#include "RConfigure.h"
#include "Riostream.h"
#include "TSystem.h"
#include "TObjArray.h"
#include "TVirtualGeoPainter.h"
#include "TGeoManager.h"
#include "TGeoElement.h"
#include "TMath.h"
static const Int_t gMaxElem = 110;
static const Int_t gMaxLevel = 8;
static const Int_t gMaxDecay = 15;
static const char gElName[gMaxElem][3] = {
"H ","He","Li","Be","B ","C ","N ","O ","F ","Ne","Na","Mg",
"Al","Si","P ","S ","Cl","Ar","K ","Ca","Sc","Ti","V ","Cr",
"Mn","Fe","Co","Ni","Cu","Zn","Ga","Ge","As","Se","Br","Kr",
"Rb","Sr","Y ","Zr","Nb","Mo","Tc","Ru","Rh","Pd","Ag","Cd",
"In","Sn","Sb","Te","I ","Xe","Cs","Ba","La","Ce","Pr","Nd",
"Pm","Sm","Eu","Gd","Tb","Dy","Ho","Er","Tm","Yb","Lu","Hf",
"Ta","W ","Re","Os","Ir","Pt","Au","Hg","Tl","Pb","Bi","Po",
"At","Rn","Fr","Ra","Ac","Th","Pa","U ","Np","Pu","Am","Cm",
"Bk","Cf","Es","Fm","Md","No","Lr","Rf","Db","Sg","Bh","Hs",
"Mt","Ds" };
static const char *gDecayName[gMaxDecay+1] = {
"2BetaMinus", "BetaMinus", "NeutronEm", "ProtonEm", "Alpha", "ECF",
"ElecCapt", "IsoTrans", "I", "SpontFiss", "2ProtonEm", "2NeutronEm",
"2Alpha", "Carbon12", "Carbon14", "Stable" };
static const Int_t gDecayDeltaA[gMaxDecay] = {
0, 0, -1, -1, -4,
-99, 0, 0, -99, -99,
-2, -2, -8, -12, -14 };
static const Int_t gDecayDeltaZ[gMaxDecay] = {
2, 1, 0, -1, -2,
-99, -1, 0, -99, -99,
-2, 0, -4, -6, -6 };
static const char gLevName[gMaxLevel]=" mnpqrs";
ClassImp(TGeoElement)
TGeoElement::TGeoElement()
{
SetDefined(kFALSE);
SetUsed(kFALSE);
fZ = 0;
fN = 0;
fNisotopes = 0;
fA = 0.0;
fIsotopes = NULL;
fAbundances = NULL;
}
TGeoElement::TGeoElement(const char *name, const char *title, Int_t z, Double_t a)
:TNamed(name, title)
{
SetDefined(kFALSE);
SetUsed(kFALSE);
fZ = z;
fN = Int_t(a);
fNisotopes = 0;
fA = a;
fIsotopes = NULL;
fAbundances = NULL;
}
TGeoElement::TGeoElement(const char *name, const char *title, Int_t nisotopes)
:TNamed(name, title)
{
SetDefined(kFALSE);
SetUsed(kFALSE);
fZ = 0;
fN = 0;
fNisotopes = nisotopes;
fA = 0.0;
fIsotopes = new TObjArray(nisotopes);
fAbundances = new Double_t[nisotopes];
}
TGeoElement::TGeoElement(const char *name, const char *title, Int_t z, Int_t n, Double_t a)
:TNamed(name, title)
{
SetDefined(kFALSE);
SetUsed(kFALSE);
fZ = z;
fN = n;
fNisotopes = 0;
fA = a;
fIsotopes = NULL;
fAbundances = NULL;
}
void TGeoElement::Print(Option_t *option) const
{
printf("Element: %s Z=%d N=%f A=%f [g/mole]\n", GetName(), fZ,Neff(),fA);
if (HasIsotopes()) {
for (Int_t i=0; i<fNisotopes; i++) {
TGeoIsotope *iso = GetIsotope(i);
printf("=>Isotope %s, abundance=%f :\n", iso->GetName(), fAbundances[i]);
iso->Print(option);
}
}
}
TGeoElementTable *TGeoElement::GetElementTable()
{
if (!gGeoManager) {
::Error("TGeoElementTable::GetElementTable", "Create a geometry manager first");
return NULL;
}
return gGeoManager->GetElementTable();
}
void TGeoElement::AddIsotope(TGeoIsotope *isotope, Double_t relativeAbundance)
{
if (!fIsotopes) {
Fatal("AddIsotope", "Cannot add isotopes to normal elements. Use constructor with number of isotopes.");
return;
}
Int_t ncurrent = 0;
TGeoIsotope *isocrt;
for (ncurrent=0; ncurrent<fNisotopes; ncurrent++)
if (!fIsotopes->At(ncurrent)) break;
if (ncurrent==fNisotopes) {
Error("AddIsotope", "All %d isotopes of element %s already defined", fNisotopes, GetName());
return;
}
if ((fZ!=0) && (isotope->GetZ()!=fZ)) {
Fatal("AddIsotope", "Trying to add isotope %s with different Z to the same element %s",
isotope->GetName(), GetName());
return;
} else {
fZ = isotope->GetZ();
}
fIsotopes->Add(isotope);
fAbundances[ncurrent] = relativeAbundance;
if (ncurrent==fNisotopes-1) {
Double_t weight = 0.0;
Double_t aeff = 0.0;
Double_t neff = 0.0;
for (Int_t i=0; i<fNisotopes; i++) {
isocrt = (TGeoIsotope*)fIsotopes->At(i);
aeff += fAbundances[i]*isocrt->GetA();
neff += fAbundances[i]*isocrt->GetN();
weight += fAbundances[i];
}
aeff /= weight;
neff /= weight;
fN = (Int_t)neff;
fA = aeff;
}
}
Double_t TGeoElement::Neff() const
{
if (!fNisotopes) return fN;
TGeoIsotope *isocrt;
Double_t weight = 0.0;
Double_t neff = 0.0;
for (Int_t i=0; i<fNisotopes; i++) {
isocrt = (TGeoIsotope*)fIsotopes->At(i);
neff += fAbundances[i]*isocrt->GetN();
weight += fAbundances[i];
}
neff /= weight;
return neff;
}
TGeoIsotope *TGeoElement::GetIsotope(Int_t i) const
{
if (i>=0 && i<fNisotopes) {
return (TGeoIsotope*)fIsotopes->At(i);
}
return NULL;
}
Double_t TGeoElement::GetRelativeAbundance(Int_t i) const
{
if (i>=0 && i<fNisotopes) return fAbundances[i];
return 0.0;
}
ClassImp(TGeoIsotope)
TGeoIsotope::TGeoIsotope()
:TNamed(),
fZ(0),
fN(0),
fA(0)
{
}
TGeoIsotope::TGeoIsotope(const char *name, Int_t z, Int_t n, Double_t a)
:TNamed(name,""),
fZ(z),
fN(n),
fA(a)
{
if (z<1) Fatal("ctor", "Not allowed Z=%d (<1) for isotope: %s", z,name);
if (n<z) Fatal("ctor", "Not allowed Z=%d < N=%d for isotope: %s", z,n,name);
TGeoElement::GetElementTable()->AddIsotope(this);
}
TGeoIsotope *TGeoIsotope::FindIsotope(const char *name)
{
TGeoElementTable *elTable = TGeoElement::GetElementTable();
return elTable->FindIsotope(name);
}
void TGeoIsotope::Print(Option_t *) const
{
printf("Isotope: %s Z=%d N=%d A=%f [g/mole]\n", GetName(), fZ,fN,fA);
}
ClassImp(TGeoElementRN)
TGeoElementRN::TGeoElementRN()
{
TObject::SetBit(kElementChecked,kFALSE);
fENDFcode = 0;
fIso = 0;
fLevel = 0;
fDeltaM = 0;
fHalfLife = 0;
fNatAbun = 0;
fTH_F = 0;
fTG_F = 0;
fTH_S = 0;
fTG_S = 0;
fStatus = 0;
fRatio = 0;
fDecays = 0;
}
TGeoElementRN::TGeoElementRN(Int_t aa, Int_t zz, Int_t iso, Double_t level,
Double_t deltaM, Double_t halfLife, const char* JP,
Double_t natAbun, Double_t th_f, Double_t tg_f, Double_t th_s,
Double_t tg_s, Int_t status)
:TGeoElement("", JP, zz, aa)
{
TObject::SetBit(kElementChecked,kFALSE);
fENDFcode = ENDF(aa,zz,iso);
fIso = iso;
fLevel = level;
fDeltaM = deltaM;
fHalfLife = halfLife;
fTitle = JP;
if (!fTitle.Length()) fTitle = "?";
fNatAbun = natAbun;
fTH_F = th_f;
fTG_F = tg_f;
fTH_S = th_s;
fTG_S = tg_s;
fStatus = status;
fDecays = 0;
fRatio = 0;
MakeName(aa,zz,iso);
if ((TMath::Abs(fHalfLife)<1.e-30) || fHalfLife<-1) Warning("ctor","Element %s has T1/2=%g [s]", fName.Data(), fHalfLife);
}
TGeoElementRN::~TGeoElementRN()
{
if (fDecays) {
fDecays->Delete();
delete fDecays;
}
if (fRatio) delete fRatio;
}
void TGeoElementRN::AddDecay(Int_t decay, Int_t diso, Double_t branchingRatio, Double_t qValue)
{
if (branchingRatio<1E-20) {
TString decayName;
TGeoDecayChannel::DecayName(decay, decayName);
Warning("AddDecay", "Decay %s of %s has BR=0. Not added.", decayName.Data(),fName.Data());
return;
}
TGeoDecayChannel *dc = new TGeoDecayChannel(decay,diso,branchingRatio, qValue);
dc->SetParent(this);
if (!fDecays) fDecays = new TObjArray(5);
fDecays->Add(dc);
}
void TGeoElementRN::AddDecay(TGeoDecayChannel *dc)
{
dc->SetParent(this);
if (!fDecays) fDecays = new TObjArray(5);
fDecays->Add(dc);
}
Int_t TGeoElementRN::GetNdecays() const
{
if (!fDecays) return 0;
return fDecays->GetEntriesFast();
}
Bool_t TGeoElementRN::CheckDecays() const
{
if (TObject::TestBit(kElementChecked)) return kTRUE;
TObject *oelem = (TObject*)this;
TGeoDecayChannel *dc;
TGeoElementRN *elem;
TGeoElementTable *table = GetElementTable();
TString decayName;
if (!table) {
Error("CheckDecays", "Element table not present");
return kFALSE;
}
Bool_t resultOK = kTRUE;
if (!fDecays) {
oelem->SetBit(kElementChecked,kTRUE);
return resultOK;
}
Double_t br = 0.;
Int_t decayResult = 0;
TIter next(fDecays);
while ((dc=(TGeoDecayChannel*)next())) {
br += dc->BranchingRatio();
decayResult = DecayResult(dc);
if (decayResult) {
elem = table->GetElementRN(decayResult);
if (!elem) {
TGeoDecayChannel::DecayName(dc->Decay(),decayName);
Error("CheckDecays", "Element after decay %s of %s not found in DB", decayName.Data(),fName.Data());
return kFALSE;
}
dc->SetDaughter(elem);
resultOK = elem->CheckDecays();
}
}
if (TMath::Abs(br-100) > 1.E-3) {
Warning("CheckDecays", "BR for decays of element %s sum-up = %f", fName.Data(), br);
resultOK = kFALSE;
}
oelem->SetBit(kElementChecked,kTRUE);
return resultOK;
}
Int_t TGeoElementRN::DecayResult(TGeoDecayChannel *dc) const
{
Int_t da, dz, diso;
dc->DecayShift(da, dz, diso);
if (da == -99 || dz == -99) return 0;
return ENDF(Int_t(fA)+da,fZ+dz,fIso+diso);
}
void TGeoElementRN::FillPopulation(TObjArray *population, Double_t precision, Double_t factor)
{
TGeoElementRN *elem;
TGeoElemIter next(this, precision);
TGeoBatemanSol s(this);
s.Normalize(factor);
AddRatio(s);
if (!population->FindObject(this)) population->Add(this);
while ((elem=next())) {
TGeoBatemanSol ratio(next.GetBranch());
ratio.Normalize(factor);
elem->AddRatio(ratio);
if (!population->FindObject(elem)) population->Add(elem);
}
}
void TGeoElementRN::MakeName(Int_t a, Int_t z, Int_t iso)
{
fName = "";
if (z==0 && a==1) {
fName = "neutron";
return;
}
if (z>=1 && z<= gMaxElem) fName += TString::Format("%3d-%s-",z,gElName[z-1]);
else fName = "?? -?? -";
if (a>=1 && a<=999) fName += TString::Format("%3.3d",a);
else fName += "??";
if (iso>0 && iso<gMaxLevel) fName += TString::Format("%c", gLevName[iso]);
fName.ReplaceAll(" ","");
}
void TGeoElementRN::Print(Option_t *option) const
{
printf("\n%-12s ",fName.Data());
printf("ENDF=%d; ",fENDFcode);
printf("A=%d; ",(Int_t)fA);
printf("Z=%d; ",fZ);
printf("Iso=%d; ",fIso);
printf("Level=%g[MeV]; ",fLevel);
printf("Dmass=%g[MeV]; ",fDeltaM);
if (fHalfLife>0) printf("Hlife=%g[s]\n",fHalfLife);
else printf("Hlife=INF\n");
printf("%13s"," ");
printf("J/P=%s; ",fTitle.Data());
printf("Abund=%g; ",fNatAbun);
printf("Htox=%g; ",fTH_F);
printf("Itox=%g; ",fTG_F);
printf("Stat=%d\n",fStatus);
if(!fDecays) return;
printf("Decay modes:\n");
TIter next(fDecays);
TGeoDecayChannel *dc;
while ((dc=(TGeoDecayChannel*)next())) dc->Print(option);
}
TGeoElementRN *TGeoElementRN::ReadElementRN(const char *line, Int_t &ndecays)
{
Int_t a,z,iso,status;
Double_t level, deltaM, halfLife, natAbun, th_f, tg_f, th_s, tg_s;
char name[20],jp[20];
sscanf(&line[0], "%s%d%d%d%lg%lg%lg%s%lg%lg%lg%lg%lg%d%d", name,&a,&z,&iso,&level,&deltaM,
&halfLife,jp,&natAbun,&th_f,&tg_f,&th_s,&tg_s,&status,&ndecays);
TGeoElementRN *elem = new TGeoElementRN(a,z,iso,level,deltaM,halfLife,
jp,natAbun,th_f,tg_f,th_s,tg_s,status);
return elem;
}
void TGeoElementRN::SavePrimitive(ostream &out, Option_t *option)
{
if (!strcmp(option,"h")) {
out << "#====================================================================================================================================" << endl;
out << "# Name A Z ISO LEV[MeV] DM[MeV] T1/2[s] J/P ABUND[%] HTOX ITOX HTOX ITOX STAT NDCY" << endl;
out << "#====================================================================================================================================" << endl;
}
out << setw(11) << fName.Data();
out << setw(5) << (Int_t)fA;
out << setw(5) << fZ;
out << setw(5) << fIso;
out << setw(10) << setiosflags(ios::fixed) << setprecision(5) << fLevel;
out << setw(10) << setiosflags(ios::fixed) << setprecision(5) << fDeltaM;
out << setw(10) << setiosflags(ios::scientific) << setprecision(3) << fHalfLife;
out << setw(13) << fTitle.Data();
out << setw(10) << setiosflags(ios::fixed) << setprecision(5) << fNatAbun;
out << setw(10) << setiosflags(ios::fixed) << setprecision(5) << fTH_F;
out << setw(10) << setiosflags(ios::fixed) << setprecision(5) << fTG_F;
out << setw(10) << setiosflags(ios::fixed) << setprecision(5) << fTH_S;
out << setw(10) << setiosflags(ios::fixed) << setprecision(5) << fTG_S;
out << setw(5) << fStatus;
Int_t ndecays = 0;
if (fDecays) ndecays = fDecays->GetEntries();
out << setw(5) << ndecays;
out << endl;
if (fDecays) {
TIter next(fDecays);
TGeoDecayChannel *dc;
while ((dc=(TGeoDecayChannel*)next())) dc->SavePrimitive(out);
}
}
void TGeoElementRN::AddRatio(TGeoBatemanSol &ratio)
{
if (!fRatio) fRatio = new TGeoBatemanSol(ratio);
else *fRatio += ratio;
}
void TGeoElementRN::ResetRatio()
{
if (fRatio) {
delete fRatio;
fRatio = 0;
}
}
ClassImp(TGeoDecayChannel)
TGeoDecayChannel& TGeoDecayChannel::operator=(const TGeoDecayChannel& dc)
{
if(this!=&dc) {
TObject::operator=(dc);
fDecay = dc.fDecay;
fDiso = dc.fDiso;
fBranchingRatio = dc.fBranchingRatio;
fQvalue = dc.fQvalue;
fParent = dc.fParent;
fDaughter = dc.fDaughter;
}
return *this;
}
const char *TGeoDecayChannel::GetName() const
{
static TString name = "";
name = "";
if (!fDecay) return gDecayName[gMaxDecay];
for (Int_t i=0; i<gMaxDecay; i++) {
if (1<<i & fDecay) {
if (name.Length()) name += "+";
name += gDecayName[i];
}
}
return name.Data();
}
void TGeoDecayChannel::DecayName(UInt_t decay, TString &name)
{
if (!decay) {
name = gDecayName[gMaxDecay];
return;
}
name = "";
for (Int_t i=0; i<gMaxDecay; i++) {
if (1<<i & decay) {
if (name.Length()) name += "+";
name += gDecayName[i];
}
}
}
Int_t TGeoDecayChannel::GetIndex() const
{
return fParent->Decays()->IndexOf(this);
}
void TGeoDecayChannel::Print(Option_t *) const
{
TString name;
DecayName(fDecay, name);
printf("%-20s Diso: %3d BR: %9.3f%% Qval: %g\n", name.Data(),fDiso,fBranchingRatio,fQvalue);
}
TGeoDecayChannel *TGeoDecayChannel::ReadDecay(const char *line)
{
char name[80];
Int_t decay,diso;
Double_t branchingRatio, qValue;
sscanf(&line[0], "%s%d%d%lg%lg", name,&decay,&diso,&branchingRatio,&qValue);
TGeoDecayChannel *dc = new TGeoDecayChannel(decay,diso,branchingRatio,qValue);
return dc;
}
void TGeoDecayChannel::SavePrimitive(ostream &out, Option_t *)
{
TString decayName;
DecayName(fDecay, decayName);
out << setw(50) << decayName.Data();
out << setw(10) << fDecay;
out << setw(10) << fDiso;
out << setw(12) << setiosflags(ios::fixed) << setprecision(6) << fBranchingRatio;
out << setw(12) << setiosflags(ios::fixed) << setprecision(6) << fQvalue;
out << endl;
}
void TGeoDecayChannel::DecayShift(Int_t &dA, Int_t &dZ, Int_t &dI) const
{
dA=dZ=0;
dI=fDiso;
for(Int_t i=0; i<gMaxDecay; ++i) {
if(1<<i & fDecay) {
if(gDecayDeltaA[i] == -99 || gDecayDeltaZ[i] == -99 ) {
dA=dZ=-99;
return;
}
dA += gDecayDeltaA[i];
dZ += gDecayDeltaZ[i];
}
}
}
ClassImp(TGeoElemIter)
TGeoElemIter::TGeoElemIter(TGeoElementRN *top, Double_t limit)
: fTop(top), fElem(top), fBranch(0), fLevel(0), fLimitRatio(limit), fRatio(1.)
{
fBranch = new TObjArray(10);
}
TGeoElemIter::TGeoElemIter(const TGeoElemIter &iter)
:fTop(iter.fTop),
fElem(iter.fElem),
fBranch(0),
fLevel(iter.fLevel),
fLimitRatio(iter.fLimitRatio),
fRatio(iter.fRatio)
{
if (iter.fBranch) {
fBranch = new TObjArray(10);
for (Int_t i=0; i<fLevel; i++) fBranch->Add(iter.fBranch->At(i));
}
}
TGeoElemIter::~TGeoElemIter()
{
if (fBranch) delete fBranch;
}
TGeoElemIter &TGeoElemIter::operator=(const TGeoElemIter &iter)
{
if (&iter == this) return *this;
fTop = iter.fTop;
fElem = iter.fElem;
fLevel = iter.fLevel;
if (iter.fBranch) {
fBranch = new TObjArray(10);
for (Int_t i=0; i<fLevel; i++) fBranch->Add(iter.fBranch->At(i));
}
fLimitRatio = iter.fLimitRatio;
fRatio = iter.fRatio;
return *this;
}
TGeoElementRN *TGeoElemIter::operator()()
{
return Next();
}
TGeoElementRN *TGeoElemIter::Up()
{
TGeoDecayChannel *dc;
Int_t ind, nd;
while (fLevel) {
dc = (TGeoDecayChannel*)fBranch->At(fLevel-1);
ind = dc->GetIndex();
nd = dc->Parent()->GetNdecays();
fRatio /= 0.01*dc->BranchingRatio();
fElem = dc->Parent();
fBranch->RemoveAt(--fLevel);
ind++;
while (ind<nd) {
if (Down(ind++)) return (TGeoElementRN*)fElem;
}
}
fElem = NULL;
return NULL;
}
TGeoElementRN *TGeoElemIter::Down(Int_t ibranch)
{
TGeoDecayChannel *dc = (TGeoDecayChannel*)fElem->Decays()->At(ibranch);
if (!dc->Daughter()) return NULL;
Double_t br = 0.01*fRatio*dc->BranchingRatio();
if (br < fLimitRatio) return NULL;
fLevel++;
fRatio = br;
fBranch->Add(dc);
fElem = dc->Daughter();
return (TGeoElementRN*)fElem;
}
TGeoElementRN *TGeoElemIter::Next()
{
if (!fElem) return NULL;
Int_t nd = fElem->GetNdecays();
for (Int_t i=0; i<nd; i++) if (Down(i)) return (TGeoElementRN*)fElem;
return Up();
}
void TGeoElemIter::Print(Option_t * ) const
{
TGeoElementRN *elem;
TGeoDecayChannel *dc;
TString indent = "";
printf("=== Chain with %g %%\n", 100*fRatio);
for (Int_t i=0; i<fLevel; i++) {
dc = (TGeoDecayChannel*)fBranch->At(i);
elem = dc->Parent();
printf("%s%s (%g%% %s) T1/2=%g\n", indent.Data(), elem->GetName(),dc->BranchingRatio(),dc->GetName(),elem->HalfLife());
indent += " ";
if (i==fLevel-1) {
elem = dc->Daughter();
printf("%s%s\n", indent.Data(), elem->GetName());
}
}
}
ClassImp(TGeoElementTable)
TGeoElementTable::TGeoElementTable()
{
fNelements = 0;
fNelementsRN = 0;
fNisotopes = 0;
fList = 0;
fListRN = 0;
fIsotopes = 0;
}
TGeoElementTable::TGeoElementTable(Int_t )
{
fNelements = 0;
fNelementsRN = 0;
fNisotopes = 0;
fList = new TObjArray(128);
fListRN = 0;
fIsotopes = 0;
BuildDefaultElements();
}
TGeoElementTable::TGeoElementTable(const TGeoElementTable& get) :
TObject(get),
fNelements(get.fNelements),
fNelementsRN(get.fNelementsRN),
fNisotopes(get.fNisotopes),
fList(get.fList),
fListRN(get.fListRN),
fIsotopes(0)
{
}
TGeoElementTable& TGeoElementTable::operator=(const TGeoElementTable& get)
{
if(this!=&get) {
TObject::operator=(get);
fNelements=get.fNelements;
fNelementsRN=get.fNelementsRN;
fNisotopes=get.fNisotopes;
fList=get.fList;
fListRN=get.fListRN;
fIsotopes = 0;
}
return *this;
}
TGeoElementTable::~TGeoElementTable()
{
if (fList) {
fList->Delete();
delete fList;
}
if (fListRN) {
fListRN->Delete();
delete fListRN;
}
if (fIsotopes) {
fIsotopes->Delete();
delete fIsotopes;
}
}
void TGeoElementTable::AddElement(const char *name, const char *title, Int_t z, Double_t a)
{
if (!fList) fList = new TObjArray(128);
fList->AddAtAndExpand(new TGeoElement(name,title,z,a), fNelements++);
}
void TGeoElementTable::AddElement(const char *name, const char *title, Int_t z, Int_t n, Double_t a)
{
if (!fList) fList = new TObjArray(128);
fList->AddAtAndExpand(new TGeoElement(name,title,z,n,a), fNelements++);
}
void TGeoElementTable::AddElementRN(TGeoElementRN *elem)
{
if (!fListRN) fListRN = new TObjArray(3600);
if (HasRNElements() && GetElementRN(elem->ENDFCode())) return;
fListRN->Add(elem);
fNelementsRN++;
fElementsRN.insert(ElementRNMap_t::value_type(elem->ENDFCode(), elem));
}
void TGeoElementTable::AddIsotope(TGeoIsotope *isotope)
{
if (FindIsotope(isotope->GetName())) {
Error("AddIsotope", "Isotope with the same name: %s already in table. Not adding.",isotope->GetName());
return;
}
if (!fIsotopes) fIsotopes = new TObjArray();
fIsotopes->Add(isotope);
}
void TGeoElementTable::BuildDefaultElements()
{
if (HasDefaultElements()) return;
AddElement("VACUUM","VACUUM" ,0, 0, 0.0);
AddElement("H" ,"HYDROGEN" ,1, 1, 1.00794);
AddElement("HE" ,"HELIUM" ,2, 4, 4.002602);
AddElement("LI" ,"LITHIUM" ,3, 7, 6.941);
AddElement("BE" ,"BERYLLIUM" ,4, 9, 9.01218);
AddElement("B" ,"BORON" ,5, 11, 10.811);
AddElement("C" ,"CARBON" ,6, 12, 12.0107);
AddElement("N" ,"NITROGEN" ,7, 14, 14.00674);
AddElement("O" ,"OXYGEN" ,8, 16, 15.9994);
AddElement("F" ,"FLUORINE" ,9, 19, 18.9984032);
AddElement("NE" ,"NEON" ,10, 20, 20.1797);
AddElement("NA" ,"SODIUM" ,11, 23, 22.989770);
AddElement("MG" ,"MAGNESIUM" ,12, 24, 24.3050);
AddElement("AL" ,"ALUMINIUM" ,13, 27, 26.981538);
AddElement("SI" ,"SILICON" ,14, 28, 28.0855);
AddElement("P" ,"PHOSPHORUS" ,15, 31, 30.973761);
AddElement("S" ,"SULFUR" ,16, 32, 32.066);
AddElement("CL" ,"CHLORINE" ,17, 35, 35.4527);
AddElement("AR" ,"ARGON" ,18, 40, 39.948);
AddElement("K" ,"POTASSIUM" ,19, 39, 39.0983);
AddElement("CA" ,"CALCIUM" ,20, 40, 40.078);
AddElement("SC" ,"SCANDIUM" ,21, 45, 44.955910);
AddElement("TI" ,"TITANIUM" ,22, 48, 47.867);
AddElement("V" ,"VANADIUM" ,23, 51, 50.9415);
AddElement("CR" ,"CHROMIUM" ,24, 52, 51.9961);
AddElement("MN" ,"MANGANESE" ,25, 55, 54.938049);
AddElement("FE" ,"IRON" ,26, 56, 55.845);
AddElement("CO" ,"COBALT" ,27, 59, 58.933200);
AddElement("NI" ,"NICKEL" ,28, 59, 58.6934);
AddElement("CU" ,"COPPER" ,29, 64, 63.546);
AddElement("ZN" ,"ZINC" ,30, 65, 65.39);
AddElement("GA" ,"GALLIUM" ,31, 70, 69.723);
AddElement("GE" ,"GERMANIUM" ,32, 73, 72.61);
AddElement("AS" ,"ARSENIC" ,33, 75, 74.92160);
AddElement("SE" ,"SELENIUM" ,34, 79, 78.96);
AddElement("BR" ,"BROMINE" ,35, 80, 79.904);
AddElement("KR" ,"KRYPTON" ,36, 84, 83.80);
AddElement("RB" ,"RUBIDIUM" ,37, 85, 85.4678);
AddElement("SR" ,"STRONTIUM" ,38, 88, 87.62);
AddElement("Y" ,"YTTRIUM" ,39, 89, 88.90585);
AddElement("ZR" ,"ZIRCONIUM" ,40, 91, 91.224);
AddElement("NB" ,"NIOBIUM" ,41, 93, 92.90638);
AddElement("MO" ,"MOLYBDENUM" ,42, 96, 95.94);
AddElement("TC" ,"TECHNETIUM" ,43, 98, 98.0);
AddElement("RU" ,"RUTHENIUM" ,44, 101, 101.07);
AddElement("RH" ,"RHODIUM" ,45, 103, 102.90550);
AddElement("PD" ,"PALLADIUM" ,46, 106, 106.42);
AddElement("AG" ,"SILVER" ,47, 108, 107.8682);
AddElement("CD" ,"CADMIUM" ,48, 112, 112.411);
AddElement("IN" ,"INDIUM" ,49, 115, 114.818);
AddElement("SN" ,"TIN" ,50, 119, 118.710);
AddElement("SB" ,"ANTIMONY" ,51, 122, 121.760);
AddElement("TE" ,"TELLURIUM" ,52, 128, 127.60);
AddElement("I" ,"IODINE" ,53, 127, 126.90447);
AddElement("XE" ,"XENON" ,54, 131, 131.29);
AddElement("CS" ,"CESIUM" ,55, 133, 132.90545);
AddElement("BA" ,"BARIUM" ,56, 137, 137.327);
AddElement("LA" ,"LANTHANUM" ,57, 139, 138.9055);
AddElement("CE" ,"CERIUM" ,58, 140, 140.116);
AddElement("PR" ,"PRASEODYMIUM" ,59, 141, 140.90765);
AddElement("ND" ,"NEODYMIUM" ,60, 144, 144.24);
AddElement("PM" ,"PROMETHIUM" ,61, 145, 145.0);
AddElement("SM" ,"SAMARIUM" ,62, 150, 150.36);
AddElement("EU" ,"EUROPIUM" ,63, 152, 151.964);
AddElement("GD" ,"GADOLINIUM" ,64, 157, 157.25);
AddElement("TB" ,"TERBIUM" ,65, 159, 158.92534);
AddElement("DY" ,"DYSPROSIUM" ,66, 162, 162.50);
AddElement("HO" ,"HOLMIUM" ,67, 165, 164.93032);
AddElement("ER" ,"ERBIUM" ,68, 167, 167.26);
AddElement("TM" ,"THULIUM" ,69, 169, 168.93421);
AddElement("YB" ,"YTTERBIUM" ,70, 173, 173.04);
AddElement("LU" ,"LUTETIUM" ,71, 175, 174.967);
AddElement("HF" ,"HAFNIUM" ,72, 178, 178.49);
AddElement("TA" ,"TANTALUM" ,73, 181, 180.9479);
AddElement("W" ,"TUNGSTEN" ,74, 184, 183.84);
AddElement("RE" ,"RHENIUM" ,75, 186, 186.207);
AddElement("OS" ,"OSMIUM" ,76, 190, 190.23);
AddElement("IR" ,"IRIDIUM" ,77, 192, 192.217);
AddElement("PT" ,"PLATINUM" ,78, 195, 195.078);
AddElement("AU" ,"GOLD" ,79, 197, 196.96655);
AddElement("HG" ,"MERCURY" ,80, 200, 200.59);
AddElement("TL" ,"THALLIUM" ,81, 204, 204.3833);
AddElement("PB" ,"LEAD" ,82, 207, 207.2);
AddElement("BI" ,"BISMUTH" ,83, 209, 208.98038);
AddElement("PO" ,"POLONIUM" ,84, 209, 209.0);
AddElement("AT" ,"ASTATINE" ,85, 210, 210.0);
AddElement("RN" ,"RADON" ,86, 222, 222.0);
AddElement("FR" ,"FRANCIUM" ,87, 223, 223.0);
AddElement("RA" ,"RADIUM" ,88, 226, 226.0);
AddElement("AC" ,"ACTINIUM" ,89, 227, 227.0);
AddElement("TH" ,"THORIUM" ,90, 232, 232.0381);
AddElement("PA" ,"PROTACTINIUM" ,91, 231, 231.03588);
AddElement("U" ,"URANIUM" ,92, 238, 238.0289);
AddElement("NP" ,"NEPTUNIUM" ,93, 237, 237.0);
AddElement("PU" ,"PLUTONIUM" ,94, 244, 244.0);
AddElement("AM" ,"AMERICIUM" ,95, 243, 243.0);
AddElement("CM" ,"CURIUM" ,96, 247, 247.0);
AddElement("BK" ,"BERKELIUM" ,97, 247, 247.0);
AddElement("CF" ,"CALIFORNIUM",98, 251, 251.0);
AddElement("ES" ,"EINSTEINIUM",99, 252, 252.0);
AddElement("FM" ,"FERMIUM" ,100, 257, 257.0);
AddElement("MD" ,"MENDELEVIUM",101, 258, 258.0);
AddElement("NO" ,"NOBELIUM" ,102, 259, 259.0);
AddElement("LR" ,"LAWRENCIUM" ,103, 262, 262.0);
AddElement("RF" ,"RUTHERFORDIUM",104, 261, 261.0);
AddElement("DB" ,"DUBNIUM" ,105, 262, 262.0);
AddElement("SG" ,"SEABORGIUM" ,106, 263, 263.0);
AddElement("BH" ,"BOHRIUM" ,107, 262, 262.0);
AddElement("HS" ,"HASSIUM" ,108, 265, 265.0);
AddElement("MT" ,"MEITNERIUM" ,109, 266, 266.0);
AddElement("UUN" ,"UNUNNILIUM" ,110, 269, 269.0);
AddElement("UUU" ,"UNUNUNIUM" ,111, 272, 272.0);
AddElement("UUB" ,"UNUNBIUM" ,112, 277, 277.0);
TObject::SetBit(kETDefaultElements,kTRUE);
}
void TGeoElementTable::ImportElementsRN()
{
if (HasRNElements()) return;
TGeoElementRN *elem;
TString rnf;
#ifdef ROOTETCDIR
rnf.Form("%s/RadioNuclides.txt", ROOTETCDIR);
#else
rnf.Form("%s/etc/RadioNuclides.txt", gSystem->Getenv("ROOTSYS"));
#endif
FILE *fp = fopen(rnf, "r");
if (!fp) {
Error("ImportElementsRN","File RadioNuclides.txt not found");
return;
}
char line[150];
Int_t ndecays = 0;
Int_t i;
while (fgets(&line[0],140,fp)) {
if (line[0]=='#') continue;
elem = TGeoElementRN::ReadElementRN(line, ndecays);
for (i=0; i<ndecays; i++) {
if (!fgets(&line[0],140,fp)) {
Error("ImportElementsRN", "Error parsing RadioNuclides.txt file");
fclose(fp);
return;
}
TGeoDecayChannel *dc = TGeoDecayChannel::ReadDecay(line);
elem->AddDecay(dc);
}
AddElementRN(elem);
}
TObject::SetBit(kETRNElements,kTRUE);
CheckTable();
fclose(fp);
}
Bool_t TGeoElementTable::CheckTable() const
{
if (!HasRNElements()) return HasDefaultElements();
TGeoElementRN *elem;
Bool_t result = kTRUE;
TIter next(fListRN);
while ((elem=(TGeoElementRN*)next())) {
if (!elem->CheckDecays()) result = kFALSE;
}
return result;
}
void TGeoElementTable::ExportElementsRN(const char *filename)
{
if (!HasRNElements()) return;
TString sname = filename;
if (!sname.Length()) sname = "RadioNuclides.txt";
ofstream out;
out.open(sname.Data(), ios::out);
if (!out.good()) {
Error("ExportElementsRN", "Cannot open file %s", sname.Data());
return;
}
TGeoElementRN *elem;
TIter next(fListRN);
Int_t i=0;
while ((elem=(TGeoElementRN*)next())) {
if ((i%48)==0) elem->SavePrimitive(out,"h");
else elem->SavePrimitive(out);
i++;
}
out.close();
}
TGeoElement *TGeoElementTable::FindElement(const char *name) const
{
TString s(name);
s.ToUpper();
TGeoElement *elem;
elem = (TGeoElement*)fList->FindObject(s.Data());
if (elem) return elem;
TIter next(fList);
while ((elem=(TGeoElement*)next())) {
if (s == elem->GetTitle()) return elem;
}
return 0;
}
TGeoIsotope *TGeoElementTable::FindIsotope(const char *name) const
{
if (!fIsotopes) return NULL;
return (TGeoIsotope*)fIsotopes->FindObject(name);
}
TGeoElementRN *TGeoElementTable::GetElementRN(Int_t ENDFcode) const
{
if (!HasRNElements()) {
TGeoElementTable *table = (TGeoElementTable*)this;
table->ImportElementsRN();
if (!fListRN) return 0;
}
ElementRNMap_t::const_iterator it = fElementsRN.find(ENDFcode);
if (it != fElementsRN.end()) return it->second;
return 0;
}
TGeoElementRN *TGeoElementTable::GetElementRN(Int_t a, Int_t z, Int_t iso) const
{
return GetElementRN(TGeoElementRN::ENDF(a,z,iso));
}
ClassImp(TGeoBatemanSol)
TGeoBatemanSol::TGeoBatemanSol(TGeoElementRN *elem)
:TObject(), TAttLine(), TAttFill(), TAttMarker(),
fElem(elem),
fElemTop(elem),
fCsize(10),
fNcoeff(0),
fFactor(1.),
fTmin(0.),
fTmax(0.),
fCoeff(NULL)
{
fCoeff = new BtCoef_t[fCsize];
fNcoeff = 1;
fCoeff[0].cn = 1.;
Double_t t12 = elem->HalfLife();
if (t12 == 0.) t12 = 1.e-30;
if (elem->Stable()) fCoeff[0].lambda = 0.;
else fCoeff[0].lambda = TMath::Log(2.)/t12;
}
TGeoBatemanSol::TGeoBatemanSol(const TObjArray *chain)
:TObject(), TAttLine(), TAttFill(), TAttMarker(),
fElem(NULL),
fElemTop(NULL),
fCsize(0),
fNcoeff(0),
fFactor(1.),
fTmin(0.),
fTmax(0.),
fCoeff(NULL)
{
TGeoDecayChannel *dc = (TGeoDecayChannel*)chain->At(0);
if (dc) fElemTop = dc->Parent();
dc = (TGeoDecayChannel*)chain->At(chain->GetEntriesFast()-1);
if (dc) {
fElem = dc->Daughter();
fCsize = chain->GetEntriesFast()+1;
fCoeff = new BtCoef_t[fCsize];
FindSolution(chain);
}
}
TGeoBatemanSol::TGeoBatemanSol(const TGeoBatemanSol& other)
:TObject(other), TAttLine(other), TAttFill(other), TAttMarker(other),
fElem(other.fElem),
fElemTop(other.fElemTop),
fCsize(other.fCsize),
fNcoeff(other.fNcoeff),
fFactor(other.fFactor),
fTmin(other.fTmin),
fTmax(other.fTmax),
fCoeff(NULL)
{
if (fCsize) {
fCoeff = new BtCoef_t[fCsize];
for (Int_t i=0; i<fNcoeff; i++) {
fCoeff[i].cn = other.fCoeff[i].cn;
fCoeff[i].lambda = other.fCoeff[i].lambda;
}
}
}
TGeoBatemanSol::~TGeoBatemanSol()
{
if (fCoeff) delete [] fCoeff;
}
TGeoBatemanSol& TGeoBatemanSol::operator=(const TGeoBatemanSol& other)
{
if (this == &other) return *this;
TObject::operator=(other);
TAttLine::operator=(other);
TAttFill::operator=(other);
TAttMarker::operator=(other);
fElem = other.fElem;
fElemTop = other.fElemTop;
if (fCoeff) delete [] fCoeff;
fCoeff = 0;
fCsize = other.fCsize;
fNcoeff = other.fNcoeff;
fFactor = other.fFactor;
fTmin = other.fTmin;
fTmax = other.fTmax;
if (fCsize) {
fCoeff = new BtCoef_t[fCsize];
for (Int_t i=0; i<fNcoeff; i++) {
fCoeff[i].cn = other.fCoeff[i].cn;
fCoeff[i].lambda = other.fCoeff[i].lambda;
}
}
return *this;
}
TGeoBatemanSol& TGeoBatemanSol::operator+=(const TGeoBatemanSol& other)
{
if (other.GetElement() != fElem) {
Error("operator+=", "Cannot add 2 solutions for different elements");
return *this;
}
Int_t i,j;
BtCoef_t *coeff = fCoeff;
Int_t ncoeff = fNcoeff + other.fNcoeff;
if (ncoeff > fCsize) {
fCsize = ncoeff;
coeff = new BtCoef_t[ncoeff];
for (i=0; i<fNcoeff; i++) {
coeff[i].cn = fCoeff[i].cn;
coeff[i].lambda = fCoeff[i].lambda;
}
delete [] fCoeff;
fCoeff = coeff;
}
ncoeff = fNcoeff;
for (j=0; j<other.fNcoeff; j++) {
for (i=0; i<fNcoeff; i++) {
if (coeff[i].lambda == other.fCoeff[j].lambda) {
coeff[i].cn += fFactor * other.fCoeff[j].cn;
break;
}
}
if (i == fNcoeff) {
coeff[ncoeff].cn = fFactor * other.fCoeff[j].cn;
coeff[ncoeff].lambda = other.fCoeff[j].lambda;
ncoeff++;
}
}
fNcoeff = ncoeff;
return *this;
}
Double_t TGeoBatemanSol::Concentration(Double_t time) const
{
Double_t conc = 0.;
for (Int_t i=0; i<fNcoeff; i++)
conc += fCoeff[i].cn * TMath::Exp(-fCoeff[i].lambda * time);
return conc;
}
void TGeoBatemanSol::Draw(Option_t *option)
{
if (!gGeoManager) return;
gGeoManager->GetGeomPainter()->DrawBatemanSol(this, option);
}
void TGeoBatemanSol::FindSolution(const TObjArray *array)
{
fNcoeff = 0;
if (!array || !array->GetEntriesFast()) return;
Int_t n = array->GetEntriesFast();
TGeoDecayChannel *dc = (TGeoDecayChannel*)array->At(n-1);
TGeoElementRN *elem = dc->Daughter();
if (elem != fElem) {
Error("FindSolution", "Last element in the list must be %s\n", fElem->GetName());
return;
}
Int_t i,j;
Int_t order = n+1;
if (!fCoeff) {
fCsize = order;
fCoeff = new BtCoef_t[fCsize];
}
if (fCsize < order) {
delete [] fCoeff;
fCsize = order;
fCoeff = new BtCoef_t[fCsize];
}
Double_t *lambda = new Double_t[order];
Double_t *br = new Double_t[n];
Double_t halflife;
for (i=0; i<n; i++) {
dc = (TGeoDecayChannel*)array->At(i);
elem = dc->Parent();
br[i] = 0.01 * dc->BranchingRatio();
halflife = elem->HalfLife();
if (halflife==0.) halflife = 1.e-30;
if (elem->Stable()) lambda[i] = 0.;
else lambda[i] = TMath::Log(2.)/halflife;
if (i==n-1) {
elem = dc->Daughter();
halflife = elem->HalfLife();
if (halflife==0.) halflife = 1.e-30;
if (elem->Stable()) lambda[n] = 0.;
else lambda[n] = TMath::Log(2.)/halflife;
}
}
for (i=0; i<order-1; i++) {
for (j=i+1; j<order; j++) {
if (lambda[j] == lambda[i]) lambda[j] += 0.001*lambda[j];
}
}
Double_t ain;
Double_t pdlambda, plambdabr=1.;
for (j=0; j<n; j++) plambdabr *= lambda[j]*br[j];
for (i=0; i<order; i++) {
pdlambda = 1.;
for (j=0; j<n+1; j++) {
if (j == i) continue;
pdlambda *= lambda[j] - lambda[i];
}
if (pdlambda == 0.) {
Error("FindSolution", "pdlambda=0 !!!");
delete [] lambda;
delete [] br;
return;
}
ain = plambdabr/pdlambda;
fCoeff[i].cn = ain;
fCoeff[i].lambda = lambda[i];
}
fNcoeff = order;
Normalize(fFactor);
delete [] lambda;
delete [] br;
}
void TGeoBatemanSol::Normalize(Double_t factor)
{
for (Int_t i=0; i<fNcoeff; i++) fCoeff[i].cn *= factor;
}
void TGeoBatemanSol::Print(Option_t * ) const
{
TString formula;
formula.Form("N[%s]/N[%s] = ", fElem->GetName(), fElemTop->GetName());
for (Int_t i=0; i<fNcoeff; i++) {
if (i == fNcoeff-1) formula += TString::Format("%g*exp(-%g*t)", fCoeff[i].cn, fCoeff[i].lambda);
else formula += TString::Format("%g*exp(-%g*t) + ", fCoeff[i].cn, fCoeff[i].lambda);
}
printf("%s\n", formula.Data());
}