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313 lines
12 KiB
313 lines
12 KiB
from contextlib import contextmanager |
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import hashlib |
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import math |
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from pathlib import Path |
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import shutil |
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import urllib |
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import warnings |
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from PIL import Image |
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import torch |
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from torch import nn, optim |
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from torch.utils import data |
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def hf_datasets_augs_helper(examples, transform, image_key, mode='RGB'): |
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"""Apply passed in transforms for HuggingFace Datasets.""" |
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images = [transform(image.convert(mode)) for image in examples[image_key]] |
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return {image_key: images} |
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def append_dims(x, target_dims): |
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"""Appends dimensions to the end of a tensor until it has target_dims dimensions.""" |
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dims_to_append = target_dims - x.ndim |
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if dims_to_append < 0: |
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raise ValueError(f'input has {x.ndim} dims but target_dims is {target_dims}, which is less') |
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expanded = x[(...,) + (None,) * dims_to_append] |
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# MPS will get inf values if it tries to index into the new axes, but detaching fixes this. |
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# https://github.com/pytorch/pytorch/issues/84364 |
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return expanded.detach().clone() if expanded.device.type == 'mps' else expanded |
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def n_params(module): |
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"""Returns the number of trainable parameters in a module.""" |
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return sum(p.numel() for p in module.parameters()) |
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def download_file(path, url, digest=None): |
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"""Downloads a file if it does not exist, optionally checking its SHA-256 hash.""" |
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path = Path(path) |
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path.parent.mkdir(parents=True, exist_ok=True) |
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if not path.exists(): |
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with urllib.request.urlopen(url) as response, open(path, 'wb') as f: |
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shutil.copyfileobj(response, f) |
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if digest is not None: |
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file_digest = hashlib.sha256(open(path, 'rb').read()).hexdigest() |
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if digest != file_digest: |
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raise OSError(f'hash of {path} (url: {url}) failed to validate') |
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return path |
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@contextmanager |
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def train_mode(model, mode=True): |
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"""A context manager that places a model into training mode and restores |
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the previous mode on exit.""" |
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modes = [module.training for module in model.modules()] |
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try: |
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yield model.train(mode) |
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finally: |
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for i, module in enumerate(model.modules()): |
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module.training = modes[i] |
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def eval_mode(model): |
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"""A context manager that places a model into evaluation mode and restores |
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the previous mode on exit.""" |
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return train_mode(model, False) |
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@torch.no_grad() |
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def ema_update(model, averaged_model, decay): |
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"""Incorporates updated model parameters into an exponential moving averaged |
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version of a model. It should be called after each optimizer step.""" |
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model_params = dict(model.named_parameters()) |
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averaged_params = dict(averaged_model.named_parameters()) |
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assert model_params.keys() == averaged_params.keys() |
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for name, param in model_params.items(): |
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averaged_params[name].mul_(decay).add_(param, alpha=1 - decay) |
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model_buffers = dict(model.named_buffers()) |
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averaged_buffers = dict(averaged_model.named_buffers()) |
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assert model_buffers.keys() == averaged_buffers.keys() |
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for name, buf in model_buffers.items(): |
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averaged_buffers[name].copy_(buf) |
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class EMAWarmup: |
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"""Implements an EMA warmup using an inverse decay schedule. |
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If inv_gamma=1 and power=1, implements a simple average. inv_gamma=1, power=2/3 are |
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good values for models you plan to train for a million or more steps (reaches decay |
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factor 0.999 at 31.6K steps, 0.9999 at 1M steps), inv_gamma=1, power=3/4 for models |
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you plan to train for less (reaches decay factor 0.999 at 10K steps, 0.9999 at |
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215.4k steps). |
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Args: |
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inv_gamma (float): Inverse multiplicative factor of EMA warmup. Default: 1. |
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power (float): Exponential factor of EMA warmup. Default: 1. |
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min_value (float): The minimum EMA decay rate. Default: 0. |
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max_value (float): The maximum EMA decay rate. Default: 1. |
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start_at (int): The epoch to start averaging at. Default: 0. |
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last_epoch (int): The index of last epoch. Default: 0. |
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""" |
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def __init__(self, inv_gamma=1., power=1., min_value=0., max_value=1., start_at=0, |
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last_epoch=0): |
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self.inv_gamma = inv_gamma |
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self.power = power |
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self.min_value = min_value |
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self.max_value = max_value |
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self.start_at = start_at |
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self.last_epoch = last_epoch |
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def state_dict(self): |
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"""Returns the state of the class as a :class:`dict`.""" |
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return dict(self.__dict__.items()) |
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def load_state_dict(self, state_dict): |
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"""Loads the class's state. |
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Args: |
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state_dict (dict): scaler state. Should be an object returned |
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from a call to :meth:`state_dict`. |
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""" |
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self.__dict__.update(state_dict) |
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def get_value(self): |
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"""Gets the current EMA decay rate.""" |
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epoch = max(0, self.last_epoch - self.start_at) |
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value = 1 - (1 + epoch / self.inv_gamma) ** -self.power |
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return 0. if epoch < 0 else min(self.max_value, max(self.min_value, value)) |
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def step(self): |
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"""Updates the step count.""" |
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self.last_epoch += 1 |
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class InverseLR(optim.lr_scheduler._LRScheduler): |
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"""Implements an inverse decay learning rate schedule with an optional exponential |
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warmup. When last_epoch=-1, sets initial lr as lr. |
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inv_gamma is the number of steps/epochs required for the learning rate to decay to |
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(1 / 2)**power of its original value. |
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Args: |
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optimizer (Optimizer): Wrapped optimizer. |
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inv_gamma (float): Inverse multiplicative factor of learning rate decay. Default: 1. |
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power (float): Exponential factor of learning rate decay. Default: 1. |
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warmup (float): Exponential warmup factor (0 <= warmup < 1, 0 to disable) |
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Default: 0. |
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min_lr (float): The minimum learning rate. Default: 0. |
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last_epoch (int): The index of last epoch. Default: -1. |
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verbose (bool): If ``True``, prints a message to stdout for |
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each update. Default: ``False``. |
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""" |
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def __init__(self, optimizer, inv_gamma=1., power=1., warmup=0., min_lr=0., |
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last_epoch=-1, verbose=False): |
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self.inv_gamma = inv_gamma |
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self.power = power |
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if not 0. <= warmup < 1: |
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raise ValueError('Invalid value for warmup') |
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self.warmup = warmup |
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self.min_lr = min_lr |
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super().__init__(optimizer, last_epoch, verbose) |
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def get_lr(self): |
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if not self._get_lr_called_within_step: |
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warnings.warn("To get the last learning rate computed by the scheduler, " |
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"please use `get_last_lr()`.") |
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return self._get_closed_form_lr() |
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def _get_closed_form_lr(self): |
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warmup = 1 - self.warmup ** (self.last_epoch + 1) |
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lr_mult = (1 + self.last_epoch / self.inv_gamma) ** -self.power |
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return [warmup * max(self.min_lr, base_lr * lr_mult) |
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for base_lr in self.base_lrs] |
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class ExponentialLR(optim.lr_scheduler._LRScheduler): |
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"""Implements an exponential learning rate schedule with an optional exponential |
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warmup. When last_epoch=-1, sets initial lr as lr. Decays the learning rate |
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continuously by decay (default 0.5) every num_steps steps. |
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Args: |
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optimizer (Optimizer): Wrapped optimizer. |
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num_steps (float): The number of steps to decay the learning rate by decay in. |
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decay (float): The factor by which to decay the learning rate every num_steps |
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steps. Default: 0.5. |
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warmup (float): Exponential warmup factor (0 <= warmup < 1, 0 to disable) |
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Default: 0. |
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min_lr (float): The minimum learning rate. Default: 0. |
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last_epoch (int): The index of last epoch. Default: -1. |
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verbose (bool): If ``True``, prints a message to stdout for |
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each update. Default: ``False``. |
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""" |
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def __init__(self, optimizer, num_steps, decay=0.5, warmup=0., min_lr=0., |
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last_epoch=-1, verbose=False): |
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self.num_steps = num_steps |
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self.decay = decay |
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if not 0. <= warmup < 1: |
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raise ValueError('Invalid value for warmup') |
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self.warmup = warmup |
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self.min_lr = min_lr |
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super().__init__(optimizer, last_epoch, verbose) |
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def get_lr(self): |
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if not self._get_lr_called_within_step: |
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warnings.warn("To get the last learning rate computed by the scheduler, " |
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"please use `get_last_lr()`.") |
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return self._get_closed_form_lr() |
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def _get_closed_form_lr(self): |
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warmup = 1 - self.warmup ** (self.last_epoch + 1) |
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lr_mult = (self.decay ** (1 / self.num_steps)) ** self.last_epoch |
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return [warmup * max(self.min_lr, base_lr * lr_mult) |
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for base_lr in self.base_lrs] |
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def rand_log_normal(shape, loc=0., scale=1., device='cpu', dtype=torch.float32): |
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"""Draws samples from an lognormal distribution.""" |
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return (torch.randn(shape, device=device, dtype=dtype) * scale + loc).exp() |
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def rand_log_logistic(shape, loc=0., scale=1., min_value=0., max_value=float('inf'), device='cpu', dtype=torch.float32): |
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"""Draws samples from an optionally truncated log-logistic distribution.""" |
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min_value = torch.as_tensor(min_value, device=device, dtype=torch.float64) |
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max_value = torch.as_tensor(max_value, device=device, dtype=torch.float64) |
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min_cdf = min_value.log().sub(loc).div(scale).sigmoid() |
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max_cdf = max_value.log().sub(loc).div(scale).sigmoid() |
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u = torch.rand(shape, device=device, dtype=torch.float64) * (max_cdf - min_cdf) + min_cdf |
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return u.logit().mul(scale).add(loc).exp().to(dtype) |
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def rand_log_uniform(shape, min_value, max_value, device='cpu', dtype=torch.float32): |
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"""Draws samples from an log-uniform distribution.""" |
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min_value = math.log(min_value) |
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max_value = math.log(max_value) |
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return (torch.rand(shape, device=device, dtype=dtype) * (max_value - min_value) + min_value).exp() |
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def rand_v_diffusion(shape, sigma_data=1., min_value=0., max_value=float('inf'), device='cpu', dtype=torch.float32): |
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"""Draws samples from a truncated v-diffusion training timestep distribution.""" |
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min_cdf = math.atan(min_value / sigma_data) * 2 / math.pi |
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max_cdf = math.atan(max_value / sigma_data) * 2 / math.pi |
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u = torch.rand(shape, device=device, dtype=dtype) * (max_cdf - min_cdf) + min_cdf |
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return torch.tan(u * math.pi / 2) * sigma_data |
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def rand_split_log_normal(shape, loc, scale_1, scale_2, device='cpu', dtype=torch.float32): |
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"""Draws samples from a split lognormal distribution.""" |
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n = torch.randn(shape, device=device, dtype=dtype).abs() |
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u = torch.rand(shape, device=device, dtype=dtype) |
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n_left = n * -scale_1 + loc |
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n_right = n * scale_2 + loc |
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ratio = scale_1 / (scale_1 + scale_2) |
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return torch.where(u < ratio, n_left, n_right).exp() |
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class FolderOfImages(data.Dataset): |
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"""Recursively finds all images in a directory. It does not support |
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classes/targets.""" |
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IMG_EXTENSIONS = {'.jpg', '.jpeg', '.png', '.ppm', '.bmp', '.pgm', '.tif', '.tiff', '.webp'} |
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def __init__(self, root, transform=None): |
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super().__init__() |
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self.root = Path(root) |
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self.transform = nn.Identity() if transform is None else transform |
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self.paths = sorted(path for path in self.root.rglob('*') if path.suffix.lower() in self.IMG_EXTENSIONS) |
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def __repr__(self): |
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return f'FolderOfImages(root="{self.root}", len: {len(self)})' |
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def __len__(self): |
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return len(self.paths) |
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def __getitem__(self, key): |
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path = self.paths[key] |
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with open(path, 'rb') as f: |
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image = Image.open(f).convert('RGB') |
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image = self.transform(image) |
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return image, |
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class CSVLogger: |
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def __init__(self, filename, columns): |
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self.filename = Path(filename) |
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self.columns = columns |
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if self.filename.exists(): |
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self.file = open(self.filename, 'a') |
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else: |
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self.file = open(self.filename, 'w') |
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self.write(*self.columns) |
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def write(self, *args): |
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print(*args, sep=',', file=self.file, flush=True) |
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@contextmanager |
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def tf32_mode(cudnn=None, matmul=None): |
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"""A context manager that sets whether TF32 is allowed on cuDNN or matmul.""" |
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cudnn_old = torch.backends.cudnn.allow_tf32 |
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matmul_old = torch.backends.cuda.matmul.allow_tf32 |
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try: |
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if cudnn is not None: |
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torch.backends.cudnn.allow_tf32 = cudnn |
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if matmul is not None: |
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torch.backends.cuda.matmul.allow_tf32 = matmul |
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yield |
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finally: |
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if cudnn is not None: |
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torch.backends.cudnn.allow_tf32 = cudnn_old |
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if matmul is not None: |
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torch.backends.cuda.matmul.allow_tf32 = matmul_old
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