This is developed as a part of MiDiffusion, a mixed diffusion model for 3D indoor scene synthesis. This repository provides a standalone python package for dataset classes related to 3D-FRONT and 3D-FUTURE datasets. We also include evaluation scripts for the 3D indoor scene synthesis problem.
Most of the code is adapted from ATISS. We also incorporate features from DiffuScene so that the evaluation scripts are compatible with their setup. The optional floor plan preprocessing script converting images to points is adapted from LEGO-Net. Please refer to the external_licenses directory for their licensing information.
We list dependency versions in requirements.txt. The following dependencies are required:
These are required to process raw meshes and visualize the scenes:
- seaborn
- simple-3dviz==0.7.0
- trimesh
- opencv-python (optional, better than pillow in saving textured layouts to images)
- wxPython==4.1.0 (optional, for simple-3dviz GUI)
These additional dependencies are required for evaluation:
pip install wxPython might fail looking for a specific wheel and automatically switch to building from source.
For Linux, the easiest way to install wxPython is to use the pre-built wheels from https://extras.wxpython.org/wxPython4/extras/linux/. For example,
pip install https://extras.wxpython.org/wxPython4/extras/linux/gtk3/ubuntu-20.04/wxPython-4.1.0-cp38-cp38-linux_x86_64.whl
To use simple-3dviz on a remote ubuntu18 or ubuntu20 server, follow this link.
We use the same dataset splits and data filtering method as ATISS. The dataset files in dataset_files/ are directly copied from here. Parsed and preprocessed data will be saved to an output/ directory. The default output paths can be modified in scripts/utils.py.
You need to first obtain the 3D-FRONT and the 3D-FUTURE datasets. To download both datasets, please follow the download instructions from the official website. This repository is developed based on this release.
First, use pickle_threed_front_dataset.py to pickle a list of Room objects to threed_front.pkl:
python scripts/pickle_threed_front_dataset.py <dataset_dir>/3D-FRONT/3D-FRONT <dataset_dir>/3D-FUTURE/3D-FUTURE-model <dataset_dir>/3D-FUTURE/3D-FUTURE-model/model_info.json
This script will save the parsed rooms to output/threed_front.pkl by default.
Use pickle_threed_future_dataset.py to pickle a ThreedFutureDataset object which contains a list of ThreedFutureModel (furnitures in the training set of the specified room type) to threed_future_model_<room_type>.pkl:
python scripts/pickle_threed_future_dataset.py threed_front_<room_type>
This script will save the parsed dataset to output/threed_future_model_<room_type>.pkl by default.
Use preprocess_data.py to extract and save basic object encoding (boxes.npz), floor plan (room_mask.png), and top-down projection of the layout (rendered_scene_256.png) for each scene to a separate subdirectory:
python scripts/preprocess_data.py threed_front_<room_type>
By default, the results are saved to output/3d_front_processed/<room_type> with each sub-directory named as the UID of that scene.
Note that texture (--no_texture) and floor plan (--without_floor) options will result in different rendered image names.
This means you can run this script multiple times and save multiple layout images to each sub-directory by allowing overwriting when prompted.
If you want to use point cloud embeddings as an additional object feature, please refer to the DiffuScene repository.
Instead of a binary mask, the floor plan can also be represented as sampled 2D points and normals along the boundary. Use preprocess_floorplan.py to add these features to each scene data (boxes.npz).
python scripts/preprocess_floorplan.py output/3d_front_processed/<room_type> --room_side <room_side>
You need to make sure --room_side is set close to the value used to generate room_mask.png in the data directory. By default, this script samples 256 points per room. You can adjust this using the --n_sampled_points argument.
To render ground-truth scenes, you can run render_threedfront_scene.py with a scene ID (e.g., Bedroom-4098):
python scripts/render_threedfront_scene.py <scene_id>
Please read the script for visualization options.
You can pip install this package as a dependency for your own project.
For evaluation, you need to save the generated results as a ThreedFrontResults object (see threed_front/evaluation/__init__.py) and pickle it to a file (e.g., results.pkl). Our MiDiffusion repository contains an example script (scripts/generate_results.py).
Then you can render results to top-down projection images in the same way as it is done for ground-truth layouts in the preprocessing step:
python scripts/render_results.py <result_file>
By default, the rendered images will be saved to the same directory as the result file. Please read the script for visualization options.
Our evaluation scripts include:
evaluate_kl_divergence_object_category.py: Compute KL-divergence between ground-truth and synthesized object category distributions.compute_fid_scores.py: Compute average FID or KID (if run with "--compute_kid" flag) between ground-truth and synthesized layout images.synthetic_vs_real_classifier.py: Train image classifier to distinguish real and synthetic projection images, and compute average classification accuracy.bbox_analysis.py: Count the number of out-of-boundary object bounding boxes and compute pairwise bounding boxes IoU (this requires sampled floor plan boundary and normal points).
Most evaluation scripts can be run by simply providing the path to the pickled result file. For image comparisons, make sure you set the --no_texture flag when comparing textureless synthetic layouts with the ground-truth.
The dependency relationships in threed_front/datasets:
__init__.py
├── base.py
├── common.py
├── splits_builder.py
├── threed_front.py
│ └── parse_utils.py
│ └── threed_front_scene.py
└── threed_future_dataset.py
threed_front_encoding_base.py
The __init__.py contains all dataset classes/functions to read and host preprocessed scene data,
including CachedThreedFront which loads data from output/3d_front_processed/<room_type>.
The threed_front_encoding_base.py stores other feature encoding and dataset augmentation classes for training.