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Discrete uniform distribution constructor.
npm install @stdlib/stats-base-dists-discrete-uniform-ctor
Alternatively,
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var DiscreteUniform = require( '@stdlib/stats-base-dists-discrete-uniform-ctor' );
Returns a discrete uniform distribution object.
var discreteUniform = new DiscreteUniform();
var mu = discreteUniform.mean;
// returns 0.5
By default, a = 0
and b = 1
. To create a distribution having a different a
(minimum support) and b
(maximum support), provide the corresponding arguments.
var discreteUniform = new DiscreteUniform( 2, 4 );
var mu = discreteUniform.mean;
// returns 3.0
A discrete uniform distribution object has the following properties and methods...
Minimum support of the distribution. a
must be an integer smaller than or equal to b
.
var discreteUniform = new DiscreteUniform( -2, 2 );
var a = discreteUniform.a;
// returns -2
discreteUniform.a = 0;
a = discreteUniform.a;
// returns 0
Maximum support of the distribution. b
must be an integer larger than or equal to a
.
var discreteUniform = new DiscreteUniform( 2, 4 );
var b = discreteUniform.b;
// returns 4
discreteUniform.b = 3;
b = discreteUniform.b;
// returns 3
Returns the differential entropy.
var discreteUniform = new DiscreteUniform( 4, 12 );
var entropy = discreteUniform.entropy;
// returns ~2.197
Returns the excess kurtosis.
var discreteUniform = new DiscreteUniform( 4, 12 );
var kurtosis = discreteUniform.kurtosis;
// returns -1.23
Returns the expected value.
var discreteUniform = new DiscreteUniform( 4, 12 );
var mu = discreteUniform.mean;
// returns 8.0
Returns the median.
var discreteUniform = new DiscreteUniform( 4, 12 );
var median = discreteUniform.median;
// returns 8.0
Returns the skewness.
var discreteUniform = new DiscreteUniform( 4, 12 );
var skewness = discreteUniform.skewness;
// returns 0.0
Returns the standard deviation.
var discreteUniform = new DiscreteUniform( 4, 12 );
var s = discreteUniform.stdev;
// returns ~2.582
Returns the variance.
var discreteUniform = new DiscreteUniform( 4, 12 );
var s2 = discreteUniform.variance;
// returns ~6.667
Evaluates the cumulative distribution function (CDF).
var discreteUniform = new DiscreteUniform( 2, 4 );
var y = discreteUniform.cdf( 2.5 );
// returns ~0.333
Evaluates the natural logarithm of the cumulative distribution function (CDF).
var discreteUniform = new DiscreteUniform( 2, 4 );
var y = discreteUniform.logcdf( 2.5 );
// returns ~-1.099
Evaluates the natural logarithm of the probability mass function (PMF).
var discreteUniform = new DiscreteUniform( 2, 4 );
var y = discreteUniform.logpmf( 4.0 );
// returns ~-1.099
Evaluates the probability mass function (PMF).
var discreteUniform = new DiscreteUniform( 2, 4 );
var y = discreteUniform.pmf( 3, 0 );
// returns ~0.333
Evaluates the quantile function at probability p
.
var discreteUniform = new DiscreteUniform( 2, 4 );
var y = discreteUniform.quantile( 0.5 );
// returns 3.0
y = discreteUniform.quantile( 1.9 );
// returns NaN
var DiscreteUniform = require( '@stdlib/stats-base-dists-discrete-uniform-ctor' );
var discreteUniform = new DiscreteUniform( -2, 2 );
var mu = discreteUniform.mean;
// returns 0.0
var median = discreteUniform.median;
// returns 0.0
var s2 = discreteUniform.variance;
// returns 2.0
var y = discreteUniform.cdf( 2.5 );
// returns 1.0
This package is part of stdlib, a standard library for JavaScript and Node.js, with an emphasis on numerical and scientific computing. The library provides a collection of robust, high performance libraries for mathematics, statistics, streams, utilities, and more.
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