- Linux or macOS (Windows is not currently officially supported)
- Python 3.6+
- PyTorch 1.3+
- CUDA 9.2+ (If you build PyTorch from source, CUDA 9.0 is also compatible)
- GCC 5+
- MMCV
The required versions of MMCV and MMDetection for different versions of MMDetection3D are as below. Please install the correct version of MMCV and MMDetection to avoid installation issues.
| MMDetection3D version | MMDetection version | MMCV version |
|---|---|---|
| master | mmdet>=2.5.0 | mmcv-full>=1.2.4, <=1.4 |
| 0.11.0 | mmdet>=2.5.0 | mmcv-full>=1.2.4, <=1.4 |
| 0.10.0 | mmdet>=2.5.0 | mmcv-full>=1.2.4, <=1.4 |
| 0.9.0 | mmdet>=2.5.0 | mmcv-full>=1.2.4, <=1.4 |
| 0.8.0 | mmdet>=2.5.0 | mmcv-full>=1.1.5, <=1.4 |
| 0.7.0 | mmdet>=2.5.0 | mmcv-full>=1.1.5, <=1.4 |
| 0.6.0 | mmdet>=2.4.0 | mmcv-full>=1.1.3, <=1.2 |
| 0.5.0 | 2.3.0 | mmcv-full==1.0.5 |
a. Create a conda virtual environment and activate it.
conda create -n open-mmlab python=3.7 -y
conda activate open-mmlabb. Install PyTorch and torchvision following the official instructions.
conda install pytorch torchvision -c pytorchNote: Make sure that your compilation CUDA version and runtime CUDA version match. You can check the supported CUDA version for precompiled packages on the PyTorch website.
E.g. 1 If you have CUDA 10.1 installed under /usr/local/cuda and would like to install
PyTorch 1.5, you need to install the prebuilt PyTorch with CUDA 10.1.
conda install pytorch==1.5.0 cudatoolkit=10.1 torchvision==0.6.0 -c pytorchE.g. 2 If you have CUDA 9.2 installed under /usr/local/cuda and would like to install
PyTorch 1.3.1., you need to install the prebuilt PyTorch with CUDA 9.2.
conda install pytorch=1.3.1 cudatoolkit=9.2 torchvision=0.4.2 -c pytorchIf you build PyTorch from source instead of installing the prebuilt pacakge, you can use more CUDA versions such as 9.0.
c. Install MMCV. mmcv-full is necessary since MMDetection3D relies on MMDetection, CUDA ops in mmcv-full are required.
e.g. The pre-build mmcv-full could be installed by running: (available versions could be found here)
pip install mmcv-full -f https://download.openmmlab.com/mmcv/dist/{cu_version}/{torch_version}/index.htmlPlease replace {cu_version} and {torch_version} in the url to your desired one. For example, to install the latest mmcv-full with CUDA 11 and PyTorch 1.7.0, use the following command:
pip install mmcv-full -f https://download.openmmlab.com/mmcv/dist/cu110/torch1.7.0/index.htmlSee here for different versions of MMCV compatible to different PyTorch and CUDA versions. Optionally, you could also build the full version from source:
git clone https://github.com/open-mmlab/mmcv.git
cd mmcv
MMCV_WITH_OPS=1 pip install -e . # package mmcv-full will be installed after this step
cd ..Or directly run
pip install mmcv-fulld. Install MMDetection.
pip install git+https://github.com/open-mmlab/mmdetection.gitOptionally, you could also build MMDetection from source in case you want to modify the code:
git clone https://github.com/open-mmlab/mmdetection.git
cd mmdetection
pip install -r requirements/build.txt
pip install -v -e . # or "python setup.py develop"e. Clone the MMDetection3D repository.
git clone https://github.com/open-mmlab/mmdetection3d.git
cd mmdetection3df.Install build requirements and then install MMDetection3D.
pip install -v -e . # or "python setup.py develop"Note:
-
The git commit id will be written to the version number with step d, e.g. 0.6.0+2e7045c. The version will also be saved in trained models. It is recommended that you run step d each time you pull some updates from github. If C++/CUDA codes are modified, then this step is compulsory.
Important: Be sure to remove the
./buildfolder if you reinstall mmdet with a different CUDA/PyTorch version.pip uninstall mmdet3d rm -rf ./build find . -name "*.so" | xargs rm
-
Following the above instructions, mmdetection is installed on
devmode, any local modifications made to the code will take effect without the need to reinstall it (unless you submit some commits and want to update the version number). -
If you would like to use
opencv-python-headlessinstead ofopencv-python, you can install it before installing MMCV. -
Some dependencies are optional. Simply running
pip install -v -e .will only install the minimum runtime requirements. To use optional dependencies likealbumentationsandimagecorruptionseither install them manually withpip install -r requirements/optional.txtor specify desired extras when callingpip(e.g.pip install -v -e .[optional]). Valid keys for the extras field are:all,tests,build, andoptional. -
The code can not be built for CPU only environment (where CUDA isn't available) for now.
We provide a Dockerfile to build an image.
# build an image with PyTorch 1.6, CUDA 10.1
docker build -t mmdetection3d docker/Run it with
docker run --gpus all --shm-size=8g -it -v {DATA_DIR}:/mmdetection3d/data mmdetection3dHere is a full script for setting up mmdetection with conda.
conda create -n open-mmlab python=3.7 -y
conda activate open-mmlab
# install latest pytorch prebuilt with the default prebuilt CUDA version (usually the latest)
conda install -c pytorch pytorch torchvision -y
# install mmcv
pip install mmcv-full
# install mmdetection
pip install git+https://github.com/open-mmlab/mmdetection.git
# install mmdetection3d
git clone https://github.com/open-mmlab/mmdetection3d.git
cd mmdetection3d
pip install -v -e .The train and test scripts already modify the PYTHONPATH to ensure the script use the MMDetection3D in the current directory.
To use the default MMDetection3D installed in the environment rather than that you are working with, you can remove the following line in those scripts
PYTHONPATH="$(dirname $0)/..":$PYTHONPATHWe provide a demo script to test a single sample. Pre-trained models can be downloaded from model zoo
python demo/pcd_demo.py ${PCD_FILE} ${CONFIG_FILE} ${CHECKPOINT_FILE} [--device ${GPU_ID}] [--score-thr ${SCORE_THR}] [--out-dir ${OUT_DIR}]Examples:
python demo/pcd_demo.py demo/kitti_000008.bin configs/second/hv_second_secfpn_6x8_80e_kitti-3d-car.py checkpoints/hv_second_secfpn_6x8_80e_kitti-3d-car_20200620_230238-393f000c.pthIf you want to input a ply file, you can use the following function and convert it to bin format. Then you can use the converted bin file to generate demo.
Note that you need to install pandas and plyfile before using this script. This function can also be used for data preprocessing for training ply data.
import numpy as np
import pandas as pd
from plyfile import PlyData
def conver_ply(input_path, output_path):
plydata = PlyData.read(input_path) # read file
data = plydata.elements[0].data # read data
data_pd = pd.DataFrame(data) # convert to DataFrame
data_np = np.zeros(data_pd.shape, dtype=np.float) # initialize array to store data
property_names = data[0].dtype.names # read names of properties
for i, name in enumerate(
property_names): # read data by property
data_np[:, i] = data_pd[name]
data_np.astype(np.float32).tofile(output_path)Examples:
convert_ply('./test.ply', './test.bin')Here is an example of building the model and test given point clouds.
from mmdet3d.apis import init_detector, inference_detector
config_file = 'configs/votenet/votenet_8x8_scannet-3d-18class.py'
checkpoint_file = 'checkpoints/votenet_8x8_scannet-3d-18class_20200620_230238-2cea9c3a.pth'
# build the model from a config file and a checkpoint file
model = init_detector(config_file, checkpoint_file, device='cuda:0')
# test a single image and show the results
point_cloud = 'test.bin'
result, data = inference_detector(model, point_cloud)
# visualize the results and save the results in 'results' folder
model.show_results(data, result, out_dir='results')