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https://github.com/invoke-ai/InvokeAI
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c4fb8e304b
At step counts greater than ~75, the ksamplers start producing noisy images when using the Karras noise schedule. This PR reverts to using the model's own noise schedule, which eliminates the problem at the cost of slowing convergence at lower step counts. This PR also introduces a new CLI `--save_intermediates <n>' argument, which will save every nth intermediate image into a subdirectory named `intermediates/<image_prefix>'. Addresses issue #1083.
284 lines
9.5 KiB
Python
284 lines
9.5 KiB
Python
"""wrapper around part of Katherine Crowson's k-diffusion library, making it call compatible with other Samplers"""
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import k_diffusion as K
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import torch
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import torch.nn as nn
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from ldm.invoke.devices import choose_torch_device
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from ldm.models.diffusion.sampler import Sampler
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from ldm.util import rand_perlin_2d
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from ldm.modules.diffusionmodules.util import (
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make_ddim_sampling_parameters,
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make_ddim_timesteps,
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noise_like,
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extract_into_tensor,
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)
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def cfg_apply_threshold(result, threshold = 0.0, scale = 0.7):
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if threshold <= 0.0:
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return result
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maxval = 0.0 + torch.max(result).cpu().numpy()
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minval = 0.0 + torch.min(result).cpu().numpy()
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if maxval < threshold and minval > -threshold:
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return result
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if maxval > threshold:
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maxval = min(max(1, scale*maxval), threshold)
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if minval < -threshold:
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minval = max(min(-1, scale*minval), -threshold)
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return torch.clamp(result, min=minval, max=maxval)
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class CFGDenoiser(nn.Module):
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def __init__(self, model, threshold = 0, warmup = 0):
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super().__init__()
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self.inner_model = model
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self.threshold = threshold
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self.warmup_max = warmup
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self.warmup = max(warmup / 10, 1)
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def forward(self, x, sigma, uncond, cond, cond_scale):
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x_in = torch.cat([x] * 2)
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sigma_in = torch.cat([sigma] * 2)
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cond_in = torch.cat([uncond, cond])
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uncond, cond = self.inner_model(x_in, sigma_in, cond=cond_in).chunk(2)
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if self.warmup < self.warmup_max:
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thresh = max(1, 1 + (self.threshold - 1) * (self.warmup / self.warmup_max))
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self.warmup += 1
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else:
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thresh = self.threshold
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if thresh > self.threshold:
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thresh = self.threshold
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return cfg_apply_threshold(uncond + (cond - uncond) * cond_scale, thresh)
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class KSampler(Sampler):
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def __init__(self, model, schedule='lms', device=None, **kwargs):
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denoiser = K.external.CompVisDenoiser(model)
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super().__init__(
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denoiser,
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schedule,
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steps=model.num_timesteps,
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)
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self.sigmas = None
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self.ds = None
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self.s_in = None
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def forward(self, x, sigma, uncond, cond, cond_scale):
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x_in = torch.cat([x] * 2)
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sigma_in = torch.cat([sigma] * 2)
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cond_in = torch.cat([uncond, cond])
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uncond, cond = self.inner_model(
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x_in, sigma_in, cond=cond_in
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).chunk(2)
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return uncond + (cond - uncond) * cond_scale
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def make_schedule(
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self,
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ddim_num_steps,
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ddim_discretize='uniform',
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ddim_eta=0.0,
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verbose=False,
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):
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outer_model = self.model
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self.model = outer_model.inner_model
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super().make_schedule(
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ddim_num_steps,
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ddim_discretize='uniform',
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ddim_eta=0.0,
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verbose=False,
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)
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self.model = outer_model
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self.ddim_num_steps = ddim_num_steps
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# we don't need both of these sigmas, but storing them here to make
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# comparison easier later on
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self.model_sigmas = self.model.get_sigmas(ddim_num_steps)
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self.karras_sigmas = K.sampling.get_sigmas_karras(
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n=ddim_num_steps,
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sigma_min=self.model.sigmas[0].item(),
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sigma_max=self.model.sigmas[-1].item(),
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rho=7.,
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device=self.device,
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)
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self.sigmas = self.model_sigmas
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#self.sigmas = self.karras_sigmas
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# ALERT: We are completely overriding the sample() method in the base class, which
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# means that inpainting will not work. To get this to work we need to be able to
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# modify the inner loop of k_heun, k_lms, etc, as is done in an ugly way
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# in the lstein/k-diffusion branch.
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@torch.no_grad()
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def decode(
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self,
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z_enc,
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cond,
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t_enc,
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img_callback=None,
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unconditional_guidance_scale=1.0,
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unconditional_conditioning=None,
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use_original_steps=False,
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init_latent = None,
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mask = None,
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):
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samples,_ = self.sample(
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batch_size = 1,
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S = t_enc,
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x_T = z_enc,
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shape = z_enc.shape[1:],
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conditioning = cond,
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unconditional_guidance_scale=unconditional_guidance_scale,
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unconditional_conditioning = unconditional_conditioning,
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img_callback = img_callback,
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x0 = init_latent,
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mask = mask
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)
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return samples
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# this is a no-op, provided here for compatibility with ddim and plms samplers
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@torch.no_grad()
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def stochastic_encode(self, x0, t, use_original_steps=False, noise=None):
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return x0
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# Most of these arguments are ignored and are only present for compatibility with
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# other samples
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@torch.no_grad()
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def sample(
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self,
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S,
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batch_size,
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shape,
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conditioning=None,
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callback=None,
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normals_sequence=None,
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img_callback=None,
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quantize_x0=False,
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eta=0.0,
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mask=None,
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x0=None,
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temperature=1.0,
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noise_dropout=0.0,
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score_corrector=None,
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corrector_kwargs=None,
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verbose=True,
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x_T=None,
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log_every_t=100,
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unconditional_guidance_scale=1.0,
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unconditional_conditioning=None,
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threshold = 0,
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perlin = 0,
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# this has to come in the same format as the conditioning, # e.g. as encoded tokens, ...
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**kwargs,
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):
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def route_callback(k_callback_values):
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if img_callback is not None:
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img_callback(k_callback_values['x'],k_callback_values['i'])
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# if make_schedule() hasn't been called, we do it now
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if self.sigmas is None:
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self.make_schedule(
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ddim_num_steps=S,
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ddim_eta = eta,
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verbose = False,
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)
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# sigmas are set up in make_schedule - we take the last steps items
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total_steps = len(self.sigmas)
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sigmas = self.sigmas[-S-1:]
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# x_T is variation noise. When an init image is provided (in x0) we need to add
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# more randomness to the starting image.
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if x_T is not None:
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if x0 is not None:
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x = x_T + torch.randn_like(x0, device=self.device) * sigmas[0]
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else:
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x = x_T * sigmas[0]
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else:
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x = torch.randn([batch_size, *shape], device=self.device) * sigmas[0]
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model_wrap_cfg = CFGDenoiser(self.model, threshold=threshold, warmup=max(0.8*S,S-10))
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extra_args = {
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'cond': conditioning,
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'uncond': unconditional_conditioning,
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'cond_scale': unconditional_guidance_scale,
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}
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print(f'>> Sampling with k_{self.schedule} starting at step {len(self.sigmas)-S-1} of {len(self.sigmas)-1} ({S} new sampling steps)')
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return (
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K.sampling.__dict__[f'sample_{self.schedule}'](
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model_wrap_cfg, x, sigmas, extra_args=extra_args,
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callback=route_callback
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),
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None,
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)
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# this code will support inpainting if and when ksampler API modified or
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# a workaround is found.
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@torch.no_grad()
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def p_sample(
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self,
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img,
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cond,
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ts,
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index,
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unconditional_guidance_scale=1.0,
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unconditional_conditioning=None,
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**kwargs,
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):
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if self.model_wrap is None:
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self.model_wrap = CFGDenoiser(self.model)
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extra_args = {
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'cond': cond,
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'uncond': unconditional_conditioning,
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'cond_scale': unconditional_guidance_scale,
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}
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if self.s_in is None:
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self.s_in = img.new_ones([img.shape[0]])
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if self.ds is None:
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self.ds = []
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# terrible, confusing names here
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steps = self.ddim_num_steps
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t_enc = self.t_enc
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# sigmas is a full steps in length, but t_enc might
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# be less. We start in the middle of the sigma array
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# and work our way to the end after t_enc steps.
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# index starts at t_enc and works its way to zero,
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# so the actual formula for indexing into sigmas:
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# sigma_index = (steps-index)
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s_index = t_enc - index - 1
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img = K.sampling.__dict__[f'_{self.schedule}'](
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self.model_wrap,
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img,
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self.sigmas,
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s_index,
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s_in = self.s_in,
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ds = self.ds,
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extra_args=extra_args,
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)
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return img, None, None
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# REVIEW THIS METHOD: it has never been tested. In particular,
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# we should not be multiplying by self.sigmas[0] if we
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# are at an intermediate step in img2img. See similar in
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# sample() which does work.
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def get_initial_image(self,x_T,shape,steps):
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print(f'WARNING: ksampler.get_initial_image(): get_initial_image needs testing')
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x = (torch.randn(shape, device=self.device) * self.sigmas[0])
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if x_T is not None:
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return x_T + x
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else:
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return x
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def prepare_to_sample(self,t_enc):
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self.t_enc = t_enc
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self.model_wrap = None
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self.ds = None
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self.s_in = None
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def q_sample(self,x0,ts):
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'''
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Overrides parent method to return the q_sample of the inner model.
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'''
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return self.model.inner_model.q_sample(x0,ts)
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