--- layout: developer-doc title: Polyglot Python category: polyglot tags: [polyglot, python] order: 4 --- # Polyglot Python This document provides practical example showing polyglot interoperability with Python in the runtime. Please familiarise yourself with the general operation of [polyglot bindings](./polyglot-bindings.md). - [Polyglot Library System](#polyglot-library-system) - [Using Python Libraries](#using-python-libraries) ## Polyglot Library System There is a support for using any Python library from Enso. Steps to include `numpy` in a new Enso project follows: ```bash $ enso-engine*/bin/enso --new numenso $ find numenso/ numenso/ numenso/src numenso/src/Main.enso numenso/package.yaml $ mkdir numenso/polyglot $ graalvm/bin/gu install python $ graalvm/bin/graalpy -m venv numenso/polyglot/python $ ./numenso/polyglot/python/bin/graalpy -m pip install numpy Successfully installed numpy-1.23.5 ``` The above steps instruct Enso to create a new project in `numenso` directory. Then they create Python virtual environment in `numenso/polyglot/python/` dir - e.g. in the [standard location for polyglot](../distribution/packaging.md#the-polyglot-directory) components of an Enso project. As a last step we activate the virtual environment and use `pip` manager to install `numpy` library. ## Using Python Libraries As soon as a library is installed into the [polyglot directory](#polyglot-library-system) it can be used via the [embedded syntax](polyglot-bindings.md#embedded-syntax): ```ruby foreign python random_array s = """ import numpy return numpy.random.normal(size=s) main = random_array 10 ``` Let's modify the `numenso/src/Main.enso` to use `numpy.random.normal` as shown above. Then we can simply execute the project and obtain a `numpy` array as a result: ```bash $ enso-engine*/bin/enso --run numenso array([-0.51884419, -0.23670113, -1.20493508, -0.86008709, 0.59403118, -0.171484 , -1.19455596, -0.30096434, -0.69762239, -0.11411331]) ``` The same steps can be applied to any Graal Python supported library.