using namespace std;
#include <stdlib.h>
#include <iostream>
#include <iomanip>
#include "hmdcgarmacromaker.h"
#include "TString.h"
#include "TObjString.h"
#include "TMath.h"
#include "TList.h"
ClassImp(HMdcGarMacroMaker)
Float_t HMdcGarMacroMaker::cathodth [4]={0.01 ,0.01 ,0.01 ,0.01 };
Float_t HMdcGarMacroMaker::senseth [4]={0.002,0.002,0.002,0.002};
Float_t HMdcGarMacroMaker::fieldth [4]={0.01 ,0.01 ,0.01 ,0.01 };
Float_t HMdcGarMacroMaker::cathodpitch[4]={0.2,0.2,0.3,0.4};
Float_t HMdcGarMacroMaker::sensepitch [4]={0.5,0.6,1.2,1.4};
Float_t HMdcGarMacroMaker::fieldpitch [4]={0.5,0.6,1.2,1.4};
Int_t HMdcGarMacroMaker::cathodhv [4]={-1750,-1800,-2000,-2400};
Int_t HMdcGarMacroMaker::sensehv [4]={ 0, 0, 0, 0};
Int_t HMdcGarMacroMaker::fieldhv [4]={-1750,-1800,-2000,-2400};
Int_t HMdcGarMacroMaker::cathodhvmod [4]={0,0,0,0};
Int_t HMdcGarMacroMaker::sensehvmod [4]={0,0,0,0};
Int_t HMdcGarMacroMaker::fieldhvmod [4]={0,0,0,0};
Int_t HMdcGarMacroMaker::ncathod [4]={10,10,13,13};
Int_t HMdcGarMacroMaker::nsense [4]={3 ,3 ,3 ,3 };
Int_t HMdcGarMacroMaker::nfield [4]={4 ,4 ,4 ,4 };
Float_t HMdcGarMacroMaker::dc_s [4]={0.25,0.26,0.4,0.5};
Float_t HMdcGarMacroMaker::cathodx [4]={0.9 ,0.9 ,1.8 ,2.4};
Float_t HMdcGarMacroMaker::sensex [4]={0.5 ,0.6 ,1.2 ,1.4};
Float_t HMdcGarMacroMaker::fieldx [4]={0.75,0.9 ,1.8 ,2.1};
Float_t HMdcGarMacroMaker::area [4][4]={{-0.30,-0.30, 0.30, 0.30},
{-0.30,-0.30, 0.30, 0.30},
{-0.91,-0.41, 0.91, 0.41},
{-0.81,-0.52, 0.81, 0.52}};
Int_t HMdcGarMacroMaker::cwire [4]={43,43,52,52};
Int_t HMdcGarMacroMaker::cwire_foil [4]={6,6,6,6};
Float_t HMdcGarMacroMaker::time_up [4]={0.3,0.3,0.5,0.5};
Float_t HMdcGarMacroMaker::time_low [4]={0.0,0.0,0.0,0.0};
Float_t HMdcGarMacroMaker::B_components[3]={0.0 ,0.0 ,0.0};
Int_t HMdcGarMacroMaker::minLoop[4][18]={{0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},
{0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},
{0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},
{0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0}};
Int_t HMdcGarMacroMaker::maxLoop[4][18]={{25,28,29,31,33,34,35,35,36,36,36,35,35,34,33,31,29,28},
{30,33,35,36,38,39,39,40,40,40,40,39,38,37,35,33,31,29},
{60,64,67,69,71,72,72,73,72,71,70,68,65,62,59,55,50,46},
{70,75,78,81,83,85,86,87,86,85,84,82,79,75,71,67,62,56 }};
HMdcGarMacroMaker::HMdcGarMacroMaker(const Char_t* name,const Char_t* title)
: TNamed(name,title)
{
initVariables();
}
HMdcGarMacroMaker::~HMdcGarMacroMaker()
{
}
void HMdcGarMacroMaker::setArgon(Int_t ar)
{
if (helium > 0)
{
Error("HMdcGarMacroMaker:setArgon()","ADMIXTURE OF HELIUM NOT ALLOWED!");
exit(1);
}
if (ar + ibutane > 100)
{
Error("HMdcGarMacroMaker:setFileNameOut()","GAX MIXTURE EXCEEDS 100%!");
exit(1);
}
argon = ar;
}
void HMdcGarMacroMaker::setHelium(Int_t he)
{
if (argon > 0)
{
Error("HMdcGarMacroMaker:setArgon()","ADMIXTURE OF ARGON NOT ALLOWED!");
exit(1);
}
if (he + ibutane > 100)
{
Error("HMdcGarMacroMaker:setFileNameOut()","GAX MIXTURE EXCEEDS 100%!");
exit(1);
}
helium = he;
}
void HMdcGarMacroMaker::setIButane(Int_t b)
{
if ((helium ? helium : argon) + ibutane > 100)
{
Error("HMdcGarMacroMaker:setFileNameOut()","GAX MIXTURE EXCEEDS 100%!");
exit(1);
}
ibutane = b;
}
void HMdcGarMacroMaker::setFileNameOut(TString myfile)
{
fNameAsciiOut=myfile;
if(fNameAsciiOut.CompareTo("")==0)
{
Error("HMdcGarMacroMaker:setFileNameOut()","NO OUTPUT FILE SEPCIFIED!");
exit(1);
};
cout<<"HMdcGarMacroMaker::setFileNameOut(): OUTPUT FILE= "<<fNameAsciiOut.Data()<<endl;
}
void HMdcGarMacroMaker::setFileNameSignals(TString myfile)
{
fNameSignalOut=myfile;
if(fNameSignalOut.CompareTo("")==0)
{
Error("HMdcGarMacroMaker:setFileNameSignals()","NO OUTPUT FILE SEPCIFIED!");
exit(1);
};
cout<<"HMdcGarMacroMaker::setFileNameSignals(): OUTPUT FILE= "<<fNameSignalOut.Data()<<endl;
}
void HMdcGarMacroMaker::setFileNameGasFile(TString myfile)
{
fNameGasIn=myfile;
if(fNameGasIn.CompareTo("")==0)
{
Error("HMdcGarMacroMaker:setFileNameGasFile()","NO OUTPUT FILE SEPCIFIED!");
exit(1);
};
cout<<"HMdcGarMacroMaker::setFileNameGasFile(): OUTPUT FILE= "<<fNameGasIn.Data()<<endl;
}
void HMdcGarMacroMaker::setPsFileName(TString myfile)
{
if(myfile.CompareTo("")==0)
{
Warning("HMdcGarMacroMaker:setPsFileName()","NO OUTPUT PSFILE SPECIFIED, FILE WILL BE TRACK.PS!");
}
else
{
postscriptfile=myfile;
}
postscript=kTRUE;
}
void HMdcGarMacroMaker::setPrintSetup(TString myset)
{
if(myset.CompareTo("")==0)
{
Error("HMdcGarMacroMaker::setPrintSetup()","NO PRINT SETUP SPECIFIED!");
exit(1);
}
parseArguments(myset);
}
void HMdcGarMacroMaker::setBFieldComponents(Float_t bx,Float_t by,Float_t bz)
{
B_components[0]=bx;
B_components[1]=by;
B_components[2]=bz;
}
void HMdcGarMacroMaker::parseArguments(TString s1)
{
TString scell ="cell";
TString soption ="option";
TString sgas ="gas";
TString sfield ="field";
TString sdrift ="drift";
TString ssignal ="signal";
TString s3d ="3d";
Int_t icell =0;
Int_t ioption =0;
Int_t igas =0;
Int_t ifield =0;
Int_t idrift =0;
Int_t isignal =0;
Int_t i3d =0;
TString s2=s1;
s1.ToLower();
s1.ReplaceAll(" ","");
Ssiz_t len=s1.Length();
if(len!=0)
{
Char_t* mystring=(Char_t*)s1.Data();
Char_t* buffer;
TList myarguments;
TObjString *stemp;
TString argument;
Int_t count=0;
while(1)
{
if(count==0)
{
buffer=strtok(mystring,",");
stemp=new TObjString(buffer);
myarguments.Add(stemp);
}
if(!(buffer=strtok(NULL,",")))break;
stemp=new TObjString(buffer);
myarguments.Add(stemp);
count++;
}
TIterator* myiter=myarguments.MakeIterator();
while ((stemp=(TObjString*)myiter->Next())!= 0)
{
argument=stemp->GetString();
if(argument.CompareTo(scell)==0)
{
icell++;
if(icell>1)
{
Error("HMdcGarMacroMaker:parseArguments()","Multiple appearence of same arguent!");
cout<<"INPUT SETUPSTRING: "<<s2<<endl;
printKeyWords();
exit(1);
}
printcell=kTRUE;
}
else if(argument.CompareTo(soption)==0)
{
ioption++;
if(ioption>1)
{
Error("HMdcGarMacroMaker:parseArguments()","Multiple appearence of same arguent!");
cout<<"INPUT SETUPSTRING: "<<s2<<endl;
printKeyWords();
exit(1);
}
printoption=kTRUE;
}
else if(argument.CompareTo(sgas)==0)
{
igas++;
if(igas>1)
{
Error("HMdcGarMacroMaker:parseArguments()","Multiple appearence of same arguent!");
cout<<"INPUT SETUPSTRING: "<<s2<<endl;
printKeyWords();
exit(1);
}
printgas=kTRUE;
}
else if(argument.CompareTo(sfield)==0)
{
ifield++;
if(ifield>1)
{
Error("HMdcGarMacroMaker:parseArguments()","Multiple appearence of same arguent!");
cout<<"INPUT SETUPSTRING: "<<s2<<endl;
printKeyWords();
exit(1);
}
printfield=kTRUE;
}
else if(argument.CompareTo(sdrift)==0)
{
idrift++;
if(idrift>1)
{
Error("HMdcGarMacroMaker:parseArguments()","Multiple appearence of same arguent!");
cout<<"INPUT SETUPSTRING: "<<s2<<endl;
printKeyWords();
exit(1);
}
printdrift=kTRUE;
}
else if(argument.CompareTo(ssignal)==0)
{
isignal++;
if(isignal>1)
{
Error("HMdcGarMacroMaker:parseArguments()","Multiple appearence of same arguent!");
cout<<"INPUT SETUPSTRING: "<<s2<<endl;
printKeyWords();
exit(1);
}
printsignal=kTRUE;
}
else if(argument.CompareTo(s3d)==0)
{
i3d++;
if(i3d>1)
{
Error("HMdcGarMacroMaker:parseArguments()","Multiple appearence of same arguent!");
cout<<"INPUT SETUPSTRING: "<<s2<<endl;
printKeyWords();
exit(1);
}
print3d=kTRUE;
}
else
{
Error("HMdcGarMacroMaker:parseArguments()","\n unknown argument %s !",argument.Data());
cout<<"INPUT SETUPSTRING: "<<s2<<endl;
printKeyWords();
exit(1);
}
}
}
if(icell==0) printcell=kFALSE;
if(ioption==0)printoption=kFALSE;
if(igas==0) printgas=kFALSE;
if(ifield==0) printfield=kFALSE;
if(idrift==0) printdrift=kFALSE;
if(isignal==0)printsignal=kFALSE;
if(i3d==0) print3d=kFALSE;
}
void HMdcGarMacroMaker::initVariables()
{
fNameAsciiOut ="";
fNameSignalOut ="";
fNameGasIn ="";
output =0;
postscript =kFALSE;
postscriptfile ="Track.ps";
mdc =0;
temperature =293;
pressure =760;
helium =0;
argon =0;
ibutane =0;
mobility =1;
avalanche =44130;
collisions =500;
particle ="electron";
energy =0.7;
range =100;
timebin =0.001;
nTimeBin =1000;
angleDeg =0;
angleStep =0;
angleStepSize =5.;
nSignals =100;
writeData =kFALSE;
isochrones =0.005;
nLines =100;
printclusters=kFALSE;
printcell =kTRUE;
printoption =kTRUE;
printgas =kTRUE;
printfield =kTRUE;
printdrift =kTRUE;
printsignal =kTRUE;
print3d =kTRUE;
cathode_foils=kFALSE;
}
void HMdcGarMacroMaker::printKeyWords()
{
printf ("--------------------------------------------------------------------------------------------\n");
printf ("HMdcGarMacroMaker::setPrintSetup() OPTIONS: cell, option, gas, field, drift, signal, 3d\n");
}
void HMdcGarMacroMaker::printStatus(void)
{
printKeyWords();
printf ("--------------------------------------------------------------------------------------------\n");
printf ("HMdcGarMacroMaker:\n");
printf ("Print Setup: = ");
if(printcell) printf ("cell");
if(printoption)printf (", option");
if(printgas) printf (", gas");
if(printfield) printf (", field");
if(printdrift) printf (", drift");
if(printsignal)printf (", signal");
if(print3d) printf (", 3d");
printf ("\n");
printf ("Macro output file = %s\n",fNameAsciiOut.Data());
if(postscript)printf ("PS output file =%s\n",postscriptfile.Data());
printf ("MDC TYPE = %i\n",mdc);
printf ("Impact angle = %3.1f degree\n",angleDeg);
if(cathode_foils)
{
printf ("Cathod foils are used\n");
}
if(!cathode_foils)
{
printf ("Cathod wires are used\n");
}
printf ("HV cathods = %i V (GSI), %i V (DUBNA), %i V (FZR), %i V (ORRSAY),\n"
,cathodhv[0],cathodhv[1],cathodhv[2],cathodhv[3]);
printf ("HV field = %i V (GSI), %i V (DUBNA), %i V (FZR), %i V (ORRSAY),\n"
,fieldhv[0] ,fieldhv[1] ,fieldhv[2] ,fieldhv[3]);
printf ("HV sense = %i V (GSI), %i V (DUBNA), %i V (FZR), %i V (ORRSAY),\n"
,sensehv[0] ,sensehv[1] ,sensehv[2] ,sensehv[3]);
if (argon > 0)
{
printf ("Gasmixture = Ar/i-Butane(%i/%i), temperature %i K, pressure %i torr\n"
,argon,ibutane,temperature,pressure);
}
else
{
printf ("Gasmixture = He/i-Butane(%i/%i), temperature %i K, pressure %i torr\n"
,helium,ibutane,temperature,pressure);
}
printf ("Track Conditions = %s, energy %3.2f GeV,\n \
avalanche %i, range %i mm, collisions %i\n"
,particle.Data(),energy,avalanche,range,collisions);
printf ("Signals = %i Signals per point, %5.3f ns timebin\n",nSignals,timebin);
printf ("Dataset flag = %i\n",writeData);
printf ("Isochrones = %5.3f, nLines= %i\n",isochrones,nLines);
printf ("--------------------------------------------------------------------------------------------\n");
}
void HMdcGarMacroMaker::putOut(const Char_t* buffer)
{
printf(buffer);
if(output)fprintf(output,"%s",buffer);
}
void HMdcGarMacroMaker::openOutPut()
{
if(fNameAsciiOut.CompareTo("")!=0)
{
output=fopen(fNameAsciiOut.Data(),"w");
}
else
{
Error("HMdcGarMacroMaker::openOutPut()","NO OUTPUT SPECIFIED!");
exit(1);
}
}
void HMdcGarMacroMaker::closeOutPut()
{
if(output)fclose(output);
}
void HMdcGarMacroMaker::printMacro()
{
printStatus();
openOutPut();
printMetaHeader();
printCell();
printOptions();
printGeometry();
printField();
printMagnetic();
printGas();
printDrift();
printSignal();
print3D();
printMetaTrailer();
closeOutPut();
}
void HMdcGarMacroMaker::printMetaHeader()
{
if(postscript)
{
Char_t buffer[2048];
sprintf(buffer,"*****************HEADER*********************\n"); putOut(buffer);
sprintf(buffer,"!opt linear-x\n"); putOut(buffer);
sprintf(buffer,"!add meta type PostScript file-name \"%s\"\n"
,postscriptfile.Data()); putOut(buffer);
sprintf(buffer,"!open meta\n"); putOut(buffer);
sprintf(buffer,"!act meta\n"); putOut(buffer);
sprintf(buffer,"!reset-colours\n"); putOut(buffer);
sprintf(buffer,"\n"); putOut(buffer);
}
}
void HMdcGarMacroMaker::printCell()
{
if(printcell)
{
Char_t buffer[2048];
sprintf(buffer,"*****************CELL***********************\n"); putOut(buffer);
sprintf(buffer,"&cell\n"); putOut(buffer);
sprintf(buffer,"cell-id \"+=cathode,x=potential,o=sense\"\n"); putOut(buffer);
sprintf(buffer,"\n"); putOut(buffer);
}
}
void HMdcGarMacroMaker::printOptions()
{
if(printoption)
{
Char_t buffer[2048];
sprintf(buffer,"*****************OPTIONS********************\n"); putOut(buffer);
sprintf(buffer,"reset planes\n"); putOut(buffer);
sprintf(buffer,"reset rows\n"); putOut(buffer);
if(printclusters||postscript)
{
sprintf(buffer,"opt layout\n"); putOut(buffer);
sprintf(buffer,"opt wire-markers\n"); putOut(buffer);
sprintf(buffer,"opt cell-print\n"); putOut(buffer);
}
sprintf(buffer,"\n"); putOut(buffer);
}
}
void HMdcGarMacroMaker::printGeometry()
{
Char_t buffer[2048];
sprintf(buffer,"*****************GEOMETRY*******************\n"); putOut(buffer);
if(!cathode_foils)
{
sprintf(buffer,"ROWS\n"); putOut(buffer);
sprintf(buffer,"*label wire# thickness pitch x y voltage MDC%i\n"
,mdc); putOut(buffer);
sprintf(buffer,"c %2i %4.3f (%3.2f*I)-%3.2f %5.2f %5i\n",
ncathod[mdc],cathodth[mdc],cathodpitch[mdc],cathodx[mdc]
, 3*dc_s[mdc],cathodhvmod[0]==0? cathodhv[mdc]:cathodhvmod[0]); putOut(buffer);
sprintf(buffer,"p %2i %4.3f (%3.2f*I)-%3.2f %5.2f %5i\n",
nfield[mdc] ,fieldth[mdc] ,fieldpitch[mdc] ,fieldx[mdc]
, 2*dc_s[mdc],fieldhvmod[0]==0? fieldhv[mdc]:fieldhvmod[0]); putOut(buffer);
sprintf(buffer,"S %2i %4.3f (%3.2f*I)-%3.2f %5.2f %5i\n",
nsense[mdc] ,senseth[mdc] ,sensepitch[mdc] ,sensex[mdc]
, 2*dc_s[mdc],sensehvmod[0]==0? sensehv[mdc]:sensehvmod[0]); putOut(buffer);
sprintf(buffer,"c %2i %4.3f (%3.2f*I)-%3.2f %5.2f %5i\n",
ncathod[mdc],cathodth[mdc],cathodpitch[mdc],cathodx[mdc]
,-1*dc_s[mdc],cathodhvmod[1]==0? cathodhv[mdc]:cathodhvmod[1]); putOut(buffer);
sprintf(buffer,"c %2i %4.3f (%3.2f*I)-%3.2f %5.2f %5i\n",
ncathod[mdc],cathodth[mdc],cathodpitch[mdc],cathodx[mdc]
, 1*dc_s[mdc],cathodhvmod[2]==0? cathodhv[mdc]:cathodhvmod[2]); putOut(buffer);
sprintf(buffer,"p %2i %4.3f (%3.2f*I)-%3.2f %5.2f %5i\n",
nfield[mdc] ,fieldth[mdc] ,fieldpitch[mdc] ,fieldx[mdc]
, 0*dc_s[mdc],fieldhvmod[1]==0? fieldhv[mdc]:fieldhvmod[1]); putOut(buffer);
sprintf(buffer,"S %2i %4.3f (%3.2f*I)-%3.2f %5.2f %5i\n",
nsense[mdc] ,senseth[mdc] ,sensepitch[mdc] ,sensex[mdc]
, 0*dc_s[mdc],sensehvmod[1]==0? sensehv[mdc]:sensehvmod[1]); putOut(buffer);
sprintf(buffer,"c %2i %4.3f (%3.2f*I)-%3.2f %5.2f %5i\n",
ncathod[mdc],cathodth[mdc],cathodpitch[mdc],cathodx[mdc]
,-3*dc_s[mdc],cathodhvmod[3]==0? cathodhv[mdc]:cathodhvmod[3]); putOut(buffer);
sprintf(buffer,"p %2i %4.3f (%3.2f*I)-%3.2f %5.2f %5i\n",
nfield[mdc] ,fieldth[mdc] ,fieldpitch[mdc] ,fieldx[mdc]
,-2*dc_s[mdc],fieldhvmod[2]==0? fieldhv[mdc]:fieldhvmod[2]); putOut(buffer);
sprintf(buffer,"S %2i %4.3f (%3.2f*I)-%3.2f %5.2f %5i\n",
nsense[mdc] ,senseth[mdc] ,sensepitch[mdc] ,sensex[mdc]
,-2*dc_s[mdc],sensehvmod[2]==0? sensehv[mdc]:sensehvmod[2]); putOut(buffer);
}
else
{
sprintf(buffer,"plane y=%5.2f ,V=%5i\n",
-1*dc_s[mdc],cathodhvmod[2]==0? cathodhv[mdc]:cathodhvmod[2]); putOut(buffer);
sprintf(buffer,"plane y=%5.2f ,V=%5i\n",
1*dc_s[mdc],cathodhvmod[2]==0? cathodhv[mdc]:cathodhvmod[2]); putOut(buffer);
sprintf(buffer,"ROWS\n"); putOut(buffer);
sprintf(buffer,"*label wire# thickness pitch x y voltage MDC%i\n"
,mdc); putOut(buffer);
sprintf(buffer,"p %2i %4.3f (%3.2f*I)-%3.2f %5.2f %5i\n",
nfield[mdc] ,fieldth[mdc] ,fieldpitch[mdc] ,fieldx[mdc]
, 0*dc_s[mdc],fieldhvmod[1]==0? fieldhv[mdc]:fieldhvmod[1]); putOut(buffer);
sprintf(buffer,"S %2i %4.3f (%3.2f*I)-%3.2f %5.2f %5i\n",
nsense[mdc] ,senseth[mdc] ,sensepitch[mdc] ,sensex[mdc]
, 0*dc_s[mdc],sensehvmod[1]==0? sensehv[mdc]:sensehvmod[1]); putOut(buffer);
}
sprintf(buffer,"\n"); putOut(buffer);
}
void HMdcGarMacroMaker::printField()
{
if(printfield)
{
Char_t buffer[2048];
sprintf(buffer,"*****************FIELD**********************\n"); putOut(buffer);
sprintf(buffer,"&field\n"); putOut(buffer);
sprintf(buffer,"track FROM 0. 1. TO 0. -1.\n"); putOut(buffer);
sprintf(buffer,"grid 40 40\n"); putOut(buffer);
sprintf(buffer,"*xmin ymin xmax ymax\n"); putOut(buffer);
if(postscript)
{
if(mdc==0){sprintf(buffer,"area -0.32 -0.27 0.32 0.27\n"); putOut(buffer);}
if(mdc==1){sprintf(buffer,"area -0.32 -0.28 0.32 0.28\n"); putOut(buffer);}
if(mdc==2){sprintf(buffer,"area -0.62 -0.42 0.62 0.42\n"); putOut(buffer);}
if(mdc==3){sprintf(buffer,"area -0.82 -0.62 0.82 0.62\n"); putOut(buffer);}
sprintf(buffer,"*-------------------------------------------\n"); putOut(buffer);
sprintf(buffer,"plot contour e N 50 NOLABEL\n"); putOut(buffer);
sprintf(buffer,"plot contour v N 50 NOLABEL\n"); putOut(buffer);
sprintf(buffer,"plot surface e\n"); putOut(buffer);
sprintf(buffer,"plot graph e\n"); putOut(buffer);
sprintf(buffer,"plot graph v\n"); putOut(buffer);
if(writeData)
{
sprintf(buffer,"*-------------------------------------------\n"); putOut(buffer);
sprintf(buffer,"> graph_e_mdc%i.dat\n",mdc); putOut(buffer);
sprintf(buffer,"plot graph e N 200 print\n"); putOut(buffer);
sprintf(buffer,">\n"); putOut(buffer);
}
}
sprintf(buffer,"\n"); putOut(buffer);
}
}
void HMdcGarMacroMaker::printMagnetic()
{
if(printcell)
{
Char_t buffer[2048];
sprintf(buffer,"*****************MAGNETIC*******************\n"); putOut(buffer);
sprintf(buffer,"&magnetic\n"); putOut(buffer);
sprintf(buffer,"components %5.2f %5.2f %5.2f T \n",
B_components[0],B_components[1],B_components[2]); putOut(buffer);
sprintf(buffer,"\n"); putOut(buffer);
}
}
void HMdcGarMacroMaker::printGas()
{
if(printgas)
{
Char_t name[300];
if (argon > 0)
{
sprintf(name,"ar%i-%i-%i-%i.dat",argon,ibutane,temperature,pressure);
}
else
{
sprintf(name,"he%i-%i-%i-%i.dat",helium,ibutane,temperature,pressure);
}
if(fNameGasIn.CompareTo("")==0)fNameGasIn=name;
Char_t buffer[2048];
sprintf(buffer,"*****************GAS************************\n"); putOut(buffer);
sprintf(buffer,"&gas\n"); putOut(buffer);
if (argon > 0)
{
sprintf(buffer,"gas-id \"ar/iso-butane %i/%i\"\n"
,argon,ibutane); putOut(buffer);
}
else
{
sprintf(buffer,"gas-id \"he/iso-butane %i/%i\"\n"
,helium,ibutane); putOut(buffer);
}
sprintf(buffer,"global gas_file `%s`\n"
,fNameGasIn.Data()); putOut(buffer);
sprintf(buffer,"temperature %i\n"
,temperature); putOut(buffer);
sprintf(buffer,"pressure %i\n"
,pressure); putOut(buffer);
sprintf(buffer,"Call inquire_file(gas_file,exist)\n"); putOut(buffer);
sprintf(buffer,"If exist Then\n"); putOut(buffer);
sprintf(buffer,"Say \"Gas file exists, retrieving ...\"\n"); putOut(buffer);
sprintf(buffer,"get {gas_file}\n"); putOut(buffer);
sprintf(buffer,"Else\n"); putOut(buffer);
sprintf(buffer,"Say \"Gas file not found, generating ...\"\n"); putOut(buffer);
if (argon > 0)
{
sprintf(buffer,"magboltz argon %i. isobutane %i. mobility %f\n"
,argon,ibutane,mobility); putOut(buffer);
sprintf(buffer,"write dataset \"%s\" gasdata remark \"magboltz-ar%i-ibutane%i\"\n"
,fNameGasIn.Data(),argon,ibutane); putOut(buffer);
sprintf(buffer,"Endif\n"); putOut(buffer);
sprintf(buffer,"heed argon %i. isobutane %i.\n"
,argon,ibutane); putOut(buffer);
}
else
{
sprintf(buffer,"magboltz helium-4 %i. isobutane %i. mobility %f\n"
,helium,ibutane,mobility); putOut(buffer);
sprintf(buffer,"write dataset \"%s\" gasdata remark \"magboltz-he%i-ibutane%i\"\n"
,fNameGasIn.Data(),helium,ibutane); putOut(buffer);
sprintf(buffer,"Endif\n"); putOut(buffer);
sprintf(buffer,"heed helium-4 %i. isobutane %i.\n"
,helium,ibutane); putOut(buffer);
}
sprintf(buffer,"\n"); putOut(buffer);
}
}
void HMdcGarMacroMaker::printDrift()
{
if(printdrift)
{
Char_t buffer[2048];
sprintf(buffer,"*****************DRIFT**********************\n"); putOut(buffer);
sprintf(buffer,"&drift\n"); putOut(buffer);
if(!cathode_foils)
{
sprintf(buffer,"SEL %i\n"
,cwire[mdc]); putOut(buffer);
}
if(cathode_foils)
{
sprintf(buffer,"SEL %i\n"
,cwire_foil[mdc]); putOut(buffer);
}
if(postscript)
{
if(mdc==0){sprintf(buffer,"area -0.32 -0.27 0.32 0.27\n"); putOut(buffer);}
if(mdc==1){sprintf(buffer,"area -0.32 -0.28 0.32 0.28\n"); putOut(buffer);}
if(mdc==2){sprintf(buffer,"area -0.62 -0.42 0.62 0.42\n"); putOut(buffer);}
if(mdc==3){sprintf(buffer,"area -0.82 -0.62 0.82 0.62\n"); putOut(buffer);}
sprintf(buffer,"*-------------------------------------------\n"); putOut(buffer);
sprintf(buffer,"plot contour VD N 50 NOLABEL\n"); putOut(buffer);
sprintf(buffer,"plot surface VD \n"); putOut(buffer);
sprintf(buffer,"xt-plot\n"); putOut(buffer);
if(writeData)
{
sprintf(buffer,"xt-plot DATASET \"xtmdc%i.dat\" REMARK \"xt\" \n",
mdc); putOut(buffer);
}
sprintf(buffer,"DRIFT WIRES ANGLES 0 360 LINES %i ISOCHRONES= %5.3f\n"
,nLines,isochrones); putOut(buffer);
if(writeData)
{
sprintf(buffer,"WRITE-ISOCHRONES DATASET \"VDmdc%i.dat\" contVD remark \"isochrones mdc%i\" \n",
mdc,mdc); putOut(buffer);
}
sprintf(buffer,"*************Driftvelocity vs E/P***********\n"); putOut(buffer);
sprintf(buffer,"*-------------------------------------------\n"); putOut(buffer);
sprintf(buffer,"Call get_gas_data(p,t,id)\n"); putOut(buffer);
sprintf(buffer,"Call get_E/p_table(ep)\n"); putOut(buffer);
sprintf(buffer,"Call drift_velocity(0,0,ep*p,drift)\n"); putOut(buffer);
sprintf(buffer,"!opt log-x\n"); putOut(buffer);
sprintf(buffer,"Call plot_graph(ep,drift,`E/p [kV/cm bar]`,`Drift velocity [cm/microsec]`,`Drift velocity vs E/p`)\n"); putOut(buffer);
sprintf(buffer,"Call plot_markers(ep,drift,`function-1`)\n"); putOut(buffer);
sprintf(buffer,"Call plot_comment(`up-left`,`Magboltz: `/id)\n"); putOut(buffer);
sprintf(buffer,"Call plot_end \n"); putOut(buffer);
sprintf(buffer,"!opt linear-x \n"); putOut(buffer);
sprintf(buffer,"*-------------------------------------------\n"); putOut(buffer);
}
sprintf(buffer,"\n"); putOut(buffer);
}
}
void HMdcGarMacroMaker::printSignal()
{
if(printsignal)
{
if(fNameSignalOut.CompareTo("")==0)
{
Char_t nameout[300];
sprintf(nameout,"/tmp/s%i-mdc%i.txt",(Int_t)angleDeg,mdc);
fNameSignalOut=nameout;
}
Char_t buffer[2048];
sprintf(buffer,"*****************SIGNAL*********************\n"); putOut(buffer);
sprintf(buffer,"&signal\n"); putOut(buffer);
sprintf(buffer,"*Track starting from left side\n"); putOut(buffer);
sprintf(buffer,"area %5.2f %5.2f %5.2f %5.2f\n",
area[mdc][0],area[mdc][1],area[mdc][2],area[mdc][3]); putOut(buffer);
if(!cathode_foils)
{
sprintf(buffer,"SELECT %i\n"
,cwire[mdc]);
putOut(buffer);
}
if(cathode_foils)
{
sprintf(buffer,"SELECT %i\n"
,cwire_foil[mdc]);
putOut(buffer);
}
sprintf(buffer,"AVALANCHE fixed %i\n"
,avalanche); putOut(buffer);
sprintf(buffer,"INTEGRATION-PARAMETERS MONTE-CARLO-COLLISIONS %i\n"
,collisions); putOut(buffer);
if(!printclusters)
{
sprintf(buffer,"OPTIONS NOCLUSTER-PLOT NOCLUSTER-PRINT\n"); putOut(buffer);
}
sprintf(buffer,"****************Loop over distance**********\n"); putOut(buffer);
sprintf(buffer,"For j From %i To %i Do\n"
,minLoop[mdc][angleStep]+1
,maxLoop[mdc][angleStep]); putOut(buffer);
sprintf(buffer,"*-------------------------------------------\n"); putOut(buffer);
sprintf(buffer,"Global r= 0.01*j\n"); putOut(buffer);
sprintf(buffer,"Global alphaDEG=%3.1f\n"
,angleDeg); putOut(buffer);
sprintf(buffer,"Global alphaRAD=pi/180.*alphaDEG\n"); putOut(buffer);
sprintf(buffer,"Global dx=0.1\n"); putOut(buffer);
sprintf(buffer,"Global dy=dx*tan(pi/2.+alphaRAD)\n"); putOut(buffer);
sprintf(buffer,"Global x1=r*cos(alphaRAD)\n"); putOut(buffer);
sprintf(buffer,"Global y1=r*sin(alphaRAD)\n"); putOut(buffer);
sprintf(buffer,"Global x=(%5.2f-(y1-x1*tan(pi/2.+alphaRAD)))/tan(pi/2.+alphaRAD)\n"
,dc_s[mdc]); putOut(buffer);
sprintf(buffer,"Global y= %5.2f\n"
,dc_s[mdc]); putOut(buffer);
sprintf(buffer,"TRACK FROM {x} {y} DIRECTION {dx} {dy} RANGE %i %s energy %5.2f GeV\n"
,range,particle.Data(),energy); putOut(buffer);
sprintf(buffer,"*-------------------------------------------\n"); putOut(buffer);
sprintf(buffer,"TIME-WINDOW %3.1f %5.3f %i\n"
,time_low[mdc],timebin,nTimeBin); putOut(buffer);
sprintf(buffer,"****************Loop over signal************\n"); putOut(buffer);
sprintf(buffer,"For i From 1 To %i Do\n"
,nSignals); putOut(buffer);
sprintf(buffer,"SIGNAL AVALANCHE NOELECTRON-PULSE ION-TAIL MONTE-CARLO-DRIFT-LINES\n");
putOut(buffer);
sprintf(buffer,"WRITE-SIGNALS DATASET \"%s\" REMARK \"signals %i degree impact\" UNITS NANO-SECOND\n",
fNameSignalOut.Data(),(Int_t)angleDeg); putOut(buffer);
if(postscript)
{
if(!cathode_foils)
{
sprintf(buffer,"PLOT-SIGNALS TIME-WINDOW %3.1f %3.1f WIRE %i\n"
,time_low[mdc],time_up[mdc],cwire[mdc]);
putOut(buffer);
}
if(cathode_foils)
{
sprintf(buffer,"PLOT-SIGNALS TIME-WINDOW %3.1f %3.1f WIRE %i\n"
,time_low[mdc],time_up[mdc],cwire_foil[mdc]);
putOut(buffer);
}
}
sprintf(buffer,"enddo\n"); putOut(buffer);
sprintf(buffer,"****************End Loop over signal*********\n"); putOut(buffer);
sprintf(buffer,"enddo\n"); putOut(buffer);
sprintf(buffer,"****************End Loop over distance*******\n"); putOut(buffer);
sprintf(buffer,"\n"); putOut(buffer);
}
}
void HMdcGarMacroMaker::printMetaTrailer()
{
if(postscript)
{
Char_t buffer[2048];
sprintf(buffer,"*****************TRAILER*********************\n"); putOut(buffer);
sprintf(buffer,"!deact meta\n"); putOut(buffer);
sprintf(buffer,"!close meta\n"); putOut(buffer);
sprintf(buffer,"!del meta\n"); putOut(buffer);
sprintf(buffer,"\n"); putOut(buffer);
}
}
void HMdcGarMacroMaker::print3D()
{
if(print3d)
{
Char_t buffer[2048];
sprintf(buffer,"*****************3D*************************\n"); putOut(buffer);
sprintf(buffer,"*-------------------------------------------\n"); putOut(buffer);
sprintf(buffer,"* cathods\n"); putOut(buffer);
sprintf(buffer,"solids\n"); putOut(buffer);
sprintf(buffer,"For x From -%5.3f Step %5.3f To %5.3f Do\n"
,cathodx[mdc],cathodpitch[mdc],ncathod[mdc]*cathodpitch[mdc]); putOut(buffer);
sprintf(buffer,"cylinder CENTRE {x} %5.2f 0 RADIUS %5.4f HALF-LENGTH 1 DIRECTION 0 0 1 conductor-1\n"
, 3*dc_s[mdc],0.5*cathodth[mdc]); putOut(buffer);
sprintf(buffer,"cylinder CENTRE {x} %5.2f 0 RADIUS %5.4f HALF-LENGTH 1 DIRECTION 0 0 1 conductor-1\n"
, 1*dc_s[mdc],0.5*cathodth[mdc]); putOut(buffer);
sprintf(buffer,"cylinder CENTRE {x} %5.2f 0 RADIUS %5.4f HALF-LENGTH 1 DIRECTION 0 0 1 conductor-1\n"
,-1*dc_s[mdc],0.5*cathodth[mdc]); putOut(buffer);
sprintf(buffer,"Enddo\n"); putOut(buffer);
sprintf(buffer,"*-------------------------------------------\n"); putOut(buffer);
sprintf(buffer,"* potential ordered -20,-40\n"); putOut(buffer);
sprintf(buffer,"solids\n"); putOut(buffer);
sprintf(buffer,"For x From -%5.3f Step %5.3f To %5.3f Do\n"
,fieldx[mdc],fieldpitch[mdc],nfield[mdc]*fieldpitch[mdc]); putOut(buffer);
sprintf(buffer,"cylinder CENTRE {x} %5.2f 0 RADIUS %5.4f HALF-LENGTH 1 DIRECTION 1 0 -%f conductor-2\n"
, 2*dc_s[mdc],0.5*fieldth[mdc],tan((90-20)*TMath::Pi()/180)); putOut(buffer);
sprintf(buffer,"cylinder CENTRE {x} %5.2f 0 RADIUS %5.4f HALF-LENGTH 1 DIRECTION 1 0 -%f conductor-2\n"
, 0*dc_s[mdc],0.5*fieldth[mdc],tan((90-40)*TMath::Pi()/180)); putOut(buffer);
sprintf(buffer,"Enddo\n"); putOut(buffer);
sprintf(buffer,"*-------------------------------------------\n"); putOut(buffer);
sprintf(buffer,"*sense ordered -20,-40\n"); putOut(buffer);
sprintf(buffer,"For x From -%5.3f Step %5.3f To %5.3f Do\n"
,sensex[mdc],sensepitch[mdc],nsense[mdc]*sensepitch[mdc]); putOut(buffer);
sprintf(buffer,"cylinder CENTRE {x} %5.2f 0 RADIUS %5.4f HALF-LENGTH 1 DIRECTION 1 0 -%f conductor-2\n"
, 2*dc_s[mdc],0.5*senseth[mdc],tan((90-20)*TMath::Pi()/180)); putOut(buffer);
sprintf(buffer,"cylinder CENTRE {x} %5.2f 0 RADIUS %5.4f HALF-LENGTH 1 DIRECTION 1 0 -%f conductor-2\n"
, 0*dc_s[mdc],0.5*senseth[mdc],tan((90-40)*TMath::Pi()/180)); putOut(buffer);
sprintf(buffer,"Enddo\n"); putOut(buffer);
sprintf(buffer,"\n"); putOut(buffer);
}
}
Last change: Sat May 22 13:01:58 2010
Last generated: 2010-05-22 13:01
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