PyStan provides a Python interface to Stan, a package for Bayesian inference using the No-U-Turn sampler, a variant of Hamiltonian Monte Carlo.
For more information on Stan and its modeling language, see the Stan User's Guide and Reference Manual at http://mc-stan.org/.
- HTML documentation: https://pystan.readthedocs.org
- Issue tracker: https://github.com/stan-dev/pystan/issues
- Source code repository: https://github.com/stan-dev/pystan
- Stan: http://mc-stan.org/
- Stan User's Guide and Reference Manual (pdf) available at http://mc-stan.org
- Scikit-learn integration: pystan-sklearn by @rgerkin.
Detailed installation instructions can be found in the installation_beginner.md file
NumPy and Cython (version 0.22 or greater) are required. matplotlib is optional.
PyStan and the required packages may be installed from the Python Package Index using pip
.
pip install pystan
Alternatively, if Cython (version 0.22 or greater) and NumPy are already available, PyStan may be installed from source with the following commands
git clone --recursive https://github.com/stan-dev/pystan.git cd pystan python setup.py install
If you encounter an ImportError
after compiling from source, try changing
out of the source directory before attempting import pystan
. On Linux and
OS X cd /tmp
will work.
import pystan import numpy as np import matplotlib.pyplot as plt schools_code = """ data { int<lower=0> J; // number of schools real y[J]; // estimated treatment effects real<lower=0> sigma[J]; // s.e. of effect estimates } parameters { real mu; real<lower=0> tau; real eta[J]; } transformed parameters { real theta[J]; for (j in 1:J) theta[j] <- mu + tau * eta[j]; } model { eta ~ normal(0, 1); y ~ normal(theta, sigma); } """ schools_dat = {'J': 8, 'y': [28, 8, -3, 7, -1, 1, 18, 12], 'sigma': [15, 10, 16, 11, 9, 11, 10, 18]} fit = pystan.stan(model_code=schools_code, data=schools_dat, iter=1000, chains=4) print(fit) eta = fit.extract(permuted=True)['eta'] np.mean(eta, axis=0) # if matplotlib is installed (optional, not required), a visual summary and # traceplot are available fit.plot() plt.show()