PyTorch implementation of DGCNN (Deep Graph Convolutional Neural Network). Check https://github.com/muhanzhang/DGCNN for more information.
Requirements: python 2.7 or python 3.6; pytorch >= 0.4.0
This implementation is based on Hanjun Dai's structure2vec graph backend. Under the "lib/" directory, type
make -j4
to compile the necessary c++ files.
After that, under the root directory of this repository, type
./run_DGCNN.sh
to run DGCNN on dataset MUTAG with the default setting.
Or type
./run_DGCNN.sh DATANAME FOLD
to run on dataset = DATANAME using fold number = FOLD (1-10, corresponds to which fold to use as test data in the cross-validation experiments).
If you set FOLD = 0, e.g., typing "./run_DGCNN.sh DD 0", then it will run 10-fold cross validation on DD and report the average accuracy.
Alternatively, type
./run_DGCNN.sh DATANAME 1 200
to use the last 200 graphs in the dataset as testing graphs. The fold number 1 will be ignored.
Check "run_DGCNN.sh" for more options.
Default graph datasets are stored in "data/DSName/DSName.txt". Check the "data/README.md" for the format.
In addition to the support of discrete node labels (tags), DGCNN now supports multi-dimensional continuous node features. One example dataset with continuous node features is "Synthie". Check "data/Synthie/Synthie.txt" for the format.
There are two preprocessing scripts in MATLAB: "mat2txt.m" transforms .mat graphs (from Weisfeiler-Lehman Graph Kernel Toolbox), "dortmund2txt.m" transforms graph benchmark datasets downloaded from https://ls11-www.cs.tu-dortmund.de/staff/morris/graphkerneldatasets
The first step is to transform your graphs to the format described in "data/README.md". You should put your testing graphs at the end of the file. Then, there is an option -test_number X, which enables using the last X graphs from the file as testing graphs. You may also pass X as the third argument to "run_DGCNN.sh" by
./run_DGCNN.sh DATANAME 1 X
where the fold number 1 will be ignored.
If you find the code useful, please cite our paper:
@inproceedings{zhang2018end,
title={An End-to-End Deep Learning Architecture for Graph Classification.},
author={Zhang, Muhan and Cui, Zhicheng and Neumann, Marion and Chen, Yixin},
booktitle={AAAI},
year={2018}
}
Muhan Zhang, muhan@wustl.edu 3/19/2018