Skip to content

Implementation of domain-specific language (DSL) for dynamic probabilistic programming

License

Notifications You must be signed in to change notification settings

TuringLang/DynamicPPL.jl

This commit does not belong to any branch on this repository, and may belong to a fork outside of the repository.

Repository files navigation

DynamicPPL.jl

Stable Dev CI JuliaNightly IntegrationTest Coverage Status Codecov Code Style: Blue ColPrac: Contributor's Guide on Collaborative Practices for Community Packages

A domain-specific language and backend for probabilistic programming, used by Turing.jl.

DynamicPPL is the part of Turing.jl that deals with defining, running, and manipulating models. DynamicPPL provides:

  • General-purpose probabilistic programming with an intuitive syntax.
  • The @model syntax and macro for easily specifying probabilistic generative models.
  • A tracing data-structure for tracking random variables in dynamic probabilistic models.
  • A rich contextual dispatch system allowing for tailored behaviour during model execution.
  • A user-friendly syntax for probabilistic queries.

Information on how to use the DynamicPPL frontend to build Bayesian models can be found on the Turing website. Tutorials explaining how to use the backend can be found alongside the documentation. More information can be found in our paper DynamicPPL: Stan-like Speed for Dynamic Probabilistic Models.

Do you want to contribute?

If you feel you have some relevant skills and are interested in contributing, please get in touch! You can find us in the #turing channel on the Julia Slack or Discourse. If you're having any problems, please open a Github issue, even if the problem seems small (like help figuring out an error message). Every issue you open helps us improve the library!

Contributor's Guide

This project follows the ColPrac: Contributor's Guide on Collaborative Practices for Community Packages, apart from the following slight variation:

  • The master branch contains the most recent release at any point in time. All non-breaking changes (bug fixes etc.) are merged directly into master and a new patch version is released immediately.
  • A separate dev branch contains all breaking changes, and is merged into master when a minor version release happens.

For instance, suppose we are currently on version 0.13.5.

  • If someone produces a bug fix, it is merged directly into master and bumps the version to 0.13.6. This change is also merged into dev so that it remains up-to-date with master.
  • If someone is working on a new feature that is not breaking (performance-related, fancy new syntax that is backwards-compatible etc.), the same happens.
  • New breaking changes are merged into dev until a release is ready to go, at which point dev is merged into master and version 0.14 is released.

Merge Queue

This project uses a merge queue for merging PRs. In this way, merge skew / semantic merge conflicts are prevented by testing the exact integration of pull requests before merging them.

When a PR is good enough for merging and has been approved by at least one reviewer, instead of merging immediately, it is added to the merge queue. If the CI tests pass, including downstream tests of Turing, the PR is merged into the main branch.