from PIL import Image, ImageDraw, ImageFont import random def visualize_masks(image, masks, mask_prompts, output_path, font_size=35, use_random_colors=False): # Create a blank image for overlays overlay = Image.new('RGBA', image.size, (0, 0, 0, 0)) colors = [ (165, 238, 173, 80), (76, 102, 221, 80), (221, 160, 77, 80), (204, 93, 71, 80), (145, 187, 149, 80), (134, 141, 172, 80), (157, 137, 109, 80), (153, 104, 95, 80), (165, 238, 173, 80), (76, 102, 221, 80), (221, 160, 77, 80), (204, 93, 71, 80), (145, 187, 149, 80), (134, 141, 172, 80), (157, 137, 109, 80), (153, 104, 95, 80), ] # Generate random colors for each mask if use_random_colors: colors = [(random.randint(0, 255), random.randint(0, 255), random.randint(0, 255), 80) for _ in range(len(masks))] # Font settings try: font = ImageFont.truetype("arial", font_size) # Adjust as needed except IOError: font = ImageFont.load_default(font_size) # Overlay each mask onto the overlay image for mask, mask_prompt, color in zip(masks, mask_prompts, colors): # Convert mask to RGBA mode mask_rgba = mask.convert('RGBA') mask_data = mask_rgba.getdata() new_data = [(color if item[:3] == (255, 255, 255) else (0, 0, 0, 0)) for item in mask_data] mask_rgba.putdata(new_data) # Draw the mask prompt text on the mask draw = ImageDraw.Draw(mask_rgba) mask_bbox = mask.getbbox() # Get the bounding box of the mask text_position = (mask_bbox[0] + 10, mask_bbox[1] + 10) # Adjust text position based on mask position draw.text(text_position, mask_prompt, fill=(255, 255, 255, 255), font=font) # Alpha composite the overlay with this mask overlay = Image.alpha_composite(overlay, mask_rgba) # Composite the overlay onto the original image result = Image.alpha_composite(image.convert('RGBA'), overlay) # Save or display the resulting image result.save(output_path) return result