app.py

#!/usr/bin/env python
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
import spaces
import os
import random
import uuid
import gradio as gr
import numpy as np
from PIL import Image
import torch
from diffusers import AutoencoderKL, StableDiffusionXLPipeline, EulerAncestralDiscreteScheduler
from transformers import CLIPTextModelWithProjection, CLIPTextModel
from typing import Tuple
import paramiko
import datetime
from gradio import themes
from image_gen_aux import UpscaleWithModel
from ip_adapter import IPAdapterXL
from huggingface_hub import snapshot_download

torch.backends.cuda.matmul.allow_tf32 = False
torch.backends.cuda.matmul.allow_bf16_reduced_precision_reduction = False
torch.backends.cuda.matmul.allow_fp16_reduced_precision_reduction = False
torch.backends.cudnn.allow_tf32 = False
torch.backends.cudnn.deterministic = False
torch.backends.cudnn.benchmark = False
#torch.backends.cuda.preferred_blas_library="cublas"
# torch.backends.cuda.preferred_linalg_library="cusolver"

torch.set_float32_matmul_precision("highest")
os.putenv("HF_HUB_ENABLE_HF_TRANSFER","1")

FTP_HOST = "1ink.us"
FTP_USER = "ford442"
FTP_PASS = os.getenv("FTP_PASS")
FTP_DIR = "1ink.us/stable_diff/"  # Remote directory on FTP server

DESCRIPTIONXX = """
    ## ⚡⚡⚡⚡ REALVISXL V5.0 BF16 IP Adapter ⚡⚡⚡⚡
"""

examples = [

    "Many apples splashed with drops of water within a fancy bowl 4k, hdr  --v 6.0 --style raw",
    "A profile photo of a dog, brown background, shot on Leica M6 --ar 128:85 --v 6.0 --style raw",
]

MAX_IMAGE_SIZE = int(os.getenv("MAX_IMAGE_SIZE", "4096"))

BATCH_SIZE = int(os.getenv("BATCH_SIZE", "1"))

device = torch.device("cuda:0")

style_list = [
    {
        "name": "3840 x 2160",
        "prompt": "hyper-realistic 8K image of {prompt}. ultra-detailed, lifelike, high-resolution, sharp, vibrant colors, photorealistic",
        "negative_prompt": "cartoonish, low resolution, blurry, simplistic, abstract, deformed, ugly",
    },
    {
        "name": "2560 x 1440",
        "prompt": "hyper-realistic 4K image of {prompt}. ultra-detailed, lifelike, high-resolution, sharp, vibrant colors, photorealistic",
        "negative_prompt": "cartoonish, low resolution, blurry, simplistic, abstract, deformed, ugly",
    },
    {
        "name": "HD+",
        "prompt": "hyper-realistic 2K image of {prompt}. ultra-detailed, lifelike, high-resolution, sharp, vibrant colors, photorealistic",
        "negative_prompt": "cartoonish, low resolution, blurry, simplistic, abstract, deformed, ugly",
    },
    {
        "name": "Style Zero",
        "prompt": "{prompt}",
        "negative_prompt": "",
    },
]

styles = {k["name"]: (k["prompt"], k["negative_prompt"]) for k in style_list}
DEFAULT_STYLE_NAME = "Style Zero"
STYLE_NAMES = list(styles.keys())
HF_TOKEN = os.getenv("HF_TOKEN")

## load IP Adapter
repo_id = "ford442/SDXL-IP_ADAPTER"
subfolder = "image_encoder"
subfolder2 = "ip_adapter"
local_repo_path = snapshot_download(repo_id=repo_id, repo_type="model")
local_folder = os.path.join(local_repo_path, subfolder)
local_folder2 = os.path.join(local_repo_path, subfolder2) # Path to the ip_adapter dir
ip_ckpt = os.path.join(local_folder2, "ip-adapter_sdxl_vit-h.bin") # Correct path

upscaler = UpscaleWithModel.from_pretrained("Kim2091/ClearRealityV1").to(torch.device("cuda:0"))

def apply_style(style_name: str, positive: str, negative: str = "") -> Tuple[str, str]:
    if style_name in styles:
        p, n = styles.get(style_name, styles[DEFAULT_STYLE_NAME])
    else:
        p, n = styles[DEFAULT_STYLE_NAME]
    if not negative:
        negative = ""
    return p.replace("{prompt}", positive), n + negative

def load_and_prepare_model():
    #vae = AutoencoderKL.from_pretrained("ford442/sdxl-vae-bf16", safety_checker=None)
    vaeX = AutoencoderKL.from_pretrained("stabilityai/sdxl-vae", safety_checker=None, use_safetensors=False, low_cpu_mem_usage=False, torch_dtype=torch.float32, token=True) #.to(device).to(torch.bfloat16) #.to(device=device, dtype=torch.bfloat16)
    pipe = StableDiffusionXLPipeline.from_pretrained(
        'ford442/RealVisXL_V5.0_BF16',
       #'ford442/Juggernaut-XI-v11-fp32',
      #   'SG161222/RealVisXL_V5.0',
        #'John6666/uber-realistic-porn-merge-xl-urpmxl-v3-sdxl',
        #torch_dtype=torch.bfloat16,
        add_watermarker=False,
       # custom_pipeline="lpw_stable_diffusion_xl",
        #use_safetensors=True,
        token=HF_TOKEN,
        text_encoder=None,
        text_encoder_2=None,
        vae=None,
    )
    
    '''
    scaling_factor (`float`, *optional*, defaults to 0.18215):
            The component-wise standard deviation of the trained latent space computed using the first batch of the
            training set. This is used to scale the latent space to have unit variance when training the diffusion
            model. The latents are scaled with the formula `z = z * scaling_factor` before being passed to the
            diffusion model. When decoding, the latents are scaled back to the original scale with the formula: `z = 1
            / scaling_factor * z`. For more details, refer to sections 4.3.2 and D.1 of the [High-Resolution Image
            Synthesis with Latent Diffusion Models](https://arxiv.org/abs/2112.10752) paper.
        force_upcast (`bool`, *optional*, default to `True`):
            If enabled it will force the VAE to run in float32 for high image resolution pipelines, such as SD-XL. VAE
            can be fine-tuned / trained to a lower range without loosing too much precision in which case
            `force_upcast` can be set to `False` - see: https://huggingface.co/madebyollin/sdxl-vae-fp16-fix
        
    '''
    pipe.vae=vaeX
    pipe.to(device=device, dtype=torch.bfloat16)
    #pipe.vae.to(device=device, dtype=torch.bfloat16)
    #pipe.vae.do_resize=False
    #pipe.vae.do_rescale=False
    #pipe.vae.do_convert_rgb=True
    #pipe.vae.vae_scale_factor=8    #pipe.unet.set_default_attn_processor()
    pipe.vae.set_default_attn_processor()
    print(f'Pipeline: ')
    #print(f'_optional_components: {pipe._optional_components}')
    #print(f'watermark: {pipe.watermark}')
    print(f'image_processor: {pipe.image_processor}')
    #print(f'feature_extractor: {pipe.feature_extractor}')
    print(f'init noise scale: {pipe.scheduler.init_noise_sigma}')
    #print(f'UNET: {pipe.unet}')
    pipe.watermark=None
    pipe.safety_checker=None  
    return pipe
    
# Preload and compile both models
pipe = load_and_prepare_model()
ip_model = IPAdapterXL(pipe, local_folder, ip_ckpt, device)
text_encoder=CLIPTextModel.from_pretrained('ford442/RealVisXL_V5.0_BF16', subfolder='text_encoder',token=True).to(device=device, dtype=torch.bfloat16)
text_encoder_2=CLIPTextModelWithProjection.from_pretrained('ford442/RealVisXL_V5.0_BF16', subfolder='text_encoder_2',token=True).to(device=device, dtype=torch.bfloat16)
   
MAX_SEED = np.iinfo(np.int32).max

neg_prompt_2 = " 'non-photorealistic':1.5, 'unrealistic skin','unattractive face':1.3, 'low quality':1.1, ('dull color scheme', 'dull colors', 'digital noise':1.2),'amateurish', 'poorly drawn face':1.3, 'poorly drawn', 'distorted face', 'low resolution', 'simplistic' "

def upload_to_ftp(filename):
    try:
        transport = paramiko.Transport((FTP_HOST, 22))
        destination_path=FTP_DIR+filename
        transport.connect(username = FTP_USER, password = FTP_PASS)
        sftp = paramiko.SFTPClient.from_transport(transport)
        sftp.put(filename, destination_path)
        sftp.close()
        transport.close()
        print(f"Uploaded {filename} to FTP server")
    except Exception as e:
        print(f"FTP upload error: {e}")
        
def save_image(img):
    unique_name = str(uuid.uuid4()) + ".png"
    img.save(unique_name,optimize=False,compress_level=0)
    return unique_name

def uploadNote(prompt,num_inference_steps,guidance_scale,timestamp):
    filename= f'IP_{timestamp}.txt'
    with open(filename, "w") as f:
        f.write(f"Realvis 5.0 IP Adapter \n")
        f.write(f"Date/time: {timestamp} \n")
        f.write(f"Prompt: {prompt} \n")
        f.write(f"Steps: {num_inference_steps} \n")
        f.write(f"Guidance Scale: {guidance_scale} \n")
        f.write(f"SPACE SETUP: \n")
        f.write(f"Use Model Dtype: no \n")
        f.write(f"Model Scheduler: Euler_a all_custom before cuda \n")
        f.write(f"Model VAE: sdxl-vae to bfloat safetensor=false before cuda then attn_proc / scale factor 8 \n")
        f.write(f"Model UNET: ford442/RealVisXL_V5.0_BF16 \n")
    upload_to_ftp(filename) 
    
@spaces.GPU(duration=40)
def generate_30(
    prompt: str = "",
    negative_prompt: str = "",
    use_negative_prompt: bool = False,
    style_selection: str = "",
    width: int = 768,
    height: int = 768,
    guidance_scale: float = 4,
    num_inference_steps: int = 125,
    latent_file = gr.File(),  # Add latents file input
    latent_file_2 = gr.File(),  # Add latents file input
    latent_file_3 = gr.File(),  # Add latents file input
    latent_file_4 = gr.File(),  # Add latents file input
    latent_file_5 = gr.File(),  # Add latents file input
    text_scale: float = 1.0,
    ip_scale: float = 1.0,
    latent_file_1_scale: float = 1.0,
    latent_file_2_scale: float = 1.0,
    latent_file_3_scale: float = 1.0,
    latent_file_4_scale: float = 1.0,
    latent_file_5_scale: float = 1.0,
    samples=1,
    progress=gr.Progress(track_tqdm=True)  # Add progress as a keyword argument
):
    pipe.text_encoder=text_encoder
    pipe.text_encoder_2=text_encoder_2
    seed = random.randint(0, MAX_SEED)
    generator = torch.Generator(device='cuda').manual_seed(seed)
    if latent_file is not None:  # Check if a latent file is provided
        sd_image_a = Image.open(latent_file.name).convert('RGB')
        sd_image_a.resize((height,width), Image.LANCZOS)
        if latent_file_2 is not None:  # Check if a latent file is provided
            sd_image_b = Image.open(latent_file_2.name).convert('RGB')
            sd_image_b.resize((height,width), Image.LANCZOS)
        else:
            sd_image_b = None
        if latent_file_3 is not None:  # Check if a latent file is provided
            sd_image_c = Image.open(latent_file_3.name).convert('RGB')
            sd_image_c.resize((height,width), Image.LANCZOS)
        else:
            sd_image_c = None
        if latent_file_4 is not None:  # Check if a latent file is provided
            sd_image_d = Image.open(latent_file_4.name).convert('RGB')
            sd_image_d.resize((height,width), Image.LANCZOS)
        else:
            sd_image_d = None
        if latent_file_5 is not None:  # Check if a latent file is provided
            sd_image_e = Image.open(latent_file_5.name).convert('RGB')
            sd_image_e.resize((height,width), Image.LANCZOS)
        else:
            sd_image_e = None
        timestamp = datetime.datetime.now().strftime("%Y%m%d_%H%M%S")
        filename= f'rv_IP_{timestamp}.png'
        print("-- using image file --")
        print('-- generating image --')
        sd_image = ip_model.generate(
                pil_image_1=sd_image_a,
                pil_image_2=sd_image_b,
                pil_image_3=sd_image_c,
                pil_image_4=sd_image_d,
                pil_image_5=sd_image_e,
                prompt=prompt,
                negative_prompt=negative_prompt,
                text_scale=text_scale,
                ip_scale=ip_scale,
                scale_1=latent_file_1_scale,
                scale_2=latent_file_2_scale,
                scale_3=latent_file_3_scale,
                scale_4=latent_file_4_scale,
                scale_5=latent_file_5_scale,
                num_samples=samples,
                seed=seed,
                num_inference_steps=num_inference_steps,
                guidance_scale=guidance_scale,
        )
        sd_image[0].save(filename,optimize=False,compress_level=0)
        upload_to_ftp(filename)
        uploadNote(prompt,num_inference_steps,guidance_scale,timestamp)
        torch.set_float32_matmul_precision("medium")
        with torch.no_grad():
            upscale = upscaler(sd_image, tiling=True, tile_width=256, tile_height=256)
        downscale1 = upscale.resize((upscale.width // 4, upscale.height // 4), Image.LANCZOS)
        downscale_path = f"rvIP_upscale_{timestamp}.png"
        downscale1.save(downscale_path,optimize=False,compress_level=0)
        upload_to_ftp(downscale_path) 
        image_paths = [save_image(downscale1)]     
    else:
        print('-- IMAGE REQUIRED --')
    return image_paths

@spaces.GPU(duration=70)
def generate_60(
    prompt: str = "",
    negative_prompt: str = "",
    use_negative_prompt: bool = False,
    style_selection: str = "",
    width: int = 768,
    height: int = 768,
    guidance_scale: float = 4,
    num_inference_steps: int = 125,
    latent_file = gr.File(),  # Add latents file input
    latent_file_2 = gr.File(),  # Add latents file input
    latent_file_3 = gr.File(),  # Add latents file input
    latent_file_4 = gr.File(),  # Add latents file input
    latent_file_5 = gr.File(),  # Add latents file input
    text_scale: float = 1.0,
    ip_scale: float = 1.0,
    latent_file_1_scale: float = 1.0,
    latent_file_2_scale: float = 1.0,
    latent_file_3_scale: float = 1.0,
    latent_file_4_scale: float = 1.0,
    latent_file_5_scale: float = 1.0,
    samples=1,
    progress=gr.Progress(track_tqdm=True)  # Add progress as a keyword argument
):
    pipe.text_encoder=text_encoder
    pipe.text_encoder_2=text_encoder_2
    seed = random.randint(0, MAX_SEED)
    generator = torch.Generator(device='cuda').manual_seed(seed)
    if latent_file is not None:  # Check if a latent file is provided
        sd_image_a = Image.open(latent_file.name)
        if latent_file_2 is not None:  # Check if a latent file is provided
            sd_image_b = Image.open(latent_file_2.name)
            sd_image_b.resize((height,width), Image.LANCZOS)
        else:
            sd_image_b = None
        if latent_file_3 is not None:  # Check if a latent file is provided
            sd_image_c = Image.open(latent_file_3.name)
            sd_image_c.resize((height,width), Image.LANCZOS)
        else:
            sd_image_c = None
        if latent_file_4 is not None:  # Check if a latent file is provided
            sd_image_d = Image.open(latent_file_4.name)
            sd_image_d.resize((height,width), Image.LANCZOS)
        else:
            sd_image_d = None
        if latent_file_5 is not None:  # Check if a latent file is provided
            sd_image_e = Image.open(latent_file_5.name)
            sd_image_e.resize((height,width), Image.LANCZOS)
        else:
            sd_image_e = None
        timestamp = datetime.datetime.now().strftime("%Y%m%d_%H%M%S")
        filename= f'rv_IP_{timestamp}.png'
        print("-- using image file --")
        print('-- generating image --')
        sd_image = ip_model.generate(
                pil_image_1=sd_image_a,
                pil_image_2=sd_image_b,
                pil_image_3=sd_image_c,
                pil_image_4=sd_image_d,
                pil_image_5=sd_image_e,
                prompt=prompt,
                negative_prompt=negative_prompt,
                text_scale=text_scale,
                ip_scale=ip_scale,
                scale_1=latent_file_1_scale,
                scale_2=latent_file_2_scale,
                scale_3=latent_file_3_scale,
                scale_4=latent_file_4_scale,
                scale_5=latent_file_5_scale,
                num_samples=samples,
                seed=seed,
                num_inference_steps=num_inference_steps,
                guidance_scale=guidance_scale,
        )
        sd_image[0].save(filename,optimize=False,compress_level=0)
        upload_to_ftp(filename)
        uploadNote(prompt,num_inference_steps,guidance_scale,timestamp)
        torch.set_float32_matmul_precision("medium")
        with torch.no_grad():
            upscale = upscaler(sd_image, tiling=True, tile_width=256, tile_height=256)
        downscale1 = upscale.resize((upscale.width // 4, upscale.height // 4), Image.LANCZOS)
        downscale_path = f"rvIP_upscale_{timestamp}.png"
        downscale1.save(downscale_path,optimize=False,compress_level=0)
        upload_to_ftp(downscale_path) 
        image_paths = [save_image(downscale1)]     
    else:
        print('-- IMAGE REQUIRED --')
    return image_paths

@spaces.GPU(duration=100)
def generate_90(
    prompt: str = "",
    negative_prompt: str = "",
    use_negative_prompt: bool = False,
    style_selection: str = "",
    width: int = 768,
    height: int = 768,
    guidance_scale: float = 4,
    num_inference_steps: int = 125,
    latent_file = gr.File(),  # Add latents file input
    latent_file_2 = gr.File(),  # Add latents file input
    latent_file_3 = gr.File(),  # Add latents file input
    latent_file_4 = gr.File(),  # Add latents file input
    latent_file_5 = gr.File(),  # Add latents file input
    text_scale: float = 1.0,
    ip_scale: float = 1.0,
    latent_file_1_scale: float = 1.0,
    latent_file_2_scale: float = 1.0,
    latent_file_3_scale: float = 1.0,
    latent_file_4_scale: float = 1.0,
    latent_file_5_scale: float = 1.0,
    samples=1,
    progress=gr.Progress(track_tqdm=True)  # Add progress as a keyword argument
):
    pipe.text_encoder=text_encoder
    pipe.text_encoder_2=text_encoder_2
    seed = random.randint(0, MAX_SEED)
    generator = torch.Generator(device='cuda').manual_seed(seed)
    if latent_file is not None:  # Check if a latent file is provided
        sd_image_a = Image.open(latent_file.name)
        if latent_file_2 is not None:  # Check if a latent file is provided
            sd_image_b = Image.open(latent_file_2.name)
            sd_image_b.resize((height,width), Image.LANCZOS)
        else:
            sd_image_b = None
        if latent_file_3 is not None:  # Check if a latent file is provided
            sd_image_c = Image.open(latent_file_3.name)
            sd_image_c.resize((height,width), Image.LANCZOS)
        else:
            sd_image_c = None
        if latent_file_4 is not None:  # Check if a latent file is provided
            sd_image_d = Image.open(latent_file_4.name)
            sd_image_d.resize((height,width), Image.LANCZOS)
        else:
            sd_image_d = None
        if latent_file_5 is not None:  # Check if a latent file is provided
            sd_image_e = Image.open(latent_file_5.name)
            sd_image_e.resize((height,width), Image.LANCZOS)
        else:
            sd_image_e = None
        timestamp = datetime.datetime.now().strftime("%Y%m%d_%H%M%S")
        filename= f'rv_IP_{timestamp}.png'
        print("-- using image file --")
        print('-- generating image --')
        #with torch.no_grad():
        sd_image = ip_model.generate(
                pil_image_1=sd_image_a,
                pil_image_2=sd_image_b,
                pil_image_3=sd_image_c,
                pil_image_4=sd_image_d,
                pil_image_5=sd_image_e,
                prompt=prompt,
                negative_prompt=negative_prompt,
                text_scale=text_scale,
                ip_scale=ip_scale,
                scale_1=latent_file_1_scale,
                scale_2=latent_file_2_scale,
                scale_3=latent_file_3_scale,
                scale_4=latent_file_4_scale,
                scale_5=latent_file_5_scale,
                num_samples=samples,
                seed=seed,
                num_inference_steps=num_inference_steps,
                guidance_scale=guidance_scale,
        )
        sd_image[0].save(filename,optimize=False,compress_level=0)
        upload_to_ftp(filename)
        uploadNote(prompt,num_inference_steps,guidance_scale,timestamp)
        torch.set_float32_matmul_precision("medium")
        with torch.no_grad():
            upscale = upscaler(sd_image, tiling=True, tile_width=256, tile_height=256)
        downscale1 = upscale.resize((upscale.width // 4, upscale.height // 4), Image.LANCZOS)
        downscale_path = f"rvIP_upscale_{timestamp}.png"
        downscale1.save(downscale_path,optimize=False,compress_level=0)
        upload_to_ftp(downscale_path) 
        image_paths = [save_image(downscale1)]     
    else:
        print('-- IMAGE REQUIRED --')
    return image_paths

def load_predefined_images1():
    predefined_images1 = [
        "assets/7.png",
        "assets/8.png",
        "assets/9.png",
        "assets/1.png",
        "assets/2.png",
        "assets/3.png",
        "assets/4.png",
        "assets/5.png",
        "assets/6.png",
    ]
    return predefined_images1

css = '''
#col-container {
    margin: 0 auto;
    max-width: 640px;
}
h1{text-align:center}
footer {
    visibility: hidden
}
body {
  background-color: green;
}
'''

with gr.Blocks(theme=gr.themes.Origin(),css=css) as demo:
    gr.Markdown(DESCRIPTIONXX)
    with gr.Row():
        prompt = gr.Text(
            label="Prompt",
            show_label=False,
            max_lines=1,
            placeholder="Enter your prompt",
            container=False,
        )
        text_strength =  gr.Slider(
            label="Text Strength",
            minimum=0.0,
            maximum=16.0,
            step=0.01,
            value=1.0,
        )
        run_button_30 = gr.Button("Run 30 Seconds", scale=0)
        run_button_60 = gr.Button("Run 60 Seconds", scale=0)
        run_button_90 = gr.Button("Run 90 Seconds", scale=0)
    result = gr.Gallery(label="Result", columns=1, show_label=False) 
    ip_strength =  gr.Slider(
            label="Image Strength",
            minimum=0.0,
            maximum=16.0,
            step=0.01,
            value=1.0,
    )
    with gr.Row():
        latent_file = gr.File(label="Image Prompt (Required)")
        file_1_strength =  gr.Slider(
            label="Img 1 %",
            minimum=0.0,
            maximum=16.0,
            step=0.01,
            value=1.0,
        )
        latent_file_2 = gr.File(label="Image Prompt 2 (Optional)")
        file_2_strength =  gr.Slider(
            label="Img 2 %",
            minimum=0.0,
            maximum=16.0,
            step=0.01,
            value=1.0,
        )
        latent_file_3 = gr.File(label="Image Prompt 3 (Optional)")
        file_3_strength =  gr.Slider(
            label="Img 3 %",
            minimum=0.0,
            maximum=16.0,
            step=0.01,
            value=1.0,
        )
        latent_file_4 = gr.File(label="Image Prompt 4 (Optional)")
        file_4_strength =  gr.Slider(
            label="Img 4 %",
            minimum=0.0,
            maximum=16.0,
            step=0.01,
            value=1.0,
        )
        latent_file_5 = gr.File(label="Image Prompt 5 (Optional)")
        file_5_strength =  gr.Slider(
            label="Img 5 %",
            minimum=0.0,
            maximum=16.0,
            step=0.01,
            value=1.0,
        )
        style_selection = gr.Radio(
            show_label=True,
            container=True,
            interactive=True,
            choices=STYLE_NAMES,
            value=DEFAULT_STYLE_NAME,
            label="Quality Style",
        )
        with gr.Row():
            with gr.Column(scale=1):
                use_negative_prompt = gr.Checkbox(label="Use negative prompt", value=True)
                negative_prompt = gr.Text(
                    label="Negative prompt",
                    max_lines=5,
                    lines=4,
                    placeholder="Enter a negative prompt",
                    value="('deformed', 'distorted', 'disfigured':1.3),'not photorealistic':1.5, 'poorly drawn', 'bad anatomy', 'wrong anatomy', 'extra limb', 'missing limb', 'floating limbs', 'poorly drawn hands', 'poorly drawn feet', 'poorly drawn face':1.3, 'out of frame', 'extra limbs', 'bad anatomy', 'bad art', 'beginner',  'distorted face','amateur'",
                    visible=True,
                )
        samples = gr.Slider(
            label="Samples",
            minimum=0,
            maximum=20,
            step=1,
            value=1,
        )
        randomize_seed = gr.Checkbox(label="Randomize seed", value=True)
        with gr.Row():
            width = gr.Slider(
                label="Width",
                minimum=448,
                maximum=MAX_IMAGE_SIZE,
                step=64,
                value=768,
            )
            height = gr.Slider(
                label="Height",
                minimum=448,
                maximum=MAX_IMAGE_SIZE,
                step=64,
                value=768,
            )
        with gr.Row():
            guidance_scale = gr.Slider(
                label="Guidance Scale",
                minimum=0.1,
                maximum=30,
                step=0.1,
                value=3.8,
            )
            num_inference_steps = gr.Slider(
                label="Number of inference steps",
                minimum=10,
                maximum=1000,
                step=10,
                value=170,
            )

    gr.Examples(
        examples=examples,
        inputs=prompt,
        cache_examples=False
    )

    use_negative_prompt.change(
        fn=lambda x: gr.update(visible=x),
        inputs=use_negative_prompt,
        outputs=negative_prompt,
        api_name=False,
    )
    
    gr.on(
        triggers=[
            run_button_30.click,
        ],
      #  api_name="generate",  # Add this line
        fn=generate_30,
        inputs=[
            prompt,
            negative_prompt,
            use_negative_prompt,
            style_selection,
            width,
            height,
            guidance_scale,
            num_inference_steps,
            latent_file,
            latent_file_2,
            latent_file_3,
            latent_file_4,
            latent_file_5,
            text_strength,
            ip_strength,
            file_1_strength,
            file_2_strength,
            file_3_strength,
            file_4_strength,
            file_5_strength,
            samples,
        ],
        outputs=[result],
    )
    
    gr.on(
        triggers=[
            run_button_60.click,
        ],
      #  api_name="generate",  # Add this line
        fn=generate_60,
        inputs=[
            prompt,
            negative_prompt,
            use_negative_prompt,
            style_selection,
            width,
            height,
            guidance_scale,
            num_inference_steps,
            latent_file,
            latent_file_2,
            latent_file_3,
            latent_file_4,
            latent_file_5,
            text_strength,
            ip_strength,
            file_1_strength,
            file_2_strength,
            file_3_strength,
            file_4_strength,
            file_5_strength,
            samples,
        ],
        outputs=[result],
    )
    
    gr.on(
        triggers=[
            run_button_90.click,
        ],
      #  api_name="generate",  # Add this line
        fn=generate_90,
        inputs=[
            prompt,
            negative_prompt,
            use_negative_prompt,
            style_selection,
            width,
            height,
            guidance_scale,
            num_inference_steps,
            latent_file,
            latent_file_2,
            latent_file_3,
            latent_file_4,
            latent_file_5,
            text_strength,
            ip_strength,
            file_1_strength,
            file_2_strength,
            file_3_strength,
            file_4_strength,
            file_5_strength,
            samples,
        ],
        outputs=[result],
    )

    gr.Markdown("### REALVISXL V5.0")
    predefined_gallery = gr.Gallery(label="REALVISXL V5.0", columns=3, show_label=False, value=load_predefined_images1())

    #gr.Markdown("### LIGHTNING V5.0")
    #predefined_gallery = gr.Gallery(label="LIGHTNING V5.0", columns=3, show_label=False, value=load_predefined_images())

    gr.Markdown(
    """
    <div style="text-align: justify;">
    ⚡Models used in the playground <a href="https://huggingface.co/SG161222/RealVisXL_V5.0">[REALVISXL V5.0]</a>, <a href="https://huggingface.co/SG161222/RealVisXL_V5.0_Lightning">[REALVISXL V5.0 LIGHTNING]</a> for image generation. Stable Diffusion XL piped (SDXL) model HF. This is the demo space for generating images using the Stable Diffusion XL models, with multiple different variants available.
    </div>
    """)

    gr.Markdown(
    """
    <div style="text-align: justify;">
    ⚡This is the demo space for generating images using Stable Diffusion XL with quality styles, different models, and types. Try the sample prompts to generate higher quality images. Try the sample prompts for generating higher quality images. 
    <a href='https://huggingface.co/spaces/prithivMLmods/Top-Prompt-Collection' target='_blank'>Try prompts</a>.
    </div>
    """)

    gr.Markdown(
    """
    <div style="text-align: justify;">
    ⚠️ Users are accountable for the content they generate and are responsible for ensuring it meets appropriate ethical standards.
    </div>
    """) 

def text_generation(input_text, seed):
    full_prompt = "Text Generator Application by ecarbo"
    return full_prompt
    
title = "Text Generator Demo GPT-Neo"
description = "Text Generator Application by ecarbo"

if __name__ == "__main__":
    demo_interface = demo.queue(max_size=50)  # Remove .launch() here
    text_gen_interface = gr.Interface(
        fn=text_generation,
        inputs=[
            gr.Textbox(lines=1, label="Expand the following prompt to be more detailed and descriptive for image generation: "),
            gr.Number(value=10, label="Enter seed number")
        ],
        outputs=gr.Textbox(label="Text Generated"),
        title=title,
        description=description,
    )
    combined_interface = gr.TabbedInterface([demo_interface, text_gen_interface], ["Image Generation", "Text Generation"])
    combined_interface.launch(show_api=False)