Skip to content

Latest commit

 

History

History
245 lines (168 loc) · 6.82 KB

useful_tools.md

File metadata and controls

245 lines (168 loc) · 6.82 KB

[WIP] Useful Tools

Apart from training/testing scripts, We provide lots of useful tools under the tools/ directory.

Analysis Tools

Plot training logs

tools/analyze_logs.py plots loss/mIoU curves given a training log file. pip install seaborn first to install the dependency.

python tools/analysis_tools/analyze_logs.py xxx.json [--keys ${KEYS}] [--legend ${LEGEND}] [--backend ${BACKEND}] [--style ${STYLE}] [--out ${OUT_FILE}]

Examples:

  • Plot the mIoU, mAcc, aAcc metrics.

    python tools/analysis_tools/analyze_logs.py log.json --keys mIoU mAcc aAcc --legend mIoU mAcc aAcc
  • Plot loss metric.

    python tools/analysis_tools/analyze_logs.py log.json --keys loss --legend loss

Confusion Matrix (experimental)

In order to generate and plot a nxn confusion matrix where n is the number of classes, you can follow the steps:

1.Generate a prediction result in pkl format using test.py

python tools/test.py ${CONFIG_FILE} ${CHECKPOINT_FILE} [--out ${PATH_TO_RESULT_FILE}]

Example:

python tools/test.py \
configs/fcn/fcn_r50-d8_4xb2-40k_cityscapes-512x1024.py \
checkpoint/fcn_r50-d8_512x1024_40k_cityscapes_20200604_192608-efe53f0d.pth \
--out result/pred_result.pkl

2. Use confusion_matrix.py to generate and plot a confusion matrix

python tools/confusion_matrix.py ${CONFIG_FILE} ${PATH_TO_RESULT_FILE} ${SAVE_DIR} --show

Description of arguments:

  • config: Path to the test config file.
  • prediction_path: Path to the prediction .pkl result.
  • save_dir: Directory where confusion matrix will be saved.
  • --show: Enable result visualize.
  • --color-theme: Theme of the matrix color map.
  • --cfg_options: Custom options to replace the config file.

Example:

python tools/confusion_matrix.py \
configs/fcn/fcn_r50-d8_512x1024_40k_cityscapes.py \
result/pred_result.pkl \
result/confusion_matrix \
--show

Get the FLOPs and params (experimental)

We provide a script adapted from flops-counter.pytorch to compute the FLOPs and params of a given model.

python tools/analysis_tools/get_flops.py ${CONFIG_FILE} [--shape ${INPUT_SHAPE}]

You will get the result like this.

==============================
Input shape: (3, 2048, 1024)
Flops: 1429.68 GMac
Params: 48.98 M
==============================

:::{note} This tool is still experimental and we do not guarantee that the number is correct. You may well use the result for simple comparisons, but double check it before you adopt it in technical reports or papers. :::

(1) FLOPs are related to the input shape while parameters are not. The default input shape is (1, 3, 1280, 800). (2) Some operators are not counted into FLOPs like GN and custom operators.

Miscellaneous

Publish a model

Before you upload a model to AWS, you may want to (1) convert model weights to CPU tensors, (2) delete the optimizer states and (3) compute the hash of the checkpoint file and append the hash id to the filename.

python tools/misc/publish_model.py ${INPUT_FILENAME} ${OUTPUT_FILENAME}

E.g.,

python tools/publish_model.py work_dirs/pspnet/latest.pth psp_r50_512x1024_40k_cityscapes.pth

The final output filename will be psp_r50_512x1024_40k_cityscapes-{hash id}.pth.

Print the entire config

tools/misc/print_config.py prints the whole config verbatim, expanding all its imports.

python tools/misc/print_config.py \
  ${CONFIG} \
  --graph \
  --cfg-options ${OPTIONS [OPTIONS...]} \

Description of arguments:

  • config : The path of a pytorch model config file.
  • --graph : Determines whether to print the models graph.
  • --cfg-options: Custom options to replace the config file.

Model conversion

tools/model_converters/ provide several scripts to convert pretrain models released by other repos to MMSegmentation style.

ViT Swin MiT Transformer Models

  • ViT

    tools/model_converters/vit2mmseg.py convert keys in timm pretrained vit models to MMSegmentation style.

    python tools/model_converters/vit2mmseg.py ${SRC} ${DST}
  • Swin

    tools/model_converters/swin2mmseg.py convert keys in official pretrained swin models to MMSegmentation style.

    python tools/model_converters/swin2mmseg.py ${SRC} ${DST}
  • SegFormer

    tools/model_converters/mit2mmseg.py convert keys in official pretrained mit models to MMSegmentation style.

    python tools/model_converters/mit2mmseg.py ${SRC} ${DST}

Model Serving

In order to serve an MMSegmentation model with TorchServe, you can follow the steps:

1. Convert model from MMSegmentation to TorchServe

python tools/torchserve/mmseg2torchserve.py ${CONFIG_FILE} ${CHECKPOINT_FILE} \
--output-folder ${MODEL_STORE} \
--model-name ${MODEL_NAME}

:::{note} ${MODEL_STORE} needs to be an absolute path to a folder. :::

2. Build mmseg-serve docker image

docker build -t mmseg-serve:latest docker/serve/

3. Run mmseg-serve

Check the official docs for running TorchServe with docker.

In order to run in GPU, you need to install nvidia-docker. You can omit the --gpus argument in order to run in CPU.

Example:

docker run --rm \
--cpus 8 \
--gpus device=0 \
-p8080:8080 -p8081:8081 -p8082:8082 \
--mount type=bind,source=$MODEL_STORE,target=/home/model-server/model-store \
mmseg-serve:latest

Read the docs about the Inference (8080), Management (8081) and Metrics (8082) APIs

4. Test deployment

curl -O https://raw.githubusercontent.com/open-mmlab/mmsegmentation/master/resources/3dogs.jpg
curl http://127.0.0.1:8080/predictions/${MODEL_NAME} -T 3dogs.jpg -o 3dogs_mask.png

The response will be a ".png" mask.

You can visualize the output as follows:

import matplotlib.pyplot as plt
import mmcv
plt.imshow(mmcv.imread("3dogs_mask.png", "grayscale"))
plt.show()

You should see something similar to:

3dogs_mask

And you can use test_torchserve.py to compare result of torchserve and pytorch, and visualize them.

python tools/torchserve/test_torchserve.py ${IMAGE_FILE} ${CONFIG_FILE} ${CHECKPOINT_FILE} ${MODEL_NAME}
[--inference-addr ${INFERENCE_ADDR}] [--result-image ${RESULT_IMAGE}] [--device ${DEVICE}]

Example:

python tools/torchserve/test_torchserve.py \
demo/demo.png \
configs/fcn/fcn_r50-d8_512x1024_40k_cityscapes.py \
checkpoint/fcn_r50-d8_512x1024_40k_cityscapes_20200604_192608-efe53f0d.pth \
fcn