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generativecf-mnist

generativecf-mnist

 
 

generativecf

generativecf

 
 

README.md

README.md

 
 

requirements.txt

requirements.txt

 
 

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Feasible Counterfactual Explanations

Code accompanying the paper Preserving Causal Constraints in Counterfactual Explanations for Machine Learning Classifiers, selected for Oral Spotlight at the NeurIPS 2019 Workshop on Machine learning and Causal Inference for improved decision making

DiCE

This work is also being integerated with DiCE, an open source library for explaining ML models. Please check the this tutorial and follow DiCE for updates regarding the same.

Cite

@article{mahajan2019preserving,
  title={Preserving Causal Constraints in Counterfactual Explanations for Machine Learning Classifiers},
  author={Mahajan, Divyat and Tan, Chenhao and Sharma, Amit},
  journal={arXiv preprint arXiv:1912.03277},
  year={2019}
}

Code Structure

generativecf

Contains the code for experiments on Simple-BN, Sangiovese, Adult dataset

generativecf-mnist

Containts the code for experiments on MNIST

generativecf

  • models/

    • Contains pre trained models for the different methods across datasets

  • data/

    • Contains the processed data files for all the datasets; download the data files from this link

  • master_evalute.py

    • Utilizes the pre trained models (models/) and datasets (data/) to reproduce the results mentioned in the paper. The results are stored in the directory /results

    • It also generates a file 'plot_dict.json' in the directory r_plots/; where you may convert it to plotdf.csv file and then execute 'plot_figures.R' script to get better graphs stored in the directory /results

  • base-generative-cf.py

    • Implementation of BaseGenCF for all datasets

    • Usage: python3 base-generative-cf.py --htune 0 --batch_size 64 --epoch 50 --dataset_name bn1 --margin 0.1 --validity_reg 10

  • ae-base-generative-cf.py

    • Implementation of AEGenCF for all datasets

    • Usage: python3 ae-base-generative-cf.py --htune 0 --batch_size 64 --epoch 50 --dataset_name bn1 --ae_path bn1-64-50-target-class--1-auto-encoder.pth --margin 0.1 --validity_reg 10 --ae_reg 10

  • oracle-generative-cf.py

    • Implementation of OracleGenCF for all datasets

    • Usage: python3 oracle-generative-cf.py --htune 0 --batch_size 64 --epoch 50 --dataset_name bn1 --cf_path bn1-margin-0.014-validity_reg-54.0-epoch-50-base-gen.pth --oracle_data bn1-fine-tune-size-100-upper-lim-10-good-cf-set.json --margin 0.1 --validity_reg 10 --oracle_reg 10

  • model-approx-generative-cf.py

    • Implementation of ModelApproxGenCF for Simple-BN dataset

    • Usage: python3 model-approx-generative-cf.py --htune 0 --batch_size 64 --epoch 50 --dataset_name bn1 --ae_reg 0 --ae_path bn1-64-50-target-class--1-auto-encoder.pth --margin 0.1 --validity_reg 10 --constraint_reg 10

  • model-approx-generative-cf-bnlearn.py

    • Implementation of ModelApproxGenCF for Sangiovese dataset

    • Usage: python3 model-approx-generative-cf-bnlearn.py --htune 0 --batch_size 512 --epoch 50 --dataset_name sangiovese --ae_reg 0 --ae_path sangiovese-512-50-target-class--1-auto-encoder.pth --margin 0.1 --validity_reg 10 --constraint_reg 10 --constrained_nodes 'BunchN'

  • unary-const-generative-cf.py

    • Implementation of ModelApproxGenCF for Adult dataset C1 constraint ( Non Decreasing Age )

    • Usage: python3 unary-const-generative-cf.py --htune 0 --batch_size 2048 --epoch 50 --dataset_name adult --margin 0.1 --validity_reg 10 --constraint_reg 10

  • unary-ed-const-generative-cf.py

    • Implementation of ModelApproxGenCF for Adult dataset C2 constraint ( Age-Ed Causal Constraint )

    • Usage: python3 unary-ed-const-generative-cf.py --htune 0 --batch_size 2048 --epoch 50 --dataset_name adult --margin 0.1 --validity_reg 10 --constraint_reg 10

  • scm-generative-cf.py

    • Implementation of SCMGenCF for Simple-BN dataset

    • Usage: python3 scm-generative-cf.py --htune 0 --batch_size 64 --epoch 50 --dataset_name bn1 --margin 0.1 --validity_reg 10 --scm_reg 10

  • scm-generative-cf-bnlearn.py

    • Implementation of SCMGenCF for Sangiovese dataset

    • Usage: python3 scm-generative-cf-bnlearn.py --htune 0 --batch_size 512 --epoch 50 --dataset_name sangiovese --validity_reg 10 --scm_reg 10 --constraint_node 'BunchN'

  • contrastive_explanations.py

    • Implementation of CEM for all datasets

    • Usage: python3 contrastive_explanations.py --dataset_name bn1 --htune 0 --train_case_pred 0 --train_case_ae 0 --explain_case 1 --sample_size 3 --timeit 0 --c_init 10 --max_iterations 1000 --beta 0.1 --kappa 0.1 --gamma 1 --c_steps 2

  • timeit-base-generative-cf.py

    • Computing the training and evaluaiton time of BaseGenCF

    • Usage: python3 timeit-base-generative-cf.py --htune 0 --batch_size 64 --epoch 50 --dataset_name bn1 --margin 0.1 --validity_reg 10 --cf_path bn1-margin-0.014-validity_reg-54.0-epoch-50-base-gen.pth

  • timeit-oracle-generative-cf.py

    • Computing the training and evaluaiton time of Example-based CF

    • Usage: python3 timeit-oracle-generative-cf.py --htune 0 --batch_size 64 --epoch 50 --dataset_name bn1 --cf_path bn1-margin-0.014-validity_reg-54.0-epoch-50-base-gen.pth --oracle_data bn1-fine-tune-size-100-upper-lim-10-good-cf-set.json --margin 0.1 --validity_reg 10 --oracle_reg 10

generativecf/scripts/

  • blackboxmodel.py

    • Contains the architecture of the ML model to be explained across datasets

  • vae_model.py

    • Contains the architecutre of the BaseGenCF and AutoEncoder model

  • blackbox-model-train.py

    • Trains the ML model to be explained across datasets

    • Usage: python3 blackbox-model-train.py bn1

  • auto-encoder-train.py

    • Trains the Auto Encoder model used in AEGenCF and computing IM Metric

    • Usage: python3 auto-encoder-train.py --dataset_name bn1 --batch_size 64 --epoch 50 --target_class -1

  • good-cf-set-gen.py

    • Contains the code for generating labelled queries for OracleGenCF for Simple-BN, Adult dataset

    • Usage: python3 good-cf-set-gen.py --dataset_name bn1 --fine_tune_size 100 --upper_limit 10 --cf_path bn1-margin-0.014-validity_reg-54.0-epoch-50-base-gen.pth

  • good-cf-set-gen-bnlearn.py

    • Contains the code for generating labelled queries for OracleGenCF for Simple-BN, Adult dataset

    • Usage: python3 good-cf-set-gen-bnlearn.py --dataset_name sangiovese --fine_tune_size 100 --upper_limit 10 --cf_path sangiovese-margin-0.161-validity_reg-94.0-epoch-50-base-gen.pth --constraint_node BunchN

  • datagen.py

    • Creates train, val, test splits with other important processed data for all datasets

    • Usage: python3 datagen.py bn1

  • evaluation_functions.py

    • Contains evaluations metrics like Target-Class Validity, Constraint Feasibility Score, etc. for all datasets

  • bnlearn_parser.py

    • Reads the sangiovese-scm.txt and creates the SCM

  • helpers.py

    • Contains code for generating the Adult dataset

  • sangiovese-data-gen.py

    • Contains code for processing the Sangiovese dataset

  • simple-bn-gen.py

    • Contains the code for generating the Simple-BN dataset

generativecf-mnist

Similar description as stated above for generativecf files; with the only difference that evaluation happens for MNIST dataset.

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Code accompanying the paper "Preserving Causal Constraints in Counterfactual Explanations for Machine Learning Classifiers"

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machine-learning causality explainable-ml neurips-2019 counterfactual-explanations

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