import time import streamlit as st import torch import string from annotated_text import annotated_text from flair.data import Sentence from flair.models import SequenceTagger from transformers import BertTokenizer, BertForMaskedLM import BatchInference as bd import batched_main_NER as ner import aggregate_server_json as aggr import json DEFAULT_TOP_K = 20 SPECIFIC_TAG=":__entity__" @st.cache(suppress_st_warning=True, allow_output_mutation=True) def POS_get_model(model_name): val = SequenceTagger.load(model_name) # Load the model return val def getPos(s: Sentence): texts = [] labels = [] for t in s.tokens: for label in t.annotation_layers.keys(): texts.append(t.text) labels.append(t.get_labels(label)[0].value) return texts, labels def getDictFromPOS(texts, labels): return [["dummy",t,l,"dummy","dummy" ] for t, l in zip(texts, labels)] def decode(tokenizer, pred_idx, top_clean): ignore_tokens = string.punctuation + '[PAD]' tokens = [] for w in pred_idx: token = ''.join(tokenizer.decode(w).split()) if token not in ignore_tokens: tokens.append(token.replace('##', '')) return '\n'.join(tokens[:top_clean]) def encode(tokenizer, text_sentence, add_special_tokens=True): text_sentence = text_sentence.replace('', tokenizer.mask_token) # if is the last token, append a "." so that models dont predict punctuation. if tokenizer.mask_token == text_sentence.split()[-1]: text_sentence += ' .' input_ids = torch.tensor([tokenizer.encode(text_sentence, add_special_tokens=add_special_tokens)]) mask_idx = torch.where(input_ids == tokenizer.mask_token_id)[1].tolist()[0] return input_ids, mask_idx def get_all_predictions(text_sentence, top_clean=5): # ========================= BERT ================================= input_ids, mask_idx = encode(bert_tokenizer, text_sentence) with torch.no_grad(): predict = bert_model(input_ids)[0] bert = decode(bert_tokenizer, predict[0, mask_idx, :].topk(top_k).indices.tolist(), top_clean) return {'bert': bert} def get_bert_prediction(input_text,top_k): try: input_text += ' ' res = get_all_predictions(input_text, top_clean=int(top_k)) return res except Exception as error: pass def load_pos_model(): checkpoint = "flair/pos-english" return POS_get_model(checkpoint) def init_session_states(): if 'top_k' not in st.session_state: st.session_state['top_k'] = 20 if 'pos_model' not in st.session_state: st.session_state['pos_model'] = None if 'bio_model' not in st.session_state: st.session_state['bio_model'] = None if 'phi_model' not in st.session_state: st.session_state['phi_model'] = None if 'ner_bio' not in st.session_state: st.session_state['ner_bio'] = None if 'ner_phi' not in st.session_state: st.session_state['ner_phi'] = None if 'aggr' not in st.session_state: st.session_state['aggr'] = None def get_pos_arr(input_text,display_area): if (st.session_state['pos_model'] is None): display_area.text("Loading model 3 of 3.Loading POS model...") st.session_state['pos_model'] = load_pos_model() s = Sentence(input_text) st.session_state['pos_model'].predict(s) texts, labels = getPos(s) pos_results = getDictFromPOS(texts, labels) return pos_results def perform_inference(text,display_area): if (st.session_state['bio_model'] is None): display_area.text("Loading model 1 of 3. Bio model...") st.session_state['bio_model'] = bd.BatchInference("bio/desc_a100_config.json",'ajitrajasekharan/biomedical',False,False,DEFAULT_TOP_K,True,True, "bio/","bio/a100_labels.txt",False) if (st.session_state['phi_model'] is None): display_area.text("Loading model 2 of 3. PHI model...") st.session_state['phi_model'] = bd.BatchInference("bbc/desc_bbc_config.json",'bert-base-cased',False,False,DEFAULT_TOP_K,True,True, "bbc/","bbc/bbc_labels.txt",False) #Load POS model if needed and gets POS tags if (SPECIFIC_TAG not in text): pos_arr = get_pos_arr(text,display_area) else: pos_arr = None if (st.session_state['ner_bio'] is None): display_area.text("Initializing BIO module...") st.session_state['ner_bio'] = ner.UnsupNER("bio/ner_a100_config.json") if (st.session_state['ner_phi'] is None): display_area.text("Initializing PHI module...") st.session_state['ner_phi'] = ner.UnsupNER("bbc/ner_bbc_config.json") if (st.session_state['aggr'] is None): display_area.text("Initializing Aggregation modeule...") st.session_state['aggr'] = aggr.AggregateNER("./ensemble_config.json") display_area.text("Getting results from BIO model...") bio_descs = st.session_state['bio_model'].get_descriptors(text,pos_arr) display_area.text("Getting results from PHI model...") phi_results = st.session_state['phi_model'].get_descriptors(text,pos_arr) display_area.text("Aggregating BIO & PHI results...") bio_ner = st.session_state['ner_bio'].tag_sentence_service(text,bio_descs) phi_ner = st.session_state['ner_phi'].tag_sentence_service(text,phi_results) combined_arr = [json.loads(bio_ner),json.loads(phi_ner)] aggregate_results = st.session_state['aggr'].fetch_all(text,combined_arr) return aggregate_results sent_arr = [ "Lou Gehrig who works for XCorp and lives in New York suffers from Parkinson's ", "Parkinson who works for XCorp and lives in New York suffers from Lou Gehrig's", "lou gehrig was diagnosed with Parkinson's ", "A eGFR below 60 indicates chronic kidney disease", "Overexpression of EGFR occurs across a wide range of different cancers", "Stanford called", "He was diagnosed with non small cell lung cancer", "Her hypophysitis secondary to ipilimumab was well managed with supplemental hormones", "I met my girl friends at the pub ", "I met my New York friends at the pub", "I met my XCorp friends at the pub", "I met my two friends at the pub", "Bio-Techne's genomic tools include advanced tissue-based in-situ hybridization assays sold under the ACD brand as well as a portfolio of assays for prostate cancer diagnosis ", "There are no treatment options specifically indicated for ACD and physicians must utilize agents approved for other dermatology conditions", "As ACD has been implicated in apoptosis-resistant glioblastoma (GBM), there is a high medical need for identifying novel ACD-inducing drugs ", "Located in the heart of Dublin , in the family home of acclaimed writer Oscar Wilde , ACD provides the perfect backdrop to inspire Irish (and Irish-at-heart) students to excel in business and the arts", "Patients treated with anticancer chemotherapy drugs ( ACD ) are vulnerable to infectious diseases due to immunosuppression and to the direct impact of ACD on their intestinal microbiota ", "In the LASOR trial , increasing daily imatinib dose from 400 to 600mg induced MMR at 12 and 24 months in 25% and 36% of the patients, respectively, who had suboptimal cytogenetic responses ", "The sky turned dark in advance of the storm that was coming from the east ", "She loves to watch Sunday afternoon football with her family ", "Paul Erdos died at 83 " ] sent_arr_masked = [ "Lou Gehrig:__entity__ who works for XCorp:__entity__ and lives in New:__entity__ York:__entity__ suffers from Parkinson's:__entity__ ", "Parkinson:__entity__ who works for XCorp:__entity__ and lives in New:__entity__ York:__entity__ suffers from Lou:__entity__ Gehrig's:__entity__", "lou:__entity__ gehrig:__entity__ was diagnosed with Parkinson's:__entity__ ", "A eGFR:__entity__ below 60 indicates chronic kidney disease", "Overexpression of EGFR:__entity__ occurs across a wide range of different cancers", "Stanford:__entity__ called", "He was diagnosed with non:__entity__ small:__entity__ cell:__entity__ lung:__entity__ cancer:__entity__", "Her hypophysitis:__entity__ secondary to ipilimumab:__entity__ was well managed with supplemental:__entity__ hormones:__entity__", "I met my girl:__entity__ friends at the pub ", "I met my New:__entity__ York:__entity__ friends at the pub", "I met my XCorp:__entity__ friends at the pub", "I met my two:__entity__ friends at the pub", "Bio-Techne's genomic tools include advanced tissue-based in-situ hybridization assays sold under the ACD:__entity__ brand as well as a portfolio of assays for prostate cancer diagnosis ", "There are no treatment options specifically indicated for ACD:__entity__ and physicians must utilize agents approved for other dermatology conditions", "As ACD:__entity__ has been implicated in apoptosis-resistant glioblastoma (GBM), there is a high medical need for identifying novel ACD-inducing drugs ", "Located in the heart of Dublin , in the family home of acclaimed writer Oscar Wilde , ACD:__entity__ provides the perfect backdrop to inspire Irish (and Irish-at-heart) students to excel in business and the arts", "Patients treated with anticancer chemotherapy drugs ( ACD:__entity__ ) are vulnerable to infectious diseases due to immunosuppression and to the direct impact of ACD on their intestinal microbiota ", "In the LASOR:__entity__ trial:__entity__ , increasing daily imatinib dose from 400 to 600mg induced MMR at 12 and 24 months in 25% and 36% of the patients, respectively, who had suboptimal cytogenetic responses ", "The sky turned dark:__entity__ in advance of the storm that was coming from the east ", "She loves to watch Sunday afternoon football:__entity__ with her family ", "Paul:__entity__ Erdos:__entity__ died at 83:__entity__ " ] def init_selectbox(): return st.selectbox( 'Choose any of the sentences in pull-down below', sent_arr,key='my_choice') def on_text_change(): text = st.session_state.my_text print("in callback: " + text) perform_inference(text) def main(): try: init_session_states() st.markdown("

Biomedical and PHI NER ensemble

", unsafe_allow_html=True) st.markdown("

Using pretrained models with no fine tuning

", unsafe_allow_html=True) #st.markdown(""" #

App under construction... (not in working condition yet)

#""", unsafe_allow_html=True) st.markdown("""



""", unsafe_allow_html=True) st.write("This app uses 3 models. Two Pretrained Bert models (**no fine tuning**) and a POS tagger") with st.form('my_form'): selected_sentence = init_selectbox() text_input = st.text_area(label='Type any sentence below',value="") submit_button = st.form_submit_button('Submit') input_status_area = st.empty() display_area = st.empty() if submit_button: start = time.time() if (len(text_input) == 0): text_input = sent_arr_masked[sent_arr.index(selected_sentence)] input_status_area.text("Input sentence: " + text_input) results = perform_inference(text_input,display_area) display_area.empty() with display_area.container(): st.text(f"prediction took {time.time() - start:.2f}s") st.json(results) st.markdown(""" Note: The example sentences in the pull-down above test biomedical & PHI entities. To see valid predictions specifically for biomedical entities use this app. For PHI entities only (Person,location, Organization) use this app """, unsafe_allow_html=True) st.markdown("""

Models used:
(1) Biomedical model pretrained on Pubmed,Clinical trials and BookCorpus subset.
(2) Bert-base-cased (for PHI entities - Person/location/organization etc.)
(3) Flair POS tagger
#""", unsafe_allow_html=True) st.markdown("""

App link to examine pretrained models used to perform NER without fine tuning

""", unsafe_allow_html=True) st.markdown("""

Github link to same working code (without UI) as separate microservices

""", unsafe_allow_html=True) except Exception as e: print("Some error occurred in main") st.exception(e) if __name__ == "__main__": main()