import numpy as np import gradio as gr import requests import random import time import json import base64 import os from io import BytesIO import math import PIL from PIL import Image from PIL.ExifTags import TAGS import html import re from threading import Thread class Prodia: def __init__(self, api_key, base=None): self.base = base or "https://api.prodia.com/v1" self.headers = { "X-Prodia-Key": api_key } def generate(self, params): response = self._post(f"{self.base}/sd/generate", params) return response.json() def transform(self, params): response = self._post(f"{self.base}/sd/transform", params) return response.json() def controlnet(self, params): response = self._post(f"{self.base}/sd/controlnet", params) return response.json() def get_job(self, job_id): response = self._get(f"{self.base}/job/{job_id}") return response.json() def wait(self, job): job_result = job while job_result['status'] not in ['succeeded', 'failed']: time.sleep(0.25) job_result = self.get_job(job['job']) return job_result def list_models(self): response = self._get(f"{self.base}/sd/models") return response.json() def list_loras(self): response = self._get(f"{self.base}/sd/loras") return response.json() def _post(self, url, params): headers = { **self.headers, "Content-Type": "application/json" } response = requests.post(url, headers=headers, data=json.dumps(params)) if response.status_code != 200: raise Exception(f"Bad Prodia Response: {response.status_code}") return response def _get(self, url): response = requests.get(url, headers=self.headers) if response.status_code != 200: raise Exception(f"Bad Prodia Response: {response.status_code}") return response def image_to_base64(image_path): # Open the image with PIL with Image.open(image_path) as image: # Convert the image to bytes buffered = BytesIO() image.save(buffered, format="PNG") # You can change format to PNG if needed # Encode the bytes to base64 img_str = base64.b64encode(buffered.getvalue()) return img_str.decode('utf-8') # Convert bytes to string def remove_id_and_ext(text): text = re.sub(r'\[.*\]$', '', text) extension = text[-12:].strip() if extension == "safetensors": text = text[:-13] elif extension == "ckpt": text = text[:-4] return text def place_lora(current_prompt, lorabtn): if f"" in current_prompt: result = current_prompt.replace(f"", "") else: result = f"{current_prompt}, " return result def create_grid(image_urls): # Download first image to get size response = requests.get(image_urls[0]) img_data = response.content img = Image.open(BytesIO(img_data)) w, h = img.size # Calculate rows and cols num_images = len(image_urls) num_cols = min(num_images, 3) num_rows = math.ceil(num_images / num_cols) # Create new rgba image grid_w = num_cols * w grid_h = num_rows * h grid = Image.new('RGBA', (grid_w, grid_h), (0, 0, 0, 0)) # Download images and paste into grid for index, img_url in enumerate(image_urls): response = requests.get(img_url) img_data = response.content img = Image.open(BytesIO(img_data)) row = index // num_cols col = index % num_cols grid.paste(img, (col * w, row * h)) # Save image return grid def get_data(text): results = {} patterns = { 'prompt': r'(.*)', 'negative_prompt': r'Negative prompt: (.*)', 'steps': r'Steps: (\d+),', 'seed': r'Seed: (\d+),', 'sampler': r'Sampler:\s*([^\s,]+(?:\s+[^\s,]+)*)', 'model': r'Model:\s*([^\s,]+)', 'cfg_scale': r'CFG scale:\s*([\d\.]+)', 'size': r'Size:\s*([0-9]+x[0-9]+)' } for key in ['prompt', 'negative_prompt', 'steps', 'seed', 'sampler', 'model', 'cfg_scale', 'size']: match = re.search(patterns[key], text) if match: results[key] = match.group(1) else: results[key] = None if results['size'] is not None: w, h = results['size'].split("x") results['w'] = w results['h'] = h else: results['w'] = None results['h'] = None return results def send_to_txt2img(image): result = {tabs: gr.Tabs.update(selected="t2i")} try: text = image.info['parameters'] data = get_data(text) result[prompt] = gr.update(value=data['prompt']) result[negative_prompt] = gr.update(value=data['negative_prompt']) if data[ 'negative_prompt'] is not None else gr.update() result[steps] = gr.update(value=int(data['steps'])) if data['steps'] is not None else gr.update() result[seed] = gr.update(value=int(data['seed'])) if data['seed'] is not None else gr.update() result[cfg_scale] = gr.update(value=float(data['cfg_scale'])) if data['cfg_scale'] is not None else gr.update() result[width] = gr.update(value=int(data['w'])) if data['w'] is not None else gr.update() result[height] = gr.update(value=int(data['h'])) if data['h'] is not None else gr.update() result[sampler] = gr.update(value=data['sampler']) if data['sampler'] is not None else gr.update() if data['model'] in model_names: result[model] = gr.update(value=model_names[data['model']]) else: result[model] = gr.update() return result except Exception as e: print(e) result[prompt] = gr.update() result[negative_prompt] = gr.update() result[steps] = gr.update() result[seed] = gr.update() result[cfg_scale] = gr.update() result[width] = gr.update() result[height] = gr.update() result[sampler] = gr.update() result[model] = gr.update() return result prodia_client = Prodia(api_key=os.getenv("PRODIA_API_KEY")) model_list = prodia_client.list_models() model_names = {} for model_name in model_list: name_without_ext = remove_id_and_ext(model_name) model_names[name_without_ext] = model_name def flip_text(prompt, negative_prompt, model, steps, sampler, cfg_scale, width, height, seed, batch_size, batch_count, gallery): data = { "prompt": prompt, "negative_prompt": negative_prompt, "model": model, "steps": steps, "sampler": sampler, "cfg_scale": cfg_scale, "width": width, "height": height, "seed": seed, "upscale": True } total_images = [] count_threads = [] def generate_one_grid(): grid_images = [] size_threads = [] def generate_one_image(): result = prodia_client.generate(data) job = prodia_client.wait(result) grid_images.append(job['imageUrl']) for y in range(batch_size): t = Thread(target=generate_one_image) size_threads.append(t) t.start() for t in size_threads: t.join() total_images.append(create_grid(grid_images)) for x in range(batch_count): t = Thread(target=generate_one_grid) count_threads.append(t) t.start() for t in count_threads: t.join() new_images_list = [img['name'] for img in gallery] for image in total_images: new_images_list.insert(0, image) return {image_output: total_images, gallery_obj: new_images_list} css = """ #generate { height: 100%; } """ with gr.Blocks(css=css) as demo: with gr.Row(): with gr.Column(scale=6): model = gr.Dropdown(interactive=True, value="absolutereality_v181.safetensors [3d9d4d2b]", show_label=True, label="Stable Diffusion Checkpoint", choices=prodia_client.list_models()) with gr.Column(scale=1): gr.Markdown(elem_id="powered-by-prodia", value="AUTOMATIC1111 Stable Diffusion Web UI.
Powered by [Prodia](https://prodia.com).
For more features and faster gen times check out our [API Docs](https://docs.prodia.com/reference/getting-started-guide)") with gr.Tabs() as tabs: with gr.Tab("txt2img", id='t2i'): with gr.Row(): with gr.Column(scale=6, min_width=600): prompt = gr.Textbox("space warrior, beautiful, female, ultrarealistic, soft lighting, 8k", placeholder="Prompt", show_label=False, lines=3) negative_prompt = gr.Textbox(placeholder="Negative Prompt", show_label=False, lines=3, value="3d, cartoon, anime, (deformed eyes, nose, ears, nose), bad anatomy, ugly") with gr.Column(): text_button = gr.Button("Generate", variant='primary', elem_id="generate") with gr.Row(): with gr.Column(scale=3): with gr.Tab("Generation"): with gr.Row(): with gr.Column(scale=1): sampler = gr.Dropdown(value="Euler a", show_label=True, label="Sampling Method", choices=[ "Euler", "Euler a", "LMS", "Heun", "DPM2", "DPM2 a", "DPM++ 2S a", "DPM++ 2M", "DPM++ SDE", "DPM fast", "DPM adaptive", "LMS Karras", "DPM2 Karras", "DPM2 a Karras", "DPM++ 2S a Karras", "DPM++ 2M Karras", "DPM++ SDE Karras", "DDIM", "PLMS", ]) with gr.Column(scale=1): steps = gr.Slider(label="Sampling Steps", minimum=1, maximum=30, value=25, step=1) with gr.Row(): with gr.Column(scale=1): width = gr.Slider(label="Width", maximum=1024, value=512, step=8) height = gr.Slider(label="Height", maximum=1024, value=512, step=8) with gr.Column(scale=1): batch_size = gr.Slider(label="Batch Size", minimum=1, maximum=9, value=1, step=1) batch_count = gr.Slider(label="Batch Count", minimum=1, maximum=100, value=1, step=1) cfg_scale = gr.Slider(label="CFG Scale", minimum=1, maximum=20, value=7, step=1) seed = gr.Number(label="Seed", value=-1) with gr.Tab("Lora"): loralist = prodia_client.list_loras() with gr.Row(): for lora in loralist: lora_btn = gr.Button(lora) lora_btn.click(place_lora, inputs=[lora_btn], outputs=prompt) with gr.Column(scale=2): image_output = gr.Gallery(value=["https://images.prodia.xyz/8ede1a7c-c0ee-4ded-987d-6ffed35fc477.png"], preview=True) with gr.Tab("PNG Info"): def plaintext_to_html(text, classname=None): content = "
\n".join(html.escape(x) for x in text.split('\n')) return f"

{content}

" if classname else f"

{content}

" def get_exif_data(image): items = image.info info = '' for key, text in items.items(): info += f"""

{plaintext_to_html(str(key))}

{plaintext_to_html(str(text))}

""".strip() + "\n" if len(info) == 0: message = "Nothing found in the image." info = f"

{message}

" return info with gr.Row(): with gr.Column(): image_input = gr.Image(type="pil") with gr.Column(): exif_output = gr.HTML(label="EXIF Data") send_to_txt2img_btn = gr.Button("Send to txt2img") with gr.Tab("Gallery"): gallery_obj = gr.Gallery(height=1000, columns=5) text_button.click(flip_text, inputs=[prompt, negative_prompt, model, steps, sampler, cfg_scale, width, height, seed, batch_size, batch_count, gallery_obj], outputs=[image_output, gallery_obj]) image_input.upload(get_exif_data, inputs=[image_input], outputs=exif_output) send_to_txt2img_btn.click(send_to_txt2img, inputs=[image_input], outputs=[tabs, prompt, negative_prompt, steps, seed, model, sampler, width, height, cfg_scale]) demo.queue(concurrency_count=32) demo.launch()