import numpy as np import click import pandas as pd from io import StringIO import os import xml.etree.ElementTree as ET import requests import json import glob import re from .ned import ned from .ner import ner from .tsv import read_tsv, write_tsv, extract_doc_links from .ocr import get_conf_color @click.command() @click.argument('tsv-file', type=click.Path(exists=True), required=True, nargs=1) @click.argument('url-file', type=click.Path(exists=False), required=True, nargs=1) def extract_document_links(tsv_file, url_file): parts = extract_doc_links(tsv_file) urls = [part['url'] for part in parts] urls = pd.DataFrame(urls, columns=['url']) urls.to_csv(url_file, sep="\t", quoting=3, index=False) @click.command() @click.argument('tsv-file', type=click.Path(exists=True), required=True, nargs=1) @click.argument('annotated-tsv-file', type=click.Path(exists=False), required=True, nargs=1) def annotate_tsv(tsv_file, annotated_tsv_file): parts = extract_doc_links(tsv_file) annotated_parts = [] for part in parts: part_data = StringIO(part['header'] + part['text']) df = pd.read_csv(part_data, sep="\t", comment='#', quoting=3) df['url_id'] = len(annotated_parts) annotated_parts.append(df) df = pd.concat(annotated_parts) df.to_csv(annotated_tsv_file, sep="\t", quoting=3, index=False) @click.command() @click.argument('page-xml-file', type=click.Path(exists=True), required=True, nargs=1) @click.argument('tsv-out-file', type=click.Path(), required=True, nargs=1) @click.option('--purpose', type=click.Choice(['NERD', 'OCR'], case_sensitive=False), default="NERD", help="Purpose of output tsv file. " "\n\nNERD: NER/NED application/ground-truth creation. " "\n\nOCR: OCR application/ground-truth creation. " "\n\ndefault: NERD.") @click.option('--image-url', type=str, default='http://empty') @click.option('--ner-rest-endpoint', type=str, default=None, help="REST endpoint of sbb_ner service. See https://github.com/qurator-spk/sbb_ner for details. " "Only applicable in case of NERD.") @click.option('--ned-rest-endpoint', type=str, default=None, help="REST endpoint of sbb_ned service. See https://github.com/qurator-spk/sbb_ned for details. " "Only applicable in case of NERD.") @click.option('--noproxy', type=bool, is_flag=True, help='disable proxy. default: enabled.') @click.option('--scale-factor', type=float, default=0.5685, help='default: 0.5685') @click.option('--ned-threshold', type=float, default=None) @click.option('--min-confidence', type=float, default=None) @click.option('--max-confidence', type=float, default=None) def page2tsv(page_xml_file, tsv_out_file, purpose, image_url, ner_rest_endpoint, ned_rest_endpoint, noproxy, scale_factor, ned_threshold, min_confidence, max_confidence): if purpose == "NERD": out_columns = ['No.', 'TOKEN', 'NE-TAG', 'NE-EMB', 'ID', 'url_id', 'left', 'right', 'top', 'bottom', 'conf'] elif purpose == "OCR": out_columns = ['TEXT', 'url_id', 'left', 'right', 'top', 'bottom', 'conf'] if min_confidence is not None and max_confidence is not None: out_columns += ['ocrconf'] else: raise RuntimeError("Unknown purpose.") if noproxy: os.environ['no_proxy'] = '*' tree = ET.parse(page_xml_file) xmlns = tree.getroot().tag.split('}')[0].strip('{') urls = [] if os.path.exists(tsv_out_file): parts = extract_doc_links(tsv_out_file) urls = [part['url'] for part in parts] else: pd.DataFrame([], columns=out_columns).to_csv(tsv_out_file, sep="\t", quoting=3, index=False) tsv = [] line_info = [] for rgn_number, region in enumerate(tree.findall('.//{%s}TextRegion' % xmlns)): for line_number, text_line in enumerate(region.findall('.//{%s}TextLine' % xmlns)): points = [int(scale_factor * float(pos)) for coords in text_line.findall('./{%s}Coords' % xmlns) for p in coords.attrib['points'].split(' ') for pos in p.split(',')] x_points, y_points = points[0::2], points[1::2] left, right, top, bottom = min(x_points), max(x_points), min(y_points), max(y_points) if min_confidence is not None and max_confidence is not None: conf = np.max([float(text.attrib['conf']) for text in text_line.findall('./{%s}TextEquiv' % xmlns)]) else: conf = np.nan line_info.append((line_number, len(urls), left, right, top, bottom, conf)) for word in text_line.findall('./{%s}Word' % xmlns): for text_equiv in word.findall('./{%s}TextEquiv/{%s}Unicode' % (xmlns, xmlns)): text = text_equiv.text for coords in word.findall('./{%s}Coords' % xmlns): # transform OCR coordinates using `scale_factor` to derive # correct coordinates for the web presentation image points = [int(scale_factor * float(pos)) for p in coords.attrib['points'].split(' ') for pos in p.split(',')] x_points, y_points = points[0::2], points[1::2] left, right, top, bottom = min(x_points), max(x_points), min(y_points), max(y_points) tsv.append((rgn_number, line_number, left + (right - left) / 2.0, text, len(urls), left, right, top, bottom)) line_info = pd.DataFrame(line_info, columns=['line', 'url_id', 'left', 'right', 'top', 'bottom', 'conf']) if min_confidence is not None and max_confidence is not None: line_info['ocrconf'] = line_info.conf.map(lambda x: get_conf_color(x, min_confidence, max_confidence)) tsv = pd.DataFrame(tsv, columns=['rid', 'line', 'hcenter'] + ['TEXT', 'url_id', 'left', 'right', 'top', 'bottom']) if len(tsv) == 0: return with open(tsv_out_file, 'a') as f: f.write('# ' + image_url + '\n') vlinecenter = pd.DataFrame(tsv[['line', 'top']].groupby('line', sort=False).mean().top + (tsv[['line', 'bottom']].groupby('line', sort=False).mean().bottom - tsv[['line', 'top']].groupby('line', sort=False).mean().top) / 2, columns=['vlinecenter']) tsv = tsv.merge(vlinecenter, left_on='line', right_index=True) regions = [region.sort_values(['vlinecenter', 'hcenter']) for rid, region in tsv.groupby('rid', sort=False)] tsv = pd.concat(regions) if purpose == 'NERD': tsv['No.'] = 0 tsv['NE-TAG'] = 'O' tsv['NE-EMB'] = 'O' tsv['ID'] = '-' tsv['conf'] = '-' tsv = tsv.rename(columns={'TEXT': 'TOKEN'}) elif purpose == 'OCR': tsv = pd.DataFrame([(line, " ".join(part.TEXT.to_list())) for line, part in tsv.groupby('line')], columns=['line', 'TEXT']) tsv = tsv.merge(line_info, left_on='line', right_on='line') tsv = tsv[out_columns].reset_index(drop=True) try: if purpose == 'NERD' and ner_rest_endpoint is not None: tsv, ner_result = ner(tsv, ner_rest_endpoint) if ned_rest_endpoint is not None: tsv, _ = ned(tsv, ner_result, ned_rest_endpoint, threshold=ned_threshold) tsv.to_csv(tsv_out_file, sep="\t", quoting=3, index=False, mode='a', header=False) except requests.HTTPError as e: print(e) @click.command() @click.argument('tsv-file', type=click.Path(exists=True), required=True, nargs=1) @click.argument('tsv-out-file', type=click.Path(), required=True, nargs=1) @click.option('--ner-rest-endpoint', type=str, default=None, help="REST endpoint of sbb_ner service. See https://github.com/qurator-spk/sbb_ner for details.") @click.option('--ned-rest-endpoint', type=str, default=None, help="REST endpoint of sbb_ned service. See https://github.com/qurator-spk/sbb_ned for details.") @click.option('--ned-json-file', type=str, default=None) @click.option('--noproxy', type=bool, is_flag=True, help='disable proxy. default: proxy is enabled.') @click.option('--ned-threshold', type=float, default=None) def find_entities(tsv_file, tsv_out_file, ner_rest_endpoint, ned_rest_endpoint, ned_json_file, noproxy, ned_threshold): if noproxy: os.environ['no_proxy'] = '*' tsv, urls = read_tsv(tsv_file) try: if ner_rest_endpoint is not None: tsv, ner_result = ner(tsv, ner_rest_endpoint) elif os.path.exists(tsv_file): print('Using NER information that is already contained in file: {}'.format(tsv_file)) tmp = tsv.copy() tmp['sen'] = (tmp['No.'] == 0).cumsum() tmp.loc[~tmp['NE-TAG'].isin(['O', 'B-PER', 'B-LOC', 'B-ORG', 'I-PER', 'I-LOC', 'I-ORG']), 'NE-TAG'] = 'O' ner_result = [[{'word': str(row.TOKEN), 'prediction': row['NE-TAG']} for _, row in sen.iterrows()] for _, sen in tmp.groupby('sen')] else: raise RuntimeError("Either NER rest endpoint or NER-TAG information within tsv_file required.") if ned_rest_endpoint is not None: tsv, ned_result = ned(tsv, ner_result, ned_rest_endpoint, json_file=ned_json_file, threshold=ned_threshold) if ned_json_file is not None and not os.path.exists(ned_json_file): with open(ned_json_file, "w") as fp_json: json.dump(ned_result, fp_json, indent=2, separators=(',', ': ')) write_tsv(tsv, urls, tsv_out_file) except requests.HTTPError as e: print(e) @click.command() @click.option('--xls-file', type=click.Path(exists=True), default=None, help="Read parameters from xls-file. Expected columns: Filename, iiif_url, scale_factor.") @click.option('--directory', type=click.Path(exists=True), default=None, help="Search directory for PPN**/*.xml files. Extract PPN and file number into image-url.") @click.option('--purpose', type=click.Choice(['NERD', 'OCR'], case_sensitive=False), default="NERD", help="Purpose of output tsv file. " "\n\nNERD: NER/NED application/ground-truth creation. " "\n\nOCR: OCR application/ground-truth creation. " "\n\ndefault: NERD.") def make_page2tsv_commands(xls_file, directory, purpose): if xls_file is not None: df = pd.read_excel(xls_file) for _, row in df.iterrows(): print('page2tsv $(OPTIONS) {}.xml {}.tsv --image-url={} --scale-factor={} --purpose={}'. format(row.Filename, row.Filename, row.iiif_url.replace('/full/full', '/left,top,width,height/full'), row.scale_factor, purpose)) elif directory is not None: for file in glob.glob('{}/**/*.xml'.format(directory), recursive=True): ma = re.match('(.*/(PPN[0-9]+)/.*?([0-9]+).*?).xml', file) if ma: print('page2tsv {} {}.tsv ' '--image-url=https://content.staatsbibliothek-berlin.de/dc/' '{}-{}/left,top,width,height/full/1200/default.jpg --scale-factor=1.0 --purpose={}'. format(file, ma.group(1), ma.group(2), ma.group(3), purpose))