app.py

import torch
import cv2
import numpy as np
import gradio as gr
from PIL import Image
from torchvision import transforms
from skimage.restoration import denoise_tv_chambolle
from transformers import SamModel, SamProcessor

# Load SAM model
DEVICE = "cuda" if torch.cuda.is_available() else "cpu"
model = SamModel.from_pretrained("facebook/sam-vit-huge").to(DEVICE)
processor = SamProcessor.from_pretrained("facebook/sam-vit-huge")

def segment_dress(image):
    """Segments the dress from an input image using SAM."""
    input_points = [[[image.size[0] // 2, image.size[1] // 2]]]
    inputs = processor(image, input_points=input_points, return_tensors="pt").to(DEVICE)
    with torch.no_grad():
        outputs = model(**inputs)
    masks = processor.image_processor.post_process_masks(
        outputs.pred_masks.cpu(), inputs["original_sizes"].cpu(), inputs["reshaped_input_sizes"].cpu()
    )
    return masks[0][0].numpy() if masks else None

def warp_design(design, mask, warp_scale):
    """Warp the design using TPS and scale control."""
    h, w = mask.shape[:2]

    # Resize design to match mask dimensions
    design_resized = cv2.resize(design, (w, h))

    # Convert boolean mask to uint8 (0-255)
    mask = (mask * 255).astype(np.uint8)

    # Ensure mask is single-channel grayscale
    if len(mask.shape) == 3:
        mask = cv2.cvtColor(mask, cv2.COLOR_BGR2GRAY)

    # Convert design_resized to 3-channel if it's grayscale
    if len(design_resized.shape) == 2:
        design_resized = cv2.cvtColor(design_resized, cv2.COLOR_GRAY2BGR)

    return cv2.bitwise_and(design_resized, design_resized, mask=mask)

def blend_images(base, overlay, mask):
    """Blends the design onto the dress using seamless cloning."""
    if overlay is None or mask is None:
        raise ValueError("Overlay or mask is None, check segmentation and warping.")

    base = np.array(base)  # Ensure base is a NumPy array
    overlay = np.array(overlay)

    # Ensure overlay and base are 3-channel images
    if len(overlay.shape) == 2:
        overlay = cv2.cvtColor(overlay, cv2.COLOR_GRAY2BGR)
    if len(base.shape) == 2:
        base = cv2.cvtColor(base, cv2.COLOR_GRAY2BGR)

    # Convert mask to uint8 (0-255) if it's a boolean array
    if mask.dtype == np.bool_:
        mask = mask.astype(np.uint8) * 255

    # Ensure mask is single-channel grayscale
    # Ensure mask is single-channel grayscale
    if len(mask.shape) == 3 and mask.shape[2] == 3:
        mask = cv2.cvtColor(mask, cv2.COLOR_BGR2GRAY)
    
    # Convert mask to uint8 if necessary
    if mask.dtype != np.uint8:
        mask = (mask * 255).astype(np.uint8)

    # Compute center of the mask for seamless cloning
    center = tuple(np.array(base.shape[:2]) // 2)

    return cv2.seamlessClone(overlay, base, mask, center, cv2.NORMAL_CLONE)

def apply_design(image_path, design_path, warp_scale):
    """Pipeline to segment, warp, and blend design onto dress."""
    image = Image.open(image_path).convert("RGB")
    design = cv2.imread(design_path)
    mask = segment_dress(image)
    
    if mask is None:
        return "Segmentation Failed!"
    
    warped_design = warp_design(design, mask, warp_scale)
    blended = blend_images(np.array(image), warped_design, mask)
    return Image.fromarray(blended)

def main(image, design, warp_scale):
    return apply_design(image, design, warp_scale)

# Gradio UI
demo = gr.Interface(
    fn=main,
    inputs=[
        gr.Image(type="filepath", label="Upload Dress Image"),
        gr.Image(type="filepath", label="Upload Design Image"),
        gr.Slider(0, 100, value=50, label="Warp Scale (%)")
    ],
    outputs=gr.Image(label="Warped Design on Dress"),
    title="AI-Powered Dress Designer",
    description="Upload a dress image and a design pattern. The AI will warp and blend the design onto the dress while preserving natural folds!"
)

demo.launch()