A Python Wrapper for Yolo
This application is tested on Ubuntu 64bit environment. Tested in python2
environment.
I have added typing
support also. Therefore you will get function suggestions when you
using this library with an IDE.
You will need git
and make
in order
to build this application.
sudo apt-get update
sudo apt-get install build-essential
sudo apt-get install git-core
Then you will need numpy
and opencv-python
packages as 3rd party python packages.
You can build OpenCV
from sources for python
and C++
and enable OpenCV
while building
darknet (Recommended way).
Or you can install OpenCV
directly from pip
. Then you won't be able to build darknet with
OpenCV
pip install opencv-python
First you need to download and build darknet.
git clone https://github.com/Ramesh-X/pyyolo.git
cd pyyolo
python setup.py build_ext
This will download darknet from its original repository and build the shared library.
You can pass the following additional options while you building the darknet sources.
# To provide custom darknet location
# If you did not provide this, darknet will be downloaded to current location
DARKNET_HOME=/home/user/darknet python setup.py build_ext
# To force rebuilding sources
REBUILD=1 python setup.py build_ext
# To enable OpenCV
OPENCV=1 python setup.py build_ext
# To enable GPU
GPU=1 python setup.py build_ext
# To enable OpenMP
OPENMP=1 python setup.py build_ext
# To enable cuDNN
CUDNN=1 python setup.py build_ext
# You can combine more than one option for building.
CUDNN=1 GPU=1 python setup.py build_ext
Then you can install the pyyolo
to the system by:
pip install -U .
The detect
function in darknet can be used to run YOLO
models. Similar function is defined in
pyyolo
module also.
I have given an example code on how to use this with YOLO
. First you need to download YOLO
weights, cfg files and meta files. YOLO
weights can be downloaded
from their website. Other files comes with darknet.
You will need to install OpenCV
to run this example.
You can download the example code and change the names_filepath
, cfg_filepath
and
weights_filepath
. Then get your image which you will need to detect objects and give
its path to image_filepath
.
You can run the code by python example.py
to visualize the output.
Same way, example2.py
is there to test this on videos.