chainer.Distribution¶
- class chainer.Distribution[source]¶
Interface of Distribution
Distribution
is a bass class for dealing with probability distributions.This class provides the following capabilities.
Sampling random points.
Evaluating a probability-related function at a given realization value. (e.g., probability density function, probability mass function)
Obtaining properties of distributions. (e.g., mean, variance)
Note that every method and property that computes them from
chainer.Variable
can basically be differentiated.In this class, sampled random points and realization values given in probability-related function is called sample. Sample consists of batches, and each batch consists of independent events. Each event consists of values, and each value in an event cannot be sampled independently in general. Each event in a batch is independent while it is not sampled from an identical distribution. And each batch in sample is sampled from an identical distribution.
Each part of the sample-batch-event hierarchy has its own shape, which is called
sample_shape
,batch_shape
, andevent_shape
, respectively.On initialization, it takes distribution-specific parameters as inputs.
batch_shape
andevent_shape
is decided by the shape of the parameter when generating an instance of a class.Example
The following code is an example of sample-batch-event hierarchy on using
MultivariateNormal
distribution. This makes 2d normal distributions.dist
consists of 12(4 * 3) independent 2d normal distributions. And on initialization,batch_shape
andevent_shape
is decided.>>> import chainer >>> import chainer.distributions as D >>> import numpy as np >>> d = 2 >>> shape = (4, 3) >>> loc = np.random.normal( ... size=shape + (d,)).astype(np.float32) >>> cov = np.random.normal(size=shape + (d, d)).astype(np.float32) >>> cov = np.matmul(cov, np.rollaxis(cov, -1, -2)) >>> l = np.linalg.cholesky(cov) >>> dist = D.MultivariateNormal(loc, scale_tril=l) >>> dist.event_shape (2,) >>> dist.batch_shape (4, 3) >>> sample = dist.sample(sample_shape=(6, 5)) >>> sample.shape (6, 5, 4, 3, 2)
Every probability-related function takes realization value whose shape is the concatenation of
sample_shape
,batch_shape
, andevent_shape
and returns an evaluated value whose shape is the concatenation ofsample_shape
, andbatch_shape
.Methods
- cdf(x)[source]¶
Evaluates the cumulative distribution function at the given points.
- Parameters
x (
Variable
or N-dimensional array) – Data points in the domain of the distribution- Returns
Cumulative distribution function value evaluated at x.
- Return type
- icdf(x)[source]¶
Evaluates the inverse cumulative distribution function at the given points.
- Parameters
x (
Variable
or N-dimensional array) – Data points in the domain of the distribution- Returns
Inverse cumulative distribution function value evaluated at x.
- Return type
- log_cdf(x)[source]¶
Evaluates the log of cumulative distribution function at the given points.
- Parameters
x (
Variable
or N-dimensional array) – Data points in the domain of the distribution- Returns
Logarithm of cumulative distribution function value evaluated at x.
- Return type
- log_prob(x)[source]¶
Evaluates the logarithm of probability at the given points.
- Parameters
x (
Variable
or N-dimensional array) – Data points in the domain of the distribution- Returns
Logarithm of probability evaluated at x.
- Return type
- log_survival_function(x)[source]¶
Evaluates the logarithm of survival function at the given points.
- Parameters
x (
Variable
or N-dimensional array) – Data points in the domain of the distribution- Returns
Logarithm of survival function value evaluated at x.
- Return type
- perplexity(x)[source]¶
Evaluates the perplexity function at the given points.
- Parameters
x (
Variable
or N-dimensional array) – Data points in the domain of the distribution- Returns
Perplexity function value evaluated at x.
- Return type
- prob(x)[source]¶
Evaluates probability at the given points.
- Parameters
x (
Variable
or N-dimensional array) – Data points in the domain of the distribution- Returns
Probability evaluated at x.
- Return type
- sample(sample_shape=())[source]¶
Samples random points from the distribution.
This function calls sample_n and reshapes a result of sample_n to sample_shape + batch_shape + event_shape. On implementing sampling code in an inherited distribution class, it is not recommended that you override this function. Instead of doing this, it is preferable to override sample_n.
- sample_n(n)[source]¶
Samples n random points from the distribution.
This function returns sampled points whose shape is (n,) + batch_shape + event_shape. When implementing sampling code in a subclass, it is recommended that you override this method.
- survival_function(x)[source]¶
Evaluates the survival function at the given points.
- Parameters
x (
Variable
or N-dimensional array) – Data points in the domain of the distribution- Returns
Survival function value evaluated at x.
- Return type
- __eq__(value, /)¶
Return self==value.
- __ne__(value, /)¶
Return self!=value.
- __lt__(value, /)¶
Return self<value.
- __le__(value, /)¶
Return self<=value.
- __gt__(value, /)¶
Return self>value.
- __ge__(value, /)¶
Return self>=value.
Attributes
- batch_shape¶
Returns the shape of a batch.
- Returns
The shape of a sample that is not identical and independent.
- Return type
- covariance¶
Returns the covariance of the distribution.
- Returns
The covariance of the distribution.
- Return type
- entropy¶
Returns the entropy of the distribution.
- Returns
The entropy of the distribution.
- Return type
- event_shape¶
Returns the shape of an event.
- Returns
The shape of a sample that is not identical and independent.
- Return type
- mean¶
Returns the mean of the distribution.
- Returns
The mean of the distribution.
- Return type
- mode¶
Returns the mode of the distribution.
- Returns
The mode of the distribution.
- Return type
- params¶
Returns the parameters of the distribution.
- Returns
The parameters of the distribution.
- Return type
- stddev¶
Returns the standard deviation of the distribution.
- Returns
The standard deviation of the distribution.
- Return type
- support¶
Returns the support of the distribution.
- Returns
String that means support of this distribution.
- Return type
- variance¶
Returns the variance of the distribution.
- Returns
The variance of the distribution.
- Return type