import contextlib import torch import k_diffusion from modules.models.sd3.sd3_impls import BaseModel, SDVAE, SD3LatentFormat from modules.models.sd3.sd3_cond import SD3Cond from modules import shared, devices class SD3Denoiser(k_diffusion.external.DiscreteSchedule): def __init__(self, inner_model, sigmas): super().__init__(sigmas, quantize=shared.opts.enable_quantization) self.inner_model = inner_model def forward(self, input, sigma, **kwargs): return self.inner_model.apply_model(input, sigma, **kwargs) class SD3Inferencer(torch.nn.Module): def __init__(self, state_dict, shift=3, use_ema=False): super().__init__() self.shift = shift with torch.no_grad(): self.model = BaseModel(shift=shift, state_dict=state_dict, prefix="model.diffusion_model.", device="cpu", dtype=devices.dtype) self.first_stage_model = SDVAE(device="cpu", dtype=devices.dtype_vae) self.first_stage_model.dtype = self.model.diffusion_model.dtype self.alphas_cumprod = 1 / (self.model.model_sampling.sigmas ** 2 + 1) self.text_encoders = SD3Cond() self.cond_stage_key = 'txt' self.parameterization = "eps" self.model.conditioning_key = "crossattn" self.latent_format = SD3LatentFormat() self.latent_channels = 16 @property def cond_stage_model(self): return self.text_encoders def before_load_weights(self, state_dict): self.cond_stage_model.before_load_weights(state_dict) def ema_scope(self): return contextlib.nullcontext() def get_learned_conditioning(self, batch: list[str]): return self.cond_stage_model(batch) def apply_model(self, x, t, cond): return self.model(x, t, c_crossattn=cond['crossattn'], y=cond['vector']) def decode_first_stage(self, latent): latent = self.latent_format.process_out(latent) return self.first_stage_model.decode(latent) def encode_first_stage(self, image): latent = self.first_stage_model.encode(image) return self.latent_format.process_in(latent) def get_first_stage_encoding(self, x): return x def create_denoiser(self): return SD3Denoiser(self, self.model.model_sampling.sigmas) def medvram_fields(self): return [ (self, 'first_stage_model'), (self, 'text_encoders'), (self, 'model'), ] def add_noise_to_latent(self, x, noise, amount): return x * (1 - amount) + noise * amount def fix_dimensions(self, width, height): return width // 16 * 16, height // 16 * 16