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import json |
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import os |
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import pickle as pkl |
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import re |
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import shutil |
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import string |
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from collections import Counter |
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from pathlib import Path |
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import numpy as np |
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import torch |
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from transformers import AutoModel, AutoTokenizer |
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from pathlib import Path |
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SERVER_URL = "http://localhost:8000/" |
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MAX_USER_QUERY_LEN = 128 |
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CURRENT_DIR = Path(__file__).parent |
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DEPLOYMENT_DIR = CURRENT_DIR / "deployment" |
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DATA_PATH = CURRENT_DIR / "files" |
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CLIENT_DIR = DEPLOYMENT_DIR / "client_dir" |
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SERVER_DIR = DEPLOYMENT_DIR / "server_dir" |
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KEYS_DIR = DEPLOYMENT_DIR / ".fhe_keys" |
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ALL_DIRS = [KEYS_DIR, CLIENT_DIR, SERVER_DIR] |
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LOGREG_MODEL_PATH = CURRENT_DIR / "models" / "cml_logreg.model" |
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ORIGINAL_FILE_PATH = DATA_PATH / "original_document.txt" |
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ANONYMIZED_FILE_PATH = DATA_PATH / "anonymized_document.txt" |
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MAPPING_UUID_PATH = DATA_PATH / "original_document_uuid_mapping.json" |
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MAPPING_ANONYMIZED_SENTENCES_PATH = DATA_PATH / "mapping_clear_to_anonymized.pkl" |
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MAPPING_ENCRYPTED_SENTENCES_PATH = DATA_PATH / "mapping_clear_to_encrypted.pkl" |
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MAPPING_DOC_EMBEDDING_PATH = DATA_PATH / "mapping_doc_embedding_path.pkl" |
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PROMPT_PATH = DATA_PATH / "chatgpt_prompt.txt" |
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DEFAULT_QUERIES = { |
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"Example Query 1": "What is the amount of the contract between David and Kate?", |
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"Example Query 2": "How many people are engaged in the contract?", |
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"Example Query 3": "Does Kate have an international bank account?", |
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} |
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TOKENIZER = AutoTokenizer.from_pretrained("obi/deid_roberta_i2b2") |
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EMBEDDINGS_MODEL = AutoModel.from_pretrained("obi/deid_roberta_i2b2") |
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PUNCTUATION_LIST = list(string.punctuation) |
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PUNCTUATION_LIST.remove("%") |
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PUNCTUATION_LIST.remove("$") |
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PUNCTUATION_LIST = "".join(PUNCTUATION_LIST) + '°' |
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def clean_directory() -> None: |
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"""Clear direcgtories""" |
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print("Cleaning...\n") |
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for target_dir in ALL_DIRS: |
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if os.path.exists(target_dir) and os.path.isdir(target_dir): |
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shutil.rmtree(target_dir) |
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target_dir.mkdir(exist_ok=True, parents=True) |
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def get_batch_text_representation(texts, model, tokenizer, batch_size=1): |
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"""Get mean-pooled representations of given texts in batches.""" |
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mean_pooled_batch = [] |
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for i in range(0, len(texts), batch_size): |
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batch_texts = texts[i : i + batch_size] |
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inputs = tokenizer(batch_texts, return_tensors="pt", padding=True, truncation=True) |
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with torch.no_grad(): |
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outputs = model(**inputs, output_hidden_states=False) |
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last_hidden_states = outputs.last_hidden_state |
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input_mask_expanded = ( |
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inputs["attention_mask"].unsqueeze(-1).expand(last_hidden_states.size()).float() |
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) |
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sum_embeddings = torch.sum(last_hidden_states * input_mask_expanded, 1) |
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sum_mask = input_mask_expanded.sum(1) |
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mean_pooled = sum_embeddings / sum_mask |
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mean_pooled_batch.extend(mean_pooled.cpu().detach().numpy()) |
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return np.array(mean_pooled_batch) |
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def is_user_query_valid(user_query: str) -> bool: |
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""" |
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Check if the `user_query` is None and not empty. |
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Args: |
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user_query (str): The input text to be checked. |
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Returns: |
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bool: True if the `user_query` is None or empty, False otherwise. |
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""" |
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is_default_query = user_query in DEFAULT_QUERIES.values() |
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is_exceeded_max_length = user_query is not None and len(user_query) <= MAX_USER_QUERY_LEN |
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return not is_default_query and not is_exceeded_max_length |
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def compare_texts_ignoring_extra_spaces(original_text, modified_text): |
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"""Check if the modified_text is identical to the original_text except for additional spaces. |
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Args: |
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original_text (str): The original text for comparison. |
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modified_text (str): The modified text to compare against the original. |
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Returns: |
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(bool): True if the modified_text is the same as the original_text except for |
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additional spaces; False otherwise. |
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""" |
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normalized_original = " ".join(original_text.split()) |
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normalized_modified = " ".join(modified_text.split()) |
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return normalized_original == normalized_modified |
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def is_strict_deletion_only(original_text, modified_text): |
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pattern = r"(?<=[\w])(?=[^\w\s])|(?<=[^\w\s])(?=[\w])" |
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original_text = re.sub(pattern, " ", original_text) |
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modified_text = re.sub(pattern, " ", modified_text) |
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original_words = Counter(original_text.lower().split()) |
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modified_words = Counter(modified_text.lower().split()) |
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base_words = all(item in original_words.keys() for item in modified_words.keys()) |
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base_count = all(original_words[k] >= v for k, v in modified_words.items()) |
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return base_words and base_count |
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def read_txt(file_path): |
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"""Read text from a file.""" |
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with open(file_path, "r", encoding="utf-8") as file: |
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return file.read() |
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def write_txt(file_path, data): |
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"""Write text to a file.""" |
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with open(file_path, "w", encoding="utf-8") as file: |
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file.write(data) |
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def write_pickle(file_path, data): |
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"""Save data to a pickle file.""" |
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with open(file_path, "wb") as f: |
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pkl.dump(data, f) |
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def read_pickle(file_name): |
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"""Load data from a pickle file.""" |
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with open(file_name, "rb") as file: |
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return pkl.load(file) |
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def read_json(file_name): |
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"""Load data from a json file.""" |
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with open(file_name, "r") as file: |
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return json.load(file) |
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def write_json(file_name, data): |
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"""Save data to a json file.""" |
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with open(file_name, "w", encoding="utf-8") as file: |
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json.dump(data, file, indent=4, sort_keys=True) |
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def write_bytes(path, data): |
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"""Save binary data.""" |
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with path.open("wb") as f: |
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f.write(data) |
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def read_bytes(path): |
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"""Load data from a binary file.""" |
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with path.open("rb") as f: |
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return f.read() |
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