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import gradio as gr
import torch
from transformers import CLIPTextModel, CLIPTokenizer
from diffusers import AutoencoderKL, LMSDiscreteScheduler
from my_model import unet_2d_condition
import json
import numpy as np
from PIL import Image, ImageDraw, ImageFont
from functools import partial
import math
from utils import compute_ca_loss
from gradio import processing_utils
from typing import Optional
import spaces
import warnings

import sys

sys.tracebacklimit = 0

class Blocks(gr.Blocks):

    def __init__(
            self,
            theme: str = "default",
            analytics_enabled: Optional[bool] = None,
            mode: str = "blocks",
            title: str = "Gradio",
            css: Optional[str] = None,
            **kwargs,
    ):
        self.extra_configs = {
            'thumbnail': kwargs.pop('thumbnail', ''),
            'url': kwargs.pop('url', 'https://gradio.app/'),
            'creator': kwargs.pop('creator', '@teamGradio'),
        }

        super(Blocks, self).__init__(theme, analytics_enabled, mode, title, css, **kwargs)
        warnings.filterwarnings("ignore")

    def get_config_file(self):
        config = super(Blocks, self).get_config_file()

        for k, v in self.extra_configs.items():
            config[k] = v

        return config


def draw_box(boxes=[], texts=[], img=None):
    if len(boxes) == 0 and img is None:
        return None

    if img is None:
        img = Image.new('RGB', (512, 512), (255, 255, 255))
    colors = ["red", "olive", "blue", "green", "orange", "brown", "cyan", "purple"]
    draw = ImageDraw.Draw(img)
    font = ImageFont.truetype("DejaVuSansMono.ttf", size=18)
    print(boxes)
    for bid, box in enumerate(boxes):
        draw.rectangle([box[0], box[1], box[2], box[3]], outline=colors[bid % len(colors)], width=4)
        anno_text = texts[bid]
        draw.rectangle(
            [box[0], box[3] - int(font.size * 1.2), box[0] + int((len(anno_text) + 0.8) * font.size * 0.6), box[3]],
            outline=colors[bid % len(colors)], fill=colors[bid % len(colors)], width=4)
        draw.text([box[0] + int(font.size * 0.2), box[3] - int(font.size * 1.2)], anno_text, font=font,
                  fill=(255, 255, 255))
    return img



def get_concat(ims):
    if len(ims) == 1:
        n_col = 1
    else:
        n_col = 2
    n_row = math.ceil(len(ims) / 2)
    dst = Image.new('RGB', (ims[0].width * n_col, ims[0].height * n_row), color="white")
    for i, im in enumerate(ims):
        row_id = i // n_col
        col_id = i % n_col
        dst.paste(im, (im.width * col_id, im.height * row_id))
    return dst




def binarize(x):
    return (x != 0).astype('uint8') * 255


def sized_center_crop(img, cropx, cropy):
    y, x = img.shape[:2]
    startx = x // 2 - (cropx // 2)
    starty = y // 2 - (cropy // 2)
    return img[starty:starty + cropy, startx:startx + cropx]


def sized_center_fill(img, fill, cropx, cropy):
    y, x = img.shape[:2]
    startx = x // 2 - (cropx // 2)
    starty = y // 2 - (cropy // 2)
    img[starty:starty + cropy, startx:startx + cropx] = fill
    return img


def sized_center_mask(img, cropx, cropy):
    y, x = img.shape[:2]
    startx = x // 2 - (cropx // 2)
    starty = y // 2 - (cropy // 2)
    center_region = img[starty:starty + cropy, startx:startx + cropx].copy()
    img = (img * 0.2).astype('uint8')
    img[starty:starty + cropy, startx:startx + cropx] = center_region
    return img


def center_crop(img, HW=None, tgt_size=(512, 512)):
    if HW is None:
        H, W = img.shape[:2]
        HW = min(H, W)
    img = sized_center_crop(img, HW, HW)
    img = Image.fromarray(img)
    img = img.resize(tgt_size)
    return np.array(img)


def draw(input, grounding_texts, new_image_trigger, state):
    if type(input) == dict:
        # import pdb; pdb.set_trace()
        # image = input['composite']
        mask = input['composite']
    else:
        mask = input
    if mask.ndim == 3:
        mask = 255 - mask[..., 0]

    image_scale = 1.0

    mask = binarize(mask)

    if type(mask) != np.ndarray:
        mask = np.array(mask)

    if mask.sum() == 0:
        state = {}

    image = None

    if 'boxes' not in state:
        state['boxes'] = []

    if 'masks' not in state or len(state['masks']) == 0:
        state['masks'] = []
        last_mask = np.zeros_like(mask)
    else:
        last_mask = state['masks'][-1]

    if type(mask) == np.ndarray and mask.size > 1:
        diff_mask = mask - last_mask
    else:
        diff_mask = np.zeros([])

    if diff_mask.sum() > 0:
        x1x2 = np.where(diff_mask.max(0) != 0)[0]
        y1y2 = np.where(diff_mask.max(1) != 0)[0]
        y1, y2 = y1y2.min(), y1y2.max()
        x1, x2 = x1x2.min(), x1x2.max()

        if (x2 - x1 > 5) and (y2 - y1 > 5):
            state['masks'].append(mask.copy())
            state['boxes'].append((x1, y1, x2, y2))

    grounding_texts = [x.strip() for x in grounding_texts.split(';')]
    grounding_texts = [x for x in grounding_texts if len(x) > 0]
    if len(grounding_texts) < len(state['boxes']):
        grounding_texts += [f'Obj. {bid + 1}' for bid in range(len(grounding_texts), len(state['boxes']))]
    box_image = draw_box(state['boxes'], grounding_texts, image)

    return [box_image, new_image_trigger, image_scale, state]


def clear(task, sketch_pad_trigger, batch_size, state, switch_task=False):
    if task != 'Grounded Inpainting':
        sketch_pad_trigger = sketch_pad_trigger + 1
    blank_samples = batch_size % 2 if batch_size > 1 else 0
    out_images = [gr.Image.change(value=None, visible=True) for i in range(batch_size)]
    # state = {}
    return [None, sketch_pad_trigger, None, 1.0] + out_images + [{}]


def main():

    css = """
    #img2img_image, #img2img_image > .fixed-height, #img2img_image > .fixed-height > div, #img2img_image > .fixed-height > div > img
    {
        height: var(--height) !important;
        max-height: var(--height) !important;
        min-height: var(--height) !important;
    }
    #paper-info a {
        color:#008AD7;
        text-decoration: none;
    }
    #paper-info a:hover {
        cursor: pointer;
        text-decoration: none;
    }

    .tooltip {
        color: #555;
        position: relative;
        display: inline-block;
        cursor: pointer;
    }

    .tooltip .tooltiptext {
        visibility: hidden;
        width: 400px;
        background-color: #555;
        color: #fff;
        text-align: center;
        padding: 5px;
        border-radius: 5px;
        position: absolute;
        z-index: 1; /* Set z-index to 1 */
        left: 10px;
        top: 100%;
        opacity: 0;
        transition: opacity 0.3s;
    }

    .tooltip:hover .tooltiptext {
        visibility: visible;
        opacity: 1;
        z-index: 9999; /* Set a high z-index value when hovering */
    }


    """

    rescale_js = """
    function(x) {
        const root = document.querySelector('gradio-app').shadowRoot || document.querySelector('gradio-app');
        let image_scale = parseFloat(root.querySelector('#image_scale input').value) || 1.0;
        const image_width = root.querySelector('#img2img_image').clientWidth;
        const target_height = parseInt(image_width * image_scale);
        document.body.style.setProperty('--height', `${target_height}px`);
        root.querySelectorAll('button.justify-center.rounded')[0].style.display='none';
        root.querySelectorAll('button.justify-center.rounded')[1].style.display='none';
        return x;
    }
    """
    with open('./conf/unet/config.json') as f:
        unet_config = json.load(f)

    unet = unet_2d_condition.UNet2DConditionModel(**unet_config).from_pretrained('runwayml/stable-diffusion-v1-5',
                                                                                 subfolder="unet")
    tokenizer = CLIPTokenizer.from_pretrained("runwayml/stable-diffusion-v1-5", subfolder="tokenizer")
    text_encoder = CLIPTextModel.from_pretrained("runwayml/stable-diffusion-v1-5", subfolder="text_encoder")
    vae = AutoencoderKL.from_pretrained("runwayml/stable-diffusion-v1-5", subfolder="vae")
    device = torch.device("cuda" if torch.cuda.is_available() else "cpu")
    unet.to(device)
    text_encoder.to(device)
    vae.to(device)

    def generate(unet, vae, tokenizer, text_encoder, language_instruction, grounding_texts, sketch_pad,
                 loss_threshold, guidance_scale, batch_size, rand_seed, max_step, loss_scale, max_iter,
                 state):
        if 'boxes' not in state:
            state['boxes'] = []
        boxes = state['boxes']
        grounding_texts = [x.strip() for x in grounding_texts.split(';')]
        # assert len(boxes) == len(grounding_texts)
        if len(boxes) != len(grounding_texts):
            if len(boxes) < len(grounding_texts):
                raise ValueError("""The number of boxes should be equal to the number of grounding objects.
    Number of boxes drawn: {}, number of grounding tokens: {}.
    Please draw boxes accordingly on the sketch pad.""".format(len(boxes), len(grounding_texts)))
            grounding_texts = grounding_texts + [""] * (len(boxes) - len(grounding_texts))

        boxes = (np.asarray(boxes) / 512).tolist()
        boxes = [[box] for box in boxes]
        grounding_instruction = json.dumps({obj: box for obj, box in zip(grounding_texts, boxes)})
        language_instruction_list = language_instruction.strip('.').split(' ')
        object_positions = []
        for obj in grounding_texts:
            obj_position = []
            for word in obj.split(' '):
                obj_first_index = language_instruction_list.index(word) + 1
                obj_position.append(obj_first_index)
            object_positions.append(obj_position)
        device = 'cuda' if torch.cuda.is_available() else 'cpu'

        gen_images = inference(device, unet, vae, tokenizer, text_encoder, language_instruction, boxes,
                               object_positions, batch_size, loss_scale, loss_threshold, max_iter, max_step, rand_seed,
                               guidance_scale)

        blank_samples = batch_size % 2 if batch_size > 1 else 0
        gen_images = [gr.Image.update(value=x, visible=True) for i, x in enumerate(gen_images)] \
                     + [gr.Image.change(fn=None, show_api=True) for _ in range(blank_samples)] \
                     + [gr.Image.change(fn=None, show_api=False) for _ in range(4 - batch_size - blank_samples)]

        return gen_images + [state]

    '''
    inference model
    '''

    @spaces.GPU(duration=180)
    def inference(device, unet, vae, tokenizer, text_encoder, prompt, bboxes, object_positions, batch_size, loss_scale,
                  loss_threshold, max_iter, max_index_step, rand_seed, guidance_scale):
        uncond_input = tokenizer(
            [""] * 1, padding="max_length", max_length=tokenizer.model_max_length, return_tensors="pt"
        )
        uncond_embeddings = text_encoder(uncond_input.input_ids.to(device))[0]

        input_ids = tokenizer(
            prompt,
            padding="max_length",
            truncation=True,
            max_length=tokenizer.model_max_length,
            return_tensors="pt",
        ).input_ids[0].unsqueeze(0).to(device)
        # text_embeddings = text_encoder(input_ids)[0]
        text_embeddings = torch.cat([uncond_embeddings, text_encoder(input_ids)[0]])
        # text_embeddings[1, 1, :] = text_embeddings[1, 2, :]
        generator = torch.manual_seed(rand_seed)  # Seed generator to create the inital latent noise

        latents = torch.randn(
            (batch_size, 4, 64, 64),
            generator=generator,
        ).to(device)

        noise_scheduler = LMSDiscreteScheduler(beta_start=0.00085, beta_end=0.012, beta_schedule="scaled_linear",
                                               num_train_timesteps=1000)

        # generator = torch.Generator("cuda").manual_seed(1024)
        noise_scheduler.set_timesteps(51)

        latents = latents * noise_scheduler.init_noise_sigma

        loss = torch.tensor(10000)

        for index, t in enumerate(noise_scheduler.timesteps):
            iteration = 0

            while loss.item() / loss_scale > loss_threshold and iteration < max_iter and index < max_index_step:
                latents = latents.requires_grad_(True)

                # latent_model_input = torch.cat([latents] * 2)
                latent_model_input = latents

                latent_model_input = noise_scheduler.scale_model_input(latent_model_input, t)
                noise_pred, attn_map_integrated_up, attn_map_integrated_mid, attn_map_integrated_down = \
                    unet(latent_model_input, t, encoder_hidden_states=text_encoder(input_ids)[0])

                # update latents with guidence from gaussian blob

                loss = compute_ca_loss(attn_map_integrated_mid, attn_map_integrated_up, bboxes=bboxes,
                                       object_positions=object_positions) * loss_scale

                print(loss.item() / loss_scale)

                grad_cond = torch.autograd.grad(loss.requires_grad_(True), [latents])[0]

                latents = latents - grad_cond * noise_scheduler.sigmas[index] ** 2
                iteration += 1
                torch.cuda.empty_cache()
            torch.cuda.empty_cache()

            with torch.no_grad():

                latent_model_input = torch.cat([latents] * 2)

                latent_model_input = noise_scheduler.scale_model_input(latent_model_input, t)
                noise_pred, attn_map_integrated_up, attn_map_integrated_mid, attn_map_integrated_down = \
                    unet(latent_model_input, t, encoder_hidden_states=text_embeddings)

                noise_pred = noise_pred.sample

                # perform classifier-free guidance
                noise_pred_uncond, noise_pred_text = noise_pred.chunk(2)
                noise_pred = noise_pred_uncond + guidance_scale * (noise_pred_text - noise_pred_uncond)

                latents = noise_scheduler.step(noise_pred, t, latents).prev_sample
                torch.cuda.empty_cache()
        # Decode image
        with torch.no_grad():
            # print("decode image")
            latents = 1 / 0.18215 * latents
            image = vae.decode(latents).sample
            image = (image / 2 + 0.5).clamp(0, 1)
            image = image.detach().cpu().permute(0, 2, 3, 1).numpy()
            images = (image * 255).round().astype("uint8")
            pil_images = [Image.fromarray(image) for image in images]
            return pil_images


    with Blocks(
            css=css,
            analytics_enabled=False,
            title="Layout-Guidance demo",
    ) as demo:
        description = """<p style="text-align: center; font-weight: bold;">
            <span style="font-size: 28px">Layout Guidance</span>
            <br>
            <span style="font-size: 18px" id="paper-info">
                [<a href=" " target="_blank">Project Page</a>]
                [<a href=" " target="_blank">Paper</a>]
                [<a href=" " target="_blank">GitHub</a>]
            </span>
        </p>
        """
        gr.HTML(description)
        with gr.Column():
            language_instruction = gr.Textbox(
                label="Text Prompt",
            )
            grounding_instruction = gr.Textbox(
                label="Grounding instruction (Separated by semicolon)",
            )
            sketch_pad_trigger = gr.Number(value=0, visible=False)
            sketch_pad_resize_trigger = gr.Number(value=0, visible=False)
            init_white_trigger = gr.Number(value=0, visible=False)
            image_scale = gr.Number(value=0, elem_id="image_scale", visible=False)
            new_image_trigger = gr.Number(value=0, visible=False)


            with gr.Row():
                sketch_pad = gr.Paint(label="Sketch Pad", container=False, layers=False, scale=1, elem_id="img2img_image")
                out_imagebox = gr.Image(type="pil", label="Parsed Sketch Pad")
                out_gen_1 = gr.Image(type="pil", visible=True, label="Generated Image")

            with gr.Row():
                clear_btn = gr.Button(value='Clear')
                gen_btn = gr.Button(value='Generate')

            with gr.Accordion("Advanced Options", open=False):
                with gr.Column():
                    description = """<div class="tooltip">Loss Scale Factor &#9432
                        <span class="tooltiptext">The scale factor of the backward guidance loss. The larger it is, the better control we get while it sometimes losses fidelity. </span>
                        </div>
                        <div class="tooltip">Guidance Scale &#9432
                        <span class="tooltiptext">The scale factor of classifier-free guidance. </span>
                        </div>
                        <div class="tooltip" >Max Iteration per Step &#9432
                        <span class="tooltiptext">The max iterations of backward guidance in each diffusion inference process.</span>
                        </div>
                        <div class="tooltip" >Loss Threshold &#9432
                        <span class="tooltiptext">The threshold of loss. If the loss computed by cross-attention map is smaller then the threshold, the backward guidance is stopped. </span>
                        </div>
                        <div class="tooltip" >Max Step of Backward Guidance &#9432
                        <span class="tooltiptext">The max steps of backward guidance in diffusion inference process.</span>
                        </div>
                    """
                    gr.HTML(description)
                    Loss_scale = gr.Slider(minimum=0, maximum=500, step=5, value=30,label="Loss Scale Factor")
                    guidance_scale = gr.Slider(minimum=0, maximum=50, step=0.5, value=7.5, label="Guidance Scale")
                    batch_size = gr.Slider(minimum=1, maximum=4, step=1, value=1, label="Number of Samples", visible=False)
                    max_iter = gr.Slider(minimum=0, maximum=10, step=1, value=5, label="Max Iteration per Step")
                    loss_threshold = gr.Slider(minimum=0, maximum=1, step=0.1, value=0.2, label="Loss Threshold")
                    max_step = gr.Slider(minimum=0, maximum=50, step=1, value=10, label="Max Step of Backward Guidance")
                    rand_seed = gr.Slider(minimum=0, maximum=1000, step=1, value=445, label="Random Seed")

            state = gr.State({})


            class Controller:
                def __init__(self):
                    self.calls = 0
                    self.tracks = 0
                    self.resizes = 0
                    self.scales = 0

                def init_white(self, init_white_trigger):
                    self.calls += 1
                    return np.ones((512, 512), dtype='uint8') * 255, 1.0, init_white_trigger + 1

                def change_n_samples(self, n_samples):
                    blank_samples = n_samples % 2 if n_samples > 1 else 0
                    return [gr.Image.update(visible=True) for _ in range(n_samples + blank_samples)] \
                        + [gr.Image.update(visible=False) for _ in range(4 - n_samples - blank_samples)]


            controller = Controller()
            demo.load(
                lambda x: x + 1,
                inputs=sketch_pad_trigger,
                outputs=sketch_pad_trigger,
                queue=False)
            sketch_pad.change(
                draw,
                inputs=[sketch_pad, grounding_instruction, sketch_pad_resize_trigger, state],
                outputs=[out_imagebox, sketch_pad_resize_trigger, image_scale, state],
                queue=False,
            )
            grounding_instruction.change(
                draw,
                inputs=[sketch_pad, grounding_instruction, sketch_pad_resize_trigger, state],
                outputs=[out_imagebox, sketch_pad_resize_trigger, image_scale, state],
                queue=False,
            )
            clear_btn.click(
                clear,
                inputs=[sketch_pad_trigger, sketch_pad_trigger, batch_size, state],
                outputs=[sketch_pad, sketch_pad_trigger, out_imagebox, image_scale, out_gen_1, state],
                queue=False)

            sketch_pad_trigger.change(
                controller.init_white,
                inputs=[init_white_trigger],
                outputs=[sketch_pad, image_scale, init_white_trigger],
                queue=False)

            gen_btn.click(
                fn=partial(generate, unet, vae, tokenizer, text_encoder),
                inputs=[
                    language_instruction, grounding_instruction, sketch_pad,
                    loss_threshold, guidance_scale, batch_size, rand_seed,
                    max_step,
                    Loss_scale, max_iter,
                    state,
                ],
                outputs=[out_gen_1, state],
                queue=True
            )
            sketch_pad_resize_trigger.change(
                None,
                None,
                sketch_pad_resize_trigger,
                js=rescale_js,
                queue=False)
            init_white_trigger.change(
                None,
                None,
                init_white_trigger,
                js=rescale_js,
                queue=False)

        with gr.Column():
            gr.Examples(
                examples=[
                    [
                        # "images/input.png",
                        "A hello kitty toy is playing with a purple ball.",
                        "hello kitty;ball",
                        "images/hello_kitty_results.png"
                    ],
                ],
                inputs=[language_instruction, grounding_instruction, out_gen_1],
                outputs=None,
                fn=None,
                cache_examples=False,
            )
        description = """<p> The source codes of the demo are modified based on the <a href="https://huggingface.co/spaces/gligen/demo/tree/main">GlIGen</a>. Thanks! </p>"""
        gr.HTML(description)

    demo.queue(api_open=False)
    demo.launch(share=False, show_api=False, show_error=True)

if __name__ == '__main__':
    main()