This project contains high level Python API for smart contracts, DeFi trading, wallet management, automated test suites and backend integrations on EVM based blockchains. Supported blockchains include Ethereum, BNB Chain, Polygon, Avalanche C-chain, Arbitrum, others.
- Use Cases
- Features
- Prerequisites
- Install
- Code examples
- How to use the library in your Python project
- Documentation
- Development and contributing
- Version history
- Support
- Social media
- Notes
- History
- License
Pepe chooses web3-ethereum-defi and Python.
- Web3 development
- DeFi trading
- Market data services
- On-chain data research
- Ethereum integration: token payments, hot wallets, monitors and such
Features include
- Made for 99% developers
- High-quality API documentation
- Fully type hinted for good developer experience
- Parallel transaction execution
- Mainnet forking with Anvil
- Solidity stack traces
- Trading
- Loans
- ERC-20 token issuance and manipulation
Web3-Ethereum-Defi supports
- Uniswap (both v2 and v3)
- Sushi
- Aave
- Enzyme Protocol
- dHEDGE Protocol
- More integrations to come
- Built-in integration for over 600 smart contracts with precompiled Solidity ABI files
Read the full API documentation). For code examples please see below.
To use this package you need to
- Have Python 3.10 or higher
- Be proficient in Python programming
- Understand of Web3.py library
- Understand Pytest basics
With pip:
pip install "web3-ethereum-defi[data]"With poetry:
# Poetry version
poetry add -E data web3-ethereum-defiWith poetry - master Git branch:
git clone git@github.com:tradingstrategy-ai/web3-ethereum-defi.git
cd web3-ethereum-defi
poetry shell
poetry install -E data -E docs For more code examples, see the tutorials section in the documentation.
To use the package to deploy a simple ERC-20 token in pytest testing:
import pytest
from web3 import Web3, EthereumTesterProvider
from eth_defi.token import create_token
@pytest.fixture
def tester_provider():
return EthereumTesterProvider()
@pytest.fixture
def eth_tester(tester_provider):
return tester_provider.ethereum_tester
@pytest.fixture
def web3(tester_provider):
return Web3(tester_provider)
@pytest.fixture()
def deployer(web3) -> str:
"""Deploy account."""
return web3.eth.accounts[0]
@pytest.fixture()
def user_1(web3) -> str:
"""User account."""
return web3.eth.accounts[1]
@pytest.fixture()
def user_2(web3) -> str:
"""User account."""
return web3.eth.accounts[2]
def test_deploy_token(web3: Web3, deployer: str):
"""Deploy mock ERC-20."""
token = create_token(web3, deployer, "Hentai books token", "HENTAI", 100_000 * 10 ** 18)
assert token.functions.name().call() == "Hentai books token"
assert token.functions.symbol().call() == "HENTAI"
assert token.functions.totalSupply().call() == 100_000 * 10 ** 18
assert token.functions.decimals().call() == 18
def test_tranfer_tokens_between_users(web3: Web3, deployer: str, fund_owner, fund_client):
"""Transfer tokens between users."""
token = create_token(web3, deployer, "Telos EVM rocks", "TELOS", 100_000 * 10 ** 18)
# Move 10 tokens from deployer to user1
token.functions.transfer(fund_owner, 10 * 10 ** 18).transact({"from": deployer})
assert token.functions.balanceOf(fund_owner).call() == 10 * 10 ** 18
# Move 10 tokens from deployer to user1
token.functions.transfer(fund_client, 6 * 10 ** 18).transact({"from": fund_owner})
assert token.functions.balanceOf(fund_owner).call() == 4 * 10 ** 18
assert token.functions.balanceOf(fund_client).call() == 6 * 10 ** 18For more information how to user Web3.py in testing, see Web3.py documentation.
import pytest
from web3 import Web3
from web3.contract import Contract
from eth_defi.uniswap_v2.deployment import UniswapV2Deployment, deploy_trading_pair, FOREVER_DEADLINE
def test_swap(web3: Web3, deployer: str, fund_owner, uniswap_v2: UniswapV2Deployment, weth: Contract, usdc: Contract):
"""User buys WETH on Uniswap v2 using mock USDC."""
# Create the trading pair and add initial liquidity
deploy_trading_pair(
web3,
deployer,
uniswap_v2,
weth,
usdc,
10 * 10 ** 18, # 10 ETH liquidity
17_000 * 10 ** 18, # 17000 USDC liquidity
)
router = uniswap_v2.router
# Give user_1 500 dollars to buy ETH and approve it on the router
usdc_amount_to_pay = 500 * 10 ** 18
usdc.functions.transfer(fund_owner, usdc_amount_to_pay).transact({"from": deployer})
usdc.functions.approve(router.address, usdc_amount_to_pay).transact({"from": fund_owner})
# Perform a swap USDC->WETH
path = [usdc.address, weth.address] # Path tell how the swap is routed
# https://docs.uniswap.org/protocol/V2/reference/smart-contracts/router-02#swapexacttokensfortokens
router.functions.swapExactTokensForTokens(
usdc_amount_to_pay,
0,
path,
fund_owner,
FOREVER_DEADLINE,
).transact({
"from": fund_owner
})
# Check the user_1 received ~0.284 ethers
assert weth.functions.balanceOf(fund_owner).call() / 1e18 == pytest.approx(0.28488156127668085)# Create the trading pair and add initial liquidity
deploy_trading_pair(
web3,
deployer,
uniswap_v2,
weth,
usdc,
1_000 * 10**18, # 1000 ETH liquidity
1_700_000 * 10**18, # 1.7M USDC liquidity
)
# Estimate the price of buying 1 ETH
usdc_per_eth = estimate_buy_price_decimals(
uniswap_v2,
weth.address,
usdc.address,
Decimal(1.0),
)
assert usdc_per_eth == pytest.approx(Decimal(1706.82216820632059904))Add web3-ethereum-defi as a development dependency:
Using Poetry:
# Data optional dependencies include pandas and gql, needed to fetch Uniswap v3 data
poetry add -D "web3-ethereum-defi[data]"Originally created for Trading Strategy. Originally the package was known as eth-hentai.
MIT