Mixture#
- class scipy.stats.Mixture(components, *, weights=None)[source]#
- Representation of a mixture distribution. - A mixture distribution is the distribution of a random variable defined in the following way: first, a random variable is selected from - componentsaccording to the probabilities given by- weights, then the selected random variable is realized.- Parameters:
- componentssequence of ContinuousDistribution
- The underlying instances of ContinuousDistribution. All must have scalar shape parameters (if any); e.g., the - pdfevaluated at a scalar argument must return a scalar.
- weightssequence of floats, optional
- The corresponding probabilities of selecting each random variable. Must be non-negative and sum to one. The default behavior is to weight all components equally. 
 
 - Notes - The following abbreviations are used throughout the documentation. - PDF: probability density function 
- CDF: cumulative distribution function 
- CCDF: complementary CDF 
- entropy: differential entropy 
- log-F: logarithm of F (e.g. log-CDF) 
- inverse F: inverse function of F (e.g. inverse CDF) 
 - References [1]- Mixture distribution, Wikipedia, https://en.wikipedia.org/wiki/Mixture_distribution - Attributes:
- componentssequence of ContinuousDistribution
- The underlying instances of ContinuousDistribution. 
- weightsndarray
- The corresponding probabilities of selecting each random variable. 
 
 - Methods - support()- Support of the random variable - sample([shape, rng, method])- Random sample from the distribution. - moment([order, kind, method])- Raw, central, or standard moment of positive integer order. - mean(*[, method])- Mean (raw first moment about the origin) - median(*[, method])- Median (50th percentil) - mode(*[, method])- Mode (most likely value) - variance(*[, method])- Variance (central second moment) - standard_deviation(*[, method])- Standard deviation (square root of the second central moment) - skewness(*[, method])- Skewness (standardized third moment) - kurtosis(*[, method])- Kurtosis (standardized fourth moment) - pdf(x, /, *[, method])- Probability density function - logpdf(x, /, *[, method])- Log of the probability density function - cdf(x[, y, method])- Cumulative distribution function - icdf(p, /, *[, method])- Inverse of the cumulative distribution function. - ccdf(x[, y, method])- Complementary cumulative distribution function - iccdf(p, /, *[, method])- Inverse complementary cumulative distribution function. - logcdf(x[, y, method])- Log of the cumulative distribution function - ilogcdf(p, /, *[, method])- Inverse of the logarithm of the cumulative distribution function. - logccdf(x[, y, method])- Log of the complementary cumulative distribution function - ilogccdf(p, /, *[, method])- Inverse of the log of the complementary cumulative distribution function. - entropy(*[, method])- Differential entropy