Video Representations Extractor (VRE) for computing algorithmic or neural representations of each frame.
Project description
Video Representation Extractor
1. Description
The purpose of this repository is to export various representations starting from RGB videos only. Representations are defined as ways of 'looking at the world'. One can watch at various levels of information:
- low level: colors, edges
- mid level: depth, orientation of planes (normals)
- high level: semantics and actions
For GitHub users: this is a mirror of the gitlab repository.
Supported representations
- See here for a comprehensive list, since it updates faster than this README.
Weights are stored in this directory using git-lfs
: weights dir. If you just want to download
the code, without the weights resources, use GIT_LFS_SKIP_SMUDGE=1 git clone ...
.
2. Usage & Installation
2.1 Google Colab
Here's is a recent google colab run: link that is based in this examples notebook.
2.2 Local installation
Using the VRE CLI tool is as simple as:
vre <path/to/video.mp4> --config_path <path/to/cfg> -o <path/to/export_dir>
Relevant env variables
VRE_WEIGHTS_DIR
The path where the weights are downloaded from the weights repository. If not set, will be defaulted in the root of the project in a resources dir.VRE_DEVICE
Some default cfgs will use this to set the device of representations. Usage is:VRE_DEVICE=cuda CUDA_VISIBLE_DEVICES=0 vre ...
. You can of course update the yaml config files to not use this pattern.
For testing that the installation works, we recommend you to run with this test video first:
mkdir example/
chmod 777 -R example/ # required only for docker
curl "https://gitlab.com/video-representations-extractor/video-representations-extractor/-/raw/master/resources/test_video.mp4" \
-o example/video.mp4 # you can of course use any video, not just our test one
curl https://gitlab.com/video-representations-extractor/video-representations-extractor/-/raw/master/test/end_to_end/imgur/cfg.yaml -o example/cfg.yaml
2.2.1 Pip
conda create -n vre python=3.11 anaconda # >=3.10 tested
pip install video-representations-extractor
[VRE_DEVICE=cuda CUDA_VISIBLE_DEVICES=0] vre example/video.mp4 --connfig_path example/cfg.yaml -o example
2.2.2 Docker
We offer a pre-pushed VRE image in dockerhub.
docker run -v `pwd`/example:/app/example -v `pwd`/resources/weights:/app/weights \
--gpus all -e VRE_DEVICE='cuda' -e VRE_WEIGHTS_DIR=/app/weights \
meehai/vre:latest /app/example/video.mp4 \
--config_path /app/example/cfg.yaml -o /app/example/output_dir --start_frame 100 --end_frame 101
Note: For the --gpus all -e VRE_DEVICE='cuda'
part to work, you need to install nvidia-container-toolkit
as well.
Check NVIDIA's documentation for this. If you are only on a CPU machine, then remove them from the docker run command.
2.2.3 Development
You can, of course, clone this repository and add it to your path for development:
conda create -n vre python=3.11 anaconda # >=3.10 tested
[GIT_LFS_SKIP_SMUDGE=1] git clone https://gitlab.com/video-representations-extractor/video-representations-extractor [/local/vre/dir]
pip install -r /local/vre/dir/requirements.txt # there's a setup.py file too if you wish
# Add the paths in `~/.bashrc` so it can be accessed globally from the terminal
export PYTHONPATH="$PYTHONPATH:/local/vre/dir"
export PATH="$PATH:/local/vre/dir/cli"
# Check that the installation worked
pytest /local/vre/dir/test # requires that pytest is installed
[VRE_DEVICE=cuda CUDA_VISIBLE_DEVICES=0] bash test/end_to_end/imgur/run.sh # run the e2e test
[VRE_DEVICE=cuda CUDA_VISIBLE_DEVICES=0] vre example/video.mp4 --connfig_path example/cfg.yaml -o example
2.3 Single image usage
You can get the representations for a single image (or a directory of images) by placing your image in a standalone directory.
vre <path/to/dir_of_images> --config_path <path/to/cfg> -o <path/to/export_dir>
3. Details about inputs and outputs
3.1 Video
Any video format that is supported by ffmpeg
. Representations were mostly tested on UAV-like videos, but they should
be fine for self driving videos or even indoor handheld videos.
3.2 Config file
The config file will have the hyperparameters required to instantiate each supported method as well as global hyperparameters for the output. These parameters are sent to the constructor of each representation, so one can pass additional semantics to each representation, such as classes of a semantic segmentation or the maximum global depth value in meters.
High level format:
name_of_representation: # spaces work too in the name but it's less desired due to other tools having issues
type: some high level type (such as depth/dpt, semantic/mask2former, edges/dexined etc.)
dependencies: [a list of dependencies given by their names]
parameters: # as defined in the constructor of the implementation
param1: value1
param2: value2
learned_parameters: # applies only to representations that are learned and require weights (only torch atm)
device: "cuda" # for representations that have in their vre_setup() method a model.to(device) call
name_of_representation_2:
type: some other type
name: some other method
dependencies: [name_of_representation] # since this representation depends on the prev one, it'll be computed after
parameters: []
compute_paramters:
batch_size: 5 # overwrite the global default (that is 1)
io_parameters:
image_format: not-set
binary_format: npy # overwrite the global default (that is npz)
compress: False
Example cfg file: See out of the box supported representations and the CFG defined in the CI process for an actual export that is done at every commit on a real video.
Note: If the topological sort fails (because of cycle dependencies), an error will be thrown.
3.3. Output format
All the outputs are going to be stored in the output directory (--output_dir/-o
) with one file for each frame.
A subdirectory will be created for each representation. We have 2 options right now: binary_format (npz or npy only) and
image_format (png, jpg, whatever is supported by the PIL writer etc.) though we might merge this into a single
'exporter' thsat will receive a list of possible output formats for each representation.
For the above CFG file, 2 subdirectories will be created:
/path/to/output_dir/
name_of_representation/
npz/ # if binary_format=='npz'
1.npz, ..., N.npz
png/ # if image_format=='png'
1.png, ..., N.png
name_of_representation_2/
npz/
1.npz, ..., N.npz
The cfg.yaml
file for each representation is created so that we know what parameters were used for that
representation.
4. CLI tools
In the cli/ dir we have a bunch of exported tools, besides vre
itself.
4.1 vre_collage
vre_collage
that takes all the image files (png, jpg etc.) from an output_dir as above and
stacks them together in a single image. This is useful if we want to create a single image of all representations which
can later be turned into a video as well.
Usage:
vre_collage /path/to/output_dir --config_path /path/to/config.yaml -o /path/to/collage_dir
[--overwrite] [--video] [--fps] [--output_resolution H W]
/path/to/collage_dir/
collage/
1.png, ..., N.png # 1.png = stack([name_of_representation/png/1.png, name_of_representation_2/png/1.png])
Note: you can also get video from a collage dir like this (in case you forgot to set --video or want more control):
cd /path/to/collage_dir
ffmpeg -start_number 1 -framerate 30 -i %d.png -c:v libx264 -pix_fmt yuv420p /path/to/collage.mp4;
4.2 vre_reader
The vre_reader
tool can be used to iterate over the extracted vre dataset from the provided output path.
Usage:
vre_reader /path/to/output_dir --config_path /path/to/config.yaml --mode [MODE] [--batch_size B]
[--handle_missing_data H]
We have 2 choices for --mode
:
read_one_batch
Reads a single batch at random usingtorch.utils.data.DataLoader
and, after reading, it will invoke the plotting function (similar tovre_collage
). It only prints the shapes.iterate_all_data
Will iterate the entire dataset to see if the data is corrupted.
Handle missing data is passed to the MultiTaskDataset
dataset constructor and accepts all the choices from there.
Defaults to 'raise' which will raise an exception if any representation has missing data (i.e. each xxx.npz must be
present for all the representations).
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