This repo contains an implementation of the KGLM model described in "Barack's Wife Hillary: Using Knowledge Graphs for Fact-Aware Language Modeling", Robert L. Logan IV, Nelson F. Liu, Matthew E. Peters, Matt Gardner and Sameer Singh, ACL 2019 [arXiv].
Warning: To avoid confusion regarding placement of '@@END@@' tokens, we have explicitly added the '@@END@@' tokens to the Linked WikiText-2 dataset and removed preprocessing steps from the dataset reader. If you are using an old version of the dataset, you will need to download the current version here for this codebase to work.
You will need Python 3.5+. Dependencies can be installed by running:
pip install -r requirements.txt
KGLM is trained on the Linked WikiText-2 dataset which can be downloaded at https://rloganiv.github.io/linked-wikitext-2.
Additionally, you will need embeddings for entities/relations in the Wikidata knowledge graph, as well as access to the knowledge graph itself (in order to look up entity aliases/related entities). For convenience, we provide pre-trained embeddings and pickled dictionaries containing the relevant portions of Wikidata here.
If you would like to apply our annotation pipeline to your own data, please refer to: https://github.com/rloganiv/kglm-data.
To train the model run:
allennlp train [path to config] -s [path to save checkpoint to] --include-package kglm
example model configurations are provided in the experiments
directory.
To estimate perplexity of a trained model on held-out data run:
python -m kglm.run evaluate-perplexity \
[model_archive_file] \
[sampler_archive_file] \
[input_file]
where:
model_archive_file
- Trained (generative) model checkpoint. This is the model whose perplexity will be evaluated.sampler_archive_file
- Trained (discriminative) model checkpoint. This is the model used to create annotations during importance sampling. See Section 4 of the paper for more details about importance sampling.input_file
- Path to dataset to measure perplexity on.
To perform sentence completion experiments run:
python -m kglm.run predict --predictor cloze [model_archive_file] [input_file]
where
model_archive_file
- Trained (generative) model checkpoint. This is the model whose perplexity will be evaluated.input_file
- Path to dataset to measure perplexity on.