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How to Run

We provide the running scripts in scripts/. Make sure you change the path in DATA and run the commands under CoOp/scripts/.

Few-Shot Learning

All you need is CoOp/scripts/main.sh, which contains six input arguments.

DATASET takes as input a dataset name, like imagenet or caltech101. The valid names are the files' names in CoOp/configs/datasets/.

CFG means which config file to use, such as rn50, rn101 or vit_b32 (see CoOp/configs/trainers/CoOp/). Note that for ImageNet, we use CoOp/configs/trainers/CoOp/*_ep50.yaml for all settings (please follow the implementation details shown in the paper).

Below we provide examples on how to run CoOp on Caltech101.

CLIP + CoOp (M=16, end):

  • 1 shot: bash main.sh caltech101 rn50_ep50 end 16 1 False
  • 2 shots: bash main.sh caltech101 rn50_ep100 end 16 2 False
  • 4 shots: bash main.sh caltech101 rn50_ep100 end 16 4 False
  • 8 shots: bash main.sh caltech101 rn50 end 16 8 False
  • 16 shots: bash main.sh caltech101 rn50 end 16 16 False

CLIP + CoOp (M=16, mid):

  • 1 shot: bash main.sh caltech101 rn50_ep50 middle 16 1 False
  • 2 shots: bash main.sh caltech101 rn50_ep100 middle 16 2 False
  • 4 shots: bash main.sh caltech101 rn50_ep100 middle 16 4 False
  • 8 shots: bash main.sh caltech101 rn50 middle 16 8 False
  • 16 shots: bash main.sh caltech101 rn50 middle 16 16 False

CLIP + CoOp (M=16, end, CSC):

  • 1 shot: bash main.sh caltech101 rn50_ep50 end 16 1 True
  • 2 shots: bash main.sh caltech101 rn50_ep100 end 16 2 True
  • 4 shots: bash main.sh caltech101 rn50_ep100 end 16 4 True
  • 8 shots: bash main.sh caltech101 rn50 end 16 8 True
  • 16 shots: bash main.sh caltech101 rn50 end 16 16 True

CLIP + CoOp (M=16, mid, CSC):

  • 1 shot: bash main.sh caltech101 rn50_ep50 middle 16 1 True
  • 2 shots: bash main.sh caltech101 rn50_ep100 middle 16 2 True
  • 4 shots: bash main.sh caltech101 rn50_ep100 middle 16 4 True
  • 8 shots: bash main.sh caltech101 rn50 middle 16 8 True
  • 16 shots: bash main.sh caltech101 rn50 middle 16 16 True

After the experiments are finished, you can use parse_test_res.py to calculate the average results instead of manually looking into the log files. Say the structure of output/ is

output
|–– caltech101/
|   |–– CoOp/
|   |   |–– rn50_16shots/
|   |   |   |–– nctx16_cscFalse_ctpend/
|   |   |   |   |–– seed1/
|   |   |   |   |–– seed2/
|   |   |   |   |–– seed3/
|   |   |–– rn50_8shots/
|   |   |   |–– nctx16_cscFalse_ctpend/
|   |   |   |   |–– seed1/
|   |   |   |   |–– seed2/
|   |   |   |   |–– seed3/

To calculate the average results for the folder rn50_16shots/nctx16_cscFalse_ctpend/, you can run

python parse_test_res.py output/caltech101/CoOp/rn50_16shots/nctx16_cscFalse_ctpend

Then, you will see something like this in your terminal

Parsing files in output/caltech101/CoOp/rn50_16shots/nctx16_cscFalse_ctpend
file: output/caltech101/CoOp/rn50_16shots/nctx16_cscFalse_ctpend/seed1/log.txt. accuracy: 91.81%. error: 8.19%.
file: output/caltech101/CoOp/rn50_16shots/nctx16_cscFalse_ctpend/seed2/log.txt. accuracy: 92.01%. error: 7.99%.
file: output/caltech101/CoOp/rn50_16shots/nctx16_cscFalse_ctpend/seed3/log.txt. accuracy: 92.17%. error: 7.83%.
===
Summary of directory: output/caltech101/CoOp/rn50_16shots/nctx16_cscFalse_ctpend
* accuracy: 92.00% +- 0.15%
* error: 8.00% +- 0.15%
===

How to initialize the context tokens with pre-trained word vectors? Specify the words for the parameter TRAINER.COOP.CTX_INIT in your config file. In our paper, we use configs/trainers/rn50_ctxv1.yaml (give this file to --config-file, see scripts/main.sh), which uses "a photo of a" as the initialization words.

How to visualize nearest words for the learned context tokens? All you need is interpret_prompt.py. Say the learned tokens are saved in a/b/c/prompt_learner/model.pth.tar and you would like to see the top-3 nearest words for each token. In this case, run python interpret_prompt.py a/b/c/prompt_learner/model.pth.tar 3

Robustness to Distribution Shift

To reproduce the robustness experiments, you can simply load the models learned on ImageNet and evaluate them on the following datasets: imagenetv2, imagenet-sketch, imagenet-a and imagenet-r.

The command is provided in CoOp/scripts/eval.sh. The key arguments are --model-dir, --load-epoch and --eval-only. --model-dir indicates the directory where the models are saved (i.e. the entire folder containing log.txt, the tensorboard file and prompt_learner/). --load-epoch tells the code to load the model saved at a specific epoch, like --load-epoch 50 for ImageNet (see the source code for more details).

For example, to evaluate CLIP + CoOp (M=16, end) on ImageNetV2, you can do

# Don't need to use rn5_ep50 here as no training is performed
bash eval.sh imagenetv2 rn50

The default setting is SHOTS=16. Feel free to modify the script.

Again, you can use parse_test_res.py to automate the calculation of average performance. This time you should append --test-log, e.g., python parse_test_res.py directory --test-log.

Zero-Shot CLIP

See CoOp/scripts/zeroshot.sh.

Linear Probe CLIP

Please move to lpclip/.