Source code for the EMNLP' 21 paper Document-level Entity-based Extraction as Template Generation.
All the required packages are listed in requirements.txt. To install all the dependencies, run
conda create -n tg python=3.7
conda activate tg
pip install -r requirements.txt
All data lies in directory ./data. The processed REE output can be found at data/muc34/proc_output/. Files name with patterns ree_*.json refers to the train, dev, and test set data for role-filler entity extraction in our in-house representation. These files are converted from grit_*.json, which are the train, dev, and test copied from GRIT's repo. The conversion script is convert_grit.py. An example of converting GRIT data into our in-house format is:
python convert_grit.py --input_path data/muc34/proc_output/grit_train.json --output_path data/muc34/proc_output/ree_train.json
As for SciREX, we downloaded the original dataset data/scirex/release_data.tar.gz from the original SciREX repo. The extracted train, dev, and test files are located in data/scirex/release_data. These original data are transformed into our internal representations using raw_scripts/process_scirex.sh and stored in data/scirex/proc_output. The binary RE data does not have any post-fix, while the 4-ary RE data are post-fixxed with _4ary.
We adpated some of the pre-processing code from Du et al. 2021. To produce our training data, you need to navigate to raw_script and extract documents by running
bash go_proc_doc.sh
with Python 2.7 !! . (Previous works use Python 2.7 for this step of pre-processing. Will upgrade this script later when I have time.)
Then, use Python 3.6 or above to run the second pre-processing script for combining annotation and doucments.
bash process_all_keys.sh
Please refer to the raw_script/READMD.md for more details about the data format.
Our formulation of document-level IE as template generation tasks allows the same model architecture applicable for role-filler entity extraction, binary relation extraction, and 4-ary relation extraction. Therefore, the same script train.py can be used for training models for all three tasks. The only difference in training models each task task is the config file.
Role-filler entity extraction
python train.py -c config/ree_generative_model.json
Binary relation extraction
python train.py -c config/bre_generative_model.json
4-ary relation extraction
python train.py -c config/4re_generative_model.json
The key difference between these two config files is the task field. Event template extraction has task: ete, while role-filler entity extraction has task: ree. To enable/ disable the Topk Copy mechanism, set use_copy to true/ false.
The evaluation scripts for MUC-4 REE and SciREX RE are ree_eval.py and scirex_eval.py, which are copied over from the GRIT repo and the SciREX repo.
To run evaluation on trained models, execute the evaluate.py script as follows:
python evaluate.py --gpu 0 --checkpoint $PATH_TO_MODEL/best.mdl
passing --gpu -1 can run evaluation on CPUs.
The trained models can be downloaded from here for reproduction purposes.
The structure of this repo is based on OneIE (https://blender.cs.illinois.edu/software/oneie/)
@inproceedings{huang-etal-2021-tempgen,
title = "Document-level Entity-based Extraction as Template Generation",
author = "Huang, Kung-Hsiang and
Tang, Sam and
Peng, Nanyun",
booktitle = "The 2021 Conference on Empirical Methods in Natural Language Processing (EMNLP)",
year = "2021",
address = "Online",
publisher = "Association for Computational Linguistics",
}