Update 03/21: Paper accepted at CVPR 2021 !
Code for the paper : "Few-Shot Segmentation Without Meta-Learning: A Good Transductive Inference Is All You Need?", freely available at https://arxiv.org/abs/2012.06166:
- Software :
- torch==1.7.0
- numpy==1.18.4
- cv2==4.2.0
- pyyaml==5.3.1
For both training and testing, metrics monitoring is done through visdom_logger (https://github.com/luizgh/visdom_logger). To install this package with pip, use the following command:
pip install git+https://github.com/luizgh/visdom_logger.git
- Hardware : If you plan to train, 24GB memory (can be split across GPUS). For testing only, a single 12 GB GPU is enough.
We provide the versions of Pascal-VOC 2012 and MS-COCO 2017 used in this work at icloud drive. Because of the size of the data folder, it's been sharded. Download all the shard, and use the cat command to reform the original file before extracting. Here is the structure of the data folder for you to reproduce:
data
├── coco
│ ├── annotations
│ ├── train
│ ├── train2014
│ ├── val
│ └── val2014
└── pascal
| ├── JPEGImages
| └── SegmentationClassAug
Pascal : The JPEG images can be found in the PascalVOC 2012 toolkit to be downloaded at PascalVOC2012 and SegmentationClassAug (pre-processed ground-truth masks).
Coco : Coco 2014 train, validation images and annotations can be downloaded at Coco. Once this is done, you will have to generate the subfolders coco/train and coco/val (ground truth masks). Both folders can be generated by executing the python script data/coco/create_masks.py (note that the script uses the package pycocotools that can be found at https://github.com/cocodataset/cocoapi/tree/master/PythonAPI/pycocotools):
python
cd data/coco
python create_masks.py
The train/val splits are directly provided in lists/. How they were obtained is explained at https://github.com/Jia-Research-Lab/PFENet
We directly provide the full pre-trained models at icloud drive. You can download them and directly extract them at the root of this repo. This includes Resnet50 and Resnet101 backbones on Pascal-5i, and Resnet50 on Coco-20i.
Data are located in data/. All the code is provided in src/. Default configuration files can be found in config_files/. Training and testing scripts are located in scripts/. Lists/ contains the train/validation splits for each dataset.
If you want to use the pre-trained models, this step is optional. Otherwise, you will need to create and fill the initmodel/ folder with imagenet-pretrained models, as explained in https://github.com/dvlab-research/PFENet. Then, you can train your own models from scratch with the scripts/train.sh script, as follows.
bash scripts/train.sh {data} {fold} {[gpu_ids]} {layers}For instance, if you want to train a Resnet50-based model on the fold-0 of Pascal-5i on GPU 1, use:
bash scripts/train.sh pascal 0 [1] 50Note that this code supports distributed training. If you want to train on multiple GPUs, you may simply replace [1] in the previous examples with the list of gpus_id you want to use.
To test your models, use the scripts/test.sh script, the general synthax is:
bash scripts/test.sh {data} {shot} {[gpu_ids]} {layers}This script will test successively on all folds of the current dataset. Below are presented specific commands for several experiments.
Results :
| (1 shot/5 shot) | Arch | Fold-0 | Fold-1 | Fold-2 | Fold-3 | Mean |
|---|---|---|---|---|---|---|
| RePRI | Resnet-50 | 60.2 / 64.5 | 67.0 / 70.8 | 61.7 / 71.7 | 47.5 / 60.3 | 59.1 / 66.8 |
| Oracle-RePRI | Resnet-50 | 72.4 / 75.1 | 78.0 / 80.8 | 77.1 / 81.4 | 65.8 / 74.4 | 73.3 / 77.9 |
| RePRI | Resnet-101 | 59.6 / 66.2 | 68.3 / 71.4 | 62.2 / 67.0 | 47.2 / 57.7 | 59.4 / 65.6 |
| Oracle-RePRI | Resnet-101 | 73.9 / 76.8 | 79.7 / 81.7 | 76.1 / 79.5 | 65.1 / 74.5 | 73.7 / 78.1 |
Command:
bash scripts/test.sh pascal 1 [0] 50 # 1-shot
bash scripts/test.sh pascal 5 [0] 50 # 5-shotResults :
| (1 shot/5 shot) | Arch | Fold-0 | Fold-1 | Fold-2 | Fold-3 | Mean |
|---|---|---|---|---|---|---|
| RePRI | Resnet-50 | 31.2 / 38.5 | 38.1 / 46.2 | 33.3 / 40.0 | 33.0 / 43.6 | 34.0/42.1 |
| Oracle-RePRI | Resnet-50 | 49.3 / 51.5 | 51.4 / 60.8 | 38.2 / 54.7 | 41.6 / 55.2 | 45.1 / 55.5 |
Command :
bash scripts/test.sh coco 1 [0] 50 # 1-shot
bash scripts/test.sh coco 5 [0] 50 # 5-shotThe folds used for cross-domain experiments are presented in the image below:
Results :
| (1 shot/5 shot) | Arch | Fold-0 | Fold-1 | Fold-2 | Fold-3 | Mean |
|---|---|---|---|---|---|---|
| RePRI | Resnet-50 | 52.2 / 56.5 | 64.3 / 68.2 | 64.8 / 70.0 | 71.6 / 76.2 | 63.2 / 67.7 |
| Oracle-RePRI | Resnet-50 | 69.6 / 73.5 | 71.7 / 74.9 | 77.6 / 82.2 | 86.2 / 88.1 | 76.2 / 79.7 |
Command :
bash scripts/test.sh coco2pascal 1 [0] 50 # 1-shot
bash scripts/test.sh coco2pascal 5 [0] 50 # 5-shotThis code offers two options to visualize/plot metrics during training
For both training and testing, you can monitor metrics using visdom_logger (https://github.com/luizgh/visdom_logger). To install this package, simply clone the repo and install it with pip:
git clone https://github.com/luizgh/visdom_logger.git
pip install -e visdom_logger
Then, you need to start a visdom server with:
python -m visdom.server -port 8098
Finally, add the line visdom_port 8098 in the options in scripts/train.sh or scripts/test.sh, and metrics will be displayed at this port. You can monitor them through your navigator.
Alternatively, this code also saves important metrics (training loss, accuracy and validation loss and accuracy) as training progresses in the form of numpy files (.npy). Then, you can plot these metrics with:
bash scripts/plot_training.sh model_ckptFor further questions or details, please post an issue or directly reach out to Malik Boudiaf (malik.boudiaf.1@etsmtl.net)
We gratefully thank the authors of https://github.com/Jia-Research-Lab/PFENet, as well as https://github.com/hszhao/semseg from which some parts of our code are inspired.