97#define BXOPE std::cout<<\
98"FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF"<<std::endl<<\
100#define BXTXT(text) std::cout<<\
101"F "<<std::setw(40)<< text <<" F"<<std::endl
102#define BX1I(name,numb,text) std::cout<<\
103"F "<<std::setw(10)<<name<<" = "<<std::setw(10)<<numb<<" = " <<std::setw(50)<<text<<" F"<<std::endl
104#define BX1F(name,numb,text) std::cout<<"F "<<std::setw(10)<<name<<\
105 " = "<<std::setw(15)<<std::setprecision(8)<<numb<<" = "<<std::setw(40)<<text<<" F"<<std::endl
106#define BX2F(name,numb,err,text) std::cout<<"F "<<std::setw(10)<<name<<\
107" = "<<std::setw(15)<<std::setprecision(8)<<numb<<" +- "<<std::setw(15)<<std::setprecision(8)<<err<< \
108 " = "<<std::setw(25)<<text<<" F"<<std::endl
109#define BXCLO std::cout<<\
111"FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF"<<std::endl
117#define SW2 setprecision(7) << std::setw(12)
146 fDim(0), fNCells(0), fRNmax(0),
147 fOptDrive(0), fChat(0), fOptRej(0),
148 fNBin(0), fNSampl(0), fEvPerBin(0),
149 fMaskDiv(nullptr), fInhiDiv(nullptr), fOptPRD(0), fXdivPRD(nullptr),
150 fNoAct(0), fLastCe(0),
151 fMCMonit(nullptr), fMaxWtRej(0), fPrimAcu(nullptr),
152 fHistEdg(nullptr), fHistDbg(nullptr), fHistWt(nullptr),
153 fMCvect(nullptr), fMCwt(0), fRvec(nullptr),
154 fRho(nullptr), fMethodCall(nullptr), fPseRan(nullptr),
155 fNCalls(0), fNEffev(0),
156 fSumWt(0), fSumWt2(0),
157 fSumOve(0), fNevGen(0),
158 fWtMax(0), fWtMin(0),
159 fPrime(0), fMCresult(0), fMCerror(0),
167 fDim(0), fNCells(0), fRNmax(0),
168 fOptDrive(0), fChat(0), fOptRej(0),
169 fNBin(0), fNSampl(0), fEvPerBin(0),
170 fMaskDiv(nullptr), fInhiDiv(nullptr), fOptPRD(0), fXdivPRD(nullptr),
171 fNoAct(0), fLastCe(0),
172 fMCMonit(nullptr), fMaxWtRej(0), fPrimAcu(nullptr),
173 fHistEdg(nullptr), fHistDbg(nullptr), fHistWt(nullptr),
174 fMCvect(nullptr), fMCwt(0), fRvec(nullptr),
175 fRho(nullptr), fMethodCall(nullptr), fPseRan(nullptr),
176 fNCalls(0), fNEffev(0),
177 fSumWt(0), fSumWt2(0),
178 fSumOve(0), fNevGen(0),
179 fWtMax(0), fWtMin(0),
180 fPrime(0), fMCresult(0), fMCerror(0),
183 if(strlen(Name) >129) {
184 Error(
"TFoam",
"Name too long %s \n",Name);
187 fDate=
" Release date: 2005.04.10";
269 Error(
"TFoam",
"COPY CONSTRUCTOR NOT IMPLEMENTED \n");
329 BXTXT(
"****************************************");
330 BXTXT(
"****** TFoam::Initialize ******");
331 BXTXT(
"****************************************");
334 BX1I(
" kDim",
fDim,
" Dimension of the hyper-cubical space ");
335 BX1I(
" nCells",
fNCells,
" Requested number of Cells (half of them active) ");
336 BX1I(
" nSampl",
fNSampl,
" No of MC events in exploration of a cell ");
337 BX1I(
" nBin",
fNBin,
" No of bins in histograms, MC exploration of cell ");
338 BX1I(
" EvPerBin",
fEvPerBin,
" Maximum No effective_events/bin, MC exploration ");
339 BX1I(
" OptDrive",
fOptDrive,
" Type of Driver =1,2 for Sigma,WtMax ");
340 BX1I(
" OptRej",
fOptRej,
" MC rejection on/off for OptRej=0,1 ");
341 BX1F(
" MaxWtRej",
fMaxWtRej,
" Maximum wt in rejection for wt=1 evts");
345 if(
fPseRan==
nullptr)
Error(
"Initialize",
"Random number generator not set \n");
346 if(
fRho==
nullptr &&
fMethodCall==
nullptr )
Error(
"Initialize",
"Distribution function not set \n");
347 if(
fDim==0)
Error(
"Initialize",
"Zero dimension not allowed \n");
355 if(
fRvec==
nullptr)
Error(
"Initialize",
"Cannot initialize buffer fRvec \n");
359 if(
fAlpha==
nullptr)
Error(
"Initialize",
"Cannot initialize buffer fAlpha \n" );
362 if(
fMCvect==
nullptr)
Error(
"Initialize",
"Cannot initialize buffer fMCvect \n" );
387 htitle=
TString(
"Edge Histogram No. ");
398 htitle=
TString(
"Debug Histogram ");
430 BXTXT(
"*** TFoam::Initialize FINISHED!!! ***");
431 BX1I(
" nCalls",
fNCalls,
"Total number of function calls ");
432 BX1F(
" XPrime",
fPrime,
"Primary total integral ");
433 BX1F(
" XDiver",driver,
"Driver total integral ");
434 BX1F(
" mcResult",
fMCresult,
"Estimate of the true MC Integral ");
460 if(
fCells==
nullptr)
Error(
"InitCells",
"Cannot initialize CELLS \n" );
481 Error(
"CellFill",
"Too many cells\n");
488 cell->
Fill(Status, parent,
nullptr,
nullptr);
534 cell->
GetHcub(cellPosi,cellSize);
566 for(j=0; j<
fDim; j++)
567 xRand[j]= cellPosi[j] +
fAlpha[j]*(cellSize[j]);
574 for(k=0; k<
fDim; k++) {
585 if (ceSum[3]>wt) ceSum[3]=wt;
586 if (ceSum[4]<wt) ceSum[4]=wt;
588 nevEff = ceSum[1] == 0. ? 0. : ceSum[0]*ceSum[0]/ceSum[1];
593 for(k=0; k<
fDim;k++){
601 for(k=0; k<
fDim; k++) {
603 rmax= cellPosi[k] +cellSize[k];
609 if( (rmin +1
e-99 <rdiv) && (rdiv< rmax -1
e-99)) {
611 xBest= (rdiv-cellPosi[k])/cellSize[k] ;
623 Double_t intTrue = ceSum[0]/(nevMC+0.000001);
629 if(kBest == -1)
Varedu(ceSum,kBest,xBest,yBest);
631 intDriv =sqrt(ceSum[1]/nevMC) -intTrue;
632 intPrim =sqrt(ceSum[1]/nevMC);
635 if(kBest == -1)
Carver(kBest,xBest,yBest);
636 intDriv =ceSum[4] -intTrue;
640 Error(
"Explore",
"Wrong fOptDrive = \n" );
654 for(parent = cell->
GetPare(); parent!=
nullptr; parent = parent->
GetPare()){
657 parent->
SetIntg( parIntg +intTrue -intOld );
658 parent->
SetDriv( parDriv +intDriv -driOld );
677 Double_t ssw = sqrt(sswAll)/sqrt(nent);
679 Double_t swIn,swOut,sswIn,sswOut,xLo,xUp;
685 for(
Int_t kProj=0; kProj<
fDim; kProj++) {
696 aswIn += ((
TH1D *)(*
fHistEdg)[kProj])->GetBinContent(jUp);
701 swOut = (swAll-aswIn)/nent;
702 sswIn = sqrt(asswIn) /sqrt(nent*(xUp-xLo)) *(xUp-xLo);
703 sswOut= sqrt(sswAll-asswIn)/sqrt(nent*(1.0-xUp+xLo)) *(1.0-xUp+xLo);
704 if( (sswIn+sswOut) < sswtBest) {
705 sswtBest = sswIn+sswOut;
707 sigmIn = sswIn -swIn;
708 sigmOut = sswOut-swOut;
721 if( ((iBin-0.5)/
fNBin > xMin) && ((iBin-0.5)/
fNBin < xMax) ){
722 ((
TH1D *)(*
fHistDbg)[kProj])->SetBinContent(iBin,sigmIn/(xMax-xMin));
724 ((
TH1D *)(*
fHistDbg)[kProj])->SetBinContent(iBin,sigmOut/(1-xMax+xMin));
732 if(iLo == 0) xBest=yBest;
733 if(iUp ==
fNBin) yBest=xBest;
739 if( (kBest >=
fDim) || (kBest<0) )
Error(
"Varedu",
"Something wrong with kBest - kBest = %d dim = %d\n",kBest,
fDim);
752 Double_t carve,carvTot,carvMax,carvOne,binMax;
753 Int_t jLow,jUp,iLow,iUp;
759 if(bins==
nullptr)
Error(
"Carver",
"Cannot initialize buffer Bins \n" );
766 for(kProj=0; kProj<
fDim; kProj++)
772 for(iBin=0; iBin<
fNBin;iBin++){
773 bins[iBin]= ((
TH1D *)(*
fHistEdg)[kProj])->GetBinContent(iBin+1);
781 for(iBin=0;iBin<
fNBin;iBin++){
782 carvTot = carvTot + (binMax-bins[iBin]);
790 for(iBin=0; iBin<
fNBin;iBin++) {
794 for(j=iBin; j>-1; j-- ) {
795 if(theBin< bins[j])
break;
802 for(j=iBin; j<
fNBin; j++) {
803 if(theBin< bins[j])
break;
809 carve = (iUp-iLow+1)*(binMax-theBin);
810 if( carve > carvOne) {
817 if( carvTot > carvMax) {
824 if(jLow == 0 ) xBest = yBest;
825 if(jUp ==
fNBin-1) yBest = xBest;
832 for(iBin=0; iBin<
fNBin; iBin++)
833 ((
TH1D *)(*fHistDbg)[kProj])->SetBinContent(iBin+1,binMax);
834 for(iBin=jLow; iBin<jUp+1; iBin++)
835 ((
TH1D *)(*fHistDbg)[kProj])->SetBinContent(iBin+1,yLevel);
837 if( (kBest >=
fDim) || (kBest<0) )
Error(
"Carver",
"Something wrong with kBest - kBest = %d dim = %d\n",kBest,
fDim);
867 if( (iCell<0) || (iCell>
fLastCe) ) {
868 Error(
"Grow",
"Wrong iCell \n");
879 std::cout<<
fDim<<std::flush;
881 std::cout<<
"."<<std::flush;
882 if( (
fLastCe%(100*kEcho))==0) std::cout<<
"|"<<
fLastCe<<std::endl<<std::flush;
886 if(
Divide( newCell )==0)
break;
889 std::cout<<std::endl<<std::flush;
906 if(
getCell(i)->GetStat() == 1 ) {
917 std::cout <<
"STOP in TFoam::PeekMax: not found iCell=" << iCell << std::endl;
942 if( kBest<0 || kBest>=
fDim )
Error(
"Divide",
"Wrong kBest \n");
978 for(iCell=0; iCell<=
fLastCe; iCell++) {
979 if (
getCell(iCell)->GetStat()==1) {
986 if(
fPrime == 0.)
Error(
"MakeActiveList",
"Integrand function is zero \n" );
989 if(
fPrimAcu==
nullptr )
Error(
"MakeActiveList",
"Cant allocate fCellsAct or fPrimAcu \n");
992 for(iCell=0; iCell<
fNoAct; iCell++) {
1009 Info(
"ResetPseRan",
"Resetting random number generator \n");
1023 Error(
"SetRho",
"Bad function \n" );
1037 Error(
"SetRho",
"Bad function \n" );
1052 Info(
"ResetRho",
"!!! Resetting distribution function !!!\n");
1094 hit = lo + (
Int_t)( (
hi-lo)*(random-flo)/(fhi-flo)+0.5);
1135 rCell->
GetHcub(cellPosi,cellSize);
1136 for(j=0; j<
fDim; j++)
1216 mcError = mcResult *mCerelat;
1261 Double_t mCerelat= mcError/mcResult;
1268 if(wtMax>0.0) mCeff=aveWt/wtMax;
1269 mcEf2 =
sigma/aveWt;
1273 BXTXT(
"****************************************");
1274 BXTXT(
"****** TFoam::Finalize ******");
1275 BXTXT(
"****************************************");
1276 BX1I(
" NevGen",
fNevGen,
"Number of generated events in the MC generation ");
1277 BX1I(
" nCalls",
fNCalls,
"Total number of function calls ");
1278 BXTXT(
"----------------------------------------");
1279 BX1F(
" AveWt",aveWt,
"Average MC weight ");
1280 BX1F(
" WtMin",
fWtMin,
"Minimum MC weight (absolute) ");
1281 BX1F(
" WtMax",
fWtMax,
"Maximum MC weight (absolute) ");
1282 BXTXT(
"----------------------------------------");
1283 BX1F(
" XPrime",
fPrime,
"Primary total integral, R_prime ");
1284 BX1F(
" XDiver",driver,
"Driver total integral, R_loss ");
1285 BXTXT(
"----------------------------------------");
1286 BX2F(
" IntMC", mcResult, mcError,
"Result of the MC Integral");
1287 BX1F(
" mCerelat", mCerelat,
"Relative error of the MC integral ");
1288 BX1F(
" <w>/WtMax",mCeff,
"MC efficiency, acceptance rate");
1289 BX1F(
" Sigma/<w>",mcEf2,
"MC efficiency, variance/ave_wt");
1290 BX1F(
" WtMax",wtMax,
"WtMax(esp= 0.0005) ");
1291 BX1F(
" Sigma",
sigma,
"variance of MC weight ");
1294 BX1F(
"<OveW>/<W>",avOve,
"Contrib. of events wt>MaxWtRej");
1312 if(
fDim==0)
Error(
"TFoam",
"SetInhiDiv: fDim=0 \n");
1318 if( ( 0<=iDim) && (iDim<
fDim)) {
1321 Error(
"SetInhiDiv:",
"Wrong iDim \n");
1342 if(
fDim<=0)
Error(
"SetXdivPRD",
"fDim=0 \n");
1343 if(
len<1 )
Error(
"SetXdivPRD",
"len<1 \n");
1350 if( ( 0<=iDim) && (iDim<
fDim)) {
1353 Error(
"SetXdivPRD",
"Second allocation of XdivPRD not allowed \n");
1355 for(i=0; i<
len; i++) {
1359 Error(
"SetXdivPRD",
"Wrong iDim \n");
1362 std::cout<<
" SetXdivPRD, idim= "<<iDim<<
" len= "<<
len<<
" "<<std::endl;
1363 for(i=0; i<
len; i++) {
1364 if (iDim <
fDim) std::cout<< (*
fXdivPRD[iDim])[i] <<
" ";
1366 std::cout<<std::endl;
1367 for(i=0; i<
len; i++) std::cout<< xDiv[i] <<
" ";
1368 std::cout<<std::endl;
1380 Int_t errors, warnings;
1384 errors = 0; warnings = 0;
1385 if (level==1) std::cout <<
"///////////////////////////// FOAM_Checks /////////////////////////////////" << std::endl;
1386 for(iCell=1; iCell<=
fLastCe; iCell++) {
1389 if( ((cell->
GetDau0()==
nullptr) && (cell->
GetDau1()!=
nullptr) ) ||
1392 if (level==1)
Error(
"CheckAll",
"ERROR: Cell's no %ld has only one daughter \n",iCell);
1396 if (level==1)
Error(
"CheckAll",
"ERROR: Cell's no %ld has no daughter and is inactive \n",iCell);
1400 if (level==1)
Error(
"CheckAll",
"ERROR: Cell's no %ld has two daughters and is active \n",iCell);
1407 if (level==1)
Error(
"CheckAll",
"ERROR: Cell's no %ld parent not pointing to this cell\n ",iCell);
1412 if(cell->
GetDau0()!=
nullptr) {
1415 if (level==1)
Error(
"CheckAll",
"ERROR: Cell's no %ld daughter 0 not pointing to this cell \n",iCell);
1418 if(cell->
GetDau1()!=
nullptr) {
1421 if (level==1)
Error(
"CheckAll",
"ERROR: Cell's no %ld daughter 1 not pointing to this cell \n",iCell);
1427 for(iCell=0; iCell<=
fLastCe; iCell++) {
1431 if(level==1)
Warning(
"CheckAll",
"Warning: Cell no. %ld is active but empty \n", iCell);
1436 Info(
"CheckAll",
"Check has found %d errors and %d warnings \n",errors, warnings);
1439 Info(
"CheckAll",
"Check - found total %d errors \n",errors);
1450 for(iCell=0; iCell<=
fLastCe; iCell++) {
1451 std::cout<<
"Cell["<<iCell<<
"]={ ";
1453 std::cout<<std::endl;
1455 std::cout<<
"}"<<std::endl;
1465 std::ofstream outfile(
filename, std::ios::out);
1470 outfile<<
"{" << std::endl;
1471 outfile<<
"cMap = new TCanvas(\"Map1\",\" Cell Map \",600,600);"<<std::endl;
1473 outfile<<
"TBox*a=new TBox();"<<std::endl;
1474 outfile<<
"a->SetFillStyle(0);"<<std::endl;
1475 outfile<<
"a->SetLineWidth(4);"<<std::endl;
1476 outfile<<
"a->SetLineColor(2);"<<std::endl;
1477 outfile<<
"a->DrawBox("<<offs<<
","<<offs<<
","<<(offs+lpag)<<
","<<(offs+lpag)<<
");"<<std::endl;
1479 outfile<<
"TText*t=new TText();"<<std::endl;
1480 outfile<<
"t->SetTextColor(4);"<<std::endl;
1482 outfile<<
"t->SetTextSize(0.025);"<<std::endl;
1484 outfile<<
"t->SetTextSize(0.015);"<<std::endl;
1486 outfile<<
"t->SetTextSize(0.008);"<<std::endl;
1488 outfile<<
"TBox*b=new TBox();"<<std::endl;
1489 outfile <<
"b->SetFillStyle(0);"<<std::endl;
1493 outfile <<
"// =========== Rectangular cells ==========="<< std::endl;
1494 for(iCell=1; iCell<=
fLastCe; iCell++) {
1495 if(
getCell(iCell)->GetStat() == 1) {
1497 x1 = offs+lpag*( cellPosi[0]);
y1 = offs+lpag*( cellPosi[1]);
1498 x2 = offs+lpag*(cellPosi[0]+cellSize[0]);
y2 = offs+lpag*(cellPosi[1]+cellSize[1]);
1501 outfile<<
"b->DrawBox("<<
x1<<
","<<
y1<<
","<<
x2<<
","<<
y2<<
");"<<std::endl;
1504 x = offs+lpag*(cellPosi[0]+0.5*cellSize[0]);
y = offs+lpag*(cellPosi[1]+0.5*cellSize[1]);
1505 outfile<<
"t->DrawText("<<
x<<
","<<
y<<
","<<
"\""<<iCell<<
"\""<<
");"<<std::endl;
1509 outfile<<
"// ============== End Rectangles ==========="<< std::endl;
1513 outfile <<
"}" << std::endl;
1521 Info(
"LinkCells",
"VOID function for backward compatibility \n");
1528 if(
fCells[i]->GetCells() ==
nullptr) {
#define BX1F(name, numb, text)
#define BX1I(name, numb, text)
#define BX2F(name, numb, err, text)
static const Double_t gVlow
static const Double_t gHigh
Option_t Option_t TPoint TPoint const char GetTextMagnitude GetFillStyle GetLineColor GetLineWidth GetMarkerStyle GetTextAlign GetTextColor GetTextSize void char Point_t Rectangle_t WindowAttributes_t Float_t Float_t Float_t Int_t Int_t UInt_t UInt_t Rectangle_t Int_t Int_t Window_t TString Int_t GCValues_t GetPrimarySelectionOwner GetDisplay GetScreen GetColormap GetNativeEvent const char const char dpyName wid window const char font_name cursor keysym reg const char only_if_exist regb h Point_t winding char text const char depth char const char Int_t count const char ColorStruct_t color const char filename
Option_t Option_t TPoint TPoint const char GetTextMagnitude GetFillStyle GetLineColor GetLineWidth GetMarkerStyle GetTextAlign GetTextColor GetTextSize void char Point_t Rectangle_t WindowAttributes_t Float_t Float_t Float_t Int_t Int_t UInt_t UInt_t Rectangle_t result
Option_t Option_t TPoint TPoint const char GetTextMagnitude GetFillStyle GetLineColor GetLineWidth GetMarkerStyle GetTextAlign GetTextColor GetTextSize void char Point_t Rectangle_t WindowAttributes_t Float_t Float_t Float_t Int_t Int_t UInt_t UInt_t Rectangle_t Int_t Int_t Window_t TString Int_t GCValues_t GetPrimarySelectionOwner GetDisplay GetScreen GetColormap GetNativeEvent const char const char dpyName wid window const char font_name cursor keysym reg const char only_if_exist regb h Point_t winding char text const char depth char const char Int_t count const char ColorStruct_t color const char Pixmap_t Pixmap_t PictureAttributes_t attr const char char ret_data h unsigned char height h Atom_t Int_t ULong_t ULong_t unsigned char prop_list Atom_t Atom_t Atom_t Time_t UChar_t len
Option_t Option_t TPoint TPoint const char x2
Option_t Option_t TPoint TPoint const char x1
Option_t Option_t TPoint TPoint const char y2
Option_t Option_t TPoint TPoint const char y1
Double_t Density(Int_t nDim, Double_t *x) override
~FoamIntegrandFunction() override
FoamIntegrandFunction(FunctionPtr func)
Double_t(* FunctionPtr)(Int_t, Double_t *)
void SetXdiv(Double_t Xdiv)
TFoamCell * GetDau1() const
void CalcVolume()
Calculates volume of the cell using size params which are calculated.
Double_t GetVolume() const
TFoamCell * GetDau0() const
void Print(Option_t *option) const override
Printout of the cell geometry parameters for the debug purpose.
void SetCells(TFoamCell **cells)
void GetHcub(TFoamVect &, TFoamVect &) const
Provides size and position of the cell These parameter are calculated by analyzing information in all...
TFoamCell * GetPare() const
void SetSerial(Int_t Serial)
void Fill(Int_t, TFoamCell *, TFoamCell *, TFoamCell *)
Fills in certain data into newly allocated cell.
void SetDau1(TFoamCell *Daug)
void SetPrim(Double_t Prim)
void SetDriv(Double_t Driv)
void SetIntg(Double_t Intg)
void SetDau0(TFoamCell *Daug)
Abstract class representing n-dimensional real positive integrand function.
virtual Double_t Density(Int_t ndim, Double_t *)=0
Small auxiliary class for controlling MC weight.
void Fill(Double_t)
Filling analyzed weight.
void GetMCeff(Double_t, Double_t &, Double_t &)
Calculates Efficiency= aveWt/wtLim for a given tolerance level epsilon<<1 using information stored in...
Auxiliary class TFoamVect of n-dimensional vector, with dynamic allocation used for the cartesian geo...
TFoam is the main class of the multi-dimensional general purpose Monte Carlo event generator (integra...
TFoamCell * getCell(std::size_t i) const
virtual void MakeActiveList()
Internal method used by Initialize.
virtual void CheckAll(Int_t)
User utility, miscellaneous and debug.
TString fName
Name of a given instance of the FOAM class.
virtual Int_t Divide(TFoamCell *)
Internal method used by Initialize.
virtual void PrintCells()
Prints geometry of ALL cells of the FOAM.
TH1D * fHistWt
Histogram of the MC wt.
virtual void GetMCvect(Double_t *)
User may get generated MC point/vector with help of this method.
TFoamIntegrand * fRho
! Pointer to the user-defined integrand function/distribution
TRandom * fPseRan
Pointer to user-defined generator of pseudorandom numbers.
Double_t fMCerror
and its error
Double_t fPrime
Primary integral R' (R=R'<wt>)
Int_t fChat
Chat=0,1,2 chat level in output, Chat=1 normal level.
virtual void InitCells()
Internal method used by Initialize.
Double_t fNevGen
Total number of the generated MC events.
virtual void MakeEvent()
User method.
Double_t fSumWt2
Total sum of wt and wt^2.
TFoamVect ** fXdivPRD
! Lists of division values encoded in one vector per direction
~TFoam() override
Default destructor.
virtual Long_t PeekMax()
Internal method used by Initialize.
virtual void GenerCel2(TFoamCell *&)
Internal method.
virtual void Initialize()
Basic initialization of FOAM invoked by the user.
virtual void Varedu(Double_t[5], Int_t &, Double_t &, Double_t &)
Internal method used by Initialize.
virtual void GetIntNorm(Double_t &, Double_t &)
User method.
TFoamMaxwt * fMCMonit
Monitor of the MC weight for measuring MC efficiency.
Int_t fRNmax
Maximum No. of the rand. numb. requested at once.
Int_t * fInhiDiv
! [fDim] Flags for inhibiting cell division
Long_t fNCalls
Total number of the function calls.
virtual Double_t GetMCwt()
User may get weight MC weight using this method.
Double_t fWtMin
Maximum/Minimum MC weight.
virtual void ResetRho(TFoamIntegrand *Rho)
User may optionally reset the distribution using this method.
Int_t fEvPerBin
Maximum number of effective (wt=1) events per bin.
virtual void GetIntegMC(Double_t &, Double_t &)
User method.
Double_t fMaxWtRej
Maximum weight in rejection for getting wt=1 events.
Int_t fNCells
Maximum number of cells.
Double_t * fRvec
[fRNmax] random number vector from r.n. generator fDim+1 maximum elements
virtual void RootPlot2dim(Char_t *)
Debugging tool which plots 2-dimensional cells as rectangles in C++ format readable for root.
Double_t * fAlpha
[fDim] Internal parameters of the hyper-rectangle
Int_t fOptDrive
Optimization switch =1,2 for variance or maximum weight optimization.
virtual void Explore(TFoamCell *Cell)
Internal method used by Initialize.
virtual Double_t Eval(Double_t *)
Internal method.
virtual void MakeAlpha()
Internal method used by Initialize.
virtual void ResetPseRan(TRandom *PseRan)
User may optionally reset random number generator using this method.
TMethodCall * fMethodCall
! ROOT's pointer to user-defined global distribution function
Double_t Sqr(Double_t x) const
Int_t fLastCe
Index of the last cell.
Int_t fOptPRD
Option switch for predefined division, for quick check.
TObjArray * fHistDbg
Histograms of wt, for debug.
virtual void SetXdivPRD(Int_t, Int_t, Double_t[])
This should be called before Initialize, after setting kDim It predefines values of the cell division...
Double_t fSumOve
Total Sum of overweighted events.
virtual void SetInhiDiv(Int_t, Int_t)
This can be called before Initialize, after setting kDim It defines which variables are excluded in t...
std::vector< Long_t > fCellsAct
Index of active cells, constructed at the end of foam build-up.
Int_t * fMaskDiv
! [fDim] Dynamic Mask for cell division
virtual void LinkCells(void)
virtual void SetRho(TFoamIntegrand *Rho)
User may use this method to set the distribution object.
virtual void SetRhoInt(Double_t(*fun)(Int_t, Double_t *))
User may use this method to set the distribution object as a global function pointer (and not as an i...
Int_t fNoAct
Number of active cells.
virtual void Finalize(Double_t &, Double_t &)
May be called optionally by the user after the MC run.
Long_t fNEffev
Total number of effective events (wt=1) in the foam buildup.
Int_t fOptRej
Switch =0 for weighted events; =1 for unweighted events in MC.
Double_t * fPrimAcu
[fNoAct] Array of cumulative probability of all active cells
virtual Double_t MCgenerate(Double_t *MCvect)
User method which generates MC event and returns MC weight.
Double_t * fMCvect
[fDim] Generated MC vector for the outside user
TString fVersion
Actual version of the FOAM like (1.01m)
virtual Int_t CellFill(Int_t, TFoamCell *)
Internal method used by Initialize.
Int_t fDim
Dimension of the integration/simulation space.
Int_t fNSampl
No. of MC events, when dividing (exploring) cell.
TString fDate
Release date of FOAM.
TFoamCell ** fCells
[fNCells] Array of ALL cells
virtual void SetPseRan(TRandom *PseRan)
TObjArray * fHistEdg
Histograms of wt, one for each cell edge.
Double_t fMCresult
True Integral R from MC series.
virtual void GetWtParams(Double_t, Double_t &, Double_t &, Double_t &)
May be called optionally after the MC run.
Int_t fNBin
No. of bins in the edge histogram for cell MC exploration.
virtual void Grow()
Internal method used by Initialize.
TFoam()
Default constructor for streamer, user should not use it.
virtual void Carver(Int_t &, Double_t &, Double_t &)
Internal method used by Initialize.
1-D histogram with a double per channel (see TH1 documentation)}
void Reset(Option_t *option="") override
Reset.
static void AddDirectory(Bool_t add=kTRUE)
Sets the flag controlling the automatic add of histograms in memory.
virtual Int_t Fill(Double_t x)
Increment bin with abscissa X by 1.
static Bool_t AddDirectoryStatus()
Static function: cannot be inlined on Windows/NT.
void Execute(const char *, const char *, int *=nullptr) override
Execute method on this object with the given parameter string, e.g.
void SetParamPtrs(void *paramArr, Int_t nparam=-1)
ParamArr is an array containing the function argument values.
void Delete(Option_t *option="") override
Remove all objects from the array AND delete all heap based objects.
Mother of all ROOT objects.
virtual void Warning(const char *method, const char *msgfmt,...) const
Issue warning message.
virtual void Error(const char *method, const char *msgfmt,...) const
Issue error message.
virtual void Info(const char *method, const char *msgfmt,...) const
Issue info message.
This is the base class for the ROOT Random number generators.
virtual void RndmArray(Int_t n, Float_t *array)
Return an array of n random numbers uniformly distributed in ]0,1].
Double_t Rndm() override
Machine independent random number generator.
const char * Data() const
Short_t Max(Short_t a, Short_t b)
Returns the largest of a and b.
Short_t Min(Short_t a, Short_t b)
Returns the smallest of a and b.
Short_t Abs(Short_t d)
Returns the absolute value of parameter Short_t d.
static uint64_t sum(uint64_t i)