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import base64 |
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import io |
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from typing import Dict, Any, Optional |
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from PIL import Image |
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import numpy as np |
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import requests |
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class DynamicImageOutpainter: |
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""" |
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A sophisticated image processing class for iterative outpainting and padding. |
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## Key Features: |
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- Dynamic image cropping and centering |
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- Iterative outpainting with configurable steps |
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- Flexible padding mechanism |
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- AI-driven edge generation |
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## Usage Strategy: |
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1. Initialize with base image and generation parameters |
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2. Apply iterative padding and outpainting |
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3. Support multiple AI inference backends |
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""" |
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def __init__( |
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self, |
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endpoint_url: str, |
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api_token: str, |
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padding_size: int = 256, |
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max_iterations: int = 3 |
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): |
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""" |
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Initialize the outpainting processor. |
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Args: |
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endpoint_url (str): AI inference endpoint URL |
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api_token (str): Authentication token for API |
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padding_size (int): Size of padding around cropped image |
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max_iterations (int): Maximum number of outpainting iterations |
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""" |
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self.endpoint_url = endpoint_url |
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self.api_token = api_token |
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self.padding_size = padding_size |
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self.max_iterations = max_iterations |
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self.headers = { |
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"Authorization": f"Bearer {self.api_token}", |
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"Content-Type": "application/json", |
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"Accept": "image/png" |
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} |
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def encode_image(self, image: Image.Image) -> str: |
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""" |
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Base64 encode a PIL Image for API transmission. |
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Args: |
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image (Image.Image): Source image to encode |
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Returns: |
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str: Base64 encoded image string |
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""" |
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buffered = io.BytesIO() |
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image.save(buffered, format="PNG") |
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return base64.b64encode(buffered.getvalue()).decode("utf-8") |
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def crop_to_center(self, image: Image.Image) -> Image.Image: |
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""" |
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Crop image to its center, maintaining square aspect ratio. |
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Args: |
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image (Image.Image): Source image |
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Returns: |
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Image.Image: Center-cropped image |
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""" |
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width, height = image.size |
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size = min(width, height) |
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left = (width - size) // 2 |
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top = (height - size) // 2 |
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right = left + size |
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bottom = top + size |
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return image.crop((left, top, right, bottom)) |
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def create_padding_mask(self, image: Image.Image) -> Image.Image: |
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""" |
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Generate a mask for padding regions. |
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Args: |
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image (Image.Image): Source image |
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Returns: |
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Image.Image: Mask indicating padding regions |
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""" |
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mask = Image.new('L', image.size, 0) |
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mask_array = np.array(mask) |
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mask_array[:self.padding_size, :] = 255 |
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mask_array[-self.padding_size:, :] = 255 |
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mask_array[:, :self.padding_size] = 255 |
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mask_array[:, -self.padding_size:] = 255 |
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return Image.fromarray(mask_array) |
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def pad_image(self, image: Image.Image) -> Image.Image: |
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""" |
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Add padding around the image. |
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Args: |
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image (Image.Image): Source image |
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Returns: |
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Image.Image: Padded image |
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""" |
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padded_size = ( |
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image.width + 2 * self.padding_size, |
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image.height + 2 * self.padding_size |
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) |
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padded_image = Image.new('RGBA', padded_size, (0, 0, 0, 0)) |
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padded_image.paste(image, (self.padding_size, self.padding_size)) |
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return padded_image |
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def predict_outpainting( |
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self, |
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image: Image.Image, |
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mask_image: Image.Image, |
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prompt: str |
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) -> Image.Image: |
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""" |
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Call AI inference endpoint for outpainting. |
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Args: |
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image (Image.Image): Base image |
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mask_image (Image.Image): Padding mask |
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prompt (str): Outpainting generation prompt |
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Returns: |
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Image.Image: Outpainted result |
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""" |
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payload = { |
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"inputs": prompt, |
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"image": self.encode_image(image), |
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"mask_image": self.encode_image(mask_image) |
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} |
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try: |
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response = requests.post( |
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self.endpoint_url, |
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headers=self.headers, |
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json=payload |
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) |
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response.raise_for_status() |
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return Image.open(io.BytesIO(response.content)) |
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except requests.RequestException as e: |
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print(f"Outpainting request failed: {e}") |
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return image |
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def process_iterative_outpainting( |
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self, |
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initial_image: Image.Image, |
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prompt: str |
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) -> Image.Image: |
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""" |
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Execute iterative outpainting process. |
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Args: |
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initial_image (Image.Image): Starting image |
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prompt (str): Generation prompt |
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Returns: |
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Image.Image: Final outpainted image |
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""" |
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current_image = self.crop_to_center(initial_image) |
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for iteration in range(self.max_iterations): |
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padded_image = self.pad_image(current_image) |
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mask = self.create_padding_mask(padded_image) |
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current_image = self.predict_outpainting( |
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padded_image, mask, prompt |
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) |
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return current_image |
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def run( |
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self, |
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image_path: str, |
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prompt: str |
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) -> Dict[str, Any]: |
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""" |
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Main processing method for dynamic outpainting. |
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Args: |
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image_path (str): Path to input image |
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prompt (str): Outpainting generation prompt |
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Returns: |
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Dict containing processing results |
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""" |
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try: |
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initial_image = Image.open(image_path) |
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result_image = self.process_iterative_outpainting( |
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initial_image, prompt |
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) |
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result_path = f"outpainted_result_{id(self)}.png" |
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result_image.save(result_path) |
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return { |
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"status": "success", |
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"result_path": result_path, |
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"iterations": self.max_iterations |
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} |
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except Exception as e: |
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return { |
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"status": "error", |
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"message": str(e) |
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} |
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def main(): |
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outpainter = DynamicImageOutpainter( |
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endpoint_url="https://your-ai-endpoint.com", |
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api_token="your_huggingface_token", |
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padding_size=256, |
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max_iterations=3 |
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) |
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result = outpainter.run( |
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image_path="input_image.png", |
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prompt="Expand the scene with natural, seamless background" |
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) |
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print(result) |
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if __name__ == "__main__": |
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main() |
