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sponsorblock-ml-fork / src /shared.py

Joshua Lochner

Add functionality to predict self-promo and interaction reminders

90d1f68 over 2 years ago

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	import gc
	from time import time_ns
	import random
	import numpy as np
	import torch
	from typing import Optional
	from dataclasses import dataclass, field
	from enum import Enum

	class CustomTokens(Enum):
	EXTRACT_SEGMENTS_PREFIX = 'EXTRACT_SEGMENTS: '

	URL = 'URL_TOKEN'
	HYPHENATED_URL = 'HYPHENATED_URL_TOKEN'
	NUMBER_PERCENTAGE = 'NUMBER_PERCENTAGE_TOKEN'
	NUMBER = 'NUMBER_TOKEN'

	START_SEGMENT = 'START_SEGMENT_TOKEN'
	END_SEGMENT = 'END_SEGMENT_TOKEN'
	NO_SEGMENT = 'NO_SEGMENT_FOUND'

	SHORT_HYPHENATED = 'SHORT_HYPHENATED_TOKEN'
	LONG_WORD = 'LONG_WORD_TOKEN'

	# Custom YouTube tokens
	MUSIC = '[Music]'
	APPLAUSE = '[Applause]'
	LAUGHTER = '[Laughter]'

	PROFANITY = 'PROFANITY_TOKEN'

	@classmethod
	def custom_tokens(cls):
	return [e.value for e in cls]

	@classmethod
	def add_custom_tokens(cls, tokenizer):
	tokenizer.add_tokens(cls.custom_tokens())


	@dataclass
	class OutputArguments:

	output_dir: str = field(
	default='out',
	metadata={
	'help': 'The output directory where the model predictions and checkpoints will be written to and read from.'
	},
	)
	checkpoint: Optional[str] = field(
	default=None,
	metadata={
	'help': 'Choose the checkpoint/model to train from or test with. Defaults to the latest checkpoint found in `output_dir`.'
	},
	)
	models_dir: str = field(
	default='models',
	metadata={
	'help': 'The output directory where the model predictions and checkpoints will be written to and read from.'
	},
	)
	# classifier_dir: str = field(
	# default='out',
	# metadata={
	# 'help': 'The output directory where the model predictions and checkpoints will be written to and read from.'
	# },
	# )


	def seed_factory():
	return time_ns() % (2**32 - 1)


	@dataclass
	class GeneralArguments:
	seed: Optional[int] = field(default_factory=seed_factory, metadata={
	'help': 'Set seed for deterministic training and testing. By default, it uses the current time (results in essentially random results).'
	})

	def __post_init__(self):
	random.seed(self.seed)
	np.random.seed(self.seed)
	torch.manual_seed(self.seed)
	torch.cuda.manual_seed_all(self.seed)


	def device():
	return torch.device('cuda' if torch.cuda.is_available() else 'cpu')


	def reset():
	torch.clear_autocast_cache()
	torch.cuda.empty_cache()
	gc.collect()
	print(torch.cuda.memory_summary(device=None, abbreviated=False))