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import json |
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import gradio as gr |
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from PIL import Image |
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import safetensors.torch |
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import spaces |
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import timm |
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from timm.models import VisionTransformer |
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import torch |
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from torchvision.transforms import transforms |
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from torchvision.transforms import InterpolationMode |
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import torchvision.transforms.functional as TF |
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torch.set_grad_enabled(False) |
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class Fit(torch.nn.Module): |
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def __init__( |
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self, |
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bounds: tuple[int, int] | int, |
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interpolation = InterpolationMode.LANCZOS, |
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grow: bool = True, |
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pad: float | None = None |
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): |
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super().__init__() |
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self.bounds = (bounds, bounds) if isinstance(bounds, int) else bounds |
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self.interpolation = interpolation |
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self.grow = grow |
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self.pad = pad |
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def forward(self, img: Image) -> Image: |
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wimg, himg = img.size |
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hbound, wbound = self.bounds |
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hscale = hbound / himg |
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wscale = wbound / wimg |
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if not self.grow: |
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hscale = min(hscale, 1.0) |
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wscale = min(wscale, 1.0) |
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scale = min(hscale, wscale) |
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if scale == 1.0: |
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return img |
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hnew = min(round(himg * scale), hbound) |
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wnew = min(round(wimg * scale), wbound) |
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img = TF.resize(img, (hnew, wnew), self.interpolation) |
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if self.pad is None: |
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return img |
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hpad = hbound - hnew |
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wpad = wbound - wnew |
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tpad = hpad // 2 |
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bpad = hpad - tpad |
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lpad = wpad // 2 |
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rpad = wpad - lpad |
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return TF.pad(img, (lpad, tpad, rpad, bpad), self.pad) |
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def __repr__(self) -> str: |
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return ( |
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f"{self.__class__.__name__}(" + |
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f"bounds={self.bounds}, " + |
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f"interpolation={self.interpolation.value}, " + |
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f"grow={self.grow}, " + |
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f"pad={self.pad})" |
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) |
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class CompositeAlpha(torch.nn.Module): |
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def __init__( |
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self, |
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background: tuple[float, float, float] | float, |
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): |
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super().__init__() |
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self.background = (background, background, background) if isinstance(background, float) else background |
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self.background = torch.tensor(self.background).unsqueeze(1).unsqueeze(2) |
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def forward(self, img: torch.Tensor) -> torch.Tensor: |
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if img.shape[-3] == 3: |
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return img |
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alpha = img[..., 3, None, :, :] |
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img[..., :3, :, :] *= alpha |
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background = self.background.expand(-1, img.shape[-2], img.shape[-1]) |
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if background.ndim == 1: |
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background = background[:, None, None] |
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elif background.ndim == 2: |
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background = background[None, :, :] |
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img[..., :3, :, :] += (1.0 - alpha) * background |
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return img[..., :3, :, :] |
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def __repr__(self) -> str: |
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return ( |
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f"{self.__class__.__name__}(" + |
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f"background={self.background})" |
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) |
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transform = transforms.Compose([ |
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Fit((384, 384)), |
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transforms.ToTensor(), |
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CompositeAlpha(0.5), |
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transforms.Normalize(mean=[0.5, 0.5, 0.5], std=[0.5, 0.5, 0.5], inplace=True), |
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transforms.CenterCrop((384, 384)), |
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]) |
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model = timm.create_model( |
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"vit_so400m_patch14_siglip_384.webli", |
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pretrained=False, |
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num_classes=9083, |
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) |
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safetensors.torch.load_model(model, "JTP_PILOT-e4-vit_so400m_patch14_siglip_384.safetensors") |
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model.eval() |
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with open("tagger_tags.json", "r") as file: |
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tags = json.load(file) |
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allowed_tags = list(tags.keys()) |
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for idx, tag in enumerate(allowed_tags): |
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allowed_tags[idx] = tag.replace("_", " ") |
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sorted_tag_score = {} |
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@spaces.GPU(duration=5) |
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def run_classifier(image, threshold): |
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global sorted_tag_score |
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img = image.convert('RGB') |
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tensor = transform(img).unsqueeze(0) |
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with torch.no_grad(): |
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logits = model(tensor) |
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probits = torch.nn.functional.sigmoid(logits[0]) |
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values, indices = probits.topk(250) |
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tag_score = dict() |
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for i in range(indices.size(0)): |
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tag_score[allowed_tags[indices[i]]] = values[i].item() |
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sorted_tag_score = dict(sorted(tag_score.items(), key=lambda item: item[1], reverse=True)) |
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return create_tags(threshold) |
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def create_tags(threshold): |
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global sorted_tag_score |
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filtered_tag_score = {key: value for key, value in sorted_tag_score.items() if value > threshold} |
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text_no_impl = ", ".join(filtered_tag_score.keys()) |
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return text_no_impl, filtered_tag_score |
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with gr.Blocks(css=".output-class { display: none; }") as demo: |
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gr.Markdown(""" |
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## Joint Tagger Project: PILOT Demo |
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This tagger is designed for use on furry images (though may very well work on out-of-distribution images, potentially with funny results). A threshold of 0.2 is recommended. Lower thresholds often turn up more valid tags, but can also result in some amount of hallucinated tags. |
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This tagger is the result of joint efforts between members of the RedRocket team. Special thanks to Minotoro at frosting.ai for providing the compute power for this project. |
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""") |
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with gr.Row(): |
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with gr.Column(): |
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image_input = gr.Image(label="Source", sources=['upload'], type='pil', height=512, show_label=False) |
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threshold_slider = gr.Slider(minimum=0.00, maximum=1.00, step=0.01, value=0.20, label="Threshold") |
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with gr.Column(): |
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tag_string = gr.Textbox(label="Tag String") |
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label_box = gr.Label(label="Tag Predictions", num_top_classes=250, show_label=False) |
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image_input.upload( |
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fn=run_classifier, |
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inputs=[image_input, threshold_slider], |
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outputs=[tag_string, label_box] |
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) |
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threshold_slider.input( |
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fn=create_tags, |
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inputs=[threshold_slider], |
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outputs=[tag_string, label_box] |
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) |
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if __name__ == "__main__": |
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demo.launch() |