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useful_tools.md

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

Log Analysis

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

python tools/analyze_logs.py plot_curve [--keys ${KEYS}] [--title ${TITLE}] [--legend ${LEGEND}] [--backend ${BACKEND}] [--style ${STYLE}] [--out ${OUT_FILE}]

loss curve image

Examples:

  • Plot the classification loss of some run.

    python tools/analyze_logs.py plot_curve log.json --keys loss_cls --legend loss_cls
  • Plot the classification and regression loss of some run, and save the figure to a pdf.

    python tools/analyze_logs.py plot_curve log.json --keys loss_cls loss_bbox --out losses.pdf
  • Compare the bbox mAP of two runs in the same figure.

    python tools/analyze_logs.py plot_curve log1.json log2.json --keys bbox_mAP --legend run1 run2
  • Compute the average training speed.

    python tools/analyze_logs.py cal_train_time log.json [--include-outliers]

    The output is expected to be like the following.

    -----Analyze train time of work_dirs/some_exp/20190611_192040.log.json-----
    slowest epoch 11, average time is 1.2024
    fastest epoch 1, average time is 1.1909
    time std over epochs is 0.0028
    average iter time: 1.1959 s/iter
    

Visualization

Visualize Datasets

tools/browse_dataset.py helps the user to browse a detection dataset (both images and bounding box annotations) visually, or save the image to a designated directory.

python tools/browse_dataset.py ${CONFIG} [-h] [--skip-type ${SKIP_TYPE[SKIP_TYPE...]}] [--output-dir ${OUTPUT_DIR}] [--not-show] [--show-interval ${SHOW_INTERVAL}]

Visualize Models

First, convert the model to ONNX as described here. Note that currently only RetinaNet is supported, support for other models will be coming in later versions. The converted model could be visualized by tools like Netron.

Visualize Predictions

If you need a lightweight GUI for visualizing the detection results, you can refer DetVisGUI project.

Error Analysis

tools/coco_error_analysis.py analyzes COCO results per category and by different criterion. It can also make a plot to provide useful information.

python tools/coco_error_analysis.py ${RESULT} ${OUT_DIR} [-h] [--ann ${ANN}] [--types ${TYPES[TYPES...]}]

Model Complexity

tools/get_flops.py is a script adapted from flops-counter.pytorch to compute the FLOPs and params of a given model.

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

You will get the results like this.

==============================
Input shape: (3, 1280, 800)
Flops: 239.32 GFLOPs
Params: 37.74 M
==============================

Note: This tool is still experimental and we do not guarantee that the number is absolutely 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. Refer to mmcv.cnn.get_model_complexity_info() for details.
  3. The FLOPs of two-stage detectors is dependent on the number of proposals.

Model conversion

MMDetection model to ONNX (experimental)

We provide a script to convert model to ONNX format. We also support comparing the output results between Pytorch and ONNX model for verification.

python tools/pytorch2onnx.py ${CONFIG_FILE} ${CHECKPOINT_FILE} --output_file ${ONNX_FILE} [--shape ${INPUT_SHAPE} --verify]

Note: This tool is still experimental. Some customized operators are not supported for now. For a detailed description of the usage and the list of supported models, please refer to pytorch2onnx.

MMDetection 1.x model to MMDetection 2.x

tools/upgrade_model_version.py upgrades a previous MMDetection checkpoint to the new version. Note that this script is not guaranteed to work as some breaking changes are introduced in the new version. It is recommended to directly use the new checkpoints.

python tools/upgrade_model_version.py ${IN_FILE} ${OUT_FILE} [-h] [--num-classes NUM_CLASSES]

RegNet model to MMDetection

tools/regnet2mmdet.py convert keys in pycls pretrained RegNet models to MMDetection style.

python tools/regnet2mmdet.py ${SRC} ${DST} [-h]

Detectron ResNet to Pytorch

tools/detectron2pytorch.py converts keys in the original detectron pretrained ResNet models to PyTorch style.

python tools/detectron2pytorch.py ${SRC} ${DST} ${DEPTH} [-h]

Prepare a model for publishing

tools/publish_model.py helps users to prepare their model for publishing.

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/publish_model.py ${INPUT_FILENAME} ${OUTPUT_FILENAME}

E.g.,

python tools/publish_model.py work_dirs/faster_rcnn/latest.pth faster_rcnn_r50_fpn_1x_20190801.pth

The final output filename will be faster_rcnn_r50_fpn_1x_20190801-{hash id}.pth.

Dataset Conversion

tools/convert_datasets/ contains tools to convert the Cityscapes dataset and Pascal VOC dataset to the COCO format.

python tools/convert_datasets/cityscapes.py ${CITYSCAPES_PATH} [-h] [--img-dir ${IMG_DIR}] [--gt-dir ${GT_DIR}] [-o ${OUT_DIR}] [--nproc ${NPROC}]
python tools/convert_datasets/pascal_voc.py ${DEVKIT_PATH} [-h] [-o ${OUT_DIR}]

Miscellaneous

Evaluating a metric

tools/eval_metric.py evaluates certain metrics of a pkl result file according to a config file.

python tools/eval_metric.py ${CONFIG} ${PKL_RESULTS} [-h] [--format-only] [--eval ${EVAL[EVAL ...]}]
                      [--cfg-options ${CFG_OPTIONS [CFG_OPTIONS ...]}]
                      [--eval-options ${EVAL_OPTIONS [EVAL_OPTIONS ...]}]

Print the entire config

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

python tools/print_config.py ${CONFIG} [-h] [--options ${OPTIONS [OPTIONS...]}]

Test the robustness of detectors

Please refer to robustness_benchmarking.md.