import os import numpy as np import pandas as pd """ Dataset url: https://github.com/lagefreitas/predicting-brazilian-court-decisions/blob/main/dataset.zip Paper url: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9044329/ There are no splits available ==> Make random split ourselves """ pd.set_option('display.max_colwidth', None) pd.set_option('display.max_columns', None) def perform_original_preprocessing(): # Original Preprocessing from: https://github.com/lagefreitas/predicting-brazilian-court-decisions/blob/main/predicting-brazilian-court-decisions.py#L81 # Loading the labeled decisions data = pd.read_csv("dataset.csv", sep='<=>', header=0) print('data.shape=' + str(data.shape) + ' full data set') # Removing NA values data = data.dropna(subset=[data.columns[9]]) # decision_description data = data.dropna(subset=[data.columns[11]]) # decision_label print('data.shape=' + str(data.shape) + ' dropna') # Removing duplicated samples data = data.drop_duplicates(subset=[data.columns[1]]) # process_number print('data.shape=' + str(data.shape) + ' removed duplicated samples by process_number') data = data.drop_duplicates(subset=[data.columns[9]]) # decision_description print('data.shape=' + str(data.shape) + ' removed duplicated samples by decision_description') # Removing not relevant decision labels and decision not properly labeled data = data.query('decision_label != "conflito-competencia"') print('data.shape=' + str(data.shape) + ' removed decisions labeled as conflito-competencia') data = data.query('decision_label != "prejudicada"') print('data.shape=' + str(data.shape) + ' removed decisions labeled as prejudicada') data = data.query('decision_label != "not-cognized"') print('data.shape=' + str(data.shape) + ' removed decisions labeled as not-cognized') data_no = data.query('decision_label == "no"') print('data_no.shape=' + str(data_no.shape)) data_yes = data.query('decision_label == "yes"') print('data_yes.shape=' + str(data_yes.shape)) data_partial = data.query('decision_label == "partial"') print('data_partial.shape=' + str(data_partial.shape)) # Merging decisions whose labels are yes, no, and partial to build the final data set data_merged = data_no.merge(data_yes, how='outer') data = data_merged.merge(data_partial, how='outer') print('data.shape=' + str(data.shape) + ' merged decisions whose labels are yes, no, and partial') # Removing decision_description and decision_labels whose values are -1 and -2 indexNames = data[(data['decision_description'] == str(-1)) | (data['decision_description'] == str(-2)) | ( data['decision_label'] == str(-1)) | (data['decision_label'] == str(-2))].index data.drop(indexNames, inplace=True) print('data.shape=' + str(data.shape) + ' removed -1 and -2 decision descriptions and labels') data.to_csv("dataset_processed_original.csv", index=False) def perform_additional_processing(): df = pd.read_csv("dataset_processed_original.csv") # remove strange " characters sometimes occurring in the beginning and at the end of a line df.ementa_filepath = df.ementa_filepath.str.replace('^"', '') df.decision_unanimity = df.decision_unanimity.str.replace('"$', '') # removing process_type and judgment_date, since they are the same everywhere (-) # decisions only contains 'None', nan and '-2' # ementa_filepath refers to the name of file in the filesystem that we created when we scraped the data from the Court. It is temporary data and can be removed # decision_description = ementa_text - decision_text - decision_unanimity_text df = df.drop(['process_type', 'judgment_date', 'decisions', 'ementa_filepath'], axis=1) # some rows are somehow not read correctly. With this, we can filter them df = df[df.decision_text.str.len() > 1] # rename "-2" to more descriptive name ==> -2 means, that they were not able to determine it df.decision_unanimity = df.decision_unanimity.replace('-2', 'not_determined') # rename cols for more clarity df = df.rename(columns={"decision_unanimity": "unanimity_label"}) df = df.rename(columns={"decision_unanimity_text": "unanimity_text"}) df = df.rename(columns={"decision_text": "judgment_text"}) df = df.rename(columns={"decision_label": "judgment_label"}) df.to_csv("dataset_processed_additional.csv", index=False) return df perform_original_preprocessing() df = perform_additional_processing() # perform random split 80% train (3234), 10% validation (404), 10% test (405) train, validation, test = np.split(df.sample(frac=1, random_state=42), [int(.8 * len(df)), int(.9 * len(df))]) def save_splits_to_jsonl(config_name): # save to jsonl files for huggingface if config_name: os.makedirs(config_name, exist_ok=True) train.to_json(os.path.join(config_name, "train.jsonl"), lines=True, orient="records", force_ascii=False) validation.to_json(os.path.join(config_name, "validation.jsonl"), lines=True, orient="records", force_ascii=False) test.to_json(os.path.join(config_name, "test.jsonl"), lines=True, orient="records", force_ascii=False) def print_split_table_single_label(train, validation, test, label_name): train_counts = train[label_name].value_counts().to_frame().rename(columns={label_name: "train"}) validation_counts = validation[label_name].value_counts().to_frame().rename(columns={label_name: "validation"}) test_counts = test[label_name].value_counts().to_frame().rename(columns={label_name: "test"}) table = train_counts.join(validation_counts) table = table.join(test_counts) table[label_name] = table.index total_row = {label_name: "total", "train": len(train.index), "validation": len(validation.index), "test": len(test.index)} table = table.append(total_row, ignore_index=True) table = table[[label_name, "train", "validation", "test"]] # reorder columns print(table.to_markdown(index=False)) save_splits_to_jsonl("") print_split_table_single_label(train, validation, test, "judgment_label") print_split_table_single_label(train, validation, test, "unanimity_label") # create second config by filtering out rows with unanimity label == not_determined, while keeping the same splits # train = train[train.unanimity_label != "not_determined"] # validation = validation[validation.unanimity_label != "not_determined"] # test = test[test.unanimity_label != "not_determined"] # it is a very small dataset and very imbalanced (only very few not-unanimity labels) # save_splits_to_jsonl("unanimity")