TUnuranContDist(const TUnuranContDist&) | |
TUnuranContDist(TF1* pdf = 0, TF1* deriv = 0, bool isLogPdf = false) | |
TUnuranContDist(const ROOT::Math::IGenFunction& pdf, const ROOT::Math::IGenFunction* dpdf = 0, bool isLogPdf = false, bool copyFunc = false) | |
virtual | ~TUnuranContDist() |
double | Cdf(double x) const |
static TClass* | Class() |
virtual TUnuranContDist* | Clone() const |
double | DPdf(double x) const |
bool | GetDomain(double& xmin, double& xmax) const |
bool | HasCdf() const |
bool | HasMode() const |
bool | HasPdfArea() const |
virtual TClass* | IsA() const |
bool | IsLogPdf() const |
double | Mode() const |
TUnuranContDist& | operator=(const TUnuranContDist& rhs) |
double | Pdf(double x) const |
double | PdfArea() const |
void | SetCdf(TF1* cdf) |
void | SetCdf(const ROOT::Math::IGenFunction& cdf) |
void | SetDomain(double xmin, double xmax) |
void | SetMode(double mode) |
void | SetPdfArea(double area) |
virtual void | ShowMembers(TMemberInspector& insp) |
virtual void | Streamer(TBuffer& b) |
void | StreamerNVirtual(TBuffer& b) |
double | fArea | area below pdf |
const ROOT::Math::IBaseFunctionOneDim* | fCdf | pointer to the cdf (cumulative dist.) |
const ROOT::Math::IBaseFunctionOneDim* | fDPdf | pointer to the derivative of the pdf |
bool | fHasArea | flag to control if distribution has a pre-computed area below the pdf |
bool | fHasDomain | flag to control if distribution has a defined domain (otherwise is [-inf,+inf] |
bool | fHasMode | flag to control if distribution has a pre-computed mode |
bool | fIsLogPdf | flag to control if function pointer represent log of pdf |
double | fMode | mode of the distribution |
bool | fOwnFunc | flag to indicate if class manages the function pointers |
const ROOT::Math::IBaseFunctionOneDim* | fPdf | pointer to the pdf |
double | fXmax | upper value of the domain |
double | fXmin | lower value of the domain |
Constructor from generic function interfaces manage the functions and clone them if flag copyFunc is true
Constructor from a TF1 objects function pointers are managed by class
set cdf distribution using a generic function interface
evaluate the derivative of the pdf if derivative function is not given is evaluated numerically
Clone (required by base class)
{ return new TUnuranContDist(*this); }
Set the distribution domain. If min < max a domain is defined otherwise is undefined
check if distribution has a defined domain and return in case its domain
check if distribution has a pre-computed area below the Pdf
{ return fHasArea; }
flag to control if given function represent the log of a pdf
{ return fIsLogPdf; }