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import argparse | |
import os | |
import gradio as gr | |
import huggingface_hub | |
import numpy as np | |
import onnxruntime as rt | |
import pandas as pd | |
from PIL import Image | |
TITLE = "WaifuDiffusion Tagger" | |
DESCRIPTION = """ | |
Demo for the WaifuDiffusion tagger models | |
Example image by [ほし☆☆☆](https://www.pixiv.net/en/users/43565085) | |
""" | |
# Dataset v3 series of models: | |
SWINV2_MODEL_DSV3_REPO = "SmilingWolf/wd-swinv2-tagger-v3" | |
CONV_MODEL_DSV3_REPO = "SmilingWolf/wd-convnext-tagger-v3" | |
VIT_MODEL_DSV3_REPO = "SmilingWolf/wd-vit-tagger-v3" | |
VIT_LARGE_MODEL_DSV3_REPO = "SmilingWolf/wd-vit-large-tagger-v3" | |
EVA02_LARGE_MODEL_DSV3_REPO = "SmilingWolf/wd-eva02-large-tagger-v3" | |
# Dataset v2 series of models: | |
MOAT_MODEL_DSV2_REPO = "SmilingWolf/wd-v1-4-moat-tagger-v2" | |
SWIN_MODEL_DSV2_REPO = "SmilingWolf/wd-v1-4-swinv2-tagger-v2" | |
CONV_MODEL_DSV2_REPO = "SmilingWolf/wd-v1-4-convnext-tagger-v2" | |
CONV2_MODEL_DSV2_REPO = "SmilingWolf/wd-v1-4-convnextv2-tagger-v2" | |
VIT_MODEL_DSV2_REPO = "SmilingWolf/wd-v1-4-vit-tagger-v2" | |
# Files to download from the repos | |
MODEL_FILENAME = "model.onnx" | |
LABEL_FILENAME = "selected_tags.csv" | |
# https://github.com/toriato/stable-diffusion-webui-wd14-tagger/blob/a9eacb1eff904552d3012babfa28b57e1d3e295c/tagger/ui.py#L368 | |
kaomojis = [ | |
"0_0", | |
"(o)_(o)", | |
"+_+", | |
"+_-", | |
"._.", | |
"<o>_<o>", | |
"<|>_<|>", | |
"=_=", | |
">_<", | |
"3_3", | |
"6_9", | |
">_o", | |
"@_@", | |
"^_^", | |
"o_o", | |
"u_u", | |
"x_x", | |
"|_|", | |
"||_||", | |
] | |
def parse_args() -> argparse.Namespace: | |
parser = argparse.ArgumentParser() | |
parser.add_argument("--score-slider-step", type=float, default=0.05) | |
parser.add_argument("--score-general-threshold", type=float, default=0.35) | |
parser.add_argument("--score-character-threshold", type=float, default=0.85) | |
parser.add_argument("--share", action="store_true") | |
return parser.parse_args() | |
def load_labels(dataframe) -> list[str]: | |
name_series = dataframe["name"] | |
name_series = name_series.map( | |
lambda x: x.replace("_", " ") if x not in kaomojis else x | |
) | |
tag_names = name_series.tolist() | |
rating_indexes = list(np.where(dataframe["category"] == 9)[0]) | |
general_indexes = list(np.where(dataframe["category"] == 0)[0]) | |
character_indexes = list(np.where(dataframe["category"] == 4)[0]) | |
return tag_names, rating_indexes, general_indexes, character_indexes | |
def mcut_threshold(probs): | |
""" | |
Maximum Cut Thresholding (MCut) | |
Largeron, C., Moulin, C., & Gery, M. (2012). MCut: A Thresholding Strategy | |
for Multi-label Classification. In 11th International Symposium, IDA 2012 | |
(pp. 172-183). | |
""" | |
sorted_probs = probs[probs.argsort()[::-1]] | |
difs = sorted_probs[:-1] - sorted_probs[1:] | |
t = difs.argmax() | |
thresh = (sorted_probs[t] + sorted_probs[t + 1]) / 2 | |
return thresh | |
class Predictor: | |
def __init__(self): | |
self.model_target_size = None | |
self.last_loaded_repo = None | |
def download_model(self, model_repo): | |
csv_path = huggingface_hub.hf_hub_download( | |
model_repo, | |
LABEL_FILENAME, | |
) | |
model_path = huggingface_hub.hf_hub_download( | |
model_repo, | |
MODEL_FILENAME, | |
) | |
return csv_path, model_path | |
def load_model(self, model_repo): | |
if model_repo == self.last_loaded_repo: | |
return | |
csv_path, model_path = self.download_model(model_repo) | |
tags_df = pd.read_csv(csv_path) | |
sep_tags = load_labels(tags_df) | |
self.tag_names = sep_tags[0] | |
self.rating_indexes = sep_tags[1] | |
self.general_indexes = sep_tags[2] | |
self.character_indexes = sep_tags[3] | |
model = rt.InferenceSession(model_path) | |
_, height, width, _ = model.get_inputs()[0].shape | |
self.model_target_size = height | |
self.last_loaded_repo = model_repo | |
self.model = model | |
def prepare_image(self, image): | |
target_size = self.model_target_size | |
canvas = Image.new("RGBA", image.size, (255, 255, 255)) | |
canvas.alpha_composite(image) | |
image = canvas.convert("RGB") | |
# Pad image to square | |
image_shape = image.size | |
max_dim = max(image_shape) | |
pad_left = (max_dim - image_shape[0]) // 2 | |
pad_top = (max_dim - image_shape[1]) // 2 | |
padded_image = Image.new("RGB", (max_dim, max_dim), (255, 255, 255)) | |
padded_image.paste(image, (pad_left, pad_top)) | |
# Resize | |
if max_dim != target_size: | |
padded_image = padded_image.resize( | |
(target_size, target_size), | |
Image.BICUBIC, | |
) | |
# Convert to numpy array | |
image_array = np.asarray(padded_image, dtype=np.float32) | |
# Convert PIL-native RGB to BGR | |
image_array = image_array[:, :, ::-1] | |
return np.expand_dims(image_array, axis=0) | |
def predict( | |
self, | |
image, | |
model_repo, | |
general_thresh, | |
general_mcut_enabled, | |
character_thresh, | |
character_mcut_enabled, | |
): | |
self.load_model(model_repo) | |
image = self.prepare_image(image) | |
input_name = self.model.get_inputs()[0].name | |
label_name = self.model.get_outputs()[0].name | |
preds = self.model.run([label_name], {input_name: image})[0] | |
labels = list(zip(self.tag_names, preds[0].astype(float))) | |
# First 4 labels are actually ratings: pick one with argmax | |
ratings_names = [labels[i] for i in self.rating_indexes] | |
rating = dict(ratings_names) | |
# Then we have general tags: pick any where prediction confidence > threshold | |
general_names = [labels[i] for i in self.general_indexes] | |
if general_mcut_enabled: | |
general_probs = np.array([x[1] for x in general_names]) | |
general_thresh = mcut_threshold(general_probs) | |
general_res = [x for x in general_names if x[1] > general_thresh] | |
general_res = dict(general_res) | |
# Everything else is characters: pick any where prediction confidence > threshold | |
character_names = [labels[i] for i in self.character_indexes] | |
if character_mcut_enabled: | |
character_probs = np.array([x[1] for x in character_names]) | |
character_thresh = mcut_threshold(character_probs) | |
character_thresh = max(0.15, character_thresh) | |
character_res = [x for x in character_names if x[1] > character_thresh] | |
character_res = dict(character_res) | |
sorted_general_strings = sorted( | |
general_res.items(), | |
key=lambda x: x[1], | |
reverse=True, | |
) | |
sorted_general_strings = [x[0] for x in sorted_general_strings] | |
sorted_general_strings = ( | |
", ".join(sorted_general_strings).replace("(", "\(").replace(")", "\)") | |
) | |
return sorted_general_strings, rating, character_res, general_res | |
def main(): | |
args = parse_args() | |
predictor = Predictor() | |
dropdown_list = [ | |
SWINV2_MODEL_DSV3_REPO, | |
CONV_MODEL_DSV3_REPO, | |
VIT_MODEL_DSV3_REPO, | |
VIT_LARGE_MODEL_DSV3_REPO, | |
EVA02_LARGE_MODEL_DSV3_REPO, | |
MOAT_MODEL_DSV2_REPO, | |
SWIN_MODEL_DSV2_REPO, | |
CONV_MODEL_DSV2_REPO, | |
CONV2_MODEL_DSV2_REPO, | |
VIT_MODEL_DSV2_REPO, | |
] | |
with gr.Blocks(title=TITLE) as demo: | |
with gr.Column(): | |
gr.Markdown( | |
value=f"<h1 style='text-align: center; margin-bottom: 1rem'>{TITLE}</h1>" | |
) | |
gr.Markdown(value=DESCRIPTION) | |
with gr.Row(): | |
with gr.Column(variant="panel"): | |
image = gr.Image(type="pil", image_mode="RGBA", label="Input") | |
model_repo = gr.Dropdown( | |
dropdown_list, | |
value=SWINV2_MODEL_DSV3_REPO, | |
label="Model", | |
) | |
with gr.Row(): | |
general_thresh = gr.Slider( | |
0, | |
1, | |
step=args.score_slider_step, | |
value=args.score_general_threshold, | |
label="General Tags Threshold", | |
scale=3, | |
) | |
general_mcut_enabled = gr.Checkbox( | |
value=False, | |
label="Use MCut threshold", | |
scale=1, | |
) | |
with gr.Row(): | |
character_thresh = gr.Slider( | |
0, | |
1, | |
step=args.score_slider_step, | |
value=args.score_character_threshold, | |
label="Character Tags Threshold", | |
scale=3, | |
) | |
character_mcut_enabled = gr.Checkbox( | |
value=False, | |
label="Use MCut threshold", | |
scale=1, | |
) | |
with gr.Row(): | |
clear = gr.ClearButton( | |
components=[ | |
image, | |
model_repo, | |
general_thresh, | |
general_mcut_enabled, | |
character_thresh, | |
character_mcut_enabled, | |
], | |
variant="secondary", | |
size="lg", | |
) | |
submit = gr.Button(value="Submit", variant="primary", size="lg") | |
with gr.Column(variant="panel"): | |
sorted_general_strings = gr.Textbox(label="Output (string)") | |
rating = gr.Label(label="Rating") | |
character_res = gr.Label(label="Output (characters)") | |
general_res = gr.Label(label="Output (tags)") | |
clear.add( | |
[ | |
sorted_general_strings, | |
rating, | |
character_res, | |
general_res, | |
] | |
) | |
submit.click( | |
predictor.predict, | |
inputs=[ | |
image, | |
model_repo, | |
general_thresh, | |
general_mcut_enabled, | |
character_thresh, | |
character_mcut_enabled, | |
], | |
outputs=[sorted_general_strings, rating, character_res, general_res], | |
) | |
gr.Examples( | |
[["power.jpg", SWINV2_MODEL_DSV3_REPO, 0.35, False, 0.85, False]], | |
inputs=[ | |
image, | |
model_repo, | |
general_thresh, | |
general_mcut_enabled, | |
character_thresh, | |
character_mcut_enabled, | |
], | |
) | |
demo.queue(max_size=10) | |
demo.launch() | |
if __name__ == "__main__": | |
main() | |