/usr/share/pyshared/openturns/dist_bundle3.py is in python-openturns 1.2-2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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# Version 2.0.10
#
# Do not make changes to this file unless you know what you are doing--modify
# the SWIG interface file instead.
"""
Probabilistic distributions.
"""
from sys import version_info
if version_info >= (2,6,0):
def swig_import_helper():
from os.path import dirname
import imp
fp = None
try:
fp, pathname, description = imp.find_module('_dist_bundle3', [dirname(__file__)])
except ImportError:
import _dist_bundle3
return _dist_bundle3
if fp is not None:
try:
_mod = imp.load_module('_dist_bundle3', fp, pathname, description)
finally:
fp.close()
return _mod
_dist_bundle3 = swig_import_helper()
del swig_import_helper
else:
import _dist_bundle3
del version_info
try:
_swig_property = property
except NameError:
pass # Python < 2.2 doesn't have 'property'.
def _swig_setattr_nondynamic(self,class_type,name,value,static=1):
if (name == "thisown"): return self.this.own(value)
if (name == "this"):
if type(value).__name__ == 'SwigPyObject':
self.__dict__[name] = value
return
method = class_type.__swig_setmethods__.get(name,None)
if method: return method(self,value)
if (not static):
self.__dict__[name] = value
else:
raise AttributeError("You cannot add attributes to %s" % self)
def _swig_setattr(self,class_type,name,value):
return _swig_setattr_nondynamic(self,class_type,name,value,0)
def _swig_getattr(self,class_type,name):
if (name == "thisown"): return self.this.own()
method = class_type.__swig_getmethods__.get(name,None)
if method: return method(self)
raise AttributeError(name)
def _swig_repr(self):
try: strthis = "proxy of " + self.this.__repr__()
except: strthis = ""
return "<%s.%s; %s >" % (self.__class__.__module__, self.__class__.__name__, strthis,)
try:
_object = object
_newclass = 1
except AttributeError:
class _object : pass
_newclass = 0
class SwigPyIterator(_object):
"""Proxy of C++ swig::SwigPyIterator class"""
__swig_setmethods__ = {}
__setattr__ = lambda self, name, value: _swig_setattr(self, SwigPyIterator, name, value)
__swig_getmethods__ = {}
__getattr__ = lambda self, name: _swig_getattr(self, SwigPyIterator, name)
def __init__(self, *args, **kwargs): raise AttributeError("No constructor defined - class is abstract")
__repr__ = _swig_repr
__swig_destroy__ = _dist_bundle3.delete_SwigPyIterator
__del__ = lambda self : None;
def value(self):
"""value(SwigPyIterator self) -> PyObject *"""
return _dist_bundle3.SwigPyIterator_value(self)
def incr(self, n=1):
"""
incr(SwigPyIterator self, size_t n=1) -> SwigPyIterator
incr(SwigPyIterator self) -> SwigPyIterator
"""
return _dist_bundle3.SwigPyIterator_incr(self, n)
def decr(self, n=1):
"""
decr(SwigPyIterator self, size_t n=1) -> SwigPyIterator
decr(SwigPyIterator self) -> SwigPyIterator
"""
return _dist_bundle3.SwigPyIterator_decr(self, n)
def distance(self, *args):
"""distance(SwigPyIterator self, SwigPyIterator x) -> ptrdiff_t"""
return _dist_bundle3.SwigPyIterator_distance(self, *args)
def equal(self, *args):
"""equal(SwigPyIterator self, SwigPyIterator x) -> bool"""
return _dist_bundle3.SwigPyIterator_equal(self, *args)
def copy(self):
"""copy(SwigPyIterator self) -> SwigPyIterator"""
return _dist_bundle3.SwigPyIterator_copy(self)
def next(self):
"""next(SwigPyIterator self) -> PyObject *"""
return _dist_bundle3.SwigPyIterator_next(self)
def __next__(self):
"""__next__(SwigPyIterator self) -> PyObject *"""
return _dist_bundle3.SwigPyIterator___next__(self)
def previous(self):
"""previous(SwigPyIterator self) -> PyObject *"""
return _dist_bundle3.SwigPyIterator_previous(self)
def advance(self, *args):
"""advance(SwigPyIterator self, ptrdiff_t n) -> SwigPyIterator"""
return _dist_bundle3.SwigPyIterator_advance(self, *args)
def __eq__(self, *args):
"""__eq__(SwigPyIterator self, SwigPyIterator x) -> bool"""
return _dist_bundle3.SwigPyIterator___eq__(self, *args)
def __ne__(self, *args):
"""__ne__(SwigPyIterator self, SwigPyIterator x) -> bool"""
return _dist_bundle3.SwigPyIterator___ne__(self, *args)
def __iadd__(self, *args):
"""__iadd__(SwigPyIterator self, ptrdiff_t n) -> SwigPyIterator"""
return _dist_bundle3.SwigPyIterator___iadd__(self, *args)
def __isub__(self, *args):
"""__isub__(SwigPyIterator self, ptrdiff_t n) -> SwigPyIterator"""
return _dist_bundle3.SwigPyIterator___isub__(self, *args)
def __add__(self, *args):
"""__add__(SwigPyIterator self, ptrdiff_t n) -> SwigPyIterator"""
return _dist_bundle3.SwigPyIterator___add__(self, *args)
def __sub__(self, *args):
"""
__sub__(SwigPyIterator self, ptrdiff_t n) -> SwigPyIterator
__sub__(SwigPyIterator self, SwigPyIterator x) -> ptrdiff_t
"""
return _dist_bundle3.SwigPyIterator___sub__(self, *args)
def __iter__(self): return self
SwigPyIterator_swigregister = _dist_bundle3.SwigPyIterator_swigregister
SwigPyIterator_swigregister(SwigPyIterator)
GCC_VERSION = _dist_bundle3.GCC_VERSION
class TestFailed:
"""
TestFailed is used to raise an uniform exception in tests
"""
__type = "TestFailed"
def __init__(self,reason=""):
self.reason = reason
def type(self):
return TestFailed.__type
def what(self):
return self.reason
def __str__(self):
return TestFailed.__type + ": " + self.reason
def __lshift__(self,ch):
self.reason += ch
return self
import openturns.common
import openturns.typ
import openturns.wrapper
class TestResult(openturns.common.PersistentObject):
"""Proxy of C++ OT::TestResult class"""
__swig_setmethods__ = {}
for _s in [openturns.common.PersistentObject]: __swig_setmethods__.update(getattr(_s,'__swig_setmethods__',{}))
__setattr__ = lambda self, name, value: _swig_setattr(self, TestResult, name, value)
__swig_getmethods__ = {}
for _s in [openturns.common.PersistentObject]: __swig_getmethods__.update(getattr(_s,'__swig_getmethods__',{}))
__getattr__ = lambda self, name: _swig_getattr(self, TestResult, name)
def GetClassName():
"""GetClassName() -> OT::String"""
return _dist_bundle3.TestResult_GetClassName()
if _newclass:GetClassName = staticmethod(GetClassName)
__swig_getmethods__["GetClassName"] = lambda x: GetClassName
def getClassName(self):
"""getClassName(TestResult self) -> OT::String"""
return _dist_bundle3.TestResult_getClassName(self)
def setDescription(self, *args):
"""setDescription(TestResult self, Description description)"""
return _dist_bundle3.TestResult_setDescription(self, *args)
def getDescription(self):
"""getDescription(TestResult self) -> Description"""
return _dist_bundle3.TestResult_getDescription(self)
def __repr__(self):
"""__repr__(TestResult self) -> OT::String"""
return _dist_bundle3.TestResult___repr__(self)
def getBinaryQualityMeasure(self):
"""getBinaryQualityMeasure(TestResult self) -> OT::Bool"""
return _dist_bundle3.TestResult_getBinaryQualityMeasure(self)
def getPValue(self):
"""getPValue(TestResult self) -> OT::NumericalScalar"""
return _dist_bundle3.TestResult_getPValue(self)
def getThreshold(self):
"""getThreshold(TestResult self) -> OT::NumericalScalar"""
return _dist_bundle3.TestResult_getThreshold(self)
def getTestType(self):
"""getTestType(TestResult self) -> OT::String"""
return _dist_bundle3.TestResult_getTestType(self)
def __eq__(self, *args):
"""__eq__(TestResult self, TestResult other) -> OT::Bool"""
return _dist_bundle3.TestResult___eq__(self, *args)
def __init__(self, *args):
"""
__init__(OT::TestResult self) -> TestResult
__init__(OT::TestResult self, OT::String const & type, OT::Bool const binMeasure, OT::NumericalScalar const pVal,
OT::NumericalScalar const pThreshold) -> TestResult
__init__(OT::TestResult self, TestResult other) -> TestResult
__init__(OT::TestResult self, PyObject * pyObj) -> TestResult
"""
this = _dist_bundle3.new_TestResult(*args)
try: self.this.append(this)
except: self.this = this
__swig_destroy__ = _dist_bundle3.delete_TestResult
__del__ = lambda self : None;
TestResult_swigregister = _dist_bundle3.TestResult_swigregister
TestResult_swigregister(TestResult)
def TestResult_GetClassName():
"""TestResult_GetClassName() -> OT::String"""
return _dist_bundle3.TestResult_GetClassName()
import openturns.base
import openturns.statistics
import openturns.graph
import openturns.func
import openturns.geom
import openturns.diff
import openturns.optim
import openturns.solver
import openturns.algo
import openturns.experiment
import openturns.model_copula
class Poisson(openturns.model_copula.DiscreteDistribution):
"""Proxy of C++ OT::Poisson class"""
__swig_setmethods__ = {}
for _s in [openturns.model_copula.DiscreteDistribution]: __swig_setmethods__.update(getattr(_s,'__swig_setmethods__',{}))
__setattr__ = lambda self, name, value: _swig_setattr(self, Poisson, name, value)
__swig_getmethods__ = {}
for _s in [openturns.model_copula.DiscreteDistribution]: __swig_getmethods__.update(getattr(_s,'__swig_getmethods__',{}))
__getattr__ = lambda self, name: _swig_getattr(self, Poisson, name)
def GetClassName():
"""GetClassName() -> OT::String"""
return _dist_bundle3.Poisson_GetClassName()
if _newclass:GetClassName = staticmethod(GetClassName)
__swig_getmethods__["GetClassName"] = lambda x: GetClassName
def getClassName(self):
"""getClassName(Poisson self) -> OT::String"""
return _dist_bundle3.Poisson_getClassName(self)
def __eq__(self, *args):
"""__eq__(Poisson self, Poisson other) -> OT::Bool"""
return _dist_bundle3.Poisson___eq__(self, *args)
def __repr__(self):
"""__repr__(Poisson self) -> OT::String"""
return _dist_bundle3.Poisson___repr__(self)
def __str__(self, offset=""):
"""
__str__(Poisson self, OT::String const & offset="") -> OT::String
__str__(Poisson self) -> OT::String
"""
return _dist_bundle3.Poisson___str__(self, offset)
def getRealization(self):
"""getRealization(Poisson self) -> NumericalPoint"""
return _dist_bundle3.Poisson_getRealization(self)
def computePDF(self, *args):
"""
computePDF(Poisson self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computePDF(Poisson self, NumericalPoint point) -> OT::NumericalScalar
computePDF(Poisson self, NumericalSample sample) -> NumericalSample
computePDF(Poisson self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultPDFEpsilon")) -> NumericalSample
computePDF(Poisson self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computePDF(Poisson self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultPDFEpsilon")) -> NumericalSample
computePDF(Poisson self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid) -> NumericalSample
computePDF(Poisson self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.Poisson_computePDF(self, *args)
def computeCDF(self, *args):
"""
computeCDF(Poisson self, OT::NumericalScalar const scalar, OT::Bool const tail) -> OT::NumericalScalar
computeCDF(Poisson self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeCDF(Poisson self, NumericalPoint point, OT::Bool const tail) -> OT::NumericalScalar
computeCDF(Poisson self, NumericalPoint point) -> OT::NumericalScalar
computeCDF(Poisson self, NumericalSample sample, OT::Bool const tail) -> NumericalSample
computeCDF(Poisson self, NumericalSample sample) -> NumericalSample
computeCDF(Poisson self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeCDF(Poisson self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computeCDF(Poisson self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeCDF(Poisson self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid) -> NumericalSample
computeCDF(Poisson self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.Poisson_computeCDF(self, *args)
def computeComplementaryCDF(self, *args):
"""
computeComplementaryCDF(Poisson self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeComplementaryCDF(Poisson self, NumericalPoint point) -> OT::NumericalScalar
computeComplementaryCDF(Poisson self, NumericalSample sample) -> NumericalSample
computeComplementaryCDF(Poisson self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeComplementaryCDF(Poisson self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computeComplementaryCDF(Poisson self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.Poisson_computeComplementaryCDF(self, *args)
def computePDFGradient(self, *args):
"""computePDFGradient(Poisson self, NumericalPoint point) -> NumericalPoint"""
return _dist_bundle3.Poisson_computePDFGradient(self, *args)
def computeCDFGradient(self, *args):
"""computeCDFGradient(Poisson self, NumericalPoint point) -> NumericalPoint"""
return _dist_bundle3.Poisson_computeCDFGradient(self, *args)
def computeCharacteristicFunction(self, *args):
"""computeCharacteristicFunction(Poisson self, OT::NumericalScalar const x) -> OT::NumericalComplex"""
return _dist_bundle3.Poisson_computeCharacteristicFunction(self, *args)
def computeLogCharacteristicFunction(self, *args):
"""computeLogCharacteristicFunction(Poisson self, OT::NumericalScalar const x) -> OT::NumericalComplex"""
return _dist_bundle3.Poisson_computeLogCharacteristicFunction(self, *args)
def computeGeneratingFunction(self, *args):
"""computeGeneratingFunction(Poisson self, OT::NumericalComplex const & z) -> OT::NumericalComplex"""
return _dist_bundle3.Poisson_computeGeneratingFunction(self, *args)
def computeLogGeneratingFunction(self, *args):
"""computeLogGeneratingFunction(Poisson self, OT::NumericalComplex const & z) -> OT::NumericalComplex"""
return _dist_bundle3.Poisson_computeLogGeneratingFunction(self, *args)
def getSupport(self, *args):
"""
getSupport(Poisson self, Interval interval) -> NumericalSample
getSupport(Poisson self) -> NumericalSample
getSupport(Poisson self, Interval interval) -> NumericalSample
"""
return _dist_bundle3.Poisson_getSupport(self, *args)
def getStandardDeviation(self):
"""getStandardDeviation(Poisson self) -> NumericalPoint"""
return _dist_bundle3.Poisson_getStandardDeviation(self)
def getSkewness(self):
"""getSkewness(Poisson self) -> NumericalPoint"""
return _dist_bundle3.Poisson_getSkewness(self)
def getKurtosis(self):
"""getKurtosis(Poisson self) -> NumericalPoint"""
return _dist_bundle3.Poisson_getKurtosis(self)
def getParametersCollection(self):
"""getParametersCollection(Poisson self) -> NumericalPointWithDescriptionCollection"""
return _dist_bundle3.Poisson_getParametersCollection(self)
def setParametersCollection(self, *args):
"""
setParametersCollection(Poisson self, NumericalPointWithDescriptionCollection parametersCollection)
setParametersCollection(Poisson self, NumericalPointCollection parametersCollection)
setParametersCollection(Poisson self, NumericalPoint parameters)
setParametersCollection(Poisson self, NumericalPointCollection parametersCollection)
"""
return _dist_bundle3.Poisson_setParametersCollection(self, *args)
def setLambda(self, *args):
"""setLambda(Poisson self, OT::NumericalScalar const _lambda)"""
return _dist_bundle3.Poisson_setLambda(self, *args)
def getLambda(self):
"""getLambda(Poisson self) -> OT::NumericalScalar"""
return _dist_bundle3.Poisson_getLambda(self)
def __init__(self, *args):
"""
__init__(OT::Poisson self) -> Poisson
__init__(OT::Poisson self, OT::NumericalScalar const _lambda) -> Poisson
__init__(OT::Poisson self, Poisson other) -> Poisson
"""
this = _dist_bundle3.new_Poisson(*args)
try: self.this.append(this)
except: self.this = this
__swig_destroy__ = _dist_bundle3.delete_Poisson
__del__ = lambda self : None;
Poisson_swigregister = _dist_bundle3.Poisson_swigregister
Poisson_swigregister(Poisson)
def Poisson_GetClassName():
"""Poisson_GetClassName() -> OT::String"""
return _dist_bundle3.Poisson_GetClassName()
class PoissonFactory(openturns.model_copula.DistributionImplementationFactory):
"""Proxy of C++ OT::PoissonFactory class"""
__swig_setmethods__ = {}
for _s in [openturns.model_copula.DistributionImplementationFactory]: __swig_setmethods__.update(getattr(_s,'__swig_setmethods__',{}))
__setattr__ = lambda self, name, value: _swig_setattr(self, PoissonFactory, name, value)
__swig_getmethods__ = {}
for _s in [openturns.model_copula.DistributionImplementationFactory]: __swig_getmethods__.update(getattr(_s,'__swig_getmethods__',{}))
__getattr__ = lambda self, name: _swig_getattr(self, PoissonFactory, name)
__repr__ = _swig_repr
def GetClassName():
"""GetClassName() -> OT::String"""
return _dist_bundle3.PoissonFactory_GetClassName()
if _newclass:GetClassName = staticmethod(GetClassName)
__swig_getmethods__["GetClassName"] = lambda x: GetClassName
def getClassName(self):
"""getClassName(PoissonFactory self) -> OT::String"""
return _dist_bundle3.PoissonFactory_getClassName(self)
def build(self, *args):
"""
build(PoissonFactory self, NumericalSample sample) -> DistributionImplementationPointer
build(PoissonFactory self, NumericalSample sample, CovarianceMatrix covariance) -> DistributionImplementationPointer
build(PoissonFactory self, NumericalPointCollection parameters) -> DistributionImplementationPointer
build(PoissonFactory self, NumericalPointWithDescriptionCollection parameters) -> DistributionImplementationPointer
build(PoissonFactory self, NumericalSample sample) -> DistributionImplementationPointer
build(PoissonFactory self, NumericalPointCollection parameters) -> DistributionImplementationPointer
build(PoissonFactory self) -> DistributionImplementationPointer
"""
return _dist_bundle3.PoissonFactory_build(self, *args)
def buildAsPoisson(self, *args):
"""
buildAsPoisson(PoissonFactory self, NumericalSample sample) -> Poisson
buildAsPoisson(PoissonFactory self, NumericalPointCollection parameters) -> Poisson
buildAsPoisson(PoissonFactory self, NumericalPointWithDescriptionCollection parameters) -> Poisson
buildAsPoisson(PoissonFactory self) -> Poisson
"""
return _dist_bundle3.PoissonFactory_buildAsPoisson(self, *args)
def __init__(self, *args):
"""
__init__(OT::PoissonFactory self) -> PoissonFactory
__init__(OT::PoissonFactory self, PoissonFactory other) -> PoissonFactory
"""
this = _dist_bundle3.new_PoissonFactory(*args)
try: self.this.append(this)
except: self.this = this
__swig_destroy__ = _dist_bundle3.delete_PoissonFactory
__del__ = lambda self : None;
PoissonFactory_swigregister = _dist_bundle3.PoissonFactory_swigregister
PoissonFactory_swigregister(PoissonFactory)
def PoissonFactory_GetClassName():
"""PoissonFactory_GetClassName() -> OT::String"""
return _dist_bundle3.PoissonFactory_GetClassName()
class RandomMixture(openturns.model_copula.DistributionImplementation):
"""Proxy of C++ OT::RandomMixture class"""
__swig_setmethods__ = {}
for _s in [openturns.model_copula.DistributionImplementation]: __swig_setmethods__.update(getattr(_s,'__swig_setmethods__',{}))
__setattr__ = lambda self, name, value: _swig_setattr(self, RandomMixture, name, value)
__swig_getmethods__ = {}
for _s in [openturns.model_copula.DistributionImplementation]: __swig_getmethods__.update(getattr(_s,'__swig_getmethods__',{}))
__getattr__ = lambda self, name: _swig_getattr(self, RandomMixture, name)
def GetClassName():
"""GetClassName() -> OT::String"""
return _dist_bundle3.RandomMixture_GetClassName()
if _newclass:GetClassName = staticmethod(GetClassName)
__swig_getmethods__["GetClassName"] = lambda x: GetClassName
def getClassName(self):
"""getClassName(RandomMixture self) -> OT::String"""
return _dist_bundle3.RandomMixture_getClassName(self)
def __eq__(self, *args):
"""__eq__(RandomMixture self, RandomMixture other) -> OT::Bool"""
return _dist_bundle3.RandomMixture___eq__(self, *args)
def __repr__(self):
"""__repr__(RandomMixture self) -> OT::String"""
return _dist_bundle3.RandomMixture___repr__(self)
def __str__(self, offset=""):
"""
__str__(RandomMixture self, OT::String const & offset="") -> OT::String
__str__(RandomMixture self) -> OT::String
"""
return _dist_bundle3.RandomMixture___str__(self, offset)
def setDistributionCollection(self, *args):
"""setDistributionCollection(RandomMixture self, DistributionCollection coll)"""
return _dist_bundle3.RandomMixture_setDistributionCollection(self, *args)
def getDistributionCollection(self):
"""getDistributionCollection(RandomMixture self) -> DistributionCollection"""
return _dist_bundle3.RandomMixture_getDistributionCollection(self)
def setConstant(self, *args):
"""setConstant(RandomMixture self, OT::NumericalScalar const constant)"""
return _dist_bundle3.RandomMixture_setConstant(self, *args)
def getConstant(self):
"""getConstant(RandomMixture self) -> OT::NumericalScalar"""
return _dist_bundle3.RandomMixture_getConstant(self)
def getRealization(self):
"""getRealization(RandomMixture self) -> NumericalPoint"""
return _dist_bundle3.RandomMixture_getRealization(self)
def computeDDF(self, *args):
"""
computeDDF(RandomMixture self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeDDF(RandomMixture self, NumericalPoint point) -> NumericalPoint
computeDDF(RandomMixture self, NumericalSample sample) -> NumericalSample
computeDDF(RandomMixture self, NumericalPoint point) -> NumericalPoint
"""
return _dist_bundle3.RandomMixture_computeDDF(self, *args)
def computePDF(self, *args):
"""
computePDF(RandomMixture self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computePDF(RandomMixture self, NumericalPoint point) -> OT::NumericalScalar
computePDF(RandomMixture self, NumericalSample sample) -> NumericalSample
computePDF(RandomMixture self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultPDFEpsilon")) -> NumericalSample
computePDF(RandomMixture self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computePDF(RandomMixture self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultPDFEpsilon")) -> NumericalSample
computePDF(RandomMixture self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid) -> NumericalSample
computePDF(RandomMixture self, NumericalPoint point) -> OT::NumericalScalar
computePDF(RandomMixture self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar( "RandomMixture-GraphPDFEpsilon" )) -> NumericalSample
computePDF(RandomMixture self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
"""
return _dist_bundle3.RandomMixture_computePDF(self, *args)
def computeComplementaryCDF(self, *args):
"""
computeComplementaryCDF(RandomMixture self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeComplementaryCDF(RandomMixture self, NumericalPoint point) -> OT::NumericalScalar
computeComplementaryCDF(RandomMixture self, NumericalSample sample) -> NumericalSample
computeComplementaryCDF(RandomMixture self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeComplementaryCDF(RandomMixture self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computeComplementaryCDF(RandomMixture self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.RandomMixture_computeComplementaryCDF(self, *args)
def computeCDF(self, *args):
"""
computeCDF(RandomMixture self, OT::NumericalScalar const scalar, OT::Bool const tail) -> OT::NumericalScalar
computeCDF(RandomMixture self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeCDF(RandomMixture self, NumericalPoint point, OT::Bool const tail) -> OT::NumericalScalar
computeCDF(RandomMixture self, NumericalPoint point) -> OT::NumericalScalar
computeCDF(RandomMixture self, NumericalSample sample, OT::Bool const tail) -> NumericalSample
computeCDF(RandomMixture self, NumericalSample sample) -> NumericalSample
computeCDF(RandomMixture self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeCDF(RandomMixture self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computeCDF(RandomMixture self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeCDF(RandomMixture self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid) -> NumericalSample
computeCDF(RandomMixture self, NumericalPoint point) -> OT::NumericalScalar
computeCDF(RandomMixture self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar( "RandomMixture-GraphCDFEpsilon" )) -> NumericalSample
computeCDF(RandomMixture self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
"""
return _dist_bundle3.RandomMixture_computeCDF(self, *args)
def computeProbability(self, *args):
"""computeProbability(RandomMixture self, Interval interval) -> OT::NumericalScalar"""
return _dist_bundle3.RandomMixture_computeProbability(self, *args)
def computeQuantile(self, *args):
"""
computeQuantile(RandomMixture self, OT::NumericalScalar const prob, OT::Bool const tail=False) -> NumericalPoint
computeQuantile(RandomMixture self, OT::NumericalScalar const prob) -> NumericalPoint
computeQuantile(RandomMixture self, NumericalPoint prob, OT::Bool const tail=False) -> NumericalSample
computeQuantile(RandomMixture self, NumericalPoint prob) -> NumericalSample
computeQuantile(RandomMixture self, OT::NumericalScalar const qMin, OT::NumericalScalar const qMax, OT::UnsignedLong const pointNumber,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultQuantileEpsilon"),
OT::Bool const tail=False) -> NumericalSample
computeQuantile(RandomMixture self, OT::NumericalScalar const qMin, OT::NumericalScalar const qMax, OT::UnsignedLong const pointNumber,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultQuantileEpsilon")) -> NumericalSample
computeQuantile(RandomMixture self, OT::NumericalScalar const qMin, OT::NumericalScalar const qMax, OT::UnsignedLong const pointNumber) -> NumericalSample
computeQuantile(RandomMixture self, OT::NumericalScalar const qMin, OT::NumericalScalar const qMax, OT::UnsignedLong const pointNumber,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar( "RandomMixture-GraphCDFEpsilon" ),
OT::Bool const tail=False) -> NumericalSample
computeQuantile(RandomMixture self, OT::NumericalScalar const qMin, OT::NumericalScalar const qMax, OT::UnsignedLong const pointNumber,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar( "RandomMixture-GraphCDFEpsilon" )) -> NumericalSample
computeQuantile(RandomMixture self, OT::NumericalScalar const qMin, OT::NumericalScalar const qMax, OT::UnsignedLong const pointNumber) -> NumericalSample
"""
return _dist_bundle3.RandomMixture_computeQuantile(self, *args)
def computeCharacteristicFunction(self, *args):
"""
computeCharacteristicFunction(RandomMixture self, OT::NumericalScalar const x) -> OT::NumericalComplex
computeCharacteristicFunction(RandomMixture self, NumericalPoint x) -> OT::NumericalComplex
computeCharacteristicFunction(RandomMixture self, OT::UnsignedLong const index, OT::NumericalScalar const step) -> OT::NumericalComplex
computeCharacteristicFunction(RandomMixture self, Indices indices, NumericalPoint step) -> OT::NumericalComplex
computeCharacteristicFunction(RandomMixture self, OT::NumericalScalar const x) -> OT::NumericalComplex
"""
return _dist_bundle3.RandomMixture_computeCharacteristicFunction(self, *args)
def computeLogCharacteristicFunction(self, *args):
"""
computeLogCharacteristicFunction(RandomMixture self, OT::NumericalScalar const x) -> OT::NumericalComplex
computeLogCharacteristicFunction(RandomMixture self, NumericalPoint x) -> OT::NumericalComplex
computeLogCharacteristicFunction(RandomMixture self, OT::UnsignedLong const index, OT::NumericalScalar const step) -> OT::NumericalComplex
computeLogCharacteristicFunction(RandomMixture self, Indices indices, NumericalPoint step) -> OT::NumericalComplex
computeLogCharacteristicFunction(RandomMixture self, OT::NumericalScalar const x) -> OT::NumericalComplex
"""
return _dist_bundle3.RandomMixture_computeLogCharacteristicFunction(self, *args)
def computePDFGradient(self, *args):
"""computePDFGradient(RandomMixture self, NumericalPoint point) -> NumericalPoint"""
return _dist_bundle3.RandomMixture_computePDFGradient(self, *args)
def computeCDFGradient(self, *args):
"""computeCDFGradient(RandomMixture self, NumericalPoint point) -> NumericalPoint"""
return _dist_bundle3.RandomMixture_computeCDFGradient(self, *args)
def getParametersCollection(self):
"""getParametersCollection(RandomMixture self) -> NumericalPointWithDescriptionCollection"""
return _dist_bundle3.RandomMixture_getParametersCollection(self)
def setWeights(self, *args):
"""setWeights(RandomMixture self, NumericalPoint weights)"""
return _dist_bundle3.RandomMixture_setWeights(self, *args)
def getWeights(self):
"""getWeights(RandomMixture self) -> NumericalPoint"""
return _dist_bundle3.RandomMixture_getWeights(self)
def getPositionIndicator(self):
"""getPositionIndicator(RandomMixture self) -> OT::NumericalScalar"""
return _dist_bundle3.RandomMixture_getPositionIndicator(self)
def getDispersionIndicator(self):
"""getDispersionIndicator(RandomMixture self) -> OT::NumericalScalar"""
return _dist_bundle3.RandomMixture_getDispersionIndicator(self)
def setBlockMin(self, *args):
"""setBlockMin(RandomMixture self, OT::UnsignedLong const blockMin)"""
return _dist_bundle3.RandomMixture_setBlockMin(self, *args)
def getBlockMin(self):
"""getBlockMin(RandomMixture self) -> OT::UnsignedLong"""
return _dist_bundle3.RandomMixture_getBlockMin(self)
def setBlockMax(self, *args):
"""setBlockMax(RandomMixture self, OT::UnsignedLong const blockMax)"""
return _dist_bundle3.RandomMixture_setBlockMax(self, *args)
def getBlockMax(self):
"""getBlockMax(RandomMixture self) -> OT::UnsignedLong"""
return _dist_bundle3.RandomMixture_getBlockMax(self)
def setMaxSize(self, *args):
"""setMaxSize(RandomMixture self, OT::UnsignedLong const maxSize)"""
return _dist_bundle3.RandomMixture_setMaxSize(self, *args)
def getMaxSize(self):
"""getMaxSize(RandomMixture self) -> OT::UnsignedLong"""
return _dist_bundle3.RandomMixture_getMaxSize(self)
def setAlpha(self, *args):
"""setAlpha(RandomMixture self, OT::NumericalScalar const alpha)"""
return _dist_bundle3.RandomMixture_setAlpha(self, *args)
def getAlpha(self):
"""getAlpha(RandomMixture self) -> OT::NumericalScalar"""
return _dist_bundle3.RandomMixture_getAlpha(self)
def setBeta(self, *args):
"""setBeta(RandomMixture self, OT::NumericalScalar const beta)"""
return _dist_bundle3.RandomMixture_setBeta(self, *args)
def getBeta(self):
"""getBeta(RandomMixture self) -> OT::NumericalScalar"""
return _dist_bundle3.RandomMixture_getBeta(self)
def setReferenceBandwidth(self, *args):
"""setReferenceBandwidth(RandomMixture self, OT::NumericalScalar const bandwidth)"""
return _dist_bundle3.RandomMixture_setReferenceBandwidth(self, *args)
def getReferenceBandwidth(self):
"""getReferenceBandwidth(RandomMixture self) -> OT::NumericalScalar"""
return _dist_bundle3.RandomMixture_getReferenceBandwidth(self)
def setPDFPrecision(self, *args):
"""setPDFPrecision(RandomMixture self, OT::NumericalScalar const pdfPrecision)"""
return _dist_bundle3.RandomMixture_setPDFPrecision(self, *args)
def setCDFPrecision(self, *args):
"""setCDFPrecision(RandomMixture self, OT::NumericalScalar const cdfPrecision)"""
return _dist_bundle3.RandomMixture_setCDFPrecision(self, *args)
def project(self, *args):
"""
project(RandomMixture self, DistributionFactoryCollection factoryCollection, NumericalPoint kolmogorovNorm, OT::UnsignedLong const size=OT::ResourceMap::GetAsUnsignedLong( "RandomMixture-ProjectionDefaultSize" )) -> DistributionCollection
project(RandomMixture self, DistributionFactoryCollection factoryCollection, NumericalPoint kolmogorovNorm) -> DistributionCollection
"""
return _dist_bundle3.RandomMixture_project(self, *args)
def computeMean(self):
"""computeMean(RandomMixture self)"""
return _dist_bundle3.RandomMixture_computeMean(self)
def computeCovariance(self):
"""computeCovariance(RandomMixture self)"""
return _dist_bundle3.RandomMixture_computeCovariance(self)
def getStandardDeviation(self):
"""getStandardDeviation(RandomMixture self) -> NumericalPoint"""
return _dist_bundle3.RandomMixture_getStandardDeviation(self)
def getSkewness(self):
"""getSkewness(RandomMixture self) -> NumericalPoint"""
return _dist_bundle3.RandomMixture_getSkewness(self)
def getKurtosis(self):
"""getKurtosis(RandomMixture self) -> NumericalPoint"""
return _dist_bundle3.RandomMixture_getKurtosis(self)
def computePositionIndicator(self):
"""computePositionIndicator(RandomMixture self)"""
return _dist_bundle3.RandomMixture_computePositionIndicator(self)
def computeDispersionIndicator(self):
"""computeDispersionIndicator(RandomMixture self)"""
return _dist_bundle3.RandomMixture_computeDispersionIndicator(self)
def __init__(self, *args):
"""
__init__(OT::RandomMixture self, DistributionCollection coll, OT::NumericalScalar const constant=0.0) -> RandomMixture
__init__(OT::RandomMixture self, DistributionCollection coll) -> RandomMixture
__init__(OT::RandomMixture self, DistributionCollection coll, NumericalPoint weights, OT::NumericalScalar const constant=0.0) -> RandomMixture
__init__(OT::RandomMixture self, DistributionCollection coll, NumericalPoint weights) -> RandomMixture
__init__(OT::RandomMixture self, RandomMixture other) -> RandomMixture
"""
this = _dist_bundle3.new_RandomMixture(*args)
try: self.this.append(this)
except: self.this = this
__swig_destroy__ = _dist_bundle3.delete_RandomMixture
__del__ = lambda self : None;
RandomMixture_swigregister = _dist_bundle3.RandomMixture_swigregister
RandomMixture_swigregister(RandomMixture)
def RandomMixture_GetClassName():
"""RandomMixture_GetClassName() -> OT::String"""
return _dist_bundle3.RandomMixture_GetClassName()
class Rayleigh(openturns.model_copula.NonEllipticalDistribution):
"""Proxy of C++ OT::Rayleigh class"""
__swig_setmethods__ = {}
for _s in [openturns.model_copula.NonEllipticalDistribution]: __swig_setmethods__.update(getattr(_s,'__swig_setmethods__',{}))
__setattr__ = lambda self, name, value: _swig_setattr(self, Rayleigh, name, value)
__swig_getmethods__ = {}
for _s in [openturns.model_copula.NonEllipticalDistribution]: __swig_getmethods__.update(getattr(_s,'__swig_getmethods__',{}))
__getattr__ = lambda self, name: _swig_getattr(self, Rayleigh, name)
def GetClassName():
"""GetClassName() -> OT::String"""
return _dist_bundle3.Rayleigh_GetClassName()
if _newclass:GetClassName = staticmethod(GetClassName)
__swig_getmethods__["GetClassName"] = lambda x: GetClassName
def getClassName(self):
"""getClassName(Rayleigh self) -> OT::String"""
return _dist_bundle3.Rayleigh_getClassName(self)
def __eq__(self, *args):
"""__eq__(Rayleigh self, Rayleigh other) -> OT::Bool"""
return _dist_bundle3.Rayleigh___eq__(self, *args)
def __repr__(self):
"""__repr__(Rayleigh self) -> OT::String"""
return _dist_bundle3.Rayleigh___repr__(self)
def __str__(self, offset=""):
"""
__str__(Rayleigh self, OT::String const & offset="") -> OT::String
__str__(Rayleigh self) -> OT::String
"""
return _dist_bundle3.Rayleigh___str__(self, offset)
def getRealization(self):
"""getRealization(Rayleigh self) -> NumericalPoint"""
return _dist_bundle3.Rayleigh_getRealization(self)
def computeDDF(self, *args):
"""
computeDDF(Rayleigh self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeDDF(Rayleigh self, NumericalPoint point) -> NumericalPoint
computeDDF(Rayleigh self, NumericalSample sample) -> NumericalSample
computeDDF(Rayleigh self, NumericalPoint point) -> NumericalPoint
"""
return _dist_bundle3.Rayleigh_computeDDF(self, *args)
def computePDF(self, *args):
"""
computePDF(Rayleigh self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computePDF(Rayleigh self, NumericalPoint point) -> OT::NumericalScalar
computePDF(Rayleigh self, NumericalSample sample) -> NumericalSample
computePDF(Rayleigh self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultPDFEpsilon")) -> NumericalSample
computePDF(Rayleigh self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computePDF(Rayleigh self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultPDFEpsilon")) -> NumericalSample
computePDF(Rayleigh self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid) -> NumericalSample
computePDF(Rayleigh self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.Rayleigh_computePDF(self, *args)
def computeLogPDF(self, *args):
"""
computeLogPDF(Rayleigh self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeLogPDF(Rayleigh self, NumericalPoint point) -> OT::NumericalScalar
computeLogPDF(Rayleigh self, NumericalSample sample) -> NumericalSample
computeLogPDF(Rayleigh self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.Rayleigh_computeLogPDF(self, *args)
def computeCDF(self, *args):
"""
computeCDF(Rayleigh self, OT::NumericalScalar const scalar, OT::Bool const tail) -> OT::NumericalScalar
computeCDF(Rayleigh self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeCDF(Rayleigh self, NumericalPoint point, OT::Bool const tail) -> OT::NumericalScalar
computeCDF(Rayleigh self, NumericalPoint point) -> OT::NumericalScalar
computeCDF(Rayleigh self, NumericalSample sample, OT::Bool const tail) -> NumericalSample
computeCDF(Rayleigh self, NumericalSample sample) -> NumericalSample
computeCDF(Rayleigh self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeCDF(Rayleigh self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computeCDF(Rayleigh self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeCDF(Rayleigh self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid) -> NumericalSample
computeCDF(Rayleigh self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.Rayleigh_computeCDF(self, *args)
def computeCharacteristicFunction(self, *args):
"""computeCharacteristicFunction(Rayleigh self, OT::NumericalScalar const x) -> OT::NumericalComplex"""
return _dist_bundle3.Rayleigh_computeCharacteristicFunction(self, *args)
def computePDFGradient(self, *args):
"""computePDFGradient(Rayleigh self, NumericalPoint point) -> NumericalPoint"""
return _dist_bundle3.Rayleigh_computePDFGradient(self, *args)
def computeCDFGradient(self, *args):
"""computeCDFGradient(Rayleigh self, NumericalPoint point) -> NumericalPoint"""
return _dist_bundle3.Rayleigh_computeCDFGradient(self, *args)
def getStandardDeviation(self):
"""getStandardDeviation(Rayleigh self) -> NumericalPoint"""
return _dist_bundle3.Rayleigh_getStandardDeviation(self)
def getSkewness(self):
"""getSkewness(Rayleigh self) -> NumericalPoint"""
return _dist_bundle3.Rayleigh_getSkewness(self)
def getKurtosis(self):
"""getKurtosis(Rayleigh self) -> NumericalPoint"""
return _dist_bundle3.Rayleigh_getKurtosis(self)
def getStandardMoment(self, *args):
"""getStandardMoment(Rayleigh self, OT::UnsignedLong const n) -> NumericalPoint"""
return _dist_bundle3.Rayleigh_getStandardMoment(self, *args)
def getStandardRepresentative(self):
"""getStandardRepresentative(Rayleigh self) -> DistributionImplementationPointer"""
return _dist_bundle3.Rayleigh_getStandardRepresentative(self)
def getParametersCollection(self):
"""getParametersCollection(Rayleigh self) -> NumericalPointWithDescriptionCollection"""
return _dist_bundle3.Rayleigh_getParametersCollection(self)
def setParametersCollection(self, *args):
"""
setParametersCollection(Rayleigh self, NumericalPointWithDescriptionCollection parametersCollection)
setParametersCollection(Rayleigh self, NumericalPointCollection parametersCollection)
setParametersCollection(Rayleigh self, NumericalPoint parameters)
setParametersCollection(Rayleigh self, NumericalPointCollection parametersCollection)
"""
return _dist_bundle3.Rayleigh_setParametersCollection(self, *args)
def setSigma(self, *args):
"""setSigma(Rayleigh self, OT::NumericalScalar const sigma)"""
return _dist_bundle3.Rayleigh_setSigma(self, *args)
def getSigma(self):
"""getSigma(Rayleigh self) -> OT::NumericalScalar"""
return _dist_bundle3.Rayleigh_getSigma(self)
def setGamma(self, *args):
"""setGamma(Rayleigh self, OT::NumericalScalar const gamma)"""
return _dist_bundle3.Rayleigh_setGamma(self, *args)
def getGamma(self):
"""getGamma(Rayleigh self) -> OT::NumericalScalar"""
return _dist_bundle3.Rayleigh_getGamma(self)
def __init__(self, *args):
"""
__init__(OT::Rayleigh self) -> Rayleigh
__init__(OT::Rayleigh self, OT::NumericalScalar const sigma, OT::NumericalScalar const gamma=0.0) -> Rayleigh
__init__(OT::Rayleigh self, OT::NumericalScalar const sigma) -> Rayleigh
__init__(OT::Rayleigh self, Rayleigh other) -> Rayleigh
"""
this = _dist_bundle3.new_Rayleigh(*args)
try: self.this.append(this)
except: self.this = this
__swig_destroy__ = _dist_bundle3.delete_Rayleigh
__del__ = lambda self : None;
Rayleigh_swigregister = _dist_bundle3.Rayleigh_swigregister
Rayleigh_swigregister(Rayleigh)
def Rayleigh_GetClassName():
"""Rayleigh_GetClassName() -> OT::String"""
return _dist_bundle3.Rayleigh_GetClassName()
class RayleighFactory(openturns.model_copula.DistributionImplementationFactory):
"""Proxy of C++ OT::RayleighFactory class"""
__swig_setmethods__ = {}
for _s in [openturns.model_copula.DistributionImplementationFactory]: __swig_setmethods__.update(getattr(_s,'__swig_setmethods__',{}))
__setattr__ = lambda self, name, value: _swig_setattr(self, RayleighFactory, name, value)
__swig_getmethods__ = {}
for _s in [openturns.model_copula.DistributionImplementationFactory]: __swig_getmethods__.update(getattr(_s,'__swig_getmethods__',{}))
__getattr__ = lambda self, name: _swig_getattr(self, RayleighFactory, name)
__repr__ = _swig_repr
def GetClassName():
"""GetClassName() -> OT::String"""
return _dist_bundle3.RayleighFactory_GetClassName()
if _newclass:GetClassName = staticmethod(GetClassName)
__swig_getmethods__["GetClassName"] = lambda x: GetClassName
def getClassName(self):
"""getClassName(RayleighFactory self) -> OT::String"""
return _dist_bundle3.RayleighFactory_getClassName(self)
def build(self, *args):
"""
build(RayleighFactory self, NumericalSample sample) -> DistributionImplementationPointer
build(RayleighFactory self, NumericalSample sample, CovarianceMatrix covariance) -> DistributionImplementationPointer
build(RayleighFactory self, NumericalPointCollection parameters) -> DistributionImplementationPointer
build(RayleighFactory self, NumericalPointWithDescriptionCollection parameters) -> DistributionImplementationPointer
build(RayleighFactory self, NumericalSample sample) -> DistributionImplementationPointer
build(RayleighFactory self, NumericalPointCollection parameters) -> DistributionImplementationPointer
build(RayleighFactory self) -> DistributionImplementationPointer
"""
return _dist_bundle3.RayleighFactory_build(self, *args)
def buildAsRayleigh(self, *args):
"""
buildAsRayleigh(RayleighFactory self, NumericalSample sample) -> Rayleigh
buildAsRayleigh(RayleighFactory self, NumericalPointCollection parameters) -> Rayleigh
buildAsRayleigh(RayleighFactory self, NumericalPointWithDescriptionCollection parameters) -> Rayleigh
buildAsRayleigh(RayleighFactory self) -> Rayleigh
"""
return _dist_bundle3.RayleighFactory_buildAsRayleigh(self, *args)
def __init__(self, *args):
"""
__init__(OT::RayleighFactory self) -> RayleighFactory
__init__(OT::RayleighFactory self, RayleighFactory other) -> RayleighFactory
"""
this = _dist_bundle3.new_RayleighFactory(*args)
try: self.this.append(this)
except: self.this = this
__swig_destroy__ = _dist_bundle3.delete_RayleighFactory
__del__ = lambda self : None;
RayleighFactory_swigregister = _dist_bundle3.RayleighFactory_swigregister
RayleighFactory_swigregister(RayleighFactory)
def RayleighFactory_GetClassName():
"""RayleighFactory_GetClassName() -> OT::String"""
return _dist_bundle3.RayleighFactory_GetClassName()
class Rice(openturns.model_copula.NonEllipticalDistribution):
"""Proxy of C++ OT::Rice class"""
__swig_setmethods__ = {}
for _s in [openturns.model_copula.NonEllipticalDistribution]: __swig_setmethods__.update(getattr(_s,'__swig_setmethods__',{}))
__setattr__ = lambda self, name, value: _swig_setattr(self, Rice, name, value)
__swig_getmethods__ = {}
for _s in [openturns.model_copula.NonEllipticalDistribution]: __swig_getmethods__.update(getattr(_s,'__swig_getmethods__',{}))
__getattr__ = lambda self, name: _swig_getattr(self, Rice, name)
def GetClassName():
"""GetClassName() -> OT::String"""
return _dist_bundle3.Rice_GetClassName()
if _newclass:GetClassName = staticmethod(GetClassName)
__swig_getmethods__["GetClassName"] = lambda x: GetClassName
def getClassName(self):
"""getClassName(Rice self) -> OT::String"""
return _dist_bundle3.Rice_getClassName(self)
def __eq__(self, *args):
"""__eq__(Rice self, Rice other) -> OT::Bool"""
return _dist_bundle3.Rice___eq__(self, *args)
def __repr__(self):
"""__repr__(Rice self) -> OT::String"""
return _dist_bundle3.Rice___repr__(self)
def __str__(self, offset=""):
"""
__str__(Rice self, OT::String const & offset="") -> OT::String
__str__(Rice self) -> OT::String
"""
return _dist_bundle3.Rice___str__(self, offset)
def getRealization(self):
"""getRealization(Rice self) -> NumericalPoint"""
return _dist_bundle3.Rice_getRealization(self)
def computePDF(self, *args):
"""
computePDF(Rice self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computePDF(Rice self, NumericalPoint point) -> OT::NumericalScalar
computePDF(Rice self, NumericalSample sample) -> NumericalSample
computePDF(Rice self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultPDFEpsilon")) -> NumericalSample
computePDF(Rice self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computePDF(Rice self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultPDFEpsilon")) -> NumericalSample
computePDF(Rice self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid) -> NumericalSample
computePDF(Rice self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.Rice_computePDF(self, *args)
def computeCDF(self, *args):
"""
computeCDF(Rice self, OT::NumericalScalar const scalar, OT::Bool const tail) -> OT::NumericalScalar
computeCDF(Rice self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeCDF(Rice self, NumericalPoint point, OT::Bool const tail) -> OT::NumericalScalar
computeCDF(Rice self, NumericalPoint point) -> OT::NumericalScalar
computeCDF(Rice self, NumericalSample sample, OT::Bool const tail) -> NumericalSample
computeCDF(Rice self, NumericalSample sample) -> NumericalSample
computeCDF(Rice self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeCDF(Rice self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computeCDF(Rice self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeCDF(Rice self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid) -> NumericalSample
computeCDF(Rice self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.Rice_computeCDF(self, *args)
def computeComplementaryCDF(self, *args):
"""
computeComplementaryCDF(Rice self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeComplementaryCDF(Rice self, NumericalPoint point) -> OT::NumericalScalar
computeComplementaryCDF(Rice self, NumericalSample sample) -> NumericalSample
computeComplementaryCDF(Rice self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeComplementaryCDF(Rice self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computeComplementaryCDF(Rice self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.Rice_computeComplementaryCDF(self, *args)
def getStandardDeviation(self):
"""getStandardDeviation(Rice self) -> NumericalPoint"""
return _dist_bundle3.Rice_getStandardDeviation(self)
def getStandardMoment(self, *args):
"""getStandardMoment(Rice self, OT::UnsignedLong const n) -> NumericalPoint"""
return _dist_bundle3.Rice_getStandardMoment(self, *args)
def getStandardRepresentative(self):
"""getStandardRepresentative(Rice self) -> DistributionImplementationPointer"""
return _dist_bundle3.Rice_getStandardRepresentative(self)
def getParametersCollection(self):
"""getParametersCollection(Rice self) -> NumericalPointWithDescriptionCollection"""
return _dist_bundle3.Rice_getParametersCollection(self)
def setParametersCollection(self, *args):
"""
setParametersCollection(Rice self, NumericalPointWithDescriptionCollection parametersCollection)
setParametersCollection(Rice self, NumericalPointCollection parametersCollection)
setParametersCollection(Rice self, NumericalPoint parameters)
setParametersCollection(Rice self, NumericalPointCollection parametersCollection)
"""
return _dist_bundle3.Rice_setParametersCollection(self, *args)
def setSigma(self, *args):
"""setSigma(Rice self, OT::NumericalScalar const sigma)"""
return _dist_bundle3.Rice_setSigma(self, *args)
def getSigma(self):
"""getSigma(Rice self) -> OT::NumericalScalar"""
return _dist_bundle3.Rice_getSigma(self)
def setNu(self, *args):
"""setNu(Rice self, OT::NumericalScalar const nu)"""
return _dist_bundle3.Rice_setNu(self, *args)
def getNu(self):
"""getNu(Rice self) -> OT::NumericalScalar"""
return _dist_bundle3.Rice_getNu(self)
def __init__(self, *args):
"""
__init__(OT::Rice self) -> Rice
__init__(OT::Rice self, OT::NumericalScalar const sigma, OT::NumericalScalar const nu=0.0) -> Rice
__init__(OT::Rice self, OT::NumericalScalar const sigma) -> Rice
__init__(OT::Rice self, Rice other) -> Rice
"""
this = _dist_bundle3.new_Rice(*args)
try: self.this.append(this)
except: self.this = this
__swig_destroy__ = _dist_bundle3.delete_Rice
__del__ = lambda self : None;
Rice_swigregister = _dist_bundle3.Rice_swigregister
Rice_swigregister(Rice)
def Rice_GetClassName():
"""Rice_GetClassName() -> OT::String"""
return _dist_bundle3.Rice_GetClassName()
class RiceFactory(openturns.model_copula.DistributionImplementationFactory):
"""Proxy of C++ OT::RiceFactory class"""
__swig_setmethods__ = {}
for _s in [openturns.model_copula.DistributionImplementationFactory]: __swig_setmethods__.update(getattr(_s,'__swig_setmethods__',{}))
__setattr__ = lambda self, name, value: _swig_setattr(self, RiceFactory, name, value)
__swig_getmethods__ = {}
for _s in [openturns.model_copula.DistributionImplementationFactory]: __swig_getmethods__.update(getattr(_s,'__swig_getmethods__',{}))
__getattr__ = lambda self, name: _swig_getattr(self, RiceFactory, name)
__repr__ = _swig_repr
def GetClassName():
"""GetClassName() -> OT::String"""
return _dist_bundle3.RiceFactory_GetClassName()
if _newclass:GetClassName = staticmethod(GetClassName)
__swig_getmethods__["GetClassName"] = lambda x: GetClassName
def getClassName(self):
"""getClassName(RiceFactory self) -> OT::String"""
return _dist_bundle3.RiceFactory_getClassName(self)
def build(self, *args):
"""
build(RiceFactory self, NumericalSample sample) -> DistributionImplementationPointer
build(RiceFactory self, NumericalSample sample, CovarianceMatrix covariance) -> DistributionImplementationPointer
build(RiceFactory self, NumericalPointCollection parameters) -> DistributionImplementationPointer
build(RiceFactory self, NumericalPointWithDescriptionCollection parameters) -> DistributionImplementationPointer
build(RiceFactory self, NumericalSample sample) -> DistributionImplementationPointer
build(RiceFactory self, NumericalPointCollection parameters) -> DistributionImplementationPointer
build(RiceFactory self) -> DistributionImplementationPointer
"""
return _dist_bundle3.RiceFactory_build(self, *args)
def buildAsRice(self, *args):
"""
buildAsRice(RiceFactory self, NumericalSample sample) -> Rice
buildAsRice(RiceFactory self, NumericalPointCollection parameters) -> Rice
buildAsRice(RiceFactory self, NumericalPointWithDescriptionCollection parameters) -> Rice
buildAsRice(RiceFactory self) -> Rice
"""
return _dist_bundle3.RiceFactory_buildAsRice(self, *args)
def __init__(self, *args):
"""
__init__(OT::RiceFactory self) -> RiceFactory
__init__(OT::RiceFactory self, RiceFactory other) -> RiceFactory
"""
this = _dist_bundle3.new_RiceFactory(*args)
try: self.this.append(this)
except: self.this = this
__swig_destroy__ = _dist_bundle3.delete_RiceFactory
__del__ = lambda self : None;
RiceFactory_swigregister = _dist_bundle3.RiceFactory_swigregister
RiceFactory_swigregister(RiceFactory)
def RiceFactory_GetClassName():
"""RiceFactory_GetClassName() -> OT::String"""
return _dist_bundle3.RiceFactory_GetClassName()
class Student(openturns.model_copula.EllipticalDistribution):
"""Proxy of C++ OT::Student class"""
__swig_setmethods__ = {}
for _s in [openturns.model_copula.EllipticalDistribution]: __swig_setmethods__.update(getattr(_s,'__swig_setmethods__',{}))
__setattr__ = lambda self, name, value: _swig_setattr(self, Student, name, value)
__swig_getmethods__ = {}
for _s in [openturns.model_copula.EllipticalDistribution]: __swig_getmethods__.update(getattr(_s,'__swig_getmethods__',{}))
__getattr__ = lambda self, name: _swig_getattr(self, Student, name)
def GetClassName():
"""GetClassName() -> OT::String"""
return _dist_bundle3.Student_GetClassName()
if _newclass:GetClassName = staticmethod(GetClassName)
__swig_getmethods__["GetClassName"] = lambda x: GetClassName
def getClassName(self):
"""getClassName(Student self) -> OT::String"""
return _dist_bundle3.Student_getClassName(self)
def __eq__(self, *args):
"""__eq__(Student self, Student other) -> OT::Bool"""
return _dist_bundle3.Student___eq__(self, *args)
def __repr__(self):
"""__repr__(Student self) -> OT::String"""
return _dist_bundle3.Student___repr__(self)
def __str__(self, offset=""):
"""
__str__(Student self, OT::String const & offset="") -> OT::String
__str__(Student self) -> OT::String
"""
return _dist_bundle3.Student___str__(self, offset)
def getRealization(self):
"""getRealization(Student self) -> NumericalPoint"""
return _dist_bundle3.Student_getRealization(self)
def computeCDF(self, *args):
"""
computeCDF(Student self, OT::NumericalScalar const scalar, OT::Bool const tail) -> OT::NumericalScalar
computeCDF(Student self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeCDF(Student self, NumericalPoint point, OT::Bool const tail) -> OT::NumericalScalar
computeCDF(Student self, NumericalPoint point) -> OT::NumericalScalar
computeCDF(Student self, NumericalSample sample, OT::Bool const tail) -> NumericalSample
computeCDF(Student self, NumericalSample sample) -> NumericalSample
computeCDF(Student self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeCDF(Student self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computeCDF(Student self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeCDF(Student self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid) -> NumericalSample
computeCDF(Student self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.Student_computeCDF(self, *args)
def computeComplementaryCDF(self, *args):
"""
computeComplementaryCDF(Student self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeComplementaryCDF(Student self, NumericalPoint point) -> OT::NumericalScalar
computeComplementaryCDF(Student self, NumericalSample sample) -> NumericalSample
computeComplementaryCDF(Student self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeComplementaryCDF(Student self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computeComplementaryCDF(Student self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.Student_computeComplementaryCDF(self, *args)
def computeProbability(self, *args):
"""computeProbability(Student self, Interval interval) -> OT::NumericalScalar"""
return _dist_bundle3.Student_computeProbability(self, *args)
def computePDFGradient(self, *args):
"""computePDFGradient(Student self, NumericalPoint point) -> NumericalPoint"""
return _dist_bundle3.Student_computePDFGradient(self, *args)
def computeCDFGradient(self, *args):
"""computeCDFGradient(Student self, NumericalPoint point) -> NumericalPoint"""
return _dist_bundle3.Student_computeCDFGradient(self, *args)
def computeRadialDistributionCDF(self, *args):
"""
computeRadialDistributionCDF(Student self, OT::NumericalScalar const radius, OT::Bool const tail=False) -> OT::NumericalScalar
computeRadialDistributionCDF(Student self, OT::NumericalScalar const radius) -> OT::NumericalScalar
"""
return _dist_bundle3.Student_computeRadialDistributionCDF(self, *args)
def computeConditionalPDF(self, *args):
"""computeConditionalPDF(Student self, OT::NumericalScalar const x, NumericalPoint y) -> OT::NumericalScalar"""
return _dist_bundle3.Student_computeConditionalPDF(self, *args)
def computeConditionalCDF(self, *args):
"""computeConditionalCDF(Student self, OT::NumericalScalar const x, NumericalPoint y) -> OT::NumericalScalar"""
return _dist_bundle3.Student_computeConditionalCDF(self, *args)
def computeConditionalQuantile(self, *args):
"""computeConditionalQuantile(Student self, OT::NumericalScalar const q, NumericalPoint y) -> OT::NumericalScalar"""
return _dist_bundle3.Student_computeConditionalQuantile(self, *args)
def getMarginal(self, *args):
"""
getMarginal(Student self, OT::UnsignedLong const i) -> DistributionImplementationPointer
getMarginal(Student self, Indices indices) -> DistributionImplementationPointer
"""
return _dist_bundle3.Student_getMarginal(self, *args)
def getMean(self):
"""getMean(Student self) -> NumericalPoint"""
return _dist_bundle3.Student_getMean(self)
def getStandardDeviation(self):
"""getStandardDeviation(Student self) -> NumericalPoint"""
return _dist_bundle3.Student_getStandardDeviation(self)
def getSkewness(self):
"""getSkewness(Student self) -> NumericalPoint"""
return _dist_bundle3.Student_getSkewness(self)
def getKurtosis(self):
"""getKurtosis(Student self) -> NumericalPoint"""
return _dist_bundle3.Student_getKurtosis(self)
def getCovariance(self):
"""getCovariance(Student self) -> CovarianceMatrix"""
return _dist_bundle3.Student_getCovariance(self)
def getStandardMoment(self, *args):
"""getStandardMoment(Student self, OT::UnsignedLong const n) -> NumericalPoint"""
return _dist_bundle3.Student_getStandardMoment(self, *args)
def getStandardRepresentative(self):
"""getStandardRepresentative(Student self) -> DistributionImplementationPointer"""
return _dist_bundle3.Student_getStandardRepresentative(self)
def getParametersCollection(self):
"""getParametersCollection(Student self) -> NumericalPointWithDescriptionCollection"""
return _dist_bundle3.Student_getParametersCollection(self)
def setParametersCollection(self, *args):
"""
setParametersCollection(Student self, NumericalPointWithDescriptionCollection parametersCollection)
setParametersCollection(Student self, NumericalPointCollection parametersCollection)
setParametersCollection(Student self, NumericalPoint parameters)
setParametersCollection(Student self, NumericalPointCollection parametersCollection)
"""
return _dist_bundle3.Student_setParametersCollection(self, *args)
def hasIndependentCopula(self):
"""hasIndependentCopula(Student self) -> OT::Bool"""
return _dist_bundle3.Student_hasIndependentCopula(self)
def setNu(self, *args):
"""setNu(Student self, OT::NumericalScalar const nu)"""
return _dist_bundle3.Student_setNu(self, *args)
def getNu(self):
"""getNu(Student self) -> OT::NumericalScalar"""
return _dist_bundle3.Student_getNu(self)
def setMu(self, *args):
"""setMu(Student self, OT::NumericalScalar const mu)"""
return _dist_bundle3.Student_setMu(self, *args)
def getMu(self):
"""getMu(Student self) -> OT::NumericalScalar"""
return _dist_bundle3.Student_getMu(self)
def computeDensityGenerator(self, *args):
"""computeDensityGenerator(Student self, OT::NumericalScalar const betaSquare) -> OT::NumericalScalar"""
return _dist_bundle3.Student_computeDensityGenerator(self, *args)
def computeDensityGeneratorDerivative(self, *args):
"""computeDensityGeneratorDerivative(Student self, OT::NumericalScalar const betaSquare) -> OT::NumericalScalar"""
return _dist_bundle3.Student_computeDensityGeneratorDerivative(self, *args)
def computeDensityGeneratorSecondDerivative(self, *args):
"""computeDensityGeneratorSecondDerivative(Student self, OT::NumericalScalar const betaSquare) -> OT::NumericalScalar"""
return _dist_bundle3.Student_computeDensityGeneratorSecondDerivative(self, *args)
def __init__(self, *args):
"""
__init__(OT::Student self, OT::NumericalScalar const nu=3.0, OT::UnsignedLong const dimension=1) -> Student
__init__(OT::Student self, OT::NumericalScalar const nu=3.0) -> Student
__init__(OT::Student self) -> Student
__init__(OT::Student self, OT::NumericalScalar const nu, OT::NumericalScalar const mu, OT::NumericalScalar const sigma=1.0) -> Student
__init__(OT::Student self, OT::NumericalScalar const nu, OT::NumericalScalar const mu) -> Student
__init__(OT::Student self, OT::NumericalScalar const nu, NumericalPoint mu, NumericalPoint sigma, CorrelationMatrix R) -> Student
__init__(OT::Student self, Student other) -> Student
"""
this = _dist_bundle3.new_Student(*args)
try: self.this.append(this)
except: self.this = this
__swig_destroy__ = _dist_bundle3.delete_Student
__del__ = lambda self : None;
Student_swigregister = _dist_bundle3.Student_swigregister
Student_swigregister(Student)
def Student_GetClassName():
"""Student_GetClassName() -> OT::String"""
return _dist_bundle3.Student_GetClassName()
class StudentFactory(openturns.model_copula.DistributionImplementationFactory):
"""Proxy of C++ OT::StudentFactory class"""
__swig_setmethods__ = {}
for _s in [openturns.model_copula.DistributionImplementationFactory]: __swig_setmethods__.update(getattr(_s,'__swig_setmethods__',{}))
__setattr__ = lambda self, name, value: _swig_setattr(self, StudentFactory, name, value)
__swig_getmethods__ = {}
for _s in [openturns.model_copula.DistributionImplementationFactory]: __swig_getmethods__.update(getattr(_s,'__swig_getmethods__',{}))
__getattr__ = lambda self, name: _swig_getattr(self, StudentFactory, name)
__repr__ = _swig_repr
def GetClassName():
"""GetClassName() -> OT::String"""
return _dist_bundle3.StudentFactory_GetClassName()
if _newclass:GetClassName = staticmethod(GetClassName)
__swig_getmethods__["GetClassName"] = lambda x: GetClassName
def getClassName(self):
"""getClassName(StudentFactory self) -> OT::String"""
return _dist_bundle3.StudentFactory_getClassName(self)
def build(self, *args):
"""
build(StudentFactory self, NumericalSample sample) -> DistributionImplementationPointer
build(StudentFactory self, NumericalSample sample, CovarianceMatrix covariance) -> DistributionImplementationPointer
build(StudentFactory self, NumericalPointCollection parameters) -> DistributionImplementationPointer
build(StudentFactory self, NumericalPointWithDescriptionCollection parameters) -> DistributionImplementationPointer
build(StudentFactory self, NumericalSample sample) -> DistributionImplementationPointer
build(StudentFactory self) -> DistributionImplementationPointer
"""
return _dist_bundle3.StudentFactory_build(self, *args)
def buildAsStudent(self, *args):
"""
buildAsStudent(StudentFactory self, NumericalSample sample) -> Student
buildAsStudent(StudentFactory self) -> Student
"""
return _dist_bundle3.StudentFactory_buildAsStudent(self, *args)
def __init__(self, *args):
"""
__init__(OT::StudentFactory self) -> StudentFactory
__init__(OT::StudentFactory self, StudentFactory other) -> StudentFactory
"""
this = _dist_bundle3.new_StudentFactory(*args)
try: self.this.append(this)
except: self.this = this
__swig_destroy__ = _dist_bundle3.delete_StudentFactory
__del__ = lambda self : None;
StudentFactory_swigregister = _dist_bundle3.StudentFactory_swigregister
StudentFactory_swigregister(StudentFactory)
def StudentFactory_GetClassName():
"""StudentFactory_GetClassName() -> OT::String"""
return _dist_bundle3.StudentFactory_GetClassName()
class Trapezoidal(openturns.model_copula.NonEllipticalDistribution):
"""Proxy of C++ OT::Trapezoidal class"""
__swig_setmethods__ = {}
for _s in [openturns.model_copula.NonEllipticalDistribution]: __swig_setmethods__.update(getattr(_s,'__swig_setmethods__',{}))
__setattr__ = lambda self, name, value: _swig_setattr(self, Trapezoidal, name, value)
__swig_getmethods__ = {}
for _s in [openturns.model_copula.NonEllipticalDistribution]: __swig_getmethods__.update(getattr(_s,'__swig_getmethods__',{}))
__getattr__ = lambda self, name: _swig_getattr(self, Trapezoidal, name)
def GetClassName():
"""GetClassName() -> OT::String"""
return _dist_bundle3.Trapezoidal_GetClassName()
if _newclass:GetClassName = staticmethod(GetClassName)
__swig_getmethods__["GetClassName"] = lambda x: GetClassName
def getClassName(self):
"""getClassName(Trapezoidal self) -> OT::String"""
return _dist_bundle3.Trapezoidal_getClassName(self)
def __eq__(self, *args):
"""__eq__(Trapezoidal self, Trapezoidal other) -> OT::Bool"""
return _dist_bundle3.Trapezoidal___eq__(self, *args)
def __repr__(self):
"""__repr__(Trapezoidal self) -> OT::String"""
return _dist_bundle3.Trapezoidal___repr__(self)
def __str__(self, offset=""):
"""
__str__(Trapezoidal self, OT::String const & offset="") -> OT::String
__str__(Trapezoidal self) -> OT::String
"""
return _dist_bundle3.Trapezoidal___str__(self, offset)
def getRealization(self):
"""getRealization(Trapezoidal self) -> NumericalPoint"""
return _dist_bundle3.Trapezoidal_getRealization(self)
def computeDDF(self, *args):
"""
computeDDF(Trapezoidal self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeDDF(Trapezoidal self, NumericalPoint point) -> NumericalPoint
computeDDF(Trapezoidal self, NumericalSample sample) -> NumericalSample
computeDDF(Trapezoidal self, NumericalPoint point) -> NumericalPoint
"""
return _dist_bundle3.Trapezoidal_computeDDF(self, *args)
def computePDF(self, *args):
"""
computePDF(Trapezoidal self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computePDF(Trapezoidal self, NumericalPoint point) -> OT::NumericalScalar
computePDF(Trapezoidal self, NumericalSample sample) -> NumericalSample
computePDF(Trapezoidal self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultPDFEpsilon")) -> NumericalSample
computePDF(Trapezoidal self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computePDF(Trapezoidal self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultPDFEpsilon")) -> NumericalSample
computePDF(Trapezoidal self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid) -> NumericalSample
computePDF(Trapezoidal self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.Trapezoidal_computePDF(self, *args)
def computeCDF(self, *args):
"""
computeCDF(Trapezoidal self, OT::NumericalScalar const scalar, OT::Bool const tail) -> OT::NumericalScalar
computeCDF(Trapezoidal self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeCDF(Trapezoidal self, NumericalPoint point, OT::Bool const tail) -> OT::NumericalScalar
computeCDF(Trapezoidal self, NumericalPoint point) -> OT::NumericalScalar
computeCDF(Trapezoidal self, NumericalSample sample, OT::Bool const tail) -> NumericalSample
computeCDF(Trapezoidal self, NumericalSample sample) -> NumericalSample
computeCDF(Trapezoidal self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeCDF(Trapezoidal self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computeCDF(Trapezoidal self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeCDF(Trapezoidal self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid) -> NumericalSample
computeCDF(Trapezoidal self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.Trapezoidal_computeCDF(self, *args)
def computeCharacteristicFunction(self, *args):
"""computeCharacteristicFunction(Trapezoidal self, OT::NumericalScalar const x) -> OT::NumericalComplex"""
return _dist_bundle3.Trapezoidal_computeCharacteristicFunction(self, *args)
def computePDFGradient(self, *args):
"""computePDFGradient(Trapezoidal self, NumericalPoint point) -> NumericalPoint"""
return _dist_bundle3.Trapezoidal_computePDFGradient(self, *args)
def computeCDFGradient(self, *args):
"""computeCDFGradient(Trapezoidal self, NumericalPoint point) -> NumericalPoint"""
return _dist_bundle3.Trapezoidal_computeCDFGradient(self, *args)
def getRoughness(self):
"""getRoughness(Trapezoidal self) -> OT::NumericalScalar"""
return _dist_bundle3.Trapezoidal_getRoughness(self)
def getStandardDeviation(self):
"""getStandardDeviation(Trapezoidal self) -> NumericalPoint"""
return _dist_bundle3.Trapezoidal_getStandardDeviation(self)
def getSkewness(self):
"""getSkewness(Trapezoidal self) -> NumericalPoint"""
return _dist_bundle3.Trapezoidal_getSkewness(self)
def getKurtosis(self):
"""getKurtosis(Trapezoidal self) -> NumericalPoint"""
return _dist_bundle3.Trapezoidal_getKurtosis(self)
def getStandardMoment(self, *args):
"""getStandardMoment(Trapezoidal self, OT::UnsignedLong const n) -> NumericalPoint"""
return _dist_bundle3.Trapezoidal_getStandardMoment(self, *args)
def getStandardRepresentative(self):
"""getStandardRepresentative(Trapezoidal self) -> DistributionImplementationPointer"""
return _dist_bundle3.Trapezoidal_getStandardRepresentative(self)
def getParametersCollection(self):
"""getParametersCollection(Trapezoidal self) -> NumericalPointWithDescriptionCollection"""
return _dist_bundle3.Trapezoidal_getParametersCollection(self)
def setParametersCollection(self, *args):
"""
setParametersCollection(Trapezoidal self, NumericalPointWithDescriptionCollection parametersCollection)
setParametersCollection(Trapezoidal self, NumericalPointCollection parametersCollection)
setParametersCollection(Trapezoidal self, NumericalPoint parameters)
setParametersCollection(Trapezoidal self, NumericalPointCollection parametersCollection)
"""
return _dist_bundle3.Trapezoidal_setParametersCollection(self, *args)
def setA(self, *args):
"""setA(Trapezoidal self, OT::NumericalScalar const a)"""
return _dist_bundle3.Trapezoidal_setA(self, *args)
def getA(self):
"""getA(Trapezoidal self) -> OT::NumericalScalar"""
return _dist_bundle3.Trapezoidal_getA(self)
def setB(self, *args):
"""setB(Trapezoidal self, OT::NumericalScalar const b)"""
return _dist_bundle3.Trapezoidal_setB(self, *args)
def getB(self):
"""getB(Trapezoidal self) -> OT::NumericalScalar"""
return _dist_bundle3.Trapezoidal_getB(self)
def setC(self, *args):
"""setC(Trapezoidal self, OT::NumericalScalar const c)"""
return _dist_bundle3.Trapezoidal_setC(self, *args)
def getC(self):
"""getC(Trapezoidal self) -> OT::NumericalScalar"""
return _dist_bundle3.Trapezoidal_getC(self)
def setD(self, *args):
"""setD(Trapezoidal self, OT::NumericalScalar const d)"""
return _dist_bundle3.Trapezoidal_setD(self, *args)
def getD(self):
"""getD(Trapezoidal self) -> OT::NumericalScalar"""
return _dist_bundle3.Trapezoidal_getD(self)
def __init__(self, *args):
"""
__init__(OT::Trapezoidal self) -> Trapezoidal
__init__(OT::Trapezoidal self, OT::NumericalScalar const a, OT::NumericalScalar const b, OT::NumericalScalar const c,
OT::NumericalScalar const d) -> Trapezoidal
__init__(OT::Trapezoidal self, Trapezoidal other) -> Trapezoidal
"""
this = _dist_bundle3.new_Trapezoidal(*args)
try: self.this.append(this)
except: self.this = this
__swig_destroy__ = _dist_bundle3.delete_Trapezoidal
__del__ = lambda self : None;
Trapezoidal_swigregister = _dist_bundle3.Trapezoidal_swigregister
Trapezoidal_swigregister(Trapezoidal)
def Trapezoidal_GetClassName():
"""Trapezoidal_GetClassName() -> OT::String"""
return _dist_bundle3.Trapezoidal_GetClassName()
class TrapezoidalFactory(openturns.model_copula.DistributionImplementationFactory):
"""Proxy of C++ OT::TrapezoidalFactory class"""
__swig_setmethods__ = {}
for _s in [openturns.model_copula.DistributionImplementationFactory]: __swig_setmethods__.update(getattr(_s,'__swig_setmethods__',{}))
__setattr__ = lambda self, name, value: _swig_setattr(self, TrapezoidalFactory, name, value)
__swig_getmethods__ = {}
for _s in [openturns.model_copula.DistributionImplementationFactory]: __swig_getmethods__.update(getattr(_s,'__swig_getmethods__',{}))
__getattr__ = lambda self, name: _swig_getattr(self, TrapezoidalFactory, name)
__repr__ = _swig_repr
def GetClassName():
"""GetClassName() -> OT::String"""
return _dist_bundle3.TrapezoidalFactory_GetClassName()
if _newclass:GetClassName = staticmethod(GetClassName)
__swig_getmethods__["GetClassName"] = lambda x: GetClassName
def getClassName(self):
"""getClassName(TrapezoidalFactory self) -> OT::String"""
return _dist_bundle3.TrapezoidalFactory_getClassName(self)
def build(self, *args):
"""
build(TrapezoidalFactory self, NumericalSample sample) -> DistributionImplementationPointer
build(TrapezoidalFactory self, NumericalSample sample, CovarianceMatrix covariance) -> DistributionImplementationPointer
build(TrapezoidalFactory self, NumericalPointCollection parameters) -> DistributionImplementationPointer
build(TrapezoidalFactory self, NumericalPointWithDescriptionCollection parameters) -> DistributionImplementationPointer
build(TrapezoidalFactory self, NumericalSample sample) -> DistributionImplementationPointer
build(TrapezoidalFactory self, NumericalPointCollection parameters) -> DistributionImplementationPointer
build(TrapezoidalFactory self) -> DistributionImplementationPointer
"""
return _dist_bundle3.TrapezoidalFactory_build(self, *args)
def buildAsTrapezoidal(self, *args):
"""
buildAsTrapezoidal(TrapezoidalFactory self, NumericalSample sample) -> Trapezoidal
buildAsTrapezoidal(TrapezoidalFactory self, NumericalPointCollection parameters) -> Trapezoidal
buildAsTrapezoidal(TrapezoidalFactory self, NumericalPointWithDescriptionCollection parameters) -> Trapezoidal
buildAsTrapezoidal(TrapezoidalFactory self) -> Trapezoidal
"""
return _dist_bundle3.TrapezoidalFactory_buildAsTrapezoidal(self, *args)
def __init__(self, *args):
"""
__init__(OT::TrapezoidalFactory self) -> TrapezoidalFactory
__init__(OT::TrapezoidalFactory self, TrapezoidalFactory other) -> TrapezoidalFactory
"""
this = _dist_bundle3.new_TrapezoidalFactory(*args)
try: self.this.append(this)
except: self.this = this
__swig_destroy__ = _dist_bundle3.delete_TrapezoidalFactory
__del__ = lambda self : None;
TrapezoidalFactory_swigregister = _dist_bundle3.TrapezoidalFactory_swigregister
TrapezoidalFactory_swigregister(TrapezoidalFactory)
def TrapezoidalFactory_GetClassName():
"""TrapezoidalFactory_GetClassName() -> OT::String"""
return _dist_bundle3.TrapezoidalFactory_GetClassName()
class Triangular(openturns.model_copula.NonEllipticalDistribution):
"""Proxy of C++ OT::Triangular class"""
__swig_setmethods__ = {}
for _s in [openturns.model_copula.NonEllipticalDistribution]: __swig_setmethods__.update(getattr(_s,'__swig_setmethods__',{}))
__setattr__ = lambda self, name, value: _swig_setattr(self, Triangular, name, value)
__swig_getmethods__ = {}
for _s in [openturns.model_copula.NonEllipticalDistribution]: __swig_getmethods__.update(getattr(_s,'__swig_getmethods__',{}))
__getattr__ = lambda self, name: _swig_getattr(self, Triangular, name)
def GetClassName():
"""GetClassName() -> OT::String"""
return _dist_bundle3.Triangular_GetClassName()
if _newclass:GetClassName = staticmethod(GetClassName)
__swig_getmethods__["GetClassName"] = lambda x: GetClassName
def getClassName(self):
"""getClassName(Triangular self) -> OT::String"""
return _dist_bundle3.Triangular_getClassName(self)
def __eq__(self, *args):
"""__eq__(Triangular self, Triangular other) -> OT::Bool"""
return _dist_bundle3.Triangular___eq__(self, *args)
def __repr__(self):
"""__repr__(Triangular self) -> OT::String"""
return _dist_bundle3.Triangular___repr__(self)
def __str__(self, offset=""):
"""
__str__(Triangular self, OT::String const & offset="") -> OT::String
__str__(Triangular self) -> OT::String
"""
return _dist_bundle3.Triangular___str__(self, offset)
def getRealization(self):
"""getRealization(Triangular self) -> NumericalPoint"""
return _dist_bundle3.Triangular_getRealization(self)
def computeDDF(self, *args):
"""
computeDDF(Triangular self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeDDF(Triangular self, NumericalPoint point) -> NumericalPoint
computeDDF(Triangular self, NumericalSample sample) -> NumericalSample
computeDDF(Triangular self, NumericalPoint point) -> NumericalPoint
"""
return _dist_bundle3.Triangular_computeDDF(self, *args)
def computePDF(self, *args):
"""
computePDF(Triangular self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computePDF(Triangular self, NumericalPoint point) -> OT::NumericalScalar
computePDF(Triangular self, NumericalSample sample) -> NumericalSample
computePDF(Triangular self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultPDFEpsilon")) -> NumericalSample
computePDF(Triangular self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computePDF(Triangular self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultPDFEpsilon")) -> NumericalSample
computePDF(Triangular self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid) -> NumericalSample
computePDF(Triangular self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.Triangular_computePDF(self, *args)
def computeCDF(self, *args):
"""
computeCDF(Triangular self, OT::NumericalScalar const scalar, OT::Bool const tail) -> OT::NumericalScalar
computeCDF(Triangular self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeCDF(Triangular self, NumericalPoint point, OT::Bool const tail) -> OT::NumericalScalar
computeCDF(Triangular self, NumericalPoint point) -> OT::NumericalScalar
computeCDF(Triangular self, NumericalSample sample, OT::Bool const tail) -> NumericalSample
computeCDF(Triangular self, NumericalSample sample) -> NumericalSample
computeCDF(Triangular self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeCDF(Triangular self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computeCDF(Triangular self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeCDF(Triangular self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid) -> NumericalSample
computeCDF(Triangular self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.Triangular_computeCDF(self, *args)
def computeCharacteristicFunction(self, *args):
"""computeCharacteristicFunction(Triangular self, OT::NumericalScalar const x) -> OT::NumericalComplex"""
return _dist_bundle3.Triangular_computeCharacteristicFunction(self, *args)
def computeLogCharacteristicFunction(self, *args):
"""computeLogCharacteristicFunction(Triangular self, OT::NumericalScalar const x) -> OT::NumericalComplex"""
return _dist_bundle3.Triangular_computeLogCharacteristicFunction(self, *args)
def computePDFGradient(self, *args):
"""computePDFGradient(Triangular self, NumericalPoint point) -> NumericalPoint"""
return _dist_bundle3.Triangular_computePDFGradient(self, *args)
def computeCDFGradient(self, *args):
"""computeCDFGradient(Triangular self, NumericalPoint point) -> NumericalPoint"""
return _dist_bundle3.Triangular_computeCDFGradient(self, *args)
def getRoughness(self):
"""getRoughness(Triangular self) -> OT::NumericalScalar"""
return _dist_bundle3.Triangular_getRoughness(self)
def getStandardDeviation(self):
"""getStandardDeviation(Triangular self) -> NumericalPoint"""
return _dist_bundle3.Triangular_getStandardDeviation(self)
def getSkewness(self):
"""getSkewness(Triangular self) -> NumericalPoint"""
return _dist_bundle3.Triangular_getSkewness(self)
def getKurtosis(self):
"""getKurtosis(Triangular self) -> NumericalPoint"""
return _dist_bundle3.Triangular_getKurtosis(self)
def getStandardMoment(self, *args):
"""getStandardMoment(Triangular self, OT::UnsignedLong const n) -> NumericalPoint"""
return _dist_bundle3.Triangular_getStandardMoment(self, *args)
def getStandardRepresentative(self):
"""getStandardRepresentative(Triangular self) -> DistributionImplementationPointer"""
return _dist_bundle3.Triangular_getStandardRepresentative(self)
def getParametersCollection(self):
"""getParametersCollection(Triangular self) -> NumericalPointWithDescriptionCollection"""
return _dist_bundle3.Triangular_getParametersCollection(self)
def setParametersCollection(self, *args):
"""
setParametersCollection(Triangular self, NumericalPointWithDescriptionCollection parametersCollection)
setParametersCollection(Triangular self, NumericalPointCollection parametersCollection)
setParametersCollection(Triangular self, NumericalPoint parameters)
setParametersCollection(Triangular self, NumericalPointCollection parametersCollection)
"""
return _dist_bundle3.Triangular_setParametersCollection(self, *args)
def setAMB(self, *args):
"""setAMB(Triangular self, OT::NumericalScalar const a, OT::NumericalScalar const m, OT::NumericalScalar const b)"""
return _dist_bundle3.Triangular_setAMB(self, *args)
def getA(self):
"""getA(Triangular self) -> OT::NumericalScalar"""
return _dist_bundle3.Triangular_getA(self)
def getM(self):
"""getM(Triangular self) -> OT::NumericalScalar"""
return _dist_bundle3.Triangular_getM(self)
def getB(self):
"""getB(Triangular self) -> OT::NumericalScalar"""
return _dist_bundle3.Triangular_getB(self)
def __init__(self, *args):
"""
__init__(OT::Triangular self) -> Triangular
__init__(OT::Triangular self, OT::NumericalScalar const a, OT::NumericalScalar const m, OT::NumericalScalar const b) -> Triangular
__init__(OT::Triangular self, Triangular other) -> Triangular
"""
this = _dist_bundle3.new_Triangular(*args)
try: self.this.append(this)
except: self.this = this
__swig_destroy__ = _dist_bundle3.delete_Triangular
__del__ = lambda self : None;
Triangular_swigregister = _dist_bundle3.Triangular_swigregister
Triangular_swigregister(Triangular)
def Triangular_GetClassName():
"""Triangular_GetClassName() -> OT::String"""
return _dist_bundle3.Triangular_GetClassName()
class TriangularFactory(openturns.model_copula.DistributionImplementationFactory):
"""Proxy of C++ OT::TriangularFactory class"""
__swig_setmethods__ = {}
for _s in [openturns.model_copula.DistributionImplementationFactory]: __swig_setmethods__.update(getattr(_s,'__swig_setmethods__',{}))
__setattr__ = lambda self, name, value: _swig_setattr(self, TriangularFactory, name, value)
__swig_getmethods__ = {}
for _s in [openturns.model_copula.DistributionImplementationFactory]: __swig_getmethods__.update(getattr(_s,'__swig_getmethods__',{}))
__getattr__ = lambda self, name: _swig_getattr(self, TriangularFactory, name)
__repr__ = _swig_repr
def GetClassName():
"""GetClassName() -> OT::String"""
return _dist_bundle3.TriangularFactory_GetClassName()
if _newclass:GetClassName = staticmethod(GetClassName)
__swig_getmethods__["GetClassName"] = lambda x: GetClassName
def getClassName(self):
"""getClassName(TriangularFactory self) -> OT::String"""
return _dist_bundle3.TriangularFactory_getClassName(self)
def build(self, *args):
"""
build(TriangularFactory self, NumericalSample sample) -> DistributionImplementationPointer
build(TriangularFactory self, NumericalSample sample, CovarianceMatrix covariance) -> DistributionImplementationPointer
build(TriangularFactory self, NumericalPointCollection parameters) -> DistributionImplementationPointer
build(TriangularFactory self, NumericalPointWithDescriptionCollection parameters) -> DistributionImplementationPointer
build(TriangularFactory self, NumericalSample sample) -> DistributionImplementationPointer
build(TriangularFactory self, NumericalPointCollection parameters) -> DistributionImplementationPointer
build(TriangularFactory self) -> DistributionImplementationPointer
"""
return _dist_bundle3.TriangularFactory_build(self, *args)
def buildAsTriangular(self, *args):
"""
buildAsTriangular(TriangularFactory self, NumericalSample sample) -> Triangular
buildAsTriangular(TriangularFactory self, NumericalPointCollection parameters) -> Triangular
buildAsTriangular(TriangularFactory self, NumericalPointWithDescriptionCollection parameters) -> Triangular
buildAsTriangular(TriangularFactory self) -> Triangular
"""
return _dist_bundle3.TriangularFactory_buildAsTriangular(self, *args)
def __init__(self, *args):
"""
__init__(OT::TriangularFactory self) -> TriangularFactory
__init__(OT::TriangularFactory self, TriangularFactory other) -> TriangularFactory
"""
this = _dist_bundle3.new_TriangularFactory(*args)
try: self.this.append(this)
except: self.this = this
__swig_destroy__ = _dist_bundle3.delete_TriangularFactory
__del__ = lambda self : None;
TriangularFactory_swigregister = _dist_bundle3.TriangularFactory_swigregister
TriangularFactory_swigregister(TriangularFactory)
def TriangularFactory_GetClassName():
"""TriangularFactory_GetClassName() -> OT::String"""
return _dist_bundle3.TriangularFactory_GetClassName()
class TruncatedDistribution(openturns.model_copula.NonEllipticalDistribution):
"""Proxy of C++ OT::TruncatedDistribution class"""
__swig_setmethods__ = {}
for _s in [openturns.model_copula.NonEllipticalDistribution]: __swig_setmethods__.update(getattr(_s,'__swig_setmethods__',{}))
__setattr__ = lambda self, name, value: _swig_setattr(self, TruncatedDistribution, name, value)
__swig_getmethods__ = {}
for _s in [openturns.model_copula.NonEllipticalDistribution]: __swig_getmethods__.update(getattr(_s,'__swig_getmethods__',{}))
__getattr__ = lambda self, name: _swig_getattr(self, TruncatedDistribution, name)
def GetClassName():
"""GetClassName() -> OT::String"""
return _dist_bundle3.TruncatedDistribution_GetClassName()
if _newclass:GetClassName = staticmethod(GetClassName)
__swig_getmethods__["GetClassName"] = lambda x: GetClassName
def getClassName(self):
"""getClassName(TruncatedDistribution self) -> OT::String"""
return _dist_bundle3.TruncatedDistribution_getClassName(self)
LOWER = _dist_bundle3.TruncatedDistribution_LOWER
UPPER = _dist_bundle3.TruncatedDistribution_UPPER
def __eq__(self, *args):
"""__eq__(TruncatedDistribution self, TruncatedDistribution other) -> OT::Bool"""
return _dist_bundle3.TruncatedDistribution___eq__(self, *args)
def __repr__(self):
"""__repr__(TruncatedDistribution self) -> OT::String"""
return _dist_bundle3.TruncatedDistribution___repr__(self)
def __str__(self, offset=""):
"""
__str__(TruncatedDistribution self, OT::String const & offset="") -> OT::String
__str__(TruncatedDistribution self) -> OT::String
"""
return _dist_bundle3.TruncatedDistribution___str__(self, offset)
def getRealization(self):
"""getRealization(TruncatedDistribution self) -> NumericalPoint"""
return _dist_bundle3.TruncatedDistribution_getRealization(self)
def computeDDF(self, *args):
"""
computeDDF(TruncatedDistribution self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeDDF(TruncatedDistribution self, NumericalPoint point) -> NumericalPoint
computeDDF(TruncatedDistribution self, NumericalSample sample) -> NumericalSample
computeDDF(TruncatedDistribution self, NumericalPoint point) -> NumericalPoint
"""
return _dist_bundle3.TruncatedDistribution_computeDDF(self, *args)
def computePDF(self, *args):
"""
computePDF(TruncatedDistribution self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computePDF(TruncatedDistribution self, NumericalPoint point) -> OT::NumericalScalar
computePDF(TruncatedDistribution self, NumericalSample sample) -> NumericalSample
computePDF(TruncatedDistribution self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultPDFEpsilon")) -> NumericalSample
computePDF(TruncatedDistribution self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computePDF(TruncatedDistribution self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultPDFEpsilon")) -> NumericalSample
computePDF(TruncatedDistribution self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid) -> NumericalSample
computePDF(TruncatedDistribution self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.TruncatedDistribution_computePDF(self, *args)
def computeCDF(self, *args):
"""
computeCDF(TruncatedDistribution self, OT::NumericalScalar const scalar, OT::Bool const tail) -> OT::NumericalScalar
computeCDF(TruncatedDistribution self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeCDF(TruncatedDistribution self, NumericalPoint point, OT::Bool const tail) -> OT::NumericalScalar
computeCDF(TruncatedDistribution self, NumericalPoint point) -> OT::NumericalScalar
computeCDF(TruncatedDistribution self, NumericalSample sample, OT::Bool const tail) -> NumericalSample
computeCDF(TruncatedDistribution self, NumericalSample sample) -> NumericalSample
computeCDF(TruncatedDistribution self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeCDF(TruncatedDistribution self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computeCDF(TruncatedDistribution self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeCDF(TruncatedDistribution self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid) -> NumericalSample
computeCDF(TruncatedDistribution self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.TruncatedDistribution_computeCDF(self, *args)
def computeComplementaryCDF(self, *args):
"""
computeComplementaryCDF(TruncatedDistribution self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeComplementaryCDF(TruncatedDistribution self, NumericalPoint point) -> OT::NumericalScalar
computeComplementaryCDF(TruncatedDistribution self, NumericalSample sample) -> NumericalSample
computeComplementaryCDF(TruncatedDistribution self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeComplementaryCDF(TruncatedDistribution self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computeComplementaryCDF(TruncatedDistribution self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.TruncatedDistribution_computeComplementaryCDF(self, *args)
def computePDFGradient(self, *args):
"""computePDFGradient(TruncatedDistribution self, NumericalPoint point) -> NumericalPoint"""
return _dist_bundle3.TruncatedDistribution_computePDFGradient(self, *args)
def computeCDFGradient(self, *args):
"""computeCDFGradient(TruncatedDistribution self, NumericalPoint point) -> NumericalPoint"""
return _dist_bundle3.TruncatedDistribution_computeCDFGradient(self, *args)
def getParametersCollection(self):
"""getParametersCollection(TruncatedDistribution self) -> NumericalPointWithDescriptionCollection"""
return _dist_bundle3.TruncatedDistribution_getParametersCollection(self)
def setDistribution(self, *args):
"""setDistribution(TruncatedDistribution self, Distribution distribution)"""
return _dist_bundle3.TruncatedDistribution_setDistribution(self, *args)
def getDistribution(self):
"""getDistribution(TruncatedDistribution self) -> Distribution"""
return _dist_bundle3.TruncatedDistribution_getDistribution(self)
def setLowerBound(self, *args):
"""setLowerBound(TruncatedDistribution self, OT::NumericalScalar const lowerBound)"""
return _dist_bundle3.TruncatedDistribution_setLowerBound(self, *args)
def getLowerBound(self):
"""getLowerBound(TruncatedDistribution self) -> OT::NumericalScalar"""
return _dist_bundle3.TruncatedDistribution_getLowerBound(self)
def setFiniteLowerBound(self, *args):
"""setFiniteLowerBound(TruncatedDistribution self, OT::Bool const finiteLowerBound)"""
return _dist_bundle3.TruncatedDistribution_setFiniteLowerBound(self, *args)
def getFiniteLowerBound(self):
"""getFiniteLowerBound(TruncatedDistribution self) -> OT::Bool"""
return _dist_bundle3.TruncatedDistribution_getFiniteLowerBound(self)
def setUpperBound(self, *args):
"""setUpperBound(TruncatedDistribution self, OT::NumericalScalar const upperBound)"""
return _dist_bundle3.TruncatedDistribution_setUpperBound(self, *args)
def getUpperBound(self):
"""getUpperBound(TruncatedDistribution self) -> OT::NumericalScalar"""
return _dist_bundle3.TruncatedDistribution_getUpperBound(self)
def setFiniteUpperBound(self, *args):
"""setFiniteUpperBound(TruncatedDistribution self, OT::Bool const finiteUpperBound)"""
return _dist_bundle3.TruncatedDistribution_setFiniteUpperBound(self, *args)
def getFiniteUpperBound(self):
"""getFiniteUpperBound(TruncatedDistribution self) -> OT::Bool"""
return _dist_bundle3.TruncatedDistribution_getFiniteUpperBound(self)
def setThresholdRealization(self, *args):
"""setThresholdRealization(TruncatedDistribution self, OT::NumericalScalar const thresholdRealization)"""
return _dist_bundle3.TruncatedDistribution_setThresholdRealization(self, *args)
def getThresholdRealization(self):
"""getThresholdRealization(TruncatedDistribution self) -> OT::NumericalScalar"""
return _dist_bundle3.TruncatedDistribution_getThresholdRealization(self)
def isContinuous(self):
"""isContinuous(TruncatedDistribution self) -> OT::Bool"""
return _dist_bundle3.TruncatedDistribution_isContinuous(self)
def isIntegral(self):
"""isIntegral(TruncatedDistribution self) -> OT::Bool"""
return _dist_bundle3.TruncatedDistribution_isIntegral(self)
def getSupport(self, *args):
"""
getSupport(TruncatedDistribution self, Interval interval) -> NumericalSample
getSupport(TruncatedDistribution self) -> NumericalSample
getSupport(TruncatedDistribution self, Interval interval) -> NumericalSample
"""
return _dist_bundle3.TruncatedDistribution_getSupport(self, *args)
def __init__(self, *args):
"""
__init__(OT::TruncatedDistribution self) -> TruncatedDistribution
__init__(OT::TruncatedDistribution self, Distribution distribution, OT::NumericalScalar const lowerBound, OT::NumericalScalar const upperBound,
OT::NumericalScalar const thresholdRealization=OT::ResourceMap::GetAsNumericalScalar("TruncatedDistribution-DefaultThresholdRealization")) -> TruncatedDistribution
__init__(OT::TruncatedDistribution self, Distribution distribution, OT::NumericalScalar const lowerBound, OT::NumericalScalar const upperBound) -> TruncatedDistribution
__init__(OT::TruncatedDistribution self, Distribution distribution, OT::NumericalScalar const bound, OT::TruncatedDistribution::BoundSide const side=LOWER,
OT::NumericalScalar const thresholdRealization=OT::ResourceMap::GetAsNumericalScalar("TruncatedDistribution-DefaultThresholdRealization")) -> TruncatedDistribution
__init__(OT::TruncatedDistribution self, Distribution distribution, OT::NumericalScalar const bound, OT::TruncatedDistribution::BoundSide const side=LOWER) -> TruncatedDistribution
__init__(OT::TruncatedDistribution self, Distribution distribution, OT::NumericalScalar const bound) -> TruncatedDistribution
__init__(OT::TruncatedDistribution self, Distribution distribution, Interval truncationInterval, OT::NumericalScalar const thresholdRealization=OT::ResourceMap::GetAsNumericalScalar("TruncatedDistribution-DefaultThresholdRealization")) -> TruncatedDistribution
__init__(OT::TruncatedDistribution self, Distribution distribution, Interval truncationInterval) -> TruncatedDistribution
__init__(OT::TruncatedDistribution self, TruncatedDistribution other) -> TruncatedDistribution
"""
this = _dist_bundle3.new_TruncatedDistribution(*args)
try: self.this.append(this)
except: self.this = this
__swig_destroy__ = _dist_bundle3.delete_TruncatedDistribution
__del__ = lambda self : None;
TruncatedDistribution_swigregister = _dist_bundle3.TruncatedDistribution_swigregister
TruncatedDistribution_swigregister(TruncatedDistribution)
def TruncatedDistribution_GetClassName():
"""TruncatedDistribution_GetClassName() -> OT::String"""
return _dist_bundle3.TruncatedDistribution_GetClassName()
class TruncatedNormal(openturns.model_copula.NonEllipticalDistribution):
"""Proxy of C++ OT::TruncatedNormal class"""
__swig_setmethods__ = {}
for _s in [openturns.model_copula.NonEllipticalDistribution]: __swig_setmethods__.update(getattr(_s,'__swig_setmethods__',{}))
__setattr__ = lambda self, name, value: _swig_setattr(self, TruncatedNormal, name, value)
__swig_getmethods__ = {}
for _s in [openturns.model_copula.NonEllipticalDistribution]: __swig_getmethods__.update(getattr(_s,'__swig_getmethods__',{}))
__getattr__ = lambda self, name: _swig_getattr(self, TruncatedNormal, name)
def GetClassName():
"""GetClassName() -> OT::String"""
return _dist_bundle3.TruncatedNormal_GetClassName()
if _newclass:GetClassName = staticmethod(GetClassName)
__swig_getmethods__["GetClassName"] = lambda x: GetClassName
def getClassName(self):
"""getClassName(TruncatedNormal self) -> OT::String"""
return _dist_bundle3.TruncatedNormal_getClassName(self)
def __eq__(self, *args):
"""__eq__(TruncatedNormal self, TruncatedNormal other) -> OT::Bool"""
return _dist_bundle3.TruncatedNormal___eq__(self, *args)
def __repr__(self):
"""__repr__(TruncatedNormal self) -> OT::String"""
return _dist_bundle3.TruncatedNormal___repr__(self)
def __str__(self, offset=""):
"""
__str__(TruncatedNormal self, OT::String const & offset="") -> OT::String
__str__(TruncatedNormal self) -> OT::String
"""
return _dist_bundle3.TruncatedNormal___str__(self, offset)
def getRealization(self):
"""getRealization(TruncatedNormal self) -> NumericalPoint"""
return _dist_bundle3.TruncatedNormal_getRealization(self)
def computeDDF(self, *args):
"""
computeDDF(TruncatedNormal self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeDDF(TruncatedNormal self, NumericalPoint point) -> NumericalPoint
computeDDF(TruncatedNormal self, NumericalSample sample) -> NumericalSample
computeDDF(TruncatedNormal self, NumericalPoint point) -> NumericalPoint
"""
return _dist_bundle3.TruncatedNormal_computeDDF(self, *args)
def computePDF(self, *args):
"""
computePDF(TruncatedNormal self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computePDF(TruncatedNormal self, NumericalPoint point) -> OT::NumericalScalar
computePDF(TruncatedNormal self, NumericalSample sample) -> NumericalSample
computePDF(TruncatedNormal self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultPDFEpsilon")) -> NumericalSample
computePDF(TruncatedNormal self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computePDF(TruncatedNormal self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultPDFEpsilon")) -> NumericalSample
computePDF(TruncatedNormal self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid) -> NumericalSample
computePDF(TruncatedNormal self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.TruncatedNormal_computePDF(self, *args)
def computeCDF(self, *args):
"""
computeCDF(TruncatedNormal self, OT::NumericalScalar const scalar, OT::Bool const tail) -> OT::NumericalScalar
computeCDF(TruncatedNormal self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeCDF(TruncatedNormal self, NumericalPoint point, OT::Bool const tail) -> OT::NumericalScalar
computeCDF(TruncatedNormal self, NumericalPoint point) -> OT::NumericalScalar
computeCDF(TruncatedNormal self, NumericalSample sample, OT::Bool const tail) -> NumericalSample
computeCDF(TruncatedNormal self, NumericalSample sample) -> NumericalSample
computeCDF(TruncatedNormal self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeCDF(TruncatedNormal self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computeCDF(TruncatedNormal self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeCDF(TruncatedNormal self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid) -> NumericalSample
computeCDF(TruncatedNormal self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.TruncatedNormal_computeCDF(self, *args)
def computeComplementaryCDF(self, *args):
"""
computeComplementaryCDF(TruncatedNormal self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeComplementaryCDF(TruncatedNormal self, NumericalPoint point) -> OT::NumericalScalar
computeComplementaryCDF(TruncatedNormal self, NumericalSample sample) -> NumericalSample
computeComplementaryCDF(TruncatedNormal self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeComplementaryCDF(TruncatedNormal self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computeComplementaryCDF(TruncatedNormal self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.TruncatedNormal_computeComplementaryCDF(self, *args)
def computeCharacteristicFunction(self, *args):
"""computeCharacteristicFunction(TruncatedNormal self, OT::NumericalScalar const x) -> OT::NumericalComplex"""
return _dist_bundle3.TruncatedNormal_computeCharacteristicFunction(self, *args)
def computeLogCharacteristicFunction(self, *args):
"""computeLogCharacteristicFunction(TruncatedNormal self, OT::NumericalScalar const x) -> OT::NumericalComplex"""
return _dist_bundle3.TruncatedNormal_computeLogCharacteristicFunction(self, *args)
def computePDFGradient(self, *args):
"""computePDFGradient(TruncatedNormal self, NumericalPoint point) -> NumericalPoint"""
return _dist_bundle3.TruncatedNormal_computePDFGradient(self, *args)
def computeCDFGradient(self, *args):
"""computeCDFGradient(TruncatedNormal self, NumericalPoint point) -> NumericalPoint"""
return _dist_bundle3.TruncatedNormal_computeCDFGradient(self, *args)
def getStandardDeviation(self):
"""getStandardDeviation(TruncatedNormal self) -> NumericalPoint"""
return _dist_bundle3.TruncatedNormal_getStandardDeviation(self)
def getSkewness(self):
"""getSkewness(TruncatedNormal self) -> NumericalPoint"""
return _dist_bundle3.TruncatedNormal_getSkewness(self)
def getKurtosis(self):
"""getKurtosis(TruncatedNormal self) -> NumericalPoint"""
return _dist_bundle3.TruncatedNormal_getKurtosis(self)
def getStandardRepresentative(self):
"""getStandardRepresentative(TruncatedNormal self) -> DistributionImplementationPointer"""
return _dist_bundle3.TruncatedNormal_getStandardRepresentative(self)
def getParametersCollection(self):
"""getParametersCollection(TruncatedNormal self) -> NumericalPointWithDescriptionCollection"""
return _dist_bundle3.TruncatedNormal_getParametersCollection(self)
def setParametersCollection(self, *args):
"""
setParametersCollection(TruncatedNormal self, NumericalPointWithDescriptionCollection parametersCollection)
setParametersCollection(TruncatedNormal self, NumericalPointCollection parametersCollection)
setParametersCollection(TruncatedNormal self, NumericalPoint parameters)
setParametersCollection(TruncatedNormal self, NumericalPointCollection parametersCollection)
"""
return _dist_bundle3.TruncatedNormal_setParametersCollection(self, *args)
def setMu(self, *args):
"""setMu(TruncatedNormal self, OT::NumericalScalar const mu)"""
return _dist_bundle3.TruncatedNormal_setMu(self, *args)
def getMu(self):
"""getMu(TruncatedNormal self) -> OT::NumericalScalar"""
return _dist_bundle3.TruncatedNormal_getMu(self)
def setSigma(self, *args):
"""setSigma(TruncatedNormal self, OT::NumericalScalar const sigma)"""
return _dist_bundle3.TruncatedNormal_setSigma(self, *args)
def getSigma(self):
"""getSigma(TruncatedNormal self) -> OT::NumericalScalar"""
return _dist_bundle3.TruncatedNormal_getSigma(self)
def setA(self, *args):
"""setA(TruncatedNormal self, OT::NumericalScalar const a)"""
return _dist_bundle3.TruncatedNormal_setA(self, *args)
def getA(self):
"""getA(TruncatedNormal self) -> OT::NumericalScalar"""
return _dist_bundle3.TruncatedNormal_getA(self)
def setB(self, *args):
"""setB(TruncatedNormal self, OT::NumericalScalar const b)"""
return _dist_bundle3.TruncatedNormal_setB(self, *args)
def getB(self):
"""getB(TruncatedNormal self) -> OT::NumericalScalar"""
return _dist_bundle3.TruncatedNormal_getB(self)
def __init__(self, *args):
"""
__init__(OT::TruncatedNormal self) -> TruncatedNormal
__init__(OT::TruncatedNormal self, OT::NumericalScalar const mu, OT::NumericalScalar const sigma, OT::NumericalScalar const a,
OT::NumericalScalar const b) -> TruncatedNormal
__init__(OT::TruncatedNormal self, TruncatedNormal other) -> TruncatedNormal
"""
this = _dist_bundle3.new_TruncatedNormal(*args)
try: self.this.append(this)
except: self.this = this
__swig_destroy__ = _dist_bundle3.delete_TruncatedNormal
__del__ = lambda self : None;
TruncatedNormal_swigregister = _dist_bundle3.TruncatedNormal_swigregister
TruncatedNormal_swigregister(TruncatedNormal)
def TruncatedNormal_GetClassName():
"""TruncatedNormal_GetClassName() -> OT::String"""
return _dist_bundle3.TruncatedNormal_GetClassName()
class TruncatedNormalFactory(openturns.model_copula.DistributionImplementationFactory):
"""Proxy of C++ OT::TruncatedNormalFactory class"""
__swig_setmethods__ = {}
for _s in [openturns.model_copula.DistributionImplementationFactory]: __swig_setmethods__.update(getattr(_s,'__swig_setmethods__',{}))
__setattr__ = lambda self, name, value: _swig_setattr(self, TruncatedNormalFactory, name, value)
__swig_getmethods__ = {}
for _s in [openturns.model_copula.DistributionImplementationFactory]: __swig_getmethods__.update(getattr(_s,'__swig_getmethods__',{}))
__getattr__ = lambda self, name: _swig_getattr(self, TruncatedNormalFactory, name)
__repr__ = _swig_repr
def GetClassName():
"""GetClassName() -> OT::String"""
return _dist_bundle3.TruncatedNormalFactory_GetClassName()
if _newclass:GetClassName = staticmethod(GetClassName)
__swig_getmethods__["GetClassName"] = lambda x: GetClassName
def getClassName(self):
"""getClassName(TruncatedNormalFactory self) -> OT::String"""
return _dist_bundle3.TruncatedNormalFactory_getClassName(self)
def build(self, *args):
"""
build(TruncatedNormalFactory self, NumericalSample sample) -> DistributionImplementationPointer
build(TruncatedNormalFactory self, NumericalSample sample, CovarianceMatrix covariance) -> DistributionImplementationPointer
build(TruncatedNormalFactory self, NumericalPointCollection parameters) -> DistributionImplementationPointer
build(TruncatedNormalFactory self, NumericalPointWithDescriptionCollection parameters) -> DistributionImplementationPointer
build(TruncatedNormalFactory self, NumericalSample sample) -> DistributionImplementationPointer
build(TruncatedNormalFactory self, NumericalPointCollection parameters) -> DistributionImplementationPointer
build(TruncatedNormalFactory self) -> DistributionImplementationPointer
"""
return _dist_bundle3.TruncatedNormalFactory_build(self, *args)
def buildAsTruncatedNormal(self, *args):
"""
buildAsTruncatedNormal(TruncatedNormalFactory self, NumericalSample sample) -> TruncatedNormal
buildAsTruncatedNormal(TruncatedNormalFactory self, NumericalPointCollection parameters) -> TruncatedNormal
buildAsTruncatedNormal(TruncatedNormalFactory self, NumericalPointWithDescriptionCollection parameters) -> TruncatedNormal
buildAsTruncatedNormal(TruncatedNormalFactory self) -> TruncatedNormal
"""
return _dist_bundle3.TruncatedNormalFactory_buildAsTruncatedNormal(self, *args)
def __init__(self, *args):
"""
__init__(OT::TruncatedNormalFactory self) -> TruncatedNormalFactory
__init__(OT::TruncatedNormalFactory self, TruncatedNormalFactory other) -> TruncatedNormalFactory
"""
this = _dist_bundle3.new_TruncatedNormalFactory(*args)
try: self.this.append(this)
except: self.this = this
__swig_destroy__ = _dist_bundle3.delete_TruncatedNormalFactory
__del__ = lambda self : None;
TruncatedNormalFactory_swigregister = _dist_bundle3.TruncatedNormalFactory_swigregister
TruncatedNormalFactory_swigregister(TruncatedNormalFactory)
def TruncatedNormalFactory_GetClassName():
"""TruncatedNormalFactory_GetClassName() -> OT::String"""
return _dist_bundle3.TruncatedNormalFactory_GetClassName()
class Uniform(openturns.model_copula.NonEllipticalDistribution):
"""Proxy of C++ OT::Uniform class"""
__swig_setmethods__ = {}
for _s in [openturns.model_copula.NonEllipticalDistribution]: __swig_setmethods__.update(getattr(_s,'__swig_setmethods__',{}))
__setattr__ = lambda self, name, value: _swig_setattr(self, Uniform, name, value)
__swig_getmethods__ = {}
for _s in [openturns.model_copula.NonEllipticalDistribution]: __swig_getmethods__.update(getattr(_s,'__swig_getmethods__',{}))
__getattr__ = lambda self, name: _swig_getattr(self, Uniform, name)
def GetClassName():
"""GetClassName() -> OT::String"""
return _dist_bundle3.Uniform_GetClassName()
if _newclass:GetClassName = staticmethod(GetClassName)
__swig_getmethods__["GetClassName"] = lambda x: GetClassName
def getClassName(self):
"""getClassName(Uniform self) -> OT::String"""
return _dist_bundle3.Uniform_getClassName(self)
def __eq__(self, *args):
"""__eq__(Uniform self, Uniform other) -> OT::Bool"""
return _dist_bundle3.Uniform___eq__(self, *args)
def __repr__(self):
"""__repr__(Uniform self) -> OT::String"""
return _dist_bundle3.Uniform___repr__(self)
def __str__(self, offset=""):
"""
__str__(Uniform self, OT::String const & offset="") -> OT::String
__str__(Uniform self) -> OT::String
"""
return _dist_bundle3.Uniform___str__(self, offset)
def getRealization(self):
"""getRealization(Uniform self) -> NumericalPoint"""
return _dist_bundle3.Uniform_getRealization(self)
def getSample(self, *args):
"""getSample(Uniform self, OT::UnsignedLong const size) -> NumericalSample"""
return _dist_bundle3.Uniform_getSample(self, *args)
def computeDDF(self, *args):
"""
computeDDF(Uniform self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeDDF(Uniform self, NumericalPoint point) -> NumericalPoint
computeDDF(Uniform self, NumericalSample sample) -> NumericalSample
computeDDF(Uniform self, NumericalPoint point) -> NumericalPoint
"""
return _dist_bundle3.Uniform_computeDDF(self, *args)
def computePDF(self, *args):
"""
computePDF(Uniform self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computePDF(Uniform self, NumericalPoint point) -> OT::NumericalScalar
computePDF(Uniform self, NumericalSample sample) -> NumericalSample
computePDF(Uniform self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultPDFEpsilon")) -> NumericalSample
computePDF(Uniform self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computePDF(Uniform self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultPDFEpsilon")) -> NumericalSample
computePDF(Uniform self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid) -> NumericalSample
computePDF(Uniform self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.Uniform_computePDF(self, *args)
def computeCDF(self, *args):
"""
computeCDF(Uniform self, OT::NumericalScalar const scalar, OT::Bool const tail) -> OT::NumericalScalar
computeCDF(Uniform self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeCDF(Uniform self, NumericalPoint point, OT::Bool const tail) -> OT::NumericalScalar
computeCDF(Uniform self, NumericalPoint point) -> OT::NumericalScalar
computeCDF(Uniform self, NumericalSample sample, OT::Bool const tail) -> NumericalSample
computeCDF(Uniform self, NumericalSample sample) -> NumericalSample
computeCDF(Uniform self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeCDF(Uniform self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computeCDF(Uniform self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeCDF(Uniform self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid) -> NumericalSample
computeCDF(Uniform self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.Uniform_computeCDF(self, *args)
def computeComplementaryCDF(self, *args):
"""
computeComplementaryCDF(Uniform self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeComplementaryCDF(Uniform self, NumericalPoint point) -> OT::NumericalScalar
computeComplementaryCDF(Uniform self, NumericalSample sample) -> NumericalSample
computeComplementaryCDF(Uniform self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeComplementaryCDF(Uniform self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computeComplementaryCDF(Uniform self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.Uniform_computeComplementaryCDF(self, *args)
def computeCharacteristicFunction(self, *args):
"""computeCharacteristicFunction(Uniform self, OT::NumericalScalar const x) -> OT::NumericalComplex"""
return _dist_bundle3.Uniform_computeCharacteristicFunction(self, *args)
def computePDFGradient(self, *args):
"""computePDFGradient(Uniform self, NumericalPoint point) -> NumericalPoint"""
return _dist_bundle3.Uniform_computePDFGradient(self, *args)
def computeCDFGradient(self, *args):
"""computeCDFGradient(Uniform self, NumericalPoint point) -> NumericalPoint"""
return _dist_bundle3.Uniform_computeCDFGradient(self, *args)
def getRoughness(self):
"""getRoughness(Uniform self) -> OT::NumericalScalar"""
return _dist_bundle3.Uniform_getRoughness(self)
def getStandardDeviation(self):
"""getStandardDeviation(Uniform self) -> NumericalPoint"""
return _dist_bundle3.Uniform_getStandardDeviation(self)
def getSkewness(self):
"""getSkewness(Uniform self) -> NumericalPoint"""
return _dist_bundle3.Uniform_getSkewness(self)
def getKurtosis(self):
"""getKurtosis(Uniform self) -> NumericalPoint"""
return _dist_bundle3.Uniform_getKurtosis(self)
def getStandardMoment(self, *args):
"""getStandardMoment(Uniform self, OT::UnsignedLong const n) -> NumericalPoint"""
return _dist_bundle3.Uniform_getStandardMoment(self, *args)
def getStandardRepresentative(self):
"""getStandardRepresentative(Uniform self) -> DistributionImplementationPointer"""
return _dist_bundle3.Uniform_getStandardRepresentative(self)
def getParametersCollection(self):
"""getParametersCollection(Uniform self) -> NumericalPointWithDescriptionCollection"""
return _dist_bundle3.Uniform_getParametersCollection(self)
def setParametersCollection(self, *args):
"""
setParametersCollection(Uniform self, NumericalPointWithDescriptionCollection parametersCollection)
setParametersCollection(Uniform self, NumericalPointCollection parametersCollection)
setParametersCollection(Uniform self, NumericalPoint parameters)
setParametersCollection(Uniform self, NumericalPointCollection parametersCollection)
"""
return _dist_bundle3.Uniform_setParametersCollection(self, *args)
def isElliptical(self):
"""isElliptical(Uniform self) -> OT::Bool"""
return _dist_bundle3.Uniform_isElliptical(self)
def setA(self, *args):
"""setA(Uniform self, OT::NumericalScalar const a)"""
return _dist_bundle3.Uniform_setA(self, *args)
def getA(self):
"""getA(Uniform self) -> OT::NumericalScalar"""
return _dist_bundle3.Uniform_getA(self)
def setB(self, *args):
"""setB(Uniform self, OT::NumericalScalar const b)"""
return _dist_bundle3.Uniform_setB(self, *args)
def getB(self):
"""getB(Uniform self) -> OT::NumericalScalar"""
return _dist_bundle3.Uniform_getB(self)
def __init__(self, *args):
"""
__init__(OT::Uniform self) -> Uniform
__init__(OT::Uniform self, OT::NumericalScalar const a, OT::NumericalScalar const b) -> Uniform
__init__(OT::Uniform self, Uniform other) -> Uniform
"""
this = _dist_bundle3.new_Uniform(*args)
try: self.this.append(this)
except: self.this = this
__swig_destroy__ = _dist_bundle3.delete_Uniform
__del__ = lambda self : None;
Uniform_swigregister = _dist_bundle3.Uniform_swigregister
Uniform_swigregister(Uniform)
def Uniform_GetClassName():
"""Uniform_GetClassName() -> OT::String"""
return _dist_bundle3.Uniform_GetClassName()
class UniformFactory(openturns.model_copula.DistributionImplementationFactory):
"""Proxy of C++ OT::UniformFactory class"""
__swig_setmethods__ = {}
for _s in [openturns.model_copula.DistributionImplementationFactory]: __swig_setmethods__.update(getattr(_s,'__swig_setmethods__',{}))
__setattr__ = lambda self, name, value: _swig_setattr(self, UniformFactory, name, value)
__swig_getmethods__ = {}
for _s in [openturns.model_copula.DistributionImplementationFactory]: __swig_getmethods__.update(getattr(_s,'__swig_getmethods__',{}))
__getattr__ = lambda self, name: _swig_getattr(self, UniformFactory, name)
__repr__ = _swig_repr
def GetClassName():
"""GetClassName() -> OT::String"""
return _dist_bundle3.UniformFactory_GetClassName()
if _newclass:GetClassName = staticmethod(GetClassName)
__swig_getmethods__["GetClassName"] = lambda x: GetClassName
def getClassName(self):
"""getClassName(UniformFactory self) -> OT::String"""
return _dist_bundle3.UniformFactory_getClassName(self)
def build(self, *args):
"""
build(UniformFactory self, NumericalSample sample) -> DistributionImplementationPointer
build(UniformFactory self, NumericalSample sample, CovarianceMatrix covariance) -> DistributionImplementationPointer
build(UniformFactory self, NumericalPointCollection parameters) -> DistributionImplementationPointer
build(UniformFactory self, NumericalPointWithDescriptionCollection parameters) -> DistributionImplementationPointer
build(UniformFactory self, NumericalSample sample) -> DistributionImplementationPointer
build(UniformFactory self, NumericalPointCollection parameters) -> DistributionImplementationPointer
build(UniformFactory self) -> DistributionImplementationPointer
"""
return _dist_bundle3.UniformFactory_build(self, *args)
def buildAsUniform(self, *args):
"""
buildAsUniform(UniformFactory self, NumericalSample sample) -> Uniform
buildAsUniform(UniformFactory self, NumericalPointCollection parameters) -> Uniform
buildAsUniform(UniformFactory self, NumericalPointWithDescriptionCollection parameters) -> Uniform
buildAsUniform(UniformFactory self) -> Uniform
"""
return _dist_bundle3.UniformFactory_buildAsUniform(self, *args)
def __init__(self, *args):
"""
__init__(OT::UniformFactory self) -> UniformFactory
__init__(OT::UniformFactory self, UniformFactory other) -> UniformFactory
"""
this = _dist_bundle3.new_UniformFactory(*args)
try: self.this.append(this)
except: self.this = this
__swig_destroy__ = _dist_bundle3.delete_UniformFactory
__del__ = lambda self : None;
UniformFactory_swigregister = _dist_bundle3.UniformFactory_swigregister
UniformFactory_swigregister(UniformFactory)
def UniformFactory_GetClassName():
"""UniformFactory_GetClassName() -> OT::String"""
return _dist_bundle3.UniformFactory_GetClassName()
class UserDefinedPair(openturns.common.PersistentObject):
"""Proxy of C++ OT::UserDefinedPair class"""
__swig_setmethods__ = {}
for _s in [openturns.common.PersistentObject]: __swig_setmethods__.update(getattr(_s,'__swig_setmethods__',{}))
__setattr__ = lambda self, name, value: _swig_setattr(self, UserDefinedPair, name, value)
__swig_getmethods__ = {}
for _s in [openturns.common.PersistentObject]: __swig_getmethods__.update(getattr(_s,'__swig_getmethods__',{}))
__getattr__ = lambda self, name: _swig_getattr(self, UserDefinedPair, name)
def GetClassName():
"""GetClassName() -> OT::String"""
return _dist_bundle3.UserDefinedPair_GetClassName()
if _newclass:GetClassName = staticmethod(GetClassName)
__swig_getmethods__["GetClassName"] = lambda x: GetClassName
def getClassName(self):
"""getClassName(UserDefinedPair self) -> OT::String"""
return _dist_bundle3.UserDefinedPair_getClassName(self)
def __eq__(self, *args):
"""__eq__(UserDefinedPair self, UserDefinedPair other) -> OT::Bool"""
return _dist_bundle3.UserDefinedPair___eq__(self, *args)
def setX(self, *args):
"""setX(UserDefinedPair self, NumericalPoint x)"""
return _dist_bundle3.UserDefinedPair_setX(self, *args)
def setP(self, *args):
"""setP(UserDefinedPair self, OT::NumericalScalar const p)"""
return _dist_bundle3.UserDefinedPair_setP(self, *args)
def getX(self):
"""getX(UserDefinedPair self) -> NumericalPoint"""
return _dist_bundle3.UserDefinedPair_getX(self)
def getP(self):
"""getP(UserDefinedPair self) -> OT::NumericalScalar"""
return _dist_bundle3.UserDefinedPair_getP(self)
def __repr__(self):
"""__repr__(UserDefinedPair self) -> OT::String"""
return _dist_bundle3.UserDefinedPair___repr__(self)
def __init__(self, *args):
"""
__init__(OT::UserDefinedPair self) -> UserDefinedPair
__init__(OT::UserDefinedPair self, NumericalPoint x, OT::NumericalScalar const p) -> UserDefinedPair
__init__(OT::UserDefinedPair self, UserDefinedPair other) -> UserDefinedPair
"""
this = _dist_bundle3.new_UserDefinedPair(*args)
try: self.this.append(this)
except: self.this = this
__swig_destroy__ = _dist_bundle3.delete_UserDefinedPair
__del__ = lambda self : None;
UserDefinedPair_swigregister = _dist_bundle3.UserDefinedPair_swigregister
UserDefinedPair_swigregister(UserDefinedPair)
def UserDefinedPair_GetClassName():
"""UserDefinedPair_GetClassName() -> OT::String"""
return _dist_bundle3.UserDefinedPair_GetClassName()
class UserDefinedPairCollection(_object):
"""Proxy of C++ OT::Collection<(OT::UserDefinedPair)> class"""
__swig_setmethods__ = {}
__setattr__ = lambda self, name, value: _swig_setattr(self, UserDefinedPairCollection, name, value)
__swig_getmethods__ = {}
__getattr__ = lambda self, name: _swig_getattr(self, UserDefinedPairCollection, name)
__swig_destroy__ = _dist_bundle3.delete_UserDefinedPairCollection
__del__ = lambda self : None;
def clear(self):
"""clear(UserDefinedPairCollection self)"""
return _dist_bundle3.UserDefinedPairCollection_clear(self)
def __len__(self):
"""__len__(UserDefinedPairCollection self) -> OT::UnsignedLong"""
return _dist_bundle3.UserDefinedPairCollection___len__(self)
def __eq__(self, *args):
"""__eq__(UserDefinedPairCollection self, UserDefinedPairCollection rhs) -> OT::Bool"""
return _dist_bundle3.UserDefinedPairCollection___eq__(self, *args)
def __contains__(self, *args):
"""__contains__(UserDefinedPairCollection self, UserDefinedPair val) -> OT::Bool"""
return _dist_bundle3.UserDefinedPairCollection___contains__(self, *args)
def __getitem__(self, *args):
"""__getitem__(UserDefinedPairCollection self, OT::UnsignedLong const i) -> UserDefinedPair"""
return _dist_bundle3.UserDefinedPairCollection___getitem__(self, *args)
def __setitem__(self, *args):
"""__setitem__(UserDefinedPairCollection self, OT::UnsignedLong const i, UserDefinedPair val)"""
return _dist_bundle3.UserDefinedPairCollection___setitem__(self, *args)
def __delitem__(self, *args):
"""__delitem__(UserDefinedPairCollection self, OT::UnsignedLong const i)"""
return _dist_bundle3.UserDefinedPairCollection___delitem__(self, *args)
def at(self, *args):
"""
at(UserDefinedPairCollection self, OT::UnsignedLong const i) -> UserDefinedPair
at(UserDefinedPairCollection self, OT::UnsignedLong const i) -> UserDefinedPair
"""
return _dist_bundle3.UserDefinedPairCollection_at(self, *args)
def add(self, *args):
"""
add(UserDefinedPairCollection self, UserDefinedPair elt)
add(UserDefinedPairCollection self, UserDefinedPairCollection coll)
"""
return _dist_bundle3.UserDefinedPairCollection_add(self, *args)
def getSize(self):
"""getSize(UserDefinedPairCollection self) -> OT::UnsignedLong"""
return _dist_bundle3.UserDefinedPairCollection_getSize(self)
def resize(self, *args):
"""resize(UserDefinedPairCollection self, OT::UnsignedLong const newSize)"""
return _dist_bundle3.UserDefinedPairCollection_resize(self, *args)
def isEmpty(self):
"""isEmpty(UserDefinedPairCollection self) -> OT::Bool"""
return _dist_bundle3.UserDefinedPairCollection_isEmpty(self)
def __repr__(self):
"""__repr__(UserDefinedPairCollection self) -> OT::String"""
return _dist_bundle3.UserDefinedPairCollection___repr__(self)
def __str__(self, offset=""):
"""
__str__(UserDefinedPairCollection self, OT::String const & offset="") -> OT::String
__str__(UserDefinedPairCollection self) -> OT::String
"""
return _dist_bundle3.UserDefinedPairCollection___str__(self, offset)
def __init__(self, *args):
"""
__init__(OT::Collection<(OT::UserDefinedPair)> self) -> UserDefinedPairCollection
__init__(OT::Collection<(OT::UserDefinedPair)> self, OT::UnsignedLong const size) -> UserDefinedPairCollection
__init__(OT::Collection<(OT::UserDefinedPair)> self, OT::UnsignedLong const size, UserDefinedPair value) -> UserDefinedPairCollection
__init__(OT::Collection<(OT::UserDefinedPair)> self, PyObject * pyObj) -> UserDefinedPairCollection
__init__(OT::Collection<(OT::UserDefinedPair)> self, UserDefinedPairCollection other) -> UserDefinedPairCollection
"""
this = _dist_bundle3.new_UserDefinedPairCollection(*args)
try: self.this.append(this)
except: self.this = this
UserDefinedPairCollection_swigregister = _dist_bundle3.UserDefinedPairCollection_swigregister
UserDefinedPairCollection_swigregister(UserDefinedPairCollection)
class UserDefined(openturns.model_copula.DiscreteDistribution):
"""Proxy of C++ OT::UserDefined class"""
__swig_setmethods__ = {}
for _s in [openturns.model_copula.DiscreteDistribution]: __swig_setmethods__.update(getattr(_s,'__swig_setmethods__',{}))
__setattr__ = lambda self, name, value: _swig_setattr(self, UserDefined, name, value)
__swig_getmethods__ = {}
for _s in [openturns.model_copula.DiscreteDistribution]: __swig_getmethods__.update(getattr(_s,'__swig_getmethods__',{}))
__getattr__ = lambda self, name: _swig_getattr(self, UserDefined, name)
def GetClassName():
"""GetClassName() -> OT::String"""
return _dist_bundle3.UserDefined_GetClassName()
if _newclass:GetClassName = staticmethod(GetClassName)
__swig_getmethods__["GetClassName"] = lambda x: GetClassName
def getClassName(self):
"""getClassName(UserDefined self) -> OT::String"""
return _dist_bundle3.UserDefined_getClassName(self)
def __eq__(self, *args):
"""__eq__(UserDefined self, UserDefined other) -> OT::Bool"""
return _dist_bundle3.UserDefined___eq__(self, *args)
def __repr__(self):
"""__repr__(UserDefined self) -> OT::String"""
return _dist_bundle3.UserDefined___repr__(self)
def __str__(self, offset=""):
"""
__str__(UserDefined self, OT::String const & offset="") -> OT::String
__str__(UserDefined self) -> OT::String
"""
return _dist_bundle3.UserDefined___str__(self, offset)
def getRealization(self):
"""getRealization(UserDefined self) -> NumericalPoint"""
return _dist_bundle3.UserDefined_getRealization(self)
def computePDF(self, *args):
"""
computePDF(UserDefined self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computePDF(UserDefined self, NumericalPoint point) -> OT::NumericalScalar
computePDF(UserDefined self, NumericalSample sample) -> NumericalSample
computePDF(UserDefined self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultPDFEpsilon")) -> NumericalSample
computePDF(UserDefined self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computePDF(UserDefined self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultPDFEpsilon")) -> NumericalSample
computePDF(UserDefined self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid) -> NumericalSample
computePDF(UserDefined self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.UserDefined_computePDF(self, *args)
def computeCDF(self, *args):
"""
computeCDF(UserDefined self, OT::NumericalScalar const scalar, OT::Bool const tail) -> OT::NumericalScalar
computeCDF(UserDefined self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeCDF(UserDefined self, NumericalPoint point, OT::Bool const tail) -> OT::NumericalScalar
computeCDF(UserDefined self, NumericalPoint point) -> OT::NumericalScalar
computeCDF(UserDefined self, NumericalSample sample, OT::Bool const tail) -> NumericalSample
computeCDF(UserDefined self, NumericalSample sample) -> NumericalSample
computeCDF(UserDefined self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeCDF(UserDefined self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computeCDF(UserDefined self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeCDF(UserDefined self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid) -> NumericalSample
computeCDF(UserDefined self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.UserDefined_computeCDF(self, *args)
def computePDFGradient(self, *args):
"""computePDFGradient(UserDefined self, NumericalPoint point) -> NumericalPoint"""
return _dist_bundle3.UserDefined_computePDFGradient(self, *args)
def computeCDFGradient(self, *args):
"""computeCDFGradient(UserDefined self, NumericalPoint point) -> NumericalPoint"""
return _dist_bundle3.UserDefined_computeCDFGradient(self, *args)
def computeRange(self):
"""computeRange(UserDefined self)"""
return _dist_bundle3.UserDefined_computeRange(self)
def getSupport(self, *args):
"""
getSupport(UserDefined self, Interval interval) -> NumericalSample
getSupport(UserDefined self) -> NumericalSample
getSupport(UserDefined self, Interval interval) -> NumericalSample
"""
return _dist_bundle3.UserDefined_getSupport(self, *args)
def isIntegral(self):
"""isIntegral(UserDefined self) -> OT::Bool"""
return _dist_bundle3.UserDefined_isIntegral(self)
def getParametersCollection(self):
"""getParametersCollection(UserDefined self) -> NumericalPointWithDescriptionCollection"""
return _dist_bundle3.UserDefined_getParametersCollection(self)
def setPairCollection(self, *args):
"""setPairCollection(UserDefined self, UserDefinedPairCollection collection)"""
return _dist_bundle3.UserDefined_setPairCollection(self, *args)
def getPairCollection(self):
"""getPairCollection(UserDefined self) -> UserDefinedPairCollection"""
return _dist_bundle3.UserDefined_getPairCollection(self)
def getMarginal(self, *args):
"""
getMarginal(UserDefined self, OT::UnsignedLong const i) -> DistributionImplementationPointer
getMarginal(UserDefined self, Indices indices) -> DistributionImplementationPointer
"""
return _dist_bundle3.UserDefined_getMarginal(self, *args)
def compactSupport(self, *args):
"""
compactSupport(UserDefined self, OT::NumericalScalar const epsilon=OT::ResourceMap::GetAsNumericalScalar("DiscreteDistribution-SupportEpsilon"))
compactSupport(UserDefined self)
"""
return _dist_bundle3.UserDefined_compactSupport(self, *args)
def __init__(self, *args):
"""
__init__(OT::UserDefined self) -> UserDefined
__init__(OT::UserDefined self, UserDefinedPairCollection collection) -> UserDefined
__init__(OT::UserDefined self, NumericalSample sample) -> UserDefined
__init__(OT::UserDefined self, NumericalSample sample, NumericalPoint weights) -> UserDefined
__init__(OT::UserDefined self, UserDefined other) -> UserDefined
__init__(OT::UserDefined self, PyObject * pyObj) -> UserDefined
"""
this = _dist_bundle3.new_UserDefined(*args)
try: self.this.append(this)
except: self.this = this
__swig_destroy__ = _dist_bundle3.delete_UserDefined
__del__ = lambda self : None;
UserDefined_swigregister = _dist_bundle3.UserDefined_swigregister
UserDefined_swigregister(UserDefined)
def UserDefined_GetClassName():
"""UserDefined_GetClassName() -> OT::String"""
return _dist_bundle3.UserDefined_GetClassName()
class UserDefinedFactory(openturns.model_copula.DistributionImplementationFactory):
"""Proxy of C++ OT::UserDefinedFactory class"""
__swig_setmethods__ = {}
for _s in [openturns.model_copula.DistributionImplementationFactory]: __swig_setmethods__.update(getattr(_s,'__swig_setmethods__',{}))
__setattr__ = lambda self, name, value: _swig_setattr(self, UserDefinedFactory, name, value)
__swig_getmethods__ = {}
for _s in [openturns.model_copula.DistributionImplementationFactory]: __swig_getmethods__.update(getattr(_s,'__swig_getmethods__',{}))
__getattr__ = lambda self, name: _swig_getattr(self, UserDefinedFactory, name)
__repr__ = _swig_repr
def GetClassName():
"""GetClassName() -> OT::String"""
return _dist_bundle3.UserDefinedFactory_GetClassName()
if _newclass:GetClassName = staticmethod(GetClassName)
__swig_getmethods__["GetClassName"] = lambda x: GetClassName
def getClassName(self):
"""getClassName(UserDefinedFactory self) -> OT::String"""
return _dist_bundle3.UserDefinedFactory_getClassName(self)
def build(self, *args):
"""
build(UserDefinedFactory self, NumericalSample sample) -> DistributionImplementationPointer
build(UserDefinedFactory self, NumericalSample sample, CovarianceMatrix covariance) -> DistributionImplementationPointer
build(UserDefinedFactory self, NumericalPointCollection parameters) -> DistributionImplementationPointer
build(UserDefinedFactory self, NumericalPointWithDescriptionCollection parameters) -> DistributionImplementationPointer
build(UserDefinedFactory self, NumericalSample sample) -> DistributionImplementationPointer
build(UserDefinedFactory self) -> DistributionImplementationPointer
"""
return _dist_bundle3.UserDefinedFactory_build(self, *args)
def buildAsUserDefined(self, *args):
"""
buildAsUserDefined(UserDefinedFactory self, NumericalSample sample) -> UserDefined
buildAsUserDefined(UserDefinedFactory self) -> UserDefined
"""
return _dist_bundle3.UserDefinedFactory_buildAsUserDefined(self, *args)
def __init__(self, *args):
"""
__init__(OT::UserDefinedFactory self) -> UserDefinedFactory
__init__(OT::UserDefinedFactory self, UserDefinedFactory other) -> UserDefinedFactory
"""
this = _dist_bundle3.new_UserDefinedFactory(*args)
try: self.this.append(this)
except: self.this = this
__swig_destroy__ = _dist_bundle3.delete_UserDefinedFactory
__del__ = lambda self : None;
UserDefinedFactory_swigregister = _dist_bundle3.UserDefinedFactory_swigregister
UserDefinedFactory_swigregister(UserDefinedFactory)
def UserDefinedFactory_GetClassName():
"""UserDefinedFactory_GetClassName() -> OT::String"""
return _dist_bundle3.UserDefinedFactory_GetClassName()
class Weibull(openturns.model_copula.NonEllipticalDistribution):
"""Proxy of C++ OT::Weibull class"""
__swig_setmethods__ = {}
for _s in [openturns.model_copula.NonEllipticalDistribution]: __swig_setmethods__.update(getattr(_s,'__swig_setmethods__',{}))
__setattr__ = lambda self, name, value: _swig_setattr(self, Weibull, name, value)
__swig_getmethods__ = {}
for _s in [openturns.model_copula.NonEllipticalDistribution]: __swig_getmethods__.update(getattr(_s,'__swig_getmethods__',{}))
__getattr__ = lambda self, name: _swig_getattr(self, Weibull, name)
def GetClassName():
"""GetClassName() -> OT::String"""
return _dist_bundle3.Weibull_GetClassName()
if _newclass:GetClassName = staticmethod(GetClassName)
__swig_getmethods__["GetClassName"] = lambda x: GetClassName
def getClassName(self):
"""getClassName(Weibull self) -> OT::String"""
return _dist_bundle3.Weibull_getClassName(self)
ALPHABETA = _dist_bundle3.Weibull_ALPHABETA
MUSIGMA = _dist_bundle3.Weibull_MUSIGMA
def __eq__(self, *args):
"""__eq__(Weibull self, Weibull other) -> OT::Bool"""
return _dist_bundle3.Weibull___eq__(self, *args)
def __repr__(self):
"""__repr__(Weibull self) -> OT::String"""
return _dist_bundle3.Weibull___repr__(self)
def __str__(self, offset=""):
"""
__str__(Weibull self, OT::String const & offset="") -> OT::String
__str__(Weibull self) -> OT::String
"""
return _dist_bundle3.Weibull___str__(self, offset)
def getRealization(self):
"""getRealization(Weibull self) -> NumericalPoint"""
return _dist_bundle3.Weibull_getRealization(self)
def computeDDF(self, *args):
"""
computeDDF(Weibull self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeDDF(Weibull self, NumericalPoint point) -> NumericalPoint
computeDDF(Weibull self, NumericalSample sample) -> NumericalSample
computeDDF(Weibull self, NumericalPoint point) -> NumericalPoint
"""
return _dist_bundle3.Weibull_computeDDF(self, *args)
def computePDF(self, *args):
"""
computePDF(Weibull self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computePDF(Weibull self, NumericalPoint point) -> OT::NumericalScalar
computePDF(Weibull self, NumericalSample sample) -> NumericalSample
computePDF(Weibull self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultPDFEpsilon")) -> NumericalSample
computePDF(Weibull self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computePDF(Weibull self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultPDFEpsilon")) -> NumericalSample
computePDF(Weibull self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid) -> NumericalSample
computePDF(Weibull self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.Weibull_computePDF(self, *args)
def computeLogPDF(self, *args):
"""
computeLogPDF(Weibull self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeLogPDF(Weibull self, NumericalPoint point) -> OT::NumericalScalar
computeLogPDF(Weibull self, NumericalSample sample) -> NumericalSample
computeLogPDF(Weibull self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.Weibull_computeLogPDF(self, *args)
def computeCDF(self, *args):
"""
computeCDF(Weibull self, OT::NumericalScalar const scalar, OT::Bool const tail) -> OT::NumericalScalar
computeCDF(Weibull self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeCDF(Weibull self, NumericalPoint point, OT::Bool const tail) -> OT::NumericalScalar
computeCDF(Weibull self, NumericalPoint point) -> OT::NumericalScalar
computeCDF(Weibull self, NumericalSample sample, OT::Bool const tail) -> NumericalSample
computeCDF(Weibull self, NumericalSample sample) -> NumericalSample
computeCDF(Weibull self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeCDF(Weibull self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computeCDF(Weibull self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeCDF(Weibull self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid) -> NumericalSample
computeCDF(Weibull self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.Weibull_computeCDF(self, *args)
def computePDFGradient(self, *args):
"""computePDFGradient(Weibull self, NumericalPoint point) -> NumericalPoint"""
return _dist_bundle3.Weibull_computePDFGradient(self, *args)
def computeCDFGradient(self, *args):
"""computeCDFGradient(Weibull self, NumericalPoint point) -> NumericalPoint"""
return _dist_bundle3.Weibull_computeCDFGradient(self, *args)
def getStandardDeviation(self):
"""getStandardDeviation(Weibull self) -> NumericalPoint"""
return _dist_bundle3.Weibull_getStandardDeviation(self)
def getSkewness(self):
"""getSkewness(Weibull self) -> NumericalPoint"""
return _dist_bundle3.Weibull_getSkewness(self)
def getKurtosis(self):
"""getKurtosis(Weibull self) -> NumericalPoint"""
return _dist_bundle3.Weibull_getKurtosis(self)
def getStandardMoment(self, *args):
"""getStandardMoment(Weibull self, OT::UnsignedLong const n) -> NumericalPoint"""
return _dist_bundle3.Weibull_getStandardMoment(self, *args)
def getStandardRepresentative(self):
"""getStandardRepresentative(Weibull self) -> DistributionImplementationPointer"""
return _dist_bundle3.Weibull_getStandardRepresentative(self)
def getParametersCollection(self):
"""getParametersCollection(Weibull self) -> NumericalPointWithDescriptionCollection"""
return _dist_bundle3.Weibull_getParametersCollection(self)
def setParametersCollection(self, *args):
"""
setParametersCollection(Weibull self, NumericalPointWithDescriptionCollection parametersCollection)
setParametersCollection(Weibull self, NumericalPointCollection parametersCollection)
setParametersCollection(Weibull self, NumericalPoint parameters)
setParametersCollection(Weibull self, NumericalPointCollection parametersCollection)
"""
return _dist_bundle3.Weibull_setParametersCollection(self, *args)
def setBeta(self, *args):
"""setBeta(Weibull self, OT::NumericalScalar const beta)"""
return _dist_bundle3.Weibull_setBeta(self, *args)
def getBeta(self):
"""getBeta(Weibull self) -> OT::NumericalScalar"""
return _dist_bundle3.Weibull_getBeta(self)
def setAlpha(self, *args):
"""setAlpha(Weibull self, OT::NumericalScalar const alpha)"""
return _dist_bundle3.Weibull_setAlpha(self, *args)
def getAlpha(self):
"""getAlpha(Weibull self) -> OT::NumericalScalar"""
return _dist_bundle3.Weibull_getAlpha(self)
def setMuSigma(self, *args):
"""setMuSigma(Weibull self, OT::NumericalScalar const mu, OT::NumericalScalar const sigma)"""
return _dist_bundle3.Weibull_setMuSigma(self, *args)
def getMu(self):
"""getMu(Weibull self) -> OT::NumericalScalar"""
return _dist_bundle3.Weibull_getMu(self)
def getSigma(self):
"""getSigma(Weibull self) -> OT::NumericalScalar"""
return _dist_bundle3.Weibull_getSigma(self)
def setGamma(self, *args):
"""setGamma(Weibull self, OT::NumericalScalar const gamma)"""
return _dist_bundle3.Weibull_setGamma(self, *args)
def getGamma(self):
"""getGamma(Weibull self) -> OT::NumericalScalar"""
return _dist_bundle3.Weibull_getGamma(self)
def __init__(self, *args):
"""
__init__(OT::Weibull self) -> Weibull
__init__(OT::Weibull self, OT::NumericalScalar const arg1, OT::NumericalScalar const arg2, OT::NumericalScalar const gamma=0.0,
OT::Weibull::ParameterSet const set=ALPHABETA) -> Weibull
__init__(OT::Weibull self, OT::NumericalScalar const arg1, OT::NumericalScalar const arg2, OT::NumericalScalar const gamma=0.0) -> Weibull
__init__(OT::Weibull self, OT::NumericalScalar const arg1, OT::NumericalScalar const arg2) -> Weibull
__init__(OT::Weibull self, Weibull other) -> Weibull
"""
this = _dist_bundle3.new_Weibull(*args)
try: self.this.append(this)
except: self.this = this
__swig_destroy__ = _dist_bundle3.delete_Weibull
__del__ = lambda self : None;
Weibull_swigregister = _dist_bundle3.Weibull_swigregister
Weibull_swigregister(Weibull)
def Weibull_GetClassName():
"""Weibull_GetClassName() -> OT::String"""
return _dist_bundle3.Weibull_GetClassName()
class WeibullFactory(openturns.model_copula.DistributionImplementationFactory):
"""Proxy of C++ OT::WeibullFactory class"""
__swig_setmethods__ = {}
for _s in [openturns.model_copula.DistributionImplementationFactory]: __swig_setmethods__.update(getattr(_s,'__swig_setmethods__',{}))
__setattr__ = lambda self, name, value: _swig_setattr(self, WeibullFactory, name, value)
__swig_getmethods__ = {}
for _s in [openturns.model_copula.DistributionImplementationFactory]: __swig_getmethods__.update(getattr(_s,'__swig_getmethods__',{}))
__getattr__ = lambda self, name: _swig_getattr(self, WeibullFactory, name)
__repr__ = _swig_repr
def GetClassName():
"""GetClassName() -> OT::String"""
return _dist_bundle3.WeibullFactory_GetClassName()
if _newclass:GetClassName = staticmethod(GetClassName)
__swig_getmethods__["GetClassName"] = lambda x: GetClassName
def getClassName(self):
"""getClassName(WeibullFactory self) -> OT::String"""
return _dist_bundle3.WeibullFactory_getClassName(self)
def build(self, *args):
"""
build(WeibullFactory self, NumericalSample sample) -> DistributionImplementationPointer
build(WeibullFactory self, NumericalSample sample, CovarianceMatrix covariance) -> DistributionImplementationPointer
build(WeibullFactory self, NumericalPointCollection parameters) -> DistributionImplementationPointer
build(WeibullFactory self, NumericalPointWithDescriptionCollection parameters) -> DistributionImplementationPointer
build(WeibullFactory self, NumericalSample sample) -> DistributionImplementationPointer
build(WeibullFactory self, NumericalPointCollection parameters) -> DistributionImplementationPointer
build(WeibullFactory self) -> DistributionImplementationPointer
"""
return _dist_bundle3.WeibullFactory_build(self, *args)
def buildAsWeibull(self, *args):
"""
buildAsWeibull(WeibullFactory self, NumericalSample sample) -> Weibull
buildAsWeibull(WeibullFactory self, NumericalPointCollection parameters) -> Weibull
buildAsWeibull(WeibullFactory self, NumericalPointWithDescriptionCollection parameters) -> Weibull
buildAsWeibull(WeibullFactory self) -> Weibull
"""
return _dist_bundle3.WeibullFactory_buildAsWeibull(self, *args)
def __init__(self, *args):
"""
__init__(OT::WeibullFactory self) -> WeibullFactory
__init__(OT::WeibullFactory self, WeibullFactory other) -> WeibullFactory
"""
this = _dist_bundle3.new_WeibullFactory(*args)
try: self.this.append(this)
except: self.this = this
__swig_destroy__ = _dist_bundle3.delete_WeibullFactory
__del__ = lambda self : None;
WeibullFactory_swigregister = _dist_bundle3.WeibullFactory_swigregister
WeibullFactory_swigregister(WeibullFactory)
def WeibullFactory_GetClassName():
"""WeibullFactory_GetClassName() -> OT::String"""
return _dist_bundle3.WeibullFactory_GetClassName()
class ZipfMandelbrot(openturns.model_copula.DiscreteDistribution):
"""Proxy of C++ OT::ZipfMandelbrot class"""
__swig_setmethods__ = {}
for _s in [openturns.model_copula.DiscreteDistribution]: __swig_setmethods__.update(getattr(_s,'__swig_setmethods__',{}))
__setattr__ = lambda self, name, value: _swig_setattr(self, ZipfMandelbrot, name, value)
__swig_getmethods__ = {}
for _s in [openturns.model_copula.DiscreteDistribution]: __swig_getmethods__.update(getattr(_s,'__swig_getmethods__',{}))
__getattr__ = lambda self, name: _swig_getattr(self, ZipfMandelbrot, name)
def GetClassName():
"""GetClassName() -> OT::String"""
return _dist_bundle3.ZipfMandelbrot_GetClassName()
if _newclass:GetClassName = staticmethod(GetClassName)
__swig_getmethods__["GetClassName"] = lambda x: GetClassName
def getClassName(self):
"""getClassName(ZipfMandelbrot self) -> OT::String"""
return _dist_bundle3.ZipfMandelbrot_getClassName(self)
def __eq__(self, *args):
"""__eq__(ZipfMandelbrot self, ZipfMandelbrot other) -> OT::Bool"""
return _dist_bundle3.ZipfMandelbrot___eq__(self, *args)
def __repr__(self):
"""__repr__(ZipfMandelbrot self) -> OT::String"""
return _dist_bundle3.ZipfMandelbrot___repr__(self)
def __str__(self, offset=""):
"""
__str__(ZipfMandelbrot self, OT::String const & offset="") -> OT::String
__str__(ZipfMandelbrot self) -> OT::String
"""
return _dist_bundle3.ZipfMandelbrot___str__(self, offset)
def getRealization(self):
"""getRealization(ZipfMandelbrot self) -> NumericalPoint"""
return _dist_bundle3.ZipfMandelbrot_getRealization(self)
def computePDF(self, *args):
"""
computePDF(ZipfMandelbrot self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computePDF(ZipfMandelbrot self, NumericalPoint point) -> OT::NumericalScalar
computePDF(ZipfMandelbrot self, NumericalSample sample) -> NumericalSample
computePDF(ZipfMandelbrot self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultPDFEpsilon")) -> NumericalSample
computePDF(ZipfMandelbrot self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computePDF(ZipfMandelbrot self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultPDFEpsilon")) -> NumericalSample
computePDF(ZipfMandelbrot self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid) -> NumericalSample
computePDF(ZipfMandelbrot self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.ZipfMandelbrot_computePDF(self, *args)
def computeCDF(self, *args):
"""
computeCDF(ZipfMandelbrot self, OT::NumericalScalar const scalar, OT::Bool const tail) -> OT::NumericalScalar
computeCDF(ZipfMandelbrot self, OT::NumericalScalar const scalar) -> OT::NumericalScalar
computeCDF(ZipfMandelbrot self, NumericalPoint point, OT::Bool const tail) -> OT::NumericalScalar
computeCDF(ZipfMandelbrot self, NumericalPoint point) -> OT::NumericalScalar
computeCDF(ZipfMandelbrot self, NumericalSample sample, OT::Bool const tail) -> NumericalSample
computeCDF(ZipfMandelbrot self, NumericalSample sample) -> NumericalSample
computeCDF(ZipfMandelbrot self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid, OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeCDF(ZipfMandelbrot self, OT::NumericalScalar const xMin, OT::NumericalScalar const xMax, OT::UnsignedLong const pointNumber,
NumericalSample grid) -> NumericalSample
computeCDF(ZipfMandelbrot self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid,
OT::NumericalScalar const precision=OT::ResourceMap::GetAsNumericalScalar("DistributionImplementation-DefaultCDFEpsilon")) -> NumericalSample
computeCDF(ZipfMandelbrot self, NumericalPoint xMin, NumericalPoint xMax, Indices pointNumber, NumericalSample grid) -> NumericalSample
computeCDF(ZipfMandelbrot self, NumericalPoint point) -> OT::NumericalScalar
"""
return _dist_bundle3.ZipfMandelbrot_computeCDF(self, *args)
def getStandardDeviation(self):
"""getStandardDeviation(ZipfMandelbrot self) -> NumericalPoint"""
return _dist_bundle3.ZipfMandelbrot_getStandardDeviation(self)
def getSkewness(self):
"""getSkewness(ZipfMandelbrot self) -> NumericalPoint"""
return _dist_bundle3.ZipfMandelbrot_getSkewness(self)
def getKurtosis(self):
"""getKurtosis(ZipfMandelbrot self) -> NumericalPoint"""
return _dist_bundle3.ZipfMandelbrot_getKurtosis(self)
def setQ(self, *args):
"""setQ(ZipfMandelbrot self, OT::NumericalScalar const q)"""
return _dist_bundle3.ZipfMandelbrot_setQ(self, *args)
def getQ(self):
"""getQ(ZipfMandelbrot self) -> OT::NumericalScalar"""
return _dist_bundle3.ZipfMandelbrot_getQ(self)
def setS(self, *args):
"""setS(ZipfMandelbrot self, OT::NumericalScalar const s)"""
return _dist_bundle3.ZipfMandelbrot_setS(self, *args)
def getS(self):
"""getS(ZipfMandelbrot self) -> OT::NumericalScalar"""
return _dist_bundle3.ZipfMandelbrot_getS(self)
def setN(self, *args):
"""setN(ZipfMandelbrot self, OT::UnsignedLong const n)"""
return _dist_bundle3.ZipfMandelbrot_setN(self, *args)
def getN(self):
"""getN(ZipfMandelbrot self) -> OT::UnsignedLong"""
return _dist_bundle3.ZipfMandelbrot_getN(self)
def getSupport(self, *args):
"""
getSupport(ZipfMandelbrot self, Interval interval) -> NumericalSample
getSupport(ZipfMandelbrot self) -> NumericalSample
getSupport(ZipfMandelbrot self, Interval interval) -> NumericalSample
"""
return _dist_bundle3.ZipfMandelbrot_getSupport(self, *args)
def getParametersCollection(self):
"""getParametersCollection(ZipfMandelbrot self) -> NumericalPointWithDescriptionCollection"""
return _dist_bundle3.ZipfMandelbrot_getParametersCollection(self)
def setParametersCollection(self, *args):
"""
setParametersCollection(ZipfMandelbrot self, NumericalPointWithDescriptionCollection parametersCollection)
setParametersCollection(ZipfMandelbrot self, NumericalPointCollection parametersCollection)
setParametersCollection(ZipfMandelbrot self, NumericalPoint parameters)
setParametersCollection(ZipfMandelbrot self, NumericalPointCollection parametersCollection)
"""
return _dist_bundle3.ZipfMandelbrot_setParametersCollection(self, *args)
def __init__(self, *args):
"""
__init__(OT::ZipfMandelbrot self) -> ZipfMandelbrot
__init__(OT::ZipfMandelbrot self, OT::UnsignedLong const n, OT::NumericalScalar const q, OT::NumericalScalar const s) -> ZipfMandelbrot
__init__(OT::ZipfMandelbrot self, ZipfMandelbrot other) -> ZipfMandelbrot
"""
this = _dist_bundle3.new_ZipfMandelbrot(*args)
try: self.this.append(this)
except: self.this = this
__swig_destroy__ = _dist_bundle3.delete_ZipfMandelbrot
__del__ = lambda self : None;
ZipfMandelbrot_swigregister = _dist_bundle3.ZipfMandelbrot_swigregister
ZipfMandelbrot_swigregister(ZipfMandelbrot)
def ZipfMandelbrot_GetClassName():
"""ZipfMandelbrot_GetClassName() -> OT::String"""
return _dist_bundle3.ZipfMandelbrot_GetClassName()
# This file is compatible with both classic and new-style classes.
|