""" utils.py This file contains utility functions that are shared across the project. These functions provide reusable logic to simplify code in other modules. """ # Standard Library Imports import base64 import json import os import random import time from typing import Tuple # Local Application Imports from src import constants from src.config import AUDIO_DIR, logger from src.types import ( ComparisonType, Option, OptionKey, OptionMap, TTSProviderName, VotingResults, ) def truncate_text(text: str, max_length: int = 50) -> str: """ Truncate a string to the specified length, appending ellipses if necessary. Args: text (str): The text to truncate. max_length (int): The maximum length of the truncated string. Returns: str: The truncated text. Examples: >>> truncate_text("Hello, World!", 5) 'Hello...' >>> truncate_text("Short string", 20) 'Short string' >>> truncate_text("Edge case with zero length", 0) '' """ if max_length <= 0: logger.warning(f"Invalid max_length={max_length}. Returning empty string.") return "" is_truncated = len(text) > max_length if is_truncated: logger.debug(f"Truncated text to {max_length} characters.") return text[:max_length] + ("..." if is_truncated else "") def validate_env_var(var_name: str) -> str: """ Validates that an environment variable is set and returns its value. Args: var_name (str): The name of the environment variable to validate. Returns: str: The value of the environment variable. Raises: ValueError: If the environment variable is not set. Examples: >>> import os >>> os.environ["EXAMPLE_VAR"] = "example_value" >>> validate_env_var("EXAMPLE_VAR") 'example_value' >>> validate_env_var("MISSING_VAR") Traceback (most recent call last): ... ValueError: MISSING_VAR is not set. Please ensure it is defined in your environment variables. """ value = os.environ.get(var_name, "") if not value: raise ValueError( f"{var_name} is not set. Please ensure it is defined in your environment variables." ) return value def validate_character_description_length(character_description: str) -> None: """ Validates that a voice description is within specified minimum and maximum length limits. Args: character_description (str): The input character description to validate. Raises: ValueError: If the character description is empty, too short, or exceeds max length. Example: >>> validate_character_description_length("This is a character description.") # Passes validation >>> validate_character_description_length("") # Raises ValueError: "Voice Description must be at least 20 characters long." """ stripped_character_description = character_description.strip() character_description_length = len(stripped_character_description) logger.debug( f"Voice description length being validated: {character_description_length} characters" ) if character_description_length < constants.CHARACTER_DESCRIPTION_MIN_LENGTH: raise ValueError( f"Your character description is too short. Please enter at least {constants.CHARACTER_DESCRIPTION_MIN_LENGTH} characters. " f"(Current length: {character_description_length})" ) if character_description_length > constants.CHARACTER_DESCRIPTION_MAX_LENGTH: raise ValueError( f"Your character description is too long. Please limit it to {constants.CHARACTER_DESCRIPTION_MAX_LENGTH} characters. " f"(Current length: {character_description_length})" ) logger.debug( f"Character description length validation passed for character_description: {truncate_text(stripped_character_description)}" ) def delete_files_older_than(directory: str, minutes: int = 30) -> None: """ Delete all files in the specified directory that are older than a given number of minutes. This function checks each file in the given directory and removes it if its last modification time is older than the specified threshold. By default, the threshold is set to 30 minutes. Args: directory (str): The path to the directory where files will be checked and possibly deleted. minutes (int, optional): The age threshold in minutes. Files older than this will be deleted. Defaults to 30 minutes. Returns: None """ # Get the current time in seconds since the epoch. now = time.time() # Convert the minutes threshold to seconds. cutoff = now - (minutes * 60) # Iterate over all files in the directory. for filename in os.listdir(directory): file_path = os.path.join(directory, filename) file_mod_time = os.path.getmtime(file_path) # If the file's modification time is older than the cutoff, delete it. if file_mod_time < cutoff: try: os.remove(file_path) print(f"Deleted: {file_path}") except Exception as e: print(f"Error deleting {file_path}: {e}") def save_base64_audio_to_file(base64_audio: str, filename: str) -> str: """ Decode a base64-encoded audio string and write the resulting binary data to a file within the preconfigured AUDIO_DIR directory. Prior to writing the bytes to an audio file all files within the directory which are more than 30 minutes old are deleted. This function verifies the file was created, logs the absolute and relative file paths, and returns a path relative to the current working directory (which is what Gradio requires to serve static files). Args: base64_audio (str): The base64-encoded string representing the audio data. filename (str): The name of the file (including extension, e.g., 'b4a335da-9786-483a-b0a5-37e6e4ad5fd1.mp3') where the decoded audio will be saved. Returns: str: The relative file path to the saved audio file. Raises: Exception: Propagates any exceptions raised during the decoding or file I/O operations. """ # Decode the base64-encoded audio into binary data. audio_bytes = base64.b64decode(base64_audio) # Construct the full absolute file path within the AUDIO_DIR directory. file_path = os.path.join(AUDIO_DIR, filename) # Delete all audio files older than 30 minutes before writing new audio file. num_minutes = 30 delete_files_older_than(AUDIO_DIR, num_minutes) # Write the binary audio data to the file. with open(file_path, "wb") as audio_file: audio_file.write(audio_bytes) # Verify that the file was created. if not os.path.exists(file_path): raise FileNotFoundError(f"Audio file was not created at {file_path}") # Compute a relative path for Gradio to serve (relative to the project root). relative_path = os.path.relpath(file_path, os.getcwd()) logger.debug(f"Audio file absolute path: {file_path}") logger.debug(f"Audio file relative path: {relative_path}") return relative_path def choose_providers( text_modified: bool, character_description: str, ) -> Tuple[ComparisonType, TTSProviderName, TTSProviderName]: """ Select two TTS providers based on whether the text has been modified. The first provider is always set to "Hume AI". For the second provider, the function selects "Hume AI" if the text has been modified or if a character description was not provided; otherwise, it randomly chooses one from the TTS_PROVIDERS list. Args: text_modified (bool): A flag indicating whether the text has been modified. - If True, both providers will be "Hume AI". - If False, the second provider is randomly selected from TTS_PROVIDERS. Returns: Tuple[TTSProviderName, TTSProviderName]: A tuple containing two TTS provider names, where the first is always "Hume AI" and the second is determined by the text_modified flag and random selection. """ hume_comparison_only = text_modified or not character_description provider_a = constants.HUME_AI provider_b = ( constants.HUME_AI if hume_comparison_only else random.choice(constants.TTS_PROVIDERS) ) match provider_b: case constants.HUME_AI: comparison_type = constants.HUME_TO_HUME case constants.ELEVENLABS: comparison_type = constants.HUME_TO_ELEVENLABS return comparison_type, provider_a, provider_b def create_shuffled_tts_options( provider_a: TTSProviderName, audio_a: str, generation_id_a: str, provider_b: TTSProviderName, audio_b: str, generation_id_b: str, ) -> OptionMap: """ Create and shuffle TTS generation options. This function creates two Option instances from the provided TTS details, shuffles them, then extracts the providers, audio file paths, and generation IDs from the shuffled options, and finally maps the options to an OptionMap. Args: provider_a (TTSProviderName): The TTS provider for the first generation. audio_a (str): The relative file path to the audio file for the first generation. generation_id_a (str): The generation ID for the first generation. provider_b (TTSProviderName): The TTS provider for the second generation. audio_b (str): The relative file path to the audio file for the second generation. generation_id_b (str): The generation ID for the second generation. Returns: options_map (OptionMap): Mapping of TTS output options. """ # Create a list of Option instances for the available providers. options = [ Option(provider=provider_a, audio=audio_a, generation_id=generation_id_a), Option(provider=provider_b, audio=audio_b, generation_id=generation_id_b), ] # Randomly shuffle the list of options. random.shuffle(options) # Unpack the two options. option_a, option_b = options # Build a mapping from option constants to the corresponding providers. options_map: OptionMap = { "option_a": { "provider": option_a.provider, "generation_id": option_a.generation_id, "audio_file_path": option_a.audio, }, "option_b": { "provider": option_b.provider, "generation_id": option_b.generation_id, "audio_file_path": option_b.audio, }, } return options_map def determine_selected_option( selected_option_button: str, ) -> Tuple[OptionKey, OptionKey]: """ Determines the selected option and the alternative option based on the user's selection. Args: selected_option_button (str): The option selected by the user, expected to be either constants.OPTION_A_KEY or constants.OPTION_B_KEY. Returns: tuple: A tuple (selected_option, other_option) where: - selected_option is the same as the selected_option. - other_option is the alternative option. """ if selected_option_button == constants.SELECT_OPTION_A: selected_option, other_option = constants.OPTION_A_KEY, constants.OPTION_B_KEY elif selected_option_button == constants.SELECT_OPTION_B: selected_option, other_option = constants.OPTION_B_KEY, constants.OPTION_A_KEY else: raise ValueError(f"Invalid selected button: {selected_option_button}") return selected_option, other_option def submit_voting_results( option_map: OptionMap, selected_option: str, comparison_type: ComparisonType, text_modified: bool, character_description: str, text: str, ) -> VotingResults: """ Constructs the voting results dictionary from the provided inputs and logs it. Args: option_map (OptionMap): Mapping of comparison data and TTS options. selected_option (str): The option selected by the user. comparison_type (ComparisonType): The type of comparison between providers. text_modified (bool): Indicates whether the text was modified. character_description (str): Description of the voice/character. text (str): The text associated with the TTS generation. Returns: VotingResults: The constructed voting results dictionary. """ voting_results: VotingResults = { "comparison_type": comparison_type, "winning_provider": option_map[selected_option]["provider"], "winning_option": selected_option, "option_a_provider": option_map[constants.OPTION_A_KEY]["provider"], "option_b_provider": option_map[constants.OPTION_B_KEY]["provider"], "option_a_generation_id": option_map[constants.OPTION_A_KEY]["generation_id"], "option_b_generation_id": option_map[constants.OPTION_B_KEY]["generation_id"], "voice_description": character_description, "text": text, "is_custom_text": text_modified, } # TODO: Currently logging the results until we hook the API for writing results to DB logger.info("Voting results:\n%s", json.dumps(voting_results, indent=4)) return voting_results