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	<div align="center">

	<h1>Polymarket Data</h1>

	<h3>Complete Data Infrastructure for Polymarket — Fetch, Process, Analyze</h3>

	<p style="max-width: 750px; margin: 0 auto;">
	A comprehensive dataset of 1.9 billion trading records from Polymarket, processed into multiple analysis-ready formats. Features cleaned data, unified token perspectives, and user-level transformations — ready for market research, behavioral studies, and quantitative analysis.
	</p>

	<p>
	<b>Zhengjie Wang</b><sup>1,2</sup>, <b>Leiyu Chao</b><sup>1,3</sup>, <b>Yu Bao</b><sup>1,4</sup>, <b>Lian Cheng</b><sup>1,3</sup>, <b>Jianhan Liao</b><sup>1,5</sup>, <b>Yikang Li</b><sup>1,†</sup>
	</p>

	<p>
	<sup>1</sup>Shanghai Innovation Institute    <sup>2</sup>Westlake University    <sup>3</sup>Shanghai Jiao Tong University
	<br>
	<sup>4</sup>Harbin Institute of Technology    <sup>5</sup>Fudan University
	</p>

	<p>
	<sup>†</sup>Corresponding author
	</p>

	</div>

	<p align="center">
	<a href="https://huggingface.co/datasets/SII-WANGZJ/Polymarket_data">
	<img src="https://img.shields.io/badge/Hugging%20Face-Dataset-yellow.svg" alt="HuggingFace Dataset"/>
	</a>
	<a href="https://github.com/SII-WANGZJ/Polymarket_data">
	<img src="https://img.shields.io/badge/GitHub-Code-black.svg?logo=github" alt="GitHub Repository"/>
	</a>
	<a href="https://github.com/SII-WANGZJ/Polymarket_data/blob/main/LICENSE">
	<img src="https://img.shields.io/badge/License-MIT-blue.svg" alt="License"/>
	</a>
	<a href="#data-quality">
	<img src="https://img.shields.io/badge/Data-Verified-green.svg" alt="Data Quality"/>
	</a>
	</p>

	---

	## TL;DR

	We provide 163GB of historical on-chain trading data from Polymarket, containing 1.9 billion records across 538K+ markets. The dataset is directly fetched from Polygon blockchain, fully verified, and ready for analysis. Perfect for market research, behavioral studies, data science projects, and academic research.

	## Highlights

	- Complete Blockchain History: All OrderFilled events from Polymarket's two exchange contracts, with no missing blocks or gaps. Every single trade from the platform's inception is included.

	- Multiple Analysis Perspectives: 5 structured datasets at different abstraction levels — raw blockchain events, processed trades with market linkage, market metadata, and derived quantitative views — serving diverse research needs.

	- Production Ready: Clean, validated data with proper schema documentation. All trades are verified against blockchain RPC, with market metadata linked and ready to use.

	- Open Source Pipeline: Fully reproducible data collection process. Our open-source tools allow you to verify, update, or extend the dataset independently.

	## Dataset Overview

	\| File \| Size \| Records \| Description \|
	\|------\|------\|---------\|-------------\|
	\| `trades.parquet` \| 28GB \| 418.3M \| Recommended. Processed trades with market metadata linkage \|
	\| `orderfilled.parquet` \| 84GB \| 689.0M \| Raw blockchain events from OrderFilled logs \|
	\| `markets.parquet` \| 85MB \| 538,587 \| Market information and metadata \|
	\| `quant.parquet` \| 28GB \| 418.2M \| Derived: unified YES perspective (for quant research) \|
	\| `users.parquet` \| 23GB \| 340.6M \| Derived: user-level split by maker/taker (for quant research) \|

	Total: 163GB, 1.9 billion records

	## Use Cases

	### Market Research & Analysis
	- Study prediction market dynamics and price discovery mechanisms
	- Analyze market efficiency and information aggregation
	- Research crowd wisdom and forecasting accuracy

	### Behavioral Studies
	- Track individual user trading patterns and decision-making
	- Study market participant behavior under different conditions
	- Analyze risk preferences and trading strategies

	### Data Science & Machine Learning
	- Train models for price prediction and market forecasting
	- Feature engineering for time-series analysis
	- Develop algorithms for market analysis

	### Academic Research
	- Economics and finance research on prediction markets
	- Social science studies on collective intelligence
	- Computer science research on blockchain data analysis

	## Quick Start

	### Installation

	```bash
	# Using pip
	pip install pandas pyarrow

	# Optional: for faster parquet reading
	pip install fastparquet
	```

	### Load Data with Pandas

	```python
	import pandas as pd

	# Load trades (recommended for most users)
	df = pd.read_parquet('trades.parquet')
	print(f"Total trades: {len(df):,}")

	# Load market metadata
	markets = pd.read_parquet('markets.parquet')
	print(f"Total markets: {len(markets):,}")
	```

	### Load from HuggingFace Datasets

	```python
	from datasets import load_dataset

	# Load trades
	dataset = load_dataset(
	"SII-WANGZJ/Polymarket_data",
	data_files="trades.parquet"
	)

	# Load multiple files
	dataset = load_dataset(
	"SII-WANGZJ/Polymarket_data",
	data_files=["trades.parquet", "markets.parquet"]
	)
	```

	### Download Specific Files

	```bash
	# Download using HuggingFace CLI
	pip install huggingface_hub

	# Download a specific file
	hf download SII-WANGZJ/Polymarket_data quant.parquet --repo-type dataset

	# Download all files
	hf download SII-WANGZJ/Polymarket_data --repo-type dataset
	```

	## File Selection Guide

	> We recommend `trades.parquet` as the primary dataset for most use cases. It preserves all original trade semantics with market metadata linked, requiring no assumptions about token normalization.

	`quant.parquet` and `users.parquet` are derived datasets designed for our internal quantitative research. They apply specific transformations — normalizing all trades to the YES (token1) perspective — which may not be suitable for every analysis scenario. Detailed transformation logic is documented below.

	## Data Structure

	### trades.parquet - Processed Trades (Recommended)

	Complete trade records with market metadata linkage. Preserves all original blockchain semantics — no normalization or filtering applied.

	Best for: General-purpose analysis, custom research, building your own pipelines.

	Schema:
	\| Column \| Type \| Description \|
	\|--------\|------\|-------------\|
	\| `timestamp` \| uint64 \| Unix timestamp (seconds) \|
	\| `block_number` \| uint64 \| Polygon block number \|
	\| `transaction_hash` \| string \| Blockchain transaction hash \|
	\| `log_index` \| uint32 \| Log index within the transaction \|
	\| `contract` \| string \| Exchange contract address \|
	\| `market_id` \| string \| Polymarket market identifier \|
	\| `condition_id` \| string \| CTF condition ID \|
	\| `event_id` \| string \| Event group identifier \|
	\| `maker` \| string \| Maker wallet address \|
	\| `taker` \| string \| Taker wallet address \|
	\| `price` \| float64 \| Trade price (0–1) \|
	\| `usd_amount` \| float64 \| USD (USDC) value of the trade \|
	\| `token_amount` \| float64 \| Number of outcome tokens traded \|
	\| `maker_direction` \| string \| Maker's direction: `BUY` or `SELL` \|
	\| `taker_direction` \| string \| Taker's direction: `BUY` or `SELL` \|
	\| `nonusdc_side` \| string \| Which outcome token was traded: `token1` (YES) or `token2` (NO) \|
	\| `asset_id` \| string \| The non-USDC token's asset ID \|

	### orderfilled.parquet - Raw Blockchain Events

	Unprocessed `OrderFilled` events directly from Polygon blockchain logs. No decoding, no market linkage — pure on-chain data.

	Best for: Blockchain research, data verification, building custom processing pipelines from scratch.

	Schema:
	\| Column \| Type \| Description \|
	\|--------\|------\|-------------\|
	\| `timestamp` \| uint64 \| Unix timestamp (seconds) \|
	\| `block_number` \| uint64 \| Polygon block number \|
	\| `transaction_hash` \| string \| Blockchain transaction hash \|
	\| `log_index` \| uint32 \| Log index within the transaction \|
	\| `contract` \| string \| Exchange contract address \|
	\| `order_hash` \| string \| Unique order hash \|
	\| `maker` \| string \| Maker wallet address \|
	\| `taker` \| string \| Taker wallet address \|
	\| `maker_asset_id` \| string \| Asset ID of maker's token \|
	\| `taker_asset_id` \| string \| Asset ID of taker's token \|
	\| `maker_amount_filled` \| string \| Amount filled for maker (wei, uint256 as string) \|
	\| `taker_amount_filled` \| string \| Amount filled for taker (wei, uint256 as string) \|
	\| `maker_fee` \| string \| Maker fee (wei, uint256 as string) \|
	\| `taker_fee` \| string \| Taker fee (wei, uint256 as string) \|
	\| `protocol_fee` \| string \| Protocol fee (wei, uint256 as string) \|

	> Note: Amount and fee fields are stored as strings because they are uint256 values from the blockchain that exceed standard integer range.

	### markets.parquet - Market Metadata

	Market information, outcome token details, and event grouping.

	Best for: Linking trades to market context, filtering by market attributes, understanding market outcomes.

	Schema:
	\| Column \| Type \| Description \|
	\|--------\|------\|-------------\|
	\| `id` \| string \| Market identifier (join key with `market_id` in other tables) \|
	\| `question` \| string \| Market question text \|
	\| `slug` \| string \| URL slug \|
	\| `condition_id` \| string \| CTF condition ID \|
	\| `token1` \| string \| Asset ID of outcome token 1 (YES) \|
	\| `token2` \| string \| Asset ID of outcome token 2 (NO) \|
	\| `answer1` \| string \| Label for token1 outcome (e.g., "Yes") \|
	\| `answer2` \| string \| Label for token2 outcome (e.g., "No") \|
	\| `closed` \| uint8 \| 0 = active, 1 = settled \|
	\| `active` \| uint8 \| Whether the market is currently active \|
	\| `archived` \| uint8 \| Whether the market is archived \|
	\| `outcome_prices` \| string \| JSON array of final prices, e.g. `["0.99", "0.01"]` means answer1 won \|
	\| `volume` \| float64 \| Total traded volume (USD) \|
	\| `event_id` \| string \| Parent event identifier \|
	\| `event_slug` \| string \| Parent event URL slug \|
	\| `event_title` \| string \| Parent event title \|
	\| `created_at` \| datetime \| Market creation time \|
	\| `end_date` \| datetime \| Market end / resolution time \|
	\| `updated_at` \| datetime \| Last metadata update time \|

	### quant.parquet - Unified YES Perspective (For Quantitative Research)

	> Note: This is a derived dataset built for our own quantitative research. It normalizes all trades to the YES (token1) perspective: for trades originally on token2 (NO), the price is converted to `1 - price`, and the buy/sell direction is flipped. Contract-address trades are filtered out, keeping only real user trades. If you need the original trade semantics, use `trades.parquet` instead.

	Schema:
	\| Column \| Type \| Description \|
	\|--------\|------\|-------------\|
	\| `timestamp` \| uint64 \| Unix timestamp (seconds) \|
	\| `block_number` \| uint64 \| Polygon block number \|
	\| `transaction_hash` \| string \| Blockchain transaction hash \|
	\| `log_index` \| uint32 \| Log index within the transaction \|
	\| `market_id` \| string \| Market identifier \|
	\| `condition_id` \| string \| CTF condition ID \|
	\| `event_id` \| string \| Event group identifier \|
	\| `price` \| float64 \| YES token price (0–1). For original token2 trades: `1 - original_price` \|
	\| `usd_amount` \| float64 \| USD value \|
	\| `token_amount` \| float64 \| Token amount \|
	\| `side` \| string \| `BUY` or `SELL` (from YES token perspective). For original token2 trades: direction is flipped \|
	\| `maker` \| string \| Maker wallet address \|
	\| `taker` \| string \| Taker wallet address \|

	### users.parquet - User-Level Behavior Data (For Quantitative Research)

	> Note: This is a derived dataset built for our own research. Each trade is split into two records (one for maker, one for taker), with the same token1 normalization as `quant.parquet`. All records are converted to a unified BUY direction — negative `token_amount` indicates selling. If you need the original trade semantics, use `trades.parquet` instead.

	Schema:
	\| Column \| Type \| Description \|
	\|--------\|------\|-------------\|
	\| `timestamp` \| uint64 \| Unix timestamp (seconds) \|
	\| `block_number` \| uint64 \| Polygon block number \|
	\| `transaction_hash` \| string \| Blockchain transaction hash \|
	\| `log_index` \| uint32 \| Log index within the transaction \|
	\| `market_id` \| string \| Market identifier \|
	\| `condition_id` \| string \| CTF condition ID \|
	\| `event_id` \| string \| Event group identifier \|
	\| `user` \| string \| User wallet address \|
	\| `role` \| string \| `maker` or `taker` \|
	\| `price` \| float64 \| YES token price (normalized, same as quant) \|
	\| `usd_amount` \| float64 \| USD value \|
	\| `token_amount` \| float64 \| Signed amount: positive = buy, negative = sell \|

	## Example Analysis

	### 1. Calculate Market Statistics

	```python
	import pandas as pd

	df = pd.read_parquet('trades.parquet')

	# Market-level statistics
	market_stats = df.groupby('market_id').agg({
	'usd_amount': ['sum', 'mean'], # Total volume and average trade size
	'price': ['mean', 'std', 'min', 'max'], # Price statistics
	'transaction_hash': 'count' # Number of trades
	}).round(4)

	print(market_stats.head())
	```

	### 2. Track Price Evolution

	```python
	import pandas as pd
	import matplotlib.pyplot as plt

	df = pd.read_parquet('trades.parquet')
	df['datetime'] = pd.to_datetime(df['timestamp'], unit='s')

	# Select a specific market
	market_id = 'your-market-id'
	market_data = df[df['market_id'] == market_id].sort_values('timestamp')

	# Plot price over time
	plt.figure(figsize=(12, 6))
	plt.plot(market_data['datetime'], market_data['price'])
	plt.title(f'Price Evolution - Market {market_id}')
	plt.xlabel('Date')
	plt.ylabel('Price')
	plt.show()
	```

	### 3. Market Volume Analysis

	```python
	import pandas as pd

	df = pd.read_parquet('trades.parquet')
	markets = pd.read_parquet('markets.parquet')

	# Join with market metadata (markets uses 'id', trades uses 'market_id')
	df = df.merge(markets[['id', 'question']], left_on='market_id', right_on='id', how='left')

	# Top markets by volume
	top_markets = df.groupby(['market_id', 'question']).agg({
	'usd_amount': 'sum'
	}).sort_values('usd_amount', ascending=False).head(20)

	print(top_markets)
	```

	### 4. Analyze by Token Side

	```python
	import pandas as pd

	df = pd.read_parquet('trades.parquet')

	# Compare YES vs NO token trading activity
	side_stats = df.groupby('nonusdc_side').agg({
	'usd_amount': ['sum', 'mean'],
	'transaction_hash': 'count'
	})
	print(side_stats)

	# Filter for only YES token trades on a specific market
	market_id = 'your-market-id'
	yes_trades = df[(df['market_id'] == market_id) & (df['nonusdc_side'] == 'token1')]
	print(f"YES trades: {len(yes_trades):,}")
	```

	## Data Processing Pipeline

	```
	Polygon Blockchain (RPC)
	↓
	orderfilled.parquet (Raw events)
	↓
	trades.parquet (+ Market linkage)
	↓
	├─→ quant.parquet (Trade-level, unified YES perspective)
	│ └─→ Filter contracts + Normalize tokens
	│
	└─→ users.parquet (User-level, split maker/taker)
	└─→ Split records + Unified BUY direction
	```

	Key Transformations:

	1. quant.parquet:
	- Filter out contract trades (keep only user trades)
	- Normalize all trades to YES token perspective
	- Preserve maker/taker information
	- Result: 418.2M records (from 418.3M trades)

	2. users.parquet:
	- Split each trade into 2 records (maker + taker)
	- Convert all to BUY direction (signed amounts)
	- Sort by user for easy querying
	- Result: 340.6M records

	## Documentation

	- [DATA_DESCRIPTION.md](DATA_DESCRIPTION.md) - Comprehensive documentation
	- Detailed schema for all 5 files
	- Data cleaning and transformation process
	- Usage examples and best practices
	- Comparison between different files

	## Data Quality

	- Complete History: No missing blocks or gaps in blockchain data
	- Verified Sources: All OrderFilled events from 2 official exchange contracts
	- Blockchain Verified: Cross-checked against Polygon RPC nodes
	- Regular Updates: Automated daily pipeline for fresh data
	- Open Source: Fully reproducible collection process

	Contracts Tracked:
	- Exchange Contract 1: `0x4bFb41d5B3570DeFd03C39a9A4D8dE6Bd8B8982E`
	- Exchange Contract 2: `0xC5d563A36AE78145C45a50134d48A1215220f80a`

	## Collection Tools

	Data collected using our open-source toolkit: [polymarket-data](https://github.com/SII-WANGZJ/Polymarket_data)

	Features:
	- Direct blockchain RPC integration
	- Efficient batch processing
	- Automatic retry and error handling
	- Data validation and verification

	## Dataset Statistics

	Last Updated: 2026-03-05

	Coverage:
	- Time Range: Polymarket inception to 2026-03-04
	- Total Markets: 538,587
	- Total Trades: 418.3 million (processed), 689.0 million (raw OrderFilled)
	- Unique Users: [To be calculated]

	Data Freshness: Updated periodically via automated pipeline

	## Contributing

	We welcome contributions to improve the dataset and tools:

	1. Report Issues: Found data quality issues? [Open an issue](https://github.com/SII-WANGZJ/Polymarket_data/issues)
	2. Suggest Features: Ideas for new data transformations? Let us know!
	3. Contribute Code: Improve our collection pipeline via pull requests

	## License

	MIT License - Free for commercial and research use.

	See [LICENSE](LICENSE) file for details.

	## Contact & Support

	- Email: [wangzhengjie@sii.edu.cn](mailto:wangzhengjie@sii.edu.cn)
	- Issues: [GitHub Issues](https://github.com/SII-WANGZJ/Polymarket_data/issues)
	- Dataset: [HuggingFace](https://huggingface.co/datasets/SII-WANGZJ/Polymarket_data)
	- Code: [GitHub Repository](https://github.com/SII-WANGZJ/Polymarket_data)

	## Citation

	If you use this dataset in your research, please cite:

	```bibtex
	@misc{polymarket_data_2026,
	title={Polymarket Data: Complete Data Infrastructure for Polymarket},
	author={Wang, Zhengjie and Chao, Leiyu and Bao, Yu and Cheng, Lian and Liao, Jianhan and Li, Yikang},
	year={2026},
	howpublished={\url{https://huggingface.co/datasets/SII-WANGZJ/Polymarket_data}},
	note={A comprehensive dataset and toolkit for Polymarket prediction markets}
	}
	```

	## Acknowledgments

	- Polymarket for building the leading prediction market platform
	- Polygon for providing reliable blockchain infrastructure
	- HuggingFace for hosting and distributing large datasets
	- The open-source community for tools and libraries

	---

	<div align="center">

	Built for the research and data science community

	[HuggingFace](https://huggingface.co/datasets/SII-WANGZJ/Polymarket_data) • [GitHub](https://github.com/SII-WANGZJ/Polymarket_data) • [Documentation](DATA_DESCRIPTION.md)

	</div>