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Multilingual Syntactic Transformations

This repository contains code for replicating the experiments of Coloring the Blank Slate: Pre-training Imparts a Hierarchical Inductive Bias to Sequence-to-sequence Models, published in Findings of ACL 2022.

Dependencies

Use conda env create -f environment.yml to replicate our conda environment.

We use the following:

  • Python 3.8
  • Torch 1.8.1
  • Transformers 4.4.2

Overview

  • data/question_have-havent_en: English question formation data
  • data/question_have-can_withquest_de: German question formation data
  • data/question_have-can_de: zero-shot cross-lingual German question formation data
  • data/passiv_en_nps: English passivization data
  • data/passiv_de_nps: German passivization data
  • data/passiv_en-de_nps: zero-shot cross-lingual German passivization data
  • models/run_seq2seq.py: for fine-tuning and evaluating pre-trained models on syntactic transformations
  • models/metrics.py: implementation of each accuracy and error analysis metric used in our experiments
  • models/pred_eval.py: for defining the output metrics used when evaluating models' transformational abilities
  • models/plot_learning_curve.py: for plotting paper-ready learning curves
  • scripts/finetune_{model}_question_have_{language}.sh: question formation fine-tuning scripts
  • scripts/eval_{model}_question_have_{language}.sh: question formation evaluation scripts
  • scripts/finetune_{model}_passivize_{language}.sh: passivization fine-tuning scripts
  • scripts/eval_{model}_passivize_{language}.sh: passivization evaluation scripts

Data

We fine-tune pre-trained sequence-to-sequence models on English and German question formation and passivization. The fine-tuning data can be found in the data/ directory. The fine-tuning data are artificially generated using a CFG-like grammar.

Each directory contains training, development, test, and generalization sets. The training set is the supervision provided to the models: these consist of declarative examples (i.e., identity transformations) marked with the decl: prefix, as well as transformation examples marked with either the passiv: or quest: prefix for passivization or question formation, respectively. The development set is used to measure convergence. The test set is used to measure a model's generalization on in-distrubution transformations.

The generalization sets are the evaluation sets used to measure a model's inductive biases. These consist of out-of-distribution syntactic transformations where linear positional heuristics do not result in correct syntactic transformations.

Zero-shot Data

Our zero-shot cross-lingual fine-tuning data is different from the monolingual data. Here, the training sets consist of declaratives and transformation examples in English, and also declaratives in the target language. Target-language declaratives greatly improve zero-shot performance without providing explicit supervision as to how to perform the target-language transformation. Note that the training set here does NOT contain any target-language transformation examples.

When evaluating zero-shot generalization, there are two generalization sets. The first is where a phrase/clause is attached to objects (marked with an o); this measures performance on in-distribution transformations across languages. The second is where a phrase/clause is attached to subjects (marked with an s); this measures performance on out-of-distribution transformations across languages.

Fine-tuning Scripts

We provide fine-tuning scripts in scripts/. The file format is finetune_{model_name}_{transformation_type}_{language}. This will produce a directory at --output_dir containing model checkpoints at every 500 iterations.

For mBART, source and target language IDs are required. Use the --source_prefix and --target_prefix arguments for monolingual data. For zero-shot or multilingual data, place the language IDs in each example (see the *.lang_id.json files in the zero-shot data directories) and use the --prefix_from_file argument.

To fine-tune a model with randomly initialized parameters, use the --random_weights argument.

Evaluation Scripts

Our evaluation scripts are also provided in scripts/. The file format is finetune_{model_name}_{transformation_type}_{language}. Here, be sure to use both the --do_learning_curve and --predict_with_generate arguments. These scripts evaluate each checkpoint in --output_dir, writing accuracy and prediction files in each checkpoint directory. At the end, the script will also produce a learning curve figure in --output_dir.

Metrics

For evaluation, we primarily focus on sequence accuracy and first/second word accuracy. Sequence accuracy (exact_match) measures how many transformations were performed exactly correctly, as measured by the reference and output transformations containing the same tokens in the same order. First word accuracy (first_word; used for question formation) measures how many transformations contain the correct auxiliary at the start of the sentence. Second word accuracy (second_word; used for passivization) measures how many transformations inverted the correct object noun.

We also use other metrics for error analysis. These include:

  • second_np: In passivization, is the second NP (including any attached PPs) in a passive correct?
  • second_np_no_pp: In passivization, is the second noun in a passive correct?
  • first_np_case_incorrect: In German passivization, is the case of the first NP wrong?
  • prepose_first: In question formation, is the first auxiliary fronted?

All of our metrics are implemented in models/metrics.py.

Visualizations

Our paper-ready learning curves were created using models/plot_learning_curve.py. This must be run after the evaluation script, as it relies on the prediction files for each checkpoint. Here's an example:

python plot_learning_curve.py --checkpoint_dir <dir_containing_checkpoints> --gold_filename <gen_or_test_file> --metrics "exact_match,first_word"

Non-pre-trained Baselines

In our paper, we compare pre-trained seq2seq models to non-pre-trained seq2seq models trained from scratch on syntactic transformations. For the non-pre-trained models, we used the transductions repository, developed by the CLAY Lab at Yale University.

License

Our code is made available under an MIT License.

Citation

If you use or modify the materials in this repository, please use the following citation:

@inproceedings{mueller-etal-2022-coloring,
    title = "Coloring the Blank Slate: Pre-training Imparts a Hierarchical Inductive Bias to Sequence-to-sequence Models",
    author = "Mueller, Aaron  and
      Frank, Robert  and
      Linzen, Tal  and
      Wang, Luheng  and
      Schuster, Sebastian",
    booktitle = "Findings of the Association for Computational Linguistics: ACL 2022",
    month = may,
    year = "2022",
    address = "Dublin, Ireland",
    publisher = "Association for Computational Linguistics",
    url = "https://aclanthology.org/2022.findings-acl.106",
    doi = "10.18653/v1/2022.findings-acl.106",
    pages = "1352--1368",
}

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