import os import re import time import json from itertools import cycle import torch import gradio as gr from urllib.parse import unquote from transformers import AutoModelForCausalLM, AutoTokenizer, StoppingCriteria, StoppingCriteriaList from data import extract_leaves, split_document, handle_broken_output, clean_json_text, sync_empty_fields from examples import examples as input_examples from nuextract_logging import log_event MAX_INPUT_SIZE = 10_000 MAX_NEW_TOKENS = 4_000 MAX_WINDOW_SIZE = 4_000 markdown_description = """ NuMind Logo

NuMind is a startup developing custom information extraction solutions.
NuExtract is a zero-shot model. See the blog posts for more info (NuExtract, NuExtract-v1.5).
We have started to deploy NuMind Enterprise to customize, serve, and monitor NuExtract privately. If that interests you, let's chat 😊.
Website: https://www.numind.ai/

NuExtract-v1.5

NuExtract-v1.5 is a fine-tuning of Phi-3.5-mini-instruct, trained on a private high-quality dataset for structured information extraction. It supports long documents and several languages (English, French, Spanish, German, Portuguese, and Italian). To use the model, provide an input text and a JSON template describing the information you need to extract.

Model: numind/NuExtract-v1.5

NOTE: in this space we restrict the model inputs to a maximum length of 10k tokens, with anything over 4k being processed in a sliding window. For full model performance, self-host the model or contact us. """ def highlight_words(input_text, json_output): colors = cycle(["#90ee90", "#add8e6", "#ffb6c1", "#ffff99", "#ffa07a", "#20b2aa", "#87cefa", "#b0e0e6", "#dda0dd", "#ffdead"]) color_map = {} highlighted_text = input_text leaves = extract_leaves(json_output) for path, value in leaves: path_key = tuple(path) if path_key not in color_map: color_map[path_key] = next(colors) color = color_map[path_key] escaped_value = re.escape(value).replace(r'\ ', r'\s+') # escape value and replace spaces with \s+ pattern = rf"(?<=[ \n\t]){escaped_value}(?=[ \n\t\.\,\?\:\;])" replacement = f"{unquote(value)}" highlighted_text = re.sub(pattern, replacement, highlighted_text, flags=re.IGNORECASE) return highlighted_text def predict_chunk(text, template, current, model, tokenizer): current = clean_json_text(current) input_llm = f"<|input|>\n### Template:\n{template}\n### Current:\n{current}\n### Text:\n{text}\n\n<|output|>" + "{" input_ids = tokenizer(input_llm, return_tensors="pt", truncation=True, max_length=MAX_INPUT_SIZE).to("cuda") output = tokenizer.decode(model.generate(**input_ids, max_new_tokens=MAX_NEW_TOKENS)[0], skip_special_tokens=True) return clean_json_text(output.split("<|output|>")[1]) def sliding_window_prediction(template, text, model, tokenizer, window_size=4000, overlap=128): # Split text into chunks of n tokens tokens = tokenizer.tokenize(text) chunks = split_document(text, window_size, overlap, tokenizer) # Iterate over text chunks prev = template full_pred = "" for i, chunk in enumerate(chunks): print(f"Processing chunk {i}...") pred = predict_chunk(chunk, template, prev, model, tokenizer) # Handle broken output pred = handle_broken_output(pred, prev) # create highlighted text highlighted_pred = highlight_words(text, json.loads(pred)) # Sync empty fields synced_pred = sync_empty_fields(json.loads(pred), json.loads(template)) synced_pred = json.dumps(synced_pred, indent=4, ensure_ascii=False) # Return progress, current prediction, and updated HTML yield f"Processed chunk {i+1}/{len(chunks)}", synced_pred, highlighted_pred # Iterate prev = pred ###### # Load the model and tokenizer model_name = "numind/NuExtract-v1.5" auth_token = os.environ.get("HF_TOKEN") or True model = AutoModelForCausalLM.from_pretrained(model_name, trust_remote_code=True, torch_dtype=torch.bfloat16, device_map="auto", use_auth_token=auth_token) tokenizer = AutoTokenizer.from_pretrained(model_name, use_auth_token=auth_token) model.eval() def gradio_interface_function(template, text, is_example): # reject invalid JSON try: template_json = json.loads(template) except: yield "", "Invalid JSON template", "" return # End the function since there was an error if len(tokenizer.tokenize(text)) > MAX_INPUT_SIZE: yield "", "Input text too long for space. Download model to use unrestricted.", "" return # End the function since there was an error # Initialize the sliding window prediction process prediction_generator = sliding_window_prediction(template, text, model, tokenizer, window_size=MAX_WINDOW_SIZE) # Iterate over the generator to return values at each step for progress, full_pred, html_content in prediction_generator: # yield gr.update(value=chunk_info), gr.update(value=progress), gr.update(value=full_pred), gr.update(value=html_content) yield progress, full_pred, html_content if not is_example: log_event(text, template, full_pred) # Set up the Gradio interface iface = gr.Interface( description=markdown_description, fn=gradio_interface_function, inputs=[ gr.Textbox(lines=2, placeholder="Enter Template here...", label="Template"), gr.Textbox(lines=2, placeholder="Enter input Text here...", label="Input Text"), gr.Checkbox(label="Is Example?", visible=False), ], outputs=[ gr.Textbox(label="Progress"), gr.Textbox(label="Model Output"), gr.HTML(label="Model Output with Highlighted Words"), ], examples=input_examples, # live=True # Enable real-time updates ) iface.launch(debug=True, share=True)