONDITION ( (tdcmi < ctdcdiff) && (ctdcdiff < tdcma) )
		536	//~ #define CUT_1_CONDITION ( (ref_cut_1_lo < adca[MPPC_1_CH]) && (adca[MPPC_1_CH] < ref_cut_1_hi) )
		537	//~ #define CUT_1_CONDITION ( (qdcmi < tdca[MPPC_1_CH]) && (tdca[MPPC_1_CH] < qdcma) )
		538	//~ #define CUT_1_CONDITION ( (ref_cut_1_lo < adca[REF_CH]) && (adca[REF_CH] < ref_cut_1_hi) && (ref_cut_1_lo < adca[MPPC_1_CH]) && (adca[MPPC_1_CH] < ref_cut_1_hi) )
		539
		540
		541	// cut za meritev efficiency:
		542	#define CUT_2_CONDITION ( (tdcmi < adca[REF_CH]) && (adca[REF_CH] < tdcma) )
		543	//~ #define CUT_2_CONDITION ( (qdcmi < adca[MPPC_1_CH]) && (adca[MPPC_1_CH] < qdcma) && (tdcmi < adca[REF_CH]) && (adca[REF_CH] < tdcma) )
		544	//~ #define CUT_2_CONDITION ( (ref_cut_1_lo < tdca[MPPC_1_CH]) && (tdca[MPPC_1_CH] < ref_cut_1_hi) )
		545	//~ #define CUT_2_CONDITION ( (qdcmi < adca[REF_CH]) && (adca[REF_CH] < qdcma) && (tdcmi < tdca[REF_CH]) && (tdca[REF_CH] < tdcma) )
		546	//~ #define CUT_2_CONDITION ( (ref_cut_1_lo < adca[MPPC_1_CH]) && (adca[MPPC_1_CH] < ref_cut_1_hi) && (ref_cut_2_lo < adca[MPPC_2_CH]) && (adca[MPPC_2_CH] < ref_cut_2_hi) )
		547	//~ #define CUT_2_CONDITION ( (ref_cut_2_lo < adca[REF_CH]) && (adca[REF_CH] < ref_cut_2_hi) )
		548	//~ #define CUT_2_CONDITION ( (ref_cut_1_lo < tdca[MPPC_1_CH]) && (tdca[MPPC_1_CH] < ref_cut_1_hi) && (ref_cut_2_lo < tdca[MPPC_2_CH]) && (tdca[MPPC_2_CH] < ref_cut_2_hi) )
		549	//~ #define CUT_2_CONDITION ( (ref_cut_2_lo < tdca[REF_CH]) && (tdca[REF_CH] < ref_cut_2_hi) && (ref_cut_2_lo < tdca[MPPC_1_CH]) && (tdca[MPPC_1_CH] < ref_cut_2_hi) )
		550
		551
		552	if( (tdc_noise_cut < tdca[MPPC_1_CH]) && (tdc_noise_cut < tdca[MPPC_2_CH])) {
		553	//~ if( (qdcmi < adca[MPPC_1_CH]) && (tdcmi < adca[MPPC_2_CH]) )
		554	htdcdiff->Fill(ctdcdiff);
		555
		556	if( CUT_1_CONDITION ) {
		557	htdcdiff_cut->Fill(ctdcdiff);
		558	//~ htdcdiff_cut->Fill(tdcdiff);
		559	}
		560	if( CUT_2_CONDITION ) {
		561	htdcdiff_cut_2->Fill(ctdcdiff);
		562	}
		563	}
		564
		565	for(int i=0; i<ANALYSE_CH; i++) {
		566
		567	//~ if( CUT_1_CONDITION ) {
		568	//~ if( ( (qdcmi < adca[REF_CH]) && (adca[REF_CH] < qdcma) ) ) {
		569	//~ if( ( (-2 < ctdca[0]) && (ctdca[0] < 2) ) ) {
		570	//~ htdc_cut[i]->Fill(tdca[i]-tdca[31]);
		571	//~ htdc_cut[i]->Fill(ctdca[i]);
		572	//~ hadc_cut[i]->Fill(adca[i]);
		573	//~ }
		574	if( (qdcmi < adca[i]) && (adca[i] < qdcma) && (adca[i] > corpar[i][2]) )
		575	htdc_cut[i]->Fill(ctdca[i]);
		576	if( (tdcmi < ctdca[i]) && (ctdca[i] < tdcma) )
		577	hadc_cut[i]->Fill(adca[i]);
		578
		579	if( CUT_2_CONDITION ) {
		580	htdc_cut_2[i]->Fill(tdca[i]);
		581	hadc_cut_2[i]->Fill(adca[i]);
		582	hadc_cut_2[i]->Fill(adca[i]);
		583	}
		584	}
		585
		586	//~ hadccor->Fill(adca[REF_CH], adca[MPPC_1_CH]);
		587	hadccor->Fill(adca[REF_CH], tdca[8]-tdca[31]);
		588
		589	htdccor->Fill(tdca[MPPC_1_CH], tdca[MPPC_2_CH]);
		590
		591
		592	// --------------- corelation plots for time-walk correction ---------------
		593
		594	if( (tdc_noise_cut<tdca[MPPC_1_CH]) && (tdc_noise_cut<tdca[MPPC_2_CH]) && (adc_cor_min<adca[MPPC_2_CH]) ) {
		595	hdiffcor[MPPC_1_CH][MPPC_2_CH]->Fill(adca[MPPC_1_CH],tdca[MPPC_1_CH]-ctdca[MPPC_2_CH]);
		596
		597	hdiffcor_low[MPPC_1_CH][MPPC_2_CH]->Fill(adca[MPPC_1_CH],tdca[MPPC_1_CH]-ctdca[MPPC_2_CH]);
		598	hdiffcor_hi[MPPC_1_CH][MPPC_2_CH]->Fill(adca[MPPC_1_CH],tdca[MPPC_1_CH]-ctdca[MPPC_2_CH]);
		599	}
		600
		601	if( (tdc_noise_cut<tdca[MPPC_2_CH]) && (tdc_noise_cut<tdca[MPPC_1_CH]) && (adc_cor_min<adca[MPPC_1_CH]) ) {
		602	hdiffcor[MPPC_2_CH][MPPC_1_CH]->Fill(adca[MPPC_2_CH],tdca[MPPC_2_CH]-ctdca[MPPC_1_CH]);
		603
		604	hdiffcor_low[MPPC_2_CH][MPPC_1_CH]->Fill(adca[MPPC_2_CH],tdca[MPPC_2_CH]-ctdca[MPPC_1_CH]);
		605	hdiffcor_hi[MPPC_2_CH][MPPC_1_CH]->Fill(adca[MPPC_2_CH],tdca[MPPC_2_CH]-ctdca[MPPC_1_CH]);
		606	}
		607
		608	// events ------------------------------------------------------------------------------------------
		609
		610	break;
		611
		612	case ENDREC_ID:
		613	#ifdef USE_ZLIB
		614	gzread(dfp, (voidp)&readbuf[2ulsize], (rec_len-2ulsize));
		615	#else
		616	fread( (void)&readbuf[2ulsize], (rec_len-2*ulsize), 1, dfp);
		617	#endif
		618
		619	if(dbg) {
		620	printf("ENDREC_ID\n");
		621	printf("id = %d, len = %d, time = %d\n", endrec->id, endrec->len, endrec->time);
		622	} else printf(" ENDREC\n");
		623
		624	fcount++;
		625	switch(ftype-1) {
		626	case 0:
		627	sprintf(dfile, "data/%s_file%02d.dat", dfile0, fcount);
		628	break;
		629	case 1:
		630	sprintf(dfile, "data/%s_file%02d.dat.gz", dfile0, fcount);
		631	break;
		632	case 2:
		633	sprintf(dfile, "data/%s_file%02d.gz", dfile0, fcount);
		634	break;
		635	}
		636
		637	#ifdef USE_ZLIB
		638	if(dfp) gzclose(dfp);
		639	dfp=gzopen(dfile,"rb");
		640	#else
		641	if(dfp) fclose(dfp);
		642	dfp=fopen(dfile,"rb");
		643	#endif
		644
		645	if(!dfp) {
		646	printf(" Cannot open data file: %s ---> Exiting\n", dfile);
		647	end_of_file = 1;
		648	} else {
		649	printf(" Opened data file: %s\n", dfile);
		650	end_of_file = 0;
		651	}
		652
		653	break;
		654
		655	default:
		656	printf("switch(rec_id): default !!!\n");
		657	end_of_file = 1;
		658	break;
		659	}
		660
		661	ceve++;
		662	if( (ceve%50000) == 0) printf(" Current event = %d\n", ceve);
		663	if(dbg) if( ceve>dbg ) break;
		664	if(end_of_file) break;
		665	}
		666
		667
		668	#ifdef USE_ZLIB
		669	if(dfp) gzclose(dfp);
		670	#else
		671	if(dfp) fclose(dfp);
		672	#endif
		673
		674	if(dbg) return 1;
		675	if(rootfile) {
		676	#ifdef testpulse
		677	printf("<<< EASIROC Disc : %f [ps]\n", htesttdc1->GetRMS()*1000);
		678	printf("<<< TEST Disc : %f [ps]\n", htesttdc2->GetRMS()*1000);
		679	#endif
		680	ftt->Write();
		681	rootfile->Write();
		682	//cout<<"maximum x value = " << htdcdiff->GetXaxis()->GetBinCenter( htdcdiff->GetMaximumBin()) <<endl;
		683	printf("Saved to %s\n", fnameroot);
		684	rootfile->Close();
		685	}
		686
		687	gSystem->Exit(1);
		688
		689	return 1;
		690	}

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(root)//cvi/apps/l2d2_easyroc/d2r.cpp – Rev 291