import gradio as gr import os import numpy as np #os.system("pip install pdfminer.six rank_bm25 torch transformers termcolor") from gradio.mix import Series #import re from rank_bm25 import BM25Okapi #import string import torch from transformers import pipeline import pdfminer from pdfminer.high_level import extract_text #from termcolor import colored def read_pdf(file): text = extract_text(file.name) # Split text into smaller docs len_doc = 400 overlap = 50 docs = [] i = 0 while i < len(text): docs.append(text[i:i+len_doc]) i = i + len_doc - overlap return docs # We use BM25 as retriver which will do 1st round of candidate filtering based on word based matching def bm25_tokenizer(text): stop_w = ['a', 'the', 'am', 'is' , 'are', 'who', 'how', 'where', 'when', 'why', 'what'] tokenized_doc = [] for token in text.lower().split(): token = token.strip(string.punctuation) if len(token) > 0 and token not in stop_w: tokenized_doc.append(token) return tokenized_doc def retrieval(query, top_k_retriver, docs, bm25_): bm25_scores = bm25_.get_scores(bm25_tokenizer(query)) top_n = np.argsort(bm25_scores)[::-1][:top_k_retriver] bm25_hits = [{'corpus_id': idx, 'score': bm25_scores[idx], 'docs':docs[idx]} for idx in top_n if bm25_scores[idx] > 0] bm25_hits = sorted(bm25_hits, key=lambda x: x['score'], reverse=True) return bm25_hits qa_model = pipeline("question-answering", model = "deepset/roberta-base-squad2") def qa_ranker(query, docs_, top_k_ranker): ans = [] for doc in docs_: answer = qa_model(question = query, context = doc) answer['doc'] = doc ans.append(answer) return sorted(ans, key=lambda x: x['score'], reverse=True)[:top_k_ranker] def cstr(s, color='black'): return "{}".format(color, s) def cstr_bold(s, color='black'): return "{}".format(color, s) def cstr_break(s, color='black'): return "
{}
".format(color, s) def print_colored(text, start_idx, end_idx, confidence): conf_str = 'Confidence: ' + confidence a = cstr(' '.join([text[:start_idx], \ cstr_bold(text[start_idx:end_idx], color='blue'), \ text[end_idx:], \ cstr_break(conf_str, color='grey')]), color='black') return a def final_qa_pipeline(file, query): docs = read_pdf(file) tokenized_corpus = [] for doc in docs: tokenized_corpus.append(bm25_tokenizer(doc)) bm25 = BM25Okapi(tokenized_corpus) top_k_retriver, top_k_ranker = 20,3 lvl1 = retrieval(query, top_k_retriver, docs, bm25) if len(lvl1) > 0: fnl_rank = qa_ranker(query, [l["docs"] for l in lvl1], top_k_ranker) #return (fnl_rank[0]["answer"], str(np.round(100*fnl_rank[0]["score"],2))+"%" , fnl_rank[0]['doc']) #return (print_colored(fnl_rank[0]['doc'], fnl_rank[0]['start'], fnl_rank[0]['end']), str(np.round(100*fnl_rank[0]["score"],2))+"%" top1 = print_colored(fnl_rank[0]['doc'], fnl_rank[0]['start'], fnl_rank[0]['end'], str(np.round(100*fnl_rank[0]["score"],2))+"%") if len(lvl1)>1: top2 = print_colored(fnl_rank[1]['doc'], fnl_rank[1]['start'], fnl_rank[1]['end'], str(np.round(100*fnl_rank[1]["score"],2))+"%") else: top2 = "None" return (top1, top2) #for fnl_ in fnl_rank: # print("\n") # print_colored(fnl_['doc'], fnl_['start'], fnl_['end']) # print(colored("Confidence score of ") + colored(str(fnl_['score'])[:4], attrs=['bold'])) else: return ("No match","No match") examples = [ [os.path.abspath("dbs-annual-report-2020.pdf"), "how much dividend was paid to shareholders ?"], [os.path.abspath("dbs-annual-report-2020.pdf"), "what are the key risks ?"], [os.path.abspath("dbs-annual-report-2020.pdf"), "what is the sustainability focus ?"], [os.path.abspath("NASDAQ_AAPL_2020.pdf"), "how much are the outstanding shares ?"], [os.path.abspath("NASDAQ_AAPL_2020.pdf"), "How high is shareholders equity ?"], [os.path.abspath("NASDAQ_AAPL_2020.pdf"), "what is competitors strategy ?"], ] iface = gr.Interface( fn = final_qa_pipeline, inputs = [gr.inputs.File(label="input pdf file"), gr.inputs.Textbox(label="Question:")], outputs = [gr.outputs.HTML(label="Top 1 answer"), gr.outputs.HTML(label="Top 2 answer")], examples=examples, theme = "darkhuggingface", title = "Question Answering on company annual reports", description = "Navigate long annual reports by using Machine learning to answer your questions. \nSimply upload any annual report pdf you are interested in and ask model a question OR load an example from below." ) iface.launch()