import csv import os from pathlib import Path from tqdm import tqdm try: from .section_parser import custom_mimic_cxr_rules, section_text except ImportError: from section_parser import custom_mimic_cxr_rules, section_text def list_rindex(l, s): """ Source: https://github.com/MIT-LCP/mimic-cxr/blob/master/txt/create_section_files.py """ """Helper function: *last* matching element in a list""" return len(l) - l[-1::-1].index(s) - 1 def create_section_files(reports_path, output_path, no_split): """ Modification of: https://github.com/MIT-LCP/mimic-cxr/blob/master/txt/create_section_files.py """ reports_path = Path(reports_path) output_path = Path(output_path) if not output_path.exists(): output_path.mkdir() # not all reports can be automatically sectioned # we load in some dictionaries which have manually determined sections custom_section_names, custom_indices = custom_mimic_cxr_rules() # get all higher up folders (p00, p01, etc) p_grp_folders = os.listdir(reports_path) p_grp_folders = [p for p in p_grp_folders if p.startswith('p') and len(p) == 3] p_grp_folders.sort() # patient_studies will hold the text for use in NLP labeling patient_studies = [] # study_sections will have an element for each study # this element will be a list, each element having text for a specific section study_sections = [] for p_grp in p_grp_folders: # get patient folders, usually around ~6k per group folder cxr_path = reports_path / p_grp p_folders = os.listdir(cxr_path) p_folders = [p for p in p_folders if p.startswith('p')] p_folders.sort() # For each patient in this grouping folder print(p_grp) for p in tqdm(p_folders): patient_path = cxr_path / p # get the filename for all their free-text reports studies = os.listdir(patient_path) studies = [s for s in studies if s.endswith('.txt') and s.startswith('s')] for s in studies: # load in the free-text report with open(patient_path / s, 'r') as fp: text = ''.join(fp.readlines()) # get study string name without the txt extension s_stem = s[0:-4] # custom rules for some poorly formatted reports if s_stem in custom_indices: idx = custom_indices[s_stem] patient_studies.append([s_stem, text[idx[0]:idx[1]]]) continue # split text into sections sections, section_names, section_idx = section_text(text) # check to see if this has mis-named sections # e.g. sometimes the impression is in the comparison section if s_stem in custom_section_names: sn = custom_section_names[s_stem] idx = list_rindex(section_names, sn) patient_studies.append([s_stem, sections[idx].strip()]) continue # grab the *last* section with the given title # prioritizes impression > findings, etc. # "last_paragraph" is text up to the end of the report # many reports are simple, and have a single section # header followed by a few paragraphs # these paragraphs are grouped into section "last_paragraph" # note also comparison seems unusual but if no other sections # exist the radiologist has usually written the report # in the comparison section idx = -1 for sn in ('impression', 'findings', 'indication', 'history', 'technique', 'last_paragraph', 'comparison'): if sn in section_names: idx = list_rindex(section_names, sn) break if idx == -1: # we didn't find any sections we can use :( patient_studies.append([s_stem, '']) print(f'no impression/findings: {patient_path / s}') else: # store the text of the conclusion section patient_studies.append([s_stem, sections[idx].strip()]) study_sectioned = [s_stem] for sn in ('impression', 'findings', 'indication', 'history', 'technique', 'last_paragraph', 'comparison'): if sn in section_names: idx = list_rindex(section_names, sn) study_sectioned.append(sections[idx].strip()) else: study_sectioned.append(None) study_sections.append(study_sectioned) # write distinct files to facilitate modular processing if len(patient_studies) > 0: # write out a single CSV with the sections with open(output_path / 'mimic_cxr_sectioned.csv', 'w') as fp: csvwriter = csv.writer(fp) # write header csvwriter.writerow(['study', 'impression', 'findings', 'indication', 'history', 'technique', 'last_paragraph', 'comparison']) for row in study_sections: csvwriter.writerow(row) if no_split: # write all the reports out to a single file with open(output_path / f'mimic_cxr_sections.csv', 'w') as fp: csvwriter = csv.writer(fp) for row in patient_studies: csvwriter.writerow(row) else: # write ~22 files with ~10k reports each n = 0 jmp = 10000 while n < len(patient_studies): n_fn = n // jmp with open(output_path / f'mimic_cxr_{n_fn:02d}.csv', 'w') as fp: csvwriter = csv.writer(fp) for row in patient_studies[n:n+jmp]: csvwriter.writerow(row) n += jmp