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import random
import tempfile
import time
import gradio as gr
import numpy as np
import torch
from gradio import inputs
from diffusers import (
AutoencoderKL,
DDIMScheduler,
UNet2DConditionModel,
)
from modules.model_pww import CrossAttnProcessor, StableDiffusionPipeline, load_lora_attn_procs
from torchvision import transforms
from transformers import CLIPTokenizer, CLIPTextModel
from PIL import Image
from pathlib import Path
from safetensors.torch import load_file
import modules.safe as _
models = [
("AbyssOrangeMix_Base", "OrangeMix/AbyssOrangeMix2"),
]
base_name = "AbyssOrangeMix_Base"
base_model = "OrangeMix/AbyssOrangeMix2"
samplers_k_diffusion = [
("Euler a", "sample_euler_ancestral", {}),
("Euler", "sample_euler", {}),
("LMS", "sample_lms", {}),
("Heun", "sample_heun", {}),
("DPM2", "sample_dpm_2", {"discard_next_to_last_sigma": True}),
("DPM2 a", "sample_dpm_2_ancestral", {"discard_next_to_last_sigma": True}),
("DPM++ 2S a", "sample_dpmpp_2s_ancestral", {}),
("DPM++ 2M", "sample_dpmpp_2m", {}),
("DPM++ SDE", "sample_dpmpp_sde", {}),
("DPM fast", "sample_dpm_fast", {}),
("DPM adaptive", "sample_dpm_adaptive", {}),
("LMS Karras", "sample_lms", {"scheduler": "karras"}),
(
"DPM2 Karras",
"sample_dpm_2",
{"scheduler": "karras", "discard_next_to_last_sigma": True},
),
(
"DPM2 a Karras",
"sample_dpm_2_ancestral",
{"scheduler": "karras", "discard_next_to_last_sigma": True},
),
("DPM++ 2S a Karras", "sample_dpmpp_2s_ancestral", {"scheduler": "karras"}),
("DPM++ 2M Karras", "sample_dpmpp_2m", {"scheduler": "karras"}),
("DPM++ SDE Karras", "sample_dpmpp_sde", {"scheduler": "karras"}),
]
start_time = time.time()
scheduler = DDIMScheduler.from_pretrained(
base_model,
subfolder="scheduler",
)
vae = AutoencoderKL.from_pretrained(
"stabilityai/sd-vae-ft-ema",
torch_dtype=torch.float32
)
text_encoder = CLIPTextModel.from_pretrained(
base_model,
subfolder="text_encoder",
torch_dtype=torch.float32,
)
tokenizer = CLIPTokenizer.from_pretrained(
base_model,
subfolder="tokenizer",
torch_dtype=torch.float32,
)
unet = UNet2DConditionModel.from_pretrained(
base_model,
subfolder="unet",
torch_dtype=torch.float32,
)
pipe = StableDiffusionPipeline(
text_encoder=text_encoder,
tokenizer=tokenizer,
unet=unet,
vae=vae,
scheduler=scheduler,
)
unet.set_attn_processor(CrossAttnProcessor)
if torch.cuda.is_available():
pipe = pipe.to("cuda")
def get_model_list():
model_available = []
for model in models:
if Path(model[1]).is_dir():
model_available.append(model)
return model_available
unet_cache = dict()
def get_model(name):
keys = [k[0] for k in models]
if name not in unet_cache:
if name not in keys:
raise ValueError(name)
else:
unet = UNet2DConditionModel.from_pretrained(
models[keys.index(name)][1],
subfolder="unet",
torch_dtype=torch.float32,
)
unet_cache[name] = unet
g_unet = unet_cache[name]
g_unet.set_attn_processor(None)
return g_unet
def error_str(error, title="Error"):
return (
f"""#### {title}
{error}"""
if error
else ""
)
te_base_weight = text_encoder.get_input_embeddings().weight.data.detach().clone()
def restore_all():
global te_base_weight, tokenizer
text_encoder.get_input_embeddings().weight.data = te_base_weight
tokenizer = CLIPTokenizer.from_pretrained(
"/root/workspace/storage/models/orangemix",
subfolder="tokenizer",
torch_dtype=torch.float16,
)
def inference(
prompt,
guidance,
steps,
width=512,
height=512,
seed=0,
neg_prompt="",
state=None,
g_strength=0.4,
img_input=None,
i2i_scale=0.5,
hr_enabled=False,
hr_method="Latent",
hr_scale=1.5,
hr_denoise=0.8,
sampler="DPM++ 2M Karras",
embs=None,
model=None,
lora_state=None,
lora_scale=None,
):
global pipe, unet, tokenizer, text_encoder
if seed is None or seed == 0:
seed = random.randint(0, 2147483647)
if torch.cuda.is_available():
generator = torch.Generator("cuda").manual_seed(int(seed))
else:
generator = torch.Generator().manual_seed(int(seed))
local_unet = get_model(model)
if lora_state is not None and lora_state != "":
load_lora_attn_procs(lora_state, local_unet, lora_scale)
else:
local_unet.set_attn_processor(CrossAttnProcessor())
pipe.setup_unet(local_unet)
sampler_name, sampler_opt = None, None
for label, funcname, options in samplers_k_diffusion:
if label == sampler:
sampler_name, sampler_opt = funcname, options
if embs is not None and len(embs) > 0:
delta_weight = []
for name, file in embs.items():
if str(file).endswith(".pt"):
loaded_learned_embeds = torch.load(file, map_location="cpu")
else:
loaded_learned_embeds = load_file(file, device="cpu")
loaded_learned_embeds = loaded_learned_embeds["string_to_param"]["*"]
added_length = tokenizer.add_tokens(name)
assert added_length == loaded_learned_embeds.shape[0]
delta_weight.append(loaded_learned_embeds)
delta_weight = torch.cat(delta_weight, dim=0)
text_encoder.resize_token_embeddings(len(tokenizer))
text_encoder.get_input_embeddings().weight.data[-delta_weight.shape[0]:] = delta_weight
config = {
"negative_prompt": neg_prompt,
"num_inference_steps": int(steps),
"guidance_scale": guidance,
"generator": generator,
"sampler_name": sampler_name,
"sampler_opt": sampler_opt,
"pww_state": state,
"pww_attn_weight": g_strength,
}
if img_input is not None:
ratio = min(height / img_input.height, width / img_input.width)
img_input = img_input.resize(
(int(img_input.width * ratio), int(img_input.height * ratio)), Image.LANCZOS
)
result = pipe.img2img(prompt, image=img_input, strength=i2i_scale, **config)
elif hr_enabled:
result = pipe.txt2img(
prompt,
width=width,
height=height,
upscale=True,
upscale_x=hr_scale,
upscale_denoising_strength=hr_denoise,
**config,
**latent_upscale_modes[hr_method],
)
else:
result = pipe.txt2img(prompt, width=width, height=height, **config)
# restore
if embs is not None and len(embs) > 0:
restore_all()
return gr.Image.update(result[0][0], label=f"Initial Seed: {seed}")
color_list = []
def get_color(n):
for _ in range(n - len(color_list)):
color_list.append(tuple(np.random.random(size=3) * 256))
return color_list
def create_mixed_img(current, state, w=512, h=512):
w, h = int(w), int(h)
image_np = np.full([h, w, 4], 255)
colors = get_color(len(state))
idx = 0
for key, item in state.items():
if item["map"] is not None:
m = item["map"] < 255
alpha = 150
if current == key:
alpha = 200
image_np[m] = colors[idx] + (alpha,)
idx += 1
return image_np
# width.change(apply_new_res, inputs=[width, height, global_stats], outputs=[global_stats, sp, rendered])
def apply_new_res(w, h, state):
w, h = int(w), int(h)
for key, item in state.items():
if item["map"] is not None:
item["map"] = resize(item["map"], w, h)
update_img = gr.Image.update(value=create_mixed_img("", state, w, h))
return state, update_img
def detect_text(text, state, width, height):
t = text.split(",")
new_state = {}
for item in t:
item = item.strip()
if item == "":
continue
if item in state:
new_state[item] = {
"map": state[item]["map"],
"weight": state[item]["weight"],
}
else:
new_state[item] = {
"map": None,
"weight": 0.5,
}
update = gr.Radio.update(choices=[key for key in new_state.keys()], value=None)
update_img = gr.update(value=create_mixed_img("", new_state, width, height))
update_sketch = gr.update(value=None, interactive=False)
return new_state, update_sketch, update, update_img
def resize(img, w, h):
trs = transforms.Compose(
[
transforms.ToPILImage(),
transforms.Resize(min(h, w)),
transforms.CenterCrop((h, w)),
]
)
result = np.array(trs(img), dtype=np.uint8)
return result
def switch_canvas(entry, state, width, height):
if entry == None:
return None, 0.5, create_mixed_img("", state, width, height)
return (
gr.update(value=None, interactive=True),
gr.update(value=state[entry]["weight"]),
create_mixed_img(entry, state, width, height),
)
def apply_canvas(selected, draw, state, w, h):
w, h = int(w), int(h)
state[selected]["map"] = resize(draw, w, h)
return state, gr.Image.update(value=create_mixed_img(selected, state, w, h))
def apply_weight(selected, weight, state):
state[selected]["weight"] = weight
return state
# sp2, radio, width, height, global_stats
def apply_image(image, selected, w, h, strgength, state):
if selected is not None:
state[selected] = {"map": resize(image, w, h), "weight": strgength}
return state, gr.Image.update(value=create_mixed_img(selected, state, w, h))
# [ti_state, lora_state, ti_vals, lora_vals, uploads]
def add_net(files: list[tempfile._TemporaryFileWrapper], ti_state, lora_state):
if files is None:
return ti_state, "", lora_state, None
for file in files:
item = Path(file.name)
stripedname = str(item.stem).strip()
if item.suffix == ".pt":
state_dict = torch.load(file.name, map_location="cpu")
else:
state_dict = load_file(file.name, device="cpu")
if any("lora" in k for k in state_dict.keys()):
lora_state = file.name
else:
ti_state[stripedname] = file.name
return ti_state, lora_state, gr.Text.update(f"{[key for key in ti_state.keys()]}"), gr.Text.update(f"{lora_state}"), gr.Files.update(value=None)
# [ti_state, lora_state, ti_vals, lora_vals, uploads]
def clean_states(ti_state, lora_state):
return dict(), None, gr.Text.update(f""), gr.Text.update(f""), gr.File.update(value=None)
latent_upscale_modes = {
"Latent": {"upscale_method": "bilinear", "upscale_antialias": False},
"Latent (antialiased)": {"upscale_method": "bilinear", "upscale_antialias": True},
"Latent (bicubic)": {"upscale_method": "bicubic", "upscale_antialias": False},
"Latent (bicubic antialiased)": {
"upscale_method": "bicubic",
"upscale_antialias": True,
},
"Latent (nearest)": {"upscale_method": "nearest", "upscale_antialias": False},
"Latent (nearest-exact)": {
"upscale_method": "nearest-exact",
"upscale_antialias": False,
},
}
css = """
.finetuned-diffusion-div div{
display:inline-flex;
align-items:center;
gap:.8rem;
font-size:1.75rem;
padding-top:2rem;
}
.finetuned-diffusion-div div h1{
font-weight:900;
margin-bottom:7px
}
.finetuned-diffusion-div p{
margin-bottom:10px;
font-size:94%
}
.box {
float: left;
height: 20px;
width: 20px;
margin-bottom: 15px;
border: 1px solid black;
clear: both;
}
a{
text-decoration:underline
}
.tabs{
margin-top:0;
margin-bottom:0
}
#gallery{
min-height:20rem
}
.no-border {
border: none !important;
}
"""
with gr.Blocks(css=css) as demo:
gr.HTML(
f"""
<div class="finetuned-diffusion-div">
<div>
<h1>Demo for diffusion models</h1>
</div>
<p>Hso @ nyanko.sketch2img.gradio</p>
</div>
"""
)
global_stats = gr.State(value={})
with gr.Row():
with gr.Column(scale=55):
model = gr.Dropdown(
choices=[k[0] for k in get_model_list()],
label="Model",
value=base_name,
)
image_out = gr.Image(height=512)
# gallery = gr.Gallery(
# label="Generated images", show_label=False, elem_id="gallery"
# ).style(grid=[1], height="auto")
with gr.Column(scale=45):
with gr.Group():
with gr.Row():
with gr.Column(scale=70):
prompt = gr.Textbox(
label="Prompt",
value="loli cat girl, blue eyes, flat chest, solo, long messy silver hair, blue capelet, garden, cat ears, cat tail, upper body",
show_label=True,
max_lines=4,
placeholder="Enter prompt.",
)
neg_prompt = gr.Textbox(
label="Negative Prompt",
value="bad quality, low quality, jpeg artifact, cropped",
show_label=True,
max_lines=4,
placeholder="Enter negative prompt.",
)
generate = gr.Button(value="Generate").style(
rounded=(False, True, True, False)
)
with gr.Tab("Options"):
with gr.Group():
# n_images = gr.Slider(label="Images", value=1, minimum=1, maximum=4, step=1)
with gr.Row():
guidance = gr.Slider(
label="Guidance scale", value=7.5, maximum=15
)
steps = gr.Slider(
label="Steps", value=25, minimum=2, maximum=75, step=1
)
with gr.Row():
width = gr.Slider(
label="Width", value=512, minimum=64, maximum=2048, step=64
)
height = gr.Slider(
label="Height", value=512, minimum=64, maximum=2048, step=64
)
sampler = gr.Dropdown(
value="DPM++ 2M Karras",
label="Sampler",
choices=[s[0] for s in samplers_k_diffusion],
)
seed = gr.Number(label="Seed (0 = random)", value=0)
with gr.Tab("Image to image"):
with gr.Group():
inf_image = gr.Image(
label="Image", height=256, tool="editor", type="pil"
)
inf_strength = gr.Slider(
label="Transformation strength",
minimum=0,
maximum=1,
step=0.01,
value=0.5,
)
def res_cap(g, w, h, x):
if g:
return f"Enable upscaler: {w}x{h} to {int(w*x)}x{int(h*x)}"
else:
return "Enable upscaler"
with gr.Tab("Hires fix"):
with gr.Group():
hr_enabled = gr.Checkbox(label="Enable upscaler", value=False)
hr_method = gr.Dropdown(
[key for key in latent_upscale_modes.keys()],
value="Latent",
label="Upscale method",
)
hr_scale = gr.Slider(
label="Upscale factor",
minimum=1.0,
maximum=3,
step=0.1,
value=1.5,
)
hr_denoise = gr.Slider(
label="Denoising strength",
minimum=0.0,
maximum=1.0,
step=0.1,
value=0.8,
)
hr_scale.change(
lambda g, x, w, h: gr.Checkbox.update(
label=res_cap(g, w, h, x)
),
inputs=[hr_enabled, hr_scale, width, height],
outputs=hr_enabled,
)
hr_enabled.change(
lambda g, x, w, h: gr.Checkbox.update(
label=res_cap(g, w, h, x)
),
inputs=[hr_enabled, hr_scale, width, height],
outputs=hr_enabled,
)
with gr.Tab("Embeddings/Loras"):
ti_state = gr.State(dict())
lora_state = gr.State()
with gr.Group():
with gr.Row():
with gr.Column(scale=90):
ti_vals = gr.Text(label="Loaded embeddings")
with gr.Row():
with gr.Column(scale=90):
lora_vals = gr.Text(label="Loaded loras")
with gr.Row():
uploads = gr.Files(label="Upload new embeddings/lora")
with gr.Column():
lora_scale = gr.Slider(
label="Lora scale",
minimum=0,
maximum=2,
step=0.01,
value=1.0,
)
btn = gr.Button(value="Upload")
btn_del = gr.Button(value="Reset")
btn.click(
add_net, inputs=[uploads, ti_state, lora_state], outputs=[ti_state, lora_state, ti_vals, lora_vals, uploads]
)
btn_del.click(
clean_states, inputs=[ti_state, lora_state], outputs=[ti_state, lora_state, ti_vals, lora_vals, uploads]
)
# error_output = gr.Markdown()
gr.HTML(
f"""
<div class="finetuned-diffusion-div">
<div>
<h1>Paint with words</h1>
</div>
<p>
Will use the following formula: w = scale * token_weight_martix * log(1 + sigma) * max(qk).
</p>
</div>
"""
)
with gr.Row():
with gr.Column(scale=55):
rendered = gr.Image(
invert_colors=True,
source="canvas",
interactive=False,
image_mode="RGBA",
)
with gr.Column(scale=45):
with gr.Group():
with gr.Row():
with gr.Column(scale=70):
g_strength = gr.Slider(
label="Weight scaling",
minimum=0,
maximum=0.8,
step=0.01,
value=0.4,
)
text = gr.Textbox(
lines=2,
interactive=True,
label="Token to Draw: (Separate by comma)",
)
radio = gr.Radio([], label="Tokens")
sk_update = gr.Button(value="Update").style(
rounded=(False, True, True, False)
)
# g_strength.change(lambda b: gr.update(f"Scaled additional attn: $w = {b} \log (1 + \sigma) \std (Q^T K)$."), inputs=g_strength, outputs=[g_output])
with gr.Tab("SketchPad"):
sp = gr.Image(
image_mode="L",
tool="sketch",
source="canvas",
interactive=False,
)
strength = gr.Slider(
label="Token strength",
minimum=0,
maximum=0.8,
step=0.01,
value=0.5,
)
sk_update.click(
detect_text,
inputs=[text, global_stats, width, height],
outputs=[global_stats, sp, radio, rendered],
)
radio.change(
switch_canvas,
inputs=[radio, global_stats, width, height],
outputs=[sp, strength, rendered],
)
sp.edit(
apply_canvas,
inputs=[radio, sp, global_stats, width, height],
outputs=[global_stats, rendered],
)
strength.change(
apply_weight,
inputs=[radio, strength, global_stats],
outputs=[global_stats],
)
with gr.Tab("UploadFile"):
sp2 = gr.Image(
image_mode="L",
source="upload",
shape=(512, 512),
)
strength2 = gr.Slider(
label="Token strength",
minimum=0,
maximum=0.8,
step=0.01,
value=0.5,
)
apply_style = gr.Button(value="Apply")
apply_style.click(
apply_image,
inputs=[sp2, radio, width, height, strength2, global_stats],
outputs=[global_stats, rendered],
)
width.change(
apply_new_res,
inputs=[width, height, global_stats],
outputs=[global_stats, rendered],
)
height.change(
apply_new_res,
inputs=[width, height, global_stats],
outputs=[global_stats, rendered],
)
# color_stats = gr.State(value={})
# text.change(detect_color, inputs=[sp, text, color_stats], outputs=[color_stats, rendered])
# sp.change(detect_color, inputs=[sp, text, color_stats], outputs=[color_stats, rendered])
inputs = [
prompt,
guidance,
steps,
width,
height,
seed,
neg_prompt,
global_stats,
g_strength,
inf_image,
inf_strength,
hr_enabled,
hr_method,
hr_scale,
hr_denoise,
sampler,
ti_state,
model,
lora_state,
lora_scale
]
outputs = [image_out]
prompt.submit(inference, inputs=inputs, outputs=outputs)
generate.click(inference, inputs=inputs, outputs=outputs)
print(f"Space built in {time.time() - start_time:.2f} seconds")
# demo.launch(share=True)
demo.launch(share=True, enable_queue=True)
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