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Installation varies between operating systems.
See our documentation on complete instructions
A Client is a facade for interacting with Starknet. FullNodeClient is a client which interacts with a Starknet full nodes like Pathfinder, Papyrus or Juno. It supports read and write operations, like querying the blockchain state or adding new transactions.
from starknet_py.net.full_node_client import FullNodeClient
node_url = "https://your.node.url"
client = FullNodeClient(node_url=node_url)
call_result = await client.get_block(block_number=1)
The default interface is asynchronous. Although it is the recommended way of using starknet.py, you can also use a synchronous version. It might be helpful to play with Starknet directly in python interpreter.
node_url = "https://your.node.url"
client = FullNodeClient(node_url=node_url)
call_result = client.get_block_sync(block_number=1)
You can check out all of the FullNodeClient’s methods here: FullNodeClient.
Account is the default implementation of BaseAccount interface. It supports an account contract which proxies the calls to other contracts on Starknet.
Account can be created in two ways:
address
and either key_pair
or signer
).Account.deploy_account_v1
or Account.deploy_account_v3
Additionally, you can use the sncast tool to create an account, which will automatically be saved to a file. There are some examples how to do it:
from starknet_py.net.account.account import Account
from starknet_py.net.full_node_client import FullNodeClient
from starknet_py.net.models.chains import StarknetChainId
from starknet_py.net.signer.stark_curve_signer import KeyPair
from starknet_py.net.signer.stark_curve_signer import StarkCurveSigner
# Creates an instance of account which is already deployed
# Account using transaction version=1 (has __validate__ function)
client = FullNodeClient(node_url="https://your.node.url")
account = Account(
client=client,
address="0x4321",
key_pair=KeyPair(private_key=654, public_key=321),
chain=StarknetChainId.SEPOLIA,
)
# There is another way of creating key_pair
key_pair = KeyPair.from_private_key(key=123)
# or
key_pair = KeyPair.from_private_key(key="0x123")
# Instead of providing key_pair it is possible to specify a signer
signer = StarkCurveSigner("0x1234", key_pair, StarknetChainId.SEPOLIA)
account = Account(
client=client, address="0x1234", signer=signer, chain=StarknetChainId.SEPOLIA
)
Example usage:
from starknet_py.contract import Contract
from starknet_py.net.client_models import ResourceBounds
l1_resource_bounds = ResourceBounds(
max_amount=int(1e5), max_price_per_unit=int(1e13)
)
# Declare and deploy an example contract which implements a simple k-v store.
# Contract.declare_v3 takes string containing a compiled contract (sierra) and
# a class hash (casm_class_hash) or string containing a compiled contract (casm)
declare_result = await Contract.declare_v3(
account,
compiled_contract=compiled_contract,
compiled_class_hash=class_hash,
l1_resource_bounds=l1_resource_bounds,
)
await declare_result.wait_for_acceptance()
deploy_result = await declare_result.deploy_v3(
l1_resource_bounds=l1_resource_bounds,
)
# Wait until deployment transaction is accepted
await deploy_result.wait_for_acceptance()
# Get deployed contract
map_contract = deploy_result.deployed_contract
k, v = 13, 4324
# Adds a transaction to mutate the state of k-v store. The call goes through account proxy, because we've used
# Account to create the contract object
await (
await map_contract.functions["put"].invoke_v3(
k,
v,
l1_resource_bounds=ResourceBounds(
max_amount=int(1e5), max_price_per_unit=int(1e13)
),
)
).wait_for_acceptance()
# Retrieves the value, which is equal to 4324 in this case
(resp,) = await map_contract.functions["get"].call(k)
# There is a possibility of invoking the multicall
# Creates a list of prepared function calls
calls = [
map_contract.functions["put"].prepare_invoke_v3(key=10, value=20),
map_contract.functions["put"].prepare_invoke_v3(key=30, value=40),
]
# Executes only one transaction with prepared calls
transaction_response = await account.execute_v3(
calls=calls,
l1_resource_bounds=l1_resource_bounds,
)
await account.client.wait_for_tx(transaction_response.transaction_hash)
Contract makes interacting with contracts deployed on Starknet much easier:
from starknet_py.contract import Contract
contract_address = (
"0x01336fa7c870a7403aced14dda865b75f29113230ed84e3a661f7af70fe83e7b"
)
key = 1234
# Create contract from contract's address - Contract will download contract's ABI to know its interface.
contract = await Contract.from_address(address=contract_address, provider=account)
# If the ABI is known, create the contract directly (this is the preferred way).
contract = Contract(
address=contract_address,
abi=abi,
provider=account,
cairo_version=1,
)
# All exposed functions are available at contract.functions.
# Here we invoke a function, creating a new transaction.
invocation = await contract.functions["put"].invoke_v1(key, 7, max_fee=int(1e16))
# Invocation returns InvokeResult object. It exposes a helper for waiting until transaction is accepted.
await invocation.wait_for_acceptance()
# Calling contract's function doesn't create a new transaction, you get the function's result.
(saved,) = await contract.functions["get"].call(key)
# saved = 7 now
To check if invoke succeeded use wait_for_acceptance
on InvokeResult and get its status.
Although asynchronous API is recommended, you can also use Contract’s synchronous API:
from starknet_py.contract import Contract
contract_address = (
"0x01336fa7c870a7403aced14dda865b75f29113230ed84e3a661f7af70fe83e7b"
)
key = 1234
contract = Contract.from_address_sync(address=contract_address, provider=account)
invocation = contract.functions["put"].invoke_v1_sync(key, 7, max_fee=int(1e16))
invocation.wait_for_acceptance_sync()
(saved,) = contract.functions["get"].call_sync(key) # 7
Contract automatically serializes values to Cairo calldata. This includes adding array lengths automatically. See more info in Serialization.
Quickstart in docs - click here.
FAQs
A python SDK for Starknet
We found that starknet-py demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 2 open source maintainers collaborating on the project.
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