from math import floor from typing import Callable, Optional, TypeAlias import torch from PIL import Image from invokeai.app.services.session_processor.session_processor_common import CanceledException from invokeai.backend.model_manager.config import BaseModelType from invokeai.backend.stable_diffusion.diffusers_pipeline import PipelineIntermediateState # fast latents preview matrix for sdxl # generated by @StAlKeR7779 SDXL_LATENT_RGB_FACTORS = [ # R G B [0.3816, 0.4930, 0.5320], [-0.3753, 0.1631, 0.1739], [0.1770, 0.3588, -0.2048], [-0.4350, -0.2644, -0.4289], ] SDXL_SMOOTH_MATRIX = [ [0.0358, 0.0964, 0.0358], [0.0964, 0.4711, 0.0964], [0.0358, 0.0964, 0.0358], ] # origingally adapted from code by @erucipe and @keturn here: # https://discuss.huggingface.co/t/decoding-latents-to-rgb-without-upscaling/23204/7 # these updated numbers for v1.5 are from @torridgristle SD1_5_LATENT_RGB_FACTORS = [ # R G B [0.3444, 0.1385, 0.0670], # L1 [0.1247, 0.4027, 0.1494], # L2 [-0.3192, 0.2513, 0.2103], # L3 [-0.1307, -0.1874, -0.7445], # L4 ] SD3_5_LATENT_RGB_FACTORS = [ [-0.05240681, 0.03251581, 0.0749016], [-0.0580572, 0.00759826, 0.05729818], [0.16144888, 0.01270368, -0.03768577], [0.14418615, 0.08460266, 0.15941818], [0.04894035, 0.0056485, -0.06686988], [0.05187166, 0.19222395, 0.06261094], [0.1539433, 0.04818359, 0.07103094], [-0.08601796, 0.09013458, 0.10893912], [-0.12398469, -0.06766567, 0.0033688], [-0.0439737, 0.07825329, 0.02258823], [0.03101129, 0.06382551, 0.07753657], [-0.01315361, 0.08554491, -0.08772475], [0.06464487, 0.05914605, 0.13262741], [-0.07863674, -0.02261737, -0.12761454], [-0.09923835, -0.08010759, -0.06264447], [-0.03392309, -0.0804029, -0.06078822], ] FLUX_LATENT_RGB_FACTORS = [ [-0.0412, 0.0149, 0.0521], [0.0056, 0.0291, 0.0768], [0.0342, -0.0681, -0.0427], [-0.0258, 0.0092, 0.0463], [0.0863, 0.0784, 0.0547], [-0.0017, 0.0402, 0.0158], [0.0501, 0.1058, 0.1152], [-0.0209, -0.0218, -0.0329], [-0.0314, 0.0083, 0.0896], [0.0851, 0.0665, -0.0472], [-0.0534, 0.0238, -0.0024], [0.0452, -0.0026, 0.0048], [0.0892, 0.0831, 0.0881], [-0.1117, -0.0304, -0.0789], [0.0027, -0.0479, -0.0043], [-0.1146, -0.0827, -0.0598], ] def sample_to_lowres_estimated_image( samples: torch.Tensor, latent_rgb_factors: torch.Tensor, smooth_matrix: Optional[torch.Tensor] = None ): latent_image = samples[0].permute(1, 2, 0) @ latent_rgb_factors if smooth_matrix is not None: latent_image = latent_image.unsqueeze(0).permute(3, 0, 1, 2) latent_image = torch.nn.functional.conv2d(latent_image, smooth_matrix.reshape((1, 1, 3, 3)), padding=1) latent_image = latent_image.permute(1, 2, 3, 0).squeeze(0) latents_ubyte = ( ((latent_image + 1) / 2).clamp(0, 1).mul(0xFF).byte() # change scale from -1..1 to 0..1 # to 0..255 ).cpu() return Image.fromarray(latents_ubyte.numpy()) def calc_percentage(intermediate_state: PipelineIntermediateState) -> float: """Calculate the percentage of completion of denoising.""" step = intermediate_state.step total_steps = intermediate_state.total_steps order = intermediate_state.order if total_steps == 0: return 0.0 if order == 2: return floor(step / 2) / floor(total_steps / 2) # order == 1 return step / total_steps SignalProgressFunc: TypeAlias = Callable[[str, float | None, Image.Image | None, tuple[int, int] | None], None] def stable_diffusion_step_callback( signal_progress: SignalProgressFunc, intermediate_state: PipelineIntermediateState, base_model: BaseModelType, is_canceled: Callable[[], bool], ) -> None: if is_canceled(): raise CanceledException # Some schedulers report not only the noisy latents at the current timestep, # but also their estimate so far of what the de-noised latents will be. Use # that estimate if it is available. if intermediate_state.predicted_original is not None: sample = intermediate_state.predicted_original else: sample = intermediate_state.latents if base_model in [BaseModelType.StableDiffusionXL, BaseModelType.StableDiffusionXLRefiner]: sdxl_latent_rgb_factors = torch.tensor(SDXL_LATENT_RGB_FACTORS, dtype=sample.dtype, device=sample.device) sdxl_smooth_matrix = torch.tensor(SDXL_SMOOTH_MATRIX, dtype=sample.dtype, device=sample.device) image = sample_to_lowres_estimated_image(sample, sdxl_latent_rgb_factors, sdxl_smooth_matrix) elif base_model == BaseModelType.StableDiffusion3: sd3_latent_rgb_factors = torch.tensor(SD3_5_LATENT_RGB_FACTORS, dtype=sample.dtype, device=sample.device) image = sample_to_lowres_estimated_image(sample, sd3_latent_rgb_factors) else: v1_5_latent_rgb_factors = torch.tensor(SD1_5_LATENT_RGB_FACTORS, dtype=sample.dtype, device=sample.device) image = sample_to_lowres_estimated_image(sample, v1_5_latent_rgb_factors) width = image.width * 8 height = image.height * 8 percentage = calc_percentage(intermediate_state) signal_progress("Denoising", percentage, image, (width, height)) def flux_step_callback( signal_progress: SignalProgressFunc, intermediate_state: PipelineIntermediateState, is_canceled: Callable[[], bool], ) -> None: if is_canceled(): raise CanceledException sample = intermediate_state.latents latent_rgb_factors = torch.tensor(FLUX_LATENT_RGB_FACTORS, dtype=sample.dtype, device=sample.device) latent_image_perm = sample.permute(1, 2, 0).to(dtype=sample.dtype, device=sample.device) latent_image = latent_image_perm @ latent_rgb_factors latents_ubyte = ( ((latent_image + 1) / 2).clamp(0, 1).mul(0xFF) # change scale from -1..1 to 0..1 # to 0..255 ).to(device="cpu", dtype=torch.uint8) image = Image.fromarray(latents_ubyte.cpu().numpy()) width = image.width * 8 height = image.height * 8 percentage = calc_percentage(intermediate_state) signal_progress("Denoising", percentage, image, (width, height))