Python game programming in Jupyter notebooks.
Project description
Jupylet
Jupylet is a Python library that lets you create 2D and 3D games, graphics, music and sound synthesizers, interactively in a Jupyter notebook. It is intended for three types of audiences:
- Computer scientists, researchers, and students of deep reinforcement learning.
- Musicians interested in sound synthesis and live music coding.
- Kids and their parents interested in learning to program.
Jupylet for Kids
A Jupyter notebook is in essence a laboratory for programming. It is the ideal environment for playing around with code, experimenting, and exploring ideas. It is used by professional machine learning scientists who come every day to play at work, so why not by kids?
Jupylet is wonderfully easy to use for creating simple 2D and 3D games and music interactively and experimentally. Change a variable or a function and see how the game is affected immediately while running.
Jupylet for Deep Reinforcement Learning
Jupylet makes it is super easy to create and modify environments in which to experiment with deep reinforcement learning algorithms and it includes the API to programmatically control multiple simultaneous games and render thousands of frames per second.
Consider for example the pong game included in this code base. With a few lines of code you can modify the colors of the game to experiment with transfer learning, or turn the game into 4-way pong with agents on all four sides of the game court to experiment with cooperation between multiple agents. And since you can modify the game interactively in Jupyter this process is not only easy but also fun.
Check out the Programming Graphics and the Reinforcement Learning chapters in the Jupylet Programmer's Reference Guide.
Jupylet for Musicians
Jupylet imports ideas and methods from machine learning into the domain of sound synthesis to easily let you create sound synthesizers as wild as you can dream up - it includes impulse response reverb effects, colored noise generators, resonant filters with cutoff frequency sweeping, oscillators with LFO modulation, multi sampled instruments, and much more... And all of it in pure Python for you to modify and experiment with.
In addition Jupylet draws inspiration from the wonderful Sonic Pi and brings live loops and live music coding to Jupyter and Python. Hook up your MIDI keyboard and take off.
Check out the Programming Sound and Music and the Programming Synthesizers chapters in the Jupylet Programmer's Reference Guide.
Requirements
jupylet should run on Python 3.6+ on Windows, Mac, and Linux.
How to Install and Run Jupylet
If you are new to Python, I strongly recommend that you install and use the Miniconda Python distribution. Download and run the 64-bit installer and stick to the default install options.
⚠️ NOTE On Mac OS X follow carefully the Miniconda installation instructions. |
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Once Miniconda is installed start a Miniconda Prompt. To do this on Windows
click the ⊞ Winkey
then type Miniconda and press the
Enter
key. This should open a small dark window that programmers
call console or shell in which you can enter commands and run programs.
To run jupylet first install it by typing the following command in the console:
pip install jupylet
To install it with MIDI support type the following command instead:
pip install jupylet[midi]
If you are using Python 3.8 on Windows you also need to run following command:
python -m jupylet postinstall
Next, if you want to run the example notebooks, download the jupylet code base. If you have Git installed type the following command:
git clone https://github.com/nir/jupylet.git
Alternatively, you can download and unzip the jupylet code base by copying-pasting the following commands into the console:
python -m wget https://github.com/nir/jupylet/archive/master.zip
python -m zipfile -e jupylet-master.zip .
move jupylet-master jupylet
⚠️ NOTE On Mac OS X or Linux type mv instead of move in the command above. |
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Next, enter the jupylet/examples/ directory with the change directory command:
cd jupylet/examples/
And start a jupyter notebook with:
jupyter notebook 11-spaceship.ipynb
Run the notebook by following the instructions in the notebook and a game canvas should appear with the spaceship example:
Alternatively, you can run the same game as a Python script from the console with:
python spaceship.py
Documentation
To get started with Jupylet head over to the Jupylet Programmer's Reference Guide which you can find at jupylet.readthedocs.io.
To complement the online guide check out the growing collection of example notebooks that you can download and run on your computer as explained above.
Contact
For questions and feedback send an email to Nir Aides.
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