Oogli is Beautiful
Object Oriented Graphics Library Interface written in Python
I was dissatisfied with difficulty in producing easy to read and understand OpenGL code. This small library helps eliminate some of the boilerplate inherent within OpenGL's API. Oogli greatly simplifies the interface while still providing access to the underlying GLFW3 and OpenGL API.
This package is released as Apache 2.0 license.
However, at your option, you may apply any OSI approved free software license you choose provided that you adhere to the free software license chosen and additionally follow these criteria:
a. list the author's name of this software as a contributor to your final product
b. provide credit to your end user of your product or software without your end user asking for where you obtained your software
c. notify the author of this software that you are using this software
d. If you believe there can be some benefit in providing your changes upstream, you'll submit a change request. While this criteria is completely optional, please consider not being a dick.
Oogli was designed with GLFW-CFFI in mind and uses the API provided by GLFW-CFFI. In addition, Oogli uses numpy.
Install via pip install oogli
.
Install via pip install glfw-cffi
.
Install via pip install numpy
.
GLFW3 is available for several different platforms:
- Ubuntu/Debian:
sudo apt-get install -y libglfw3-dev
- Fedora/Red Hat:
sudo yum install -y libglfw3-dev
- Mac OS X with Homebrew:
brew install glfw3
- Windows: There is an installer available 64-bit Windows or 32-bit Windows
GLFW3 is relatively new, so some older installations of Linux may not have
libglfw
directly available. You may check out the travis.yml
file within our github repo for more information on setup on older systems.
This is the required code to produce a shaded triangle using oogli:
import oogli
v_shader = '''
#version 150
in vec2 vertices;
void main () {
gl_Position = vec4(vertices, 0.0, 1.0);
}
'''
f_shader = '''
#version 150
out vec4 frag_color;
void main () {
frag_colour = vec4(0.3, 1.0, 0.3, 1.0);
}
'''
# Create a program from the shaders
# Note: This will auto request an OpenGL context of 4.1
program = oogli.Program(v_shader, f_shader)
# Vertices for a 2D Triangle
triangle = [(0.0, 0.5), (-0.5, 0.5), (-0.5, -0.5)]
with oogli.Window('Oogli', 640, 480) as win:
# Main Loop
while win.should_run()
# Render triangle
program.draw(vertices=triangle)
More complex examples can be found within the examples folder on the github repo.
Contributions are welcome. When opening a PR, please keep the following guidelines in mind:
- Before implementing, please open an issue for discussion.
- Make sure you have tests for the new logic.
- Make sure your code passes
flake8
- Add yourself to contributors at
README.md
and/or your contributions.
- Brian Bruggeman - Originator