This repository contains the code (in Torch) for the paper:
Arbitrary Style Transfer in Real-time with Adaptive Instance Normalization
Xun Huang,
Serge Belongie
ICCV 2017 (Oral)
This paper proposes the first real-time style transfer algorithm that can transfer arbitrary new styles, in contrast to a single style or 32 styles. Our algorithm runs at 15 FPS with 512x512 images on a Pascal Titan X. This is around 720x speedup compared with the original algorithm of Gatys et al., without sacrificing any flexibility. We accomplish this with a novel adaptive instance normalization (AdaIN) layer, which is similar to instance normalization but with affine parameters adaptively computed from the feature representations of an arbitrary style image.
Optionally:
- CUDA and cuDNN
- cunn
- torch.cudnn
- ffmpeg (for video)
bash models/download_models.sh
This command will download a pre-trained decoder as well as a modified VGG-19 network. Our style transfer network consists of the first few layers of VGG, an AdaIN layer, and the provided decoder.
Use -content
and -style
to provide the respective path to the content and style image, for example:
th test.lua -content input/content/cornell.jpg -style input/style/woman_with_hat_matisse.jpg
You can also run the code on directories of content and style images using -contentDir
and -styleDir
. It will save every possible combination of content and styles to the output directory.
th test.lua -contentDir input/content -styleDir input/style
Some other options:
-crop
: Center crop both content and style images beforehand.-contentSize
: New (minimum) size for the content image. Keeping the original size if set to 0.-styleSize
: New (minimum) size for the content image. Keeping the original size if set to 0.
To see all available options, type:
th test.lua -help
Use -alpha
to adjust the degree of stylization. It should be a value between 0 and 1 (default). Example usage:
th test.lua -content input/content/chicago.jpg -style input/style/asheville.jpg -alpha 0.5 -crop
By changing -alpha
, you should be able to reproduce the following results.
Add -preserveColor
to preserve the color of the content image. Example usage:
th test.lua -content input/content/newyork.jpg -style input/style/brushstrokes.jpg -contentSize 0 -styleSize 0 -preserveColor
It is possible to interpolate between several styles using -styleInterpWeights
that controls the relative weight of each style. Note that you also to need to provide the same number of style images separated be commas. Example usage:
th test.lua -content input/content/avril.jpg \
-style input/style/picasso_self_portrait.jpg,input/style/impronte_d_artista.jpg,input/style/trial.jpg,input/style/antimonocromatismo.jpg \
-styleInterpWeights 1,1,1,1 -crop
You should be able to reproduce the following results shown in our paper by changing -styleInterpWeights
.
Use -mask
to provide the path to a binary foreground mask. You can transfer the foreground and background of the content image to different styles. Note that you also to need to provide two style images separated be comma, in which the first one is applied to foreground and the second one is applied to background. Example usage:
th test.lua -content input/content/blonde_girl.jpg -style input/style/woman_in_peasant_dress_cropped.jpg,input/style/mondrian_cropped.jpg \
-mask input/mask/mask.png -contentSize 0 -styleSize 0
Use styVid.sh
to process videos, example usage:
th testVid.lua -contentDir videoprocessing/${filename} -style ${styleimage} -outputDir videoprocessing/${filename}-${stylename}
This generates 1 mp4 for each image present in style-dir-path
. Other video formats are also supported. To change other parameters like alpha, edit line 53 of styVid.sh
. An example video with some results can be seen here on youtube.
- Download MSCOCO images and Wikiart images.
- Use
th train.lua -contentDir COCO_TRAIN_DIR -styleDir WIKIART_TRAIN_DIR
to start training with default hyperparameters. ReplaceCOCO_TRAIN_DIR
with the path to COCO training images andWIKIART_TRAIN_DIR
with the path to Wikiart training images. The default hyperparameters are the same as the ones used to traindecoder-content-similar.t7
. To reproduce the results fromdecoder.t7
, add-styleWeight 1e-1
.
If you find this code useful for your research, please cite the paper:
@inproceedings{huang2017adain,
title={Arbitrary Style Transfer in Real-time with Adaptive Instance Normalization},
author={Huang, Xun and Belongie, Serge},
booktitle={ICCV},
year={2017}
}
This project is inspired by many existing style transfer methods and their open-source implementations, including:
- Image Style Transfer Using Convolutional Neural Networks, Gatys et al. [code (by Johnson)]
- Perceptual Losses for Real-Time Style Transfer and Super-Resolution, Johnson et al. [code]
- Improved Texture Networks: Maximizing Quality and Diversity in Feed-forward Stylization and Texture Synthesis, Ulyanov et al. [code]
- A Learned Representation For Artistic Style, Dumoulin et al. [code]
- Fast Patch-based Style Transfer of Arbitrary Style, Chen and Schmidt [code]
- Controlling Perceptual Factors in Neural Style Transfer, Gatys et al. [code]
If you have any questions or suggestions about the paper, feel free to reach me ([email protected]).