# -*- coding:utf-8 -*- from __future__ import annotations from typing import TYPE_CHECKING, Any, Callable, Dict, List, Tuple, Type import logging import json import os import datetime import hashlib import csv import requests import re import html import sys import subprocess import gradio as gr from pypinyin import lazy_pinyin import tiktoken import mdtex2html from markdown import markdown from pygments import highlight from pygments.lexers import get_lexer_by_name from pygments.formatters import HtmlFormatter import pandas as pd from modules.presets import * from . import shared from modules.config import retrieve_proxy if TYPE_CHECKING: from typing import TypedDict class DataframeData(TypedDict): headers: List[str] data: List[List[str | int | bool]] def predict(current_model, *args): iter = current_model.predict(*args) for i in iter: yield i def billing_info(current_model): return current_model.billing_info() def set_key(current_model, *args): return current_model.set_key(*args) def load_chat_history(current_model, *args): return current_model.load_chat_history(*args) def interrupt(current_model, *args): return current_model.interrupt(*args) def reset(current_model, *args): return current_model.reset(*args) def retry(current_model, *args): iter = current_model.retry(*args) for i in iter: yield i def delete_first_conversation(current_model, *args): return current_model.delete_first_conversation(*args) def delete_last_conversation(current_model, *args): return current_model.delete_last_conversation(*args) def set_system_prompt(current_model, *args): return current_model.set_system_prompt(*args) def save_chat_history(current_model, *args): return current_model.save_chat_history(*args) def export_markdown(current_model, *args): return current_model.export_markdown(*args) def load_chat_history(current_model, *args): return current_model.load_chat_history(*args) def set_token_upper_limit(current_model, *args): return current_model.set_token_upper_limit(*args) def set_temperature(current_model, *args): current_model.set_temperature(*args) def set_top_p(current_model, *args): current_model.set_top_p(*args) def set_n_choices(current_model, *args): current_model.set_n_choices(*args) def set_stop_sequence(current_model, *args): current_model.set_stop_sequence(*args) def set_max_tokens(current_model, *args): current_model.set_max_tokens(*args) def set_presence_penalty(current_model, *args): current_model.set_presence_penalty(*args) def set_frequency_penalty(current_model, *args): current_model.set_frequency_penalty(*args) def set_logit_bias(current_model, *args): current_model.set_logit_bias(*args) def set_user_identifier(current_model, *args): current_model.set_user_identifier(*args) def set_single_turn(current_model, *args): current_model.set_single_turn(*args) def handle_file_upload(current_model, *args): return current_model.handle_file_upload(*args) def count_token(message): encoding = tiktoken.get_encoding("cl100k_base") input_str = f"role: {message['role']}, content: {message['content']}" length = len(encoding.encode(input_str)) return length def markdown_to_html_with_syntax_highlight(md_str): def replacer(match): lang = match.group(1) or "text" code = match.group(2) try: lexer = get_lexer_by_name(lang, stripall=True) except ValueError: lexer = get_lexer_by_name("text", stripall=True) formatter = HtmlFormatter() highlighted_code = highlight(code, lexer, formatter) return f'
{highlighted_code}
'
code_block_pattern = r"```(\w+)?\n([\s\S]+?)\n```"
md_str = re.sub(code_block_pattern, replacer, md_str, flags=re.MULTILINE)
html_str = markdown(md_str)
return html_str
def normalize_markdown(md_text: str) -> str:
lines = md_text.split("\n")
normalized_lines = []
inside_list = False
for i, line in enumerate(lines):
if re.match(r"^(\d+\.|-|\*|\+)\s", line.strip()):
if not inside_list and i > 0 and lines[i - 1].strip() != "":
normalized_lines.append("")
inside_list = True
normalized_lines.append(line)
elif inside_list and line.strip() == "":
if i < len(lines) - 1 and not re.match(
r"^(\d+\.|-|\*|\+)\s", lines[i + 1].strip()
):
normalized_lines.append(line)
continue
else:
inside_list = False
normalized_lines.append(line)
return "\n".join(normalized_lines)
def convert_mdtext(md_text):
code_block_pattern = re.compile(r"```(.*?)(?:```|$)", re.DOTALL)
inline_code_pattern = re.compile(r"`(.*?)`", re.DOTALL)
code_blocks = code_block_pattern.findall(md_text)
non_code_parts = code_block_pattern.split(md_text)[::2]
result = []
for non_code, code in zip(non_code_parts, code_blocks + [""]):
if non_code.strip():
non_code = normalize_markdown(non_code)
if inline_code_pattern.search(non_code):
result.append(markdown(non_code, extensions=["tables"]))
else:
result.append(mdtex2html.convert(non_code, extensions=["tables"]))
if code.strip():
# _, code = detect_language(code) # 暂时去除代码高亮功能,因为在大段代码的情况下会出现问题
# code = code.replace("\n\n", "\n") # 暂时去除代码中的空行,因为在大段代码的情况下会出现问题
code = f"\n```{code}\n\n```"
code = markdown_to_html_with_syntax_highlight(code)
result.append(code)
result = "".join(result)
result += ALREADY_CONVERTED_MARK
return result
def convert_asis(userinput):
return (
f'{html.escape(userinput)}
' + ALREADY_CONVERTED_MARK ) def detect_converted_mark(userinput): try: if userinput.endswith(ALREADY_CONVERTED_MARK): return True else: return False except: return True def detect_language(code): if code.startswith("\n"): first_line = "" else: first_line = code.strip().split("\n", 1)[0] language = first_line.lower() if first_line else "" code_without_language = code[len(first_line) :].lstrip() if first_line else code return language, code_without_language def construct_text(role, text): return {"role": role, "content": text} def construct_user(text): return construct_text("user", text) def construct_system(text): return construct_text("system", text) def construct_assistant(text): return construct_text("assistant", text) def save_file(filename, system, history, chatbot, user_name): logging.debug(f"{user_name} 保存对话历史中……") os.makedirs(os.path.join(HISTORY_DIR, user_name), exist_ok=True) if filename.endswith(".json"): json_s = {"system": system, "history": history, "chatbot": chatbot} print(json_s) with open(os.path.join(HISTORY_DIR, user_name, filename), "w") as f: json.dump(json_s, f) elif filename.endswith(".md"): md_s = f"system: \n- {system} \n" for data in history: md_s += f"\n{data['role']}: \n- {data['content']} \n" with open(os.path.join(HISTORY_DIR, user_name, filename), "w", encoding="utf8") as f: f.write(md_s) logging.debug(f"{user_name} 保存对话历史完毕") return os.path.join(HISTORY_DIR, user_name, filename) def sorted_by_pinyin(list): return sorted(list, key=lambda char: lazy_pinyin(char)[0][0]) def get_file_names(dir, plain=False, filetypes=[".json"]): logging.debug(f"获取文件名列表,目录为{dir},文件类型为{filetypes},是否为纯文本列表{plain}") files = [] try: for type in filetypes: files += [f for f in os.listdir(dir) if f.endswith(type)] except FileNotFoundError: files = [] files = sorted_by_pinyin(files) if files == []: files = [""] logging.debug(f"files are:{files}") if plain: return files else: return gr.Dropdown.update(choices=files) def get_history_names(plain=False, user_name=""): logging.debug(f"从用户 {user_name} 中获取历史记录文件名列表") return get_file_names(os.path.join(HISTORY_DIR, user_name), plain) def load_template(filename, mode=0): logging.debug(f"加载模板文件{filename},模式为{mode}(0为返回字典和下拉菜单,1为返回下拉菜单,2为返回字典)") lines = [] if filename.endswith(".json"): with open(os.path.join(TEMPLATES_DIR, filename), "r", encoding="utf8") as f: lines = json.load(f) lines = [[i["act"], i["prompt"]] for i in lines] else: with open( os.path.join(TEMPLATES_DIR, filename), "r", encoding="utf8" ) as csvfile: reader = csv.reader(csvfile) lines = list(reader) lines = lines[1:] if mode == 1: return sorted_by_pinyin([row[0] for row in lines]) elif mode == 2: return {row[0]: row[1] for row in lines} else: choices = sorted_by_pinyin([row[0] for row in lines]) return {row[0]: row[1] for row in lines}, gr.Dropdown.update( choices=choices ) def get_template_names(plain=False): logging.debug("获取模板文件名列表") return get_file_names(TEMPLATES_DIR, plain, filetypes=[".csv", "json"]) def get_template_content(templates, selection, original_system_prompt): logging.debug(f"应用模板中,选择为{selection},原始系统提示为{original_system_prompt}") try: return templates[selection] except: return original_system_prompt def reset_textbox(): logging.debug("重置文本框") return gr.update(value="") def reset_default(): default_host = shared.state.reset_api_host() retrieve_proxy("") return gr.update(value=default_host), gr.update(value=""), "API-Host 和代理已重置" def change_api_host(host): shared.state.set_api_host(host) msg = f"API-Host更改为了{host}" logging.info(msg) return msg def change_proxy(proxy): retrieve_proxy(proxy) os.environ["HTTPS_PROXY"] = proxy msg = f"代理更改为了{proxy}" logging.info(msg) return msg def hide_middle_chars(s): if s is None: return "" if len(s) <= 8: return s else: head = s[:4] tail = s[-4:] hidden = "*" * (len(s) - 8) return head + hidden + tail def submit_key(key): key = key.strip() msg = f"API密钥更改为了{hide_middle_chars(key)}" logging.info(msg) return key, msg def replace_today(prompt): today = datetime.datetime.today().strftime("%Y-%m-%d") return prompt.replace("{current_date}", today) def get_geoip(): try: with retrieve_proxy(): response = requests.get("https://ipapi.co/json/", timeout=5) data = response.json() except: data = {"error": True, "reason": "连接ipapi失败"} if "error" in data.keys(): logging.warning(f"无法获取IP地址信息。\n{data}") if data["reason"] == "RateLimited": return ( i18n("您的IP区域:未知。") ) else: return i18n("获取IP地理位置失败。原因:") + f"{data['reason']}" + i18n("。你仍然可以使用聊天功能。") else: country = data["country_name"] if country == "China": text = "**您的IP区域:中国。请立即检查代理设置,在不受支持的地区使用API可能导致账号被封禁。**" else: text = i18n("您的IP区域:") + f"{country}。" logging.info(text) return text def find_n(lst, max_num): n = len(lst) total = sum(lst) if total < max_num: return n for i in range(len(lst)): if total - lst[i] < max_num: return n - i - 1 total = total - lst[i] return 1 def start_outputing(): logging.debug("显示取消按钮,隐藏发送按钮") return gr.Button.update(visible=False), gr.Button.update(visible=True) def end_outputing(): return ( gr.Button.update(visible=True), gr.Button.update(visible=False), ) def cancel_outputing(): logging.info("中止输出……") shared.state.interrupt() def transfer_input(inputs): # 一次性返回,降低延迟 textbox = reset_textbox() outputing = start_outputing() return ( inputs, gr.update(value=""), gr.Button.update(visible=False), gr.Button.update(visible=True), ) def run(command, desc=None, errdesc=None, custom_env=None, live=False): if desc is not None: print(desc) if live: result = subprocess.run(command, shell=True, env=os.environ if custom_env is None else custom_env) if result.returncode != 0: raise RuntimeError(f"""{errdesc or 'Error running command'}. Command: {command} Error code: {result.returncode}""") return "" result = subprocess.run(command, stdout=subprocess.PIPE, stderr=subprocess.PIPE, shell=True, env=os.environ if custom_env is None else custom_env) if result.returncode != 0: message = f"""{errdesc or 'Error running command'}. Command: {command} Error code: {result.returncode} stdout: {result.stdout.decode(encoding="utf8", errors="ignore") if len(result.stdout)>0 else '{txt}