Merge 4d32b3156b into 234138c75d

4 days ago · c1b2276d3a
parent 234138c75d 4d32b3156b
commit c1b2276d3a
2 changed files with 282 additions and 27 deletions
--- a/examples/agents/example_reasoningduo.py
+++ b/examples/agents/example_reasoningduo.py
@ -0,0 +1,97 @@
 from swarms.agents.reasoning_duo import ReasoningDuo
 from loguru import logger
 import time
 from dotenv import load_dotenv
 # Load environment variables from .env file
 load_dotenv()
 # Configure loguru to display more detailed information
 logger.remove()
 logger.add(lambda msg: print(msg), level="DEBUG")
 print("===== agent pool mechanism demonstration (Claude model) =====")
 # Example 1: When creating a agent for the first time, a new agent instance will be created and added to the pool
 print("\n[example1]: Creating the first ReasoningDuo instance (Configuration A)")
 duo_a1 = ReasoningDuo(
    system_prompt="You are a helpful assistant that can answer questions and help with tasks.",
    model_names=["claude-3-5-haiku-20241022", "claude-3-7-sonnet-20250219"],
    reasoning_model_name="claude-3-5-haiku-20241022",
    agent_name="finance-agent"
 )
 # use first agent to run a task
 print("\n[Example 1] Run a task using the first agent:")
 result = duo_a1.run(
    "What is the best possible financial strategy to maximize returns but minimize risk? Give a list of etfs to invest in and the percentage of the portfolio to allocate to each etf."
 )
 # example2: Create a second instance of the same configuration while the first instance is still in use
 print("\n[example2]: Creating the second ReasoningDuo instance (Configuration A)")
 duo_a2 = ReasoningDuo(
    system_prompt="You are a helpful assistant that can answer questions and help with tasks.",
    model_names=["claude-3-5-haiku-20241022", "claude-3-7-sonnet-20250219"],
    reasoning_model_name="claude-3-5-haiku-20241022",
    agent_name="finance-agent"
 )
 # example3: Create a third instance with a different configuration, which will create a new agent
 print("\n[example3]: Creating a ReasoningDuo instance with a different configuration:")
 duo_b = ReasoningDuo(
    system_prompt="You are an expert financial advisor helping with investment strategies.",
    model_names=["claude-3-5-haiku-20241022", "claude-3-5-sonnet-20241022"],  # 不同的模型组合
    reasoning_model_name="claude-3-5-haiku-20241022",
    agent_name="expert-finance-agent"
 )
 # example4: Disable agent pool reuse
 print("\n[example4]: Creating a ReasoningDuo instance with agent reuse disabled:")
 duo_c = ReasoningDuo(
    system_prompt="You are a helpful assistant that can answer questions and help with tasks.",
    model_names=["claude-3-5-haiku-20241022", "claude-3-7-sonnet-20250219"],
    reasoning_model_name="claude-3-5-haiku-20241022",
    agent_name="finance-agent",
    reuse_agents=False  # Disable agent reuse
 )
 # Release the first instance's agent back to the pool
 print("\n[example5]: Releasing the first instance's agent back to the pool:")
 del duo_a1  # This will trigger the __del__ method and release the agent back to the pool
 # Wait for a second to ensure cleanup is complete
 time.sleep(1)
 # Example 6: Create a new instance with the same configuration as the first one, which should reuse the agent from the pool
 print("\n[example6]: Creating a new instance with the same configuration as the first one, which should reuse the agent from the pool:")
 duo_a3 = ReasoningDuo(
    system_prompt="You are a helpful assistant that can answer questions and help with tasks.",
    model_names=["claude-3-5-haiku-20241022", "claude-3-7-sonnet-20250219"],
    reasoning_model_name="claude-3-5-haiku-20241022",
    agent_name="finance-agent"
 )
 # use batched_run to execute tasks
 print("\n[example7]: Using the reused agent to run batched tasks:")
 results = duo_a3.batched_run(
    [
        "What is the best possible financial strategy for a conservative investor nearing retirement?",
        "What is the best possible financial strategy for a young investor with high risk tolerance?"
    ]
 )
 # Configure pool parameters
 print("\n[example8]: Configuring agent pool parameters:")
 ReasoningDuo.configure_pool(cleanup_interval=180, max_idle_time=600)
 # Display current pool status
 print("\n[example9]: Displaying current pool status:")
 print(f"Reasoning agent pool size: {len(ReasoningDuo._reasoning_agent_pool)}")
 print(f"Main agent pool size: {len(ReasoningDuo._main_agent_pool)}")
 # Clear all pools
 print("\n[example10]: Clearing all agent pools:")
 ReasoningDuo.clear_pools()
 print(f"Reasoning agent pool size after clearing: {len(ReasoningDuo._reasoning_agent_pool)}")
 print(f"Main agent pool size after clearing: {len(ReasoningDuo._main_agent_pool)}")
--- a/swarms/agents/reasoning_duo.py
+++ b/swarms/agents/reasoning_duo.py
@ -1,7 +1,5 @@
-from typing import List, Optional
+from typing import List, Optional, Dict
 from loguru import logger
 from swarms.prompts.reasoning_prompt import REASONING_PROMPT
 from swarms.structs.agent import Agent
 from swarms.utils.output_types import OutputType
@ -10,12 +8,15 @@ from swarms.utils.history_output_formatter import (
    history_output_formatter,
 )
 import uuid
-
+import time
 import threading
 class ReasoningDuo:
    """
    ReasoningDuo is a class that encapsulates the functionality of two agents: a reasoning agent and a main agent.
    Implements an agent pool mechanism to reuse agent instances between calls.
    Attributes:
        model_name (str): The name of the model used for the reasoning agent.
        description (str): A description of the reasoning agent.
@ -25,6 +26,103 @@ class ReasoningDuo:
        main_agent (Agent): An instance of the Agent class for main tasks.
    """
    # Class-level agent pools
    _reasoning_agent_pool: Dict[str, Dict] = {}  # key: config_key, value: {agent, last_used, in_use}
    _main_agent_pool: Dict[str, Dict] = {}  # key: config_key, value: {agent, last_used, in_use}
    _pool_lock = threading.RLock()  # Thread-safe lock for pool access
    _pool_cleanup_interval = 300  # 5 minutes
    _pool_max_idle_time = 1800  # 30 minutes
    _last_cleanup_time = 0
    @classmethod
    def _generate_agent_config_key(cls, agent_type, model_name, system_prompt, **kwargs):
        """Generate a unique key for an agent configuration"""
        # Include essential parameters that affect agent behavior
        key_parts = [
            agent_type,
            model_name,
            system_prompt
        ]
        # Add other important configuration parameters
        for k in sorted(kwargs.keys()):
            if k in ['max_loops', 'dynamic_temperature_enabled', 'streaming', 'output_type']:
                key_parts.append(f"{k}={kwargs[k]}")
        return ":".join(str(part) for part in key_parts)
    @classmethod
    def _get_agent_from_pool(cls, agent_type, config_key, create_func):
        """Get an agent from the pool or create a new one if needed"""
        with cls._pool_lock:
            pool = cls._reasoning_agent_pool if agent_type == "reasoning" else cls._main_agent_pool
            # Periodic cleanup of idle agents
            current_time = time.time()
            if current_time - cls._last_cleanup_time > cls._pool_cleanup_interval:
                cls._cleanup_idle_agents()
                cls._last_cleanup_time = current_time
            # Try to find an available agent with matching configuration
            if config_key in pool and not pool[config_key]["in_use"]:
                pool[config_key]["in_use"] = True
                pool[config_key]["last_used"] = time.time()
                logger.debug(f"Reusing {agent_type} agent from pool with config: {config_key}")
                return pool[config_key]["agent"]
            # Create a new agent if none available
            logger.debug(f"Creating new {agent_type} agent with config: {config_key}")
            new_agent = create_func()
            pool[config_key] = {
                "agent": new_agent,
                "last_used": time.time(),
                "in_use": True
            }
            return new_agent
    @classmethod
    def _release_agent_to_pool(cls, agent_type, config_key):
        """Release an agent back to the pool"""
        with cls._pool_lock:
            pool = cls._reasoning_agent_pool if agent_type == "reasoning" else cls._main_agent_pool
            if config_key in pool:
                pool[config_key]["in_use"] = False
                pool[config_key]["last_used"] = time.time()
                logger.debug(f"Released {agent_type} agent back to pool: {config_key}")
    @classmethod
    def _cleanup_idle_agents(cls):
        """Clean up agents that have been idle for too long"""
        with cls._pool_lock:
            current_time = time.time()
            for pool in [cls._reasoning_agent_pool, cls._main_agent_pool]:
                keys_to_remove = []
                for key, data in pool.items():
                    # Only remove if not in use and idle for too long
                    if not data["in_use"] and (current_time - data["last_used"] > cls._pool_max_idle_time):
                        keys_to_remove.append(key)
                for key in keys_to_remove:
                    logger.debug(f"Removing idle agent from pool: {key}")
                    del pool[key]
    @classmethod
    def configure_pool(cls, cleanup_interval=None, max_idle_time=None):
        """Configure the agent pool parameters"""
        with cls._pool_lock:
            if cleanup_interval is not None:
                cls._pool_cleanup_interval = max(60, cleanup_interval)  # Minimum 1 minute
            if max_idle_time is not None:
                cls._pool_max_idle_time = max(300, max_idle_time)  # Minimum 5 minutes
    @classmethod
    def clear_pools(cls):
        """Clear all agent pools (useful for testing or memory management)"""
        with cls._pool_lock:
            cls._reasoning_agent_pool.clear()
            cls._main_agent_pool.clear()
    def __init__(
        self,
        id: str = str(uuid.uuid4()),
@ -39,6 +137,7 @@ class ReasoningDuo:
            str
        ] = "claude-3-5-sonnet-20240620",
        max_loops: int = 1,
        reuse_agents: bool = True,  # New parameter to control agent reuse
        *args,
        **kwargs,
    ):
@ -50,34 +149,93 @@ class ReasoningDuo:
        self.output_type = output_type
        self.reasoning_model_name = reasoning_model_name
        self.max_loops = max_loops
        self.reuse_agents = reuse_agents
        self.args = args
        self.kwargs = kwargs
        if self.reasoning_model_name is None:
            self.reasoning_model_name = model_names[0]
        self.conversation = Conversation()
-        self.reasoning_agent = Agent(
+        # Create a complete configuration for the reasoning agent
-            agent_name=self.agent_name,
+        reasoning_full_config = {
-            description=self.agent_description,
+            "agent_name": self.agent_name,
-            system_prompt=REASONING_PROMPT,
+            "description": self.agent_description,
-            max_loops=1,
+            "system_prompt": REASONING_PROMPT,  
-            model_name=self.reasoning_model_name,
+            "max_loops": 1,
-            dynamic_temperature_enabled=True,
+            "model_name": self.reasoning_model_name,
-            *args,
+            "dynamic_temperature_enabled": True
-            **kwargs,
+        }
        # Create a complete configuration for the main agent
        main_full_config = {
            "agent_name": self.agent_name,
            "description": self.agent_description,
            "system_prompt": system_prompt,
            "max_loops": 1,
            "model_name": model_names[1],
            "dynamic_temperature_enabled": True
        }
        for k, v in kwargs.items():
            if k not in ["system_prompt", "model_name"]:  
                reasoning_full_config[k] = v
                main_full_config[k] = v
        # To generate the configuration keys we need to extract the parameters (excluding those that have been explicitly passed)
        reasoning_extra_params = {
            k: v for k, v in reasoning_full_config.items() 
            if k not in ["system_prompt", "model_name"]
        }
        main_extra_params = {
            k: v for k, v in main_full_config.items() 
            if k not in ["system_prompt", "model_name"]
        }
        # generate the configuration keys
        self.reasoning_config_key = self._generate_agent_config_key(
            "reasoning", 
            self.reasoning_model_name, 
            REASONING_PROMPT,
            **reasoning_extra_params
        )
-        self.main_agent = Agent(
+        self.main_config_key = self._generate_agent_config_key(
-            agent_name=self.agent_name,
+            "main", 
-            description=self.agent_description,
+            model_names[1], 
-            system_prompt=system_prompt,
+            system_prompt,
-            max_loops=1,
+            **main_extra_params
            model_name=model_names[1],
            dynamic_temperature_enabled=True,
            *args,
            **kwargs,
        )
        # Get the agent instance
        if self.reuse_agents:
            self.reasoning_agent = self._get_agent_from_pool(
                "reasoning", 
                self.reasoning_config_key,
                lambda: Agent(**reasoning_full_config)
            )
            self.main_agent = self._get_agent_from_pool(
                "main", 
                self.main_config_key,
                lambda: Agent(**main_full_config)
            )
        else:
            # If reuse is disabled, create a new agent directly
            self.reasoning_agent = Agent(**reasoning_full_config)
            self.main_agent = Agent(**main_full_config)
    def __del__(self):
        """Release agents back to the pool when instance is destroyed"""
        if hasattr(self, 'reuse_agents') and self.reuse_agents:
            if hasattr(self, 'reasoning_config_key'):
                self._release_agent_to_pool("reasoning", self.reasoning_config_key)
            if hasattr(self, 'main_config_key'):
                self._release_agent_to_pool("main", self.main_config_key)
    def step(self, task: str, img: Optional[str] = None):
        """
        Executes one step of reasoning and main agent processing.
@ -88,7 +246,6 @@ class ReasoningDuo:
        """
        # For reasoning agent, use the current task (which may include conversation context)
        output_reasoner = self.reasoning_agent.run(task, img=img)
        self.conversation.add(
            role=self.reasoning_agent.agent_name,
            content=output_reasoner,
@ -98,7 +255,6 @@ class ReasoningDuo:
        output_main = self.main_agent.run(
            task=self.conversation.get_str(), img=img
        )
        self.conversation.add(
            role=self.main_agent.agent_name, content=output_main
        )
@ -117,6 +273,7 @@ class ReasoningDuo:
        logger.info(
            f"Running task: {task} with max_loops: {self.max_loops}"
        )
        self.conversation.add(role="user", content=task)
        for loop_iteration in range(self.max_loops):
@ -159,4 +316,5 @@ class ReasoningDuo:
        for task, img in zip(tasks, imgs):
            logger.info(f"Processing task: {task}")
            outputs.append(self.run(task, img=img))
        return outputs