This code is forked from PyTorch implementations for cycle-gan.
The code was written by Jun-Yan Zhu and Taesung Park, and supported by Tongzhou Wang.
This PyTorch implementation produces results comparable to or better than our original Torch software. If you would like to reproduce the same results as in the papers, check out the original CycleGAN Torch and pix2pix Torch code
Note: The current software works well with PyTorch 0.41+. Check out the older branch that supports PyTorch 0.1-0.3.
You may find useful information in training/test tips and frequently asked questions. To implement custom models and datasets, check out our templates. To help users better understand and adapt our codebase, we provide an overview of the code structure of this repository.
CycleGAN: Project | Paper | Torch
Pix2pix: Project | Paper | Torch
EdgesCats Demo | pix2pix-tensorflow | by Christopher Hesse
If you use this code for your research, please cite:
Unpaired Image-to-Image Translation using Cycle-Consistent Adversarial Networks.
Jun-Yan Zhu*, Taesung Park*, Phillip Isola, Alexei A. Efros. In ICCV 2017. (* equal contributions) [Bibtex]
Image-to-Image Translation with Conditional Adversarial Networks.
Phillip Isola, Jun-Yan Zhu, Tinghui Zhou, Alexei A. Efros. In CVPR 2017. [Bibtex]
pix2pix slides: keynote | pdf, CycleGAN slides: pptx | pdf
CycleGAN course assignment code and handout designed by Prof. Roger Grosse for CSC321 "Intro to Neural Networks and Machine Learning" at University of Toronto. Please contact the instructor if you would like to adopt it in your course.
[Tensorflow] (by Harry Yang), [Tensorflow] (by Archit Rathore), [Tensorflow] (by Van Huy), [Tensorflow] (by Xiaowei Hu), [Tensorflow-simple] (by Zhenliang He), [TensorLayer] (by luoxier), [Chainer] (by Yanghua Jin), [Minimal PyTorch] (by yunjey), [Mxnet] (by Ldpe2G), [lasagne/keras] (by tjwei)
[Tensorflow] (by Christopher Hesse), [Tensorflow] (by Eyyüb Sariu), [Tensorflow (face2face)] (by Dat Tran), [Tensorflow (film)] (by Arthur Juliani), [Tensorflow (zi2zi)] (by Yuchen Tian), [Chainer] (by mattya), [tf/torch/keras/lasagne] (by tjwei), [Pytorch] (by taey16)
- Linux or macOS
- Python 3
- CPU or NVIDIA GPU + CUDA CuDNN
- Clone this repo:
git clone https://github.com/junyanz/pytorch-CycleGAN-and-pix2pix
cd pytorch-CycleGAN-and-pix2pix
- Install [PyTorch](http://pytorch.org and) 0.4+ and other dependencies (e.g., torchvision, visdom and dominate).
- For pip users, please type the command
pip install -r requirements.txt
. - For Conda users, we provide a installation script
./scripts/conda_deps.sh
. Alternatively, you can create a new Conda environment usingconda env create -f environment.yml
. - For Docker users, we provide the pre-built Docker image and Dockerfile. Please refer to our Docker page.
- For pip users, please type the command
- Download a CycleGAN dataset (e.g. maps):
bash ./datasets/download_cyclegan_dataset.sh maps
- To view training results and loss plots, run
python -m visdom.server
and click the URL http://localhost:8097. - Train a model:
#!./scripts/train_cyclegan.sh
python train.py --dataroot ./datasets/maps --name maps_cyclegan --model cycle_gan
To see more intermediate results, check out ./checkpoints/maps_cyclegan/web/index.html
.
- Test the model:
#!./scripts/test_cyclegan.sh
python test.py --dataroot ./datasets/maps --name maps_cyclegan --model cycle_gan
- The test results will be saved to a html file here:
./results/maps_cyclegan/latest_test/index.html
.
- Download a pix2pix dataset (e.g.facades):
bash ./datasets/download_pix2pix_dataset.sh facades
- Train a model:
#!./scripts/train_pix2pix.sh
python train.py --dataroot ./datasets/facades --name facades_pix2pix --model pix2pix --direction BtoA
-
To view training results and loss plots, run
python -m visdom.server
and click the URL http://localhost:8097. To see more intermediate results, check out./checkpoints/facades_pix2pix/web/index.html
. -
Test the model (
bash ./scripts/test_pix2pix.sh
):
#!./scripts/test_pix2pix.sh
python test.py --dataroot ./datasets/facades --name facades_pix2pix --model pix2pix --direction BtoA
- The test results will be saved to a html file here:
./results/facades_pix2pix/test_latest/index.html
. You can find more scripts atscripts
directory. - To train and test pix2pix-based colorization models, please add
--model colorization
and--dataset_mode colorization
. See our training tips for more details.
- You can download a pretrained model (e.g. horse2zebra) with the following script:
bash ./scripts/download_cyclegan_model.sh horse2zebra
- The pretrained model is saved at
./checkpoints/{name}_pretrained/latest_net_G.pth
. Check here for all the available CycleGAN models. - To test the model, you also need to download the horse2zebra dataset:
bash ./datasets/download_cyclegan_dataset.sh horse2zebra
- Then generate the results using
python test.py --dataroot datasets/horse2zebra/testA --name horse2zebra_pretrained --model test --no_dropout
-
The option
--model test
is used for generating results of CycleGAN only for one side. This option will automatically set--dataset_mode single
, which only loads the images from one set. On the contrary, using--model cycle_gan
requires loading and generating results in both directions, which is sometimes unnecessary. The results will be saved at./results/
. Use--results_dir {directory_path_to_save_result}
to specify the results directory. -
For your own experiments, you might want to specify
--netG
,--norm
,--no_dropout
to match the generator architecture of the trained model.
Download a pre-trained model with ./scripts/download_pix2pix_model.sh
.
- Check here for all the available pix2pix models. For example, if you would like to download label2photo model on the Facades dataset,
bash ./scripts/download_pix2pix_model.sh facades_label2photo
- Download the pix2pix facades datasets:
bash ./datasets/download_pix2pix_dataset.sh facades
- Then generate the results using
python test.py --dataroot ./datasets/facades/ --direction BtoA --model pix2pix --name facades_label2photo_pretrained
-
Note that we specified
--direction BtoA
as Facades dataset's A to B direction is photos to labels. -
If you would like to apply a pre-trained model to a collection of input images (rather than image pairs), please use
--model test
option. See./scripts/test_single.sh
for how to apply a model to Facade label maps (stored in the directoryfacades/testB
). -
See a list of currently available models at
./scripts/download_pix2pix_model.sh
We provide the pre-built Docker image and Dockerfile that can run this code repo. See docker.
Download pix2pix/CycleGAN datasets and create your own datasets.
Best practice for training and testing your models.
Before you post a new question, please first look at the above Q & A and existing GitHub issues.
If you plan to implement custom models and dataset for your new applications, we provide a dataset template and a model template as a starting point.
To help users better understand and use our code, we briefly overview the functionality and implementation of each package and each module.
You are always welcome to contribute to this repository by sending a pull request.
Please run flake8 --ignore E501 .
and python ./scripts/test_before_push.py
before you commit the code. Please also update the code structure overview accordingly if you add or remove files.
If you use this code for your research, please cite our papers.
@inproceedings{CycleGAN2017,
title={Unpaired Image-to-Image Translation using Cycle-Consistent Adversarial Networkss},
author={Zhu, Jun-Yan and Park, Taesung and Isola, Phillip and Efros, Alexei A},
booktitle={Computer Vision (ICCV), 2017 IEEE International Conference on},
year={2017}
}
@inproceedings{isola2017image,
title={Image-to-Image Translation with Conditional Adversarial Networks},
author={Isola, Phillip and Zhu, Jun-Yan and Zhou, Tinghui and Efros, Alexei A},
booktitle={Computer Vision and Pattern Recognition (CVPR), 2017 IEEE Conference on},
year={2017}
}
CycleGAN-Torch | pix2pix-Torch | pix2pixHD | iGAN | BicycleGAN | vid2vid
If you love cats, and love reading cool graphics, vision, and learning papers, please check out the Cat Paper Collection.
Our code is inspired by pytorch-DCGAN.