text-generation-webui/server.py
2023-02-08 00:23:35 -03:00

905 lines
46 KiB
Python

import re
import gc
import time
import glob
import torch
import argparse
import json
import io
import base64
import sys
import os
from datetime import datetime
from pathlib import Path
from PIL import Image
import copy
import gradio as gr
import warnings
from tqdm import tqdm
import transformers
from transformers import AutoTokenizer, AutoModelForCausalLM, AutoConfig
from modules.html_generator import *
from modules.ui import *
from modules.stopping_criteria import _SentinelTokenStoppingCriteria
transformers.logging.set_verbosity_error()
parser = argparse.ArgumentParser(formatter_class=lambda prog: argparse.HelpFormatter(prog,max_help_position=54))
parser.add_argument('--model', type=str, help='Name of the model to load by default.')
parser.add_argument('--notebook', action='store_true', help='Launch the web UI in notebook mode, where the output is written to the same text box as the input.')
parser.add_argument('--chat', action='store_true', help='Launch the web UI in chat mode.')
parser.add_argument('--cai-chat', action='store_true', help='Launch the web UI in chat mode with a style similar to Character.AI\'s. If the file img_bot.png or img_bot.jpg exists in the same folder as server.py, this image will be used as the bot\'s profile picture. Similarly, img_me.png or img_me.jpg will be used as your profile picture.')
parser.add_argument('--cpu', action='store_true', help='Use the CPU to generate text.')
parser.add_argument('--load-in-8bit', action='store_true', help='Load the model with 8-bit precision.')
parser.add_argument('--auto-devices', action='store_true', help='Automatically split the model across the available GPU(s) and CPU.')
parser.add_argument('--disk', action='store_true', help='If the model is too large for your GPU(s) and CPU combined, send the remaining layers to the disk.')
parser.add_argument('--disk-cache-dir', type=str, help='Directory to save the disk cache to. Defaults to "cache/".')
parser.add_argument('--gpu-memory', type=int, help='Maximum GPU memory in GiB to allocate. This is useful if you get out of memory errors while trying to generate text. Must be an integer number.')
parser.add_argument('--cpu-memory', type=int, help='Maximum CPU memory in GiB to allocate for offloaded weights. Must be an integer number. Defaults to 99.')
parser.add_argument('--deepspeed', action='store_true', help='Enable the use of DeepSpeed ZeRO-3 for inference via the Transformers integration.')
parser.add_argument('--nvme-offload-dir', type=str, help='DeepSpeed: Directory to use for ZeRO-3 NVME offloading.')
parser.add_argument('--bf16', action='store_true', help='DeepSpeed: Instantiate the model with bfloat16 precision. Requires NVIDIA Ampere GPU.')
parser.add_argument('--local_rank', type=int, default=0, help='DeepSpeed: Optional argument for distributed setups.')
parser.add_argument('--no-stream', action='store_true', help='Don\'t stream the text output in real time. This improves the text generation performance.')
parser.add_argument('--settings', type=str, help='Load the default interface settings from this json file. See settings-template.json for an example.')
parser.add_argument('--extensions', type=str, help='The list of extensions to load. If you want to load more than one extension, write the names separated by commas and between quotation marks, "like,this".')
parser.add_argument('--listen', action='store_true', help='Make the web UI reachable from your local network.')
parser.add_argument('--listen-port', type=int, help='The listening port that the server will use.')
parser.add_argument('--share', action='store_true', help='Create a public URL. This is useful for running the web UI on Google Colab or similar.')
parser.add_argument('--verbose', action='store_true', help='Print the prompts to the terminal.')
args = parser.parse_args()
if (args.chat or args.cai_chat) and not args.no_stream:
print("Warning: chat mode currently becomes somewhat slower with text streaming on.\nConsider starting the web UI with the --no-stream option.\n")
settings = {
'max_new_tokens': 200,
'max_new_tokens_min': 1,
'max_new_tokens_max': 2000,
'preset': 'NovelAI-Sphinx Moth',
'name1': 'Person 1',
'name2': 'Person 2',
'context': 'This is a conversation between two people.',
'prompt': 'Common sense questions and answers\n\nQuestion: \nFactual answer:',
'prompt_gpt4chan': '-----\n--- 865467536\nInput text\n--- 865467537\n',
'stop_at_newline': True,
'history_size': 0,
'history_size_min': 0,
'history_size_max': 64,
'preset_pygmalion': 'Pygmalion',
'name1_pygmalion': 'You',
'name2_pygmalion': 'Kawaii',
'context_pygmalion': "Kawaii's persona: Kawaii is a cheerful person who loves to make others smile. She is an optimist who loves to spread happiness and positivity wherever she goes.\n<START>",
'stop_at_newline_pygmalion': False,
}
if args.settings is not None and Path(args.settings).exists():
new_settings = json.loads(open(Path(args.settings), 'r').read())
for item in new_settings:
settings[item] = new_settings[item]
if args.deepspeed:
import deepspeed
from transformers.deepspeed import HfDeepSpeedConfig, is_deepspeed_zero3_enabled
from modules.deepspeed_parameters import generate_ds_config
# Distributed setup
local_rank = args.local_rank if args.local_rank is not None else int(os.getenv("LOCAL_RANK", "0"))
world_size = int(os.getenv("WORLD_SIZE", "1"))
torch.cuda.set_device(local_rank)
deepspeed.init_distributed()
ds_config = generate_ds_config(args.bf16, 1 * world_size, args.nvme_offload_dir)
dschf = HfDeepSpeedConfig(ds_config) # Keep this object alive for the Transformers integration
def load_model(model_name):
print(f"Loading {model_name}...")
t0 = time.time()
# Default settings
if not (args.cpu or args.load_in_8bit or args.auto_devices or args.disk or args.gpu_memory is not None or args.cpu_memory is not None or args.deepspeed):
if Path(f"torch-dumps/{model_name}.pt").exists():
print("Loading in .pt format...")
model = torch.load(Path(f"torch-dumps/{model_name}.pt"))
elif model_name.lower().startswith(('gpt-neo', 'opt-', 'galactica')) and any(size in model_name.lower() for size in ('13b', '20b', '30b')):
model = AutoModelForCausalLM.from_pretrained(Path(f"models/{model_name}"), device_map='auto', load_in_8bit=True)
else:
model = AutoModelForCausalLM.from_pretrained(Path(f"models/{model_name}"), low_cpu_mem_usage=True, torch_dtype=torch.float16).cuda()
# DeepSpeed ZeRO-3
elif args.deepspeed:
model = AutoModelForCausalLM.from_pretrained(Path(f"models/{model_name}"), torch_dtype=torch.bfloat16 if args.bf16 else torch.float16)
model = deepspeed.initialize(model=model, config_params=ds_config, model_parameters=None, optimizer=None, lr_scheduler=None)[0]
model.module.eval() # Inference
print(f"DeepSpeed ZeRO-3 is enabled: {is_deepspeed_zero3_enabled()}")
# Custom
else:
command = "AutoModelForCausalLM.from_pretrained"
params = ["low_cpu_mem_usage=True"]
if args.cpu:
params.append("low_cpu_mem_usage=True")
params.append("torch_dtype=torch.float32")
else:
params.append("device_map='auto'")
params.append("load_in_8bit=True" if args.load_in_8bit else "torch_dtype=torch.float16")
if args.gpu_memory:
params.append(f"max_memory={{0: '{args.gpu_memory or '99'}GiB', 'cpu': '{args.cpu_memory or '99'}GiB'}}")
elif (args.gpu_memory or args.cpu_memory) and not args.load_in_8bit:
total_mem = (torch.cuda.get_device_properties(0).total_memory/(1024*1024))
suggestion = round((total_mem-1000)/1000)*1000
if total_mem-suggestion < 800:
suggestion -= 1000
suggestion = int(round(suggestion/1000))
print(f"\033[1;32;1mAuto-assiging --gpu-memory {suggestion} for your GPU to try to prevent out-of-memory errors.\nYou can manually set other values.\033[0;37;0m")
params.append(f"max_memory={{0: '{suggestion}GiB', 'cpu': '{args.cpu_memory or '99'}GiB'}}")
if args.disk:
params.append(f"offload_folder='{args.disk_cache_dir or 'cache'}'")
command = f"{command}(Path(f'models/{model_name}'), {','.join(set(params))})"
model = eval(command)
# Loading the tokenizer
if model_name.lower().startswith(('gpt4chan', 'gpt-4chan', '4chan')) and Path(f"models/gpt-j-6B/").exists():
tokenizer = AutoTokenizer.from_pretrained(Path("models/gpt-j-6B/"))
else:
tokenizer = AutoTokenizer.from_pretrained(Path(f"models/{model_name}/"))
tokenizer.truncation_side = 'left'
print(f"Loaded the model in {(time.time()-t0):.2f} seconds.")
return model, tokenizer
def load_model_wrapper(selected_model):
global model_name, model, tokenizer
if selected_model != model_name:
model_name = selected_model
model = tokenizer = None
if not args.cpu:
gc.collect()
torch.cuda.empty_cache()
model, tokenizer = load_model(model_name)
def load_preset_values(preset_menu, return_dict=False):
generate_params = {
'do_sample': True,
'temperature': 1,
'top_p': 1,
'typical_p': 1,
'repetition_penalty': 1,
'top_k': 50,
'num_beams': 1,
'min_length': 0,
'length_penalty': 1,
'no_repeat_ngram_size': 0,
'early_stopping': False,
}
with open(Path(f'presets/{preset_menu}.txt'), 'r') as infile:
preset = infile.read()
for i in preset.split(','):
i = i.strip().split('=')
if len(i) == 2 and i[0].strip() != 'tokens':
generate_params[i[0].strip()] = eval(i[1].strip())
generate_params['temperature'] = min(1.99, generate_params['temperature'])
if return_dict:
return generate_params
else:
return generate_params['do_sample'], generate_params['temperature'], generate_params['top_p'], generate_params['typical_p'], generate_params['repetition_penalty'], generate_params['top_k'], generate_params['min_length'], generate_params['no_repeat_ngram_size'], generate_params['num_beams'], generate_params['length_penalty'], generate_params['early_stopping']
# Removes empty replies from gpt4chan outputs
def fix_gpt4chan(s):
for i in range(10):
s = re.sub("--- [0-9]*\n>>[0-9]*\n---", "---", s)
s = re.sub("--- [0-9]*\n *\n---", "---", s)
s = re.sub("--- [0-9]*\n\n\n---", "---", s)
return s
# Fix the LaTeX equations in galactica
def fix_galactica(s):
s = s.replace(r'\[', r'$')
s = s.replace(r'\]', r'$')
s = s.replace(r'\(', r'$')
s = s.replace(r'\)', r'$')
s = s.replace(r'$$', r'$')
return s
def encode(prompt, tokens_to_generate=0, add_special_tokens=True):
input_ids = tokenizer.encode(str(prompt), return_tensors='pt', truncation=True, max_length=2048-tokens_to_generate, add_special_tokens=add_special_tokens)
if args.cpu:
return input_ids
elif args.deepspeed:
return input_ids.to(device=local_rank)
else:
return input_ids.cuda()
def decode(output_ids):
reply = tokenizer.decode(output_ids, skip_special_tokens=True)
reply = reply.replace(r'<|endoftext|>', '')
return reply
def formatted_outputs(reply, model_name):
if not (args.chat or args.cai_chat):
if model_name.lower().startswith('galactica'):
reply = fix_galactica(reply)
return reply, reply, generate_basic_html(reply)
elif model_name.lower().startswith(('gpt4chan', 'gpt-4chan', '4chan')):
reply = fix_gpt4chan(reply)
return reply, 'Only applicable for GALACTICA models.', generate_4chan_html(reply)
else:
return reply, 'Only applicable for GALACTICA models.', generate_basic_html(reply)
else:
return reply
def generate_reply(question, tokens, do_sample, max_new_tokens, temperature, top_p, typical_p, repetition_penalty, top_k, min_length, no_repeat_ngram_size, num_beams, length_penalty, early_stopping, eos_token=None, stopping_string=None):
global model_name, model, tokenizer
original_question = question
if not (args.chat or args.cai_chat):
question = apply_extensions(question, "input")
if args.verbose:
print(f"\n\n{question}\n--------------------\n")
input_ids = encode(question, tokens)
cuda = "" if (args.cpu or args.deepspeed) else ".cuda()"
n = tokenizer.eos_token_id if eos_token is None else tokenizer.encode(eos_token, return_tensors='pt')[0][-1]
if stopping_string is not None:
# The stopping_criteria code below was copied from
# https://github.com/PygmalionAI/gradio-ui/blob/master/src/model.py
t = encode(stopping_string, 0, add_special_tokens=False)
stopping_criteria_list = transformers.StoppingCriteriaList([
_SentinelTokenStoppingCriteria(
sentinel_token_ids=t,
starting_idx=len(input_ids[0])
)
])
else:
stopping_criteria_list = None
generate_params = [
f"eos_token_id={n}",
f"stopping_criteria=stopping_criteria_list",
f"do_sample={do_sample}",
f"temperature={temperature}",
f"top_p={top_p}",
f"typical_p={typical_p}",
f"repetition_penalty={repetition_penalty}",
f"top_k={top_k}",
f"min_length={min_length if args.no_stream else 0}",
f"no_repeat_ngram_size={no_repeat_ngram_size}",
f"num_beams={num_beams}",
f"length_penalty={length_penalty}",
f"early_stopping={early_stopping}",
]
if args.deepspeed:
generate_params.append("synced_gpus=True")
if args.no_stream:
generate_params.append(f"max_new_tokens=tokens")
else:
generate_params.append(f"max_new_tokens=8")
# Generate the entire reply at once
if args.no_stream:
t0 = time.time()
with torch.no_grad():
output = eval(f"model.generate(input_ids, {','.join(generate_params)}){cuda}")
reply = decode(output[0])
t1 = time.time()
print(f"Output generated in {(t1-t0):.2f} seconds ({(len(output[0])-len(input_ids[0]))/(t1-t0)/8:.2f} it/s, {len(output[0])-len(input_ids[0])} tokens)")
if not (args.chat or args.cai_chat):
reply = original_question + apply_extensions(reply[len(question):], "output")
yield formatted_outputs(reply, model_name)
# Generate the reply 1 token at a time
else:
yield formatted_outputs(original_question, model_name)
for i in tqdm(range(tokens//8+1)):
with torch.no_grad():
output = eval(f"model.generate(input_ids, {','.join(generate_params)}){cuda}")
reply = decode(output[0])
if not (args.chat or args.cai_chat):
reply = original_question + apply_extensions(reply[len(question):], "output")
yield formatted_outputs(reply, model_name)
input_ids = output
if output[0][-1] == n:
break
def apply_extensions(text, typ):
global available_extensions, extension_state
for ext in sorted(extension_state, key=lambda x : extension_state[x][1]):
if extension_state[ext][0] == True:
ext_string = f"extensions.{ext}.script"
if typ == "input" and hasattr(eval(ext_string), "input_modifier"):
text = eval(f"{ext_string}.input_modifier(text)")
elif typ == "output" and hasattr(eval(ext_string), "output_modifier"):
text = eval(f"{ext_string}.output_modifier(text)")
elif typ == "bot_prefix" and hasattr(eval(ext_string), "bot_prefix_modifier"):
text = eval(f"{ext_string}.bot_prefix_modifier(text)")
return text
def update_extensions_parameters(*kwargs):
i = 0
for ext in sorted(extension_state, key=lambda x : extension_state[x][1]):
if extension_state[ext][0] == True:
params = eval(f"extensions.{ext}.script.params")
for param in params:
if len(kwargs) >= i+1:
params[param] = eval(f"kwargs[{i}]")
i += 1
def get_available_models():
return sorted(set([item.replace('.pt', '') for item in map(lambda x : str(x.name), list(Path('models/').glob('*'))+list(Path('torch-dumps/').glob('*'))) if not item.endswith('.txt')]), key=str.lower)
def get_available_presets():
return sorted(set(map(lambda x : '.'.join(str(x.name).split('.')[:-1]), Path('presets').glob('*.txt'))), key=str.lower)
def get_available_characters():
return ["None"] + sorted(set(map(lambda x : '.'.join(str(x.name).split('.')[:-1]), Path('characters').glob('*.json'))), key=str.lower)
def get_available_extensions():
return sorted(set(map(lambda x : x.parts[1], Path('extensions').glob('*/script.py'))), key=str.lower)
def create_extensions_block():
extensions_ui_elements = []
default_values = []
gr.Markdown('## Extensions parameters')
for ext in sorted(extension_state, key=lambda x : extension_state[x][1]):
if extension_state[ext][0] == True:
params = eval(f"extensions.{ext}.script.params")
for param in params:
_id = f"{ext}-{param}"
default_value = settings[_id] if _id in settings else params[param]
default_values.append(default_value)
if type(params[param]) == str:
extensions_ui_elements.append(gr.Textbox(value=default_value, label=f"{ext}-{param}"))
elif type(params[param]) in [int, float]:
extensions_ui_elements.append(gr.Number(value=default_value, label=f"{ext}-{param}"))
elif type(params[param]) == bool:
extensions_ui_elements.append(gr.Checkbox(value=default_value, label=f"{ext}-{param}"))
update_extensions_parameters(*default_values)
btn_extensions = gr.Button("Apply")
btn_extensions.click(update_extensions_parameters, [*extensions_ui_elements], [])
def create_settings_menus():
generate_params = load_preset_values(settings[f'preset{suffix}'], return_dict=True)
with gr.Row():
with gr.Column():
with gr.Row():
model_menu = gr.Dropdown(choices=available_models, value=model_name, label='Model')
create_refresh_button(model_menu, lambda : None, lambda : {"choices": get_available_models()}, "refresh-button")
with gr.Column():
with gr.Row():
preset_menu = gr.Dropdown(choices=available_presets, value=settings[f'preset{suffix}'], label='Generation parameters preset')
create_refresh_button(preset_menu, lambda : None, lambda : {"choices": get_available_presets()}, "refresh-button")
with gr.Accordion("Custom generation parameters", open=False):
with gr.Row():
with gr.Column():
do_sample = gr.Checkbox(value=generate_params['do_sample'], label="do_sample")
temperature = gr.Slider(0.01, 1.99, value=generate_params['temperature'], step=0.01, label="temperature")
top_p = gr.Slider(0.0,1.0,value=generate_params['top_p'],step=0.01,label="top_p")
typical_p = gr.Slider(0.0,1.0,value=generate_params['typical_p'],step=0.01,label="typical_p")
with gr.Column():
repetition_penalty = gr.Slider(1.0,4.99,value=generate_params['repetition_penalty'],step=0.01,label="repetition_penalty")
top_k = gr.Slider(0,200,value=generate_params['top_k'],step=1,label="top_k")
no_repeat_ngram_size = gr.Slider(0, 20, step=1, value=generate_params["no_repeat_ngram_size"], label="no_repeat_ngram_size")
gr.Markdown("Special parameters (only use them if you really need them):")
with gr.Row():
with gr.Column():
num_beams = gr.Slider(0, 20, step=1, value=generate_params["num_beams"], label="num_beams")
length_penalty = gr.Slider(-5, 5, value=generate_params["length_penalty"], label="length_penalty")
with gr.Column():
min_length = gr.Slider(0, 2000, step=1, value=generate_params["min_length"] if args.no_stream else 0, label="min_length", interactive=args.no_stream)
early_stopping = gr.Checkbox(value=generate_params["early_stopping"], label="early_stopping")
model_menu.change(load_model_wrapper, [model_menu], [])
preset_menu.change(load_preset_values, [preset_menu], [do_sample, temperature, top_p, typical_p, repetition_penalty, top_k, min_length, no_repeat_ngram_size, num_beams, length_penalty, early_stopping])
return preset_menu, do_sample, temperature, top_p, typical_p, repetition_penalty, top_k, min_length, no_repeat_ngram_size, num_beams, length_penalty, early_stopping
# This gets the new line characters right.
def clean_chat_message(text):
text = text.replace('\n', '\n\n')
text = re.sub(r"\n{3,}", "\n\n", text)
text = text.strip()
return text
def generate_chat_prompt(text, tokens, name1, name2, context, history_size, impersonate=False):
text = clean_chat_message(text)
rows = [f"{context.strip()}\n"]
i = len(history['internal'])-1
count = 0
while i >= 0 and len(encode(''.join(rows), tokens)[0]) < 2048-tokens:
rows.insert(1, f"{name2}: {history['internal'][i][1].strip()}\n")
count += 1
if not (history['internal'][i][0] == '<|BEGIN-VISIBLE-CHAT|>'):
rows.insert(1, f"{name1}: {history['internal'][i][0].strip()}\n")
count += 1
i -= 1
if history_size != 0 and count >= history_size:
break
if not impersonate:
rows.append(f"{name1}: {text}\n")
rows.append(apply_extensions(f"{name2}:", "bot_prefix"))
limit = 3
else:
rows.append(f"{name1}:")
limit = 2
while len(rows) > limit and len(encode(''.join(rows), tokens)[0]) >= 2048-tokens:
rows.pop(1)
rows.pop(1)
question = ''.join(rows)
return question
def extract_message_from_reply(question, reply, current, other, check, extensions=False):
next_character_found = False
substring_found = False
previous_idx = [m.start() for m in re.finditer(f"(^|\n){current}:", question)]
idx = [m.start() for m in re.finditer(f"(^|\n){current}:", reply)]
idx = idx[len(previous_idx)-1]
if extensions:
reply = reply[idx + 1 + len(apply_extensions(f"{current}:", "bot_prefix")):]
else:
reply = reply[idx + 1 + len(f"{current}:"):]
if check:
reply = reply.split('\n')[0].strip()
else:
idx = reply.find(f"\n{other}:")
if idx != -1:
reply = reply[:idx]
next_character_found = True
reply = clean_chat_message(reply)
# Detect if something like "\nYo" is generated just before
# "\nYou:" is completed
tmp = f"\n{other}:"
for j in range(1, len(tmp)):
if reply[-j:] == tmp[:j]:
substring_found = True
return reply, next_character_found, substring_found
def chatbot_wrapper(text, tokens, do_sample, max_new_tokens, temperature, top_p, typical_p, repetition_penalty, top_k, min_length, no_repeat_ngram_size, num_beams, length_penalty, early_stopping, name1, name2, context, check, history_size):
original_text = text
text = apply_extensions(text, "input")
question = generate_chat_prompt(text, tokens, name1, name2, context, history_size)
history['internal'].append(['', ''])
history['visible'].append(['', ''])
eos_token = '\n' if check else None
for reply in generate_reply(question, tokens, do_sample, max_new_tokens, temperature, top_p, typical_p, repetition_penalty, top_k, min_length, no_repeat_ngram_size, num_beams, length_penalty, early_stopping, eos_token=eos_token, stopping_string=f"\n{name1}:"):
reply, next_character_found, substring_found = extract_message_from_reply(question, reply, name2, name1, check, extensions=True)
history['internal'][-1] = [text, reply]
history['visible'][-1] = [original_text, apply_extensions(reply, "output")]
if not substring_found:
yield history['visible']
if next_character_found:
break
yield history['visible']
def impersonate_wrapper(text, tokens, do_sample, max_new_tokens, temperature, top_p, typical_p, repetition_penalty, top_k, min_length, no_repeat_ngram_size, num_beams, length_penalty, early_stopping, name1, name2, context, check, history_size):
question = generate_chat_prompt(text, tokens, name1, name2, context, history_size, impersonate=True)
eos_token = '\n' if check else None
for reply in generate_reply(question, tokens, do_sample, max_new_tokens, temperature, top_p, typical_p, repetition_penalty, top_k, min_length, no_repeat_ngram_size, num_beams, length_penalty, early_stopping, eos_token=eos_token, stopping_string=f"\n{name2}:"):
reply, next_character_found, substring_found = extract_message_from_reply(question, reply, name1, name2, check, extensions=False)
if not substring_found:
yield apply_extensions(reply, "output")
if next_character_found:
break
yield apply_extensions(reply, "output")
def cai_chatbot_wrapper(text, tokens, do_sample, max_new_tokens, temperature, top_p, typical_p, repetition_penalty, top_k, min_length, no_repeat_ngram_size, num_beams, length_penalty, early_stopping, name1, name2, context, check, history_size):
for _history in chatbot_wrapper(text, tokens, do_sample, max_new_tokens, temperature, top_p, typical_p, repetition_penalty, top_k, min_length, no_repeat_ngram_size, num_beams, length_penalty, early_stopping, name1, name2, context, check, history_size):
yield generate_chat_html(_history, name1, name2, character)
def regenerate_wrapper(text, tokens, do_sample, max_new_tokens, temperature, top_p, typical_p, repetition_penalty, top_k, min_length, no_repeat_ngram_size, num_beams, length_penalty, early_stopping, name1, name2, context, check, history_size):
last = history['visible'].pop()
history['internal'].pop()
text = last[0]
if args.cai_chat:
for i in cai_chatbot_wrapper(text, tokens, do_sample, max_new_tokens, temperature, top_p, typical_p, repetition_penalty, top_k, min_length, no_repeat_ngram_size, num_beams, length_penalty, early_stopping, name1, name2, context, check, history_size):
yield i
else:
for i in chatbot_wrapper(text, tokens, do_sample, max_new_tokens, temperature, top_p, typical_p, repetition_penalty, top_k, min_length, no_repeat_ngram_size, num_beams, length_penalty, early_stopping, name1, name2, context, check, history_size):
yield i
def remove_last_message(name1, name2):
if not history['internal'][-1][0] == '<|BEGIN-VISIBLE-CHAT|>':
last = history['visible'].pop()
history['internal'].pop()
else:
last = ['', '']
if args.cai_chat:
return generate_chat_html(history['visible'], name1, name2, character), last[0]
else:
return history['visible'], last[0]
def send_last_reply_to_input():
if len(history['visible']) > 0:
return history['visible'][-1][1]
else:
return ''
def replace_last_reply(text, name1, name2):
if len(history['visible']) > 0:
history['visible'][-1][1] = text
history['internal'][-1][1] = apply_extensions(text, "input")
if args.cai_chat:
return generate_chat_html(history['visible'], name1, name2, character)
else:
return history['visible']
def clear_html():
return generate_chat_html([], "", "", character)
def clear_chat_log(_character, name1, name2):
global history
if _character != 'None':
for i in range(len(history['internal'])):
if '<|BEGIN-VISIBLE-CHAT|>' in history['internal'][i][0]:
history['visible'] = [['', history['internal'][i][1]]]
history['internal'] = history['internal'][:i+1]
break
else:
history['internal'] = []
history['visible'] = []
if args.cai_chat:
return generate_chat_html(history['visible'], name1, name2, character)
else:
return history['visible']
def redraw_html(name1, name2):
global history
return generate_chat_html(history['visible'], name1, name2, character)
def tokenize_dialogue(dialogue, name1, name2):
_history = []
dialogue = re.sub('<START>', '', dialogue)
dialogue = re.sub('<start>', '', dialogue)
dialogue = re.sub('(\n|^)[Aa]non:', '\\1You:', dialogue)
dialogue = re.sub('(\n|^)\[CHARACTER\]:', f'\\g<1>{name2}:', dialogue)
idx = [m.start() for m in re.finditer(f"(^|\n)({name1}|{name2}):", dialogue)]
if len(idx) == 0:
return _history
messages = []
for i in range(len(idx)-1):
messages.append(dialogue[idx[i]:idx[i+1]].strip())
messages.append(dialogue[idx[-1]:].strip())
entry = ['', '']
for i in messages:
if i.startswith(f'{name1}:'):
entry[0] = i[len(f'{name1}:'):].strip()
elif i.startswith(f'{name2}:'):
entry[1] = i[len(f'{name2}:'):].strip()
if not (len(entry[0]) == 0 and len(entry[1]) == 0):
_history.append(entry)
entry = ['', '']
print(f"\033[1;32;1m\nDialogue tokenized to:\033[0;37;0m\n", end='')
for row in _history:
for column in row:
print("\n")
for line in column.strip().split('\n'):
print("| "+line+"\n")
print("|\n")
print("------------------------------")
return _history
def save_history():
fname = f"{character or ''}{'_' if character else ''}{datetime.now().strftime('%Y%m%d-%H%M%S')}.json"
if not Path('logs').exists():
Path('logs').mkdir()
with open(Path(f'logs/{fname}'), 'w') as f:
f.write(json.dumps({'data': history['internal'], 'data_visible': history['visible']}))
return Path(f'logs/{fname}')
def load_history(file, name1, name2):
global history
file = file.decode('utf-8')
try:
j = json.loads(file)
if 'data' in j:
history['internal'] = j['data']
if 'data_visible' in j:
history['visible'] = j['data_visible']
else:
history['visible'] = copy.deepcopy(history['internal'])
# Compatibility with Pygmalion AI's official web UI
elif 'chat' in j:
history['internal'] = [':'.join(x.split(':')[1:]).strip() for x in j['chat']]
if len(j['chat']) > 0 and j['chat'][0].startswith(f'{name2}:'):
history['internal'] = [['<|BEGIN-VISIBLE-CHAT|>', history['internal'][0]]] + [[history['internal'][i], history['internal'][i+1]] for i in range(1, len(history['internal'])-1, 2)]
history['visible'] = copy.deepcopy(history['internal'])
history['visible'][0][0] = ''
else:
history['internal'] = [[history['internal'][i], history['internal'][i+1]] for i in range(0, len(history['internal'])-1, 2)]
history['visible'] = copy.deepcopy(history['internal'])
except:
history['internal'] = tokenize_dialogue(file, name1, name2)
history['visible'] = copy.deepcopy(history['internal'])
def load_character(_character, name1, name2):
global history, character
context = ""
history['internal'] = []
history['visible'] = []
if _character != 'None':
character = _character
data = json.loads(open(Path(f'characters/{_character}.json'), 'r').read())
name2 = data['char_name']
if 'char_persona' in data and data['char_persona'] != '':
context += f"{data['char_name']}'s Persona: {data['char_persona']}\n"
if 'world_scenario' in data and data['world_scenario'] != '':
context += f"Scenario: {data['world_scenario']}\n"
context = f"{context.strip()}\n<START>\n"
if 'example_dialogue' in data and data['example_dialogue'] != '':
history['internal'] = tokenize_dialogue(data['example_dialogue'], name1, name2)
if 'char_greeting' in data and len(data['char_greeting'].strip()) > 0:
history['internal'] += [['<|BEGIN-VISIBLE-CHAT|>', data['char_greeting']]]
history['visible'] += [['', apply_extensions(data['char_greeting'], "output")]]
else:
history['internal'] += [['<|BEGIN-VISIBLE-CHAT|>', "Hello there!"]]
history['visible'] += [['', "Hello there!"]]
else:
character = None
context = settings['context_pygmalion']
name2 = settings['name2_pygmalion']
if args.cai_chat:
return name2, context, generate_chat_html(history['visible'], name1, name2, character)
else:
return name2, context, history['visible']
def upload_character(json_file, img, tavern=False):
json_file = json_file if type(json_file) == str else json_file.decode('utf-8')
data = json.loads(json_file)
outfile_name = data["char_name"]
i = 1
while Path(f'characters/{outfile_name}.json').exists():
outfile_name = f'{data["char_name"]}_{i:03d}'
i += 1
if tavern:
outfile_name = f'TavernAI-{outfile_name}'
with open(Path(f'characters/{outfile_name}.json'), 'w') as f:
f.write(json_file)
if img is not None:
img = Image.open(io.BytesIO(img))
img.save(Path(f'characters/{outfile_name}.png'))
print(f'New character saved to "characters/{outfile_name}.json".')
return outfile_name
def upload_tavern_character(img, name1, name2):
_img = Image.open(io.BytesIO(img))
_img.getexif()
decoded_string = base64.b64decode(_img.info['chara'])
_json = json.loads(decoded_string)
_json = {"char_name": _json['name'], "char_persona": _json['description'], "char_greeting": _json["first_mes"], "example_dialogue": _json['mes_example'], "world_scenario": _json['scenario']}
_json['example_dialogue'] = _json['example_dialogue'].replace('{{user}}', name1).replace('{{char}}', _json['char_name'])
return upload_character(json.dumps(_json), img, tavern=True)
def upload_your_profile_picture(img):
img = Image.open(io.BytesIO(img))
img.save(Path(f'img_me.png'))
print(f'Profile picture saved to "img_me.png"')
# Global variables
available_models = get_available_models()
available_presets = get_available_presets()
available_characters = get_available_characters()
available_extensions = get_available_extensions()
extension_state = {}
if args.extensions is not None:
for i,ext in enumerate(args.extensions.split(',')):
if ext in available_extensions:
print(f'Loading the extension "{ext}"... ', end='')
ext_string = f"extensions.{ext}.script"
exec(f"import {ext_string}")
extension_state[ext] = [True, i]
print(f'Ok.')
# Choosing the default model
if args.model is not None:
model_name = args.model
else:
if len(available_models) == 0:
print("No models are available! Please download at least one.")
sys.exit(0)
elif len(available_models) == 1:
i = 0
else:
print("The following models are available:\n")
for i,model in enumerate(available_models):
print(f"{i+1}. {model}")
print(f"\nWhich one do you want to load? 1-{len(available_models)}\n")
i = int(input())-1
print()
model_name = available_models[i]
model, tokenizer = load_model(model_name)
loaded_preset = None
# UI settings
default_text = settings['prompt_gpt4chan'] if model_name.lower().startswith(('gpt4chan', 'gpt-4chan', '4chan')) else settings['prompt']
description = f"\n\n# Text generation lab\nGenerate text using Large Language Models.\n"
css = ".my-4 {margin-top: 0} .py-6 {padding-top: 2.5rem} #refresh-button {flex: none; margin: 0; padding: 0; min-width: 50px; border: none; box-shadow: none; border-radius: 0} #download-label, #upload-label {min-height: 0}"
suffix = '_pygmalion' if 'pygmalion' in model_name.lower() else ''
buttons = {}
gen_events = []
history = {'internal': [], 'visible': []}
character = None
if args.chat or args.cai_chat:
with gr.Blocks(css=css+".h-\[40vh\] {height: 66.67vh} .gradio-container {max-width: 800px; margin-left: auto; margin-right: auto} .w-screen {width: unset}", analytics_enabled=False) as interface:
if args.cai_chat:
display = gr.HTML(value=generate_chat_html([], "", "", character))
else:
display = gr.Chatbot()
textbox = gr.Textbox(label='Input')
with gr.Row():
buttons["Stop"] = gr.Button("Stop")
buttons["Generate"] = gr.Button("Generate")
buttons["Regenerate"] = gr.Button("Regenerate")
with gr.Row():
buttons["Impersonate"] = gr.Button("Impersonate")
buttons["Remove last"] = gr.Button("Remove last")
buttons["Clear"] = gr.Button("Clear history")
with gr.Row():
buttons["Send last reply to input"] = gr.Button("Send last reply to input")
buttons["Replace last reply"] = gr.Button("Replace last reply")
with gr.Row():
with gr.Column():
max_new_tokens = gr.Slider(minimum=settings['max_new_tokens_min'], maximum=settings['max_new_tokens_max'], step=1, label='max_new_tokens', value=settings['max_new_tokens'])
with gr.Column():
history_size_slider = gr.Slider(minimum=settings['history_size_min'], maximum=settings['history_size_max'], step=1, label='Chat history size in prompt (0 for no limit)', value=settings['history_size'])
preset_menu, do_sample, temperature, top_p, typical_p, repetition_penalty, top_k, min_length, no_repeat_ngram_size, num_beams, length_penalty, early_stopping = create_settings_menus()
name1 = gr.Textbox(value=settings[f'name1{suffix}'], lines=1, label='Your name')
name2 = gr.Textbox(value=settings[f'name2{suffix}'], lines=1, label='Bot\'s name')
context = gr.Textbox(value=settings[f'context{suffix}'], lines=2, label='Context')
with gr.Row():
character_menu = gr.Dropdown(choices=available_characters, value="None", label='Character')
create_refresh_button(character_menu, lambda : None, lambda : {"choices": get_available_characters()}, "refresh-button")
with gr.Row():
check = gr.Checkbox(value=settings[f'stop_at_newline{suffix}'], label='Stop generating at new line character?')
with gr.Row():
with gr.Tab('Chat history'):
with gr.Row():
with gr.Column():
gr.Markdown('Upload')
upload = gr.File(type='binary')
with gr.Column():
gr.Markdown('Download')
download = gr.File()
buttons["Download"] = gr.Button(value="Click me")
with gr.Tab('Upload character'):
with gr.Row():
with gr.Column():
gr.Markdown('1. Select the JSON file')
upload_char = gr.File(type='binary')
with gr.Column():
gr.Markdown('2. Select your character\'s profile picture (optional)')
upload_img = gr.File(type='binary')
buttons["Upload character"] = gr.Button(value="Submit")
with gr.Tab('Upload your profile picture'):
upload_img_me = gr.File(type='binary')
with gr.Tab('Upload TavernAI Character Card'):
upload_img_tavern = gr.File(type='binary')
if args.extensions is not None:
create_extensions_block()
input_params = [textbox, max_new_tokens, do_sample, max_new_tokens, temperature, top_p, typical_p, repetition_penalty, top_k, min_length, no_repeat_ngram_size, num_beams, length_penalty, early_stopping, name1, name2, context, check, history_size_slider]
if args.cai_chat:
gen_events.append(buttons["Generate"].click(cai_chatbot_wrapper, input_params, display, show_progress=args.no_stream, api_name="textgen"))
gen_events.append(textbox.submit(cai_chatbot_wrapper, input_params, display, show_progress=args.no_stream))
else:
gen_events.append(buttons["Generate"].click(chatbot_wrapper, input_params, display, show_progress=args.no_stream, api_name="textgen"))
gen_events.append(textbox.submit(chatbot_wrapper, input_params, display, show_progress=args.no_stream))
gen_events.append(buttons["Regenerate"].click(regenerate_wrapper, input_params, display, show_progress=args.no_stream))
gen_events.append(buttons["Impersonate"].click(impersonate_wrapper, input_params, textbox, show_progress=args.no_stream))
buttons["Send last reply to input"].click(send_last_reply_to_input, [], textbox, show_progress=args.no_stream)
buttons["Replace last reply"].click(replace_last_reply, [textbox, name1, name2], display, show_progress=args.no_stream)
buttons["Clear"].click(clear_chat_log, [character_menu, name1, name2], display)
buttons["Remove last"].click(remove_last_message, [name1, name2], [display, textbox], show_progress=False)
buttons["Stop"].click(None, None, None, cancels=gen_events)
buttons["Download"].click(save_history, inputs=[], outputs=[download])
buttons["Upload character"].click(upload_character, [upload_char, upload_img], [character_menu])
for i in ["Generate", "Regenerate", "Replace last reply"]:
buttons[i].click(lambda x: "", textbox, textbox, show_progress=False)
textbox.submit(lambda x: "", textbox, textbox, show_progress=False)
character_menu.change(load_character, [character_menu, name1, name2], [name2, context, display])
upload_img_tavern.upload(upload_tavern_character, [upload_img_tavern, name1, name2], [character_menu])
upload.upload(load_history, [upload, name1, name2], [])
upload_img_me.upload(upload_your_profile_picture, [upload_img_me], [])
if args.cai_chat:
upload.upload(redraw_html, [name1, name2], [display])
upload_img_me.upload(redraw_html, [name1, name2], [display])
else:
upload.upload(lambda : history['visible'], [], [display])
upload_img_me.upload(lambda : history['visible'], [], [display])
elif args.notebook:
with gr.Blocks(css=css, analytics_enabled=False) as interface:
gr.Markdown(description)
with gr.Tab('Raw'):
textbox = gr.Textbox(value=default_text, lines=23)
with gr.Tab('Markdown'):
markdown = gr.Markdown()
with gr.Tab('HTML'):
html = gr.HTML()
buttons["Generate"] = gr.Button("Generate")
buttons["Stop"] = gr.Button("Stop")
max_new_tokens = gr.Slider(minimum=settings['max_new_tokens_min'], maximum=settings['max_new_tokens_max'], step=1, label='max_new_tokens', value=settings['max_new_tokens'])
preset_menu, do_sample, temperature, top_p, typical_p, repetition_penalty, top_k, min_length, no_repeat_ngram_size, num_beams, length_penalty, early_stopping = create_settings_menus()
if args.extensions is not None:
create_extensions_block()
gen_events.append(buttons["Generate"].click(generate_reply, [textbox, max_new_tokens, do_sample, max_new_tokens, temperature, top_p, typical_p, repetition_penalty, top_k, min_length, no_repeat_ngram_size, num_beams, length_penalty, early_stopping], [textbox, markdown, html], show_progress=args.no_stream, api_name="textgen"))
gen_events.append(textbox.submit(generate_reply, [textbox, max_new_tokens, do_sample, max_new_tokens, temperature, top_p, typical_p, repetition_penalty, top_k, min_length, no_repeat_ngram_size, num_beams, length_penalty, early_stopping], [textbox, markdown, html], show_progress=args.no_stream))
buttons["Stop"].click(None, None, None, cancels=gen_events)
else:
with gr.Blocks(css=css, analytics_enabled=False) as interface:
gr.Markdown(description)
with gr.Row():
with gr.Column():
textbox = gr.Textbox(value=default_text, lines=15, label='Input')
max_new_tokens = gr.Slider(minimum=settings['max_new_tokens_min'], maximum=settings['max_new_tokens_max'], step=1, label='max_new_tokens', value=settings['max_new_tokens'])
buttons["Generate"] = gr.Button("Generate")
with gr.Row():
with gr.Column():
buttons["Continue"] = gr.Button("Continue")
with gr.Column():
buttons["Stop"] = gr.Button("Stop")
preset_menu, do_sample, temperature, top_p, typical_p, repetition_penalty, top_k, min_length, no_repeat_ngram_size, num_beams, length_penalty, early_stopping = create_settings_menus()
if args.extensions is not None:
create_extensions_block()
with gr.Column():
with gr.Tab('Raw'):
output_textbox = gr.Textbox(lines=15, label='Output')
with gr.Tab('Markdown'):
markdown = gr.Markdown()
with gr.Tab('HTML'):
html = gr.HTML()
gen_events.append(buttons["Generate"].click(generate_reply, [textbox, max_new_tokens, do_sample, max_new_tokens, temperature, top_p, typical_p, repetition_penalty, top_k, min_length, no_repeat_ngram_size, num_beams, length_penalty, early_stopping], [output_textbox, markdown, html], show_progress=args.no_stream, api_name="textgen"))
gen_events.append(textbox.submit(generate_reply, [textbox, max_new_tokens, do_sample, max_new_tokens, temperature, top_p, typical_p, repetition_penalty, top_k, min_length, no_repeat_ngram_size, num_beams, length_penalty, early_stopping], [output_textbox, markdown, html], show_progress=args.no_stream))
gen_events.append(buttons["Continue"].click(generate_reply, [output_textbox, max_new_tokens, do_sample, max_new_tokens, temperature, top_p, typical_p, repetition_penalty, top_k, min_length, no_repeat_ngram_size, num_beams, length_penalty, early_stopping], [output_textbox, markdown, html], show_progress=args.no_stream))
buttons["Stop"].click(None, None, None, cancels=gen_events)
interface.queue()
if args.listen:
interface.launch(prevent_thread_lock=True, share=args.share, server_name="0.0.0.0", server_port=args.listen_port)
else:
interface.launch(prevent_thread_lock=True, share=args.share, server_port=args.listen_port)
# I think that I will need this later
while True:
time.sleep(0.5)