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import torch
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# import pytorch_lightning as pl
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import torch.nn.functional as F
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from contextlib import contextmanager
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from typing import Any, Dict, List, Optional, Tuple, Union
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from comfy.ldm.modules.distributions.distributions import DiagonalGaussianDistribution
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from comfy.ldm.util import instantiate_from_config
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from comfy.ldm.modules.ema import LitEma
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import comfy.ops
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class DiagonalGaussianRegularizer(torch.nn.Module):
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def __init__(self, sample: bool = True):
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super().__init__()
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self.sample = sample
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def get_trainable_parameters(self) -> Any:
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yield from ()
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def forward(self, z: torch.Tensor) -> Tuple[torch.Tensor, dict]:
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log = dict()
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posterior = DiagonalGaussianDistribution(z)
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if self.sample:
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z = posterior.sample()
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else:
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z = posterior.mode()
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kl_loss = posterior.kl()
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kl_loss = torch.sum(kl_loss) / kl_loss.shape[0]
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log["kl_loss"] = kl_loss
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return z, log
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class AbstractAutoencoder(torch.nn.Module):
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"""
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This is the base class for all autoencoders, including image autoencoders, image autoencoders with discriminators,
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unCLIP models, etc. Hence, it is fairly general, and specific features
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(e.g. discriminator training, encoding, decoding) must be implemented in subclasses.
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"""
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def __init__(
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self,
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ema_decay: Union[None, float] = None,
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monitor: Union[None, str] = None,
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input_key: str = "jpg",
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**kwargs,
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):
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super().__init__()
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self.input_key = input_key
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self.use_ema = ema_decay is not None
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if monitor is not None:
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self.monitor = monitor
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if self.use_ema:
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self.model_ema = LitEma(self, decay=ema_decay)
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logpy.info(f"Keeping EMAs of {len(list(self.model_ema.buffers()))}.")
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def get_input(self, batch) -> Any:
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raise NotImplementedError()
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def on_train_batch_end(self, *args, **kwargs):
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# for EMA computation
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if self.use_ema:
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self.model_ema(self)
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@contextmanager
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def ema_scope(self, context=None):
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if self.use_ema:
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self.model_ema.store(self.parameters())
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self.model_ema.copy_to(self)
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if context is not None:
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logpy.info(f"{context}: Switched to EMA weights")
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try:
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yield None
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finally:
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if self.use_ema:
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self.model_ema.restore(self.parameters())
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if context is not None:
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logpy.info(f"{context}: Restored training weights")
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def encode(self, *args, **kwargs) -> torch.Tensor:
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raise NotImplementedError("encode()-method of abstract base class called")
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def decode(self, *args, **kwargs) -> torch.Tensor:
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raise NotImplementedError("decode()-method of abstract base class called")
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def instantiate_optimizer_from_config(self, params, lr, cfg):
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logpy.info(f"loading >>> {cfg['target']} <<< optimizer from config")
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return get_obj_from_str(cfg["target"])(
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params, lr=lr, **cfg.get("params", dict())
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)
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def configure_optimizers(self) -> Any:
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raise NotImplementedError()
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class AutoencodingEngine(AbstractAutoencoder):
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"""
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Base class for all image autoencoders that we train, like VQGAN or AutoencoderKL
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(we also restore them explicitly as special cases for legacy reasons).
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Regularizations such as KL or VQ are moved to the regularizer class.
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"""
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def __init__(
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self,
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*args,
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encoder_config: Dict,
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decoder_config: Dict,
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regularizer_config: Dict,
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**kwargs,
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):
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super().__init__(*args, **kwargs)
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self.encoder: torch.nn.Module = instantiate_from_config(encoder_config)
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self.decoder: torch.nn.Module = instantiate_from_config(decoder_config)
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self.regularization: AbstractRegularizer = instantiate_from_config(
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regularizer_config
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)
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def get_last_layer(self):
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return self.decoder.get_last_layer()
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def encode(
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self,
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x: torch.Tensor,
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return_reg_log: bool = False,
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unregularized: bool = False,
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) -> Union[torch.Tensor, Tuple[torch.Tensor, dict]]:
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z = self.encoder(x)
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if unregularized:
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return z, dict()
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z, reg_log = self.regularization(z)
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if return_reg_log:
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return z, reg_log
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return z
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def decode(self, z: torch.Tensor, **kwargs) -> torch.Tensor:
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x = self.decoder(z, **kwargs)
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return x
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def forward(
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self, x: torch.Tensor, **additional_decode_kwargs
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) -> Tuple[torch.Tensor, torch.Tensor, dict]:
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z, reg_log = self.encode(x, return_reg_log=True)
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dec = self.decode(z, **additional_decode_kwargs)
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return z, dec, reg_log
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class AutoencodingEngineLegacy(AutoencodingEngine):
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def __init__(self, embed_dim: int, **kwargs):
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self.max_batch_size = kwargs.pop("max_batch_size", None)
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ddconfig = kwargs.pop("ddconfig")
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super().__init__(
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encoder_config={
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"target": "comfy.ldm.modules.diffusionmodules.model.Encoder",
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"params": ddconfig,
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},
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decoder_config={
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"target": "comfy.ldm.modules.diffusionmodules.model.Decoder",
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"params": ddconfig,
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},
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**kwargs,
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)
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self.quant_conv = comfy.ops.disable_weight_init.Conv2d(
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(1 + ddconfig["double_z"]) * ddconfig["z_channels"],
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(1 + ddconfig["double_z"]) * embed_dim,
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1,
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)
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self.post_quant_conv = comfy.ops.disable_weight_init.Conv2d(embed_dim, ddconfig["z_channels"], 1)
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self.embed_dim = embed_dim
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def get_autoencoder_params(self) -> list:
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params = super().get_autoencoder_params()
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return params
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def encode(
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self, x: torch.Tensor, return_reg_log: bool = False
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) -> Union[torch.Tensor, Tuple[torch.Tensor, dict]]:
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if self.max_batch_size is None:
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z = self.encoder(x)
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z = self.quant_conv(z)
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else:
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N = x.shape[0]
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bs = self.max_batch_size
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n_batches = int(math.ceil(N / bs))
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z = list()
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for i_batch in range(n_batches):
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z_batch = self.encoder(x[i_batch * bs : (i_batch + 1) * bs])
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z_batch = self.quant_conv(z_batch)
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z.append(z_batch)
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z = torch.cat(z, 0)
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z, reg_log = self.regularization(z)
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if return_reg_log:
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return z, reg_log
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return z
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def decode(self, z: torch.Tensor, **decoder_kwargs) -> torch.Tensor:
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if self.max_batch_size is None:
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dec = self.post_quant_conv(z)
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dec = self.decoder(dec, **decoder_kwargs)
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else:
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N = z.shape[0]
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bs = self.max_batch_size
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n_batches = int(math.ceil(N / bs))
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dec = list()
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for i_batch in range(n_batches):
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dec_batch = self.post_quant_conv(z[i_batch * bs : (i_batch + 1) * bs])
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dec_batch = self.decoder(dec_batch, **decoder_kwargs)
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dec.append(dec_batch)
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dec = torch.cat(dec, 0)
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return dec
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class AutoencoderKL(AutoencodingEngineLegacy):
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def __init__(self, **kwargs):
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if "lossconfig" in kwargs:
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kwargs["loss_config"] = kwargs.pop("lossconfig")
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super().__init__(
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regularizer_config={
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"target": (
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"comfy.ldm.models.autoencoder.DiagonalGaussianRegularizer"
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)
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},
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**kwargs,
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)
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