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import spaces
import torch
from pipelines.inverted_ve_pipeline import STYLE_DESCRIPTION_DICT, create_image_grid
import gradio as gr
import os, json
import numpy as np
from PIL import Image
from pipelines.pipeline_stable_diffusion_xl import StableDiffusionXLPipeline
from random import randint
from utils import init_latent
from transformers import Blip2Processor, Blip2ForConditionalGeneration
from diffusers import DDIMScheduler

device = 'cuda' if torch.cuda.is_available() else 'cpu'
if device == 'cpu':
    torch_dtype = torch.float32
else:
    torch_dtype = torch.float16

def memory_efficient(model):
    try:
        model.to(device)
    except Exception as e:
        print("Error moving model to device:", e)
    try:
        model.enable_model_cpu_offload()
    except AttributeError:
        print("enable_model_cpu_offload is not supported.")
    try:
        model.enable_vae_slicing()
    except AttributeError:
        print("enable_vae_slicing is not supported.")
        
    # if device == 'cuda':
    #     try:
    #         model.enable_xformers_memory_efficient_attention()
    #     except AttributeError:
    #         print("enable_xformers_memory_efficient_attention is not supported.")

model = StableDiffusionXLPipeline.from_pretrained("stabilityai/stable-diffusion-xl-base-1.0", torch_dtype=torch_dtype)
print("SDXL")
memory_efficient(model)

blip_processor = Blip2Processor.from_pretrained("Salesforce/blip2-opt-2.7b")
blip_model = Blip2ForConditionalGeneration.from_pretrained("Salesforce/blip2-opt-2.7b", torch_dtype=torch_dtype).to(device)


# controlnet_scale, canny thres 1, 2 (2 > 1, 2:1, 3:1)

def parse_config(config):
    with open(config, 'r') as f:
        config = json.load(f)
    return config


def load_example_style():
    folder_path = 'assets/ref'
    examples = []
    for filename in os.listdir(folder_path):
        if filename.endswith((".png")):
            image_path = os.path.join(folder_path, filename)
            image_name = os.path.basename(image_path)
            style_name = image_name.split('_')[1]

            config_path = './config/{}.json'.format(style_name)
            config = parse_config(config_path)
            inf_object_name = config["inference_info"]["inf_object_list"][0]

            image_info = [image_path, style_name, inf_object_name, 1, 50]
            examples.append(image_info)

    return examples

def blip_inf_prompt(image):
    inputs = blip_processor(images=image, return_tensors="pt").to(device, torch.float16)

    generated_ids = blip_model.generate(**inputs)
    generated_text = blip_processor.batch_decode(generated_ids, skip_special_tokens=True)[0].strip()

    return generated_text

@spaces.GPU
def style_fn(image_path, style_name, content_text, output_number=1, diffusion_step=50):

    user_image_flag = not style_name.strip() # empty

    if not user_image_flag:
        real_img = None
        config_path = './config/{}.json'.format(style_name)
        config = parse_config(config_path)

        inf_object = content_text
        inf_seeds = [randint(0, 10**10) for _ in range(int(output_number))]

        activate_layer_indices_list = config['inference_info']['activate_layer_indices_list']
        activate_step_indices_list = config['inference_info']['activate_step_indices_list']
        ref_seed = config['reference_info']['ref_seeds'][0]

        attn_map_save_steps = config['inference_info']['attn_map_save_steps']
        guidance_scale = config['guidance_scale']
        use_inf_negative_prompt = config['inference_info']['use_negative_prompt']

        ref_object = config["reference_info"]["ref_object_list"][0]
        ref_with_style_description = config['reference_info']['with_style_description']
        inf_with_style_description = config['inference_info']['with_style_description']

        use_shared_attention = config['inference_info']['use_shared_attention']
        adain_queries = config['inference_info']['adain_queries']
        adain_keys = config['inference_info']['adain_keys']
        adain_values = config['inference_info']['adain_values']

        use_advanced_sampling = config['inference_info']['use_advanced_sampling']
        use_prompt_as_null = False

        style_name = config["style_name_list"][0]
        style_description_pos, style_description_neg = STYLE_DESCRIPTION_DICT[style_name][0], \
                                                       STYLE_DESCRIPTION_DICT[style_name][1]
        if ref_with_style_description:
            ref_prompt = style_description_pos.replace("{object}", ref_object)
        else:
            ref_prompt = ref_object

        if inf_with_style_description:
            inf_prompt = style_description_pos.replace("{object}", inf_object)
        else:
            inf_prompt = inf_object
    else:
        model.scheduler = DDIMScheduler.from_config(model.scheduler.config)
        origin_real_img = Image.open(image_path).resize((1024, 1024), resample=Image.BICUBIC)
        real_img = np.array(origin_real_img).astype(np.float32) / 255.0

        style_name = 'default'

        config_path = './config/{}.json'.format(style_name)
        config = parse_config(config_path)

        inf_object = content_text
        inf_seeds = [randint(0, 10**10) for _ in range(int(output_number))]

        activate_layer_indices_list = config['inference_info']['activate_layer_indices_list']
        activate_step_indices_list = config['inference_info']['activate_step_indices_list']
        ref_seed = 0

        attn_map_save_steps = config['inference_info']['attn_map_save_steps']
        guidance_scale = config['guidance_scale']
        use_inf_negative_prompt = False

        use_shared_attention = config['inference_info']['use_shared_attention']
        adain_queries = config['inference_info']['adain_queries']
        adain_keys = config['inference_info']['adain_keys']
        adain_values = config['inference_info']['adain_values']

        use_advanced_sampling = False
        use_prompt_as_null = True

        ref_prompt = blip_inf_prompt(origin_real_img)
        inf_prompt = inf_object
        style_description_neg = None


    # Inference
    with torch.inference_mode():
        grid = None

        for activate_layer_indices in activate_layer_indices_list:

            for activate_step_indices in activate_step_indices_list:

                str_activate_layer, str_activate_step = model.activate_layer(
                    activate_layer_indices=activate_layer_indices,
                    attn_map_save_steps=attn_map_save_steps,
                    activate_step_indices=activate_step_indices, use_shared_attention=use_shared_attention,
                    adain_queries=adain_queries,
                    adain_keys=adain_keys,
                    adain_values=adain_values,
                )

                ref_latent = init_latent(model, device_name=device, dtype=torch_dtype, seed=ref_seed)
                latents = [ref_latent]
                num_images_per_prompt = len(inf_seeds) + 1

                for inf_seed in inf_seeds:
                    # latents.append(model.get_init_latent(inf_seed, precomputed_path=None))
                    inf_latent = init_latent(model, device_name=device, dtype=torch_dtype, seed=inf_seed)
                    latents.append(inf_latent)

                latents = torch.cat(latents, dim=0)
                latents.to(device)

                images = model(
                    prompt=ref_prompt,
                    negative_prompt=style_description_neg,
                    guidance_scale=guidance_scale,
                    num_inference_steps=diffusion_step,
                    latents=latents,
                    num_images_per_prompt=num_images_per_prompt,
                    target_prompt=inf_prompt,
                    use_inf_negative_prompt=use_inf_negative_prompt,
                    use_advanced_sampling=use_advanced_sampling,
                    use_prompt_as_null=use_prompt_as_null,
                    image=real_img
                )[0][1:]

                n_row = 1
                n_col = len(inf_seeds) + 1 # μ›λ³ΈμΆ”κ°€ν•˜λ €λ©΄ + 1

                # make grid
                grid = create_image_grid(images, n_row, n_col, padding=10)

        return grid

description_md = """

### We introduce `Visual Style Prompting`, which reflects the style of a reference image to the images generated by a pretrained text-to-image diffusion model without finetuning or optimization (e.g., Figure N).
### πŸ“– [[Paper](https://arxiv.org/abs/2402.12974)] | ✨ [[Project page](https://curryjung.github.io/VisualStylePrompt)] | ✨ [[Code](https://github.com/naver-ai/Visual-Style-Prompting)]
### πŸ”₯ [[w/ Controlnet ver](https://huggingface.co/spaces/naver-ai/VisualStylePrompting_Controlnet)]
---
### πŸ”₯ To try out our vanilla demo,
1. Choose a `style reference` from the collection of images below.
2. Enter the `text prompt`.
3. Choose the `number of outputs`.

### πŸ‘‰ To achieve faster results, we recommend lowering the diffusion steps to 30.
### Enjoy ! πŸ˜„
"""

iface_style = gr.Interface(
    fn=style_fn,
    inputs=[
        gr.components.Image(label="Style Image", type="filepath"),
        gr.components.Textbox(label='Style name', visible=False),
        gr.components.Textbox(label="Text prompt", placeholder="Enter Text prompt"),
        gr.components.Textbox(label="Number of outputs", placeholder="Enter Number of outputs"),
        gr.components.Slider(minimum=10, maximum=50, step=10, value=50, label="Diffusion steps")
    ],
    outputs=gr.components.Image(label="Generated Image"),
    title="🎨 Visual Style Prompting (default)",
    description=description_md,
    examples=load_example_style(),
)

iface_style.launch(debug=True)