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import torch
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from comfy.ldm.modules.diffusionmodules.openaimodel import UNetModel
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from comfy.ldm.modules.encoders.noise_aug_modules import CLIPEmbeddingNoiseAugmentation
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from comfy.ldm.modules.diffusionmodules.openaimodel import Timestep
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import comfy.model_management
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import comfy.conds
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from enum import Enum
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from . import utils
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class ModelType(Enum):
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EPS = 1
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V_PREDICTION = 2
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V_PREDICTION_EDM = 3
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from comfy.model_sampling import EPS, V_PREDICTION, ModelSamplingDiscrete, ModelSamplingContinuousEDM
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def model_sampling(model_config, model_type):
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s = ModelSamplingDiscrete
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if model_type == ModelType.EPS:
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c = EPS
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elif model_type == ModelType.V_PREDICTION:
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c = V_PREDICTION
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elif model_type == ModelType.V_PREDICTION_EDM:
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c = V_PREDICTION
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s = ModelSamplingContinuousEDM
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class ModelSampling(s, c):
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pass
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return ModelSampling(model_config)
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class BaseModel(torch.nn.Module):
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def __init__(self, model_config, model_type=ModelType.EPS, device=None):
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super().__init__()
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unet_config = model_config.unet_config
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self.latent_format = model_config.latent_format
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self.model_config = model_config
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if not unet_config.get("disable_unet_model_creation", False):
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self.diffusion_model = UNetModel(**unet_config, device=device)
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self.model_type = model_type
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self.model_sampling = model_sampling(model_config, model_type)
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self.adm_channels = unet_config.get("adm_in_channels", None)
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if self.adm_channels is None:
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self.adm_channels = 0
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self.inpaint_model = False
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print("model_type", model_type.name)
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print("adm", self.adm_channels)
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def apply_model(self, x, t, c_concat=None, c_crossattn=None, control=None, transformer_options={}, **kwargs):
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sigma = t
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xc = self.model_sampling.calculate_input(sigma, x)
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if c_concat is not None:
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xc = torch.cat([xc] + [c_concat], dim=1)
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context = c_crossattn
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dtype = self.get_dtype()
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xc = xc.to(dtype)
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t = self.model_sampling.timestep(t).float()
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context = context.to(dtype)
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extra_conds = {}
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for o in kwargs:
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extra = kwargs[o]
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if hasattr(extra, "to"):
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extra = extra.to(dtype)
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extra_conds[o] = extra
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model_output = self.diffusion_model(xc, t, context=context, control=control, transformer_options=transformer_options, **extra_conds).float()
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return self.model_sampling.calculate_denoised(sigma, model_output, x)
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def get_dtype(self):
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return self.diffusion_model.dtype
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def is_adm(self):
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return self.adm_channels > 0
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def encode_adm(self, **kwargs):
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return None
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def extra_conds(self, **kwargs):
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out = {}
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if self.inpaint_model:
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concat_keys = ("mask", "masked_image")
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cond_concat = []
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denoise_mask = kwargs.get("denoise_mask", None)
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latent_image = kwargs.get("latent_image", None)
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noise = kwargs.get("noise", None)
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device = kwargs["device"]
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def blank_inpaint_image_like(latent_image):
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blank_image = torch.ones_like(latent_image)
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# these are the values for "zero" in pixel space translated to latent space
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blank_image[:,0] *= 0.8223
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blank_image[:,1] *= -0.6876
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blank_image[:,2] *= 0.6364
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blank_image[:,3] *= 0.1380
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return blank_image
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for ck in concat_keys:
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if denoise_mask is not None:
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if ck == "mask":
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cond_concat.append(denoise_mask[:,:1].to(device))
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elif ck == "masked_image":
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cond_concat.append(latent_image.to(device)) #NOTE: the latent_image should be masked by the mask in pixel space
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else:
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if ck == "mask":
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cond_concat.append(torch.ones_like(noise)[:,:1])
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elif ck == "masked_image":
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cond_concat.append(blank_inpaint_image_like(noise))
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data = torch.cat(cond_concat, dim=1)
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out['c_concat'] = comfy.conds.CONDNoiseShape(data)
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adm = self.encode_adm(**kwargs)
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if adm is not None:
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out['y'] = comfy.conds.CONDRegular(adm)
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return out
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def load_model_weights(self, sd, unet_prefix=""):
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to_load = {}
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keys = list(sd.keys())
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for k in keys:
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if k.startswith(unet_prefix):
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to_load[k[len(unet_prefix):]] = sd.pop(k)
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to_load = self.model_config.process_unet_state_dict(to_load)
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m, u = self.diffusion_model.load_state_dict(to_load, strict=False)
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if len(m) > 0:
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print("unet missing:", m)
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if len(u) > 0:
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print("unet unexpected:", u)
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del to_load
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return self
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def process_latent_in(self, latent):
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return self.latent_format.process_in(latent)
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def process_latent_out(self, latent):
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return self.latent_format.process_out(latent)
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def state_dict_for_saving(self, clip_state_dict, vae_state_dict):
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clip_state_dict = self.model_config.process_clip_state_dict_for_saving(clip_state_dict)
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unet_sd = self.diffusion_model.state_dict()
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unet_state_dict = {}
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for k in unet_sd:
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unet_state_dict[k] = comfy.model_management.resolve_lowvram_weight(unet_sd[k], self.diffusion_model, k)
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unet_state_dict = self.model_config.process_unet_state_dict_for_saving(unet_state_dict)
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vae_state_dict = self.model_config.process_vae_state_dict_for_saving(vae_state_dict)
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if self.get_dtype() == torch.float16:
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clip_state_dict = utils.convert_sd_to(clip_state_dict, torch.float16)
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vae_state_dict = utils.convert_sd_to(vae_state_dict, torch.float16)
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if self.model_type == ModelType.V_PREDICTION:
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unet_state_dict["v_pred"] = torch.tensor([])
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return {**unet_state_dict, **vae_state_dict, **clip_state_dict}
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def set_inpaint(self):
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self.inpaint_model = True
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def memory_required(self, input_shape):
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area = input_shape[0] * input_shape[2] * input_shape[3]
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if comfy.model_management.xformers_enabled() or comfy.model_management.pytorch_attention_flash_attention():
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#TODO: this needs to be tweaked
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return (area / (comfy.model_management.dtype_size(self.get_dtype()) * 10)) * (1024 * 1024)
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else:
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#TODO: this formula might be too aggressive since I tweaked the sub-quad and split algorithms to use less memory.
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return (((area * 0.6) / 0.9) + 1024) * (1024 * 1024)
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def unclip_adm(unclip_conditioning, device, noise_augmentor, noise_augment_merge=0.0):
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adm_inputs = []
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weights = []
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noise_aug = []
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for unclip_cond in unclip_conditioning:
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for adm_cond in unclip_cond["clip_vision_output"].image_embeds:
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weight = unclip_cond["strength"]
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noise_augment = unclip_cond["noise_augmentation"]
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noise_level = round((noise_augmentor.max_noise_level - 1) * noise_augment)
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c_adm, noise_level_emb = noise_augmentor(adm_cond.to(device), noise_level=torch.tensor([noise_level], device=device))
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adm_out = torch.cat((c_adm, noise_level_emb), 1) * weight
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weights.append(weight)
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noise_aug.append(noise_augment)
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adm_inputs.append(adm_out)
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if len(noise_aug) > 1:
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adm_out = torch.stack(adm_inputs).sum(0)
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noise_augment = noise_augment_merge
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noise_level = round((noise_augmentor.max_noise_level - 1) * noise_augment)
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c_adm, noise_level_emb = noise_augmentor(adm_out[:, :noise_augmentor.time_embed.dim], noise_level=torch.tensor([noise_level], device=device))
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adm_out = torch.cat((c_adm, noise_level_emb), 1)
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return adm_out
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class SD21UNCLIP(BaseModel):
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def __init__(self, model_config, noise_aug_config, model_type=ModelType.V_PREDICTION, device=None):
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super().__init__(model_config, model_type, device=device)
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self.noise_augmentor = CLIPEmbeddingNoiseAugmentation(**noise_aug_config)
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def encode_adm(self, **kwargs):
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unclip_conditioning = kwargs.get("unclip_conditioning", None)
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device = kwargs["device"]
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if unclip_conditioning is None:
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return torch.zeros((1, self.adm_channels))
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else:
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return unclip_adm(unclip_conditioning, device, self.noise_augmentor, kwargs.get("unclip_noise_augment_merge", 0.05))
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def sdxl_pooled(args, noise_augmentor):
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if "unclip_conditioning" in args:
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return unclip_adm(args.get("unclip_conditioning", None), args["device"], noise_augmentor)[:,:1280]
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else:
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return args["pooled_output"]
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class SDXLRefiner(BaseModel):
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def __init__(self, model_config, model_type=ModelType.EPS, device=None):
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super().__init__(model_config, model_type, device=device)
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self.embedder = Timestep(256)
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self.noise_augmentor = CLIPEmbeddingNoiseAugmentation(**{"noise_schedule_config": {"timesteps": 1000, "beta_schedule": "squaredcos_cap_v2"}, "timestep_dim": 1280})
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def encode_adm(self, **kwargs):
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clip_pooled = sdxl_pooled(kwargs, self.noise_augmentor)
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width = kwargs.get("width", 768)
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height = kwargs.get("height", 768)
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crop_w = kwargs.get("crop_w", 0)
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crop_h = kwargs.get("crop_h", 0)
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if kwargs.get("prompt_type", "") == "negative":
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aesthetic_score = kwargs.get("aesthetic_score", 2.5)
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else:
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aesthetic_score = kwargs.get("aesthetic_score", 6)
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out = []
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out.append(self.embedder(torch.Tensor([height])))
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out.append(self.embedder(torch.Tensor([width])))
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out.append(self.embedder(torch.Tensor([crop_h])))
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out.append(self.embedder(torch.Tensor([crop_w])))
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out.append(self.embedder(torch.Tensor([aesthetic_score])))
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flat = torch.flatten(torch.cat(out)).unsqueeze(dim=0).repeat(clip_pooled.shape[0], 1)
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return torch.cat((clip_pooled.to(flat.device), flat), dim=1)
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class SDXL(BaseModel):
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def __init__(self, model_config, model_type=ModelType.EPS, device=None):
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super().__init__(model_config, model_type, device=device)
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self.embedder = Timestep(256)
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self.noise_augmentor = CLIPEmbeddingNoiseAugmentation(**{"noise_schedule_config": {"timesteps": 1000, "beta_schedule": "squaredcos_cap_v2"}, "timestep_dim": 1280})
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def encode_adm(self, **kwargs):
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clip_pooled = sdxl_pooled(kwargs, self.noise_augmentor)
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width = kwargs.get("width", 768)
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height = kwargs.get("height", 768)
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crop_w = kwargs.get("crop_w", 0)
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crop_h = kwargs.get("crop_h", 0)
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target_width = kwargs.get("target_width", width)
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target_height = kwargs.get("target_height", height)
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out = []
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out.append(self.embedder(torch.Tensor([height])))
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out.append(self.embedder(torch.Tensor([width])))
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out.append(self.embedder(torch.Tensor([crop_h])))
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out.append(self.embedder(torch.Tensor([crop_w])))
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out.append(self.embedder(torch.Tensor([target_height])))
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out.append(self.embedder(torch.Tensor([target_width])))
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flat = torch.flatten(torch.cat(out)).unsqueeze(dim=0).repeat(clip_pooled.shape[0], 1)
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return torch.cat((clip_pooled.to(flat.device), flat), dim=1)
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class SVD_img2vid(BaseModel):
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def __init__(self, model_config, model_type=ModelType.V_PREDICTION_EDM, device=None):
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super().__init__(model_config, model_type, device=device)
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self.embedder = Timestep(256)
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def encode_adm(self, **kwargs):
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fps_id = kwargs.get("fps", 6) - 1
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motion_bucket_id = kwargs.get("motion_bucket_id", 127)
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augmentation = kwargs.get("augmentation_level", 0)
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out = []
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out.append(self.embedder(torch.Tensor([fps_id])))
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out.append(self.embedder(torch.Tensor([motion_bucket_id])))
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out.append(self.embedder(torch.Tensor([augmentation])))
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flat = torch.flatten(torch.cat(out)).unsqueeze(dim=0)
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return flat
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def extra_conds(self, **kwargs):
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out = {}
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adm = self.encode_adm(**kwargs)
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if adm is not None:
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out['y'] = comfy.conds.CONDRegular(adm)
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latent_image = kwargs.get("concat_latent_image", None)
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noise = kwargs.get("noise", None)
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device = kwargs["device"]
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if latent_image is None:
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latent_image = torch.zeros_like(noise)
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if latent_image.shape[1:] != noise.shape[1:]:
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latent_image = utils.common_upscale(latent_image, noise.shape[-1], noise.shape[-2], "bilinear", "center")
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latent_image = utils.repeat_to_batch_size(latent_image, noise.shape[0])
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out['c_concat'] = comfy.conds.CONDNoiseShape(latent_image)
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if "time_conditioning" in kwargs:
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out["time_context"] = comfy.conds.CONDCrossAttn(kwargs["time_conditioning"])
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out['image_only_indicator'] = comfy.conds.CONDConstant(torch.zeros((1,), device=device))
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out['num_video_frames'] = comfy.conds.CONDConstant(noise.shape[0])
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return out
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