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The package, containing wrapper over web3.py operations for interacting through Wallet entities

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ether

Python versions PyPi Version

The web3.py operation wrapper, offering interaction through Wallet instances.

Web3.py suggests to interact with instance of Web3 as primary entity. We offer way to use Wallet entity, that is more familiar, since we try to provide the similar to digital wallet apps' logic. We introduce:

  • possibility to set and change current wallet's network by network's name
  • swift and robust performing transactions
  • quick performing useful functions of Web3.py

The project is made by the Croco Factory team

ether's source code is made available under the MIT License

Quick start

You can quickly use supported networks as RPC:

Network Native Token Testnet
Arbitrum Goerli ETH
Arbitrum Sepolia ETH
Arbitrum ETH
Avalanche AVAX
Base ETH
Base Sepolia ETH
Base Goerli ETH
BSC BNB
BSC Testnet BNB
Ethereum ETH
Fantom FTM
Fantom Testnet FTM
Fuji AVAX
Goerli ETH
Linea ETH
Linea Goerli ETH
Linea Sepolia ETH
Mumbai MATIC
opBNB BNB
opBNB Testnet BNB
Optimism ETH
Optimism Sepolia ETH
Optimism Goerli ETH
Polygon MATIC
Sepolia ETH
Scroll ETH
zkSync ETH

For specifying network you only need to pass network's name.

from ether import Wallet
my_wallet = Wallet('your_private_key', 'Arbitrum')

If you use unsupported network, you can specify it using Network instance

from ether import Wallet, Network

network_info = Network(
    name='Custom',
    rpc='wss://custom.publicnode.com',
    token='CUSTOM'
)
custom_wallet = Wallet('your_private_key', network_info)

Library supports asynchronous approach

from ether import AsyncWallet

async def validate_balance():
    async_wallet = AsyncWallet('your_private_key', 'Arbitrum')
    balance = await async_wallet.get_balance()
    assert balance > 0.1

Quick overview

You can perform the following actions, using ether:

approve

When you want to spend non-native tokens, for instance USDT, you need to perform approving operation.

from ether import Wallet
my_wallet = Wallet('your_private_key', 'Arbitrum')
provider = my_wallet.provider

stargate_router = '0x8731d54E9D02c286767d56ac03e8037C07e01e98'
usdt = my_wallet.get_token('0xdAC17F958D2ee523a2206206994597C13D831ec7')
usdt_amount = provider.to_wei(0.001, 'ether')

my_wallet.approve(usdt, stargate_router, usdt_amount)

build_and_transact

If you don't need to check estimated gas or directly use transact, you can call build_and_transact. It's based on getting closure as argument. Closure is transaction's function, called with arguments. Notice that it has to be not built or awaited
from ether import Wallet
my_wallet = Wallet('your_private_key', 'Arbitrum')
provider = my_wallet.provider

stargate_abi = [...]
stargate_router = '0x8731d54E9D02c286767d56ac03e8037C07e01e98'
stargate = my_wallet.provider.eth.contract(stargate_router, abi=stargate_abi)

eth_amount = provider.to_wei(0.001, 'ether')
closure = stargate.functions.swapETH(...) 
my_wallet.build_and_transact(closure, eth_amount)

build_tx_params

You can use build_tx_params to quickly get dictionary of params for building transaction. Public key, chain id and nonce are generated automatically. You also can also choose not to set a gas and the gas price
from ether import Wallet
my_wallet = Wallet('your_private_key', 'BSC')

my_wallet.build_tx_params(0)
{
  "from": "0xe977Fa8D8AE7D3D6e28c17A868EF04bD301c583f", 
  "chainId": 56, 
  "nonce": 168, 
  "value": 0, 
  "gas": 250000, 
  "gasPrice": 1000000000
}

create

You can use that, when you want to create all-new wallet
from ether import Wallet
wallet = Wallet.create('Arbitrum')

estimate_gas

When you want to estimate an amount of gas to send a transaction, you can use estimate_gas
from ether import Wallet

my_wallet = Wallet('your_private_key', 'Arbitrum')
provider = my_wallet.provider

stargate_router = '0x8731d54E9D02c286767d56ac03e8037C07e01e98'
stargate_abi = [...]
eth_amount = provider.to_wei(0.001, 'ether')

stargate = my_wallet.provider.eth.contract(stargate_router, abi=stargate_abi)
params = my_wallet.build_tx_params(eth_amount)
tx_params = stargate.functions.swapETH(...).buildTransaction(params)
gas = my_wallet.estimate_gas(tx_params)
tx_params['gas'] = gas

my_wallet.transact(tx_params)

get_balance

You can get the balance of the native token of your wallet.
from ether import Wallet
my_wallet = Wallet('your_private_key', 'Arbitrum')
balance = my_wallet.get_balance()

get_balance_of

You can get the balance of specified token of your wallet
from ether import Wallet
my_wallet = Wallet('your_private_key', 'Arbitrum')

usdt = my_wallet.get_token('0xdAC17F958D2ee523a2206206994597C13D831ec7')
balance = my_wallet.get_balance_of(usdt, convert=True)
print(balance)

get_token

You can get the `Token` instance, containing information about symbol and decimals. Also this function used for another instance-methods of Wallet.
from ether import Wallet
my_wallet = Wallet('your_private_key', 'Arbitrum')
usdt = my_wallet.get_token('0xdAC17F958D2ee523a2206206994597C13D831ec7')
print(usdt.decimals)

get_explorer_url

You can get entire wallet's list of transactions
from ether import Wallet
from web3.contract import Contract
my_wallet = Wallet('your_private_key', 'Arbitrum')
provider = my_wallet.provider

stargate_router = '0x8731d54E9D02c286767d56ac03e8037C07e01e98'
stargate_abi = [...]
stargate = Contract(stargate_router, stargate_abi)

eth_amount = provider.to_wei(0.001, 'ether')
closure = stargate.functions.swapETH(...) 
tx_hash = my_wallet.build_and_transact(closure, eth_amount)
print(my_wallet.get_explorer_url(tx_hash))

is_native_token

If you want to check, if the specific token is native token of network, you can use is_native_token.

You can use any case in a token's ticker.

from ether import Wallet
my_wallet = Wallet('your_private_key', 'Arbitrum')
assert my_wallet.is_native_token('eTh')

transact

After building transaction you can perform it, passing transaction data to transact
from ether import Wallet

my_wallet = Wallet('your_private_key', 'Arbitrum')
provider = my_wallet.provider

stargate_router = '0x8731d54E9D02c286767d56ac03e8037C07e01e98'
stargate_abi = [...]
eth_amount = provider.to_wei(0.001, 'ether')

stargate = my_wallet.provider.eth.contract(stargate_router, abi=stargate_abi)
params = my_wallet.build_tx_params(eth_amount)
tx_data = stargate.functions.swapETH(...).buildTransaction(params)
gas = my_wallet.estimate_gas(tx_data)
tx_data['gas'] = gas

my_wallet.transact(tx_data)

transfer

You can transfer tokens to another wallet
from ether import Wallet
my_wallet = Wallet('your_private_key', 'Arbitrum')
provider = my_wallet.provider

recipient = '0xe977Fa8D8AE7D3D6e28c17A868EF04bD301c583f'
usdt = my_wallet.get_token('0xdAC17F958D2ee523a2206206994597C13D831ec7')
usdt_amount = provider.to_wei(0.001, 'ether')

my_wallet.transfer(usdt, recipient, usdt_amount)

Installing ether

To install the package from PyPi you can use:

pip install pyether

To install the package from GitHub you can use:

pip install git+https://github.com/CrocoFactory/ether.git

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