PythonSIFT
This is an implementation of SIFT (David G. Lowe's scale-invariant feature transform) done entirely in Python with the help of NumPy. This implementation is based on OpenCV's implementation and returns OpenCV KeyPoint
objects and descriptors, and so can be used as a drop-in replacement for OpenCV SIFT. This repository is intended to help computer vision enthusiasts learn about the details behind SIFT.
Update 2/11/2020
PythonSIFT has been reimplemented (and greatly improved!) in Python 3. You can find the original Python 2 version in the legacy
branch. However, I strongly recommend you use master
(the new Python 3 implementation). It's much better.
Dependencies
Python 3
NumPy
OpenCV-Python
Last tested successfully using Python 3.8.5
, Numpy 1.19.4
and OpenCV-Python 4.3.0
.
Usage
import cv2
import pysift
image = cv2.imread('your_image.png', 0)
keypoints, descriptors = pysift.computeKeypointsAndDescriptors(image)
It's as simple as that. Just like OpenCV.
The returned keypoints
are a list of OpenCV KeyPoint
objects, and the corresponding descriptors
are a list of 128
element NumPy vectors. They can be used just like the objects returned by OpenCV-Python's SIFT detectAndCompute
member function. Note that this code is not optimized for speed, but rather designed for clarity and ease of understanding, so it will take a few minutes to run on most images.
Tutorial
You can find a step-by-step, detailed explanation of the code in this repo in my two-part tutorial:
Implementing SIFT in Python: A Complete Guide (Part 1)
Implementing SIFT in Python: A Complete Guide (Part 2)
I'll walk you through each function, printing and plotting things along the way to develop a solid understanding of SIFT and its implementation details.
Template Matching Demo
I've adapted OpenCV's SIFT template matching demo to use PythonSIFT instead. The OpenCV images used in the demo are included in this repo for your convenience.
python template_matching_demo.py
Questions, Concerns, Bugs
Anyone is welcome to report and/or fix any bugs. I will resolve any opened issues as soon as possible.
Any questions about the implementation, no matter how simple, are welcome. I will patiently explain my code to you.
Original Paper
"Distinctive Image Features from Scale-Invariant Keypoints", David G. Lowe
Definitely worth a read!
Legal Notice
SIFT was patented, but it has expired. This repo is primarily meant for educational purposes, but feel free to use my code any way you want, commercial or otherwise. All I ask is that you cite or share this repo.
You can find the original (now expired) patent here (Inventor: David G. Lowe. Assignee: University of British Columbia.).