SuperExpert / agents /legacy /jar3d_agent.py
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import json
from multiprocessing import Pool, cpu_count
# import requests
# from tenacity import RetryError
import re
import logging
import chainlit as cl
from termcolor import colored
from typing import Any, Dict, Union, List
from typing import TypedDict, Annotated
from langgraph.graph.message import add_messages
from agents.base_agent import BaseAgent
from utils.read_markdown import read_markdown_file
from tools.google_serper import serper_search, serper_shopping_search
from utils.logging import log_function, setup_logging
from tools.offline_graph_rag_tool import run_rag
from prompt_engineering.guided_json_lib import (
guided_json_search_query,
guided_json_best_url_two,
guided_json_router_decision,
guided_json_parse_expert,
guided_json_search_query_two
)
setup_logging(level=logging.DEBUG)
logger = logging.getLogger(__name__)
class MessageDict(TypedDict):
role: str
content: str
class State(TypedDict):
meta_prompt: Annotated[List[dict], add_messages]
conversation_history: Annotated[List[dict], add_messages]
requirements_gathering: Annotated[List[str], add_messages]
expert_plan: str
expert_research: Annotated[List[str], add_messages]
expert_research_shopping: Annotated[List[str], add_messages]
expert_writing: str
user_input: Annotated[List[str], add_messages]
previous_search_queries: Annotated[List[dict], add_messages]
router_decision: str
chat_limit: int
chat_finished: bool
recursion_limit: int
final_answer: str
state: State = {
"meta_prompt": [],
"conversation_history": [],
"requirements_gathering": [],
"expert_plan": [],
"expert_research": [],
"expert_research_shopping": [],
"expert_writing": [],
"user_input": [],
"previous_search_queries": [],
"router_decision": None,
"chat_limit": None,
"chat_finished": False,
"recursion_limit": None,
"final_answer": None
}
def chat_counter(state: State) -> State:
chat_limit = state.get("chat_limit")
if chat_limit is None:
chat_limit = 0
chat_limit += 1
state["chat_limit"] = chat_limit
return chat_limit
def routing_function(state: State) -> str:
decision = state["router_decision"]
print(colored(f"\n\n Routing function called. Decision: {decision}\n\n", 'green'))
return decision
def set_chat_finished(state: State) -> bool:
state["chat_finished"] = True
final_response = state["meta_prompt"][-1].content
print(colored(f"\n\n DEBUG FINAL RESPONSE: {final_response}\n\n", 'green'))
# Split the response at ">> FINAL ANSWER:"
parts = final_response.split(">> FINAL ANSWER:")
if len(parts) > 1:
answer_part = parts[1].strip()
# Remove any triple quotes
final_response_formatted = answer_part.strip('"""')
# Remove leading whitespace
final_response_formatted = final_response_formatted.lstrip()
# Remove the CoR dictionary at the end
cor_pattern = r'\nCoR\s*=\s*\{[\s\S]*\}\s*$'
final_response_formatted = re.sub(cor_pattern, '', final_response_formatted)
# Remove any trailing whitespace
final_response_formatted = final_response_formatted.rstrip()
# print(colored(f"\n\n DEBUG: {final_response_formatted}\n\n", 'green'))
print(colored(f"\n\n Jarvis👩‍💻: {final_response_formatted}", 'cyan'))
state["final_answer"] = f'''{final_response_formatted}'''
else:
print(colored("Error: Could not find '>> FINAL ANSWER:' in the response", 'red'))
state["final_answer"] = "Error: No final answer found"
return state
class Jar3d(BaseAgent[State]):
def __init__(self, model: str = None, server: str = None, temperature: float = 0,
model_endpoint: str = None, stop: str = None):
super().__init__(model, server, temperature, model_endpoint, stop)
self.llm = self.get_llm(json_model=False)
def get_prompt(self, state: State = None) -> str:
system_prompt_md = read_markdown_file('prompt_engineering/jar3d_requirements_prompt.md')
system_prompt = f"{system_prompt_md}\n <Type2> {state.get('final_answer', '')} </Type2>"
return system_prompt
def process_response(self, response: Any, user_input: str, state: State = None) -> Dict[str, List[Dict[str, str]]]:
updates_conversation_history = {
"requirements_gathering": [
{"role": "user", "content": f"{user_input}"},
{"role": "assistant", "content": str(response)}
]
}
return updates_conversation_history
def get_conv_history(self, state: State) -> str:
conversation_history = state.get('requirements_gathering', [])
return "\n".join([f"{msg['role']}: {msg['content']}" for msg in conversation_history])
def get_user_input(self) -> str:
pass
def get_guided_json(self, state: State) -> Dict[str, Any]:
pass
def use_tool(self) -> Any:
pass
def run_chainlit(self, state: State, message: cl.Message) -> State:
user_message = message.content
# system_prompt = self.get_prompt()
user_input = f"cogor:{user_message}"
# user_input = f"{system_prompt}\n cogor {user_message}"
state = self.invoke(state=state, user_input=user_input)
response = state['requirements_gathering'][-1]["content"]
response = re.sub(r'^```python[\s\S]*?```\s*', '', response, flags=re.MULTILINE)
response = response.lstrip()
return state, response
class MetaExpert(BaseAgent[State]):
def __init__(self, model: str = None, server: str = None, temperature: float = 0,
model_endpoint: str = None, stop: str = None):
super().__init__(model, server, temperature, model_endpoint, stop)
self.llm = self.get_llm(json_model=False)
def get_prompt(self, state:None) -> str:
system_prompt = read_markdown_file('prompt_engineering/jar3d_meta_prompt.md')
return system_prompt
def process_response(self, response: Any, user_input: str, state: State = None) -> Dict[str, List[MessageDict]]:
user_input = None
updates_conversation_history = {
"meta_prompt": [
{"role": "user", "content": f"{user_input}"},
{"role": "assistant", "content": str(response)}
]
}
return updates_conversation_history
# @log_function(logger)
def get_conv_history(self, state: State) -> str:
all_expert_research = []
if state["expert_research"]:
expert_research = state["expert_research"]
all_expert_research.extend(expert_research)
else:
all_expert_research = []
expert_message_history = f"""
<expert_plan>
## Your Expert Plan:\n{state.get("expert_plan", [])}\n
</expert_plan>
<expert_writing>
## Your Expert Writing:\n{state.get("expert_writing", [])}\n
</expert_writing>
<internet_research_shopping_list>
## Your Expert Shopping List:\n{state.get("expert_research_shopping", [])}\n
</internet_research_shopping_list>
<internet_research>
## Your Expert Research:{all_expert_research}\n
</internet_research>
"""
return expert_message_history
def get_user_input(self) -> str:
user_input = input("Enter your query: ")
return user_input
def get_guided_json(self, state: State) -> Dict[str, Any]:
pass
def use_tool(self) -> Any:
pass
@log_function(logger)
def run(self, state: State) -> State:
counter = chat_counter(state) # Counts every time we invoke the Meta Agent
recursion_limit = state.get("recursion_limit")
recursions = 3*counter - 2
print(colored(f"\n\n * We have envoked the Meta-Agent {counter} times.\n * we have run {recursions} max total iterations: {recursion_limit}\n\n", "green"))
upper_limit_recursions = recursion_limit
lower_limit_recursions = recursion_limit - 2
if recursions >= lower_limit_recursions and recursions <= upper_limit_recursions:
final_answer = "**You are being explicitly told to produce your [Type 2] work now!**"
elif recursions > upper_limit_recursions:
extra_recursions = recursions - upper_limit_recursions
base_message = "**You are being explicitly told to produce your [Type 2] work now!**"
final_answer = (base_message + "\n") * (extra_recursions + 1)
else:
final_answer = None
try:
requirements = state['requirements_gathering'][-1]["content"]
except:
requirements = state['requirements_gathering'][-1].content
formatted_requirements = '\n\n'.join(re.findall(r'```python\s*([\s\S]*?)\s*```', requirements, re.MULTILINE))
print(colored(f"\n\n User Requirements: {formatted_requirements}\n\n", 'green'))
if state.get("meta_prompt"):
try:
meta_prompt = state['meta_prompt'][-1]["content"]
except:
meta_prompt = state['meta_prompt'][-1].content
# print(colored(f"\n\n DEBUG Meta-Prompt: {meta_prompt}\n\n", 'yellow'))
cor_match = '\n\n'.join(re.findall(r'```python\s*([\s\S]*?)\s*```', meta_prompt, re.MULTILINE))
# print(colored(f"\n\n DEBUG CoR Match: {cor_match}\n\n", 'yellow'))
user_input = f"<requirements>{formatted_requirements}</requirements> \n\n Here is your last CoR {cor_match} update your next CoR from here."
else:
user_input = formatted_requirements
state = self.invoke(state=state, user_input=user_input, final_answer=final_answer)
meta_prompt_cor = state['meta_prompt'][-1]["content"]
print(colored(f"\n\n Meta-Prompt Chain of Reasoning: {meta_prompt_cor}\n\n", 'green'))
return state
class NoToolExpert(BaseAgent[State]):
def __init__(self, model: str = None, server: str = None, temperature: float = 0,
model_endpoint: str = None, stop: str = None):
super().__init__(model, server, temperature, model_endpoint, stop)
self.llm = self.get_llm(json_model=False)
def get_prompt(self, state) -> str:
# print(f"\nn{state}\n")
system_prompt = state["meta_prompt"][-1].content
return system_prompt
def process_response(self, response: Any, user_input: str = None, state: State = None) -> Dict[str, Union[str, dict]]:
# meta_prompts = state.get("meta_prompt", [])
associated_meta_prompt = state["meta_prompt"][-1].content
parse_expert = self.get_llm(json_model=True)
parse_expert_prompt = """
You must parse the expert from the text. The expert will be one of the following.
1. Expert Planner
2. Expert Writer
Return your response as the following JSON
{{"expert": "Expert Planner" or "Expert Writer"}}
"""
input = [
{"role": "user", "content": associated_meta_prompt},
{"role": "assistant", "content": f"system_prompt:{parse_expert_prompt}"}
]
retries = 0
associated_expert = None
while retries < 4 and associated_expert is None:
retries += 1
if self.server == 'vllm':
guided_json = guided_json_parse_expert
parse_expert_response = parse_expert.invoke(input, guided_json)
else:
parse_expert_response = parse_expert.invoke(input)
associated_expert_json = json.loads(parse_expert_response)
associated_expert = associated_expert_json.get("expert")
# associated_expert = parse_expert_text(associated_meta_prompt)
print(colored(f"\n\n Expert: {associated_expert}\n\n", 'green'))
if associated_expert == "Expert Planner":
expert_update_key = "expert_plan"
if associated_expert == "Expert Writer":
expert_update_key = "expert_writing"
updates_conversation_history = {
"conversation_history": [
{"role": "user", "content": user_input},
{"role": "assistant", "content": f"{str(response)}"}
],
expert_update_key: {"role": "assistant", "content": f"{str(response)}"}
}
return updates_conversation_history
def get_conv_history(self, state: State) -> str:
pass
def get_user_input(self) -> str:
pass
def get_guided_json(self, state: State) -> Dict[str, Any]:
pass
def use_tool(self) -> Any:
pass
# @log_function(logger)
def run(self, state: State) -> State:
# chat_counter(state)
all_expert_research = []
meta_prompt = state["meta_prompt"][1].content
if state.get("expert_research"):
expert_research = state["expert_research"]
all_expert_research.extend(expert_research)
research_prompt = f"\n Your response must be delivered considering following research.\n ## Research\n {all_expert_research} "
user_input = f"{meta_prompt}\n{research_prompt}"
else:
user_input = meta_prompt
state = self.invoke(state=state, user_input=user_input)
return state
class ToolExpert(BaseAgent[State]):
def __init__(self, model: str = None, server: str = None, temperature: float = 0,
model_endpoint: str = None, stop: str = None, location: str = None):
super().__init__(model, server, temperature, model_endpoint, stop, location)
print(f"\n\n DEBUG LOCATION: {self.location}")
self.llm = self.get_llm(json_model=False)
def get_prompt(self, state) -> str:
system_prompt = state["meta_prompt"][-1].content
return system_prompt
def process_response(self, response: Any, user_input: str = None, state: State = None) -> Dict[str, Union[str, dict]]:
updates_conversation_history = {
"conversation_history": [
{"role": "user", "content": user_input},
{"role": "assistant", "content": f"{str(response)}"}
],
"expert_research": {"role": "assistant", "content": f"{str(response)}"}
}
return updates_conversation_history
def get_conv_history(self, state: State) -> str:
pass
def get_user_input(self) -> str:
pass
def get_guided_json(self, state: State) -> Dict[str, Any]:
pass
def use_tool(self, mode: str, engine: str, tool_input: str, query: str = None) -> Any:
if mode == "serper":
if engine == "search":
results = serper_search(tool_input, self.location)
return {"results": results, "is_shopping": False}
elif engine == "shopping":
results = serper_shopping_search(tool_input, self.location)
return {"results": results, "is_shopping": True}
elif mode == "rag":
results = run_rag(urls=tool_input, query=query)
return {"results": results, "is_shopping": False}
def generate_search_queries(self, meta_prompt: str, num_queries: int = 5) -> List[str]:
refine_query_template = """
# Objective
Your mission is to systematically address your manager's instructions by determining
the most appropriate search queries to use **AND** to determine the best engine to use for each query.
Your engine choice is either search, or shopping. You must return either the search or shopping engine for each query.
You will generate {num_queries} different search queries.
# Manager's Instructions
{manager_instructions}
# Flexible Search Algorithm for Simple and Complex Questions
1. Initial search:
- For a simple question: "[Question keywords]"
- For a complex topic: "[Main topic] overview"
2. For each subsequent search:
- Choose one of these strategies:
a. Specify:
Add a more specific term or aspect related to the topic.
b. Broaden:
Remove a specific term or add "general" or "overview" to the query.
c. Pivot:
Choose a different but related term from the topic.
d. Compare:
Add "vs" or "compared to" along with a related term.
e. Question:
Rephrase the query as a question by adding "what", "how", "why", etc.
# Response Format
**Return the following JSON:**
{{
"search_queries": [
{{"engine": "search", "query": "Query 1"}},
{{"engine": "shopping", "query": "Query 2"}},
...
{{"engine": "search", "query": "Query {num_queries}"}}
]
}}
Remember:
- Generate {num_queries} unique and diverse search queries.
- Each query should explore a different aspect or approach to the topic.
- Ensure the queries cover various aspects of the manager's instructions.
- The "engine" field should be either "search" or "shopping" for each query.
"""
refine_query = self.get_llm(json_model=True)
refine_prompt = refine_query_template.format(manager_instructions=meta_prompt, num_queries=num_queries)
input = [
{"role": "user", "content": "Generate search queries"},
{"role": "assistant", "content": f"system_prompt:{refine_prompt}"}
]
guided_json = guided_json_search_query_two
if self.server == 'vllm':
refined_queries = refine_query.invoke(input, guided_json)
else:
refined_queries = refine_query.invoke(input)
refined_queries_json = json.loads(refined_queries)
return refined_queries_json.get("search_queries", [])
def process_serper_result(self, query, serper_response ):
best_url_template = """
Given the serper results, and the search query, select the best URL
# Search Query
{search_query}
# Serper Results
{serper_results}
**Return the following JSON:**
{{"best_url": The URL of the serper results that aligns most with the search query.}}
"""
best_url = self.get_llm(json_model=True)
best_url_prompt = best_url_template.format(search_query=query["query"], serper_results=serper_response)
input = [
{"role": "user", "content": serper_response},
{"role": "assistant", "content": f"system_prompt:{best_url_prompt}"}
]
guided_json = guided_json_best_url_two
if self.server == 'vllm':
best_url = best_url.invoke(input, guided_json)
else:
best_url = best_url.invoke(input)
best_url_json = json.loads(best_url)
return {"query": query, "url": best_url_json.get("best_url")}
# return best_url_json.get("best_url")
def run(self, state: State) -> State:
meta_prompt = state["meta_prompt"][-1].content
print(colored(f"\n\n Meta-Prompt: {meta_prompt}\n\n", 'green'))
# Generate multiple search queries
search_queries = self.generate_search_queries(meta_prompt, num_queries=5)
print(colored(f"\n\n Generated Search Queries: {search_queries}\n\n", 'green'))
try:
# Use multiprocessing to call Serper tool for each query in parallel
with Pool(processes=min(cpu_count(), len(search_queries))) as pool:
serper_results = pool.starmap(
self.use_tool,
[("serper", query["engine"], query["query"], None) for query in search_queries]
)
# Collect shopping results separately
shopping_results = [result["results"] for result in serper_results if result["is_shopping"]]
if shopping_results:
state["expert_research_shopping"] = shopping_results
# Process Serper results to get best URLs
with Pool(processes=min(cpu_count(), len(serper_results))) as pool:
best_urls = pool.starmap(
self.process_serper_result,
[(query, result["results"]) for query, result in zip(search_queries, serper_results)]
# zip(search_queries, serper_results)
)
except Exception as e:
print(colored(f"Error in multithreaded processing: {str(e)}. Falling back to non-multithreaded approach.", "yellow"))
# Fallback to non-multithreaded approach
serper_results = [self.use_tool("serper", query["engine"], query["query"], None) for query in search_queries]
shopping_results = [result["results"] for result in serper_results if result["is_shopping"]]
if shopping_results:
state["expert_research_shopping"] = shopping_results
best_urls = [self.process_serper_result(query, result) for query, result in zip(search_queries, serper_results)]
# Remove duplicates from the list of URLs
unique_urls = list(dict.fromkeys(result["url"] for result in best_urls if result["url"] and result["query"]["engine"] == "search"))
# unique_urls = list(dict.fromkeys(url for url in best_urls if url))
print(colored("\n\n Sourced data from {} sources:".format(len(unique_urls)), 'green'))
for i, url in enumerate(unique_urls, 1):
print(colored(" {}. {}".format(i, url), 'green'))
print()
try:
scraper_response = self.use_tool("rag", engine=None, tool_input=unique_urls, query=meta_prompt)
except Exception as e:
scraper_response = {"results": f"Error {e}: Failed to scrape results", "is_shopping": False}
updates = self.process_response(scraper_response, user_input="Research")
for key, value in updates.items():
state = self.update_state(key, value, state)
return state
class Router(BaseAgent[State]):
def __init__(self, model: str = None, server: str = None, temperature: float = 0,
model_endpoint: str = None, stop: str = None):
super().__init__(model, server, temperature, model_endpoint, stop)
self.llm = self.get_llm(json_model=True)
def get_prompt(self, state) -> str:
system_prompt = state["meta_prompt"][-1].content
return system_prompt
def process_response(self, response: Any, user_input: str = None, state: State = None) -> Dict[str, Union[str, dict]]:
updates_conversation_history = {
"router_decision": [
{"role": "user", "content": user_input},
{"role": "assistant", "content": f"{str(response)}"}
]
}
return updates_conversation_history
def get_conv_history(self, state: State) -> str:
pass
def get_user_input(self) -> str:
pass
def get_guided_json(self, state: State) -> Dict[str, Any]:
pass
def use_tool(self, tool_input: str, mode: str) -> Any:
pass
# @log_function(logger)
def run(self, state: State) -> State:
router_template = """
Given these instructions from your manager.
# Response from Manager
{manager_response}
**Return the following JSON:**
{{""router_decision: Return the next agent to pass control to.}}
**strictly** adhere to these **guidelines** for routing.
If your maneger's response contains "Expert Internet Researcher", return "tool_expert".
If your manager's response contains "Expert Planner" or "Expert Writer", return "no_tool_expert".
If your manager's response contains '>> FINAL ANSWER:', return "end_chat".
"""
system_prompt = router_template.format(manager_response=state["meta_prompt"][-1].content)
input = [
{"role": "user", "content": ""},
{"role": "assistant", "content": f"system_prompt:{system_prompt}"}
]
router = self.get_llm(json_model=True)
if self.server == 'vllm':
guided_json = guided_json_router_decision
router_response = router.invoke(input, guided_json)
else:
router_response = router.invoke(input)
router_response = json.loads(router_response)
router_response = router_response.get("router_decision")
state = self.update_state("router_decision", router_response, state)
return state