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PT2PC: Learning to Generate 3D Point Cloud Shapes from Part Tree Conditions

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PT2PC: Learning to Generate 3D Point Cloud Shapes from Part Tree Conditions (ECCV 2020)

Overview

Figure 1. We formulate the problem of Part-Tree-to-Point-Cloud (PT2PC) as a conditional generation task which takes in a symbolic part tree as condition and generates multiple point clouds with shape variations satisfy the structure defined by the part tree.

Introduction

This paper investigates the novel problem of generating 3D shape point cloud geometry from a symbolic part tree representation. In order to learn such a conditional shape generation procedure in an end-to-end fashion, we propose a conditional GAN "part tree"-to-"point cloud" model (PT2PC) that disentangles the structural and geometric factors.

About the paper

Our team: Kaichun Mo, He Wang, Xinchen Yan, and Leonidas J. Guibas from Stanford University

Arxiv Version: https://arxiv.org/abs/2003.08624

Project Page: https://cs.stanford.edu/~kaichun/pt2pc/

Citations

@article{mo2020pt2pc,
    title={{PT2PC}: Learning to Generate 3D Point Cloud Shapes from Part Tree Conditions},
    author={Mo, Kaichun and Wang, He and Yan, Xinchen and Guibas, Leonidas},
    journal={European conference on computer vision (ECCV 2020)},
    year={2020}
}

About this repository

This repository provides data and code as follows.

    data/                       # contains PartNet data
        Chair_hier/             # contains PartNet part-tree JSON files
        Chair_geo/              # contains PartNet per-part point cloud geometry

    stats/                      # contains helper meta-info
        part_trees/             # contains part-tree templates
            info.txt            # each line lists all PartNet shapes sharing the same part-tree template
            pt-0/
                template.json   # the part-tree template JSON file
                xxx.txt         # for each shape satisfying the template, this file stores the mapping from 
                                # the canonical part ids in template.json to the part ids for shape xxx
                                # in files data/Chair_hier/xxx.json and data/Chair_geo/xxx.npz
        part_semantics/
            Chair.txt           # stores PartNet semantic part hierarchy
        semantics_colors/
            Chair.txt           # stores the palette used for visualization

    log/                        # store training logs

    metrics/                    # store metric-code for the FPD score
        fid.py                  # the main script that computes FPD scores
        gt_stats/               # stores the ground-truth statistics for mean and covariance
        pointnet_modelnet40/    # code to train PointNet on ModelNet40

    train.py                    # the main training script
    trainer.py                  # the WGAN-gp trainer
    model_gen.py                # model definition for the generator
    model_dis.py                # model definition for the discriminator
    data.py                     # the data loader
    utils.py                    # contain utility functions

This code has been tested on Ubuntu 16.04 with Cuda 9.0, GCC 5.4.0, Python 3.6.5 and PyTorch 1.1.0.

Please fill in this form to download the necessary data.

    data.zip            # put under the root folder and unzip
    part_trees.zip      # put under stats/ and unzip
    gt_stats.zip        # put under metrics/ and unzip
    pn_ckpt.zip         # put under metrics/pointnet_modelnet40/ and unzip

Dependencies

Please run

    pip3 install -r requirements.txt

to install the dependencies.

Please also install

    cd sampling
    python setup.py install
    cd ..
    cp sampling/build/lib.linux-x86_64-3.6/sampling_cuda.cpython-36m-x86_64-linux-gnu.so .

Quick Start

Download pretrained models and unzip under the root directory.

Then, you can visualize the generation results using Jupyter Notebook quick_test.ipynb.

To train the model

Simply run

    python ./train.py --category Chair

HierInsSeg Scores

Check the README in hierinsseg. This is our proposed structure reconstruction metric.

Questions

Please post issues for questions and more helps on this Github repo page. We encourage using Github issues instead of sending us emails since your questions may benefit others.

License

MIT License

Updates

  • [Aug 17, 2020] Release pre-trained models and add a simple Jupyter Notebook for visualizing the results.
  • [May 17, 2020] Release the proposed HierInsSeg score for evaluating shape structure reconstruction.
  • [March 27, 2020] Preliminary Data and Code released.

TODOs

  • Release evaluation code.

Please request in Github Issue for more code to release.

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PT2PC: Learning to Generate 3D Point Cloud Shapes from Part Tree Conditions

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