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[DMLR] Rethinking Symbolic Regression Datasets and Benchmarks for Scientific Discovery

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Rethinking Symbolic Regression Datasets and Benchmarks for Scientific Discovery

This is the official code repository of "Rethinking Symbolic Regression Datasets and Benchmarks for Scientific Discovery". This work revisits datasets and evaluation criteria for Symbolic Regression (SR), specifically focused on its potential for scientific discovery. Focused on a set of formulas used in the existing datasets based on Feynman Lectures on Physics, we recreate 120 datasets to discuss the performance of symbolic regression for scientific discovery (SRSD). For each of the 120 SRSD datasets, we carefully review the properties of the formula and its variables to design reasonably realistic sampling ranges of values so that our new SRSD datasets can be used for evaluating the potential of SRSD such as whether or not an SR method can (re)discover physical laws from such datasets. We also create another 120 datasets that contain dummy variables to examine whether SR methods can choose necessary variables only. Besides, we propose to use normalized edit distances (NED) between a predicted equation and the true equation trees for addressing a critical issue that existing SR metrics are either binary or errors between the target values and an SR model’s predicted values for a given input. We conduct experiments on our new SRSD datasets using six SR methods. The experimental results show that we provide a more realistic performance evaluation, and our user study shows that the NED correlates with human judges significantly more than an existing SR metric.

YouTube

Setup

We used pipenv for a Python virtual environment.

pipenv install --python 3.8
mkdir -p resource/datasets 

You can also use conda or local Python environments. Use requirements.txt if you use either conda or local Python environments. e.g.,

# Activate your conda environment if you use conda, and run the following commands
pip install pip --upgrade
pip install -r requirements.txt

Download or re-generate SRSD datasets

Our SRSD datasets are publicly available at Hugging Face Dataset repositories:

We also created another 120 SRSD datasets by introducing dummy variables to the 120 SRSD datasets.

Download and store the datasets at ./resource/datasets/

If you want to re-generate the SRSD datasets,

pipenv run python dataset_generator.py --config configs/datasets/feynman/easy_set.yaml
pipenv run python dataset_generator.py --config configs/datasets/feynman/medium_set.yaml
pipenv run python dataset_generator.py --config configs/datasets/feynman/hard_set.yaml

Note that the resulting datasets may not exactly match those we published as the values are resampled from the same distributions.

Also, run the following command for merging all the sets

cp ./resource/datasets/srsd-feynman_easy/ ./resource/datasets/srsd-feynman_all/ -r
cp ./resource/datasets/srsd-feynman_medium/ ./resource/datasets/srsd-feynman_all/ -r
cp ./resource/datasets/srsd-feynman_hard/ ./resource/datasets/srsd-feynman_all/ -r

Introduce dummy variables

To re-introduce dummy variables (columns) to the datasets, run the following commands:

pipenv run python dummy_column_mixer.py --input ./resource/datasets/srsd/easy_set/ --output ./resource/datasets/srsd/easy_set_dummy/
pipenv run python dummy_column_mixer.py --input ./resource/datasets/srsd/medium_set/ --output ./resource/datasets/srsd/medium_set_dummy/
pipenv run python dummy_column_mixer.py --input ./resource/datasets/srsd/hard_set/ --output ./resource/datasets/srsd/hard_set_dummy/

Convert SRSD datasets for DSR

for srsd_category in easy medium hard; do
  for split_name in train val test; do
    pipenv run python dataset_converter.py --src ./resource/datasets/srsd-feynman_${srsd_category}/${split_name}/ \
      --dst ./resource/datasets/srsd-feynman_${srsd_category}_csv/${split_name}/ --dst_ext .csv
  done
  cp ./resource/datasets/srsd-feynman_${srsd_category}/true_eq/ ./resource/datasets/srsd-feynman_${srsd_category}_csv/true_eq/ -r
done

Run existing symbolic regression baselines / your own model

Follow the instruction in external/README.md

Analyze equations

SRSD-Feynman datasets

Check equation properties (e.g., number of variables and those used in sympy equation)

pipenv run python eq_analyzer.py --name feynman -simple_check

Visualize equation trees

pipenv run python eq_analyzer.py --name feynman -visualize --output ./eq_trees/

Select the best model per dataset for DSO and AI Feynman

Due to their original implementations, DSO and AI Feynman are difficult to work with optuna for hyperparameter tuning. If there are multiple trained models with different seeds and/or hyperparameters, select the best model per dataset based on relative error on validation split like other methods in this repository.
(If your model uses input variable index starting from 1 like DSO, you can still use the expressions by adding -dec_idx to the following command.) e.g., DSO

pipenv run python model_selector.py --est ./dso_results/est_eq* \
    --val ~/dataset/symbolic_regression/srsd-feynman_all/val/ \
    --output ./results/dso_models/ \
    -dec_idx

Compute edit distance between estimated and ground-truth equations

Both the estimated and ground-truth equations need to be "pickled" as sympy equations e.g., sympy.sympify(eq_str) and pickle the object
Mathematical operations available in sympy are supported, and input variables should use sympy.Symbol(f'x{index}'), where index is integer and starts from 0.
(If your model uses input variable index starting from 1 like DSO, you can still use the expressions by adding -dec_idx to the following command.)

1 by 1

pipenv run python eq_comparator.py \
    --est external/gplearn/gplearn_w_optuna/feynman-i.12.1-est_eq.pkl \
    --gt ./resource/datasets/srsd-feynman_easy/true_eq/feynman-i.12.1.pkl

Batch process

pipenv run python eq_comparator.py \
    --method_name gplearn \
    --est external/gplearn/gplearn_w_optuna/ \
    --est_delim .txt-est_eq \
    --gt ./resource/datasets/srsd-feynman_easy/true_eq/ \
    --gt_delim .pkl \
    --eq_table feynman_eq.tsv \
    --dist_table feynman_dist.tsv \
    -normalize

Add -dec_idx for DSO's estimated equations to decrement variable indices since DSR's variable indices start from 1 instead of 0.

Citation

[OpenReview] [Video] [Preprint]

@article{matsubara2024rethinking,
  title={Rethinking Symbolic Regression Datasets and Benchmarks for Scientific Discovery},
  author={Matsubara, Yoshitomo and Chiba, Naoya and Igarashi, Ryo and Ushiku, Yoshitaka},
  journal={Journal of Data-centric Machine Learning Research},
  year={2024},
  url={https://openreview.net/forum?id=qrUdrXsiXX}
}

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[DMLR] Rethinking Symbolic Regression Datasets and Benchmarks for Scientific Discovery

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