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A collection of code examples to help users get started with the Mapillary Metropolis dataset

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Mapillary Metropolis SDK

This SDK is intended as a collection of examples to get you started with understanding the Mapillary Metropolis dataset, e.g. by visualizing annotations or performing common queries on the data.

Overview

Setting up the Mapillary Metropolis SDK

The Mapillary Metropolis SDK can be installed directly using pip:

pip install git+https://github.com/mapillary/metropolis_sdk.git

or from source:

git clone https://github.com/mapillary/metropolis_sdk.git
cd metropolis
pip install -r requirements.txt
python setup.py install

As an optional dependency, the GDAL library enables accessing geo-referenced aerial images. The easiest way to do this is with Anaconda:

conda install -c conda-forge gdal

Preparing the point cloud data

We distribute our point cloud data as three PLY files, each containing the full extent of one data modality (lidar, multi-view stereo etc.). The SDK, however, assumes that the point clouds are stored as separate "crop" files, each containing a local slice of the full point cloud centered around a specific spatial location. The advantages of this format are two-fold:

  1. Local point cloud data is much easier and faster to access.
  2. The slices can be micro-aligned with each other, providing a more accurate local representation of the scene.

However, the slice-based representation is extremely redundant and storage-intensive, so we give the users full control on which slices to generate. This is achieved with the metropolis_crop_point_clouds script:

$ crop_point_clouds --help
usage: metropolis_crop_point_clouds
    [-h] [--metroplois_root_dir METROPLOIS_ROOT_DIR]
    [--sensor_string SENSOR_STRING]
    [--pointcloud_folder POINTCLOUD_FOLDER]
    [--sample_data_folder SAMPLE_DATA_FOLDER]
    [--list_of_sample_keys LIST_OF_SAMPLE_KEYS]
    [--set_sequence SET_SEQUENCE [SET_SEQUENCE ...]]
    [--max_nr_to_process MAX_NR_TO_PROCESS] [--save_ply]

optional arguments:
  -h, --help            show this help message and exit
  --metroplois_root_dir METROPLOIS_ROOT_DIR
                        Directory containing the train/val/test folder
  --sensor_string SENSOR_STRING
                        Sensor ID from the pointcloud modality used for the
                        crops. Can be one of the following: LIDAR_MX2,
                        LIDAR_AERIAL, MVS
  --pointcloud_folder POINTCLOUD_FOLDER
                        Folder containing the big MVS and LiDAR pointclouds
  --sample_data_folder SAMPLE_DATA_FOLDER
                        Crops will be put into this folder. By default, it
                        will be put into 'sample_data', relative to the
                        Metropolis folder
  --list_of_sample_keys LIST_OF_SAMPLE_KEYS
                        Filename of list of sample keys in json format to
                        process, if not specified, all samples will be
                        processed
  --set_sequence SET_SEQUENCE [SET_SEQUENCE ...]
                        List of sets to process, e.g.: train, train val
  --max_nr_to_process MAX_NR_TO_PROCESS
                        Maximum number of crops per set, default=-1
                        (unlimited)
  --save_ply            if not specified saves *.npz format

Assuming that the Metropolis dataset is in ~/metropolis and the point clouds have been unpacked in ~/metropolis/point_clouds, we can generate all the slices for the MVS modality with:

$ metropolis_crop_point_clouds --metroplois_root_dir ~/metropolis --sensor_string MVS --pointcloud_folder ~/metropolis/point_clouds  --set_sequence train val

Note: this process will take a few hours to complete, and require several terabytes of storage space if all slices are to be generated.

Getting started with the Metropolis SDK

The entry point to the SDK is the Metropolis class:

from metropolis import Metropolis
metropolis = Metropolis(
    "train", # Name of the split we want to load
    "/home/user/metropolis_data", # Path to the root directory of the dataset
)

Annotations and meta-data are stored as a relational database with multiple tables, with specific entries identified by unique "token" strings:

# Get a sample_data (i.e. image or point cloud meta-data) from the dataset:
sample_data_record = metropolis.sample_data[0]
assert sample_data_record == metropolis.get("sample_data", sample_data_record["token"])

# Find the corresponding sample (i.e. group of images and point clouds captured
# at the same point in time and space)
sample_record = metropolis.get("sample", sample_data_record["sample_token"])

Data items (e.g. images, point clouds) are stored as discrete files, each of which has a corresponding entry in the sample_data table:

# Get a sample_data given its token
sample_data_record = metropolis.get("sample_data", "{sample_data_token}")

# Get the path to its actual data file
sample_data_path = metropolis.get_sample_data_path("{sample_data_token}")

The SDK also offers a variety of rendering functions to easily visualize different parts of the dataset, e.g. we can view a sample_data entry with all its available annotations with:

metropolis.render_sample_data(
    "{sample_data_token}",
    out_path="/path/to/output/image.png",
)

or render a point cloud onto an image with:

metropolis.render_pointcloud_in_image(
    "{sample_token}",
    pointsensor_channel="MVS",
    camera_channel="CAM_EQUIRECTANGULAR",
    out_path="/path/to/output/image.png",
)

For more usage examples, refer to demo.ipynb.

Data format

The Mapillary Metropolis data format is mostly compatible with the NuScenes format described here. For a full description of our changes and additions, the coordinate systems used in Metropolis and their transformations, as well as the sensor data we are distributing, please refer to FORMAT.md and SENSORS.md.

License

The Mapillary Metropolis SDK is Apache 2.0 licensed, as found in the LICENSE file.

Changelog

TBD - Initial Release

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