PythonRandomVector¶
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- class PythonRandomVector(dim=0)¶
Allow one to overload RandomVector from Python.
- Parameters:
- dimpositive int
Vector dimension. Default is 0.
Methods
Get the description.
Get the dimension.
setDescription
(desc)Set the description.
See also
Examples
>>> import openturns as ot >>> ot.RandomGenerator.SetSeed(0)
Overload RandomVector from Python:
>>> class RVEC(ot.PythonRandomVector): ... def __init__(self): ... super(RVEC, self).__init__(2) ... self.setDescription(['R', 'S']) ... ... def getRealization(self): ... X = [ot.RandomGenerator.Generate(), 2 + ot.RandomGenerator.Generate()] ... return X ... ... def getSample(self, size): ... X = [] ... for i in range(size): ... X.append([ot.RandomGenerator.Generate(), 2 + ot.RandomGenerator.Generate()]) ... return X ... ... def getMean(self): ... return [0.5, 2.5] ... ... def getCovariance(self): ... return [[0.0833333, 0.], [0., 0.0833333]]
Use the overloaded class:
>>> R = RVEC() >>> # Instance creation >>> myRV = ot.RandomVector(R) >>> # Realization >>> print(myRV.getRealization()) [0.629877,2.88281] >>> # Sample >>> print(myRV.getSample(5)) 0 : [ 0.135276 2.0325 ] 1 : [ 0.347057 2.96942 ] 2 : [ 0.92068 2.50304 ] 3 : [ 0.0632061 2.29276 ] 4 : [ 0.714382 2.38336 ] >>> # Mean >>> print(myRV.getMean()) [0.5,2.5] >>> # Covariance >>> print(myRV.getCovariance()) [[ 0.0833333 0 ] [ 0 0.0833333 ]]
Random vectors can admit parameters.
In the following example, we define a RandomVector to sample from a normal multivariate normal distribution truncated to a ball. We implement the setParameter method to define the ball’s center.
>>> class NormalTruncatedToBall(ot.PythonRandomVector): ... def __init__(self, dim, max_dist): ... super().__init__(dim) ... self._center = ot.Point(dim) ... self._normal = ot.Normal(dim) ... self._max_dist = max_dist ... self.setParameter(ot.Point(dim)) ... ... def getRealization(self): ... dist = ot.SpecFunc.Infinity ... while dist>self._max_dist: ... candidate = self._normal.getRealization() ... dist = (candidate - self._center).norm() ... return candidate ... ... def setParameter(self, center): # the parameter influences sampling ... self._center = center ... ... def getParameter(self): # implemented for the sake of consistency ... return self._center ... ... def getParameterDescription(self): # optional ... return ["center_{}".format(i) for i in range(self.getDimension())]
Define an instance of this RandomVector and set the parameter:
>>> myRV = ot.RandomVector(NormalTruncatedToBall(2, 1.5)) >>> myRV.setParameter([1.3, 0.6])
Get a sample and plot it:
>>> sample = myRV.getSample(100) >>> graph = ot.Graph("Sample from a PythonRandomVector", "", "", True, '') >>> cloud = ot.Cloud(sample) >>> graph.add(cloud) >>> from openturns.viewer import View >>> view = View(graph)
- __init__(dim=0)¶
- getDescription()¶
Get the description.
- Returns:
- desc
Description
desc describes the components of the RandomVector.
- desc
- getDimension()¶
Get the dimension.
- Returns:
- dimpositive int
Dimension of the RandomVector.
- setDescription(desc)¶
Set the description.
- Parameters:
- descsequence of str
desc describes the components of the RandomVector. Its size must be equal to the dimension of the RandomVector.
Examples using the class¶
Distribution of estimators in linear regression
Linear Regression with interval-censored observations