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ChatDev/chatdev/chat_env.py
NA-Wen 1b5b5f43a6 ECL initial commit
2024-01-25 10:10:15 +08:00

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import os
import re
import shutil
import signal
import subprocess
import time
from typing import Dict
import openai
import requests
from chatdev.codes import Codes
from chatdev.documents import Documents
from chatdev.roster import Roster
from chatdev.utils import log_visualize
from ecl.memory import Memory
try:
from openai.types.chat.chat_completion_message_tool_call import ChatCompletionMessageToolCall
from openai.types.chat.chat_completion_message import FunctionCall
openai_new_api = True # new openai api version
except ImportError:
openai_new_api = False # old openai api version
class ChatEnvConfig:
def __init__(self, clear_structure,
gui_design,
git_management,
incremental_develop,
background_prompt,
with_memory):
self.clear_structure = clear_structure # Whether to clear non-software files in the WareHouse and cache files in generated software path
self.gui_design = gui_design # Encourage ChatDev generate software with GUI
self.git_management = git_management # Whether to use git to manage the creation and changes of generated software
self.incremental_develop = incremental_develop # Whether to use incremental develop on an existing project
self.background_prompt = background_prompt # background prompt that will be added to every inquiry to LLM
self.with_memory = with_memory # Wheter to use memroy in the interaction between agents
def __str__(self):
string = ""
string += "ChatEnvConfig.with_memory: {}\n".format(self.with_memory)
string += "ChatEnvConfig.clear_structure: {}\n".format(self.clear_structure)
string += "ChatEnvConfig.git_management: {}\n".format(self.git_management)
string += "ChatEnvConfig.gui_design: {}\n".format(self.gui_design)
string += "ChatEnvConfig.incremental_develop: {}\n".format(self.incremental_develop)
string += "ChatEnvConfig.background_prompt: {}\n".format(self.background_prompt)
return string
class ChatEnv:
def __init__(self, chat_env_config: ChatEnvConfig):
self.config = chat_env_config
self.roster: Roster = Roster()
self.codes: Codes = Codes()
self.memory: Memory = Memory()
self.proposed_images: Dict[str, str] = {}
self.incorporated_images: Dict[str, str] = {}
self.requirements: Documents = Documents()
self.manuals: Documents = Documents()
self.env_dict = {
"directory": "",
"task_prompt": "",
"task_description":"",
"modality": "",
"ideas": "",
"language": "",
"review_comments": "",
"error_summary": "",
"test_reports": ""
}
@staticmethod
def fix_module_not_found_error(test_reports):
if "ModuleNotFoundError" in test_reports:
for match in re.finditer(r"No module named '(\S+)'", test_reports, re.DOTALL):
module = match.group(1)
subprocess.Popen("pip install {}".format(module), shell=True).wait()
log_visualize("**[CMD Execute]**\n\n[CMD] pip install {}".format(module))
def set_directory(self, directory):
assert len(self.env_dict['directory']) == 0
self.env_dict['directory'] = directory
self.codes.directory = directory
self.requirements.directory = directory
self.manuals.directory = directory
if os.path.exists(self.env_dict['directory']) and len(os.listdir(directory)) > 0:
new_directory = "{}.{}".format(directory, time.strftime("%Y%m%d%H%M%S", time.localtime()))
shutil.copytree(directory, new_directory)
print("{} Copied to {}".format(directory, new_directory))
if os.path.exists(self.env_dict['directory']):
shutil.rmtree(self.env_dict['directory'])
os.mkdir(self.env_dict['directory'])
print("{} Created".format(directory))
else:
os.mkdir(self.env_dict['directory'])
def init_memory(self):
self.memory.id_enabled = True
self.memory.directory = os.path.join(os.getcwd(),"ecl","memory")
if not os.path.exists(self.memory.directory):
os.mkdir(self.memory.directory)
self.memory.upload()
def exist_bugs(self) -> tuple[bool, str]:
directory = self.env_dict['directory']
success_info = "The software run successfully without errors."
try:
# check if we are on windows or linux
if os.name == 'nt':
command = "cd {} && dir && python main.py".format(directory)
process = subprocess.Popen(
command,
shell=True,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
creationflags=subprocess.CREATE_NEW_PROCESS_GROUP
)
else:
command = "cd {}; ls -l; python3 main.py;".format(directory)
process = subprocess.Popen(command,
shell=True,
preexec_fn=os.setsid,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE
)
time.sleep(3)
return_code = process.returncode
# Check if the software is still running
if process.poll() is None:
if "killpg" in dir(os):
os.killpg(os.getpgid(process.pid), signal.SIGTERM)
else:
os.kill(process.pid, signal.SIGTERM)
if process.poll() is None:
os.kill(process.pid, signal.CTRL_BREAK_EVENT)
if return_code == 0:
return False, success_info
else:
error_output = process.stderr.read().decode('utf-8')
if error_output:
if "Traceback".lower() in error_output.lower():
errs = error_output.replace(directory + "/", "")
return True, errs
else:
return False, success_info
except subprocess.CalledProcessError as e:
return True, f"Error: {e}"
except Exception as ex:
return True, f"An error occurred: {ex}"
return False, success_info
def recruit(self, agent_name: str):
self.roster._recruit(agent_name)
def exist_employee(self, agent_name: str) -> bool:
return self.roster._exist_employee(agent_name)
def print_employees(self):
self.roster._print_employees()
def update_codes(self, generated_content):
self.codes._update_codes(generated_content)
def rewrite_codes(self, phase_info=None) -> None:
self.codes._rewrite_codes(self.config.git_management, phase_info)
def get_codes(self) -> str:
return self.codes._get_codes()
def _load_from_hardware(self, directory) -> None:
self.codes._load_from_hardware(directory)
def _update_requirements(self, generated_content):
self.requirements._update_docs(generated_content)
def rewrite_requirements(self):
self.requirements._rewrite_docs()
def get_requirements(self) -> str:
return self.requirements._get_docs()
def _update_manuals(self, generated_content):
self.manuals._update_docs(generated_content, parse=False, predifined_filename="manual.md")
def rewrite_manuals(self):
self.manuals._rewrite_docs()
def write_meta(self) -> None:
directory = self.env_dict['directory']
if not os.path.exists(directory):
os.mkdir(directory)
print("{} Created.".format(directory))
meta_filename = "meta.txt"
with open(os.path.join(directory, meta_filename), "w", encoding="utf-8") as writer:
writer.write("{}:\n{}\n\n".format("Task", self.env_dict['task_prompt']))
writer.write("{}:\n{}\n\n".format("Config", self.config.__str__()))
writer.write("{}:\n{}\n\n".format("Roster", ", ".join(self.roster.agents)))
writer.write("{}:\n{}\n\n".format("Modality", self.env_dict['modality']))
writer.write("{}:\n{}\n\n".format("Ideas", self.env_dict['ideas']))
writer.write("{}:\n{}\n\n".format("Language", self.env_dict['language']))
writer.write("{}:\n{}\n\n".format("Code_Version", self.codes.version))
writer.write("{}:\n{}\n\n".format("Proposed_images", len(self.proposed_images.keys())))
writer.write("{}:\n{}\n\n".format("Incorporated_images", len(self.incorporated_images.keys())))
print(os.path.join(directory, meta_filename), "Wrote")
def generate_images_from_codes(self):
def download(img_url, file_name):
r = requests.get(img_url)
filepath = os.path.join(self.env_dict['directory'], file_name)
if os.path.exists(filepath):
os.remove(filepath)
with open(filepath, "wb") as f:
f.write(r.content)
print("{} Downloaded".format(filepath))
regex = r"(\w+.png)"
joined_codes = self.get_codes()
matches = re.finditer(regex, joined_codes, re.DOTALL)
# matched_images = {}
for match in matches:
filename = match.group(1).strip()
if filename in self.proposed_images.keys():
self.incorporated_images[filename] = self.proposed_images[filename]
else:
self.incorporated_images[filename] = filename.replace("_", " ")
for filename in self.incorporated_images.keys():
if not os.path.exists(os.path.join(self.env_dict['directory'], filename)):
desc = self.incorporated_images[filename]
if desc.endswith(".png"):
desc = desc.replace(".png", "")
print("{}: {}".format(filename, desc))
if openai_new_api:
response = openai.images.generate(
prompt=desc,
n=1,
size="256x256"
)
image_url = response.data[0].url
else:
response = openai.Image.create(
prompt=desc,
n=1,
size="256x256"
)
image_url = response['data'][0]['url']
download(image_url, filename)
def get_proposed_images_from_message(self, messages):
def download(img_url, file_name):
r = requests.get(img_url)
filepath = os.path.join(self.env_dict['directory'], file_name)
if os.path.exists(filepath):
os.remove(filepath)
with open(filepath, "wb") as f:
f.write(r.content)
print("{} Downloaded".format(filepath))
regex = r"(\w+.png):(.*?)\n"
matches = re.finditer(regex, messages, re.DOTALL)
images = {}
for match in matches:
filename = match.group(1).strip()
desc = match.group(2).strip()
images[filename] = desc
if len(images.keys()) == 0:
regex = r"(\w+.png)"
matches = re.finditer(regex, messages, re.DOTALL)
images = {}
for match in matches:
filename = match.group(1).strip()
desc = " ".join(filename.replace(".png", "").split("_"))
images[filename] = desc
print("{}: {}".format(filename, images[filename]))
for filename in images.keys():
if not os.path.exists(os.path.join(self.env_dict['directory'], filename)):
desc = images[filename]
if desc.endswith(".png"):
desc = desc.replace(".png", "")
print("{}: {}".format(filename, desc))
if openai_new_api:
response = openai.images.generate(
prompt=desc,
n=1,
size="256x256"
)
image_url = response.data[0].url
else:
response = openai.Image.create(
prompt=desc,
n=1,
size="256x256"
)
image_url = response['data'][0]['url']
download(image_url, filename)
return images
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