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import os
import sys
#sys.path.append('.')
import cv2
import einops
import numpy as np
import torch
import random
import gradio as gr
import albumentations as A
from PIL import Image
import torchvision.transforms as T
from mydatasets.data_utils import * 
from cldm.model import create_model, load_state_dict
from cldm.ddim_hacked import DDIMSampler
from omegaconf import OmegaConf
from cldm.hack import disable_verbosity, enable_sliced_attention
from huggingface_hub import snapshot_download


snapshot_download(repo_id="xichenhku/AnyDoor_models", local_dir="./AnyDoor_models")
snapshot_download(repo_id="xichenhku/mask_refine", local_dir="./mask_refine")

cv2.setNumThreads(0)
cv2.ocl.setUseOpenCL(False)

save_memory = False
disable_verbosity()
if save_memory:
    enable_sliced_attention()


config = OmegaConf.load('./configs/demo.yaml')
model_ckpt =  config.pretrained_model
model_config = config.config_file
use_interactive_seg = config.config_file


model = create_model(model_config ).cpu()
model.load_state_dict(load_state_dict(model_ckpt, location='cuda'))
model = model.cuda()
ddim_sampler = DDIMSampler(model)

if use_interactive_seg:
    from iseg.coarse_mask_refine_util import BaselineModel
    model_path = './mask_refine/coarse_mask_refine.pth'
    iseg_model = BaselineModel().eval()
    weights = torch.load(model_path , map_location='cpu')['state_dict']
    iseg_model.load_state_dict(weights, strict= True)


def crop_back( pred, tar_image,  extra_sizes, tar_box_yyxx_crop):
    H1, W1, H2, W2 = extra_sizes
    y1,y2,x1,x2 = tar_box_yyxx_crop    
    pred = cv2.resize(pred, (W2, H2))
    m = 3 # maigin_pixel

    if W1 == H1:
        tar_image[y1+m :y2-m, x1+m:x2-m, :] =  pred[m:-m, m:-m]
        return tar_image

    if W1 < W2:
        pad1 = int((W2 - W1) / 2)
        pad2 = W2 - W1 - pad1
        pred = pred[:,pad1: -pad2, :]
    else:
        pad1 = int((H2 - H1) / 2)
        pad2 = H2 - H1 - pad1
        pred = pred[pad1: -pad2, :, :]
    tar_image[y1+m :y2-m, x1+m:x2-m, :] =  pred[m:-m, m:-m]
    return tar_image


def inference_single_image(ref_image, 
                           ref_mask, 
                           tar_image, 
                           tar_mask, 
                           strength, 
                           ddim_steps, 
                           scale, 
                           seed, 
                           ):
    raw_background = tar_image.copy()
    item = process_pairs(ref_image, ref_mask, tar_image, tar_mask)

    ref = item['ref']
    hint = item['hint']
    num_samples = 1

    control = torch.from_numpy(hint.copy()).float().cuda() 
    control = torch.stack([control for _ in range(num_samples)], dim=0)
    control = einops.rearrange(control, 'b h w c -> b c h w').clone()


    clip_input = torch.from_numpy(ref.copy()).float().cuda() 
    clip_input = torch.stack([clip_input for _ in range(num_samples)], dim=0)
    clip_input = einops.rearrange(clip_input, 'b h w c -> b c h w').clone()

    H,W = 512,512

    cond = {"c_concat": [control], "c_crossattn": [model.get_learned_conditioning( clip_input )]}
    un_cond = {"c_concat": [control], 
               "c_crossattn": [model.get_learned_conditioning([torch.zeros((1,3,224,224))] * num_samples)]}
    shape = (4, H // 8, W // 8)

    if save_memory:
        model.low_vram_shift(is_diffusing=True)

    model.control_scales = ([strength] * 13)
    samples, _ = ddim_sampler.sample(ddim_steps, num_samples,
                                     shape, cond, verbose=False, eta=0,
                                     unconditional_guidance_scale=scale,
                                     unconditional_conditioning=un_cond)

    if save_memory:
        model.low_vram_shift(is_diffusing=False)

    x_samples = model.decode_first_stage(samples)
    x_samples = (einops.rearrange(x_samples, 'b c h w -> b h w c') * 127.5 + 127.5).cpu().numpy()

    result = x_samples[0][:,:,::-1]
    result = np.clip(result,0,255)

    pred = x_samples[0]
    pred = np.clip(pred,0,255)[1:,:,:]
    sizes = item['extra_sizes']
    tar_box_yyxx_crop = item['tar_box_yyxx_crop'] 
    tar_image = crop_back(pred, tar_image, sizes, tar_box_yyxx_crop) 

    # keep background unchanged
    y1,y2,x1,x2 = item['tar_box_yyxx']
    raw_background[y1:y2, x1:x2, :] = tar_image[y1:y2, x1:x2, :]
    return raw_background


def process_pairs(ref_image, ref_mask, tar_image, tar_mask, max_ratio = 0.8):
    # ========= Reference ===========
    # ref expand 
    ref_box_yyxx = get_bbox_from_mask(ref_mask)

    # ref filter mask 
    ref_mask_3 = np.stack([ref_mask,ref_mask,ref_mask],-1)
    masked_ref_image = ref_image * ref_mask_3 + np.ones_like(ref_image) * 255 * (1-ref_mask_3)

    y1,y2,x1,x2 = ref_box_yyxx
    masked_ref_image = masked_ref_image[y1:y2,x1:x2,:]
    ref_mask = ref_mask[y1:y2,x1:x2]

    ratio = np.random.randint(11, 15) / 10 #11,13
    masked_ref_image, ref_mask = expand_image_mask(masked_ref_image, ref_mask, ratio=ratio)
    ref_mask_3 = np.stack([ref_mask,ref_mask,ref_mask],-1)

    # to square and resize
    masked_ref_image = pad_to_square(masked_ref_image, pad_value = 255, random = False)
    masked_ref_image = cv2.resize(masked_ref_image.astype(np.uint8), (224,224) ).astype(np.uint8)

    ref_mask_3 = pad_to_square(ref_mask_3 * 255, pad_value = 0, random = False)
    ref_mask_3 = cv2.resize(ref_mask_3.astype(np.uint8), (224,224) ).astype(np.uint8)
    ref_mask = ref_mask_3[:,:,0]

    # collage aug 
    masked_ref_image_compose, ref_mask_compose =  masked_ref_image, ref_mask
    ref_mask_3 = np.stack([ref_mask_compose,ref_mask_compose,ref_mask_compose],-1)
    ref_image_collage = sobel(masked_ref_image_compose, ref_mask_compose/255)

    # ========= Target ===========
    tar_box_yyxx = get_bbox_from_mask(tar_mask)
    tar_box_yyxx = expand_bbox(tar_mask, tar_box_yyxx, ratio=[1.1,1.2]) #1.1  1.3
    tar_box_yyxx_full = tar_box_yyxx
    
    # crop
    tar_box_yyxx_crop =  expand_bbox(tar_image, tar_box_yyxx, ratio=[1.3, 3.0])   
    tar_box_yyxx_crop = box2squre(tar_image, tar_box_yyxx_crop) # crop box
    y1,y2,x1,x2 = tar_box_yyxx_crop

    cropped_target_image = tar_image[y1:y2,x1:x2,:]
    cropped_tar_mask = tar_mask[y1:y2,x1:x2]

    tar_box_yyxx = box_in_box(tar_box_yyxx, tar_box_yyxx_crop)
    y1,y2,x1,x2 = tar_box_yyxx

    # collage
    ref_image_collage = cv2.resize(ref_image_collage.astype(np.uint8), (x2-x1, y2-y1))
    ref_mask_compose = cv2.resize(ref_mask_compose.astype(np.uint8), (x2-x1, y2-y1))
    ref_mask_compose = (ref_mask_compose > 128).astype(np.uint8)

    collage = cropped_target_image.copy() 
    collage[y1:y2,x1:x2,:] = ref_image_collage

    collage_mask = cropped_target_image.copy() * 0.0
    collage_mask[y1:y2,x1:x2,:] = 1.0
    collage_mask = np.stack([cropped_tar_mask,cropped_tar_mask,cropped_tar_mask],-1)

    # the size before pad
    H1, W1 = collage.shape[0], collage.shape[1]

    cropped_target_image = pad_to_square(cropped_target_image, pad_value = 0, random = False).astype(np.uint8)
    collage = pad_to_square(collage, pad_value = 0, random = False).astype(np.uint8)
    collage_mask = pad_to_square(collage_mask, pad_value = 0, random = False).astype(np.uint8)

    # the size after pad
    H2, W2 = collage.shape[0], collage.shape[1]

    cropped_target_image = cv2.resize(cropped_target_image.astype(np.uint8), (512,512)).astype(np.float32)
    collage = cv2.resize(collage.astype(np.uint8), (512,512)).astype(np.float32)
    collage_mask  = (cv2.resize(collage_mask.astype(np.uint8), (512,512)).astype(np.float32) > 0.5).astype(np.float32)

    masked_ref_image = masked_ref_image  / 255 
    cropped_target_image = cropped_target_image / 127.5 - 1.0
    collage = collage / 127.5 - 1.0 
    collage = np.concatenate([collage, collage_mask[:,:,:1]  ] , -1)
    
    item = dict(ref=masked_ref_image.copy(), jpg=cropped_target_image.copy(), hint=collage.copy(), 
                extra_sizes=np.array([H1, W1, H2, W2]), 
                tar_box_yyxx_crop=np.array( tar_box_yyxx_crop ),
                tar_box_yyxx=np.array(tar_box_yyxx_full),
                 ) 
    return item


ref_dir='./examples/Gradio/FG'
image_dir='./examples/Gradio/BG'
ref_list=[os.path.join(ref_dir,file) for file in os.listdir(ref_dir) if '.jpg' in file or '.png' in file or '.jpeg' in file ]
ref_list.sort()
image_list=[os.path.join(image_dir,file) for file in os.listdir(image_dir) if '.jpg' in file or '.png' in file or '.jpeg' in file]
image_list.sort()

def process_image_mask(image_np, mask_np):
    img = torch.from_numpy(image_np.transpose((2, 0, 1)))
    img_ten = img.float().div(255).unsqueeze(0)
    mask_ten = torch.from_numpy(mask_np).float().unsqueeze(0).unsqueeze(0)
    return img_ten, mask_ten


def mask_image(image, mask):
    blanc = np.ones_like(image) * 255
    mask = np.stack([mask,mask,mask],-1) / 255
    masked_image = mask * ( 0.5 * blanc + 0.5 * image) + (1-mask) * image
    return masked_image.astype(np.uint8)

def run_local(base,
              ref,
              *args):
    image = base["image"].convert("RGB")
    mask = base["mask"].convert("L")
    ref_image = ref["image"].convert("RGB")
    ref_mask = ref["mask"].convert("L")
    image = np.asarray(image)
    mask = np.asarray(mask)
    mask = np.where(mask > 128, 255, 0).astype(np.uint8)
    ref_image = np.asarray(ref_image)
    ref_mask = np.asarray(ref_mask)
    ref_mask = np.where(ref_mask > 128, 1, 0).astype(np.uint8)

    # refine the user annotated coarse mask
    if use_interactive_seg:
        img_ten, mask_ten = process_image_mask(ref_image, ref_mask)
        ref_mask = iseg_model(img_ten, mask_ten)['instances'][0,0].detach().numpy() > 0.5

    processed_item = process_pairs(ref_image.copy(), ref_mask.copy(), image.copy(), mask.copy(), max_ratio = 0.8)
    masked_ref = (processed_item['ref']*255)

    mased_image = mask_image(image, mask)
    #synthesis = image
    synthesis = inference_single_image(ref_image.copy(), ref_mask.copy(), image.copy(), mask.copy(), *args)
    synthesis = torch.from_numpy(synthesis).permute(2, 0, 1)
    synthesis = synthesis.permute(1, 2, 0).numpy()

    masked_ref = cv2.resize(masked_ref.astype(np.uint8), (512,512))
    return [synthesis]

with gr.Blocks() as demo:
    with gr.Column():
        gr.Markdown("#  Play with AnyDoor to Teleport your Target Objects! ")
        with gr.Row():
            baseline_gallery = gr.Gallery(label='Output', show_label=True, elem_id="gallery", columns=1, height=768)
            with gr.Accordion("Advanced Option", open=True):
                #num_samples = gr.Slider(label="Images", minimum=1, maximum=12, value=1, step=1)
                num_samples = 1
                strength = gr.Slider(label="Control Strength", minimum=0.0, maximum=2.0, value=1.0, step=0.01)
                ddim_steps = gr.Slider(label="Steps", minimum=1, maximum=100, value=30, step=1)
                scale = gr.Slider(label="Guidance Scale", minimum=0.1, maximum=30.0, value=4.5, step=0.1)
                seed = gr.Slider(label="Seed", minimum=-1, maximum=999999999, step=1, value=-1)
                gr.Markdown(" Higher guidance-scale makes higher fidelity, while lower guidance-scale leads to more harmonized blending.")
    

        gr.Markdown("# Upload / Select Images for the Background (left) and Reference Object (right)")
        gr.Markdown("### Your could draw coarse masks on the background to indicate the desired location and shape.")
        gr.Markdown("### <u>Do not forget</u> to annotate the target object on the reference image.")
        with gr.Row():
            base = gr.Image(label="Background", tool="sketch", type="pil", height=512, brush_color='#FFFFFF', mask_opacity=0.5)
            ref = gr.Image(label="Reference", tool="sketch", type="pil", height=512, brush_color='#FFFFFF', mask_opacity=0.5)
        run_local_button = gr.Button(label="Generate", value="Run")

        with gr.Row():
            with gr.Column():
                gr.Examples(image_list, inputs=[base],label="Examples - Background Image",examples_per_page=16)
            with gr.Column():
                gr.Examples(ref_list, inputs=[ref],label="Examples - Reference Object",examples_per_page=16)
        
    run_local_button.click(fn=run_local, 
                           inputs=[base, 
                                   ref, 
                                   strength, 
                                   ddim_steps, 
                                   scale, 
                                   seed, 
                                   ], 
                           outputs=[baseline_gallery]
                        )
demo.launch()