mirror of
https://github.com/invoke-ai/InvokeAI
synced 2024-08-30 20:32:17 +00:00
f3050fefce
- txt2img2img back to using DDIM as img2img sampler; results produced by some k* samplers are just not reliable enough for good user experience - img2img progress message clarifies why img2img steps taken != steps requested - warn of potential problems when user tries to run img2img on a small init image
245 lines
8.1 KiB
Python
245 lines
8.1 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.dream.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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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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sigmas = self.model.get_sigmas(ddim_num_steps)
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self.sigmas = 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 (probably?) not work correctly. To get this to work
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# we need to be able to modify the inner loop of k_heun, k_lms, etc, as is done
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# in an ugly way in the lstein/k-diffusion branch.
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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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# sigmas = self.model.get_sigmas(S)
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# sigmas are now set up in make_schedule - we take the last steps items
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sigmas = self.sigmas[-S-1:]
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if x_T is not None:
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x = x_T * sigmas[0]
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else:
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x = (
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torch.randn([batch_size, *shape], device=self.device)
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* sigmas[0]
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) # for GPU draw
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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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def get_initial_image(self,x_T,shape,steps):
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if x_T is not None:
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return x_T + x_T * self.sigmas[0]
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else:
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return (torch.randn(shape, device=self.device) * self.sigmas[0])
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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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@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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