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team1_Dhiria / utils.py

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	import os
	import shutil
	from pathlib import Path
	from typing import List, Tuple, Union

	import numpy
	import pandas

	from concrete.ml.sklearn import XGBClassifier as ConcreteXGBoostClassifier

	# Max Input to be displayed on the HuggingFace space brower using Gradio
	# Too large inputs, slow down the server: https://github.com/gradio-app/gradio/issues/1877
	INPUT_BROWSER_LIMIT = 635

	# Store the server's URL
	SERVER_URL = "http://localhost:8000/"

	CURRENT_DIR = Path(__file__).parent
	DEPLOYMENT_DIR = CURRENT_DIR / "deployment_logit_11"
	KEYS_DIR = DEPLOYMENT_DIR / ".fhe_keys"
	CLIENT_DIR = DEPLOYMENT_DIR / "client_dir"
	SERVER_DIR = DEPLOYMENT_DIR / "server_dir"

	ALL_DIRS = [KEYS_DIR, CLIENT_DIR, SERVER_DIR]

	# Columns that define the target
	TARGET_COLUMNS = ["prognosis_encoded", "prognosis"]

	TRAINING_FILENAME = "./data/Training_preprocessed.csv"
	TESTING_FILENAME = "./data/Testing_preprocessed.csv"

	# pylint: disable=invalid-name

	from typing import List, Tuple


	def pretty_print(
	inputs, case_conversion=str.title, which_replace: str = "_", to_what: str = " ", delimiter=None
	):
	"""
	Prettify and sort the input as a list of string.

	Args:
	inputs (Any): The inputs to be prettified.

	Returns:
	List: The prettified and sorted list of inputs.

	"""
	# Flatten the list if required
	pretty_list = []
	for item in inputs:
	if isinstance(item, list):
	pretty_list.extend(item)
	else:
	pretty_list.append(item)

	# Sort
	pretty_list = sorted(list(set(pretty_list)))
	# Replace
	pretty_list = [item.replace(which_replace, to_what) for item in pretty_list]
	pretty_list = [case_conversion(item) for item in pretty_list]
	if delimiter:
	pretty_list = f"{delimiter.join(pretty_list)}."

	return pretty_list


	def clean_directory() -> None:
	"""
	Clear direcgtories
	"""
	print("Cleaning...\n")
	for target_dir in ALL_DIRS:
	if os.path.exists(target_dir) and os.path.isdir(target_dir):
	shutil.rmtree(target_dir)
	target_dir.mkdir(exist_ok=True, parents=True)


	def get_disease_name(encoded_prediction: int, file_name: str = TRAINING_FILENAME) -> str:
	"""Return the disease name given its encoded label.

	Args:
	encoded_prediction (int): The encoded prediction
	file_name (str): The data file path

	Returns:
	str: The according disease name
	"""
	df = pandas.read_csv(file_name, usecols=TARGET_COLUMNS).drop_duplicates()
	disease_name, _ = df[df[TARGET_COLUMNS[0]] == encoded_prediction].values.flatten()
	return disease_name


	def load_data() -> Union[Tuple[pandas.DataFrame, numpy.ndarray], List]:
	"""
	Return the data

	Args:
	None

	Return:
	The train, testing set and valid symptoms.


	"""
	# Load data
	df_train = pandas.read_csv(TRAINING_FILENAME)
	df_test = pandas.read_csv(TESTING_FILENAME)

	# Separate the traget from the training / testing set:
	# TARGET_COLUMNS[0] -> "prognosis_encoded" -> contains the numeric label of the disease
	# TARGET_COLUMNS[1] -> "prognosis" -> contains the name of the disease

	y_train = df_train[TARGET_COLUMNS[0]]
	X_train = df_train.drop(columns=TARGET_COLUMNS, axis=1, errors="ignore")

	y_test = df_test[TARGET_COLUMNS[0]]
	X_test = df_test.drop(columns=TARGET_COLUMNS, axis=1, errors="ignore")

	return (
	(X_train, X_test),
	(y_train, y_test),
	X_train.columns.to_list(),
	df_train[TARGET_COLUMNS[1]].unique().tolist(),
	)


	def load_model(X_train: pandas.DataFrame, y_train: numpy.ndarray):
	"""
	Load a pre-trained serialized model

	Args:
	X_train (pandas.DataFrame): Training set
	y_train (numpy.ndarray): Targets of the training set

	Return:
	The Concrete ML model and its circuit
	"""
	# Parameters
	concrete_args = {"max_depth": 1, "n_bits": 3, "n_estimators": 3, "n_jobs": -1}
	classifier = ConcreteXGBoostClassifier(**concrete_args)
	# Train the model
	classifier.fit(X_train, y_train)
	# Compile the model
	circuit = classifier.compile(X_train)

	return classifier, circuit