The bresenham module
A simple implementation of Bresenham's line drawing algorithm.
See the Wikipedia entry for details on what that is.
Note that this is a simple implementation. It is written in Pure Python (without e.g. numpy), so it is relatively slow.
I found some beauty in combining the classic algorithm (whose ingenuity lies in using only integers – a constraint that isn't really as relevant now) with a Python generator (a modern device that follows the spirit of “executable pseudocode”, abstracting away the output subroutine). I hope others can appreciate the code as well.
For serious use, look at these:
- skimage.draw.line, which solves the same problem fast.
- A Numpy-based recipe that generalizes the solution to <var>N</var> dimensions.
In a Python virtual environment, do:
python -m pip install bresenham
To install from a Git checkout (in editable mode):
python -m pip install -e.
To install without a virtual envitonment, add the
bresenham(x0, y0, x1, y1) function returns a generator of
the coordinates of the line from
(x0, y0) to
For example, the coordinates of a line from (-1, -4) to (3, 2), are:
>>> from bresenham import bresenham >>> list(bresenham(-1, -4, 3, 2)) [(-1, -4), (0, -3), (0, -2), (1, -1), (2, 0), (2, 1), (3, 2)]
You're welcome to join this project!
If you spot an issue, please report it at the Issues page on Github.
If you'd like to start changing the code or documentation, check out the code locally using:
git clone https://github.com/encukou/bresenham
If you're new to this, please read the this guide about collaborating on Github-hosted projects like this one.
If that doesn't make sense, please e-mail the author for clarification. I'd be happy to help you get started.