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AI_Meme_Generator

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import ast
import copy
import glob
import hashlib
import logging
import os
import re
import time
from pathlib import Path
from typing import List, Optional, Tuple
from urllib.parse import urlparse
from PIL import Image, ImageDraw, ImageFont
from io import BytesIO

import requests
import concurrent.futures
import random
import gradio as gr
import PIL
from gradio import processing_utils
from gradio_client.client import DEFAULT_TEMP_DIR
from text_generation import Client
from transformers import AutoProcessor


MODELS = [
    # "HuggingFaceM4/idefics-9b-instruct",
    "HuggingFaceM4/idefics-80b-instruct",
]

API_PATHS = {
    "HuggingFaceM4/idefics-9b-instruct": (
        "https://api-inference.huggingface.co/models/HuggingFaceM4/idefics-9b-instruct"
    ),
    "HuggingFaceM4/idefics-80b-instruct": (
        "https://api-inference.huggingface.co/models/HuggingFaceM4/idefics-80b-instruct"
    ),
}

SYSTEM_PROMPT = [
    """The following is a conversation between a highly knowledgeable and intelligent visual AI assistant, called Assistant, and a human user, called User.
In the following interactions, User and Assistant will converse in natural language, and Assistant will answer in a sassy way.
Assistant's main purpose is to create funny meme texts from the images User provides.
Assistant should be funny, sassy, and impertinent, and sometimes Assistant roasts people.
Assistant should not be mean. It should not say toxic, homophobic, sexist, racist, things or any demeaning things that can make people uncomfortable.
Assistant was created by Hugging Face.

Here's a conversation example:""",
    """\nUser:""",
    "https://ichef.bbci.co.uk/news/976/cpsprodpb/7727/production/_103330503_musk3.jpg",
    "Write a meme for that image.<end_of_utterance>",
    """\nAssistant: When you're trying to quit smoking but the cravings are too strong.<end_of_utterance>""",
    "\nUser:How about this image?",
    "https://www.boredpanda.com/blog/wp-content/uploads/2017/01/image-copy-copy-587d0e7918b57-png__700.jpg",
    "Write something funny about this image.<end_of_utterance>",
    """\nAssistant: Eggcellent service!<end_of_utterance>""",
    "\nUser: Roast this person",
    "https://i.pinimg.com/564x/98/34/4b/98344b2483bd7c8b71a5c0fed6fe20b6.jpg",
    "<end_of_utterance>",
    """\nAssistant: Damn your handwritting is pretty awful. But I suppose it must be pretty hard to hold a pen, considering you are a hammerhead shark.<end_of_utterance>""",
]

BAN_TOKENS = (  # For documentation puporse. We are not using this list, it is hardcoded inside `idefics_causal_lm.py` inside TGI.
    "<image>;<fake_token_around_image>"
)
EOS_STRINGS = ["<end_of_utterance>", "\nUser:"]
STOP_SUSPECT_LIST = []

API_TOKEN = os.getenv("HF_AUTH_TOKEN")
IDEFICS_LOGO = "https://huggingface.co/spaces/HuggingFaceM4/idefics_playground/resolve/main/IDEFICS_logo.png"

PROCESSOR = AutoProcessor.from_pretrained(
    "HuggingFaceM4/idefics-9b-instruct",
    token=API_TOKEN,
)

BOT_AVATAR = "IDEFICS_logo.png"
IMAGE_GALLERY_PATHS = [
    f"example_images/{image_dir}/{ex_image}"
    for image_dir in os.listdir("example_images")
    for ex_image in os.listdir(f"example_images/{image_dir}")
]
random.shuffle(IMAGE_GALLERY_PATHS)
logging.basicConfig(level=logging.INFO)
logger = logging.getLogger()


# Monkey patch adapted from gradio.components.image.Image - mostly to make the `save` step optional in `pil_to_temp_file`
def hash_bytes(bytes: bytes):
    sha1 = hashlib.sha1()
    sha1.update(bytes)
    return sha1.hexdigest()


def pil_to_temp_file(
    img: PIL.Image.Image,
    dir: str = DEFAULT_TEMP_DIR,
    format: str = "png",
    resize: bool = False,
) -> str:
    """Save a PIL image into a temp file"""
    if resize:
        img = img.resize((224, 224), Image.LANCZOS)
    bytes_data = processing_utils.encode_pil_to_bytes(img, format)
    temp_dir = Path(dir) / hash_bytes(bytes_data)
    temp_dir.mkdir(exist_ok=True, parents=True)
    filename = str(temp_dir / f"image.{format}")
    if not os.path.exists(filename):
        img.save(filename, pnginfo=processing_utils.get_pil_metadata(img))
    return filename


def pil_to_base64(
    img: PIL.Image.Image,
    resize: bool = False,
) -> str:
    """Save a PIL image into a temp file"""
    if resize:
        img = img.resize((224, 224), Image.LANCZOS)
    base64_img = processing_utils.encode_pil_to_base64(img)
    return base64_img


def add_file_gallery(selected_state: gr.SelectData, gallery_list: List[str]):
    return (
        "Write a meme about this image.",
        gallery_list[selected_state.index]["name"],
        "",
    )


def choose_gallery(gallery_type: str):
    if gallery_type == "Meme templates":
        image_gallery_list = [
            f"example_images/meme_templates/{ex_image}"
            for ex_image in os.listdir("example_images/meme_templates")
        ]
    elif gallery_type == "Funny images":
        image_gallery_list = [
            f"example_images/funny_images/{ex_image}"
            for ex_image in os.listdir("example_images/funny_images")
        ]
    elif gallery_type == "Politics":
        image_gallery_list = [
            f"example_images/politics_memes/{ex_image}"
            for ex_image in os.listdir("example_images/politics_memes")
        ]
    else:
        image_gallery_list = [
            f"example_images/{image_dir}/{ex_image}"
            for image_dir in os.listdir("example_images")
            for ex_image in os.listdir(f"example_images/{image_dir}")
        ]
    random.shuffle(image_gallery_list)
    return image_gallery_list


# Utils to handle the image markdown display logic
def split_str_on_im_markdown(string: str) -> List[str]:
    """
    Extract from a string (typically the user prompt string) the potential images from markdown
    Examples:
    - `User:![](https://favurl.com/chicken_on_money.png)Describe this image.` would become `["User:", "https://favurl.com/chicken_on_money.png", "Describe this image."]`
    - `User:![](/file=/my_temp/chicken_on_money.png)Describe this image.` would become `["User:", "/my_temp/chicken_on_money.png", "Describe this image."]`
    """
    IMAGES_PATTERN = re.compile(r"!\[[^\]]*\]\((.*?)\s*(\"(?:.*[^\"])\")?\s*\)")
    parts = []
    cursor = 0
    for pattern in IMAGES_PATTERN.finditer(string):
        start = pattern.start()
        if start != cursor:
            parts.append(string[cursor:start])
        image_url = pattern.group(1)
        if image_url.startswith("/file="):
            image_url = image_url[6:]  # Remove the 'file=' prefix
        parts.append(image_url)
        cursor = pattern.end()
    if cursor != len(string):
        parts.append(string[cursor:])
    return parts


def is_image(string: str) -> bool:
    """
    There are two ways for images: local image path or url.
    """
    return is_url(string) or string.startswith(DEFAULT_TEMP_DIR)


def is_url(string: str) -> bool:
    """
    Checks if the passed string contains a valid url and nothing else. e.g. if space is included it's immediately
    invalidated the url
    """
    if " " in string:
        return False
    result = urlparse(string)
    return all([result.scheme, result.netloc])


def isolate_images_urls(prompt_list: List) -> List:
    """
    Convert a full string prompt to the list format expected by the processor.
    In particular, image urls (as delimited by <fake_token_around_image>) should be their own elements.
    From:
    ```
    [
        "bonjour<fake_token_around_image><image:IMG_URL><fake_token_around_image>hello",
        PIL.Image.Image,
        "Aurevoir",
    ]
    ```
    to:
    ```
    [
        "bonjour",
        IMG_URL,
        "hello",
        PIL.Image.Image,
        "Aurevoir",
    ]
    ```
    """
    linearized_list = []
    for prompt in prompt_list:
        # Prompt can be either a string, or a PIL image
        if isinstance(prompt, PIL.Image.Image):
            linearized_list.append(prompt)
        elif isinstance(prompt, str):
            if "<fake_token_around_image>" not in prompt:
                linearized_list.append(prompt)
            else:
                prompt_splitted = prompt.split("<fake_token_around_image>")
                for ps in prompt_splitted:
                    if ps == "":
                        continue
                    if ps.startswith("<image:"):
                        linearized_list.append(ps[7:-1])
                    else:
                        linearized_list.append(ps)
        else:
            raise TypeError(
                f"Unrecognized type for `prompt`. Got {type(type(prompt))}. Was expecting something in [`str`,"
                " `PIL.Image.Image`]"
            )
    return linearized_list


def fetch_images(url_list: str) -> PIL.Image.Image:
    """Fetching images"""
    return PROCESSOR.image_processor.fetch_images(url_list)


def handle_manual_images_in_user_prompt(user_prompt: str) -> List[str]:
    """
    Handle the case of textually manually inputted images (i.e. the `<fake_token_around_image><image:IMG_URL><fake_token_around_image>`) in the user prompt
    by fetching them, saving them locally and replacing the whole sub-sequence the image local path.
    """
    if "<fake_token_around_image>" in user_prompt:
        splitted_user_prompt = isolate_images_urls([user_prompt])
        resulting_user_prompt = []
        for u_p in splitted_user_prompt:
            if is_url(u_p):
                img = fetch_images([u_p])[0]
                tmp_file = pil_to_temp_file(img)
                resulting_user_prompt.append(tmp_file)
            else:
                resulting_user_prompt.append(u_p)
        return resulting_user_prompt
    else:
        return [user_prompt]


def prompt_list_to_markdown(prompt_list: List[str]) -> str:
    """
    Convert a user prompt in the list format (i.e. elements are either a PIL image or a string) into
    the markdown format that is used for the chatbot history and rendering.
    """
    resulting_string = ""
    for elem in prompt_list:
        if is_image(elem):
            if is_url(elem):
                resulting_string += f"![]({elem})"
            else:
                resulting_string += f"![](/file={elem})"
        else:
            resulting_string += elem
    return resulting_string


def prompt_list_to_tgi_input(prompt_list: List[str]) -> str:
    """
    TGI expects a string that contains both text and images in the image markdown format (i.e. the `![]()` ).
    The images links are parsed on TGI side
    """
    result_string_input = ""
    for elem in prompt_list:
        if is_image(elem):
            try:
                if is_url(elem):
                    response = requests.get(elem)
                    if response.status_code == 200:
                        elem_pil = Image.open(BytesIO(response.content))
                else:
                    elem_pil = Image.open(elem)
                base64_img = pil_to_base64(elem_pil, resize=True)
                result_string_input += f"![]({base64_img})"
            except Exception as e:
                logger.error(f"Image can't be loaded because of exception {e}")
        else:
            result_string_input += elem
    return result_string_input


def remove_spaces_around_token(text: str) -> str:
    pattern = r"\s*(<fake_token_around_image>)\s*"
    replacement = r"\1"
    result = re.sub(pattern, replacement, text)
    return result


# Chatbot utils
def insert_backslash(string, max_length=50):
    # Check if the string length is less than or equal to the max_length
    if len(string) <= max_length:
        return string

    # Start from the max_length character and search for the last space character before it
    for i in range(max_length - 1, -1, -1):
        if string[i] == " ":
            # Insert a backslash before the last space character
            return string[:i] + "\n" + string[i:]

    # If no space character is found, just insert a backslash at the max_length character
    return string[:max_length] + "\n" + string[max_length:]


def resize_with_ratio(image: PIL.Image.Image, fixed_width: int) -> PIL.Image.Image:
    # Get the current width and height
    width, height = image.size

    # Calculate the new width while maintaining the aspect ratio up to 2:3 ratio
    new_width = fixed_width
    new_height = min(int(height * (new_width / width)), int(1.5 * new_width))

    # Resize the image
    resized_img = image.resize((new_width, new_height), Image.LANCZOS)

    return resized_img


def make_new_lines(draw, image, font, text_is_too_long, lines, num_lines, num_loops):
    max_len_increment = 0
    while text_is_too_long and max_len_increment < 10:
        new_lines = lines.copy()
        last_line_with_backslash = insert_backslash(
            new_lines[-1],
            max_length=(len(new_lines[-1]) + max_len_increment)
            // (num_lines - num_loops),
        )
        penultimate_line, last_line = (
            last_line_with_backslash.split("\n")[0],
            last_line_with_backslash.split("\n")[1],
        )
        new_lines.pop(-1)
        new_lines.append(penultimate_line)
        new_lines.append(last_line)
        # If the we haven't reached the last line, we split it again
        if len(new_lines) < num_lines:
            new_lines, text_width, text_is_too_long = make_new_lines(
                draw=draw,
                image=image,
                font=font,
                text_is_too_long=text_is_too_long,
                lines=new_lines,
                num_lines=num_lines,
                num_loops=num_loops + 1,
            )
        text_width = max([draw.textlength(line, font) for line in new_lines])
        text_is_too_long = text_width > image.width
        max_len_increment += 1
    if not text_is_too_long:
        lines = new_lines
    return lines, text_width, text_is_too_long


def test_font_size(
    draw,
    image,
    text,
    font,
    font_meme_text,
    num_lines=1,
    min_font=35,
    font_size_reduction=5,
):
    text_width = draw.textlength(text, font)
    text_is_too_long = True
    lines = [text]
    while font.size > min_font and text_is_too_long:
        font = ImageFont.truetype(
            f"fonts/{font_meme_text}.ttf", size=font.size - font_size_reduction
        )
        if num_lines == 1:
            text_width = draw.textlength(text, font)
            text_is_too_long = text_width > image.width
        else:
            lines, text_width, text_is_too_long = make_new_lines(
                draw=draw,
                image=image,
                font=font,
                text_is_too_long=text_is_too_long,
                lines=lines,
                num_lines=num_lines,
                num_loops=0,
            )
            temp_text = "\n".join(lines)

    if not text_is_too_long and num_lines > 1:
        text = temp_text
    return text, font, text_width, text_is_too_long


def make_meme_image(
    image: str,
    text: str,
    font_meme_text: str,
    all_caps_meme_text: bool = False,
    text_at_the_top: bool = False,
) -> PIL.Image.Image:
    """
    Takes an image and a text and returns a meme image.
    """
    text = text.replace("\nUser", " ").replace("\n", " ").strip().rstrip(".")
    if all_caps_meme_text:
        text = text.upper()
    # Resize image
    fixed_width = 700
    image = Image.open(image)
    image = resize_with_ratio(image, fixed_width)
    image_width, image_height = image.size
    height_width_ratio = image_height / image_width

    draw = ImageDraw.Draw(image)
    min_font = 35
    initial_font_size = 60
    if height_width_ratio >= 1:
        min_font = 45
        initial_font_size = 80
    text_is_too_long = True
    num_lines = 0
    while text_is_too_long and num_lines < 8:
        num_lines += 1
        font = ImageFont.truetype(f"fonts/{font_meme_text}.ttf", size=initial_font_size)
        text, font, text_width, text_is_too_long = test_font_size(
            draw,
            image,
            text,
            font,
            font_meme_text,
            num_lines=num_lines,
            min_font=min_font,
            font_size_reduction=5,
        )

    if text_is_too_long:
        text = f"Text is too long to fit the image"
        if all_caps_meme_text:
            text = text.upper()
        font = ImageFont.truetype(f"fonts/{font_meme_text}.ttf", size=font.size)
        text_width = draw.textlength(text, font)

    outline_width = 2
    text_x = (image_width - text_width) / 2
    text_y = image_height - num_lines * font.size - 10 - 2 * num_lines
    if text_at_the_top:
        text_y = 0

    for i in range(-outline_width, outline_width + 1):
        for j in range(-outline_width, outline_width + 1):
            draw.multiline_text(
                (text_x + i, text_y + j), text, fill="black", align="center", font=font
            )
    draw.multiline_text((text_x, text_y), text, fill="white", align="center", font=font)

    return image


def format_user_prompt_with_im_history_and_system_conditioning(
    system_prompt: List[str],
    current_user_prompt_str: str,
    current_image: Optional[str],
    history: List[Tuple[str, str]],
) -> Tuple[List[str], List[str]]:
    """
    Produces the resulting list that needs to go inside the processor.
    It handles the potential image box input, the history and the system conditionning.
    """
    # resulting_list = copy.deepcopy(SYSTEM_PROMPT)
    resulting_list = system_prompt

    # Format history
    for turn in history:
        user_utterance, assistant_utterance = turn
        splitted_user_utterance = split_str_on_im_markdown(user_utterance)

        optional_space = ""
        if not is_image(splitted_user_utterance[0]):
            optional_space = " "
        resulting_list.append(f"\nUser:{optional_space}")
        resulting_list.extend(splitted_user_utterance)
        resulting_list.append(f"<end_of_utterance>\nAssistant: {assistant_utterance}")

    # Format current input
    current_user_prompt_str = remove_spaces_around_token(current_user_prompt_str)
    if current_image is None:
        if "![](" in current_user_prompt_str:
            current_user_prompt_list = split_str_on_im_markdown(current_user_prompt_str)
        else:
            current_user_prompt_list = handle_manual_images_in_user_prompt(
                current_user_prompt_str
            )

        optional_space = ""
        if not is_image(current_user_prompt_list[0]):
            # Check if the first element is an image (and more precisely a path to an image)
            optional_space = " "
        resulting_list.append(f"\nUser:{optional_space}")
        resulting_list.extend(current_user_prompt_list)
        resulting_list.append("<end_of_utterance>\nAssistant:")
    else:
        # Choosing to put the image first when the image is inputted through the UI, but this is an arbiratrary choice.
        resulting_list.extend(
            [
                "\nUser:",
                current_image,
                f"{current_user_prompt_str}<end_of_utterance>\nAssistant:",
            ]
        )
        current_user_prompt_list = [current_user_prompt_str]

    return resulting_list, current_user_prompt_list


def expand_layout():
    return gr.Column(scale=2), gr.Gallery(height=682)


def generate_meme(
    client,
    query,
    image,
    font_meme_text,
    all_caps_meme_text,
    text_at_the_top,
    generation_args,
):
    try:
        text = client.generate(prompt=query, **generation_args).generated_text
    except Exception as e:
        logger.error(f"Error {e} while generating meme text")
        text = ""
    if image is not None and text != "":
        meme_image = make_meme_image(
            image=image,
            text=text,
            font_meme_text=font_meme_text,
            all_caps_meme_text=all_caps_meme_text,
            text_at_the_top=text_at_the_top,
        )
        return meme_image
    else:
        return None


def model_inference(
    model_selector,
    system_prompt,
    user_prompt_str,
    chat_history,
    image,
    decoding_strategy,
    temperature,
    max_new_tokens,
    repetition_penalty,
    top_p,
    all_caps_meme_text,
    text_at_the_top,
    font_meme_text,
):
    chat_history = []
    if user_prompt_str.strip() == "" and image is None:
        return "", None, chat_history

    system_prompt = ast.literal_eval(system_prompt)
    (
        formated_prompt_list,
        user_prompt_list,
    ) = format_user_prompt_with_im_history_and_system_conditioning(
        system_prompt=system_prompt,
        current_user_prompt_str=user_prompt_str.strip(),
        current_image=image,
        history=chat_history,
    )

    client_endpoint = API_PATHS[model_selector]
    client = Client(
        base_url=client_endpoint,
        headers={"x-use-cache": "0", "Authorization": f"Bearer {API_TOKEN}"},
        timeout=45,
    )

    # Common parameters to all decoding strategies
    # This documentation is useful to read: https://huggingface.co/docs/transformers/main/en/generation_strategies
    generation_args = {
        "max_new_tokens": max_new_tokens,
        "repetition_penalty": repetition_penalty,
        "stop_sequences": EOS_STRINGS,
    }

    assert decoding_strategy in [
        "Greedy",
        "Top P Sampling",
    ]
    if decoding_strategy == "Greedy":
        generation_args["do_sample"] = False
    elif decoding_strategy == "Top P Sampling":
        generation_args["temperature"] = temperature
        generation_args["do_sample"] = True
        generation_args["top_p"] = top_p

    chat_history.append([prompt_list_to_markdown(user_prompt_list), ""])

    query = prompt_list_to_tgi_input(formated_prompt_list)
    all_meme_images = []
    with concurrent.futures.ThreadPoolExecutor(max_workers=4) as executor:
        all_meme_images = list(
            executor.map(
                generate_meme,
                [client for _ in range(4)],
                [query for _ in range(4)],
                [image for _ in range(4)],
                [font_meme_text for _ in range(4)],
                [all_caps_meme_text for _ in range(4)],
                [text_at_the_top for _ in range(4)],
                [generation_args for _ in range(4)],
            )
        )
    all_meme_images = [meme for meme in all_meme_images if meme is not None]
    return user_prompt_str, all_meme_images, chat_history


def remove_last_turn(chat_history):
    if len(chat_history) == 0:
        return chat_history, "", ""
    last_interaction = chat_history[-1]
    chat_history = chat_history[:-1]
    chat_update = chat_history
    text_update = last_interaction[0]
    return chat_update, text_update, ""


textbox = gr.Textbox(
    placeholder="Upload an image and ask the AI to create a meme!",
    show_label=False,
    value="Write a meme about this image.",
    visible=True,
    container=False,
    label="Text input",
    scale=8,
    max_lines=5,
)
chatbot = gr.Chatbot(
    elem_id="chatbot",
    label="AI Meme Generator Chatbot",
    visible=False,
    avatar_images=[None, BOT_AVATAR],
)
css = """
.gradio-container{max-width: 1000px!important}
h1{display: flex;align-items: center;justify-content: center;gap: .25em}
*{transition: width 0.5s ease, flex-grow 0.5s ease}
"""
with gr.Blocks(title="AI Meme Generator", theme=gr.themes.Base(), css=css) as demo:
    with gr.Row(scale=0.5):
        gr.HTML(
            """<h1 align="center">AI Meme Generator <span style="font-size: 13px;">powered by <a href="https://huggingface.co/blog/idefics">IDEFICS</a></span><img width=40 height=40 src="https://cdn-uploads.huggingface.co/production/uploads/624bebf604abc7ebb01789af/v770xGti5vH1SYLBgyOO_.png" /></h1>"""
        )

    with gr.Row(elem_id="model_selector_row"):
        model_selector = gr.Dropdown(
            choices=MODELS,
            value="HuggingFaceM4/idefics-80b-instruct",
            interactive=True,
            show_label=False,
            container=False,
            label="Model",
            visible=False,
        )
    with gr.Row(equal_height=True):
        # scale=2 when expanded
        with gr.Column(scale=4, min_width=250) as upload_area:
            imagebox = gr.Image(
                type="filepath", label="Image to meme", height=272, visible=True
            )
            with gr.Group():
                with gr.Row():
                    textbox.render()
                with gr.Row():
                    submit_btn = gr.Button(
                        value="▶️ Submit", visible=True, min_width=120
                    )
                    clear_btn = gr.ClearButton(
                        [textbox, imagebox, chatbot], value="🧹 Clear", min_width=120
                    )
                    regenerate_btn = gr.Button(
                        value="🔄 Regenerate", visible=True, min_width=120
                    )
            with gr.Accordion(
                "Advanced settings", open=False, visible=True
            ) as parameter_row:
                with gr.Row():
                    with gr.Column():
                        all_caps_meme_text = gr.Checkbox(
                            value=True,
                            label="All Caps",
                            interactive=True,
                            info="",
                        )
                        text_at_the_top = gr.Checkbox(
                            value=False,
                            label="Text at the top",
                            interactive=True,
                            info="",
                        )
                    with gr.Column():
                        font_meme_text = gr.Radio(
                            [
                                "impact",
                                "Roboto-Regular",
                            ],
                            value="impact",
                            label="Font",
                            interactive=True,
                            info="",
                        )
                system_prompt = gr.Textbox(
                    value=SYSTEM_PROMPT,
                    visible=False,
                    lines=20,
                    max_lines=50,
                    interactive=True,
                )
                max_new_tokens = gr.Slider(
                    minimum=8,
                    maximum=150,
                    value=90,
                    step=1,
                    interactive=True,
                    label="Maximum number of new tokens to generate",
                )
                repetition_penalty = gr.Slider(
                    minimum=0.0,
                    maximum=5.0,
                    value=1.2,
                    step=0.01,
                    interactive=True,
                    label="Repetition penalty",
                    info="1.0 is equivalent to no penalty",
                )
                decoding_strategy = gr.Radio(
                    [
                        "Greedy",
                        "Top P Sampling",
                    ],
                    value="Top P Sampling",
                    label="Decoding strategy",
                    interactive=True,
                    info="Higher values is equivalent to sampling more low-probability tokens.",
                )
                temperature = gr.Slider(
                    minimum=0.0,
                    maximum=5.0,
                    value=0.6,
                    step=0.1,
                    interactive=True,
                    visible=True,
                    label="Sampling temperature",
                    info="Higher values will produce more diverse outputs.",
                )
                decoding_strategy.change(
                    fn=lambda selection: gr.Slider.update(
                        visible=(
                            selection
                            in [
                                "contrastive_sampling",
                                "beam_sampling",
                                "Top P Sampling",
                                "sampling_top_k",
                            ]
                        )
                    ),
                    inputs=decoding_strategy,
                    outputs=temperature,
                )
                top_p = gr.Slider(
                    minimum=0.01,
                    maximum=0.99,
                    value=0.8,
                    step=0.01,
                    interactive=True,
                    visible=True,
                    label="Top P",
                    info="Higher values is equivalent to sampling more low-probability tokens.",
                )
                decoding_strategy.change(
                    fn=lambda selection: gr.Slider.update(
                        visible=(selection in ["Top P Sampling"])
                    ),
                    inputs=decoding_strategy,
                    outputs=top_p,
                )
        with gr.Column(scale=5) as result_area:
            generated_memes_gallery = gr.Gallery(
                # value="Images generated will appear here",
                label="IDEFICS Generated Memes",
                allow_preview=True,
                elem_id="generated_memes_gallery",
                show_download_button=True,
                show_share_button=True,
                columns=[2],
                object_fit="contain",
                height=428,
            )  # height 600 when expanded
    with gr.Row(equal_height=True):
        with gr.Box(elem_id="gallery_box"):
            gallery_type_choice = gr.Radio(
                [
                    "All",
                    "Meme templates",
                    "Funny images",
                    "Politics",
                ],
                value="All",
                label="Gallery Type",
                interactive=True,
                visible=False,
                info="Choose the type of gallery you want to see.",
            )
            template_gallery = gr.Gallery(
                value=IMAGE_GALLERY_PATHS,
                label="Templates Gallery",
                allow_preview=False,
                columns=6,
                elem_id="gallery",
                show_share_button=False,
                height=400,
            )
    with gr.Row(variant="panel"):
        with gr.Column(scale=1):
            gr.Image(
                IDEFICS_LOGO,
                elem_id="banner-image",
                show_label=False,
                show_download_button=False,
                height=200,
                width=250,
            )
        with gr.Column(scale=5):
            gr.HTML(
                """
                <p><strong>AI Meme Generator</strong> is an AI system that writes humorous content inspired by images, allowing you to make the funniest memes with little effort. Upload your image and ask the Idefics chatbot to make a tailored meme.</p>
                <p>AI Meme Generator is a space inspired from <a href="https://huggingface.co/spaces/HuggingFaceM4/ai_dad_jokes">AI Dad Jokes</a> and powered by <a href="https://huggingface.co/blog/idefics">IDEFICS</a>, an open-access large visual language model developped by Hugging Face. Like GPT-4, the multimodal model accepts arbitrary sequences of image and text inputs and produces text outputs. IDEFICS can answer questions about images, describe visual content, create stories grounded in multiple images, etc.</p>

                <p>⛔️ <strong>Intended uses and limitations:</strong> This demo is provided as research artifact to the community showcasing IDEFICS'capabilities. We detail misuses and out-of-scope uses <a href="https://huggingface.co/HuggingFaceM4/idefics-80b#misuse-and-out-of-scope-use">here</a>. In particular, the system should not be used to engage in harassment, abuse and bullying. The model can produce factually incorrect texts, hallucinate facts (with or without an image) and will struggle with small details in images. While the system will tend to refuse answering questionable user requests, it can produce problematic outputs (including racist, stereotypical, and disrespectful texts), in particular when prompted to do so.</p>
            """
            )
    with gr.Row():
        chatbot.render()

    gr.on(
        triggers=[
            textbox.submit,
            imagebox.upload,
            submit_btn.click,
            template_gallery.select,
            regenerate_btn.click,
        ],
        fn=expand_layout,
        outputs=[upload_area, generated_memes_gallery],
        queue=False,
    ).success(
        fn=lambda: "", inputs=[], outputs=[generated_memes_gallery], queue=False
    ).success(
        fn=model_inference,
        inputs=[
            model_selector,
            system_prompt,
            textbox,
            chatbot,
            imagebox,
            decoding_strategy,
            temperature,
            max_new_tokens,
            repetition_penalty,
            top_p,
            all_caps_meme_text,
            text_at_the_top,
            font_meme_text,
        ],
        outputs=[textbox, generated_memes_gallery, chatbot],
    )

    regenerate_btn.click(
        fn=remove_last_turn,
        inputs=chatbot,
        outputs=[chatbot, textbox, generated_memes_gallery],
        queue=False,
    )

    # gallery_type_choice.change(
    #     fn=choose_gallery,
    #     inputs=[gallery_type_choice],
    #     outputs=[template_gallery],
    #     queue=False,
    # )
    template_gallery.select(
        fn=add_file_gallery,
        inputs=[template_gallery],
        outputs=[textbox, imagebox, generated_memes_gallery],
        queue=False,
    )
    demo.load(
        # fn=choose_gallery,
        # inputs=[gallery_type_choice],
        # outputs=[template_gallery],
        queue=False,
    )
demo.queue(concurrency_count=8, max_size=40, api_open=False)
demo.launch(max_threads=400)