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import os
import einops
import torch
import numpy as np
import ldm_patched.modules.model_management
import ldm_patched.modules.model_detection
import ldm_patched.modules.model_patcher
import ldm_patched.modules.utils
import ldm_patched.modules.controlnet
import modules.sample_hijack
import ldm_patched.modules.samplers
import ldm_patched.modules.latent_formats
from ldm_patched.modules.sd import load_checkpoint_guess_config
from ldm_patched.contrib.external import VAEDecode, EmptyLatentImage, VAEEncode, VAEEncodeTiled, VAEDecodeTiled, \
ControlNetApplyAdvanced
from ldm_patched.contrib.external_freelunch import FreeU_V2
from ldm_patched.modules.sample import prepare_mask
from modules.lora import match_lora
from modules.util import get_file_from_folder_list
from ldm_patched.modules.lora import model_lora_keys_unet, model_lora_keys_clip
from modules.config import path_embeddings
from ldm_patched.contrib.external_model_advanced import ModelSamplingDiscrete
opEmptyLatentImage = EmptyLatentImage()
opVAEDecode = VAEDecode()
opVAEEncode = VAEEncode()
opVAEDecodeTiled = VAEDecodeTiled()
opVAEEncodeTiled = VAEEncodeTiled()
opControlNetApplyAdvanced = ControlNetApplyAdvanced()
opFreeU = FreeU_V2()
opModelSamplingDiscrete = ModelSamplingDiscrete()
class StableDiffusionModel:
def __init__(self, unet=None, vae=None, clip=None, clip_vision=None, filename=None):
self.unet = unet
self.vae = vae
self.clip = clip
self.clip_vision = clip_vision
self.filename = filename
self.unet_with_lora = unet
self.clip_with_lora = clip
self.visited_loras = ''
self.lora_key_map_unet = {}
self.lora_key_map_clip = {}
if self.unet is not None:
self.lora_key_map_unet = model_lora_keys_unet(self.unet.model, self.lora_key_map_unet)
self.lora_key_map_unet.update({x: x for x in self.unet.model.state_dict().keys()})
if self.clip is not None:
self.lora_key_map_clip = model_lora_keys_clip(self.clip.cond_stage_model, self.lora_key_map_clip)
self.lora_key_map_clip.update({x: x for x in self.clip.cond_stage_model.state_dict().keys()})
@torch.no_grad()
@torch.inference_mode()
def refresh_loras(self, loras):
assert isinstance(loras, list)
if self.visited_loras == str(loras):
return
self.visited_loras = str(loras)
if self.unet is None:
return
print(f'Request to load LoRAs {str(loras)} for model [{self.filename}].')
loras_to_load = []
for filename, weight in loras:
if filename == 'None':
continue
if os.path.exists(filename):
lora_filename = filename
else:
lora_filename = get_file_from_folder_list(filename, modules.config.paths_loras)
if not os.path.exists(lora_filename):
print(f'Lora file not found: {lora_filename}')
continue
loras_to_load.append((lora_filename, weight))
self.unet_with_lora = self.unet.clone() if self.unet is not None else None
self.clip_with_lora = self.clip.clone() if self.clip is not None else None
for lora_filename, weight in loras_to_load:
lora_unmatch = ldm_patched.modules.utils.load_torch_file(lora_filename, safe_load=False)
lora_unet, lora_unmatch = match_lora(lora_unmatch, self.lora_key_map_unet)
lora_clip, lora_unmatch = match_lora(lora_unmatch, self.lora_key_map_clip)
if len(lora_unmatch) > 12:
# model mismatch
continue
if len(lora_unmatch) > 0:
print(f'Loaded LoRA [{lora_filename}] for model [{self.filename}] '
f'with unmatched keys {list(lora_unmatch.keys())}')
if self.unet_with_lora is not None and len(lora_unet) > 0:
loaded_keys = self.unet_with_lora.add_patches(lora_unet, weight)
print(f'Loaded LoRA [{lora_filename}] for UNet [{self.filename}] '
f'with {len(loaded_keys)} keys at weight {weight}.')
for item in lora_unet:
if item not in loaded_keys:
print("UNet LoRA key skipped: ", item)
if self.clip_with_lora is not None and len(lora_clip) > 0:
loaded_keys = self.clip_with_lora.add_patches(lora_clip, weight)
print(f'Loaded LoRA [{lora_filename}] for CLIP [{self.filename}] '
f'with {len(loaded_keys)} keys at weight {weight}.')
for item in lora_clip:
if item not in loaded_keys:
print("CLIP LoRA key skipped: ", item)
@torch.no_grad()
@torch.inference_mode()
def apply_freeu(model, b1, b2, s1, s2):
return opFreeU.patch(model=model, b1=b1, b2=b2, s1=s1, s2=s2)[0]
@torch.no_grad()
@torch.inference_mode()
def load_controlnet(ckpt_filename):
return ldm_patched.modules.controlnet.load_controlnet(ckpt_filename)
@torch.no_grad()
@torch.inference_mode()
def apply_controlnet(positive, negative, control_net, image, strength, start_percent, end_percent):
return opControlNetApplyAdvanced.apply_controlnet(positive=positive, negative=negative, control_net=control_net,
image=image, strength=strength, start_percent=start_percent, end_percent=end_percent)
@torch.no_grad()
@torch.inference_mode()
def load_model(ckpt_filename):
unet, clip, vae, clip_vision = load_checkpoint_guess_config(ckpt_filename, embedding_directory=path_embeddings)
return StableDiffusionModel(unet=unet, clip=clip, vae=vae, clip_vision=clip_vision, filename=ckpt_filename)
@torch.no_grad()
@torch.inference_mode()
def generate_empty_latent(width=1024, height=1024, batch_size=1):
return opEmptyLatentImage.generate(width=width, height=height, batch_size=batch_size)[0]
@torch.no_grad()
@torch.inference_mode()
def decode_vae(vae, latent_image, tiled=False):
if tiled:
return opVAEDecodeTiled.decode(samples=latent_image, vae=vae, tile_size=512)[0]
else:
return opVAEDecode.decode(samples=latent_image, vae=vae)[0]
@torch.no_grad()
@torch.inference_mode()
def encode_vae(vae, pixels, tiled=False):
if tiled:
return opVAEEncodeTiled.encode(pixels=pixels, vae=vae, tile_size=512)[0]
else:
return opVAEEncode.encode(pixels=pixels, vae=vae)[0]
@torch.no_grad()
@torch.inference_mode()
def encode_vae_inpaint(vae, pixels, mask):
assert mask.ndim == 3 and pixels.ndim == 4
assert mask.shape[-1] == pixels.shape[-2]
assert mask.shape[-2] == pixels.shape[-3]
w = mask.round()[..., None]
pixels = pixels * (1 - w) + 0.5 * w
latent = vae.encode(pixels)
B, C, H, W = latent.shape
latent_mask = mask[:, None, :, :]
latent_mask = torch.nn.functional.interpolate(latent_mask, size=(H * 8, W * 8), mode="bilinear").round()
latent_mask = torch.nn.functional.max_pool2d(latent_mask, (8, 8)).round().to(latent)
return latent, latent_mask
class VAEApprox(torch.nn.Module):
def __init__(self):
super(VAEApprox, self).__init__()
self.conv1 = torch.nn.Conv2d(4, 8, (7, 7))
self.conv2 = torch.nn.Conv2d(8, 16, (5, 5))
self.conv3 = torch.nn.Conv2d(16, 32, (3, 3))
self.conv4 = torch.nn.Conv2d(32, 64, (3, 3))
self.conv5 = torch.nn.Conv2d(64, 32, (3, 3))
self.conv6 = torch.nn.Conv2d(32, 16, (3, 3))
self.conv7 = torch.nn.Conv2d(16, 8, (3, 3))
self.conv8 = torch.nn.Conv2d(8, 3, (3, 3))
self.current_type = None
def forward(self, x):
extra = 11
x = torch.nn.functional.interpolate(x, (x.shape[2] * 2, x.shape[3] * 2))
x = torch.nn.functional.pad(x, (extra, extra, extra, extra))
for layer in [self.conv1, self.conv2, self.conv3, self.conv4, self.conv5, self.conv6, self.conv7, self.conv8]:
x = layer(x)
x = torch.nn.functional.leaky_relu(x, 0.1)
return x
VAE_approx_models = {}
@torch.no_grad()
@torch.inference_mode()
def get_previewer(model):
global VAE_approx_models
from modules.config import path_vae_approx
is_sdxl = isinstance(model.model.latent_format, ldm_patched.modules.latent_formats.SDXL)
vae_approx_filename = os.path.join(path_vae_approx, 'xlvaeapp.pth' if is_sdxl else 'vaeapp_sd15.pth')
if vae_approx_filename in VAE_approx_models:
VAE_approx_model = VAE_approx_models[vae_approx_filename]
else:
sd = torch.load(vae_approx_filename, map_location='cpu')
VAE_approx_model = VAEApprox()
VAE_approx_model.load_state_dict(sd)
del sd
VAE_approx_model.eval()
if ldm_patched.modules.model_management.should_use_fp16():
VAE_approx_model.half()
VAE_approx_model.current_type = torch.float16
else:
VAE_approx_model.float()
VAE_approx_model.current_type = torch.float32
VAE_approx_model.to(ldm_patched.modules.model_management.get_torch_device())
VAE_approx_models[vae_approx_filename] = VAE_approx_model
@torch.no_grad()
@torch.inference_mode()
def preview_function(x0, step, total_steps):
with torch.no_grad():
x_sample = x0.to(VAE_approx_model.current_type)
x_sample = VAE_approx_model(x_sample) * 127.5 + 127.5
x_sample = einops.rearrange(x_sample, 'b c h w -> b h w c')[0]
x_sample = x_sample.cpu().numpy().clip(0, 255).astype(np.uint8)
return x_sample
return preview_function
@torch.no_grad()
@torch.inference_mode()
def ksampler(model, positive, negative, latent, seed=None, steps=30, cfg=7.0, sampler_name='dpmpp_2m_sde_gpu',
scheduler='karras', denoise=1.0, disable_noise=False, start_step=None, last_step=None,
force_full_denoise=False, callback_function=None, refiner=None, refiner_switch=-1,
previewer_start=None, previewer_end=None, sigmas=None, noise_mean=None, disable_preview=False):
if sigmas is not None:
sigmas = sigmas.clone().to(ldm_patched.modules.model_management.get_torch_device())
latent_image = latent["samples"]
if disable_noise:
noise = torch.zeros(latent_image.size(), dtype=latent_image.dtype, layout=latent_image.layout, device="cpu")
else:
batch_inds = latent["batch_index"] if "batch_index" in latent else None
noise = ldm_patched.modules.sample.prepare_noise(latent_image, seed, batch_inds)
if isinstance(noise_mean, torch.Tensor):
noise = noise + noise_mean - torch.mean(noise, dim=1, keepdim=True)
noise_mask = None
if "noise_mask" in latent:
noise_mask = latent["noise_mask"]
previewer = get_previewer(model)
if previewer_start is None:
previewer_start = 0
if previewer_end is None:
previewer_end = steps
def callback(step, x0, x, total_steps):
ldm_patched.modules.model_management.throw_exception_if_processing_interrupted()
y = None
if previewer is not None and not disable_preview:
y = previewer(x0, previewer_start + step, previewer_end)
if callback_function is not None:
callback_function(previewer_start + step, x0, x, previewer_end, y)
disable_pbar = False
modules.sample_hijack.current_refiner = refiner
modules.sample_hijack.refiner_switch_step = refiner_switch
ldm_patched.modules.samplers.sample = modules.sample_hijack.sample_hacked
try:
samples = ldm_patched.modules.sample.sample(model,
noise, steps, cfg, sampler_name, scheduler,
positive, negative, latent_image,
denoise=denoise, disable_noise=disable_noise,
start_step=start_step,
last_step=last_step,
force_full_denoise=force_full_denoise, noise_mask=noise_mask,
callback=callback,
disable_pbar=disable_pbar, seed=seed, sigmas=sigmas)
out = latent.copy()
out["samples"] = samples
finally:
modules.sample_hijack.current_refiner = None
return out
@torch.no_grad()
@torch.inference_mode()
def pytorch_to_numpy(x):
return [np.clip(255. * y.cpu().numpy(), 0, 255).astype(np.uint8) for y in x]
@torch.no_grad()
@torch.inference_mode()
def numpy_to_pytorch(x):
y = x.astype(np.float32) / 255.0
y = y[None]
y = np.ascontiguousarray(y.copy())
y = torch.from_numpy(y).float()
return y