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import os
import numpy as np
import datetime
import json
from typing import Optional
import transformers
from dataclasses import dataclass, field
import io
import spaces
import base64
from PIL import Image
import gradio as gr
import time
import hashlib
from utils import build_logger
from conversation import conv_seed_llama2
import hydra
import pyrootutils
import torch
import re
import time
from omegaconf import OmegaConf
from flask import Flask
import json
from typing import Optional
import cv2
from diffusers import AutoencoderKL, UNet2DConditionModel, EulerDiscreteScheduler, StableDiffusionImg2ImgPipeline
pyrootutils.setup_root(__file__, indicator=".project-root", pythonpath=True)
BOI_TOKEN = '<img>'
EOI_TOKEN = '</img>'
IMG_TOKEN = '<img_{:05d}>'
IMG_FLAG = '<image>'
num_img_in_tokens = 64
num_img_out_tokens = 64
resolution_grids = ['1x1', '1x2', '1x3', '1x4', '1x5', '1x6', '1x10', '2x1', '3x1', '4x1', '5x1', '6x1', '10x1', '2x2',
'2x3', '3x2', '2x4', '4x2']
base_resolution = 448
app = Flask(__name__)
def decode_image(encoded_image: str) -> Image:
decoded_bytes = base64.b64decode(encoded_image.encode('utf-8'))
buffer = io.BytesIO(decoded_bytes)
image = Image.open(buffer)
return image
def encode_image(image: Image.Image, format: str = 'PNG') -> str:
with io.BytesIO() as buffer:
image.save(buffer, format=format)
encoded_image = base64.b64encode(buffer.getvalue()).decode('utf-8')
return encoded_image
@dataclass
class Arguments:
image_transform: Optional[str] = field(default='configs/processer/qwen_448_transform.yaml',
metadata={"help": "config path of image transform"})
tokenizer: Optional[str] = field(default='configs/tokenizer/clm_llama_tokenizer.yaml',
metadata={"help": "config path of tokenizer used to initialize tokenizer"})
llm: Optional[str] = field(default='configs/clm_models/llama2chat7b_lora.yaml', metadata={"help": "config path of llm"})
visual_encoder: Optional[str] = field(default='configs/visual_tokenizer/qwen_vitg_448.yaml',
metadata={"help": "config path of visual encoder"})
sd_adapter: Optional[str] = field(
default='configs/detokenizer/detokenizer_sdxl_qwen_vit_adapted.yaml',
metadata={"help": "config path of sd adapter"})
agent: Optional[str] = field(default='configs/clm_models/agent_7b_sft.yaml',
metadata={"help": "config path of agent model"})
diffusion_path: Optional[str] = field(default='stabilityai/stable-diffusion-xl-base-1.0',
metadata={"help": "diffusion model path"})
port: Optional[str] = field(default=80, metadata={"help": "network port"})
llm_device: Optional[str] = field(default='cuda:0', metadata={"help": "llm device"})
vit_sd_device: Optional[str] = field(default='cuda:0', metadata={"help": "sd and vit device"})
dtype: Optional[str] = field(default='fp16', metadata={"help": "mix percision"})
parser = transformers.HfArgumentParser(Arguments)
args, = parser.parse_args_into_dataclasses()
class LLMService:
def __init__(self, args) -> None:
self.llm_device = args.llm_device
self.vit_sd_device = args.vit_sd_device
dtype = args.dtype
if dtype == 'fp16':
self.dtype = torch.float16
elif dtype == 'bf16':
self.dtype = torch.bfloat16
else:
raise ValueError
image_transform_cfg = OmegaConf.load(args.image_transform)
self.image_transform = hydra.utils.instantiate(image_transform_cfg)
tokenizer_cfg = OmegaConf.load(args.tokenizer)
self.tokenizer = hydra.utils.instantiate(tokenizer_cfg)
visual_encoder_cfg = OmegaConf.load(args.visual_encoder)
self.visual_encoder = hydra.utils.instantiate(visual_encoder_cfg)
self.visual_encoder.eval().to(self.vit_sd_device, dtype=self.dtype)
print('Init visual encoder done')
llm_cfg = OmegaConf.load(args.llm)
llm = hydra.utils.instantiate(llm_cfg, torch_dtype=self.dtype)
print('Init llm done.')
agent_cfg = OmegaConf.load(args.agent)
self.agent = hydra.utils.instantiate(agent_cfg, llm=llm)
self.agent.eval().to(self.llm_device, dtype=self.dtype)
print('Init agent mdoel Done')
noise_scheduler = EulerDiscreteScheduler.from_pretrained(args.diffusion_path, subfolder="scheduler")
vae = AutoencoderKL.from_pretrained(args.diffusion_path, subfolder="vae").to(self.vit_sd_device,
dtype=self.dtype)
unet = UNet2DConditionModel.from_pretrained(args.diffusion_path, subfolder="unet").to(self.vit_sd_device,
dtype=self.dtype)
sd_adapter_cfg = OmegaConf.load(args.sd_adapter)
self.sd_adapter = hydra.utils.instantiate(sd_adapter_cfg, unet=unet).eval().to(self.vit_sd_device,
dtype=self.dtype)
# self.sd_adapter.init_pipe(vae=vae,
# scheduler=noise_scheduler,
# visual_encoder=self.visual_encoder.cpu(),
# image_transform=self.image_transform,
# discrete_model=None,
# dtype=self.dtype,
# device="cpu")
self.sd_adapter.init_pipe(vae=vae,
scheduler=noise_scheduler,
visual_encoder=self.visual_encoder,
image_transform=self.image_transform,
discrete_model=None,
dtype=self.dtype,
device=self.vit_sd_device)
print('Init sd adapter pipe done.')
self.visual_encoder.to(self.vit_sd_device, dtype=self.dtype)
# model_id_or_path = "stablediffusionapi/realistic-vision-v51"
# self.vae_pipe = StableDiffusionImg2ImgPipeline.from_pretrained(model_id_or_path, safety_checker=None,
# torch_dtype=torch.float16)
self.boi_token_id = self.tokenizer.encode(BOI_TOKEN, add_special_tokens=False)[0]
self.eoi_token_id = self.tokenizer.encode(EOI_TOKEN, add_special_tokens=False)[0]
service = LLMService(args)
@spaces.GPU
def generate(text_list, image_list, max_new_tokens):
with torch.no_grad():
text_list = text_list.split(IMG_FLAG)
top_p = 0.5
assert len(text_list) == len(image_list) + 1
image_tokens = BOI_TOKEN + ''.join(
[IMG_TOKEN.format(int(item)) for item in range(num_img_in_tokens)]) + EOI_TOKEN
input_images = []
if len(image_list) > 0:
image_tensor_list = []
embeds_cmp_mask = []
embeds_gen_mask = []
if service.multi_resolution:
patch_pos = []
image_patch_length = []
image_size_list = []
for idx, image_item in enumerate(image_list):
if isinstance(image_item, str):
image = decode_image(image_item)
print('after decode image size:', image.size)
input_images.append(image)
# if service.multi_resolution:
# image_size_list.append(image.size)
# print('image size:', image.size)
# image_tensor, patch_pos_tensor = process_anyres_image(image, service.image_transform,
# service.grid_pinpoints,
# service.base_resolution)
# image_tensor_list.append(image_tensor)
# patch_pos.append(patch_pos_tensor)
# image_patch_length.append(image_tensor.shape[0])
# print('image_patch_length', image_patch_length)
# embeds_cmp_mask.extend([True] * image_tensor.shape[0])
# embeds_gen_mask.extend([False] * image_tensor.shape[0])
#
# else:
image_tensor = service.image_transform(image)
image_tensor_list.append(image_tensor)
embeds_cmp_mask.append(True)
embeds_gen_mask.append(False)
else:
raise ValueError
if service.multi_resolution:
pixel_values = torch.cat(image_tensor_list).to(service.vit_sd_device, dtype=service.dtype)
patch_position = torch.cat(patch_pos, dim=0)
image_tokens_list = []
for patch_length in image_patch_length:
image_tokens = ''
for _ in range(patch_length - 1):
image_tokens += BOP_TOKEN + ''.join(
IMG_TOKEN.format(int(item)) for item in range(num_img_in_tokens)) + EOP_TOKEN
image_tokens += BOI_TOKEN + ''.join(
IMG_TOKEN.format(int(item)) for item in range(num_img_in_tokens)) + EOI_TOKEN
image_tokens_list.append(image_tokens)
else:
pixel_values = torch.stack(image_tensor_list).to(service.vit_sd_device, dtype=service.dtype)
image_embeds = service.visual_encoder(pixel_values)
image_embeds = image_embeds.to(service.llm_device)
embeds_cmp_mask = torch.tensor(embeds_cmp_mask, dtype=torch.bool).to(service.llm_device)
embeds_gen_mask = torch.tensor(embeds_gen_mask, dtype=torch.bool).to(service.llm_device)
else:
image_embeds = None
patch_position = 0
embeds_cmp_mask = None
embeds_gen_mask = None
input_text = image_tokens.join(text_list)
print('input_text:', input_text)
input_ids = service.tokenizer.encode(input_text, add_special_tokens=False)
input_ids = [service.tokenizer.bos_token_id] + input_ids
input_ids = torch.tensor(input_ids).to(service.llm_device, dtype=torch.long)
ids_cmp_mask = torch.zeros_like(input_ids, dtype=torch.bool).to(service.llm_device)
ids_gen_mask = torch.zeros_like(input_ids, dtype=torch.bool).to(service.llm_device)
boi_indices = torch.where(input_ids == service.boi_token_id)[0].tolist()
eoi_indices = torch.where(input_ids == service.eoi_token_id)[0].tolist()
for boi_idx, eoi_idx in zip(boi_indices, eoi_indices):
ids_cmp_mask[boi_idx + 1:eoi_idx] = True
input_ids = input_ids.unsqueeze(0)
ids_cmp_mask = ids_cmp_mask.unsqueeze(0)
ids_gen_mask = ids_gen_mask.unsqueeze(0)
error_msg = []
output = service.agent.generate(
tokenizer=service.tokenizer,
input_ids=input_ids,
image_embeds=image_embeds,
embeds_cmp_mask=embeds_cmp_mask,
ids_cmp_mask=ids_cmp_mask,
num_img_gen_tokens=num_img_out_tokens,
max_new_tokens=max_new_tokens,
dtype=service.dtype,
device=service.llm_device,
top_p=top_p,
)
gen_imgs_base64_list = []
generated_text = output['text']
generated_text = generated_text.replace(EOI_TOKEN, IMG_FLAG).replace(service.tokenizer.eos_token, '')
torch.cuda.empty_cache()
if output['has_img_output']:
# print('loading visual encoder and llm to CPU, and sd to GPU')
# a = time.time()
# service.agent = service.agent.cpu()
# service.sd_adapter = service.sd_adapter.to(service.vit_sd_device, dtype=service.dtype)
# print("Loading finished: ", time.time() - a)
img_gen_feat = output['img_gen_feat'].to(service.vit_sd_device, dtype=service.dtype)
for img_idx in range(output['num_gen_imgs']):
img_feat = img_gen_feat[img_idx:img_idx + 1]
generated_image = service.sd_adapter.generate(image_embeds=img_feat, num_inference_steps=50)[0]
# a = time.time()
# service.sd_adapter = service.sd_adapter.cpu()
# service.visual_encoder = service.visual_encoder.to(service.vit_sd_device, dtype=service.dtype)
# service.agent = service.agent.to(service.vit_sd_device, dtype=service.dtype)
# print("Loading finished: ", time.time() - a)
print(input_text + generated_text)
return {'text': generated_text, 'images': gen_imgs_base64_list, 'error_msg': error_msg}
def http_bot(dialog_state, input_state, max_new_tokens, max_turns,
request: gr.Request):
print('input_state:', input_state)
if len(dialog_state.messages) == 0 or dialog_state.messages[-1]['role'] != dialog_state.roles[0] or len(
dialog_state.messages[-1]['message']['text'].strip(' ?.;!/')) == 0:
return (dialog_state, input_state, dialog_state.to_gradio_chatbot()) + (no_change_btn,) * 4
if len(dialog_state.messages) > max_turns * 2:
output_state = init_input_state()
output_state['text'] = 'Error: History exceeds maximum rounds, please clear history and restart.'
dialog_state.messages.append({'role': dialog_state.roles[1], 'message': output_state})
input_state = init_input_state()
return (dialog_state, input_state, dialog_state.to_gradio_chatbot()) + (disable_btn,) * 3 + (enable_btn,)
prompt = dialog_state.get_prompt()
text = prompt['text']
max_new_tokens = int(max_new_tokens)
images = prompt['images']
results = generate(text, images, max_new_tokens)
print('response: ', {'text': results['text'], 'error_msg': results['error_msg']})
output_state = init_input_state()
image_dir = get_conv_image_dir()
output_state['text'] = results['text']
for image_base64 in results['images']:
if image_base64 == '':
image_path = ''
else:
image = decode_image(image_base64)
image = image.convert('RGB')
image_path = get_image_name(image=image, image_dir=image_dir)
if not os.path.exists(image_path):
image.save(image_path)
output_state['images'].append(image_path)
dialog_state.messages.append({'role': dialog_state.roles[1], 'message': output_state})
vote_last_response(dialog_state, 'common', request)
input_state = init_input_state()
chatbot = update_error_msg(dialog_state.to_gradio_chatbot(), results['error_msg'])
return (dialog_state, input_state, chatbot) + (enable_btn,) * 4
IMG_FLAG = '<image>'
LOGDIR = 'log'
logger = build_logger("gradio_seed_x", LOGDIR)
headers = {"User-Agent": "SEED-X Client"}
no_change_btn = gr.Button()
enable_btn = gr.Button(interactive=True)
disable_btn = gr.Button(interactive=False)
conv_seed_llama = conv_seed_llama2
def get_conv_log_filename():
t = datetime.datetime.now()
name = os.path.join(LOGDIR, f"{t.year}-{t.month:02d}-{t.day:02d}-conv.json")
return name
def get_conv_image_dir():
name = os.path.join(LOGDIR, 'images')
os.makedirs(name, exist_ok=True)
return name
def get_image_name(image, image_dir=None):
buffer = io.BytesIO()
image.save(buffer, format='PNG')
image_bytes = buffer.getvalue()
md5 = hashlib.md5(image_bytes).hexdigest()
if image_dir is not None:
image_name = os.path.join(image_dir, md5 + '.png')
else:
image_name = md5 + '.png'
return image_name
def resize_image_square(image, target_size=448):
resized_image = image.resize((target_size, target_size))
return resized_image
def resize_image(image, max_size=512):
width, height = image.size
aspect_ratio = float(width) / float(height)
if width > height:
new_width = max_size
new_height = int(new_width / aspect_ratio)
else:
new_height = max_size
new_width = int(new_height * aspect_ratio)
resized_image = image.resize((new_width, new_height))
return resized_image
def center_crop_image(image, max_aspect_ratio=1.5):
width, height = image.size
aspect_ratio = max(width, height) / min(width, height)
if aspect_ratio >= max_aspect_ratio:
if width > height:
new_width = int(height * max_aspect_ratio)
left = (width - new_width) // 2
right = (width + new_width) // 2
top = 0
bottom = height
else:
new_height = int(width * max_aspect_ratio)
left = 0
right = width
top = (height - new_height) // 2
bottom = (height + new_height) // 2
cropped_image = image.crop((left, top, right, bottom))
return cropped_image
else:
return image
def vote_last_response(state, vote_type, request: gr.Request):
with open(get_conv_log_filename(), "a") as fout:
data = {
"tstamp": round(time.time(), 4),
"type": vote_type,
"state": state.dict(),
"ip": request.client.host,
}
fout.write(json.dumps(data) + "\n")
def upvote_last_response(state, request: gr.Request):
logger.info(f"upvote. ip: {request.client.host}")
vote_last_response(state, "upvote", request)
return (disable_btn,) * 2
def downvote_last_response(state, request: gr.Request):
logger.info(f"downvote. ip: {request.client.host}")
vote_last_response(state, "downvote", request)
return (disable_btn,) * 2
def regenerate(dialog_state, request: gr.Request):
logger.info(f"regenerate. ip: {request.client.host}")
if dialog_state.messages[-1]['role'] == dialog_state.roles[1]:
dialog_state.messages.pop()
return (
dialog_state,
dialog_state.to_gradio_chatbot(),
) + (disable_btn,) * 4
def clear_history(request: gr.Request):
logger.info(f"clear_history. ip: {request.client.host}")
dialog_state = conv_seed_llama.copy()
input_state = init_input_state()
return (dialog_state, input_state, dialog_state.to_gradio_chatbot()) + (disable_btn,) * 4
def init_input_state():
return {'images': [], 'text': ''}
def add_text(dialog_state, input_state, text, request: gr.Request):
logger.info(f"add_text. ip: {request.client.host}.")
if text is None or len(text) == 0:
return (dialog_state, input_state, "", dialog_state.to_gradio_chatbot()) + (no_change_btn,) * 4
input_state['text'] += text
if len(dialog_state.messages) > 0 and dialog_state.messages[-1]['role'] == dialog_state.roles[0]:
dialog_state.messages[-1]['message'] = input_state
else:
dialog_state.messages.append({'role': dialog_state.roles[0], 'message': input_state})
print('add_text: ', dialog_state.to_gradio_chatbot())
return (dialog_state, input_state, "", dialog_state.to_gradio_chatbot()) + (disable_btn,) * 4
def is_blank(image):
image_array = np.array(image)
unique_colors = np.unique(image_array)
print('unique_colors', len(unique_colors))
return len(unique_colors) == 1
def add_image(dialog_state, input_state, image, request: gr.Request):
logger.info(f"add_image. ip: {request.client.host}.")
if image is None:
return (dialog_state, input_state, None, dialog_state.to_gradio_chatbot()) + (no_change_btn,) * 4
image = image.convert('RGB')
print('image size:', image.size)
image = center_crop_image(image, max_aspect_ratio=10)
image_dir = get_conv_image_dir()
image_path = get_image_name(image=image, image_dir=image_dir)
if not os.path.exists(image_path):
image.save(image_path)
input_state['images'].append(image_path)
input_state['text'] += IMG_FLAG
if len(dialog_state.messages) > 0 and dialog_state.messages[-1]['role'] == dialog_state.roles[0]:
dialog_state.messages[-1]['message'] = input_state
else:
dialog_state.messages.append({'role': dialog_state.roles[0], 'message': input_state})
print('add_image:', dialog_state)
return (dialog_state, input_state, None, dialog_state.to_gradio_chatbot()) + (disable_btn,) * 4
def update_error_msg(chatbot, error_msg):
if len(error_msg) > 0:
info = '\n-------------\nSome errors occurred during response, please clear history and restart.\n' + '\n'.join(
error_msg)
chatbot[-1][-1] = chatbot[-1][-1] + info
return chatbot
def load_demo(request: gr.Request):
logger.info(f"load_demo. ip: {request.client.host}")
dialog_state = conv_seed_llama.copy()
input_state = init_input_state()
return dialog_state, input_state
title = ("""
# SEED-Story
[[Paper]](https://arxiv.org/abs/2407.08683) [[Code]](https://github.com/TencentARC/SEED-Story)
Demo of a multimodal story generation model SEED-Story-George. It is trained on StoryStream-Curious George subset.
SEED-Story is a MLLM capable of generating multimodal long stories consisting of rich and coherent narrative texts, along with images that are consistent in characters and style.
## Tips:
* Check out the conversation examples (at the bottom) for inspiration.
* You can adjust "Max History Rounds" to try a conversation with up to **three rounds due to insufficient GPU memory**. For more turns, you can download our checkpoints from GitHub and deploy them locally for inference.
* Our demo supports a mix of images and texts as input. You can freely upload an image or enter text, and then click on "Add Image/Text". You can repeat the former step multiple times, and click on "Submit" for model inference at last.
* SEED-Story was trained with English-only data. It may process with other languages due to the inherent capabilities from LLaMA, but might not stable.
""")
css = """
img {
font-family: 'Helvetica';
font-weight: 300;
line-height: 2;
text-align: center;
width: auto;
height: auto;
display: block;
position: relative;
}
img:before {
content: " ";
display: block;
position: absolute;
top: -10px;
left: 0;
height: calc(100% + 10px);
width: 100%;
background-color: rgb(230, 230, 230);
border: 2px dotted rgb(200, 200, 200);
border-radius: 5px;
}
img:after {
content: " ";
display: block;
font-size: 16px;
font-style: normal;
font-family: FontAwesome;
color: rgb(100, 100, 100);
position: absolute;
top: 5px;
left: 0;
width: 100%;
text-align: center;
}
"""
if __name__ == '__main__':
examples_mix = [
['https://github.com/AILab-CVC/SEED-X/blob/main/demos/bank.png?raw=true',
'Can I conntect with an advisor on Sunday?'],
['https://github.com/AILab-CVC/SEED-X/blob/main/demos/ground.png?raw=true',
'Is there anything in the image that can protect me from catching the flu virus when I go out? Show me the location.'],
['https://github.com/AILab-CVC/SEED-X/blob/main/demos/arrow.jpg?raw=true',
'What is the object pointed by the red arrow?'],
['https://github.com/AILab-CVC/SEED-X/blob/main/demos/shanghai.png?raw=true',
'Where was this image taken? Explain your answer.'],
['https://github.com/AILab-CVC/SEED-X/blob/main/demos/GPT4.png?raw=true',
'How long does it take to make GPT-4 safer?'],
['https://github.com/AILab-CVC/SEED-X/blob/main/demos/twitter.png?raw=true',
'Please provide a comprehensive description of this image.'],
]
examples_text = [
['I want to build a two story cabin in the woods, with many commanding windows. Can you show me a picture?'],
['Use your imagination to design a concept image for Artificial General Intelligence (AGI). Show me an image.'],
[
'Can you design an illustration for โThe Three-Body Problemโ to depict a scene from the novel? Show me a picture.'],
[
'My four year old son loves toy trains. Can you design a fancy birthday cake for him? Please generate a picture.'],
[
'Generate an image of a portrait of young nordic girl, age 25, freckled skin, neck tatoo, blue eyes 35mm lens, photography, ultra details.'],
['Generate an impressionist painting of an astronaut in a jungle.']
]
with gr.Blocks(css=css) as demo:
gr.Markdown(title)
dialog_state = gr.State()
input_state = gr.State()
with gr.Row():
with gr.Column(scale=3):
with gr.Row():
image = gr.Image(type='pil', label='input_image')
with gr.Row():
text = gr.Textbox(lines=5,
show_label=False,
label='input_text',
elem_id='textbox',
placeholder="Enter text and image, and press submit,", container=False)
with gr.Row():
add_image_btn = gr.Button("Add Image")
add_text_btn = gr.Button("Add Text")
submit_btn = gr.Button("Submit")
with gr.Row():
max_new_tokens = gr.Slider(minimum=64,
maximum=1024,
value=768,
step=64,
interactive=True,
label="Max Output Tokens")
max_turns = gr.Slider(minimum=1, maximum=3, value=3, step=1, interactive=True,
label="Max History Rounds")
force_img_gen = gr.Radio(choices=[True, False], value=False, label='Force Image Generation')
force_bbox = gr.Radio(choices=[True, False], value=False, label='Force Bounding Box')
force_polish = gr.Radio(choices=[True, False], value=True, label='Force Polishing Generated Image')
with gr.Column(scale=7):
chatbot = gr.Chatbot(elem_id='chatbot', label="SEED-X-I", height=700)
with gr.Row():
upvote_btn = gr.Button(value="๐ Upvote", interactive=False)
downvote_btn = gr.Button(value="๐ Downvote", interactive=False)
regenerate_btn = gr.Button(value="๐ Regenerate", interactive=False)
clear_btn = gr.Button(value="๐๏ธ Clear history", interactive=False)
with gr.Row():
with gr.Column(scale=0.7):
gr.Examples(examples=examples_mix, label='Input examples', inputs=[image, text], cache_examples=False)
with gr.Column(scale=0.3):
gr.Examples(examples=examples_text, label='Input examples', inputs=[text], cache_examples=False)
# Register listeners
btn_list = [upvote_btn, downvote_btn, regenerate_btn, clear_btn]
upvote_btn.click(upvote_last_response, [dialog_state], [upvote_btn, downvote_btn])
downvote_btn.click(downvote_last_response, [dialog_state], [upvote_btn, downvote_btn])
regenerate_btn.click(regenerate, [dialog_state], [dialog_state, chatbot] + btn_list).then(
http_bot, [dialog_state, input_state, max_new_tokens, max_turns, force_img_gen, force_bbox, force_polish],
[dialog_state, input_state, chatbot] + btn_list)
add_image_btn.click(add_image, [dialog_state, input_state, image],
[dialog_state, input_state, image, chatbot] + btn_list)
add_text_btn.click(add_text, [dialog_state, input_state, text],
[dialog_state, input_state, text, chatbot] + btn_list)
submit_btn.click(
add_image, [dialog_state, input_state, image], [dialog_state, input_state, image, chatbot] + btn_list).then(
add_text, [dialog_state, input_state, text],
[dialog_state, input_state, text, chatbot, upvote_btn, downvote_btn, regenerate_btn, clear_btn]).then(
http_bot,
[dialog_state, input_state, max_new_tokens, max_turns, force_img_gen, force_bbox, force_polish],
[dialog_state, input_state, chatbot] + btn_list)
clear_btn.click(clear_history, None, [dialog_state, input_state, chatbot] + btn_list)
demo.load(load_demo, None, [dialog_state, input_state])
demo.launch(debug=True) |