websocietysimulator 1.0.0a29

Web Social Simulator for WWW'25 AgentSociety Challenge

WWW'25 AgentSociety Challenge: WebSocietySimulator

🚀 AgentSociety Challenge

 

Welcome to the WWW'25 AgentSociety Challenge! This repository provides the tools and framework needed to participate in a competition that focuses on building LLM Agents for user behavior simulation and recommendation systems based on open source datasets.

Participants are tasked with developing intelligent agents that interact with a simulated environment and perform specific tasks in two competition tracks:

1. User Behavior Simulation Track: Agents simulate user behavior, including generating reviews and ratings.
2. Recommendation Track: Agents generate recommendations based on provided contextual data.

This repository includes:

• The core library websocietysimulator for environment simulation.
• Scripts for dataset processing and analysis.
• Example usage for creating and evaluating agents.

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Directory Structure

1. websocietysimulator/

This is the core library containing all source code required for the competition.

• agents/: Contains base agent classes (SimulationAgent, RecommendationAgent) and their abstractions. Participants must extend these classes for their implementations.
• task/: Defines task structures for each track (SimulationTask, RecommendationTask).
• llm/: Contains base LLM client classes (DeepseekLLM, OpenAILLM).
• tools/: Includes utility tools:
  • InteractionTool: A utility for interacting with the Yelp dataset during simulations.
  • EvaluationTool: Provides comprehensive metrics for both recommendation (HR@1/3/5) and simulation tasks (RMSE, sentiment analysis).
• simulator.py: The main simulation framework, which handles task and groundtruth setting, evaluation and agent execution.

2. example/

Contains usage examples of the websocietysimulator library. Includes sample agents and scripts to demonstrate how to load scenarios, set agents, and evaluate them.

3. data_process.py

A script to process the raw Yelp dataset into the required format for use with the websocietysimulator library. This script ensures the dataset is cleaned and structured correctly for simulations.

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Quick Start

1. Install the Library

The repository is organized using Python Poetry. Follow these steps to install the library:

1. Clone the repository:

   git clone <this_repo>
   cd websocietysimulator
   

2. Install dependencies:

• Option 1: Install dependencies using Poetry: (Recommended)

  poetry install  && \
  poetry shell
  

• Option 2: Install dependencies using pip(COMING SOON):

  pip install websocietysimulator
  

• Option 3: Install dependencies using conda:

  conda create -n websocietysimulator python=3.11 && \
  conda activate websocietysimulator && \
  pip install -r requirements.txt && \
  pip install .
  

3. Verify the installation:

   import websocietysimulator
   

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2. Data Preparation

1. Download the raw dataset from the Yelp[1], Amazon[2] or Goodreads[3].
2. Run the data_process.py script to process the dataset:

   python data_process.py --input <path_to_raw_dataset> --output <path_to_processed_dataset>
   

• Check out the Data Preparation Guide for more information.
• NOTICE: You Need at least 16GB RAM to process the dataset.

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3. Organize Your Data

Ensure the dataset is organized in a directory structure similar to this:

<your_dataset_directory>/
├── item.json
├── review.json
├── user.json

You can name the dataset directory whatever you prefer (e.g., dataset/).

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4. Develop Your Agent

Create a custom agent by extending either SimulationAgent or RecommendationAgent. Refer to the examples in the example/ directory. Here's a quick template:

from yelpsimulator.agents.simulation_agent import SimulationAgent

class MySimulationAgent(SimulationAgent):
    def workflow(self):
        # The simulator will automatically set the task for your agent. You can access the task by `self.task` to get task information.
        print(self.task)

        # You can also use the `interaction_tool` to get data from the dataset.
        # For example, you can get the user information by `interaction_tool.get_user(user_id="example_user_id")`.
        # You can also get the item information by `interaction_tool.get_item(item_id="example_item_id")`.
        # You can also get the reviews by `interaction_tool.get_reviews(review_id="example_review_id")`.
        user_info = interaction_tool.get_user(user_id="example_user_id")

        # Implement your logic here
        
        # Finally, you need to return the result in the format of `stars` and `review`.
        # For recommendation track, you need to return a candidate list of items, in which the first item is the most recommended item.
        stars = 4.0
        review = "Great experience!"
        return stars, review

• Check out the Tutorial for Agent Development.
• Baseline User Behavior Simulation Agent: Baseline User Behavior Simulation Agent.
• Baseline Recommendation Agent: Baseline Recommendation Agent.

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5. Evaluation your agent with training data

Run the simulation using the provided Simulator class:

from websocietysimulator import Simulator
from my_agent import MySimulationAgent

# Initialize Simulator
simulator = Simulator(data_dir="path/to/your/dataset", device="auto", cache=False)
# The cache parameter controls whether to use cache for interaction tool.
# If you want to use cache, you can set cache=True. When using cache, the simulator will only load data into memory when it is needed, which saves a lot of memory.
# If you want to use normal interaction tool, you can set cache=False. Notice that, normal interaction tool will load all data into memory at the beginning, which needs a lot of memory (20GB+).

# Load scenarios
simulator.set_task_and_groundtruth(task_dir="path/to/task_directory", groundtruth_dir="path/to/groundtruth_directory")

# Set your custom agent
simulator.set_agent(MySimulationAgent)

# Set LLM client
simulator.set_llm(DeepseekLLM(api_key="Your API Key"))

# Run evaluation
# If you don't set the number of tasks, the simulator will run all tasks.
agent_outputs = simulator.run_simulation(number_of_tasks=None, enable_threading=True, max_workers=10)

# Evaluate the agent
evaluation_results = simulator.evaluate()

• If you want to use your own LLMClient, you can easily implement it by inheriting the LLMBase class. Refer to the Tutorial for more information.

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6. Submit your agent

• You should register your team firstly in the competition homepage (Homepage).
• Submit your solution through the submission button at the specific track page. (the submission button is at the top right corner of the page)
  • User Modeling Track
  • Recommendation Track
  • Please register your team first.
  • When you submit your agent, please carefully SELECT the TRACK you want to submit to.
• The content of your submission should be a .py file containing your agent (Only one {your_team}.py file without evaluation code).
• Example submissions:
  • For Track 1: submission_1
  • For Track 2: submission_2

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Introduction to the InteractionTool

The InteractionTool is the core utility for interacting with the dataset. It provides an interface for querying user, item, and review data.

Functions

• Get User Information: Retrieve user data by user ID or current scenario context.

  user_info = interaction_tool.get_user(user_id="example_user_id")
  

• Get Item Information: Retrieve item data by item ID or current scenario context.

  item_info = interaction_tool.get_item(item_id="example_item_id")
  

• Get Reviews: Fetch reviews related to a specific item or user, filtered by time.

  reviews = interaction_tool.get_reviews(review_id="example_review_id")  # Fetch a specific review
  reviews = interaction_tool.get_reviews(item_id="example_item_id")  # Fetch all reviews for a specific item
  reviews = interaction_tool.get_reviews(user_id="example_user_id")  # Fetch all reviews for a specific user
  

License

This project is licensed under the MIT License. See the LICENSE file for details.

References

[1] Yelp Dataset: https://www.yelp.com/dataset

[2] Amazon Dataset: https://amazon-reviews-2023.github.io/

[3] Goodreads Dataset: https://sites.google.com/eng.ucsd.edu/ucsdbookgraph/home