mirror of
https://github.com/invoke-ai/InvokeAI
synced 2024-08-30 20:32:17 +00:00
331 lines
11 KiB
Python
331 lines
11 KiB
Python
import os
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from copy import deepcopy
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from glob import glob
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import pytorch_lightning as pl
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import torch
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from einops import rearrange
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from ldm.modules.diffusionmodules.openaimodel import EncoderUNetModel, UNetModel
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from ldm.util import default, instantiate_from_config, ismap, log_txt_as_img
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from natsort import natsorted
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from omegaconf import OmegaConf
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from torch.nn import functional as F
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from torch.optim import AdamW
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from torch.optim.lr_scheduler import LambdaLR
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__models__ = {"class_label": EncoderUNetModel, "segmentation": UNetModel}
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def disabled_train(self, mode=True):
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"""Overwrite model.train with this function to make sure train/eval mode
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does not change anymore."""
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return self
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class NoisyLatentImageClassifier(pl.LightningModule):
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def __init__(
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self,
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diffusion_path,
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num_classes,
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ckpt_path=None,
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pool="attention",
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label_key=None,
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diffusion_ckpt_path=None,
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scheduler_config=None,
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weight_decay=1.0e-2,
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log_steps=10,
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monitor="val/loss",
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*args,
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**kwargs,
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):
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super().__init__(*args, **kwargs)
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self.num_classes = num_classes
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# get latest config of diffusion model
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diffusion_config = natsorted(
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glob(os.path.join(diffusion_path, "configs", "*-project.yaml"))
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)[-1]
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self.diffusion_config = OmegaConf.load(diffusion_config).model
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self.diffusion_config.params.ckpt_path = diffusion_ckpt_path
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self.load_diffusion()
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self.monitor = monitor
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self.numd = self.diffusion_model.first_stage_model.encoder.num_resolutions - 1
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self.log_time_interval = self.diffusion_model.num_timesteps // log_steps
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self.log_steps = log_steps
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self.label_key = (
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label_key
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if not hasattr(self.diffusion_model, "cond_stage_key")
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else self.diffusion_model.cond_stage_key
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)
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assert (
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self.label_key is not None
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), "label_key neither in diffusion model nor in model.params"
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if self.label_key not in __models__:
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raise NotImplementedError()
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self.load_classifier(ckpt_path, pool)
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self.scheduler_config = scheduler_config
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self.use_scheduler = self.scheduler_config is not None
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self.weight_decay = weight_decay
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def init_from_ckpt(self, path, ignore_keys=list(), only_model=False):
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sd = torch.load(path, map_location="cpu")
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if "state_dict" in list(sd.keys()):
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sd = sd["state_dict"]
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keys = list(sd.keys())
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for k in keys:
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for ik in ignore_keys:
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if k.startswith(ik):
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print("Deleting key {} from state_dict.".format(k))
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del sd[k]
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missing, unexpected = (
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self.load_state_dict(sd, strict=False)
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if not only_model
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else self.model.load_state_dict(sd, strict=False)
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)
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print(
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f"Restored from {path} with {len(missing)} missing and {len(unexpected)} unexpected keys"
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)
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if len(missing) > 0:
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print(f"Missing Keys: {missing}")
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if len(unexpected) > 0:
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print(f"Unexpected Keys: {unexpected}")
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def load_diffusion(self):
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model = instantiate_from_config(self.diffusion_config)
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self.diffusion_model = model.eval()
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self.diffusion_model.train = disabled_train
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for param in self.diffusion_model.parameters():
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param.requires_grad = False
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def load_classifier(self, ckpt_path, pool):
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model_config = deepcopy(self.diffusion_config.params.unet_config.params)
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model_config.in_channels = (
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self.diffusion_config.params.unet_config.params.out_channels
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)
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model_config.out_channels = self.num_classes
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if self.label_key == "class_label":
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model_config.pool = pool
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self.model = __models__[self.label_key](**model_config)
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if ckpt_path is not None:
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print(
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"#####################################################################"
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)
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print(f'load from ckpt "{ckpt_path}"')
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print(
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"#####################################################################"
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)
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self.init_from_ckpt(ckpt_path)
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@torch.no_grad()
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def get_x_noisy(self, x, t, noise=None):
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noise = default(noise, lambda: torch.randn_like(x))
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continuous_sqrt_alpha_cumprod = None
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if self.diffusion_model.use_continuous_noise:
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continuous_sqrt_alpha_cumprod = (
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self.diffusion_model.sample_continuous_noise_level(x.shape[0], t + 1)
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)
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# todo: make sure t+1 is correct here
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return self.diffusion_model.q_sample(
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x_start=x,
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t=t,
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noise=noise,
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continuous_sqrt_alpha_cumprod=continuous_sqrt_alpha_cumprod,
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)
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def forward(self, x_noisy, t, *args, **kwargs):
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return self.model(x_noisy, t)
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@torch.no_grad()
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def get_input(self, batch, k):
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x = batch[k]
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if len(x.shape) == 3:
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x = x[..., None]
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x = rearrange(x, "b h w c -> b c h w")
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x = x.to(memory_format=torch.contiguous_format).float()
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return x
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@torch.no_grad()
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def get_conditioning(self, batch, k=None):
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if k is None:
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k = self.label_key
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assert k is not None, "Needs to provide label key"
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targets = batch[k].to(self.device)
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if self.label_key == "segmentation":
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targets = rearrange(targets, "b h w c -> b c h w")
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for down in range(self.numd):
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h, w = targets.shape[-2:]
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targets = F.interpolate(targets, size=(h // 2, w // 2), mode="nearest")
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# targets = rearrange(targets,'b c h w -> b h w c')
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return targets
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def compute_top_k(self, logits, labels, k, reduction="mean"):
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_, top_ks = torch.topk(logits, k, dim=1)
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if reduction == "mean":
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return (top_ks == labels[:, None]).float().sum(dim=-1).mean().item()
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elif reduction == "none":
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return (top_ks == labels[:, None]).float().sum(dim=-1)
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def on_train_epoch_start(self):
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# save some memory
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self.diffusion_model.model.to("cpu")
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@torch.no_grad()
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def write_logs(self, loss, logits, targets):
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log_prefix = "train" if self.training else "val"
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log = {}
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log[f"{log_prefix}/loss"] = loss.mean()
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log[f"{log_prefix}/acc@1"] = self.compute_top_k(
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logits, targets, k=1, reduction="mean"
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)
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log[f"{log_prefix}/acc@5"] = self.compute_top_k(
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logits, targets, k=5, reduction="mean"
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)
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self.log_dict(
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log,
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prog_bar=False,
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logger=True,
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on_step=self.training,
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on_epoch=True,
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)
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self.log("loss", log[f"{log_prefix}/loss"], prog_bar=True, logger=False)
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self.log(
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"global_step",
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self.global_step,
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logger=False,
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on_epoch=False,
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prog_bar=True,
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)
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lr = self.optimizers().param_groups[0]["lr"]
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self.log(
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"lr_abs",
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lr,
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on_step=True,
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logger=True,
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on_epoch=False,
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prog_bar=True,
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)
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def shared_step(self, batch, t=None):
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x, *_ = self.diffusion_model.get_input(
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batch, k=self.diffusion_model.first_stage_key
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)
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targets = self.get_conditioning(batch)
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if targets.dim() == 4:
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targets = targets.argmax(dim=1)
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if t is None:
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t = torch.randint(
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0,
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self.diffusion_model.num_timesteps,
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(x.shape[0],),
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device=self.device,
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).long()
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else:
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t = torch.full(size=(x.shape[0],), fill_value=t, device=self.device).long()
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x_noisy = self.get_x_noisy(x, t)
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logits = self(x_noisy, t)
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loss = F.cross_entropy(logits, targets, reduction="none")
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self.write_logs(loss.detach(), logits.detach(), targets.detach())
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loss = loss.mean()
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return loss, logits, x_noisy, targets
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def training_step(self, batch, batch_idx):
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loss, *_ = self.shared_step(batch)
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return loss
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def reset_noise_accs(self):
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self.noisy_acc = {
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t: {"acc@1": [], "acc@5": []}
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for t in range(
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0,
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self.diffusion_model.num_timesteps,
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self.diffusion_model.log_every_t,
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)
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}
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def on_validation_start(self):
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self.reset_noise_accs()
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@torch.no_grad()
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def validation_step(self, batch, batch_idx):
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loss, *_ = self.shared_step(batch)
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for t in self.noisy_acc:
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_, logits, _, targets = self.shared_step(batch, t)
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self.noisy_acc[t]["acc@1"].append(
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self.compute_top_k(logits, targets, k=1, reduction="mean")
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)
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self.noisy_acc[t]["acc@5"].append(
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self.compute_top_k(logits, targets, k=5, reduction="mean")
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)
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return loss
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def configure_optimizers(self):
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optimizer = AdamW(
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self.model.parameters(),
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lr=self.learning_rate,
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weight_decay=self.weight_decay,
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)
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if self.use_scheduler:
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scheduler = instantiate_from_config(self.scheduler_config)
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print("Setting up LambdaLR scheduler...")
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scheduler = [
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{
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"scheduler": LambdaLR(optimizer, lr_lambda=scheduler.schedule),
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"interval": "step",
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"frequency": 1,
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}
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]
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return [optimizer], scheduler
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return optimizer
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@torch.no_grad()
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def log_images(self, batch, N=8, *args, **kwargs):
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log = dict()
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x = self.get_input(batch, self.diffusion_model.first_stage_key)
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log["inputs"] = x
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y = self.get_conditioning(batch)
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if self.label_key == "class_label":
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y = log_txt_as_img((x.shape[2], x.shape[3]), batch["human_label"])
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log["labels"] = y
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if ismap(y):
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log["labels"] = self.diffusion_model.to_rgb(y)
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for step in range(self.log_steps):
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current_time = step * self.log_time_interval
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_, logits, x_noisy, _ = self.shared_step(batch, t=current_time)
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log[f"inputs@t{current_time}"] = x_noisy
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pred = F.one_hot(logits.argmax(dim=1), num_classes=self.num_classes)
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pred = rearrange(pred, "b h w c -> b c h w")
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log[f"pred@t{current_time}"] = self.diffusion_model.to_rgb(pred)
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for key in log:
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log[key] = log[key][:N]
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return log
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