#!/usr/bin/env python # coding=utf-8 # Copyright 2023 Statistics and Machine Learning Research Group at HKUST. All rights reserved. """A simple shell chatbot implemented with lmflow APIs. """ import logging import json import os import sys sys.path.remove(os.path.abspath(os.path.dirname(sys.argv[0]))) import torch import warnings import gradio as gr from dataclasses import dataclass, field from transformers import HfArgumentParser from typing import Optional from lmflow.datasets.dataset import Dataset from lmflow.pipeline.auto_pipeline import AutoPipeline from lmflow.models.auto_model import AutoModel from lmflow.args import ModelArguments, DatasetArguments, AutoArguments MAX_BOXES = 20 logging.disable(logging.ERROR) warnings.filterwarnings("ignore") title = """

LMFlow-CHAT

LMFlow

LMFlow is in extensible, convenient, and efficient toolbox for finetuning large machine learning models, designed to be user-friendly, speedy and reliable, and accessible to the entire community.

We have thoroughly tested this toolkit and are pleased to make it available under Github.

""" css = """ #user { float: right; position:relative; right:5px; width:auto; min-height:32px; max-width: 60% line-height: 32px; padding: 2px 8px; font-size: 14px; background: #9DC284; border-radius:5px; margin:10px 0px; } #chatbot { float: left; position:relative; right:5px; width:auto; min-height:32px; max-width: 60% line-height: 32px; padding: 2px 8px; font-size: 14px; background:#7BA7D7; border-radius:5px; margin:10px 0px; } """ @dataclass class ChatbotArguments: prompt_structure: Optional[str] = field( default="###Human: {input_text}###Assistant:", metadata={ "help": "prompt structure given user's input text" }, ) end_string: Optional[str] = field( default="#", metadata={ "help": "end string mark of the chatbot's output" }, ) max_new_tokens: Optional[int] = field( default=1500, metadata={ "help": "maximum number of generated tokens" }, ) temperature: Optional[float] = field( default=0.7, metadata={ "help": "higher this value, more random the model output" }, ) def main(): pipeline_name = "inferencer" PipelineArguments = AutoArguments.get_pipeline_args_class(pipeline_name) parser = HfArgumentParser(( ModelArguments, PipelineArguments, ChatbotArguments, )) model_args, pipeline_args, chatbot_args = ( parser.parse_args_into_dataclasses() ) model_args.model_name_or_path = "LMFlow/Full-Robin-7b-v2" pipeline_args.deepspeed = "configs/ds_config_chatbot.json" model_args.torch_dtype = "float16" with open (pipeline_args.deepspeed, "r") as f: ds_config = json.load(f) model = AutoModel.get_model( model_args, tune_strategy='none', ds_config=ds_config, device=pipeline_args.device, torch_dtype=torch.float16 ) # We don't need input data, we will read interactively from stdin data_args = DatasetArguments(dataset_path=None) dataset = Dataset(data_args) inferencer = AutoPipeline.get_pipeline( pipeline_name=pipeline_name, model_args=model_args, data_args=data_args, pipeline_args=pipeline_args, ) # Chats model_name = model_args.model_name_or_path if model_args.lora_model_path is not None: model_name += f" + {model_args.lora_model_path}" # context = ( # "You are a helpful assistant who follows the given instructions" # " unconditionally." # ) end_string = chatbot_args.end_string prompt_structure = chatbot_args.prompt_structure token_per_step = 4 def hist2context(hist): context = "" for query, response in hist: context += prompt_structure.format(input_text=query) if not (response is None): context += response return context def chat_stream(query: str, history= None, **kwargs): if history is None: history = [] context = hist2context(history) print_index = 0 context += prompt_structure.format(input_text=query) context_ = context[-model.get_max_length():] input_dataset = dataset.from_dict({ "type": "text_only", "instances": [ { "text": context_ } ] }) print(context_) for response, flag_break in inferencer.stream_inference(context=context_, model=model, max_new_tokens=chatbot_args.max_new_tokens, token_per_step=token_per_step, temperature=chatbot_args.temperature, end_string=end_string, input_dataset=input_dataset): delta = response[print_index:] seq = response print_index = len(response) yield delta, history + [(query, seq)] if flag_break: break def predict(input, history=None): if history is None: history = [] for response, history in chat_stream(input, history): updates = [] for query, response in history: updates.append(gr.update(visible=True, value="" + query)) updates.append(gr.update(visible=True, value="" + response)) if len(updates) < MAX_BOXES: updates = updates + [gr.Textbox.update(visible=False)] * (MAX_BOXES - len(updates)) yield [history] + updates with gr.Blocks(css=css) as demo: gr.HTML(title) state = gr.State([]) text_boxes = [] for i in range(MAX_BOXES): if i % 2 == 0: text_boxes.append(gr.Markdown(visible=False, label="Q:", elem_id="user")) else: text_boxes.append(gr.Markdown(visible=False, label="A:", elem_id="chatbot")) txt = gr.Textbox( show_label=False, placeholder="Enter text and press send.", ) button = gr.Button("Send") button.click(predict, [txt, state], [state] + text_boxes) demo.queue().launch() if __name__ == "__main__": main()