104 Int_t nmc,
bool stat,
117 for (i = 0; i <= data->
GetSignal()->GetLast(); i++) {
118 maxbins = (((
TH1 *) (data->
GetSignal()->
At(i)))->GetNbinsX() + 2) > maxbins ?
119 (((
TH1 *) (data->
GetSignal()->
At(i)))->GetNbinsX() + 2) : maxbins;
137 if ((
b == 0) && (
s > 0)) {
138 std::cout <<
"WARNING: Ignoring bin " << bin <<
" of channel "
139 << channel <<
" which has s=" <<
s <<
" but b=" <<
b << std::endl;
140 std::cout <<
" Maybe the MC statistic has to be improved..." << std::endl;
142 if ((
s > 0) && (
b > 0))
147 if ((
s > 0) && (
b > 0))
149 else if ((
s > 0) && (
b == 0))
165 for (i = 0; i < nmc; i++) {
177 for (
Int_t channel = 0;
178 channel <= fluctuated->
GetSignal()->GetLast(); channel++) {
180 bin <=((
TH1 *) (fluctuated->
GetSignal()->
At(channel)))->GetNbinsX()+1;
187 tss[i] += rand *
fgTable->
At((channel * maxbins) + bin);
192 if ((
s > 0) && (b2 > 0))
194 else if ((
s > 0) && (b2 == 0))
195 lrs[i] += 20 * rand -
s;
198 rand = myrandom->
Poisson(rate);
199 tsb[i] += rand *
fgTable->
At((channel * maxbins) + bin);
200 if ((s2 > 0) && (
b > 0))
202 else if ((
s > 0) && (
b == 0))
203 lrb[i] += 20 * rand -
s;
207 lrs[i] =
TMath::Exp(lrs[i] < 710 ? lrs[i] : 710);
208 lrb[i] =
TMath::Exp(lrb[i] < 710 ? lrb[i] : 710);
258 TH1 *newsignal = (
TH1*)(
output->GetSignal()->At(channel));
261 for(
int i=1; i<=newsignal->
GetNbinsX(); i++) {
265 TH1 *newbackground = (
TH1*)(
output->GetBackground()->At(channel));
268 for(
int i=1; i<=newbackground->
GetNbinsX(); i++)
284 toss[i] = generator->
Gaus(0, 1);
286 for (
Int_t channel = 0;
299 if ((serrf[channel] < -1.0) || (berrf[channel] < -0.9)) {
311 TH1 *newsignal = (
TH1*)(
output->GetSignal()->At(channel));
314 for(
int i=1; i<=newsignal->
GetNbinsX(); i++)
317 for(
int i=1; i<=newsignal->
GetNbinsX(); i++)
319 newsignal->
Scale(1 + serrf[channel]);
321 TH1 *newbackground = (
TH1*)(
output->GetBackground()->At(channel));
324 for(
int i=1; i<=newbackground->
GetNbinsX(); i++)
327 for(
int i=1; i<=newbackground->
GetNbinsX(); i++)
329 newbackground->
Scale(1 + berrf[channel]);
338 Int_t nmc,
bool stat,
351 Int_t nmc,
bool stat,
369 TH1D* sh =
new TH1D(
"__sh",
"__sh",1,0,2);
371 TH1D* bh =
new TH1D(
"__bh",
"__bh",1,0,2);
373 TH1D* dh =
new TH1D(
"__dh",
"__dh",1,0,2);
392 TH1D* sh =
new TH1D(
"__sh",
"__sh",1,0,2);
394 TH1D* bh =
new TH1D(
"__bh",
"__bh",1,0,2);
396 TH1D* dh =
new TH1D(
"__dh",
"__dh",1,0,2);
Array of doubles (64 bits per element).
Double_t At(Int_t i) const
void Set(Int_t n)
Set size of this array to n doubles.
void AddAt(Double_t c, Int_t i)
Set the double c value at position i in the array.
virtual Int_t GetSize() const
Return the capacity of the collection, i.e.
Class to compute 95% CL limits.
void SetTSS(Double_t *in)
Set the TSS.
void SetStot(Double_t in)
void SetBtot(Double_t in)
void SetLRB(Double_t *in)
void SetTSB(Double_t *in)
Set the TSB.
void SetLRS(Double_t *in)
1-D histogram with a double per channel (see TH1 documentation)}
virtual void SetDirectory(TDirectory *dir)
By default when an histogram is created, it is added to the list of histogram objects in the current ...
virtual Double_t GetBinError(Int_t bin) const
Return value of error associated to bin number bin.
virtual Int_t GetNbinsX() const
virtual Int_t Fill(Double_t x)
Increment bin with abscissa X by 1.
virtual void SetBinContent(Int_t bin, Double_t content)
Set bin content see convention for numbering bins in TH1::GetBin In case the bin number is greater th...
virtual Double_t GetBinContent(Int_t bin) const
Return content of bin number bin.
virtual void Scale(Double_t c1=1, Option_t *option="")
Multiply this histogram by a constant c1.
Iterator abstract base class.
virtual TObject * Next()=0
This class serves as interface to feed data into the TLimit routines.
virtual TObjArray * GetErrorOnSignal()
virtual TObjArray * GetSignal()
virtual TObjArray * GetCandidates()
virtual TObjArray * GetBackground()
virtual TObjArray * GetErrorNames()
virtual TObjArray * GetErrorOnBackground()
Algorithm to compute 95% C.L.
static Double_t LogLikelihood(Double_t s, Double_t b, Double_t b2, Double_t d)
static TOrdCollection * fgSystNames
static TConfidenceLevel * ComputeLimit(TLimitDataSource *data, Int_t nmc=50000, bool stat=false, TRandom *generator=0)
static bool Fluctuate(TLimitDataSource *input, TLimitDataSource *output, bool init, TRandom *, bool stat=false)
TIterator * MakeIterator(Bool_t dir=kIterForward) const
Returns an array iterator.
Int_t GetLast() const
Return index of last object in array.
TObject * At(Int_t idx) const
Collectable string class.
virtual TObject * Clone(const char *newname="") const
Make a clone of an object using the Streamer facility.
Int_t IndexOf(const TObject *obj) const
Return index of object in collection.
void AddLast(TObject *obj)
Add object at the end of the collection.
void Sort()
If objects in collection are sortable (i.e.
Int_t BinarySearch(TObject *obj)
Find object using a binary search.
Random number generator class based on M.
This is the base class for the ROOT Random number generators.
virtual Double_t Gaus(Double_t mean=0, Double_t sigma=1)
Samples a random number from the standard Normal (Gaussian) Distribution with the given mean and sigm...
virtual Int_t Poisson(Double_t mean)
Generates a random integer N according to a Poisson law.
EvaluateInfo init(std::vector< RooRealProxy > parameters, std::vector< ArrayWrapper * > wrappers, std::vector< double * > arrays, size_t begin, size_t batchSize)
static constexpr double s
static void output(int code)