Module moody.m.c_token

Generated wrapper for CToken Solidity contract.

Expand source code
"""Generated wrapper for CToken Solidity contract."""

# pylint: disable=too-many-arguments

import json
from typing import (  # pylint: disable=unused-import
    Any,
    List,
    Optional,
    Tuple,
    Union,
)
import time
from eth_utils import to_checksum_address
from mypy_extensions import TypedDict  # pylint: disable=unused-import
from hexbytes import HexBytes
from web3 import Web3
from web3.contract import ContractFunction
from web3.datastructures import AttributeDict
from web3.providers.base import BaseProvider
from web3.exceptions import ContractLogicError
from moody.m.bases import ContractMethod, Validator, ContractBase, Signatures
from moody.m.tx_params import TxParams
from moody.libeb import MiliDoS
from moody import Bolors

# Try to import a custom validator class definition; if there isn't one,
# declare one that we can instantiate for the default argument to the
# constructor for CToken below.
try:
    # both mypy and pylint complain about what we're doing here, but this
    # works just fine, so their messages have been disabled here.
    from . import (  # type: ignore # pylint: disable=import-self
        CTokenValidator,
    )
except ImportError:

    class CTokenValidator(  # type: ignore
        Validator
    ):
        """No-op input validator."""

try:
    from .middleware import MIDDLEWARE  # type: ignore
except ImportError:
    pass


class AcceptAdmin_Method(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the _acceptAdmin method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("_acceptAdmin")

    def block_send(self, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method()
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: accept_admin_")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().transact(tx_params.as_dict())

    def build_transaction(self, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().buildTransaction(tx_params.as_dict())

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())


class ReduceReserves_Method(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the _reduceReserves method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("_reduceReserves")

    def validate_and_normalize_inputs(self, reduce_amount: int) -> any:
        """Validate the inputs to the _reduceReserves method."""
        self.validator.assert_valid(
            method_name='_reduceReserves',
            parameter_name='reduceAmount',
            argument_value=reduce_amount,
        )
        # safeguard against fractional inputs
        reduce_amount = int(reduce_amount)
        return (reduce_amount)

    def block_send(self, reduce_amount: int, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method(reduce_amount)
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: reduce_reserves_")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, reduce_amount: int, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        (reduce_amount) = self.validate_and_normalize_inputs(reduce_amount)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(reduce_amount).transact(tx_params.as_dict())

    def build_transaction(self, reduce_amount: int, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        (reduce_amount) = self.validate_and_normalize_inputs(reduce_amount)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(reduce_amount).buildTransaction(tx_params.as_dict())

    def estimate_gas(self, reduce_amount: int, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (reduce_amount) = self.validate_and_normalize_inputs(reduce_amount)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(reduce_amount).estimateGas(tx_params.as_dict())


class SetComptroller_Method(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the _setComptroller method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("_setComptroller")

    def validate_and_normalize_inputs(self, new_comptroller: str) -> any:
        """Validate the inputs to the _setComptroller method."""
        self.validator.assert_valid(
            method_name='_setComptroller',
            parameter_name='newComptroller',
            argument_value=new_comptroller,
        )
        new_comptroller = self.validate_and_checksum_address(new_comptroller)
        return (new_comptroller)

    def block_send(self, new_comptroller: str, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method(new_comptroller)
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: set_comptroller_")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, new_comptroller: str, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        (new_comptroller) = self.validate_and_normalize_inputs(new_comptroller)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(new_comptroller).transact(tx_params.as_dict())

    def build_transaction(self, new_comptroller: str, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        (new_comptroller) = self.validate_and_normalize_inputs(new_comptroller)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(new_comptroller).buildTransaction(tx_params.as_dict())

    def estimate_gas(self, new_comptroller: str, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (new_comptroller) = self.validate_and_normalize_inputs(new_comptroller)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(new_comptroller).estimateGas(tx_params.as_dict())


class SetInterestRateModel_Method(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the _setInterestRateModel method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("_setInterestRateModel")

    def validate_and_normalize_inputs(self, new_interest_rate_model: str) -> any:
        """Validate the inputs to the _setInterestRateModel method."""
        self.validator.assert_valid(
            method_name='_setInterestRateModel',
            parameter_name='newInterestRateModel',
            argument_value=new_interest_rate_model,
        )
        new_interest_rate_model = self.validate_and_checksum_address(new_interest_rate_model)
        return (new_interest_rate_model)

    def block_send(self, new_interest_rate_model: str, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method(new_interest_rate_model)
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: set_interest_rate_model_")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, new_interest_rate_model: str, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        (new_interest_rate_model) = self.validate_and_normalize_inputs(new_interest_rate_model)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(new_interest_rate_model).transact(tx_params.as_dict())

    def build_transaction(self, new_interest_rate_model: str, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        (new_interest_rate_model) = self.validate_and_normalize_inputs(new_interest_rate_model)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(new_interest_rate_model).buildTransaction(tx_params.as_dict())

    def estimate_gas(self, new_interest_rate_model: str, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (new_interest_rate_model) = self.validate_and_normalize_inputs(new_interest_rate_model)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(new_interest_rate_model).estimateGas(tx_params.as_dict())


class SetPendingAdmin_Method(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the _setPendingAdmin method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("_setPendingAdmin")

    def validate_and_normalize_inputs(self, new_pending_admin: str) -> any:
        """Validate the inputs to the _setPendingAdmin method."""
        self.validator.assert_valid(
            method_name='_setPendingAdmin',
            parameter_name='newPendingAdmin',
            argument_value=new_pending_admin,
        )
        new_pending_admin = self.validate_and_checksum_address(new_pending_admin)
        return (new_pending_admin)

    def block_send(self, new_pending_admin: str, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method(new_pending_admin)
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: set_pending_admin_")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, new_pending_admin: str, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        (new_pending_admin) = self.validate_and_normalize_inputs(new_pending_admin)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(new_pending_admin).transact(tx_params.as_dict())

    def build_transaction(self, new_pending_admin: str, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        (new_pending_admin) = self.validate_and_normalize_inputs(new_pending_admin)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(new_pending_admin).buildTransaction(tx_params.as_dict())

    def estimate_gas(self, new_pending_admin: str, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (new_pending_admin) = self.validate_and_normalize_inputs(new_pending_admin)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(new_pending_admin).estimateGas(tx_params.as_dict())


class SetReserveFactor_Method(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the _setReserveFactor method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("_setReserveFactor")

    def validate_and_normalize_inputs(self, new_reserve_factor_mantissa: int) -> any:
        """Validate the inputs to the _setReserveFactor method."""
        self.validator.assert_valid(
            method_name='_setReserveFactor',
            parameter_name='newReserveFactorMantissa',
            argument_value=new_reserve_factor_mantissa,
        )
        # safeguard against fractional inputs
        new_reserve_factor_mantissa = int(new_reserve_factor_mantissa)
        return (new_reserve_factor_mantissa)

    def block_send(self, new_reserve_factor_mantissa: int, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method(new_reserve_factor_mantissa)
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: set_reserve_factor_")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, new_reserve_factor_mantissa: int, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        (new_reserve_factor_mantissa) = self.validate_and_normalize_inputs(new_reserve_factor_mantissa)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(new_reserve_factor_mantissa).transact(tx_params.as_dict())

    def build_transaction(self, new_reserve_factor_mantissa: int, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        (new_reserve_factor_mantissa) = self.validate_and_normalize_inputs(new_reserve_factor_mantissa)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(new_reserve_factor_mantissa).buildTransaction(tx_params.as_dict())

    def estimate_gas(self, new_reserve_factor_mantissa: int, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (new_reserve_factor_mantissa) = self.validate_and_normalize_inputs(new_reserve_factor_mantissa)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(new_reserve_factor_mantissa).estimateGas(tx_params.as_dict())


class AccrualBlockNumberMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the accrualBlockNumber method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("accrualBlockNumber")

    def block_call(self, debug: bool = False) -> int:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())


class AccrueInterestMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the accrueInterest method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("accrueInterest")

    def block_send(self, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method()
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: accrue_interest")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().transact(tx_params.as_dict())

    def build_transaction(self, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().buildTransaction(tx_params.as_dict())

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())


class AdminMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the admin method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("admin")

    def block_call(self, debug: bool = False) -> str:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return str(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())


class AllowanceMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the allowance method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("allowance")

    def validate_and_normalize_inputs(self, owner: str, spender: str) -> any:
        """Validate the inputs to the allowance method."""
        self.validator.assert_valid(
            method_name='allowance',
            parameter_name='owner',
            argument_value=owner,
        )
        owner = self.validate_and_checksum_address(owner)
        self.validator.assert_valid(
            method_name='allowance',
            parameter_name='spender',
            argument_value=spender,
        )
        spender = self.validate_and_checksum_address(spender)
        return (owner, spender)

    def block_call(self, owner: str, spender: str, debug: bool = False) -> int:
        _fn = self._underlying_method(owner, spender)
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, owner: str, spender: str, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (owner, spender) = self.validate_and_normalize_inputs(owner, spender)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(owner, spender).estimateGas(tx_params.as_dict())


class ApproveMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the approve method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("approve")

    def validate_and_normalize_inputs(self, spender: str, amount: int) -> any:
        """Validate the inputs to the approve method."""
        self.validator.assert_valid(
            method_name='approve',
            parameter_name='spender',
            argument_value=spender,
        )
        spender = self.validate_and_checksum_address(spender)
        self.validator.assert_valid(
            method_name='approve',
            parameter_name='amount',
            argument_value=amount,
        )
        # safeguard against fractional inputs
        amount = int(amount)
        return (spender, amount)

    def block_send(self, spender: str, amount: int, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> bool:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method(spender, amount)
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: approve")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, spender: str, amount: int, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        (spender, amount) = self.validate_and_normalize_inputs(spender, amount)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(spender, amount).transact(tx_params.as_dict())

    def build_transaction(self, spender: str, amount: int, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        (spender, amount) = self.validate_and_normalize_inputs(spender, amount)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(spender, amount).buildTransaction(tx_params.as_dict())

    def estimate_gas(self, spender: str, amount: int, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (spender, amount) = self.validate_and_normalize_inputs(spender, amount)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(spender, amount).estimateGas(tx_params.as_dict())


class BalanceOfMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the balanceOf method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("balanceOf")

    def validate_and_normalize_inputs(self, owner: str) -> any:
        """Validate the inputs to the balanceOf method."""
        self.validator.assert_valid(
            method_name='balanceOf',
            parameter_name='owner',
            argument_value=owner,
        )
        owner = self.validate_and_checksum_address(owner)
        return (owner)

    def block_call(self, owner: str, debug: bool = False) -> int:
        _fn = self._underlying_method(owner)
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, owner: str, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (owner) = self.validate_and_normalize_inputs(owner)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(owner).estimateGas(tx_params.as_dict())


class BalanceOfUnderlyingMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the balanceOfUnderlying method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("balanceOfUnderlying")

    def validate_and_normalize_inputs(self, owner: str) -> any:
        """Validate the inputs to the balanceOfUnderlying method."""
        self.validator.assert_valid(
            method_name='balanceOfUnderlying',
            parameter_name='owner',
            argument_value=owner,
        )
        owner = self.validate_and_checksum_address(owner)
        return (owner)

    def block_send(self, owner: str, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method(owner)
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: balance_of_underlying")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, owner: str, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        (owner) = self.validate_and_normalize_inputs(owner)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(owner).transact(tx_params.as_dict())

    def build_transaction(self, owner: str, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        (owner) = self.validate_and_normalize_inputs(owner)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(owner).buildTransaction(tx_params.as_dict())

    def estimate_gas(self, owner: str, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (owner) = self.validate_and_normalize_inputs(owner)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(owner).estimateGas(tx_params.as_dict())


class BorrowBalanceCurrentMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the borrowBalanceCurrent method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("borrowBalanceCurrent")

    def validate_and_normalize_inputs(self, account: str) -> any:
        """Validate the inputs to the borrowBalanceCurrent method."""
        self.validator.assert_valid(
            method_name='borrowBalanceCurrent',
            parameter_name='account',
            argument_value=account,
        )
        account = self.validate_and_checksum_address(account)
        return (account)

    def block_send(self, account: str, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method(account)
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: borrow_balance_current")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, account: str, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        (account) = self.validate_and_normalize_inputs(account)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(account).transact(tx_params.as_dict())

    def build_transaction(self, account: str, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        (account) = self.validate_and_normalize_inputs(account)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(account).buildTransaction(tx_params.as_dict())

    def estimate_gas(self, account: str, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (account) = self.validate_and_normalize_inputs(account)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(account).estimateGas(tx_params.as_dict())


class BorrowBalanceStoredMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the borrowBalanceStored method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("borrowBalanceStored")

    def validate_and_normalize_inputs(self, account: str) -> any:
        """Validate the inputs to the borrowBalanceStored method."""
        self.validator.assert_valid(
            method_name='borrowBalanceStored',
            parameter_name='account',
            argument_value=account,
        )
        account = self.validate_and_checksum_address(account)
        return (account)

    def block_call(self, account: str, debug: bool = False) -> int:
        _fn = self._underlying_method(account)
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, account: str, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (account) = self.validate_and_normalize_inputs(account)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(account).estimateGas(tx_params.as_dict())


class BorrowIndexMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the borrowIndex method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("borrowIndex")

    def block_call(self, debug: bool = False) -> int:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())


class BorrowRatePerBlockMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the borrowRatePerBlock method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("borrowRatePerBlock")

    def block_call(self, debug: bool = False) -> int:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())


class ComptrollerMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the comptroller method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("comptroller")

    def block_call(self, debug: bool = False) -> str:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return str(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())


class DecimalsMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the decimals method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("decimals")

    def block_call(self, debug: bool = False) -> int:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())


class ExchangeRateCurrentMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the exchangeRateCurrent method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("exchangeRateCurrent")

    def block_send(self, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method()
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: exchange_rate_current")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().transact(tx_params.as_dict())

    def build_transaction(self, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().buildTransaction(tx_params.as_dict())

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())


class ExchangeRateStoredMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the exchangeRateStored method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("exchangeRateStored")

    def block_call(self, debug: bool = False) -> int:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())


class GetAccountSnapshotMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the getAccountSnapshot method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("getAccountSnapshot")

    def validate_and_normalize_inputs(self, account: str) -> any:
        """Validate the inputs to the getAccountSnapshot method."""
        self.validator.assert_valid(
            method_name='getAccountSnapshot',
            parameter_name='account',
            argument_value=account,
        )
        account = self.validate_and_checksum_address(account)
        return (account)

    def block_call(self, account: str, debug: bool = False) -> Tuple[int, int, int, int]:
        _fn = self._underlying_method(account)
        returned = _fn.call({
            'from': self._operate
        })
        return (returned[0], returned[1], returned[2], returned[3],)

    def estimate_gas(self, account: str, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (account) = self.validate_and_normalize_inputs(account)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(account).estimateGas(tx_params.as_dict())


class GetCashMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the getCash method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("getCash")

    def block_call(self, debug: bool = False) -> int:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())


class InitializeMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the initialize method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("initialize")

    def validate_and_normalize_inputs(self, comptroller_: str, interest_rate_model_: str, initial_exchange_rate_mantissa_: int, name_: str, symbol_: str, decimals_: int) -> any:
        """Validate the inputs to the initialize method."""
        self.validator.assert_valid(
            method_name='initialize',
            parameter_name='comptroller_',
            argument_value=comptroller_,
        )
        comptroller_ = self.validate_and_checksum_address(comptroller_)
        self.validator.assert_valid(
            method_name='initialize',
            parameter_name='interestRateModel_',
            argument_value=interest_rate_model_,
        )
        interest_rate_model_ = self.validate_and_checksum_address(interest_rate_model_)
        self.validator.assert_valid(
            method_name='initialize',
            parameter_name='initialExchangeRateMantissa_',
            argument_value=initial_exchange_rate_mantissa_,
        )
        # safeguard against fractional inputs
        initial_exchange_rate_mantissa_ = int(initial_exchange_rate_mantissa_)
        self.validator.assert_valid(
            method_name='initialize',
            parameter_name='name_',
            argument_value=name_,
        )
        self.validator.assert_valid(
            method_name='initialize',
            parameter_name='symbol_',
            argument_value=symbol_,
        )
        self.validator.assert_valid(
            method_name='initialize',
            parameter_name='decimals_',
            argument_value=decimals_,
        )
        return (comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_)

    def block_send(self, comptroller_: str, interest_rate_model_: str, initial_exchange_rate_mantissa_: int, name_: str, symbol_: str, decimals_: int, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> None:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method(comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_)
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: initialize")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, comptroller_: str, interest_rate_model_: str, initial_exchange_rate_mantissa_: int, name_: str, symbol_: str, decimals_: int, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        (comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_) = self.validate_and_normalize_inputs(comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_).transact(tx_params.as_dict())

    def build_transaction(self, comptroller_: str, interest_rate_model_: str, initial_exchange_rate_mantissa_: int, name_: str, symbol_: str, decimals_: int, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        (comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_) = self.validate_and_normalize_inputs(comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_).buildTransaction(tx_params.as_dict())

    def estimate_gas(self, comptroller_: str, interest_rate_model_: str, initial_exchange_rate_mantissa_: int, name_: str, symbol_: str, decimals_: int, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_) = self.validate_and_normalize_inputs(comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_).estimateGas(tx_params.as_dict())


class InterestRateModelMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the interestRateModel method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("interestRateModel")

    def block_call(self, debug: bool = False) -> str:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return str(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())


class IsCTokenMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the isCToken method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("isCToken")

    def block_call(self, debug: bool = False) -> bool:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return bool(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())


class NameMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the name method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("name")

    def block_call(self, debug: bool = False) -> str:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return str(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())


class PendingAdminMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the pendingAdmin method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("pendingAdmin")

    def block_call(self, debug: bool = False) -> str:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return str(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())


class ProtocolSeizeShareMantissaMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the protocolSeizeShareMantissa method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("protocolSeizeShareMantissa")

    def block_call(self, debug: bool = False) -> int:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())


class ReserveFactorMantissaMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the reserveFactorMantissa method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("reserveFactorMantissa")

    def block_call(self, debug: bool = False) -> int:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())


class SeizeMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the seize method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("seize")

    def validate_and_normalize_inputs(self, liquidator: str, borrower: str, seize_tokens: int) -> any:
        """Validate the inputs to the seize method."""
        self.validator.assert_valid(
            method_name='seize',
            parameter_name='liquidator',
            argument_value=liquidator,
        )
        liquidator = self.validate_and_checksum_address(liquidator)
        self.validator.assert_valid(
            method_name='seize',
            parameter_name='borrower',
            argument_value=borrower,
        )
        borrower = self.validate_and_checksum_address(borrower)
        self.validator.assert_valid(
            method_name='seize',
            parameter_name='seizeTokens',
            argument_value=seize_tokens,
        )
        # safeguard against fractional inputs
        seize_tokens = int(seize_tokens)
        return (liquidator, borrower, seize_tokens)

    def block_send(self, liquidator: str, borrower: str, seize_tokens: int, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method(liquidator, borrower, seize_tokens)
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: seize")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, liquidator: str, borrower: str, seize_tokens: int, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        (liquidator, borrower, seize_tokens) = self.validate_and_normalize_inputs(liquidator, borrower, seize_tokens)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(liquidator, borrower, seize_tokens).transact(tx_params.as_dict())

    def build_transaction(self, liquidator: str, borrower: str, seize_tokens: int, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        (liquidator, borrower, seize_tokens) = self.validate_and_normalize_inputs(liquidator, borrower, seize_tokens)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(liquidator, borrower, seize_tokens).buildTransaction(tx_params.as_dict())

    def estimate_gas(self, liquidator: str, borrower: str, seize_tokens: int, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (liquidator, borrower, seize_tokens) = self.validate_and_normalize_inputs(liquidator, borrower, seize_tokens)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(liquidator, borrower, seize_tokens).estimateGas(tx_params.as_dict())


class SupplyRatePerBlockMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the supplyRatePerBlock method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("supplyRatePerBlock")

    def block_call(self, debug: bool = False) -> int:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())


class SymbolMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the symbol method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("symbol")

    def block_call(self, debug: bool = False) -> str:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return str(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())


class TotalBorrowsMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the totalBorrows method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("totalBorrows")

    def block_call(self, debug: bool = False) -> int:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())


class TotalBorrowsCurrentMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the totalBorrowsCurrent method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("totalBorrowsCurrent")

    def block_send(self, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method()
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: total_borrows_current")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().transact(tx_params.as_dict())

    def build_transaction(self, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().buildTransaction(tx_params.as_dict())

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())


class TotalReservesMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the totalReserves method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("totalReserves")

    def block_call(self, debug: bool = False) -> int:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())


class TotalSupplyMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the totalSupply method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("totalSupply")

    def block_call(self, debug: bool = False) -> int:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())


class TransferMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the transfer method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("transfer")

    def validate_and_normalize_inputs(self, dst: str, amount: int) -> any:
        """Validate the inputs to the transfer method."""
        self.validator.assert_valid(
            method_name='transfer',
            parameter_name='dst',
            argument_value=dst,
        )
        dst = self.validate_and_checksum_address(dst)
        self.validator.assert_valid(
            method_name='transfer',
            parameter_name='amount',
            argument_value=amount,
        )
        # safeguard against fractional inputs
        amount = int(amount)
        return (dst, amount)

    def block_send(self, dst: str, amount: int, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> bool:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method(dst, amount)
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: transfer")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, dst: str, amount: int, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        (dst, amount) = self.validate_and_normalize_inputs(dst, amount)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(dst, amount).transact(tx_params.as_dict())

    def build_transaction(self, dst: str, amount: int, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        (dst, amount) = self.validate_and_normalize_inputs(dst, amount)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(dst, amount).buildTransaction(tx_params.as_dict())

    def estimate_gas(self, dst: str, amount: int, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (dst, amount) = self.validate_and_normalize_inputs(dst, amount)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(dst, amount).estimateGas(tx_params.as_dict())


class TransferFromMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the transferFrom method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("transferFrom")

    def validate_and_normalize_inputs(self, src: str, dst: str, amount: int) -> any:
        """Validate the inputs to the transferFrom method."""
        self.validator.assert_valid(
            method_name='transferFrom',
            parameter_name='src',
            argument_value=src,
        )
        src = self.validate_and_checksum_address(src)
        self.validator.assert_valid(
            method_name='transferFrom',
            parameter_name='dst',
            argument_value=dst,
        )
        dst = self.validate_and_checksum_address(dst)
        self.validator.assert_valid(
            method_name='transferFrom',
            parameter_name='amount',
            argument_value=amount,
        )
        # safeguard against fractional inputs
        amount = int(amount)
        return (src, dst, amount)

    def block_send(self, src: str, dst: str, amount: int, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> bool:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method(src, dst, amount)
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: transfer_from")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, src: str, dst: str, amount: int, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        (src, dst, amount) = self.validate_and_normalize_inputs(src, dst, amount)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(src, dst, amount).transact(tx_params.as_dict())

    def build_transaction(self, src: str, dst: str, amount: int, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        (src, dst, amount) = self.validate_and_normalize_inputs(src, dst, amount)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(src, dst, amount).buildTransaction(tx_params.as_dict())

    def estimate_gas(self, src: str, dst: str, amount: int, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (src, dst, amount) = self.validate_and_normalize_inputs(src, dst, amount)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(src, dst, amount).estimateGas(tx_params.as_dict())


class SignatureGenerator(Signatures):
    """
        The signature is generated for this and it is installed.
    """

    def __init__(self, abi: any):
        super().__init__(abi)

    def accept_admin_(self) -> str:
        return self._function_signatures["_acceptAdmin"]

    def reduce_reserves_(self) -> str:
        return self._function_signatures["_reduceReserves"]

    def set_comptroller_(self) -> str:
        return self._function_signatures["_setComptroller"]

    def set_interest_rate_model_(self) -> str:
        return self._function_signatures["_setInterestRateModel"]

    def set_pending_admin_(self) -> str:
        return self._function_signatures["_setPendingAdmin"]

    def set_reserve_factor_(self) -> str:
        return self._function_signatures["_setReserveFactor"]

    def accrual_block_number(self) -> str:
        return self._function_signatures["accrualBlockNumber"]

    def accrue_interest(self) -> str:
        return self._function_signatures["accrueInterest"]

    def admin(self) -> str:
        return self._function_signatures["admin"]

    def allowance(self) -> str:
        return self._function_signatures["allowance"]

    def approve(self) -> str:
        return self._function_signatures["approve"]

    def balance_of(self) -> str:
        return self._function_signatures["balanceOf"]

    def balance_of_underlying(self) -> str:
        return self._function_signatures["balanceOfUnderlying"]

    def borrow_balance_current(self) -> str:
        return self._function_signatures["borrowBalanceCurrent"]

    def borrow_balance_stored(self) -> str:
        return self._function_signatures["borrowBalanceStored"]

    def borrow_index(self) -> str:
        return self._function_signatures["borrowIndex"]

    def borrow_rate_per_block(self) -> str:
        return self._function_signatures["borrowRatePerBlock"]

    def comptroller(self) -> str:
        return self._function_signatures["comptroller"]

    def decimals(self) -> str:
        return self._function_signatures["decimals"]

    def exchange_rate_current(self) -> str:
        return self._function_signatures["exchangeRateCurrent"]

    def exchange_rate_stored(self) -> str:
        return self._function_signatures["exchangeRateStored"]

    def get_account_snapshot(self) -> str:
        return self._function_signatures["getAccountSnapshot"]

    def get_cash(self) -> str:
        return self._function_signatures["getCash"]

    def initialize(self) -> str:
        return self._function_signatures["initialize"]

    def interest_rate_model(self) -> str:
        return self._function_signatures["interestRateModel"]

    def is_c_token(self) -> str:
        return self._function_signatures["isCToken"]

    def name(self) -> str:
        return self._function_signatures["name"]

    def pending_admin(self) -> str:
        return self._function_signatures["pendingAdmin"]

    def protocol_seize_share_mantissa(self) -> str:
        return self._function_signatures["protocolSeizeShareMantissa"]

    def reserve_factor_mantissa(self) -> str:
        return self._function_signatures["reserveFactorMantissa"]

    def seize(self) -> str:
        return self._function_signatures["seize"]

    def supply_rate_per_block(self) -> str:
        return self._function_signatures["supplyRatePerBlock"]

    def symbol(self) -> str:
        return self._function_signatures["symbol"]

    def total_borrows(self) -> str:
        return self._function_signatures["totalBorrows"]

    def total_borrows_current(self) -> str:
        return self._function_signatures["totalBorrowsCurrent"]

    def total_reserves(self) -> str:
        return self._function_signatures["totalReserves"]

    def total_supply(self) -> str:
        return self._function_signatures["totalSupply"]

    def transfer(self) -> str:
        return self._function_signatures["transfer"]

    def transfer_from(self) -> str:
        return self._function_signatures["transferFrom"]


# pylint: disable=too-many-public-methods,too-many-instance-attributes
class CToken(ContractBase):
    """Wrapper class for CToken Solidity contract."""
    _fn_accept_admin_: AcceptAdmin_Method
    """Constructor-initialized instance of
    :class:`AcceptAdmin_Method`.
    """

    _fn_reduce_reserves_: ReduceReserves_Method
    """Constructor-initialized instance of
    :class:`ReduceReserves_Method`.
    """

    _fn_set_comptroller_: SetComptroller_Method
    """Constructor-initialized instance of
    :class:`SetComptroller_Method`.
    """

    _fn_set_interest_rate_model_: SetInterestRateModel_Method
    """Constructor-initialized instance of
    :class:`SetInterestRateModel_Method`.
    """

    _fn_set_pending_admin_: SetPendingAdmin_Method
    """Constructor-initialized instance of
    :class:`SetPendingAdmin_Method`.
    """

    _fn_set_reserve_factor_: SetReserveFactor_Method
    """Constructor-initialized instance of
    :class:`SetReserveFactor_Method`.
    """

    _fn_accrual_block_number: AccrualBlockNumberMethod
    """Constructor-initialized instance of
    :class:`AccrualBlockNumberMethod`.
    """

    _fn_accrue_interest: AccrueInterestMethod
    """Constructor-initialized instance of
    :class:`AccrueInterestMethod`.
    """

    _fn_admin: AdminMethod
    """Constructor-initialized instance of
    :class:`AdminMethod`.
    """

    _fn_allowance: AllowanceMethod
    """Constructor-initialized instance of
    :class:`AllowanceMethod`.
    """

    _fn_approve: ApproveMethod
    """Constructor-initialized instance of
    :class:`ApproveMethod`.
    """

    _fn_balance_of: BalanceOfMethod
    """Constructor-initialized instance of
    :class:`BalanceOfMethod`.
    """

    _fn_balance_of_underlying: BalanceOfUnderlyingMethod
    """Constructor-initialized instance of
    :class:`BalanceOfUnderlyingMethod`.
    """

    _fn_borrow_balance_current: BorrowBalanceCurrentMethod
    """Constructor-initialized instance of
    :class:`BorrowBalanceCurrentMethod`.
    """

    _fn_borrow_balance_stored: BorrowBalanceStoredMethod
    """Constructor-initialized instance of
    :class:`BorrowBalanceStoredMethod`.
    """

    _fn_borrow_index: BorrowIndexMethod
    """Constructor-initialized instance of
    :class:`BorrowIndexMethod`.
    """

    _fn_borrow_rate_per_block: BorrowRatePerBlockMethod
    """Constructor-initialized instance of
    :class:`BorrowRatePerBlockMethod`.
    """

    _fn_comptroller: ComptrollerMethod
    """Constructor-initialized instance of
    :class:`ComptrollerMethod`.
    """

    _fn_decimals: DecimalsMethod
    """Constructor-initialized instance of
    :class:`DecimalsMethod`.
    """

    _fn_exchange_rate_current: ExchangeRateCurrentMethod
    """Constructor-initialized instance of
    :class:`ExchangeRateCurrentMethod`.
    """

    _fn_exchange_rate_stored: ExchangeRateStoredMethod
    """Constructor-initialized instance of
    :class:`ExchangeRateStoredMethod`.
    """

    _fn_get_account_snapshot: GetAccountSnapshotMethod
    """Constructor-initialized instance of
    :class:`GetAccountSnapshotMethod`.
    """

    _fn_get_cash: GetCashMethod
    """Constructor-initialized instance of
    :class:`GetCashMethod`.
    """

    _fn_initialize: InitializeMethod
    """Constructor-initialized instance of
    :class:`InitializeMethod`.
    """

    _fn_interest_rate_model: InterestRateModelMethod
    """Constructor-initialized instance of
    :class:`InterestRateModelMethod`.
    """

    _fn_is_c_token: IsCTokenMethod
    """Constructor-initialized instance of
    :class:`IsCTokenMethod`.
    """

    _fn_name: NameMethod
    """Constructor-initialized instance of
    :class:`NameMethod`.
    """

    _fn_pending_admin: PendingAdminMethod
    """Constructor-initialized instance of
    :class:`PendingAdminMethod`.
    """

    _fn_protocol_seize_share_mantissa: ProtocolSeizeShareMantissaMethod
    """Constructor-initialized instance of
    :class:`ProtocolSeizeShareMantissaMethod`.
    """

    _fn_reserve_factor_mantissa: ReserveFactorMantissaMethod
    """Constructor-initialized instance of
    :class:`ReserveFactorMantissaMethod`.
    """

    _fn_seize: SeizeMethod
    """Constructor-initialized instance of
    :class:`SeizeMethod`.
    """

    _fn_supply_rate_per_block: SupplyRatePerBlockMethod
    """Constructor-initialized instance of
    :class:`SupplyRatePerBlockMethod`.
    """

    _fn_symbol: SymbolMethod
    """Constructor-initialized instance of
    :class:`SymbolMethod`.
    """

    _fn_total_borrows: TotalBorrowsMethod
    """Constructor-initialized instance of
    :class:`TotalBorrowsMethod`.
    """

    _fn_total_borrows_current: TotalBorrowsCurrentMethod
    """Constructor-initialized instance of
    :class:`TotalBorrowsCurrentMethod`.
    """

    _fn_total_reserves: TotalReservesMethod
    """Constructor-initialized instance of
    :class:`TotalReservesMethod`.
    """

    _fn_total_supply: TotalSupplyMethod
    """Constructor-initialized instance of
    :class:`TotalSupplyMethod`.
    """

    _fn_transfer: TransferMethod
    """Constructor-initialized instance of
    :class:`TransferMethod`.
    """

    _fn_transfer_from: TransferFromMethod
    """Constructor-initialized instance of
    :class:`TransferFromMethod`.
    """

    SIGNATURES: SignatureGenerator = None

    def __init__(
            self,
            core_lib: MiliDoS,
            contract_address: str,
            validator: CTokenValidator = None,
    ):
        """Get an instance of wrapper for smart contract.
        """
        # pylint: disable=too-many-statements
        super().__init__()
        self.contract_address = contract_address
        web3 = core_lib.w3

        if not validator:
            validator = CTokenValidator(web3, contract_address)

        # if any middleware was imported, inject it
        try:
            MIDDLEWARE
        except NameError:
            pass
        else:
            try:
                for middleware in MIDDLEWARE:
                    web3.middleware_onion.inject(
                        middleware['function'], layer=middleware['layer'],
                    )
            except ValueError as value_error:
                if value_error.args == ("You can't add the same un-named instance twice",):
                    pass

        self._web3_eth = web3.eth
        functions = self._web3_eth.contract(address=to_checksum_address(contract_address), abi=CToken.abi()).functions
        signed = SignatureGenerator(CToken.abi())
        validator.bindSignatures(signed)
        self.SIGNATURES = signed
        self._fn_accept_admin_ = AcceptAdmin_Method(core_lib, contract_address, functions._acceptAdmin, validator)
        self._fn_reduce_reserves_ = ReduceReserves_Method(core_lib, contract_address, functions._reduceReserves, validator)
        self._fn_set_comptroller_ = SetComptroller_Method(core_lib, contract_address, functions._setComptroller, validator)
        self._fn_set_interest_rate_model_ = SetInterestRateModel_Method(core_lib, contract_address, functions._setInterestRateModel, validator)
        self._fn_set_pending_admin_ = SetPendingAdmin_Method(core_lib, contract_address, functions._setPendingAdmin, validator)
        self._fn_set_reserve_factor_ = SetReserveFactor_Method(core_lib, contract_address, functions._setReserveFactor, validator)
        self._fn_accrual_block_number = AccrualBlockNumberMethod(core_lib, contract_address, functions.accrualBlockNumber, validator)
        self._fn_accrue_interest = AccrueInterestMethod(core_lib, contract_address, functions.accrueInterest, validator)
        self._fn_admin = AdminMethod(core_lib, contract_address, functions.admin, validator)
        self._fn_allowance = AllowanceMethod(core_lib, contract_address, functions.allowance, validator)
        self._fn_approve = ApproveMethod(core_lib, contract_address, functions.approve, validator)
        self._fn_balance_of = BalanceOfMethod(core_lib, contract_address, functions.balanceOf, validator)
        self._fn_balance_of_underlying = BalanceOfUnderlyingMethod(core_lib, contract_address, functions.balanceOfUnderlying, validator)
        self._fn_borrow_balance_current = BorrowBalanceCurrentMethod(core_lib, contract_address, functions.borrowBalanceCurrent, validator)
        self._fn_borrow_balance_stored = BorrowBalanceStoredMethod(core_lib, contract_address, functions.borrowBalanceStored, validator)
        self._fn_borrow_index = BorrowIndexMethod(core_lib, contract_address, functions.borrowIndex, validator)
        self._fn_borrow_rate_per_block = BorrowRatePerBlockMethod(core_lib, contract_address, functions.borrowRatePerBlock, validator)
        self._fn_comptroller = ComptrollerMethod(core_lib, contract_address, functions.comptroller, validator)
        self._fn_decimals = DecimalsMethod(core_lib, contract_address, functions.decimals, validator)
        self._fn_exchange_rate_current = ExchangeRateCurrentMethod(core_lib, contract_address, functions.exchangeRateCurrent, validator)
        self._fn_exchange_rate_stored = ExchangeRateStoredMethod(core_lib, contract_address, functions.exchangeRateStored, validator)
        self._fn_get_account_snapshot = GetAccountSnapshotMethod(core_lib, contract_address, functions.getAccountSnapshot, validator)
        self._fn_get_cash = GetCashMethod(core_lib, contract_address, functions.getCash, validator)
        self._fn_initialize = InitializeMethod(core_lib, contract_address, functions.initialize, validator)
        self._fn_interest_rate_model = InterestRateModelMethod(core_lib, contract_address, functions.interestRateModel, validator)
        self._fn_is_c_token = IsCTokenMethod(core_lib, contract_address, functions.isCToken, validator)
        self._fn_name = NameMethod(core_lib, contract_address, functions.name, validator)
        self._fn_pending_admin = PendingAdminMethod(core_lib, contract_address, functions.pendingAdmin, validator)
        self._fn_protocol_seize_share_mantissa = ProtocolSeizeShareMantissaMethod(core_lib, contract_address, functions.protocolSeizeShareMantissa, validator)
        self._fn_reserve_factor_mantissa = ReserveFactorMantissaMethod(core_lib, contract_address, functions.reserveFactorMantissa, validator)
        self._fn_seize = SeizeMethod(core_lib, contract_address, functions.seize, validator)
        self._fn_supply_rate_per_block = SupplyRatePerBlockMethod(core_lib, contract_address, functions.supplyRatePerBlock, validator)
        self._fn_symbol = SymbolMethod(core_lib, contract_address, functions.symbol, validator)
        self._fn_total_borrows = TotalBorrowsMethod(core_lib, contract_address, functions.totalBorrows, validator)
        self._fn_total_borrows_current = TotalBorrowsCurrentMethod(core_lib, contract_address, functions.totalBorrowsCurrent, validator)
        self._fn_total_reserves = TotalReservesMethod(core_lib, contract_address, functions.totalReserves, validator)
        self._fn_total_supply = TotalSupplyMethod(core_lib, contract_address, functions.totalSupply, validator)
        self._fn_transfer = TransferMethod(core_lib, contract_address, functions.transfer, validator)
        self._fn_transfer_from = TransferFromMethod(core_lib, contract_address, functions.transferFrom, validator)

    def event_accrue_interest(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event accrue_interest in contract CToken
        Get log entry for AccrueInterest event.
                :param tx_hash: hash of transaction emitting AccrueInterest event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.AccrueInterest().processReceipt(tx_receipt)

    def event_approval(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event approval in contract CToken
        Get log entry for Approval event.
                :param tx_hash: hash of transaction emitting Approval event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.Approval().processReceipt(tx_receipt)

    def event_borrow(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event borrow in contract CToken
        Get log entry for Borrow event.
                :param tx_hash: hash of transaction emitting Borrow event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.Borrow().processReceipt(tx_receipt)

    def event_failure(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event failure in contract CToken
        Get log entry for Failure event.
                :param tx_hash: hash of transaction emitting Failure event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.Failure().processReceipt(tx_receipt)

    def event_liquidate_borrow(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event liquidate_borrow in contract CToken
        Get log entry for LiquidateBorrow event.
                :param tx_hash: hash of transaction emitting LiquidateBorrow event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.LiquidateBorrow().processReceipt(tx_receipt)

    def event_mint(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event mint in contract CToken
        Get log entry for Mint event.
                :param tx_hash: hash of transaction emitting Mint event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.Mint().processReceipt(tx_receipt)

    def event_new_admin(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event new_admin in contract CToken
        Get log entry for NewAdmin event.
                :param tx_hash: hash of transaction emitting NewAdmin event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.NewAdmin().processReceipt(tx_receipt)

    def event_new_comptroller(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event new_comptroller in contract CToken
        Get log entry for NewComptroller event.
                :param tx_hash: hash of transaction emitting NewComptroller event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.NewComptroller().processReceipt(tx_receipt)

    def event_new_market_interest_rate_model(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event new_market_interest_rate_model in contract CToken
        Get log entry for NewMarketInterestRateModel event.
                :param tx_hash: hash of transaction emitting NewMarketInterestRateModel
                event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.NewMarketInterestRateModel().processReceipt(tx_receipt)

    def event_new_pending_admin(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event new_pending_admin in contract CToken
        Get log entry for NewPendingAdmin event.
                :param tx_hash: hash of transaction emitting NewPendingAdmin event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.NewPendingAdmin().processReceipt(tx_receipt)

    def event_new_reserve_factor(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event new_reserve_factor in contract CToken
        Get log entry for NewReserveFactor event.
                :param tx_hash: hash of transaction emitting NewReserveFactor event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.NewReserveFactor().processReceipt(tx_receipt)

    def event_redeem(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event redeem in contract CToken
        Get log entry for Redeem event.
                :param tx_hash: hash of transaction emitting Redeem event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.Redeem().processReceipt(tx_receipt)

    def event_repay_borrow(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event repay_borrow in contract CToken
        Get log entry for RepayBorrow event.
                :param tx_hash: hash of transaction emitting RepayBorrow event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.RepayBorrow().processReceipt(tx_receipt)

    def event_reserves_added(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event reserves_added in contract CToken
        Get log entry for ReservesAdded event.
                :param tx_hash: hash of transaction emitting ReservesAdded event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.ReservesAdded().processReceipt(tx_receipt)

    def event_reserves_reduced(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event reserves_reduced in contract CToken
        Get log entry for ReservesReduced event.
                :param tx_hash: hash of transaction emitting ReservesReduced event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.ReservesReduced().processReceipt(tx_receipt)

    def event_transfer(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event transfer in contract CToken
        Get log entry for Transfer event.
                :param tx_hash: hash of transaction emitting Transfer event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.Transfer().processReceipt(tx_receipt)

    def accept_admin_(self) -> int:
        """
        Implementation of accept_admin_ in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_accept_admin_.block_send(self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def reduce_reserves_(self, reduce_amount: int) -> int:
        """
        Implementation of reduce_reserves_ in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_reduce_reserves_.block_send(reduce_amount, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def set_comptroller_(self, new_comptroller: str) -> int:
        """
        Implementation of set_comptroller_ in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_set_comptroller_.block_send(new_comptroller, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def set_interest_rate_model_(self, new_interest_rate_model: str) -> int:
        """
        Implementation of set_interest_rate_model_ in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_set_interest_rate_model_.block_send(new_interest_rate_model, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def set_pending_admin_(self, new_pending_admin: str) -> int:
        """
        Implementation of set_pending_admin_ in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_set_pending_admin_.block_send(new_pending_admin, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def set_reserve_factor_(self, new_reserve_factor_mantissa: int) -> int:
        """
        Implementation of set_reserve_factor_ in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_set_reserve_factor_.block_send(new_reserve_factor_mantissa, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def accrual_block_number(self) -> int:
        """
        Implementation of accrual_block_number in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_accrual_block_number.block_call()

    def accrue_interest(self) -> int:
        """
        Implementation of accrue_interest in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_accrue_interest.block_send(self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def admin(self) -> str:
        """
        Implementation of admin in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_admin.block_call()

    def allowance(self, owner: str, spender: str) -> int:
        """
        Implementation of allowance in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_allowance.block_call(owner, spender)

    def approve(self, spender: str, amount: int) -> bool:
        """
        Implementation of approve in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_approve.block_send(spender, amount, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def balance_of(self, owner: str) -> int:
        """
        Implementation of balance_of in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_balance_of.block_call(owner)

    def balance_of_underlying(self, owner: str) -> int:
        """
        Implementation of balance_of_underlying in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_balance_of_underlying.block_send(owner, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def borrow_balance_current(self, account: str) -> int:
        """
        Implementation of borrow_balance_current in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_borrow_balance_current.block_send(account, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def borrow_balance_stored(self, account: str) -> int:
        """
        Implementation of borrow_balance_stored in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_borrow_balance_stored.block_call(account)

    def borrow_index(self) -> int:
        """
        Implementation of borrow_index in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_borrow_index.block_call()

    def borrow_rate_per_block(self) -> int:
        """
        Implementation of borrow_rate_per_block in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_borrow_rate_per_block.block_call()

    def comptroller(self) -> str:
        """
        Implementation of comptroller in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_comptroller.block_call()

    def decimals(self) -> int:
        """
        Implementation of decimals in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_decimals.block_call()

    def exchange_rate_current(self) -> int:
        """
        Implementation of exchange_rate_current in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_exchange_rate_current.block_send(self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def exchange_rate_stored(self) -> int:
        """
        Implementation of exchange_rate_stored in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_exchange_rate_stored.block_call()

    def get_account_snapshot(self, account: str) -> Tuple[int, int, int, int]:
        """
        Implementation of get_account_snapshot in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_get_account_snapshot.block_call(account)

    def get_cash(self) -> int:
        """
        Implementation of get_cash in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_get_cash.block_call()

    def initialize(self, comptroller_: str, interest_rate_model_: str, initial_exchange_rate_mantissa_: int, name_: str, symbol_: str, decimals_: int) -> None:
        """
        Implementation of initialize in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_initialize.block_send(comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def interest_rate_model(self) -> str:
        """
        Implementation of interest_rate_model in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_interest_rate_model.block_call()

    def is_c_token(self) -> bool:
        """
        Implementation of is_c_token in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_is_c_token.block_call()

    def name(self) -> str:
        """
        Implementation of name in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_name.block_call()

    def pending_admin(self) -> str:
        """
        Implementation of pending_admin in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_pending_admin.block_call()

    def protocol_seize_share_mantissa(self) -> int:
        """
        Implementation of protocol_seize_share_mantissa in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_protocol_seize_share_mantissa.block_call()

    def reserve_factor_mantissa(self) -> int:
        """
        Implementation of reserve_factor_mantissa in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_reserve_factor_mantissa.block_call()

    def seize(self, liquidator: str, borrower: str, seize_tokens: int) -> int:
        """
        Implementation of seize in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_seize.block_send(liquidator, borrower, seize_tokens, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def supply_rate_per_block(self) -> int:
        """
        Implementation of supply_rate_per_block in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_supply_rate_per_block.block_call()

    def symbol(self) -> str:
        """
        Implementation of symbol in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_symbol.block_call()

    def total_borrows(self) -> int:
        """
        Implementation of total_borrows in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_total_borrows.block_call()

    def total_borrows_current(self) -> int:
        """
        Implementation of total_borrows_current in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_total_borrows_current.block_send(self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def total_reserves(self) -> int:
        """
        Implementation of total_reserves in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_total_reserves.block_call()

    def total_supply(self) -> int:
        """
        Implementation of total_supply in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_total_supply.block_call()

    def transfer(self, dst: str, amount: int) -> bool:
        """
        Implementation of transfer in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_transfer.block_send(dst, amount, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def transfer_from(self, src: str, dst: str, amount: int) -> bool:
        """
        Implementation of transfer_from in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_transfer_from.block_send(src, dst, amount, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def CallContractWait(self, t_long: int) -> "CToken":
        self._fn_accept_admin_.setWait(t_long)
        self._fn_reduce_reserves_.setWait(t_long)
        self._fn_set_comptroller_.setWait(t_long)
        self._fn_set_interest_rate_model_.setWait(t_long)
        self._fn_set_pending_admin_.setWait(t_long)
        self._fn_set_reserve_factor_.setWait(t_long)
        self._fn_accrual_block_number.setWait(t_long)
        self._fn_accrue_interest.setWait(t_long)
        self._fn_admin.setWait(t_long)
        self._fn_allowance.setWait(t_long)
        self._fn_approve.setWait(t_long)
        self._fn_balance_of.setWait(t_long)
        self._fn_balance_of_underlying.setWait(t_long)
        self._fn_borrow_balance_current.setWait(t_long)
        self._fn_borrow_balance_stored.setWait(t_long)
        self._fn_borrow_index.setWait(t_long)
        self._fn_borrow_rate_per_block.setWait(t_long)
        self._fn_comptroller.setWait(t_long)
        self._fn_decimals.setWait(t_long)
        self._fn_exchange_rate_current.setWait(t_long)
        self._fn_exchange_rate_stored.setWait(t_long)
        self._fn_get_account_snapshot.setWait(t_long)
        self._fn_get_cash.setWait(t_long)
        self._fn_initialize.setWait(t_long)
        self._fn_interest_rate_model.setWait(t_long)
        self._fn_is_c_token.setWait(t_long)
        self._fn_name.setWait(t_long)
        self._fn_pending_admin.setWait(t_long)
        self._fn_protocol_seize_share_mantissa.setWait(t_long)
        self._fn_reserve_factor_mantissa.setWait(t_long)
        self._fn_seize.setWait(t_long)
        self._fn_supply_rate_per_block.setWait(t_long)
        self._fn_symbol.setWait(t_long)
        self._fn_total_borrows.setWait(t_long)
        self._fn_total_borrows_current.setWait(t_long)
        self._fn_total_reserves.setWait(t_long)
        self._fn_total_supply.setWait(t_long)
        self._fn_transfer.setWait(t_long)
        self._fn_transfer_from.setWait(t_long)
        return self

    @staticmethod
    def abi():
        """Return the ABI to the underlying contract."""
        return json.loads(
            '[{"anonymous":false,"inputs":[{"indexed":false,"internalType":"uint256","name":"cashPrior","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"interestAccumulated","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"borrowIndex","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"totalBorrows","type":"uint256"}],"name":"AccrueInterest","type":"event"},{"anonymous":false,"inputs":[{"indexed":true,"internalType":"address","name":"owner","type":"address"},{"indexed":true,"internalType":"address","name":"spender","type":"address"},{"indexed":false,"internalType":"uint256","name":"amount","type":"uint256"}],"name":"Approval","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"address","name":"borrower","type":"address"},{"indexed":false,"internalType":"uint256","name":"borrowAmount","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"accountBorrows","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"totalBorrows","type":"uint256"}],"name":"Borrow","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"uint256","name":"error","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"info","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"detail","type":"uint256"}],"name":"Failure","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"address","name":"liquidator","type":"address"},{"indexed":false,"internalType":"address","name":"borrower","type":"address"},{"indexed":false,"internalType":"uint256","name":"repayAmount","type":"uint256"},{"indexed":false,"internalType":"address","name":"cTokenCollateral","type":"address"},{"indexed":false,"internalType":"uint256","name":"seizeTokens","type":"uint256"}],"name":"LiquidateBorrow","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"address","name":"minter","type":"address"},{"indexed":false,"internalType":"uint256","name":"mintAmount","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"mintTokens","type":"uint256"}],"name":"Mint","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"address","name":"oldAdmin","type":"address"},{"indexed":false,"internalType":"address","name":"newAdmin","type":"address"}],"name":"NewAdmin","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"contract ComptrollerInterface","name":"oldComptroller","type":"address"},{"indexed":false,"internalType":"contract ComptrollerInterface","name":"newComptroller","type":"address"}],"name":"NewComptroller","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"contract InterestRateModel","name":"oldInterestRateModel","type":"address"},{"indexed":false,"internalType":"contract InterestRateModel","name":"newInterestRateModel","type":"address"}],"name":"NewMarketInterestRateModel","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"address","name":"oldPendingAdmin","type":"address"},{"indexed":false,"internalType":"address","name":"newPendingAdmin","type":"address"}],"name":"NewPendingAdmin","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"uint256","name":"oldReserveFactorMantissa","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"newReserveFactorMantissa","type":"uint256"}],"name":"NewReserveFactor","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"address","name":"redeemer","type":"address"},{"indexed":false,"internalType":"uint256","name":"redeemAmount","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"redeemTokens","type":"uint256"}],"name":"Redeem","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"address","name":"payer","type":"address"},{"indexed":false,"internalType":"address","name":"borrower","type":"address"},{"indexed":false,"internalType":"uint256","name":"repayAmount","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"accountBorrows","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"totalBorrows","type":"uint256"}],"name":"RepayBorrow","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"address","name":"benefactor","type":"address"},{"indexed":false,"internalType":"uint256","name":"addAmount","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"newTotalReserves","type":"uint256"}],"name":"ReservesAdded","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"address","name":"admin","type":"address"},{"indexed":false,"internalType":"uint256","name":"reduceAmount","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"newTotalReserves","type":"uint256"}],"name":"ReservesReduced","type":"event"},{"anonymous":false,"inputs":[{"indexed":true,"internalType":"address","name":"from","type":"address"},{"indexed":true,"internalType":"address","name":"to","type":"address"},{"indexed":false,"internalType":"uint256","name":"amount","type":"uint256"}],"name":"Transfer","type":"event"},{"constant":false,"inputs":[],"name":"_acceptAdmin","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"nonpayable","type":"function"},{"constant":false,"inputs":[{"internalType":"uint256","name":"reduceAmount","type":"uint256"}],"name":"_reduceReserves","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"nonpayable","type":"function"},{"constant":false,"inputs":[{"internalType":"contract ComptrollerInterface","name":"newComptroller","type":"address"}],"name":"_setComptroller","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"nonpayable","type":"function"},{"constant":false,"inputs":[{"internalType":"contract InterestRateModel","name":"newInterestRateModel","type":"address"}],"name":"_setInterestRateModel","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"nonpayable","type":"function"},{"constant":false,"inputs":[{"internalType":"address payable","name":"newPendingAdmin","type":"address"}],"name":"_setPendingAdmin","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"nonpayable","type":"function"},{"constant":false,"inputs":[{"internalType":"uint256","name":"newReserveFactorMantissa","type":"uint256"}],"name":"_setReserveFactor","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"nonpayable","type":"function"},{"constant":true,"inputs":[],"name":"accrualBlockNumber","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":false,"inputs":[],"name":"accrueInterest","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"nonpayable","type":"function"},{"constant":true,"inputs":[],"name":"admin","outputs":[{"internalType":"address payable","name":"","type":"address"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":true,"inputs":[{"internalType":"address","name":"owner","type":"address"},{"internalType":"address","name":"spender","type":"address"}],"name":"allowance","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":false,"inputs":[{"internalType":"address","name":"spender","type":"address"},{"internalType":"uint256","name":"amount","type":"uint256"}],"name":"approve","outputs":[{"internalType":"bool","name":"","type":"bool"}],"payable":false,"stateMutability":"nonpayable","type":"function"},{"constant":true,"inputs":[{"internalType":"address","name":"owner","type":"address"}],"name":"balanceOf","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":false,"inputs":[{"internalType":"address","name":"owner","type":"address"}],"name":"balanceOfUnderlying","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"nonpayable","type":"function"},{"constant":false,"inputs":[{"internalType":"address","name":"account","type":"address"}],"name":"borrowBalanceCurrent","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"nonpayable","type":"function"},{"constant":true,"inputs":[{"internalType":"address","name":"account","type":"address"}],"name":"borrowBalanceStored","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":true,"inputs":[],"name":"borrowIndex","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":true,"inputs":[],"name":"borrowRatePerBlock","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":true,"inputs":[],"name":"comptroller","outputs":[{"internalType":"contract ComptrollerInterface","name":"","type":"address"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":true,"inputs":[],"name":"decimals","outputs":[{"internalType":"uint8","name":"","type":"uint8"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":false,"inputs":[],"name":"exchangeRateCurrent","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"nonpayable","type":"function"},{"constant":true,"inputs":[],"name":"exchangeRateStored","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":true,"inputs":[{"internalType":"address","name":"account","type":"address"}],"name":"getAccountSnapshot","outputs":[{"internalType":"uint256","name":"","type":"uint256"},{"internalType":"uint256","name":"","type":"uint256"},{"internalType":"uint256","name":"","type":"uint256"},{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":true,"inputs":[],"name":"getCash","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":false,"inputs":[{"internalType":"contract ComptrollerInterface","name":"comptroller_","type":"address"},{"internalType":"contract InterestRateModel","name":"interestRateModel_","type":"address"},{"internalType":"uint256","name":"initialExchangeRateMantissa_","type":"uint256"},{"internalType":"string","name":"name_","type":"string"},{"internalType":"string","name":"symbol_","type":"string"},{"internalType":"uint8","name":"decimals_","type":"uint8"}],"name":"initialize","outputs":[],"payable":false,"stateMutability":"nonpayable","type":"function"},{"constant":true,"inputs":[],"name":"interestRateModel","outputs":[{"internalType":"contract InterestRateModel","name":"","type":"address"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":true,"inputs":[],"name":"isCToken","outputs":[{"internalType":"bool","name":"","type":"bool"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":true,"inputs":[],"name":"name","outputs":[{"internalType":"string","name":"","type":"string"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":true,"inputs":[],"name":"pendingAdmin","outputs":[{"internalType":"address payable","name":"","type":"address"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":true,"inputs":[],"name":"protocolSeizeShareMantissa","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":true,"inputs":[],"name":"reserveFactorMantissa","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":false,"inputs":[{"internalType":"address","name":"liquidator","type":"address"},{"internalType":"address","name":"borrower","type":"address"},{"internalType":"uint256","name":"seizeTokens","type":"uint256"}],"name":"seize","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"nonpayable","type":"function"},{"constant":true,"inputs":[],"name":"supplyRatePerBlock","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":true,"inputs":[],"name":"symbol","outputs":[{"internalType":"string","name":"","type":"string"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":true,"inputs":[],"name":"totalBorrows","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":false,"inputs":[],"name":"totalBorrowsCurrent","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"nonpayable","type":"function"},{"constant":true,"inputs":[],"name":"totalReserves","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":true,"inputs":[],"name":"totalSupply","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":false,"inputs":[{"internalType":"address","name":"dst","type":"address"},{"internalType":"uint256","name":"amount","type":"uint256"}],"name":"transfer","outputs":[{"internalType":"bool","name":"","type":"bool"}],"payable":false,"stateMutability":"nonpayable","type":"function"},{"constant":false,"inputs":[{"internalType":"address","name":"src","type":"address"},{"internalType":"address","name":"dst","type":"address"},{"internalType":"uint256","name":"amount","type":"uint256"}],"name":"transferFrom","outputs":[{"internalType":"bool","name":"","type":"bool"}],"payable":false,"stateMutability":"nonpayable","type":"function"}]'
            # noqa: E501 (line-too-long)
        )

# pylint: disable=too-many-lines

Classes

class AcceptAdmin_Method (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the _acceptAdmin method.

Persist instance data.

Expand source code
class AcceptAdmin_Method(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the _acceptAdmin method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("_acceptAdmin")

    def block_send(self, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method()
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: accept_admin_")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().transact(tx_params.as_dict())

    def build_transaction(self, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().buildTransaction(tx_params.as_dict())

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_send(self, _gaswei: int, _pricewei: int) ‑> int

Execute underlying contract method via eth_call.

:param tx_params: transaction parameters :returns: the return value of the underlying method.

Expand source code
def block_send(self, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
    """Execute underlying contract method via eth_call.

    :param tx_params: transaction parameters
    :returns: the return value of the underlying method.
    """
    _fn = self._underlying_method()
    try:

        _t = _fn.buildTransaction({
            'from': self._operate,
            'gas': _gaswei,
            'gasPrice': _pricewei
        })
        _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

        if _valeth > 0:
            _t['value'] = _valeth

        if _debugtx:
            print(f"======== Signing ✅ by {self._operate}")
            print(f"======== Transaction ✅ check")
            print(_t)

        if 'data' in _t:

            signed = self._web3_eth.account.sign_transaction(_t)
            txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
            tx_receipt = None
            if _receipList is True:
                print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                if _debugtx:
                    print("======== TX Result ✅")
                    print(tx_receipt)

            print(f"======== TX blockHash ✅")
            if tx_receipt is not None:
                print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
            else:
                print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

        if _receipList is False:
            time.sleep(self._wait)


    except ContractLogicError as er:
        print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: accept_admin_")

    except ValueError as err:
        if "message" in err.args[0]:
            message = err.args[0]["message"]
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
        else:
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")
def build_transaction(self, tx_params: Union[TxParams, NoneType] = None) ‑> dict

Construct calldata to be used as input to the method.

Expand source code
def build_transaction(self, tx_params: Optional[TxParams] = None) -> dict:
    """Construct calldata to be used as input to the method."""
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().buildTransaction(tx_params.as_dict())
def estimate_gas(self, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().estimateGas(tx_params.as_dict())
def send_transaction(self, tx_params: Union[TxParams, NoneType] = None) ‑> Union[hexbytes.main.HexBytes, bytes]

Execute underlying contract method via eth_sendTransaction.

:param tx_params: transaction parameters

Expand source code
def send_transaction(self, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
    """Execute underlying contract method via eth_sendTransaction.

    :param tx_params: transaction parameters
    """
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().transact(tx_params.as_dict())

Inherited members

class AccrualBlockNumberMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the accrualBlockNumber method.

Persist instance data.

Expand source code
class AccrualBlockNumberMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the accrualBlockNumber method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("accrualBlockNumber")

    def block_call(self, debug: bool = False) -> int:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_call(self, debug: bool = False) ‑> int
Expand source code
def block_call(self, debug: bool = False) -> int:
    _fn = self._underlying_method()
    returned = _fn.call({
        'from': self._operate
    })
    return int(returned)
def estimate_gas(self, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().estimateGas(tx_params.as_dict())

Inherited members

class AccrueInterestMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the accrueInterest method.

Persist instance data.

Expand source code
class AccrueInterestMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the accrueInterest method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("accrueInterest")

    def block_send(self, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method()
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: accrue_interest")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().transact(tx_params.as_dict())

    def build_transaction(self, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().buildTransaction(tx_params.as_dict())

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_send(self, _gaswei: int, _pricewei: int) ‑> int

Execute underlying contract method via eth_call.

:param tx_params: transaction parameters :returns: the return value of the underlying method.

Expand source code
def block_send(self, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
    """Execute underlying contract method via eth_call.

    :param tx_params: transaction parameters
    :returns: the return value of the underlying method.
    """
    _fn = self._underlying_method()
    try:

        _t = _fn.buildTransaction({
            'from': self._operate,
            'gas': _gaswei,
            'gasPrice': _pricewei
        })
        _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

        if _valeth > 0:
            _t['value'] = _valeth

        if _debugtx:
            print(f"======== Signing ✅ by {self._operate}")
            print(f"======== Transaction ✅ check")
            print(_t)

        if 'data' in _t:

            signed = self._web3_eth.account.sign_transaction(_t)
            txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
            tx_receipt = None
            if _receipList is True:
                print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                if _debugtx:
                    print("======== TX Result ✅")
                    print(tx_receipt)

            print(f"======== TX blockHash ✅")
            if tx_receipt is not None:
                print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
            else:
                print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

        if _receipList is False:
            time.sleep(self._wait)


    except ContractLogicError as er:
        print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: accrue_interest")

    except ValueError as err:
        if "message" in err.args[0]:
            message = err.args[0]["message"]
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
        else:
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")
def build_transaction(self, tx_params: Union[TxParams, NoneType] = None) ‑> dict

Construct calldata to be used as input to the method.

Expand source code
def build_transaction(self, tx_params: Optional[TxParams] = None) -> dict:
    """Construct calldata to be used as input to the method."""
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().buildTransaction(tx_params.as_dict())
def estimate_gas(self, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().estimateGas(tx_params.as_dict())
def send_transaction(self, tx_params: Union[TxParams, NoneType] = None) ‑> Union[hexbytes.main.HexBytes, bytes]

Execute underlying contract method via eth_sendTransaction.

:param tx_params: transaction parameters

Expand source code
def send_transaction(self, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
    """Execute underlying contract method via eth_sendTransaction.

    :param tx_params: transaction parameters
    """
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().transact(tx_params.as_dict())

Inherited members

class AdminMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the admin method.

Persist instance data.

Expand source code
class AdminMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the admin method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("admin")

    def block_call(self, debug: bool = False) -> str:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return str(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_call(self, debug: bool = False) ‑> str
Expand source code
def block_call(self, debug: bool = False) -> str:
    _fn = self._underlying_method()
    returned = _fn.call({
        'from': self._operate
    })
    return str(returned)
def estimate_gas(self, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().estimateGas(tx_params.as_dict())

Inherited members

class AllowanceMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the allowance method.

Persist instance data.

Expand source code
class AllowanceMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the allowance method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("allowance")

    def validate_and_normalize_inputs(self, owner: str, spender: str) -> any:
        """Validate the inputs to the allowance method."""
        self.validator.assert_valid(
            method_name='allowance',
            parameter_name='owner',
            argument_value=owner,
        )
        owner = self.validate_and_checksum_address(owner)
        self.validator.assert_valid(
            method_name='allowance',
            parameter_name='spender',
            argument_value=spender,
        )
        spender = self.validate_and_checksum_address(spender)
        return (owner, spender)

    def block_call(self, owner: str, spender: str, debug: bool = False) -> int:
        _fn = self._underlying_method(owner, spender)
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, owner: str, spender: str, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (owner, spender) = self.validate_and_normalize_inputs(owner, spender)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(owner, spender).estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_call(self, owner: str, spender: str, debug: bool = False) ‑> int
Expand source code
def block_call(self, owner: str, spender: str, debug: bool = False) -> int:
    _fn = self._underlying_method(owner, spender)
    returned = _fn.call({
        'from': self._operate
    })
    return int(returned)
def estimate_gas(self, owner: str, spender: str, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, owner: str, spender: str, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    (owner, spender) = self.validate_and_normalize_inputs(owner, spender)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(owner, spender).estimateGas(tx_params.as_dict())
def validate_and_normalize_inputs(self, owner: str, spender: str) ‑> 

Validate the inputs to the allowance method.

Expand source code
def validate_and_normalize_inputs(self, owner: str, spender: str) -> any:
    """Validate the inputs to the allowance method."""
    self.validator.assert_valid(
        method_name='allowance',
        parameter_name='owner',
        argument_value=owner,
    )
    owner = self.validate_and_checksum_address(owner)
    self.validator.assert_valid(
        method_name='allowance',
        parameter_name='spender',
        argument_value=spender,
    )
    spender = self.validate_and_checksum_address(spender)
    return (owner, spender)

Inherited members

class ApproveMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the approve method.

Persist instance data.

Expand source code
class ApproveMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the approve method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("approve")

    def validate_and_normalize_inputs(self, spender: str, amount: int) -> any:
        """Validate the inputs to the approve method."""
        self.validator.assert_valid(
            method_name='approve',
            parameter_name='spender',
            argument_value=spender,
        )
        spender = self.validate_and_checksum_address(spender)
        self.validator.assert_valid(
            method_name='approve',
            parameter_name='amount',
            argument_value=amount,
        )
        # safeguard against fractional inputs
        amount = int(amount)
        return (spender, amount)

    def block_send(self, spender: str, amount: int, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> bool:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method(spender, amount)
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: approve")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, spender: str, amount: int, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        (spender, amount) = self.validate_and_normalize_inputs(spender, amount)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(spender, amount).transact(tx_params.as_dict())

    def build_transaction(self, spender: str, amount: int, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        (spender, amount) = self.validate_and_normalize_inputs(spender, amount)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(spender, amount).buildTransaction(tx_params.as_dict())

    def estimate_gas(self, spender: str, amount: int, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (spender, amount) = self.validate_and_normalize_inputs(spender, amount)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(spender, amount).estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_send(self, spender: str, amount: int, _gaswei: int, _pricewei: int) ‑> bool

Execute underlying contract method via eth_call.

:param tx_params: transaction parameters :returns: the return value of the underlying method.

Expand source code
def block_send(self, spender: str, amount: int, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> bool:
    """Execute underlying contract method via eth_call.

    :param tx_params: transaction parameters
    :returns: the return value of the underlying method.
    """
    _fn = self._underlying_method(spender, amount)
    try:

        _t = _fn.buildTransaction({
            'from': self._operate,
            'gas': _gaswei,
            'gasPrice': _pricewei
        })
        _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

        if _valeth > 0:
            _t['value'] = _valeth

        if _debugtx:
            print(f"======== Signing ✅ by {self._operate}")
            print(f"======== Transaction ✅ check")
            print(_t)

        if 'data' in _t:

            signed = self._web3_eth.account.sign_transaction(_t)
            txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
            tx_receipt = None
            if _receipList is True:
                print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                if _debugtx:
                    print("======== TX Result ✅")
                    print(tx_receipt)

            print(f"======== TX blockHash ✅")
            if tx_receipt is not None:
                print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
            else:
                print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

        if _receipList is False:
            time.sleep(self._wait)


    except ContractLogicError as er:
        print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: approve")

    except ValueError as err:
        if "message" in err.args[0]:
            message = err.args[0]["message"]
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
        else:
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")
def build_transaction(self, spender: str, amount: int, tx_params: Union[TxParams, NoneType] = None) ‑> dict

Construct calldata to be used as input to the method.

Expand source code
def build_transaction(self, spender: str, amount: int, tx_params: Optional[TxParams] = None) -> dict:
    """Construct calldata to be used as input to the method."""
    (spender, amount) = self.validate_and_normalize_inputs(spender, amount)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(spender, amount).buildTransaction(tx_params.as_dict())
def estimate_gas(self, spender: str, amount: int, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, spender: str, amount: int, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    (spender, amount) = self.validate_and_normalize_inputs(spender, amount)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(spender, amount).estimateGas(tx_params.as_dict())
def send_transaction(self, spender: str, amount: int, tx_params: Union[TxParams, NoneType] = None) ‑> Union[hexbytes.main.HexBytes, bytes]

Execute underlying contract method via eth_sendTransaction.

:param tx_params: transaction parameters

Expand source code
def send_transaction(self, spender: str, amount: int, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
    """Execute underlying contract method via eth_sendTransaction.

    :param tx_params: transaction parameters
    """
    (spender, amount) = self.validate_and_normalize_inputs(spender, amount)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(spender, amount).transact(tx_params.as_dict())
def validate_and_normalize_inputs(self, spender: str, amount: int) ‑> 

Validate the inputs to the approve method.

Expand source code
def validate_and_normalize_inputs(self, spender: str, amount: int) -> any:
    """Validate the inputs to the approve method."""
    self.validator.assert_valid(
        method_name='approve',
        parameter_name='spender',
        argument_value=spender,
    )
    spender = self.validate_and_checksum_address(spender)
    self.validator.assert_valid(
        method_name='approve',
        parameter_name='amount',
        argument_value=amount,
    )
    # safeguard against fractional inputs
    amount = int(amount)
    return (spender, amount)

Inherited members

class BalanceOfMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the balanceOf method.

Persist instance data.

Expand source code
class BalanceOfMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the balanceOf method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("balanceOf")

    def validate_and_normalize_inputs(self, owner: str) -> any:
        """Validate the inputs to the balanceOf method."""
        self.validator.assert_valid(
            method_name='balanceOf',
            parameter_name='owner',
            argument_value=owner,
        )
        owner = self.validate_and_checksum_address(owner)
        return (owner)

    def block_call(self, owner: str, debug: bool = False) -> int:
        _fn = self._underlying_method(owner)
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, owner: str, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (owner) = self.validate_and_normalize_inputs(owner)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(owner).estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_call(self, owner: str, debug: bool = False) ‑> int
Expand source code
def block_call(self, owner: str, debug: bool = False) -> int:
    _fn = self._underlying_method(owner)
    returned = _fn.call({
        'from': self._operate
    })
    return int(returned)
def estimate_gas(self, owner: str, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, owner: str, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    (owner) = self.validate_and_normalize_inputs(owner)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(owner).estimateGas(tx_params.as_dict())
def validate_and_normalize_inputs(self, owner: str) ‑> 

Validate the inputs to the balanceOf method.

Expand source code
def validate_and_normalize_inputs(self, owner: str) -> any:
    """Validate the inputs to the balanceOf method."""
    self.validator.assert_valid(
        method_name='balanceOf',
        parameter_name='owner',
        argument_value=owner,
    )
    owner = self.validate_and_checksum_address(owner)
    return (owner)

Inherited members

class BalanceOfUnderlyingMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the balanceOfUnderlying method.

Persist instance data.

Expand source code
class BalanceOfUnderlyingMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the balanceOfUnderlying method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("balanceOfUnderlying")

    def validate_and_normalize_inputs(self, owner: str) -> any:
        """Validate the inputs to the balanceOfUnderlying method."""
        self.validator.assert_valid(
            method_name='balanceOfUnderlying',
            parameter_name='owner',
            argument_value=owner,
        )
        owner = self.validate_and_checksum_address(owner)
        return (owner)

    def block_send(self, owner: str, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method(owner)
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: balance_of_underlying")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, owner: str, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        (owner) = self.validate_and_normalize_inputs(owner)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(owner).transact(tx_params.as_dict())

    def build_transaction(self, owner: str, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        (owner) = self.validate_and_normalize_inputs(owner)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(owner).buildTransaction(tx_params.as_dict())

    def estimate_gas(self, owner: str, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (owner) = self.validate_and_normalize_inputs(owner)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(owner).estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_send(self, owner: str, _gaswei: int, _pricewei: int) ‑> int

Execute underlying contract method via eth_call.

:param tx_params: transaction parameters :returns: the return value of the underlying method.

Expand source code
def block_send(self, owner: str, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
    """Execute underlying contract method via eth_call.

    :param tx_params: transaction parameters
    :returns: the return value of the underlying method.
    """
    _fn = self._underlying_method(owner)
    try:

        _t = _fn.buildTransaction({
            'from': self._operate,
            'gas': _gaswei,
            'gasPrice': _pricewei
        })
        _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

        if _valeth > 0:
            _t['value'] = _valeth

        if _debugtx:
            print(f"======== Signing ✅ by {self._operate}")
            print(f"======== Transaction ✅ check")
            print(_t)

        if 'data' in _t:

            signed = self._web3_eth.account.sign_transaction(_t)
            txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
            tx_receipt = None
            if _receipList is True:
                print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                if _debugtx:
                    print("======== TX Result ✅")
                    print(tx_receipt)

            print(f"======== TX blockHash ✅")
            if tx_receipt is not None:
                print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
            else:
                print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

        if _receipList is False:
            time.sleep(self._wait)


    except ContractLogicError as er:
        print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: balance_of_underlying")

    except ValueError as err:
        if "message" in err.args[0]:
            message = err.args[0]["message"]
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
        else:
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")
def build_transaction(self, owner: str, tx_params: Union[TxParams, NoneType] = None) ‑> dict

Construct calldata to be used as input to the method.

Expand source code
def build_transaction(self, owner: str, tx_params: Optional[TxParams] = None) -> dict:
    """Construct calldata to be used as input to the method."""
    (owner) = self.validate_and_normalize_inputs(owner)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(owner).buildTransaction(tx_params.as_dict())
def estimate_gas(self, owner: str, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, owner: str, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    (owner) = self.validate_and_normalize_inputs(owner)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(owner).estimateGas(tx_params.as_dict())
def send_transaction(self, owner: str, tx_params: Union[TxParams, NoneType] = None) ‑> Union[hexbytes.main.HexBytes, bytes]

Execute underlying contract method via eth_sendTransaction.

:param tx_params: transaction parameters

Expand source code
def send_transaction(self, owner: str, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
    """Execute underlying contract method via eth_sendTransaction.

    :param tx_params: transaction parameters
    """
    (owner) = self.validate_and_normalize_inputs(owner)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(owner).transact(tx_params.as_dict())
def validate_and_normalize_inputs(self, owner: str) ‑> 

Validate the inputs to the balanceOfUnderlying method.

Expand source code
def validate_and_normalize_inputs(self, owner: str) -> any:
    """Validate the inputs to the balanceOfUnderlying method."""
    self.validator.assert_valid(
        method_name='balanceOfUnderlying',
        parameter_name='owner',
        argument_value=owner,
    )
    owner = self.validate_and_checksum_address(owner)
    return (owner)

Inherited members

class BorrowBalanceCurrentMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the borrowBalanceCurrent method.

Persist instance data.

Expand source code
class BorrowBalanceCurrentMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the borrowBalanceCurrent method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("borrowBalanceCurrent")

    def validate_and_normalize_inputs(self, account: str) -> any:
        """Validate the inputs to the borrowBalanceCurrent method."""
        self.validator.assert_valid(
            method_name='borrowBalanceCurrent',
            parameter_name='account',
            argument_value=account,
        )
        account = self.validate_and_checksum_address(account)
        return (account)

    def block_send(self, account: str, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method(account)
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: borrow_balance_current")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, account: str, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        (account) = self.validate_and_normalize_inputs(account)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(account).transact(tx_params.as_dict())

    def build_transaction(self, account: str, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        (account) = self.validate_and_normalize_inputs(account)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(account).buildTransaction(tx_params.as_dict())

    def estimate_gas(self, account: str, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (account) = self.validate_and_normalize_inputs(account)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(account).estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_send(self, account: str, _gaswei: int, _pricewei: int) ‑> int

Execute underlying contract method via eth_call.

:param tx_params: transaction parameters :returns: the return value of the underlying method.

Expand source code
def block_send(self, account: str, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
    """Execute underlying contract method via eth_call.

    :param tx_params: transaction parameters
    :returns: the return value of the underlying method.
    """
    _fn = self._underlying_method(account)
    try:

        _t = _fn.buildTransaction({
            'from': self._operate,
            'gas': _gaswei,
            'gasPrice': _pricewei
        })
        _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

        if _valeth > 0:
            _t['value'] = _valeth

        if _debugtx:
            print(f"======== Signing ✅ by {self._operate}")
            print(f"======== Transaction ✅ check")
            print(_t)

        if 'data' in _t:

            signed = self._web3_eth.account.sign_transaction(_t)
            txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
            tx_receipt = None
            if _receipList is True:
                print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                if _debugtx:
                    print("======== TX Result ✅")
                    print(tx_receipt)

            print(f"======== TX blockHash ✅")
            if tx_receipt is not None:
                print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
            else:
                print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

        if _receipList is False:
            time.sleep(self._wait)


    except ContractLogicError as er:
        print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: borrow_balance_current")

    except ValueError as err:
        if "message" in err.args[0]:
            message = err.args[0]["message"]
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
        else:
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")
def build_transaction(self, account: str, tx_params: Union[TxParams, NoneType] = None) ‑> dict

Construct calldata to be used as input to the method.

Expand source code
def build_transaction(self, account: str, tx_params: Optional[TxParams] = None) -> dict:
    """Construct calldata to be used as input to the method."""
    (account) = self.validate_and_normalize_inputs(account)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(account).buildTransaction(tx_params.as_dict())
def estimate_gas(self, account: str, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, account: str, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    (account) = self.validate_and_normalize_inputs(account)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(account).estimateGas(tx_params.as_dict())
def send_transaction(self, account: str, tx_params: Union[TxParams, NoneType] = None) ‑> Union[hexbytes.main.HexBytes, bytes]

Execute underlying contract method via eth_sendTransaction.

:param tx_params: transaction parameters

Expand source code
def send_transaction(self, account: str, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
    """Execute underlying contract method via eth_sendTransaction.

    :param tx_params: transaction parameters
    """
    (account) = self.validate_and_normalize_inputs(account)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(account).transact(tx_params.as_dict())
def validate_and_normalize_inputs(self, account: str) ‑> 

Validate the inputs to the borrowBalanceCurrent method.

Expand source code
def validate_and_normalize_inputs(self, account: str) -> any:
    """Validate the inputs to the borrowBalanceCurrent method."""
    self.validator.assert_valid(
        method_name='borrowBalanceCurrent',
        parameter_name='account',
        argument_value=account,
    )
    account = self.validate_and_checksum_address(account)
    return (account)

Inherited members

class BorrowBalanceStoredMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the borrowBalanceStored method.

Persist instance data.

Expand source code
class BorrowBalanceStoredMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the borrowBalanceStored method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("borrowBalanceStored")

    def validate_and_normalize_inputs(self, account: str) -> any:
        """Validate the inputs to the borrowBalanceStored method."""
        self.validator.assert_valid(
            method_name='borrowBalanceStored',
            parameter_name='account',
            argument_value=account,
        )
        account = self.validate_and_checksum_address(account)
        return (account)

    def block_call(self, account: str, debug: bool = False) -> int:
        _fn = self._underlying_method(account)
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, account: str, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (account) = self.validate_and_normalize_inputs(account)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(account).estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_call(self, account: str, debug: bool = False) ‑> int
Expand source code
def block_call(self, account: str, debug: bool = False) -> int:
    _fn = self._underlying_method(account)
    returned = _fn.call({
        'from': self._operate
    })
    return int(returned)
def estimate_gas(self, account: str, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, account: str, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    (account) = self.validate_and_normalize_inputs(account)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(account).estimateGas(tx_params.as_dict())
def validate_and_normalize_inputs(self, account: str) ‑> 

Validate the inputs to the borrowBalanceStored method.

Expand source code
def validate_and_normalize_inputs(self, account: str) -> any:
    """Validate the inputs to the borrowBalanceStored method."""
    self.validator.assert_valid(
        method_name='borrowBalanceStored',
        parameter_name='account',
        argument_value=account,
    )
    account = self.validate_and_checksum_address(account)
    return (account)

Inherited members

class BorrowIndexMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the borrowIndex method.

Persist instance data.

Expand source code
class BorrowIndexMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the borrowIndex method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("borrowIndex")

    def block_call(self, debug: bool = False) -> int:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_call(self, debug: bool = False) ‑> int
Expand source code
def block_call(self, debug: bool = False) -> int:
    _fn = self._underlying_method()
    returned = _fn.call({
        'from': self._operate
    })
    return int(returned)
def estimate_gas(self, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().estimateGas(tx_params.as_dict())

Inherited members

class BorrowRatePerBlockMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the borrowRatePerBlock method.

Persist instance data.

Expand source code
class BorrowRatePerBlockMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the borrowRatePerBlock method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("borrowRatePerBlock")

    def block_call(self, debug: bool = False) -> int:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_call(self, debug: bool = False) ‑> int
Expand source code
def block_call(self, debug: bool = False) -> int:
    _fn = self._underlying_method()
    returned = _fn.call({
        'from': self._operate
    })
    return int(returned)
def estimate_gas(self, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().estimateGas(tx_params.as_dict())

Inherited members

class CToken (core_lib: MiliDoS, contract_address: str, validator: CTokenValidator = None)

Wrapper class for CToken Solidity contract.

Get an instance of wrapper for smart contract.

Expand source code
class CToken(ContractBase):
    """Wrapper class for CToken Solidity contract."""
    _fn_accept_admin_: AcceptAdmin_Method
    """Constructor-initialized instance of
    :class:`AcceptAdmin_Method`.
    """

    _fn_reduce_reserves_: ReduceReserves_Method
    """Constructor-initialized instance of
    :class:`ReduceReserves_Method`.
    """

    _fn_set_comptroller_: SetComptroller_Method
    """Constructor-initialized instance of
    :class:`SetComptroller_Method`.
    """

    _fn_set_interest_rate_model_: SetInterestRateModel_Method
    """Constructor-initialized instance of
    :class:`SetInterestRateModel_Method`.
    """

    _fn_set_pending_admin_: SetPendingAdmin_Method
    """Constructor-initialized instance of
    :class:`SetPendingAdmin_Method`.
    """

    _fn_set_reserve_factor_: SetReserveFactor_Method
    """Constructor-initialized instance of
    :class:`SetReserveFactor_Method`.
    """

    _fn_accrual_block_number: AccrualBlockNumberMethod
    """Constructor-initialized instance of
    :class:`AccrualBlockNumberMethod`.
    """

    _fn_accrue_interest: AccrueInterestMethod
    """Constructor-initialized instance of
    :class:`AccrueInterestMethod`.
    """

    _fn_admin: AdminMethod
    """Constructor-initialized instance of
    :class:`AdminMethod`.
    """

    _fn_allowance: AllowanceMethod
    """Constructor-initialized instance of
    :class:`AllowanceMethod`.
    """

    _fn_approve: ApproveMethod
    """Constructor-initialized instance of
    :class:`ApproveMethod`.
    """

    _fn_balance_of: BalanceOfMethod
    """Constructor-initialized instance of
    :class:`BalanceOfMethod`.
    """

    _fn_balance_of_underlying: BalanceOfUnderlyingMethod
    """Constructor-initialized instance of
    :class:`BalanceOfUnderlyingMethod`.
    """

    _fn_borrow_balance_current: BorrowBalanceCurrentMethod
    """Constructor-initialized instance of
    :class:`BorrowBalanceCurrentMethod`.
    """

    _fn_borrow_balance_stored: BorrowBalanceStoredMethod
    """Constructor-initialized instance of
    :class:`BorrowBalanceStoredMethod`.
    """

    _fn_borrow_index: BorrowIndexMethod
    """Constructor-initialized instance of
    :class:`BorrowIndexMethod`.
    """

    _fn_borrow_rate_per_block: BorrowRatePerBlockMethod
    """Constructor-initialized instance of
    :class:`BorrowRatePerBlockMethod`.
    """

    _fn_comptroller: ComptrollerMethod
    """Constructor-initialized instance of
    :class:`ComptrollerMethod`.
    """

    _fn_decimals: DecimalsMethod
    """Constructor-initialized instance of
    :class:`DecimalsMethod`.
    """

    _fn_exchange_rate_current: ExchangeRateCurrentMethod
    """Constructor-initialized instance of
    :class:`ExchangeRateCurrentMethod`.
    """

    _fn_exchange_rate_stored: ExchangeRateStoredMethod
    """Constructor-initialized instance of
    :class:`ExchangeRateStoredMethod`.
    """

    _fn_get_account_snapshot: GetAccountSnapshotMethod
    """Constructor-initialized instance of
    :class:`GetAccountSnapshotMethod`.
    """

    _fn_get_cash: GetCashMethod
    """Constructor-initialized instance of
    :class:`GetCashMethod`.
    """

    _fn_initialize: InitializeMethod
    """Constructor-initialized instance of
    :class:`InitializeMethod`.
    """

    _fn_interest_rate_model: InterestRateModelMethod
    """Constructor-initialized instance of
    :class:`InterestRateModelMethod`.
    """

    _fn_is_c_token: IsCTokenMethod
    """Constructor-initialized instance of
    :class:`IsCTokenMethod`.
    """

    _fn_name: NameMethod
    """Constructor-initialized instance of
    :class:`NameMethod`.
    """

    _fn_pending_admin: PendingAdminMethod
    """Constructor-initialized instance of
    :class:`PendingAdminMethod`.
    """

    _fn_protocol_seize_share_mantissa: ProtocolSeizeShareMantissaMethod
    """Constructor-initialized instance of
    :class:`ProtocolSeizeShareMantissaMethod`.
    """

    _fn_reserve_factor_mantissa: ReserveFactorMantissaMethod
    """Constructor-initialized instance of
    :class:`ReserveFactorMantissaMethod`.
    """

    _fn_seize: SeizeMethod
    """Constructor-initialized instance of
    :class:`SeizeMethod`.
    """

    _fn_supply_rate_per_block: SupplyRatePerBlockMethod
    """Constructor-initialized instance of
    :class:`SupplyRatePerBlockMethod`.
    """

    _fn_symbol: SymbolMethod
    """Constructor-initialized instance of
    :class:`SymbolMethod`.
    """

    _fn_total_borrows: TotalBorrowsMethod
    """Constructor-initialized instance of
    :class:`TotalBorrowsMethod`.
    """

    _fn_total_borrows_current: TotalBorrowsCurrentMethod
    """Constructor-initialized instance of
    :class:`TotalBorrowsCurrentMethod`.
    """

    _fn_total_reserves: TotalReservesMethod
    """Constructor-initialized instance of
    :class:`TotalReservesMethod`.
    """

    _fn_total_supply: TotalSupplyMethod
    """Constructor-initialized instance of
    :class:`TotalSupplyMethod`.
    """

    _fn_transfer: TransferMethod
    """Constructor-initialized instance of
    :class:`TransferMethod`.
    """

    _fn_transfer_from: TransferFromMethod
    """Constructor-initialized instance of
    :class:`TransferFromMethod`.
    """

    SIGNATURES: SignatureGenerator = None

    def __init__(
            self,
            core_lib: MiliDoS,
            contract_address: str,
            validator: CTokenValidator = None,
    ):
        """Get an instance of wrapper for smart contract.
        """
        # pylint: disable=too-many-statements
        super().__init__()
        self.contract_address = contract_address
        web3 = core_lib.w3

        if not validator:
            validator = CTokenValidator(web3, contract_address)

        # if any middleware was imported, inject it
        try:
            MIDDLEWARE
        except NameError:
            pass
        else:
            try:
                for middleware in MIDDLEWARE:
                    web3.middleware_onion.inject(
                        middleware['function'], layer=middleware['layer'],
                    )
            except ValueError as value_error:
                if value_error.args == ("You can't add the same un-named instance twice",):
                    pass

        self._web3_eth = web3.eth
        functions = self._web3_eth.contract(address=to_checksum_address(contract_address), abi=CToken.abi()).functions
        signed = SignatureGenerator(CToken.abi())
        validator.bindSignatures(signed)
        self.SIGNATURES = signed
        self._fn_accept_admin_ = AcceptAdmin_Method(core_lib, contract_address, functions._acceptAdmin, validator)
        self._fn_reduce_reserves_ = ReduceReserves_Method(core_lib, contract_address, functions._reduceReserves, validator)
        self._fn_set_comptroller_ = SetComptroller_Method(core_lib, contract_address, functions._setComptroller, validator)
        self._fn_set_interest_rate_model_ = SetInterestRateModel_Method(core_lib, contract_address, functions._setInterestRateModel, validator)
        self._fn_set_pending_admin_ = SetPendingAdmin_Method(core_lib, contract_address, functions._setPendingAdmin, validator)
        self._fn_set_reserve_factor_ = SetReserveFactor_Method(core_lib, contract_address, functions._setReserveFactor, validator)
        self._fn_accrual_block_number = AccrualBlockNumberMethod(core_lib, contract_address, functions.accrualBlockNumber, validator)
        self._fn_accrue_interest = AccrueInterestMethod(core_lib, contract_address, functions.accrueInterest, validator)
        self._fn_admin = AdminMethod(core_lib, contract_address, functions.admin, validator)
        self._fn_allowance = AllowanceMethod(core_lib, contract_address, functions.allowance, validator)
        self._fn_approve = ApproveMethod(core_lib, contract_address, functions.approve, validator)
        self._fn_balance_of = BalanceOfMethod(core_lib, contract_address, functions.balanceOf, validator)
        self._fn_balance_of_underlying = BalanceOfUnderlyingMethod(core_lib, contract_address, functions.balanceOfUnderlying, validator)
        self._fn_borrow_balance_current = BorrowBalanceCurrentMethod(core_lib, contract_address, functions.borrowBalanceCurrent, validator)
        self._fn_borrow_balance_stored = BorrowBalanceStoredMethod(core_lib, contract_address, functions.borrowBalanceStored, validator)
        self._fn_borrow_index = BorrowIndexMethod(core_lib, contract_address, functions.borrowIndex, validator)
        self._fn_borrow_rate_per_block = BorrowRatePerBlockMethod(core_lib, contract_address, functions.borrowRatePerBlock, validator)
        self._fn_comptroller = ComptrollerMethod(core_lib, contract_address, functions.comptroller, validator)
        self._fn_decimals = DecimalsMethod(core_lib, contract_address, functions.decimals, validator)
        self._fn_exchange_rate_current = ExchangeRateCurrentMethod(core_lib, contract_address, functions.exchangeRateCurrent, validator)
        self._fn_exchange_rate_stored = ExchangeRateStoredMethod(core_lib, contract_address, functions.exchangeRateStored, validator)
        self._fn_get_account_snapshot = GetAccountSnapshotMethod(core_lib, contract_address, functions.getAccountSnapshot, validator)
        self._fn_get_cash = GetCashMethod(core_lib, contract_address, functions.getCash, validator)
        self._fn_initialize = InitializeMethod(core_lib, contract_address, functions.initialize, validator)
        self._fn_interest_rate_model = InterestRateModelMethod(core_lib, contract_address, functions.interestRateModel, validator)
        self._fn_is_c_token = IsCTokenMethod(core_lib, contract_address, functions.isCToken, validator)
        self._fn_name = NameMethod(core_lib, contract_address, functions.name, validator)
        self._fn_pending_admin = PendingAdminMethod(core_lib, contract_address, functions.pendingAdmin, validator)
        self._fn_protocol_seize_share_mantissa = ProtocolSeizeShareMantissaMethod(core_lib, contract_address, functions.protocolSeizeShareMantissa, validator)
        self._fn_reserve_factor_mantissa = ReserveFactorMantissaMethod(core_lib, contract_address, functions.reserveFactorMantissa, validator)
        self._fn_seize = SeizeMethod(core_lib, contract_address, functions.seize, validator)
        self._fn_supply_rate_per_block = SupplyRatePerBlockMethod(core_lib, contract_address, functions.supplyRatePerBlock, validator)
        self._fn_symbol = SymbolMethod(core_lib, contract_address, functions.symbol, validator)
        self._fn_total_borrows = TotalBorrowsMethod(core_lib, contract_address, functions.totalBorrows, validator)
        self._fn_total_borrows_current = TotalBorrowsCurrentMethod(core_lib, contract_address, functions.totalBorrowsCurrent, validator)
        self._fn_total_reserves = TotalReservesMethod(core_lib, contract_address, functions.totalReserves, validator)
        self._fn_total_supply = TotalSupplyMethod(core_lib, contract_address, functions.totalSupply, validator)
        self._fn_transfer = TransferMethod(core_lib, contract_address, functions.transfer, validator)
        self._fn_transfer_from = TransferFromMethod(core_lib, contract_address, functions.transferFrom, validator)

    def event_accrue_interest(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event accrue_interest in contract CToken
        Get log entry for AccrueInterest event.
                :param tx_hash: hash of transaction emitting AccrueInterest event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.AccrueInterest().processReceipt(tx_receipt)

    def event_approval(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event approval in contract CToken
        Get log entry for Approval event.
                :param tx_hash: hash of transaction emitting Approval event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.Approval().processReceipt(tx_receipt)

    def event_borrow(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event borrow in contract CToken
        Get log entry for Borrow event.
                :param tx_hash: hash of transaction emitting Borrow event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.Borrow().processReceipt(tx_receipt)

    def event_failure(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event failure in contract CToken
        Get log entry for Failure event.
                :param tx_hash: hash of transaction emitting Failure event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.Failure().processReceipt(tx_receipt)

    def event_liquidate_borrow(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event liquidate_borrow in contract CToken
        Get log entry for LiquidateBorrow event.
                :param tx_hash: hash of transaction emitting LiquidateBorrow event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.LiquidateBorrow().processReceipt(tx_receipt)

    def event_mint(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event mint in contract CToken
        Get log entry for Mint event.
                :param tx_hash: hash of transaction emitting Mint event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.Mint().processReceipt(tx_receipt)

    def event_new_admin(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event new_admin in contract CToken
        Get log entry for NewAdmin event.
                :param tx_hash: hash of transaction emitting NewAdmin event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.NewAdmin().processReceipt(tx_receipt)

    def event_new_comptroller(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event new_comptroller in contract CToken
        Get log entry for NewComptroller event.
                :param tx_hash: hash of transaction emitting NewComptroller event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.NewComptroller().processReceipt(tx_receipt)

    def event_new_market_interest_rate_model(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event new_market_interest_rate_model in contract CToken
        Get log entry for NewMarketInterestRateModel event.
                :param tx_hash: hash of transaction emitting NewMarketInterestRateModel
                event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.NewMarketInterestRateModel().processReceipt(tx_receipt)

    def event_new_pending_admin(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event new_pending_admin in contract CToken
        Get log entry for NewPendingAdmin event.
                :param tx_hash: hash of transaction emitting NewPendingAdmin event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.NewPendingAdmin().processReceipt(tx_receipt)

    def event_new_reserve_factor(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event new_reserve_factor in contract CToken
        Get log entry for NewReserveFactor event.
                :param tx_hash: hash of transaction emitting NewReserveFactor event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.NewReserveFactor().processReceipt(tx_receipt)

    def event_redeem(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event redeem in contract CToken
        Get log entry for Redeem event.
                :param tx_hash: hash of transaction emitting Redeem event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.Redeem().processReceipt(tx_receipt)

    def event_repay_borrow(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event repay_borrow in contract CToken
        Get log entry for RepayBorrow event.
                :param tx_hash: hash of transaction emitting RepayBorrow event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.RepayBorrow().processReceipt(tx_receipt)

    def event_reserves_added(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event reserves_added in contract CToken
        Get log entry for ReservesAdded event.
                :param tx_hash: hash of transaction emitting ReservesAdded event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.ReservesAdded().processReceipt(tx_receipt)

    def event_reserves_reduced(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event reserves_reduced in contract CToken
        Get log entry for ReservesReduced event.
                :param tx_hash: hash of transaction emitting ReservesReduced event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.ReservesReduced().processReceipt(tx_receipt)

    def event_transfer(
            self, tx_hash: Union[HexBytes, bytes]
    ) -> Tuple[AttributeDict]:
        """
        Implementation of event transfer in contract CToken
        Get log entry for Transfer event.
                :param tx_hash: hash of transaction emitting Transfer event
        """
        tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
        return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.Transfer().processReceipt(tx_receipt)

    def accept_admin_(self) -> int:
        """
        Implementation of accept_admin_ in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_accept_admin_.block_send(self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def reduce_reserves_(self, reduce_amount: int) -> int:
        """
        Implementation of reduce_reserves_ in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_reduce_reserves_.block_send(reduce_amount, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def set_comptroller_(self, new_comptroller: str) -> int:
        """
        Implementation of set_comptroller_ in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_set_comptroller_.block_send(new_comptroller, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def set_interest_rate_model_(self, new_interest_rate_model: str) -> int:
        """
        Implementation of set_interest_rate_model_ in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_set_interest_rate_model_.block_send(new_interest_rate_model, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def set_pending_admin_(self, new_pending_admin: str) -> int:
        """
        Implementation of set_pending_admin_ in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_set_pending_admin_.block_send(new_pending_admin, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def set_reserve_factor_(self, new_reserve_factor_mantissa: int) -> int:
        """
        Implementation of set_reserve_factor_ in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_set_reserve_factor_.block_send(new_reserve_factor_mantissa, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def accrual_block_number(self) -> int:
        """
        Implementation of accrual_block_number in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_accrual_block_number.block_call()

    def accrue_interest(self) -> int:
        """
        Implementation of accrue_interest in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_accrue_interest.block_send(self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def admin(self) -> str:
        """
        Implementation of admin in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_admin.block_call()

    def allowance(self, owner: str, spender: str) -> int:
        """
        Implementation of allowance in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_allowance.block_call(owner, spender)

    def approve(self, spender: str, amount: int) -> bool:
        """
        Implementation of approve in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_approve.block_send(spender, amount, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def balance_of(self, owner: str) -> int:
        """
        Implementation of balance_of in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_balance_of.block_call(owner)

    def balance_of_underlying(self, owner: str) -> int:
        """
        Implementation of balance_of_underlying in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_balance_of_underlying.block_send(owner, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def borrow_balance_current(self, account: str) -> int:
        """
        Implementation of borrow_balance_current in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_borrow_balance_current.block_send(account, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def borrow_balance_stored(self, account: str) -> int:
        """
        Implementation of borrow_balance_stored in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_borrow_balance_stored.block_call(account)

    def borrow_index(self) -> int:
        """
        Implementation of borrow_index in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_borrow_index.block_call()

    def borrow_rate_per_block(self) -> int:
        """
        Implementation of borrow_rate_per_block in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_borrow_rate_per_block.block_call()

    def comptroller(self) -> str:
        """
        Implementation of comptroller in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_comptroller.block_call()

    def decimals(self) -> int:
        """
        Implementation of decimals in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_decimals.block_call()

    def exchange_rate_current(self) -> int:
        """
        Implementation of exchange_rate_current in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_exchange_rate_current.block_send(self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def exchange_rate_stored(self) -> int:
        """
        Implementation of exchange_rate_stored in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_exchange_rate_stored.block_call()

    def get_account_snapshot(self, account: str) -> Tuple[int, int, int, int]:
        """
        Implementation of get_account_snapshot in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_get_account_snapshot.block_call(account)

    def get_cash(self) -> int:
        """
        Implementation of get_cash in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_get_cash.block_call()

    def initialize(self, comptroller_: str, interest_rate_model_: str, initial_exchange_rate_mantissa_: int, name_: str, symbol_: str, decimals_: int) -> None:
        """
        Implementation of initialize in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_initialize.block_send(comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def interest_rate_model(self) -> str:
        """
        Implementation of interest_rate_model in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_interest_rate_model.block_call()

    def is_c_token(self) -> bool:
        """
        Implementation of is_c_token in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_is_c_token.block_call()

    def name(self) -> str:
        """
        Implementation of name in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_name.block_call()

    def pending_admin(self) -> str:
        """
        Implementation of pending_admin in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_pending_admin.block_call()

    def protocol_seize_share_mantissa(self) -> int:
        """
        Implementation of protocol_seize_share_mantissa in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_protocol_seize_share_mantissa.block_call()

    def reserve_factor_mantissa(self) -> int:
        """
        Implementation of reserve_factor_mantissa in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_reserve_factor_mantissa.block_call()

    def seize(self, liquidator: str, borrower: str, seize_tokens: int) -> int:
        """
        Implementation of seize in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_seize.block_send(liquidator, borrower, seize_tokens, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def supply_rate_per_block(self) -> int:
        """
        Implementation of supply_rate_per_block in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_supply_rate_per_block.block_call()

    def symbol(self) -> str:
        """
        Implementation of symbol in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_symbol.block_call()

    def total_borrows(self) -> int:
        """
        Implementation of total_borrows in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_total_borrows.block_call()

    def total_borrows_current(self) -> int:
        """
        Implementation of total_borrows_current in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_total_borrows_current.block_send(self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def total_reserves(self) -> int:
        """
        Implementation of total_reserves in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_total_reserves.block_call()

    def total_supply(self) -> int:
        """
        Implementation of total_supply in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_total_supply.block_call()

    def transfer(self, dst: str, amount: int) -> bool:
        """
        Implementation of transfer in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_transfer.block_send(dst, amount, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def transfer_from(self, src: str, dst: str, amount: int) -> bool:
        """
        Implementation of transfer_from in contract CToken
        Method of the function
    
    
    
        """

        return self._fn_transfer_from.block_send(src, dst, amount, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)

    def CallContractWait(self, t_long: int) -> "CToken":
        self._fn_accept_admin_.setWait(t_long)
        self._fn_reduce_reserves_.setWait(t_long)
        self._fn_set_comptroller_.setWait(t_long)
        self._fn_set_interest_rate_model_.setWait(t_long)
        self._fn_set_pending_admin_.setWait(t_long)
        self._fn_set_reserve_factor_.setWait(t_long)
        self._fn_accrual_block_number.setWait(t_long)
        self._fn_accrue_interest.setWait(t_long)
        self._fn_admin.setWait(t_long)
        self._fn_allowance.setWait(t_long)
        self._fn_approve.setWait(t_long)
        self._fn_balance_of.setWait(t_long)
        self._fn_balance_of_underlying.setWait(t_long)
        self._fn_borrow_balance_current.setWait(t_long)
        self._fn_borrow_balance_stored.setWait(t_long)
        self._fn_borrow_index.setWait(t_long)
        self._fn_borrow_rate_per_block.setWait(t_long)
        self._fn_comptroller.setWait(t_long)
        self._fn_decimals.setWait(t_long)
        self._fn_exchange_rate_current.setWait(t_long)
        self._fn_exchange_rate_stored.setWait(t_long)
        self._fn_get_account_snapshot.setWait(t_long)
        self._fn_get_cash.setWait(t_long)
        self._fn_initialize.setWait(t_long)
        self._fn_interest_rate_model.setWait(t_long)
        self._fn_is_c_token.setWait(t_long)
        self._fn_name.setWait(t_long)
        self._fn_pending_admin.setWait(t_long)
        self._fn_protocol_seize_share_mantissa.setWait(t_long)
        self._fn_reserve_factor_mantissa.setWait(t_long)
        self._fn_seize.setWait(t_long)
        self._fn_supply_rate_per_block.setWait(t_long)
        self._fn_symbol.setWait(t_long)
        self._fn_total_borrows.setWait(t_long)
        self._fn_total_borrows_current.setWait(t_long)
        self._fn_total_reserves.setWait(t_long)
        self._fn_total_supply.setWait(t_long)
        self._fn_transfer.setWait(t_long)
        self._fn_transfer_from.setWait(t_long)
        return self

    @staticmethod
    def abi():
        """Return the ABI to the underlying contract."""
        return json.loads(
            '[{"anonymous":false,"inputs":[{"indexed":false,"internalType":"uint256","name":"cashPrior","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"interestAccumulated","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"borrowIndex","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"totalBorrows","type":"uint256"}],"name":"AccrueInterest","type":"event"},{"anonymous":false,"inputs":[{"indexed":true,"internalType":"address","name":"owner","type":"address"},{"indexed":true,"internalType":"address","name":"spender","type":"address"},{"indexed":false,"internalType":"uint256","name":"amount","type":"uint256"}],"name":"Approval","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"address","name":"borrower","type":"address"},{"indexed":false,"internalType":"uint256","name":"borrowAmount","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"accountBorrows","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"totalBorrows","type":"uint256"}],"name":"Borrow","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"uint256","name":"error","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"info","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"detail","type":"uint256"}],"name":"Failure","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"address","name":"liquidator","type":"address"},{"indexed":false,"internalType":"address","name":"borrower","type":"address"},{"indexed":false,"internalType":"uint256","name":"repayAmount","type":"uint256"},{"indexed":false,"internalType":"address","name":"cTokenCollateral","type":"address"},{"indexed":false,"internalType":"uint256","name":"seizeTokens","type":"uint256"}],"name":"LiquidateBorrow","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"address","name":"minter","type":"address"},{"indexed":false,"internalType":"uint256","name":"mintAmount","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"mintTokens","type":"uint256"}],"name":"Mint","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"address","name":"oldAdmin","type":"address"},{"indexed":false,"internalType":"address","name":"newAdmin","type":"address"}],"name":"NewAdmin","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"contract 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ComptrollerInterface","name":"","type":"address"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":true,"inputs":[],"name":"decimals","outputs":[{"internalType":"uint8","name":"","type":"uint8"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":false,"inputs":[],"name":"exchangeRateCurrent","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"nonpayable","type":"function"},{"constant":true,"inputs":[],"name":"exchangeRateStored","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":true,"inputs":[{"internalType":"address","name":"account","type":"address"}],"name":"getAccountSnapshot","outputs":[{"internalType":"uint256","name":"","type":"uint256"},{"internalType":"uint256","name":"","type":"uint256"},{"internalType":"uint256","name":"","type":"uint256"},{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":true,"inputs":[],"name":"getCash","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"payable":false,"stateMutability":"view","type":"function"},{"constant":false,"inputs":[{"internalType":"contract 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            # noqa: E501 (line-too-long)
        )

Ancestors

Class variables

var SIGNATURESSignatureGenerator

Static methods

def abi()

Return the ABI to the underlying contract.

Expand source code
@staticmethod
def abi():
    """Return the ABI to the underlying contract."""
    return json.loads(
        '[{"anonymous":false,"inputs":[{"indexed":false,"internalType":"uint256","name":"cashPrior","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"interestAccumulated","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"borrowIndex","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"totalBorrows","type":"uint256"}],"name":"AccrueInterest","type":"event"},{"anonymous":false,"inputs":[{"indexed":true,"internalType":"address","name":"owner","type":"address"},{"indexed":true,"internalType":"address","name":"spender","type":"address"},{"indexed":false,"internalType":"uint256","name":"amount","type":"uint256"}],"name":"Approval","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"address","name":"borrower","type":"address"},{"indexed":false,"internalType":"uint256","name":"borrowAmount","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"accountBorrows","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"totalBorrows","type":"uint256"}],"name":"Borrow","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"uint256","name":"error","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"info","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"detail","type":"uint256"}],"name":"Failure","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"address","name":"liquidator","type":"address"},{"indexed":false,"internalType":"address","name":"borrower","type":"address"},{"indexed":false,"internalType":"uint256","name":"repayAmount","type":"uint256"},{"indexed":false,"internalType":"address","name":"cTokenCollateral","type":"address"},{"indexed":false,"internalType":"uint256","name":"seizeTokens","type":"uint256"}],"name":"LiquidateBorrow","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"address","name":"minter","type":"address"},{"indexed":false,"internalType":"uint256","name":"mintAmount","type":"uint256"},{"indexed":false,"internalType":"uint256","name":"mintTokens","type":"uint256"}],"name":"Mint","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"address","name":"oldAdmin","type":"address"},{"indexed":false,"internalType":"address","name":"newAdmin","type":"address"}],"name":"NewAdmin","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"contract ComptrollerInterface","name":"oldComptroller","type":"address"},{"indexed":false,"internalType":"contract ComptrollerInterface","name":"newComptroller","type":"address"}],"name":"NewComptroller","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"contract InterestRateModel","name":"oldInterestRateModel","type":"address"},{"indexed":false,"internalType":"contract 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        # noqa: E501 (line-too-long)
    )

Methods

def CallContractWait(self, t_long: int) ‑> CToken
Expand source code
def CallContractWait(self, t_long: int) -> "CToken":
    self._fn_accept_admin_.setWait(t_long)
    self._fn_reduce_reserves_.setWait(t_long)
    self._fn_set_comptroller_.setWait(t_long)
    self._fn_set_interest_rate_model_.setWait(t_long)
    self._fn_set_pending_admin_.setWait(t_long)
    self._fn_set_reserve_factor_.setWait(t_long)
    self._fn_accrual_block_number.setWait(t_long)
    self._fn_accrue_interest.setWait(t_long)
    self._fn_admin.setWait(t_long)
    self._fn_allowance.setWait(t_long)
    self._fn_approve.setWait(t_long)
    self._fn_balance_of.setWait(t_long)
    self._fn_balance_of_underlying.setWait(t_long)
    self._fn_borrow_balance_current.setWait(t_long)
    self._fn_borrow_balance_stored.setWait(t_long)
    self._fn_borrow_index.setWait(t_long)
    self._fn_borrow_rate_per_block.setWait(t_long)
    self._fn_comptroller.setWait(t_long)
    self._fn_decimals.setWait(t_long)
    self._fn_exchange_rate_current.setWait(t_long)
    self._fn_exchange_rate_stored.setWait(t_long)
    self._fn_get_account_snapshot.setWait(t_long)
    self._fn_get_cash.setWait(t_long)
    self._fn_initialize.setWait(t_long)
    self._fn_interest_rate_model.setWait(t_long)
    self._fn_is_c_token.setWait(t_long)
    self._fn_name.setWait(t_long)
    self._fn_pending_admin.setWait(t_long)
    self._fn_protocol_seize_share_mantissa.setWait(t_long)
    self._fn_reserve_factor_mantissa.setWait(t_long)
    self._fn_seize.setWait(t_long)
    self._fn_supply_rate_per_block.setWait(t_long)
    self._fn_symbol.setWait(t_long)
    self._fn_total_borrows.setWait(t_long)
    self._fn_total_borrows_current.setWait(t_long)
    self._fn_total_reserves.setWait(t_long)
    self._fn_total_supply.setWait(t_long)
    self._fn_transfer.setWait(t_long)
    self._fn_transfer_from.setWait(t_long)
    return self
def accept_admin_(self) ‑> int

Implementation of accept_admin_ in contract CToken Method of the function

Expand source code
def accept_admin_(self) -> int:
    """
    Implementation of accept_admin_ in contract CToken
    Method of the function



    """

    return self._fn_accept_admin_.block_send(self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)
def accrual_block_number(self) ‑> int

Implementation of accrual_block_number in contract CToken Method of the function

Expand source code
def accrual_block_number(self) -> int:
    """
    Implementation of accrual_block_number in contract CToken
    Method of the function



    """

    return self._fn_accrual_block_number.block_call()
def accrue_interest(self) ‑> int

Implementation of accrue_interest in contract CToken Method of the function

Expand source code
def accrue_interest(self) -> int:
    """
    Implementation of accrue_interest in contract CToken
    Method of the function



    """

    return self._fn_accrue_interest.block_send(self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)
def admin(self) ‑> str

Implementation of admin in contract CToken Method of the function

Expand source code
def admin(self) -> str:
    """
    Implementation of admin in contract CToken
    Method of the function



    """

    return self._fn_admin.block_call()
def allowance(self, owner: str, spender: str) ‑> int

Implementation of allowance in contract CToken Method of the function

Expand source code
def allowance(self, owner: str, spender: str) -> int:
    """
    Implementation of allowance in contract CToken
    Method of the function



    """

    return self._fn_allowance.block_call(owner, spender)
def approve(self, spender: str, amount: int) ‑> bool

Implementation of approve in contract CToken Method of the function

Expand source code
def approve(self, spender: str, amount: int) -> bool:
    """
    Implementation of approve in contract CToken
    Method of the function



    """

    return self._fn_approve.block_send(spender, amount, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)
def balance_of(self, owner: str) ‑> int

Implementation of balance_of in contract CToken Method of the function

Expand source code
def balance_of(self, owner: str) -> int:
    """
    Implementation of balance_of in contract CToken
    Method of the function



    """

    return self._fn_balance_of.block_call(owner)
def balance_of_underlying(self, owner: str) ‑> int

Implementation of balance_of_underlying in contract CToken Method of the function

Expand source code
def balance_of_underlying(self, owner: str) -> int:
    """
    Implementation of balance_of_underlying in contract CToken
    Method of the function



    """

    return self._fn_balance_of_underlying.block_send(owner, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)
def borrow_balance_current(self, account: str) ‑> int

Implementation of borrow_balance_current in contract CToken Method of the function

Expand source code
def borrow_balance_current(self, account: str) -> int:
    """
    Implementation of borrow_balance_current in contract CToken
    Method of the function



    """

    return self._fn_borrow_balance_current.block_send(account, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)
def borrow_balance_stored(self, account: str) ‑> int

Implementation of borrow_balance_stored in contract CToken Method of the function

Expand source code
def borrow_balance_stored(self, account: str) -> int:
    """
    Implementation of borrow_balance_stored in contract CToken
    Method of the function



    """

    return self._fn_borrow_balance_stored.block_call(account)
def borrow_index(self) ‑> int

Implementation of borrow_index in contract CToken Method of the function

Expand source code
def borrow_index(self) -> int:
    """
    Implementation of borrow_index in contract CToken
    Method of the function



    """

    return self._fn_borrow_index.block_call()
def borrow_rate_per_block(self) ‑> int

Implementation of borrow_rate_per_block in contract CToken Method of the function

Expand source code
def borrow_rate_per_block(self) -> int:
    """
    Implementation of borrow_rate_per_block in contract CToken
    Method of the function



    """

    return self._fn_borrow_rate_per_block.block_call()
def comptroller(self) ‑> str

Implementation of comptroller in contract CToken Method of the function

Expand source code
def comptroller(self) -> str:
    """
    Implementation of comptroller in contract CToken
    Method of the function



    """

    return self._fn_comptroller.block_call()
def decimals(self) ‑> int

Implementation of decimals in contract CToken Method of the function

Expand source code
def decimals(self) -> int:
    """
    Implementation of decimals in contract CToken
    Method of the function



    """

    return self._fn_decimals.block_call()
def event_accrue_interest(self, tx_hash: Union[hexbytes.main.HexBytes, bytes]) ‑> Tuple[web3.datastructures.AttributeDict]

Implementation of event accrue_interest in contract CToken Get log entry for AccrueInterest event. :param tx_hash: hash of transaction emitting AccrueInterest event

Expand source code
def event_accrue_interest(
        self, tx_hash: Union[HexBytes, bytes]
) -> Tuple[AttributeDict]:
    """
    Implementation of event accrue_interest in contract CToken
    Get log entry for AccrueInterest event.
            :param tx_hash: hash of transaction emitting AccrueInterest event
    """
    tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
    return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.AccrueInterest().processReceipt(tx_receipt)
def event_approval(self, tx_hash: Union[hexbytes.main.HexBytes, bytes]) ‑> Tuple[web3.datastructures.AttributeDict]

Implementation of event approval in contract CToken Get log entry for Approval event. :param tx_hash: hash of transaction emitting Approval event

Expand source code
def event_approval(
        self, tx_hash: Union[HexBytes, bytes]
) -> Tuple[AttributeDict]:
    """
    Implementation of event approval in contract CToken
    Get log entry for Approval event.
            :param tx_hash: hash of transaction emitting Approval event
    """
    tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
    return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.Approval().processReceipt(tx_receipt)
def event_borrow(self, tx_hash: Union[hexbytes.main.HexBytes, bytes]) ‑> Tuple[web3.datastructures.AttributeDict]

Implementation of event borrow in contract CToken Get log entry for Borrow event. :param tx_hash: hash of transaction emitting Borrow event

Expand source code
def event_borrow(
        self, tx_hash: Union[HexBytes, bytes]
) -> Tuple[AttributeDict]:
    """
    Implementation of event borrow in contract CToken
    Get log entry for Borrow event.
            :param tx_hash: hash of transaction emitting Borrow event
    """
    tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
    return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.Borrow().processReceipt(tx_receipt)
def event_failure(self, tx_hash: Union[hexbytes.main.HexBytes, bytes]) ‑> Tuple[web3.datastructures.AttributeDict]

Implementation of event failure in contract CToken Get log entry for Failure event. :param tx_hash: hash of transaction emitting Failure event

Expand source code
def event_failure(
        self, tx_hash: Union[HexBytes, bytes]
) -> Tuple[AttributeDict]:
    """
    Implementation of event failure in contract CToken
    Get log entry for Failure event.
            :param tx_hash: hash of transaction emitting Failure event
    """
    tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
    return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.Failure().processReceipt(tx_receipt)
def event_liquidate_borrow(self, tx_hash: Union[hexbytes.main.HexBytes, bytes]) ‑> Tuple[web3.datastructures.AttributeDict]

Implementation of event liquidate_borrow in contract CToken Get log entry for LiquidateBorrow event. :param tx_hash: hash of transaction emitting LiquidateBorrow event

Expand source code
def event_liquidate_borrow(
        self, tx_hash: Union[HexBytes, bytes]
) -> Tuple[AttributeDict]:
    """
    Implementation of event liquidate_borrow in contract CToken
    Get log entry for LiquidateBorrow event.
            :param tx_hash: hash of transaction emitting LiquidateBorrow event
    """
    tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
    return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.LiquidateBorrow().processReceipt(tx_receipt)
def event_mint(self, tx_hash: Union[hexbytes.main.HexBytes, bytes]) ‑> Tuple[web3.datastructures.AttributeDict]

Implementation of event mint in contract CToken Get log entry for Mint event. :param tx_hash: hash of transaction emitting Mint event

Expand source code
def event_mint(
        self, tx_hash: Union[HexBytes, bytes]
) -> Tuple[AttributeDict]:
    """
    Implementation of event mint in contract CToken
    Get log entry for Mint event.
            :param tx_hash: hash of transaction emitting Mint event
    """
    tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
    return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.Mint().processReceipt(tx_receipt)
def event_new_admin(self, tx_hash: Union[hexbytes.main.HexBytes, bytes]) ‑> Tuple[web3.datastructures.AttributeDict]

Implementation of event new_admin in contract CToken Get log entry for NewAdmin event. :param tx_hash: hash of transaction emitting NewAdmin event

Expand source code
def event_new_admin(
        self, tx_hash: Union[HexBytes, bytes]
) -> Tuple[AttributeDict]:
    """
    Implementation of event new_admin in contract CToken
    Get log entry for NewAdmin event.
            :param tx_hash: hash of transaction emitting NewAdmin event
    """
    tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
    return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.NewAdmin().processReceipt(tx_receipt)
def event_new_comptroller(self, tx_hash: Union[hexbytes.main.HexBytes, bytes]) ‑> Tuple[web3.datastructures.AttributeDict]

Implementation of event new_comptroller in contract CToken Get log entry for NewComptroller event. :param tx_hash: hash of transaction emitting NewComptroller event

Expand source code
def event_new_comptroller(
        self, tx_hash: Union[HexBytes, bytes]
) -> Tuple[AttributeDict]:
    """
    Implementation of event new_comptroller in contract CToken
    Get log entry for NewComptroller event.
            :param tx_hash: hash of transaction emitting NewComptroller event
    """
    tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
    return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.NewComptroller().processReceipt(tx_receipt)
def event_new_market_interest_rate_model(self, tx_hash: Union[hexbytes.main.HexBytes, bytes]) ‑> Tuple[web3.datastructures.AttributeDict]

Implementation of event new_market_interest_rate_model in contract CToken Get log entry for NewMarketInterestRateModel event. :param tx_hash: hash of transaction emitting NewMarketInterestRateModel event

Expand source code
def event_new_market_interest_rate_model(
        self, tx_hash: Union[HexBytes, bytes]
) -> Tuple[AttributeDict]:
    """
    Implementation of event new_market_interest_rate_model in contract CToken
    Get log entry for NewMarketInterestRateModel event.
            :param tx_hash: hash of transaction emitting NewMarketInterestRateModel
            event
    """
    tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
    return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.NewMarketInterestRateModel().processReceipt(tx_receipt)
def event_new_pending_admin(self, tx_hash: Union[hexbytes.main.HexBytes, bytes]) ‑> Tuple[web3.datastructures.AttributeDict]

Implementation of event new_pending_admin in contract CToken Get log entry for NewPendingAdmin event. :param tx_hash: hash of transaction emitting NewPendingAdmin event

Expand source code
def event_new_pending_admin(
        self, tx_hash: Union[HexBytes, bytes]
) -> Tuple[AttributeDict]:
    """
    Implementation of event new_pending_admin in contract CToken
    Get log entry for NewPendingAdmin event.
            :param tx_hash: hash of transaction emitting NewPendingAdmin event
    """
    tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
    return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.NewPendingAdmin().processReceipt(tx_receipt)
def event_new_reserve_factor(self, tx_hash: Union[hexbytes.main.HexBytes, bytes]) ‑> Tuple[web3.datastructures.AttributeDict]

Implementation of event new_reserve_factor in contract CToken Get log entry for NewReserveFactor event. :param tx_hash: hash of transaction emitting NewReserveFactor event

Expand source code
def event_new_reserve_factor(
        self, tx_hash: Union[HexBytes, bytes]
) -> Tuple[AttributeDict]:
    """
    Implementation of event new_reserve_factor in contract CToken
    Get log entry for NewReserveFactor event.
            :param tx_hash: hash of transaction emitting NewReserveFactor event
    """
    tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
    return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.NewReserveFactor().processReceipt(tx_receipt)
def event_redeem(self, tx_hash: Union[hexbytes.main.HexBytes, bytes]) ‑> Tuple[web3.datastructures.AttributeDict]

Implementation of event redeem in contract CToken Get log entry for Redeem event. :param tx_hash: hash of transaction emitting Redeem event

Expand source code
def event_redeem(
        self, tx_hash: Union[HexBytes, bytes]
) -> Tuple[AttributeDict]:
    """
    Implementation of event redeem in contract CToken
    Get log entry for Redeem event.
            :param tx_hash: hash of transaction emitting Redeem event
    """
    tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
    return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.Redeem().processReceipt(tx_receipt)
def event_repay_borrow(self, tx_hash: Union[hexbytes.main.HexBytes, bytes]) ‑> Tuple[web3.datastructures.AttributeDict]

Implementation of event repay_borrow in contract CToken Get log entry for RepayBorrow event. :param tx_hash: hash of transaction emitting RepayBorrow event

Expand source code
def event_repay_borrow(
        self, tx_hash: Union[HexBytes, bytes]
) -> Tuple[AttributeDict]:
    """
    Implementation of event repay_borrow in contract CToken
    Get log entry for RepayBorrow event.
            :param tx_hash: hash of transaction emitting RepayBorrow event
    """
    tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
    return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.RepayBorrow().processReceipt(tx_receipt)
def event_reserves_added(self, tx_hash: Union[hexbytes.main.HexBytes, bytes]) ‑> Tuple[web3.datastructures.AttributeDict]

Implementation of event reserves_added in contract CToken Get log entry for ReservesAdded event. :param tx_hash: hash of transaction emitting ReservesAdded event

Expand source code
def event_reserves_added(
        self, tx_hash: Union[HexBytes, bytes]
) -> Tuple[AttributeDict]:
    """
    Implementation of event reserves_added in contract CToken
    Get log entry for ReservesAdded event.
            :param tx_hash: hash of transaction emitting ReservesAdded event
    """
    tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
    return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.ReservesAdded().processReceipt(tx_receipt)
def event_reserves_reduced(self, tx_hash: Union[hexbytes.main.HexBytes, bytes]) ‑> Tuple[web3.datastructures.AttributeDict]

Implementation of event reserves_reduced in contract CToken Get log entry for ReservesReduced event. :param tx_hash: hash of transaction emitting ReservesReduced event

Expand source code
def event_reserves_reduced(
        self, tx_hash: Union[HexBytes, bytes]
) -> Tuple[AttributeDict]:
    """
    Implementation of event reserves_reduced in contract CToken
    Get log entry for ReservesReduced event.
            :param tx_hash: hash of transaction emitting ReservesReduced event
    """
    tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
    return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.ReservesReduced().processReceipt(tx_receipt)
def event_transfer(self, tx_hash: Union[hexbytes.main.HexBytes, bytes]) ‑> Tuple[web3.datastructures.AttributeDict]

Implementation of event transfer in contract CToken Get log entry for Transfer event. :param tx_hash: hash of transaction emitting Transfer event

Expand source code
def event_transfer(
        self, tx_hash: Union[HexBytes, bytes]
) -> Tuple[AttributeDict]:
    """
    Implementation of event transfer in contract CToken
    Get log entry for Transfer event.
            :param tx_hash: hash of transaction emitting Transfer event
    """
    tx_receipt = self._web3_eth.getTransactionReceipt(tx_hash)
    return self._web3_eth.contract(address=to_checksum_address(self.contract_address), abi=CToken.abi()).events.Transfer().processReceipt(tx_receipt)
def exchange_rate_current(self) ‑> int

Implementation of exchange_rate_current in contract CToken Method of the function

Expand source code
def exchange_rate_current(self) -> int:
    """
    Implementation of exchange_rate_current in contract CToken
    Method of the function



    """

    return self._fn_exchange_rate_current.block_send(self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)
def exchange_rate_stored(self) ‑> int

Implementation of exchange_rate_stored in contract CToken Method of the function

Expand source code
def exchange_rate_stored(self) -> int:
    """
    Implementation of exchange_rate_stored in contract CToken
    Method of the function



    """

    return self._fn_exchange_rate_stored.block_call()
def get_account_snapshot(self, account: str) ‑> Tuple[int, int, int, int]

Implementation of get_account_snapshot in contract CToken Method of the function

Expand source code
def get_account_snapshot(self, account: str) -> Tuple[int, int, int, int]:
    """
    Implementation of get_account_snapshot in contract CToken
    Method of the function



    """

    return self._fn_get_account_snapshot.block_call(account)
def get_cash(self) ‑> int

Implementation of get_cash in contract CToken Method of the function

Expand source code
def get_cash(self) -> int:
    """
    Implementation of get_cash in contract CToken
    Method of the function



    """

    return self._fn_get_cash.block_call()
def initialize(self, comptroller_: str, interest_rate_model_: str, initial_exchange_rate_mantissa_: int, name_: str, symbol_: str, decimals_: int) ‑> NoneType

Implementation of initialize in contract CToken Method of the function

Expand source code
def initialize(self, comptroller_: str, interest_rate_model_: str, initial_exchange_rate_mantissa_: int, name_: str, symbol_: str, decimals_: int) -> None:
    """
    Implementation of initialize in contract CToken
    Method of the function



    """

    return self._fn_initialize.block_send(comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)
def interest_rate_model(self) ‑> str

Implementation of interest_rate_model in contract CToken Method of the function

Expand source code
def interest_rate_model(self) -> str:
    """
    Implementation of interest_rate_model in contract CToken
    Method of the function



    """

    return self._fn_interest_rate_model.block_call()
def is_c_token(self) ‑> bool

Implementation of is_c_token in contract CToken Method of the function

Expand source code
def is_c_token(self) -> bool:
    """
    Implementation of is_c_token in contract CToken
    Method of the function



    """

    return self._fn_is_c_token.block_call()
def name(self) ‑> str

Implementation of name in contract CToken Method of the function

Expand source code
def name(self) -> str:
    """
    Implementation of name in contract CToken
    Method of the function



    """

    return self._fn_name.block_call()
def pending_admin(self) ‑> str

Implementation of pending_admin in contract CToken Method of the function

Expand source code
def pending_admin(self) -> str:
    """
    Implementation of pending_admin in contract CToken
    Method of the function



    """

    return self._fn_pending_admin.block_call()
def protocol_seize_share_mantissa(self) ‑> int

Implementation of protocol_seize_share_mantissa in contract CToken Method of the function

Expand source code
def protocol_seize_share_mantissa(self) -> int:
    """
    Implementation of protocol_seize_share_mantissa in contract CToken
    Method of the function



    """

    return self._fn_protocol_seize_share_mantissa.block_call()
def reduce_reserves_(self, reduce_amount: int) ‑> int

Implementation of reduce_reserves_ in contract CToken Method of the function

Expand source code
def reduce_reserves_(self, reduce_amount: int) -> int:
    """
    Implementation of reduce_reserves_ in contract CToken
    Method of the function



    """

    return self._fn_reduce_reserves_.block_send(reduce_amount, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)
def reserve_factor_mantissa(self) ‑> int

Implementation of reserve_factor_mantissa in contract CToken Method of the function

Expand source code
def reserve_factor_mantissa(self) -> int:
    """
    Implementation of reserve_factor_mantissa in contract CToken
    Method of the function



    """

    return self._fn_reserve_factor_mantissa.block_call()
def seize(self, liquidator: str, borrower: str, seize_tokens: int) ‑> int

Implementation of seize in contract CToken Method of the function

Expand source code
def seize(self, liquidator: str, borrower: str, seize_tokens: int) -> int:
    """
    Implementation of seize in contract CToken
    Method of the function



    """

    return self._fn_seize.block_send(liquidator, borrower, seize_tokens, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)
def set_comptroller_(self, new_comptroller: str) ‑> int

Implementation of set_comptroller_ in contract CToken Method of the function

Expand source code
def set_comptroller_(self, new_comptroller: str) -> int:
    """
    Implementation of set_comptroller_ in contract CToken
    Method of the function



    """

    return self._fn_set_comptroller_.block_send(new_comptroller, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)
def set_interest_rate_model_(self, new_interest_rate_model: str) ‑> int

Implementation of set_interest_rate_model_ in contract CToken Method of the function

Expand source code
def set_interest_rate_model_(self, new_interest_rate_model: str) -> int:
    """
    Implementation of set_interest_rate_model_ in contract CToken
    Method of the function



    """

    return self._fn_set_interest_rate_model_.block_send(new_interest_rate_model, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)
def set_pending_admin_(self, new_pending_admin: str) ‑> int

Implementation of set_pending_admin_ in contract CToken Method of the function

Expand source code
def set_pending_admin_(self, new_pending_admin: str) -> int:
    """
    Implementation of set_pending_admin_ in contract CToken
    Method of the function



    """

    return self._fn_set_pending_admin_.block_send(new_pending_admin, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)
def set_reserve_factor_(self, new_reserve_factor_mantissa: int) ‑> int

Implementation of set_reserve_factor_ in contract CToken Method of the function

Expand source code
def set_reserve_factor_(self, new_reserve_factor_mantissa: int) -> int:
    """
    Implementation of set_reserve_factor_ in contract CToken
    Method of the function



    """

    return self._fn_set_reserve_factor_.block_send(new_reserve_factor_mantissa, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)
def supply_rate_per_block(self) ‑> int

Implementation of supply_rate_per_block in contract CToken Method of the function

Expand source code
def supply_rate_per_block(self) -> int:
    """
    Implementation of supply_rate_per_block in contract CToken
    Method of the function



    """

    return self._fn_supply_rate_per_block.block_call()
def symbol(self) ‑> str

Implementation of symbol in contract CToken Method of the function

Expand source code
def symbol(self) -> str:
    """
    Implementation of symbol in contract CToken
    Method of the function



    """

    return self._fn_symbol.block_call()
def total_borrows(self) ‑> int

Implementation of total_borrows in contract CToken Method of the function

Expand source code
def total_borrows(self) -> int:
    """
    Implementation of total_borrows in contract CToken
    Method of the function



    """

    return self._fn_total_borrows.block_call()
def total_borrows_current(self) ‑> int

Implementation of total_borrows_current in contract CToken Method of the function

Expand source code
def total_borrows_current(self) -> int:
    """
    Implementation of total_borrows_current in contract CToken
    Method of the function



    """

    return self._fn_total_borrows_current.block_send(self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)
def total_reserves(self) ‑> int

Implementation of total_reserves in contract CToken Method of the function

Expand source code
def total_reserves(self) -> int:
    """
    Implementation of total_reserves in contract CToken
    Method of the function



    """

    return self._fn_total_reserves.block_call()
def total_supply(self) ‑> int

Implementation of total_supply in contract CToken Method of the function

Expand source code
def total_supply(self) -> int:
    """
    Implementation of total_supply in contract CToken
    Method of the function



    """

    return self._fn_total_supply.block_call()
def transfer(self, dst: str, amount: int) ‑> bool

Implementation of transfer in contract CToken Method of the function

Expand source code
def transfer(self, dst: str, amount: int) -> bool:
    """
    Implementation of transfer in contract CToken
    Method of the function



    """

    return self._fn_transfer.block_send(dst, amount, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)
def transfer_from(self, src: str, dst: str, amount: int) ‑> bool

Implementation of transfer_from in contract CToken Method of the function

Expand source code
def transfer_from(self, src: str, dst: str, amount: int) -> bool:
    """
    Implementation of transfer_from in contract CToken
    Method of the function



    """

    return self._fn_transfer_from.block_send(src, dst, amount, self.call_contract_fee_amount, self.call_contract_fee_price, 0, self.call_contract_debug_flag, self.call_contract_enforce_tx_receipt)
class CTokenValidator (web3_or_provider: web3.main.Web3, contract_address: str)

No-op input validator.

Initialize the instance.

Expand source code
class CTokenValidator(  # type: ignore
    Validator
):
    """No-op input validator."""

Ancestors

Inherited members

class ComptrollerMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the comptroller method.

Persist instance data.

Expand source code
class ComptrollerMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the comptroller method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("comptroller")

    def block_call(self, debug: bool = False) -> str:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return str(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_call(self, debug: bool = False) ‑> str
Expand source code
def block_call(self, debug: bool = False) -> str:
    _fn = self._underlying_method()
    returned = _fn.call({
        'from': self._operate
    })
    return str(returned)
def estimate_gas(self, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().estimateGas(tx_params.as_dict())

Inherited members

class DecimalsMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the decimals method.

Persist instance data.

Expand source code
class DecimalsMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the decimals method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("decimals")

    def block_call(self, debug: bool = False) -> int:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_call(self, debug: bool = False) ‑> int
Expand source code
def block_call(self, debug: bool = False) -> int:
    _fn = self._underlying_method()
    returned = _fn.call({
        'from': self._operate
    })
    return int(returned)
def estimate_gas(self, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().estimateGas(tx_params.as_dict())

Inherited members

class ExchangeRateCurrentMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the exchangeRateCurrent method.

Persist instance data.

Expand source code
class ExchangeRateCurrentMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the exchangeRateCurrent method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("exchangeRateCurrent")

    def block_send(self, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method()
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: exchange_rate_current")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().transact(tx_params.as_dict())

    def build_transaction(self, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().buildTransaction(tx_params.as_dict())

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_send(self, _gaswei: int, _pricewei: int) ‑> int

Execute underlying contract method via eth_call.

:param tx_params: transaction parameters :returns: the return value of the underlying method.

Expand source code
def block_send(self, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
    """Execute underlying contract method via eth_call.

    :param tx_params: transaction parameters
    :returns: the return value of the underlying method.
    """
    _fn = self._underlying_method()
    try:

        _t = _fn.buildTransaction({
            'from': self._operate,
            'gas': _gaswei,
            'gasPrice': _pricewei
        })
        _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

        if _valeth > 0:
            _t['value'] = _valeth

        if _debugtx:
            print(f"======== Signing ✅ by {self._operate}")
            print(f"======== Transaction ✅ check")
            print(_t)

        if 'data' in _t:

            signed = self._web3_eth.account.sign_transaction(_t)
            txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
            tx_receipt = None
            if _receipList is True:
                print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                if _debugtx:
                    print("======== TX Result ✅")
                    print(tx_receipt)

            print(f"======== TX blockHash ✅")
            if tx_receipt is not None:
                print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
            else:
                print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

        if _receipList is False:
            time.sleep(self._wait)


    except ContractLogicError as er:
        print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: exchange_rate_current")

    except ValueError as err:
        if "message" in err.args[0]:
            message = err.args[0]["message"]
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
        else:
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")
def build_transaction(self, tx_params: Union[TxParams, NoneType] = None) ‑> dict

Construct calldata to be used as input to the method.

Expand source code
def build_transaction(self, tx_params: Optional[TxParams] = None) -> dict:
    """Construct calldata to be used as input to the method."""
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().buildTransaction(tx_params.as_dict())
def estimate_gas(self, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().estimateGas(tx_params.as_dict())
def send_transaction(self, tx_params: Union[TxParams, NoneType] = None) ‑> Union[hexbytes.main.HexBytes, bytes]

Execute underlying contract method via eth_sendTransaction.

:param tx_params: transaction parameters

Expand source code
def send_transaction(self, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
    """Execute underlying contract method via eth_sendTransaction.

    :param tx_params: transaction parameters
    """
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().transact(tx_params.as_dict())

Inherited members

class ExchangeRateStoredMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the exchangeRateStored method.

Persist instance data.

Expand source code
class ExchangeRateStoredMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the exchangeRateStored method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("exchangeRateStored")

    def block_call(self, debug: bool = False) -> int:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_call(self, debug: bool = False) ‑> int
Expand source code
def block_call(self, debug: bool = False) -> int:
    _fn = self._underlying_method()
    returned = _fn.call({
        'from': self._operate
    })
    return int(returned)
def estimate_gas(self, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().estimateGas(tx_params.as_dict())

Inherited members

class GetAccountSnapshotMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the getAccountSnapshot method.

Persist instance data.

Expand source code
class GetAccountSnapshotMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the getAccountSnapshot method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("getAccountSnapshot")

    def validate_and_normalize_inputs(self, account: str) -> any:
        """Validate the inputs to the getAccountSnapshot method."""
        self.validator.assert_valid(
            method_name='getAccountSnapshot',
            parameter_name='account',
            argument_value=account,
        )
        account = self.validate_and_checksum_address(account)
        return (account)

    def block_call(self, account: str, debug: bool = False) -> Tuple[int, int, int, int]:
        _fn = self._underlying_method(account)
        returned = _fn.call({
            'from': self._operate
        })
        return (returned[0], returned[1], returned[2], returned[3],)

    def estimate_gas(self, account: str, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (account) = self.validate_and_normalize_inputs(account)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(account).estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_call(self, account: str, debug: bool = False) ‑> Tuple[int, int, int, int]
Expand source code
def block_call(self, account: str, debug: bool = False) -> Tuple[int, int, int, int]:
    _fn = self._underlying_method(account)
    returned = _fn.call({
        'from': self._operate
    })
    return (returned[0], returned[1], returned[2], returned[3],)
def estimate_gas(self, account: str, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, account: str, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    (account) = self.validate_and_normalize_inputs(account)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(account).estimateGas(tx_params.as_dict())
def validate_and_normalize_inputs(self, account: str) ‑> 

Validate the inputs to the getAccountSnapshot method.

Expand source code
def validate_and_normalize_inputs(self, account: str) -> any:
    """Validate the inputs to the getAccountSnapshot method."""
    self.validator.assert_valid(
        method_name='getAccountSnapshot',
        parameter_name='account',
        argument_value=account,
    )
    account = self.validate_and_checksum_address(account)
    return (account)

Inherited members

class GetCashMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the getCash method.

Persist instance data.

Expand source code
class GetCashMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the getCash method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("getCash")

    def block_call(self, debug: bool = False) -> int:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_call(self, debug: bool = False) ‑> int
Expand source code
def block_call(self, debug: bool = False) -> int:
    _fn = self._underlying_method()
    returned = _fn.call({
        'from': self._operate
    })
    return int(returned)
def estimate_gas(self, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().estimateGas(tx_params.as_dict())

Inherited members

class InitializeMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the initialize method.

Persist instance data.

Expand source code
class InitializeMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the initialize method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("initialize")

    def validate_and_normalize_inputs(self, comptroller_: str, interest_rate_model_: str, initial_exchange_rate_mantissa_: int, name_: str, symbol_: str, decimals_: int) -> any:
        """Validate the inputs to the initialize method."""
        self.validator.assert_valid(
            method_name='initialize',
            parameter_name='comptroller_',
            argument_value=comptroller_,
        )
        comptroller_ = self.validate_and_checksum_address(comptroller_)
        self.validator.assert_valid(
            method_name='initialize',
            parameter_name='interestRateModel_',
            argument_value=interest_rate_model_,
        )
        interest_rate_model_ = self.validate_and_checksum_address(interest_rate_model_)
        self.validator.assert_valid(
            method_name='initialize',
            parameter_name='initialExchangeRateMantissa_',
            argument_value=initial_exchange_rate_mantissa_,
        )
        # safeguard against fractional inputs
        initial_exchange_rate_mantissa_ = int(initial_exchange_rate_mantissa_)
        self.validator.assert_valid(
            method_name='initialize',
            parameter_name='name_',
            argument_value=name_,
        )
        self.validator.assert_valid(
            method_name='initialize',
            parameter_name='symbol_',
            argument_value=symbol_,
        )
        self.validator.assert_valid(
            method_name='initialize',
            parameter_name='decimals_',
            argument_value=decimals_,
        )
        return (comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_)

    def block_send(self, comptroller_: str, interest_rate_model_: str, initial_exchange_rate_mantissa_: int, name_: str, symbol_: str, decimals_: int, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> None:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method(comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_)
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: initialize")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, comptroller_: str, interest_rate_model_: str, initial_exchange_rate_mantissa_: int, name_: str, symbol_: str, decimals_: int, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        (comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_) = self.validate_and_normalize_inputs(comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_).transact(tx_params.as_dict())

    def build_transaction(self, comptroller_: str, interest_rate_model_: str, initial_exchange_rate_mantissa_: int, name_: str, symbol_: str, decimals_: int, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        (comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_) = self.validate_and_normalize_inputs(comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_).buildTransaction(tx_params.as_dict())

    def estimate_gas(self, comptroller_: str, interest_rate_model_: str, initial_exchange_rate_mantissa_: int, name_: str, symbol_: str, decimals_: int, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_) = self.validate_and_normalize_inputs(comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_).estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_send(self, comptroller_: str, interest_rate_model_: str, initial_exchange_rate_mantissa_: int, name_: str, symbol_: str, decimals_: int, _gaswei: int, _pricewei: int) ‑> NoneType

Execute underlying contract method via eth_call.

:param tx_params: transaction parameters :returns: the return value of the underlying method.

Expand source code
def block_send(self, comptroller_: str, interest_rate_model_: str, initial_exchange_rate_mantissa_: int, name_: str, symbol_: str, decimals_: int, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> None:
    """Execute underlying contract method via eth_call.

    :param tx_params: transaction parameters
    :returns: the return value of the underlying method.
    """
    _fn = self._underlying_method(comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_)
    try:

        _t = _fn.buildTransaction({
            'from': self._operate,
            'gas': _gaswei,
            'gasPrice': _pricewei
        })
        _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

        if _valeth > 0:
            _t['value'] = _valeth

        if _debugtx:
            print(f"======== Signing ✅ by {self._operate}")
            print(f"======== Transaction ✅ check")
            print(_t)

        if 'data' in _t:

            signed = self._web3_eth.account.sign_transaction(_t)
            txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
            tx_receipt = None
            if _receipList is True:
                print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                if _debugtx:
                    print("======== TX Result ✅")
                    print(tx_receipt)

            print(f"======== TX blockHash ✅")
            if tx_receipt is not None:
                print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
            else:
                print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

        if _receipList is False:
            time.sleep(self._wait)


    except ContractLogicError as er:
        print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: initialize")

    except ValueError as err:
        if "message" in err.args[0]:
            message = err.args[0]["message"]
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
        else:
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")
def build_transaction(self, comptroller_: str, interest_rate_model_: str, initial_exchange_rate_mantissa_: int, name_: str, symbol_: str, decimals_: int, tx_params: Union[TxParams, NoneType] = None) ‑> dict

Construct calldata to be used as input to the method.

Expand source code
def build_transaction(self, comptroller_: str, interest_rate_model_: str, initial_exchange_rate_mantissa_: int, name_: str, symbol_: str, decimals_: int, tx_params: Optional[TxParams] = None) -> dict:
    """Construct calldata to be used as input to the method."""
    (comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_) = self.validate_and_normalize_inputs(comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_).buildTransaction(tx_params.as_dict())
def estimate_gas(self, comptroller_: str, interest_rate_model_: str, initial_exchange_rate_mantissa_: int, name_: str, symbol_: str, decimals_: int, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, comptroller_: str, interest_rate_model_: str, initial_exchange_rate_mantissa_: int, name_: str, symbol_: str, decimals_: int, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    (comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_) = self.validate_and_normalize_inputs(comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_).estimateGas(tx_params.as_dict())
def send_transaction(self, comptroller_: str, interest_rate_model_: str, initial_exchange_rate_mantissa_: int, name_: str, symbol_: str, decimals_: int, tx_params: Union[TxParams, NoneType] = None) ‑> Union[hexbytes.main.HexBytes, bytes]

Execute underlying contract method via eth_sendTransaction.

:param tx_params: transaction parameters

Expand source code
def send_transaction(self, comptroller_: str, interest_rate_model_: str, initial_exchange_rate_mantissa_: int, name_: str, symbol_: str, decimals_: int, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
    """Execute underlying contract method via eth_sendTransaction.

    :param tx_params: transaction parameters
    """
    (comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_) = self.validate_and_normalize_inputs(comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_).transact(tx_params.as_dict())
def validate_and_normalize_inputs(self, comptroller_: str, interest_rate_model_: str, initial_exchange_rate_mantissa_: int, name_: str, symbol_: str, decimals_: int) ‑> 

Validate the inputs to the initialize method.

Expand source code
def validate_and_normalize_inputs(self, comptroller_: str, interest_rate_model_: str, initial_exchange_rate_mantissa_: int, name_: str, symbol_: str, decimals_: int) -> any:
    """Validate the inputs to the initialize method."""
    self.validator.assert_valid(
        method_name='initialize',
        parameter_name='comptroller_',
        argument_value=comptroller_,
    )
    comptroller_ = self.validate_and_checksum_address(comptroller_)
    self.validator.assert_valid(
        method_name='initialize',
        parameter_name='interestRateModel_',
        argument_value=interest_rate_model_,
    )
    interest_rate_model_ = self.validate_and_checksum_address(interest_rate_model_)
    self.validator.assert_valid(
        method_name='initialize',
        parameter_name='initialExchangeRateMantissa_',
        argument_value=initial_exchange_rate_mantissa_,
    )
    # safeguard against fractional inputs
    initial_exchange_rate_mantissa_ = int(initial_exchange_rate_mantissa_)
    self.validator.assert_valid(
        method_name='initialize',
        parameter_name='name_',
        argument_value=name_,
    )
    self.validator.assert_valid(
        method_name='initialize',
        parameter_name='symbol_',
        argument_value=symbol_,
    )
    self.validator.assert_valid(
        method_name='initialize',
        parameter_name='decimals_',
        argument_value=decimals_,
    )
    return (comptroller_, interest_rate_model_, initial_exchange_rate_mantissa_, name_, symbol_, decimals_)

Inherited members

class InterestRateModelMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the interestRateModel method.

Persist instance data.

Expand source code
class InterestRateModelMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the interestRateModel method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("interestRateModel")

    def block_call(self, debug: bool = False) -> str:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return str(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_call(self, debug: bool = False) ‑> str
Expand source code
def block_call(self, debug: bool = False) -> str:
    _fn = self._underlying_method()
    returned = _fn.call({
        'from': self._operate
    })
    return str(returned)
def estimate_gas(self, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().estimateGas(tx_params.as_dict())

Inherited members

class IsCTokenMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the isCToken method.

Persist instance data.

Expand source code
class IsCTokenMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the isCToken method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("isCToken")

    def block_call(self, debug: bool = False) -> bool:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return bool(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_call(self, debug: bool = False) ‑> bool
Expand source code
def block_call(self, debug: bool = False) -> bool:
    _fn = self._underlying_method()
    returned = _fn.call({
        'from': self._operate
    })
    return bool(returned)
def estimate_gas(self, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().estimateGas(tx_params.as_dict())

Inherited members

class NameMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the name method.

Persist instance data.

Expand source code
class NameMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the name method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("name")

    def block_call(self, debug: bool = False) -> str:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return str(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_call(self, debug: bool = False) ‑> str
Expand source code
def block_call(self, debug: bool = False) -> str:
    _fn = self._underlying_method()
    returned = _fn.call({
        'from': self._operate
    })
    return str(returned)
def estimate_gas(self, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().estimateGas(tx_params.as_dict())

Inherited members

class PendingAdminMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the pendingAdmin method.

Persist instance data.

Expand source code
class PendingAdminMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the pendingAdmin method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("pendingAdmin")

    def block_call(self, debug: bool = False) -> str:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return str(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_call(self, debug: bool = False) ‑> str
Expand source code
def block_call(self, debug: bool = False) -> str:
    _fn = self._underlying_method()
    returned = _fn.call({
        'from': self._operate
    })
    return str(returned)
def estimate_gas(self, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().estimateGas(tx_params.as_dict())

Inherited members

class ProtocolSeizeShareMantissaMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the protocolSeizeShareMantissa method.

Persist instance data.

Expand source code
class ProtocolSeizeShareMantissaMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the protocolSeizeShareMantissa method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("protocolSeizeShareMantissa")

    def block_call(self, debug: bool = False) -> int:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_call(self, debug: bool = False) ‑> int
Expand source code
def block_call(self, debug: bool = False) -> int:
    _fn = self._underlying_method()
    returned = _fn.call({
        'from': self._operate
    })
    return int(returned)
def estimate_gas(self, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().estimateGas(tx_params.as_dict())

Inherited members

class ReduceReserves_Method (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the _reduceReserves method.

Persist instance data.

Expand source code
class ReduceReserves_Method(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the _reduceReserves method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("_reduceReserves")

    def validate_and_normalize_inputs(self, reduce_amount: int) -> any:
        """Validate the inputs to the _reduceReserves method."""
        self.validator.assert_valid(
            method_name='_reduceReserves',
            parameter_name='reduceAmount',
            argument_value=reduce_amount,
        )
        # safeguard against fractional inputs
        reduce_amount = int(reduce_amount)
        return (reduce_amount)

    def block_send(self, reduce_amount: int, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method(reduce_amount)
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: reduce_reserves_")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, reduce_amount: int, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        (reduce_amount) = self.validate_and_normalize_inputs(reduce_amount)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(reduce_amount).transact(tx_params.as_dict())

    def build_transaction(self, reduce_amount: int, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        (reduce_amount) = self.validate_and_normalize_inputs(reduce_amount)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(reduce_amount).buildTransaction(tx_params.as_dict())

    def estimate_gas(self, reduce_amount: int, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (reduce_amount) = self.validate_and_normalize_inputs(reduce_amount)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(reduce_amount).estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_send(self, reduce_amount: int, _gaswei: int, _pricewei: int) ‑> int

Execute underlying contract method via eth_call.

:param tx_params: transaction parameters :returns: the return value of the underlying method.

Expand source code
def block_send(self, reduce_amount: int, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
    """Execute underlying contract method via eth_call.

    :param tx_params: transaction parameters
    :returns: the return value of the underlying method.
    """
    _fn = self._underlying_method(reduce_amount)
    try:

        _t = _fn.buildTransaction({
            'from': self._operate,
            'gas': _gaswei,
            'gasPrice': _pricewei
        })
        _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

        if _valeth > 0:
            _t['value'] = _valeth

        if _debugtx:
            print(f"======== Signing ✅ by {self._operate}")
            print(f"======== Transaction ✅ check")
            print(_t)

        if 'data' in _t:

            signed = self._web3_eth.account.sign_transaction(_t)
            txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
            tx_receipt = None
            if _receipList is True:
                print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                if _debugtx:
                    print("======== TX Result ✅")
                    print(tx_receipt)

            print(f"======== TX blockHash ✅")
            if tx_receipt is not None:
                print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
            else:
                print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

        if _receipList is False:
            time.sleep(self._wait)


    except ContractLogicError as er:
        print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: reduce_reserves_")

    except ValueError as err:
        if "message" in err.args[0]:
            message = err.args[0]["message"]
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
        else:
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")
def build_transaction(self, reduce_amount: int, tx_params: Union[TxParams, NoneType] = None) ‑> dict

Construct calldata to be used as input to the method.

Expand source code
def build_transaction(self, reduce_amount: int, tx_params: Optional[TxParams] = None) -> dict:
    """Construct calldata to be used as input to the method."""
    (reduce_amount) = self.validate_and_normalize_inputs(reduce_amount)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(reduce_amount).buildTransaction(tx_params.as_dict())
def estimate_gas(self, reduce_amount: int, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, reduce_amount: int, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    (reduce_amount) = self.validate_and_normalize_inputs(reduce_amount)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(reduce_amount).estimateGas(tx_params.as_dict())
def send_transaction(self, reduce_amount: int, tx_params: Union[TxParams, NoneType] = None) ‑> Union[hexbytes.main.HexBytes, bytes]

Execute underlying contract method via eth_sendTransaction.

:param tx_params: transaction parameters

Expand source code
def send_transaction(self, reduce_amount: int, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
    """Execute underlying contract method via eth_sendTransaction.

    :param tx_params: transaction parameters
    """
    (reduce_amount) = self.validate_and_normalize_inputs(reduce_amount)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(reduce_amount).transact(tx_params.as_dict())
def validate_and_normalize_inputs(self, reduce_amount: int) ‑> 

Validate the inputs to the _reduceReserves method.

Expand source code
def validate_and_normalize_inputs(self, reduce_amount: int) -> any:
    """Validate the inputs to the _reduceReserves method."""
    self.validator.assert_valid(
        method_name='_reduceReserves',
        parameter_name='reduceAmount',
        argument_value=reduce_amount,
    )
    # safeguard against fractional inputs
    reduce_amount = int(reduce_amount)
    return (reduce_amount)

Inherited members

class ReserveFactorMantissaMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the reserveFactorMantissa method.

Persist instance data.

Expand source code
class ReserveFactorMantissaMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the reserveFactorMantissa method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("reserveFactorMantissa")

    def block_call(self, debug: bool = False) -> int:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_call(self, debug: bool = False) ‑> int
Expand source code
def block_call(self, debug: bool = False) -> int:
    _fn = self._underlying_method()
    returned = _fn.call({
        'from': self._operate
    })
    return int(returned)
def estimate_gas(self, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().estimateGas(tx_params.as_dict())

Inherited members

class SeizeMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the seize method.

Persist instance data.

Expand source code
class SeizeMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the seize method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("seize")

    def validate_and_normalize_inputs(self, liquidator: str, borrower: str, seize_tokens: int) -> any:
        """Validate the inputs to the seize method."""
        self.validator.assert_valid(
            method_name='seize',
            parameter_name='liquidator',
            argument_value=liquidator,
        )
        liquidator = self.validate_and_checksum_address(liquidator)
        self.validator.assert_valid(
            method_name='seize',
            parameter_name='borrower',
            argument_value=borrower,
        )
        borrower = self.validate_and_checksum_address(borrower)
        self.validator.assert_valid(
            method_name='seize',
            parameter_name='seizeTokens',
            argument_value=seize_tokens,
        )
        # safeguard against fractional inputs
        seize_tokens = int(seize_tokens)
        return (liquidator, borrower, seize_tokens)

    def block_send(self, liquidator: str, borrower: str, seize_tokens: int, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method(liquidator, borrower, seize_tokens)
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: seize")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, liquidator: str, borrower: str, seize_tokens: int, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        (liquidator, borrower, seize_tokens) = self.validate_and_normalize_inputs(liquidator, borrower, seize_tokens)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(liquidator, borrower, seize_tokens).transact(tx_params.as_dict())

    def build_transaction(self, liquidator: str, borrower: str, seize_tokens: int, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        (liquidator, borrower, seize_tokens) = self.validate_and_normalize_inputs(liquidator, borrower, seize_tokens)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(liquidator, borrower, seize_tokens).buildTransaction(tx_params.as_dict())

    def estimate_gas(self, liquidator: str, borrower: str, seize_tokens: int, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (liquidator, borrower, seize_tokens) = self.validate_and_normalize_inputs(liquidator, borrower, seize_tokens)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(liquidator, borrower, seize_tokens).estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_send(self, liquidator: str, borrower: str, seize_tokens: int, _gaswei: int, _pricewei: int) ‑> int

Execute underlying contract method via eth_call.

:param tx_params: transaction parameters :returns: the return value of the underlying method.

Expand source code
def block_send(self, liquidator: str, borrower: str, seize_tokens: int, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
    """Execute underlying contract method via eth_call.

    :param tx_params: transaction parameters
    :returns: the return value of the underlying method.
    """
    _fn = self._underlying_method(liquidator, borrower, seize_tokens)
    try:

        _t = _fn.buildTransaction({
            'from': self._operate,
            'gas': _gaswei,
            'gasPrice': _pricewei
        })
        _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

        if _valeth > 0:
            _t['value'] = _valeth

        if _debugtx:
            print(f"======== Signing ✅ by {self._operate}")
            print(f"======== Transaction ✅ check")
            print(_t)

        if 'data' in _t:

            signed = self._web3_eth.account.sign_transaction(_t)
            txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
            tx_receipt = None
            if _receipList is True:
                print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                if _debugtx:
                    print("======== TX Result ✅")
                    print(tx_receipt)

            print(f"======== TX blockHash ✅")
            if tx_receipt is not None:
                print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
            else:
                print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

        if _receipList is False:
            time.sleep(self._wait)


    except ContractLogicError as er:
        print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: seize")

    except ValueError as err:
        if "message" in err.args[0]:
            message = err.args[0]["message"]
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
        else:
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")
def build_transaction(self, liquidator: str, borrower: str, seize_tokens: int, tx_params: Union[TxParams, NoneType] = None) ‑> dict

Construct calldata to be used as input to the method.

Expand source code
def build_transaction(self, liquidator: str, borrower: str, seize_tokens: int, tx_params: Optional[TxParams] = None) -> dict:
    """Construct calldata to be used as input to the method."""
    (liquidator, borrower, seize_tokens) = self.validate_and_normalize_inputs(liquidator, borrower, seize_tokens)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(liquidator, borrower, seize_tokens).buildTransaction(tx_params.as_dict())
def estimate_gas(self, liquidator: str, borrower: str, seize_tokens: int, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, liquidator: str, borrower: str, seize_tokens: int, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    (liquidator, borrower, seize_tokens) = self.validate_and_normalize_inputs(liquidator, borrower, seize_tokens)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(liquidator, borrower, seize_tokens).estimateGas(tx_params.as_dict())
def send_transaction(self, liquidator: str, borrower: str, seize_tokens: int, tx_params: Union[TxParams, NoneType] = None) ‑> Union[hexbytes.main.HexBytes, bytes]

Execute underlying contract method via eth_sendTransaction.

:param tx_params: transaction parameters

Expand source code
def send_transaction(self, liquidator: str, borrower: str, seize_tokens: int, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
    """Execute underlying contract method via eth_sendTransaction.

    :param tx_params: transaction parameters
    """
    (liquidator, borrower, seize_tokens) = self.validate_and_normalize_inputs(liquidator, borrower, seize_tokens)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(liquidator, borrower, seize_tokens).transact(tx_params.as_dict())
def validate_and_normalize_inputs(self, liquidator: str, borrower: str, seize_tokens: int) ‑> 

Validate the inputs to the seize method.

Expand source code
def validate_and_normalize_inputs(self, liquidator: str, borrower: str, seize_tokens: int) -> any:
    """Validate the inputs to the seize method."""
    self.validator.assert_valid(
        method_name='seize',
        parameter_name='liquidator',
        argument_value=liquidator,
    )
    liquidator = self.validate_and_checksum_address(liquidator)
    self.validator.assert_valid(
        method_name='seize',
        parameter_name='borrower',
        argument_value=borrower,
    )
    borrower = self.validate_and_checksum_address(borrower)
    self.validator.assert_valid(
        method_name='seize',
        parameter_name='seizeTokens',
        argument_value=seize_tokens,
    )
    # safeguard against fractional inputs
    seize_tokens = int(seize_tokens)
    return (liquidator, borrower, seize_tokens)

Inherited members

class SetComptroller_Method (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the _setComptroller method.

Persist instance data.

Expand source code
class SetComptroller_Method(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the _setComptroller method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("_setComptroller")

    def validate_and_normalize_inputs(self, new_comptroller: str) -> any:
        """Validate the inputs to the _setComptroller method."""
        self.validator.assert_valid(
            method_name='_setComptroller',
            parameter_name='newComptroller',
            argument_value=new_comptroller,
        )
        new_comptroller = self.validate_and_checksum_address(new_comptroller)
        return (new_comptroller)

    def block_send(self, new_comptroller: str, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method(new_comptroller)
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: set_comptroller_")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, new_comptroller: str, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        (new_comptroller) = self.validate_and_normalize_inputs(new_comptroller)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(new_comptroller).transact(tx_params.as_dict())

    def build_transaction(self, new_comptroller: str, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        (new_comptroller) = self.validate_and_normalize_inputs(new_comptroller)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(new_comptroller).buildTransaction(tx_params.as_dict())

    def estimate_gas(self, new_comptroller: str, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (new_comptroller) = self.validate_and_normalize_inputs(new_comptroller)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(new_comptroller).estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_send(self, new_comptroller: str, _gaswei: int, _pricewei: int) ‑> int

Execute underlying contract method via eth_call.

:param tx_params: transaction parameters :returns: the return value of the underlying method.

Expand source code
def block_send(self, new_comptroller: str, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
    """Execute underlying contract method via eth_call.

    :param tx_params: transaction parameters
    :returns: the return value of the underlying method.
    """
    _fn = self._underlying_method(new_comptroller)
    try:

        _t = _fn.buildTransaction({
            'from': self._operate,
            'gas': _gaswei,
            'gasPrice': _pricewei
        })
        _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

        if _valeth > 0:
            _t['value'] = _valeth

        if _debugtx:
            print(f"======== Signing ✅ by {self._operate}")
            print(f"======== Transaction ✅ check")
            print(_t)

        if 'data' in _t:

            signed = self._web3_eth.account.sign_transaction(_t)
            txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
            tx_receipt = None
            if _receipList is True:
                print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                if _debugtx:
                    print("======== TX Result ✅")
                    print(tx_receipt)

            print(f"======== TX blockHash ✅")
            if tx_receipt is not None:
                print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
            else:
                print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

        if _receipList is False:
            time.sleep(self._wait)


    except ContractLogicError as er:
        print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: set_comptroller_")

    except ValueError as err:
        if "message" in err.args[0]:
            message = err.args[0]["message"]
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
        else:
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")
def build_transaction(self, new_comptroller: str, tx_params: Union[TxParams, NoneType] = None) ‑> dict

Construct calldata to be used as input to the method.

Expand source code
def build_transaction(self, new_comptroller: str, tx_params: Optional[TxParams] = None) -> dict:
    """Construct calldata to be used as input to the method."""
    (new_comptroller) = self.validate_and_normalize_inputs(new_comptroller)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(new_comptroller).buildTransaction(tx_params.as_dict())
def estimate_gas(self, new_comptroller: str, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, new_comptroller: str, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    (new_comptroller) = self.validate_and_normalize_inputs(new_comptroller)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(new_comptroller).estimateGas(tx_params.as_dict())
def send_transaction(self, new_comptroller: str, tx_params: Union[TxParams, NoneType] = None) ‑> Union[hexbytes.main.HexBytes, bytes]

Execute underlying contract method via eth_sendTransaction.

:param tx_params: transaction parameters

Expand source code
def send_transaction(self, new_comptroller: str, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
    """Execute underlying contract method via eth_sendTransaction.

    :param tx_params: transaction parameters
    """
    (new_comptroller) = self.validate_and_normalize_inputs(new_comptroller)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(new_comptroller).transact(tx_params.as_dict())
def validate_and_normalize_inputs(self, new_comptroller: str) ‑> 

Validate the inputs to the _setComptroller method.

Expand source code
def validate_and_normalize_inputs(self, new_comptroller: str) -> any:
    """Validate the inputs to the _setComptroller method."""
    self.validator.assert_valid(
        method_name='_setComptroller',
        parameter_name='newComptroller',
        argument_value=new_comptroller,
    )
    new_comptroller = self.validate_and_checksum_address(new_comptroller)
    return (new_comptroller)

Inherited members

class SetInterestRateModel_Method (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the _setInterestRateModel method.

Persist instance data.

Expand source code
class SetInterestRateModel_Method(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the _setInterestRateModel method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("_setInterestRateModel")

    def validate_and_normalize_inputs(self, new_interest_rate_model: str) -> any:
        """Validate the inputs to the _setInterestRateModel method."""
        self.validator.assert_valid(
            method_name='_setInterestRateModel',
            parameter_name='newInterestRateModel',
            argument_value=new_interest_rate_model,
        )
        new_interest_rate_model = self.validate_and_checksum_address(new_interest_rate_model)
        return (new_interest_rate_model)

    def block_send(self, new_interest_rate_model: str, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method(new_interest_rate_model)
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: set_interest_rate_model_")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, new_interest_rate_model: str, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        (new_interest_rate_model) = self.validate_and_normalize_inputs(new_interest_rate_model)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(new_interest_rate_model).transact(tx_params.as_dict())

    def build_transaction(self, new_interest_rate_model: str, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        (new_interest_rate_model) = self.validate_and_normalize_inputs(new_interest_rate_model)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(new_interest_rate_model).buildTransaction(tx_params.as_dict())

    def estimate_gas(self, new_interest_rate_model: str, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (new_interest_rate_model) = self.validate_and_normalize_inputs(new_interest_rate_model)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(new_interest_rate_model).estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_send(self, new_interest_rate_model: str, _gaswei: int, _pricewei: int) ‑> int

Execute underlying contract method via eth_call.

:param tx_params: transaction parameters :returns: the return value of the underlying method.

Expand source code
def block_send(self, new_interest_rate_model: str, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
    """Execute underlying contract method via eth_call.

    :param tx_params: transaction parameters
    :returns: the return value of the underlying method.
    """
    _fn = self._underlying_method(new_interest_rate_model)
    try:

        _t = _fn.buildTransaction({
            'from': self._operate,
            'gas': _gaswei,
            'gasPrice': _pricewei
        })
        _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

        if _valeth > 0:
            _t['value'] = _valeth

        if _debugtx:
            print(f"======== Signing ✅ by {self._operate}")
            print(f"======== Transaction ✅ check")
            print(_t)

        if 'data' in _t:

            signed = self._web3_eth.account.sign_transaction(_t)
            txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
            tx_receipt = None
            if _receipList is True:
                print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                if _debugtx:
                    print("======== TX Result ✅")
                    print(tx_receipt)

            print(f"======== TX blockHash ✅")
            if tx_receipt is not None:
                print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
            else:
                print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

        if _receipList is False:
            time.sleep(self._wait)


    except ContractLogicError as er:
        print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: set_interest_rate_model_")

    except ValueError as err:
        if "message" in err.args[0]:
            message = err.args[0]["message"]
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
        else:
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")
def build_transaction(self, new_interest_rate_model: str, tx_params: Union[TxParams, NoneType] = None) ‑> dict

Construct calldata to be used as input to the method.

Expand source code
def build_transaction(self, new_interest_rate_model: str, tx_params: Optional[TxParams] = None) -> dict:
    """Construct calldata to be used as input to the method."""
    (new_interest_rate_model) = self.validate_and_normalize_inputs(new_interest_rate_model)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(new_interest_rate_model).buildTransaction(tx_params.as_dict())
def estimate_gas(self, new_interest_rate_model: str, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, new_interest_rate_model: str, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    (new_interest_rate_model) = self.validate_and_normalize_inputs(new_interest_rate_model)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(new_interest_rate_model).estimateGas(tx_params.as_dict())
def send_transaction(self, new_interest_rate_model: str, tx_params: Union[TxParams, NoneType] = None) ‑> Union[hexbytes.main.HexBytes, bytes]

Execute underlying contract method via eth_sendTransaction.

:param tx_params: transaction parameters

Expand source code
def send_transaction(self, new_interest_rate_model: str, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
    """Execute underlying contract method via eth_sendTransaction.

    :param tx_params: transaction parameters
    """
    (new_interest_rate_model) = self.validate_and_normalize_inputs(new_interest_rate_model)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(new_interest_rate_model).transact(tx_params.as_dict())
def validate_and_normalize_inputs(self, new_interest_rate_model: str) ‑> 

Validate the inputs to the _setInterestRateModel method.

Expand source code
def validate_and_normalize_inputs(self, new_interest_rate_model: str) -> any:
    """Validate the inputs to the _setInterestRateModel method."""
    self.validator.assert_valid(
        method_name='_setInterestRateModel',
        parameter_name='newInterestRateModel',
        argument_value=new_interest_rate_model,
    )
    new_interest_rate_model = self.validate_and_checksum_address(new_interest_rate_model)
    return (new_interest_rate_model)

Inherited members

class SetPendingAdmin_Method (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the _setPendingAdmin method.

Persist instance data.

Expand source code
class SetPendingAdmin_Method(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the _setPendingAdmin method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("_setPendingAdmin")

    def validate_and_normalize_inputs(self, new_pending_admin: str) -> any:
        """Validate the inputs to the _setPendingAdmin method."""
        self.validator.assert_valid(
            method_name='_setPendingAdmin',
            parameter_name='newPendingAdmin',
            argument_value=new_pending_admin,
        )
        new_pending_admin = self.validate_and_checksum_address(new_pending_admin)
        return (new_pending_admin)

    def block_send(self, new_pending_admin: str, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method(new_pending_admin)
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: set_pending_admin_")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, new_pending_admin: str, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        (new_pending_admin) = self.validate_and_normalize_inputs(new_pending_admin)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(new_pending_admin).transact(tx_params.as_dict())

    def build_transaction(self, new_pending_admin: str, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        (new_pending_admin) = self.validate_and_normalize_inputs(new_pending_admin)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(new_pending_admin).buildTransaction(tx_params.as_dict())

    def estimate_gas(self, new_pending_admin: str, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (new_pending_admin) = self.validate_and_normalize_inputs(new_pending_admin)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(new_pending_admin).estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_send(self, new_pending_admin: str, _gaswei: int, _pricewei: int) ‑> int

Execute underlying contract method via eth_call.

:param tx_params: transaction parameters :returns: the return value of the underlying method.

Expand source code
def block_send(self, new_pending_admin: str, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
    """Execute underlying contract method via eth_call.

    :param tx_params: transaction parameters
    :returns: the return value of the underlying method.
    """
    _fn = self._underlying_method(new_pending_admin)
    try:

        _t = _fn.buildTransaction({
            'from': self._operate,
            'gas': _gaswei,
            'gasPrice': _pricewei
        })
        _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

        if _valeth > 0:
            _t['value'] = _valeth

        if _debugtx:
            print(f"======== Signing ✅ by {self._operate}")
            print(f"======== Transaction ✅ check")
            print(_t)

        if 'data' in _t:

            signed = self._web3_eth.account.sign_transaction(_t)
            txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
            tx_receipt = None
            if _receipList is True:
                print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                if _debugtx:
                    print("======== TX Result ✅")
                    print(tx_receipt)

            print(f"======== TX blockHash ✅")
            if tx_receipt is not None:
                print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
            else:
                print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

        if _receipList is False:
            time.sleep(self._wait)


    except ContractLogicError as er:
        print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: set_pending_admin_")

    except ValueError as err:
        if "message" in err.args[0]:
            message = err.args[0]["message"]
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
        else:
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")
def build_transaction(self, new_pending_admin: str, tx_params: Union[TxParams, NoneType] = None) ‑> dict

Construct calldata to be used as input to the method.

Expand source code
def build_transaction(self, new_pending_admin: str, tx_params: Optional[TxParams] = None) -> dict:
    """Construct calldata to be used as input to the method."""
    (new_pending_admin) = self.validate_and_normalize_inputs(new_pending_admin)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(new_pending_admin).buildTransaction(tx_params.as_dict())
def estimate_gas(self, new_pending_admin: str, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, new_pending_admin: str, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    (new_pending_admin) = self.validate_and_normalize_inputs(new_pending_admin)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(new_pending_admin).estimateGas(tx_params.as_dict())
def send_transaction(self, new_pending_admin: str, tx_params: Union[TxParams, NoneType] = None) ‑> Union[hexbytes.main.HexBytes, bytes]

Execute underlying contract method via eth_sendTransaction.

:param tx_params: transaction parameters

Expand source code
def send_transaction(self, new_pending_admin: str, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
    """Execute underlying contract method via eth_sendTransaction.

    :param tx_params: transaction parameters
    """
    (new_pending_admin) = self.validate_and_normalize_inputs(new_pending_admin)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(new_pending_admin).transact(tx_params.as_dict())
def validate_and_normalize_inputs(self, new_pending_admin: str) ‑> 

Validate the inputs to the _setPendingAdmin method.

Expand source code
def validate_and_normalize_inputs(self, new_pending_admin: str) -> any:
    """Validate the inputs to the _setPendingAdmin method."""
    self.validator.assert_valid(
        method_name='_setPendingAdmin',
        parameter_name='newPendingAdmin',
        argument_value=new_pending_admin,
    )
    new_pending_admin = self.validate_and_checksum_address(new_pending_admin)
    return (new_pending_admin)

Inherited members

class SetReserveFactor_Method (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the _setReserveFactor method.

Persist instance data.

Expand source code
class SetReserveFactor_Method(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the _setReserveFactor method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("_setReserveFactor")

    def validate_and_normalize_inputs(self, new_reserve_factor_mantissa: int) -> any:
        """Validate the inputs to the _setReserveFactor method."""
        self.validator.assert_valid(
            method_name='_setReserveFactor',
            parameter_name='newReserveFactorMantissa',
            argument_value=new_reserve_factor_mantissa,
        )
        # safeguard against fractional inputs
        new_reserve_factor_mantissa = int(new_reserve_factor_mantissa)
        return (new_reserve_factor_mantissa)

    def block_send(self, new_reserve_factor_mantissa: int, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method(new_reserve_factor_mantissa)
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: set_reserve_factor_")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, new_reserve_factor_mantissa: int, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        (new_reserve_factor_mantissa) = self.validate_and_normalize_inputs(new_reserve_factor_mantissa)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(new_reserve_factor_mantissa).transact(tx_params.as_dict())

    def build_transaction(self, new_reserve_factor_mantissa: int, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        (new_reserve_factor_mantissa) = self.validate_and_normalize_inputs(new_reserve_factor_mantissa)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(new_reserve_factor_mantissa).buildTransaction(tx_params.as_dict())

    def estimate_gas(self, new_reserve_factor_mantissa: int, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (new_reserve_factor_mantissa) = self.validate_and_normalize_inputs(new_reserve_factor_mantissa)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(new_reserve_factor_mantissa).estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_send(self, new_reserve_factor_mantissa: int, _gaswei: int, _pricewei: int) ‑> int

Execute underlying contract method via eth_call.

:param tx_params: transaction parameters :returns: the return value of the underlying method.

Expand source code
def block_send(self, new_reserve_factor_mantissa: int, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
    """Execute underlying contract method via eth_call.

    :param tx_params: transaction parameters
    :returns: the return value of the underlying method.
    """
    _fn = self._underlying_method(new_reserve_factor_mantissa)
    try:

        _t = _fn.buildTransaction({
            'from': self._operate,
            'gas': _gaswei,
            'gasPrice': _pricewei
        })
        _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

        if _valeth > 0:
            _t['value'] = _valeth

        if _debugtx:
            print(f"======== Signing ✅ by {self._operate}")
            print(f"======== Transaction ✅ check")
            print(_t)

        if 'data' in _t:

            signed = self._web3_eth.account.sign_transaction(_t)
            txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
            tx_receipt = None
            if _receipList is True:
                print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                if _debugtx:
                    print("======== TX Result ✅")
                    print(tx_receipt)

            print(f"======== TX blockHash ✅")
            if tx_receipt is not None:
                print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
            else:
                print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

        if _receipList is False:
            time.sleep(self._wait)


    except ContractLogicError as er:
        print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: set_reserve_factor_")

    except ValueError as err:
        if "message" in err.args[0]:
            message = err.args[0]["message"]
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
        else:
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")
def build_transaction(self, new_reserve_factor_mantissa: int, tx_params: Union[TxParams, NoneType] = None) ‑> dict

Construct calldata to be used as input to the method.

Expand source code
def build_transaction(self, new_reserve_factor_mantissa: int, tx_params: Optional[TxParams] = None) -> dict:
    """Construct calldata to be used as input to the method."""
    (new_reserve_factor_mantissa) = self.validate_and_normalize_inputs(new_reserve_factor_mantissa)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(new_reserve_factor_mantissa).buildTransaction(tx_params.as_dict())
def estimate_gas(self, new_reserve_factor_mantissa: int, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, new_reserve_factor_mantissa: int, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    (new_reserve_factor_mantissa) = self.validate_and_normalize_inputs(new_reserve_factor_mantissa)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(new_reserve_factor_mantissa).estimateGas(tx_params.as_dict())
def send_transaction(self, new_reserve_factor_mantissa: int, tx_params: Union[TxParams, NoneType] = None) ‑> Union[hexbytes.main.HexBytes, bytes]

Execute underlying contract method via eth_sendTransaction.

:param tx_params: transaction parameters

Expand source code
def send_transaction(self, new_reserve_factor_mantissa: int, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
    """Execute underlying contract method via eth_sendTransaction.

    :param tx_params: transaction parameters
    """
    (new_reserve_factor_mantissa) = self.validate_and_normalize_inputs(new_reserve_factor_mantissa)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(new_reserve_factor_mantissa).transact(tx_params.as_dict())
def validate_and_normalize_inputs(self, new_reserve_factor_mantissa: int) ‑> 

Validate the inputs to the _setReserveFactor method.

Expand source code
def validate_and_normalize_inputs(self, new_reserve_factor_mantissa: int) -> any:
    """Validate the inputs to the _setReserveFactor method."""
    self.validator.assert_valid(
        method_name='_setReserveFactor',
        parameter_name='newReserveFactorMantissa',
        argument_value=new_reserve_factor_mantissa,
    )
    # safeguard against fractional inputs
    new_reserve_factor_mantissa = int(new_reserve_factor_mantissa)
    return (new_reserve_factor_mantissa)

Inherited members

class SignatureGenerator (abi: )

The signature is generated for this and it is installed.

Expand source code
class SignatureGenerator(Signatures):
    """
        The signature is generated for this and it is installed.
    """

    def __init__(self, abi: any):
        super().__init__(abi)

    def accept_admin_(self) -> str:
        return self._function_signatures["_acceptAdmin"]

    def reduce_reserves_(self) -> str:
        return self._function_signatures["_reduceReserves"]

    def set_comptroller_(self) -> str:
        return self._function_signatures["_setComptroller"]

    def set_interest_rate_model_(self) -> str:
        return self._function_signatures["_setInterestRateModel"]

    def set_pending_admin_(self) -> str:
        return self._function_signatures["_setPendingAdmin"]

    def set_reserve_factor_(self) -> str:
        return self._function_signatures["_setReserveFactor"]

    def accrual_block_number(self) -> str:
        return self._function_signatures["accrualBlockNumber"]

    def accrue_interest(self) -> str:
        return self._function_signatures["accrueInterest"]

    def admin(self) -> str:
        return self._function_signatures["admin"]

    def allowance(self) -> str:
        return self._function_signatures["allowance"]

    def approve(self) -> str:
        return self._function_signatures["approve"]

    def balance_of(self) -> str:
        return self._function_signatures["balanceOf"]

    def balance_of_underlying(self) -> str:
        return self._function_signatures["balanceOfUnderlying"]

    def borrow_balance_current(self) -> str:
        return self._function_signatures["borrowBalanceCurrent"]

    def borrow_balance_stored(self) -> str:
        return self._function_signatures["borrowBalanceStored"]

    def borrow_index(self) -> str:
        return self._function_signatures["borrowIndex"]

    def borrow_rate_per_block(self) -> str:
        return self._function_signatures["borrowRatePerBlock"]

    def comptroller(self) -> str:
        return self._function_signatures["comptroller"]

    def decimals(self) -> str:
        return self._function_signatures["decimals"]

    def exchange_rate_current(self) -> str:
        return self._function_signatures["exchangeRateCurrent"]

    def exchange_rate_stored(self) -> str:
        return self._function_signatures["exchangeRateStored"]

    def get_account_snapshot(self) -> str:
        return self._function_signatures["getAccountSnapshot"]

    def get_cash(self) -> str:
        return self._function_signatures["getCash"]

    def initialize(self) -> str:
        return self._function_signatures["initialize"]

    def interest_rate_model(self) -> str:
        return self._function_signatures["interestRateModel"]

    def is_c_token(self) -> str:
        return self._function_signatures["isCToken"]

    def name(self) -> str:
        return self._function_signatures["name"]

    def pending_admin(self) -> str:
        return self._function_signatures["pendingAdmin"]

    def protocol_seize_share_mantissa(self) -> str:
        return self._function_signatures["protocolSeizeShareMantissa"]

    def reserve_factor_mantissa(self) -> str:
        return self._function_signatures["reserveFactorMantissa"]

    def seize(self) -> str:
        return self._function_signatures["seize"]

    def supply_rate_per_block(self) -> str:
        return self._function_signatures["supplyRatePerBlock"]

    def symbol(self) -> str:
        return self._function_signatures["symbol"]

    def total_borrows(self) -> str:
        return self._function_signatures["totalBorrows"]

    def total_borrows_current(self) -> str:
        return self._function_signatures["totalBorrowsCurrent"]

    def total_reserves(self) -> str:
        return self._function_signatures["totalReserves"]

    def total_supply(self) -> str:
        return self._function_signatures["totalSupply"]

    def transfer(self) -> str:
        return self._function_signatures["transfer"]

    def transfer_from(self) -> str:
        return self._function_signatures["transferFrom"]

Ancestors

Methods

def accept_admin_(self) ‑> str
Expand source code
def accept_admin_(self) -> str:
    return self._function_signatures["_acceptAdmin"]
def accrual_block_number(self) ‑> str
Expand source code
def accrual_block_number(self) -> str:
    return self._function_signatures["accrualBlockNumber"]
def accrue_interest(self) ‑> str
Expand source code
def accrue_interest(self) -> str:
    return self._function_signatures["accrueInterest"]
def admin(self) ‑> str
Expand source code
def admin(self) -> str:
    return self._function_signatures["admin"]
def allowance(self) ‑> str
Expand source code
def allowance(self) -> str:
    return self._function_signatures["allowance"]
def approve(self) ‑> str
Expand source code
def approve(self) -> str:
    return self._function_signatures["approve"]
def balance_of(self) ‑> str
Expand source code
def balance_of(self) -> str:
    return self._function_signatures["balanceOf"]
def balance_of_underlying(self) ‑> str
Expand source code
def balance_of_underlying(self) -> str:
    return self._function_signatures["balanceOfUnderlying"]
def borrow_balance_current(self) ‑> str
Expand source code
def borrow_balance_current(self) -> str:
    return self._function_signatures["borrowBalanceCurrent"]
def borrow_balance_stored(self) ‑> str
Expand source code
def borrow_balance_stored(self) -> str:
    return self._function_signatures["borrowBalanceStored"]
def borrow_index(self) ‑> str
Expand source code
def borrow_index(self) -> str:
    return self._function_signatures["borrowIndex"]
def borrow_rate_per_block(self) ‑> str
Expand source code
def borrow_rate_per_block(self) -> str:
    return self._function_signatures["borrowRatePerBlock"]
def comptroller(self) ‑> str
Expand source code
def comptroller(self) -> str:
    return self._function_signatures["comptroller"]
def decimals(self) ‑> str
Expand source code
def decimals(self) -> str:
    return self._function_signatures["decimals"]
def exchange_rate_current(self) ‑> str
Expand source code
def exchange_rate_current(self) -> str:
    return self._function_signatures["exchangeRateCurrent"]
def exchange_rate_stored(self) ‑> str
Expand source code
def exchange_rate_stored(self) -> str:
    return self._function_signatures["exchangeRateStored"]
def get_account_snapshot(self) ‑> str
Expand source code
def get_account_snapshot(self) -> str:
    return self._function_signatures["getAccountSnapshot"]
def get_cash(self) ‑> str
Expand source code
def get_cash(self) -> str:
    return self._function_signatures["getCash"]
def initialize(self) ‑> str
Expand source code
def initialize(self) -> str:
    return self._function_signatures["initialize"]
def interest_rate_model(self) ‑> str
Expand source code
def interest_rate_model(self) -> str:
    return self._function_signatures["interestRateModel"]
def is_c_token(self) ‑> str
Expand source code
def is_c_token(self) -> str:
    return self._function_signatures["isCToken"]
def name(self) ‑> str
Expand source code
def name(self) -> str:
    return self._function_signatures["name"]
def pending_admin(self) ‑> str
Expand source code
def pending_admin(self) -> str:
    return self._function_signatures["pendingAdmin"]
def protocol_seize_share_mantissa(self) ‑> str
Expand source code
def protocol_seize_share_mantissa(self) -> str:
    return self._function_signatures["protocolSeizeShareMantissa"]
def reduce_reserves_(self) ‑> str
Expand source code
def reduce_reserves_(self) -> str:
    return self._function_signatures["_reduceReserves"]
def reserve_factor_mantissa(self) ‑> str
Expand source code
def reserve_factor_mantissa(self) -> str:
    return self._function_signatures["reserveFactorMantissa"]
def seize(self) ‑> str
Expand source code
def seize(self) -> str:
    return self._function_signatures["seize"]
def set_comptroller_(self) ‑> str
Expand source code
def set_comptroller_(self) -> str:
    return self._function_signatures["_setComptroller"]
def set_interest_rate_model_(self) ‑> str
Expand source code
def set_interest_rate_model_(self) -> str:
    return self._function_signatures["_setInterestRateModel"]
def set_pending_admin_(self) ‑> str
Expand source code
def set_pending_admin_(self) -> str:
    return self._function_signatures["_setPendingAdmin"]
def set_reserve_factor_(self) ‑> str
Expand source code
def set_reserve_factor_(self) -> str:
    return self._function_signatures["_setReserveFactor"]
def supply_rate_per_block(self) ‑> str
Expand source code
def supply_rate_per_block(self) -> str:
    return self._function_signatures["supplyRatePerBlock"]
def symbol(self) ‑> str
Expand source code
def symbol(self) -> str:
    return self._function_signatures["symbol"]
def total_borrows(self) ‑> str
Expand source code
def total_borrows(self) -> str:
    return self._function_signatures["totalBorrows"]
def total_borrows_current(self) ‑> str
Expand source code
def total_borrows_current(self) -> str:
    return self._function_signatures["totalBorrowsCurrent"]
def total_reserves(self) ‑> str
Expand source code
def total_reserves(self) -> str:
    return self._function_signatures["totalReserves"]
def total_supply(self) ‑> str
Expand source code
def total_supply(self) -> str:
    return self._function_signatures["totalSupply"]
def transfer(self) ‑> str
Expand source code
def transfer(self) -> str:
    return self._function_signatures["transfer"]
def transfer_from(self) ‑> str
Expand source code
def transfer_from(self) -> str:
    return self._function_signatures["transferFrom"]
class SupplyRatePerBlockMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the supplyRatePerBlock method.

Persist instance data.

Expand source code
class SupplyRatePerBlockMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the supplyRatePerBlock method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("supplyRatePerBlock")

    def block_call(self, debug: bool = False) -> int:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_call(self, debug: bool = False) ‑> int
Expand source code
def block_call(self, debug: bool = False) -> int:
    _fn = self._underlying_method()
    returned = _fn.call({
        'from': self._operate
    })
    return int(returned)
def estimate_gas(self, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().estimateGas(tx_params.as_dict())

Inherited members

class SymbolMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the symbol method.

Persist instance data.

Expand source code
class SymbolMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the symbol method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("symbol")

    def block_call(self, debug: bool = False) -> str:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return str(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_call(self, debug: bool = False) ‑> str
Expand source code
def block_call(self, debug: bool = False) -> str:
    _fn = self._underlying_method()
    returned = _fn.call({
        'from': self._operate
    })
    return str(returned)
def estimate_gas(self, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().estimateGas(tx_params.as_dict())

Inherited members

class TotalBorrowsCurrentMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the totalBorrowsCurrent method.

Persist instance data.

Expand source code
class TotalBorrowsCurrentMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the totalBorrowsCurrent method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("totalBorrowsCurrent")

    def block_send(self, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method()
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: total_borrows_current")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().transact(tx_params.as_dict())

    def build_transaction(self, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().buildTransaction(tx_params.as_dict())

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_send(self, _gaswei: int, _pricewei: int) ‑> int

Execute underlying contract method via eth_call.

:param tx_params: transaction parameters :returns: the return value of the underlying method.

Expand source code
def block_send(self, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> int:
    """Execute underlying contract method via eth_call.

    :param tx_params: transaction parameters
    :returns: the return value of the underlying method.
    """
    _fn = self._underlying_method()
    try:

        _t = _fn.buildTransaction({
            'from': self._operate,
            'gas': _gaswei,
            'gasPrice': _pricewei
        })
        _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

        if _valeth > 0:
            _t['value'] = _valeth

        if _debugtx:
            print(f"======== Signing ✅ by {self._operate}")
            print(f"======== Transaction ✅ check")
            print(_t)

        if 'data' in _t:

            signed = self._web3_eth.account.sign_transaction(_t)
            txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
            tx_receipt = None
            if _receipList is True:
                print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                if _debugtx:
                    print("======== TX Result ✅")
                    print(tx_receipt)

            print(f"======== TX blockHash ✅")
            if tx_receipt is not None:
                print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
            else:
                print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

        if _receipList is False:
            time.sleep(self._wait)


    except ContractLogicError as er:
        print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: total_borrows_current")

    except ValueError as err:
        if "message" in err.args[0]:
            message = err.args[0]["message"]
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
        else:
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")
def build_transaction(self, tx_params: Union[TxParams, NoneType] = None) ‑> dict

Construct calldata to be used as input to the method.

Expand source code
def build_transaction(self, tx_params: Optional[TxParams] = None) -> dict:
    """Construct calldata to be used as input to the method."""
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().buildTransaction(tx_params.as_dict())
def estimate_gas(self, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().estimateGas(tx_params.as_dict())
def send_transaction(self, tx_params: Union[TxParams, NoneType] = None) ‑> Union[hexbytes.main.HexBytes, bytes]

Execute underlying contract method via eth_sendTransaction.

:param tx_params: transaction parameters

Expand source code
def send_transaction(self, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
    """Execute underlying contract method via eth_sendTransaction.

    :param tx_params: transaction parameters
    """
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().transact(tx_params.as_dict())

Inherited members

class TotalBorrowsMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the totalBorrows method.

Persist instance data.

Expand source code
class TotalBorrowsMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the totalBorrows method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("totalBorrows")

    def block_call(self, debug: bool = False) -> int:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_call(self, debug: bool = False) ‑> int
Expand source code
def block_call(self, debug: bool = False) -> int:
    _fn = self._underlying_method()
    returned = _fn.call({
        'from': self._operate
    })
    return int(returned)
def estimate_gas(self, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().estimateGas(tx_params.as_dict())

Inherited members

class TotalReservesMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the totalReserves method.

Persist instance data.

Expand source code
class TotalReservesMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the totalReserves method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("totalReserves")

    def block_call(self, debug: bool = False) -> int:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_call(self, debug: bool = False) ‑> int
Expand source code
def block_call(self, debug: bool = False) -> int:
    _fn = self._underlying_method()
    returned = _fn.call({
        'from': self._operate
    })
    return int(returned)
def estimate_gas(self, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().estimateGas(tx_params.as_dict())

Inherited members

class TotalSupplyMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the totalSupply method.

Persist instance data.

Expand source code
class TotalSupplyMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the totalSupply method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("totalSupply")

    def block_call(self, debug: bool = False) -> int:
        _fn = self._underlying_method()
        returned = _fn.call({
            'from': self._operate
        })
        return int(returned)

    def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method().estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_call(self, debug: bool = False) ‑> int
Expand source code
def block_call(self, debug: bool = False) -> int:
    _fn = self._underlying_method()
    returned = _fn.call({
        'from': self._operate
    })
    return int(returned)
def estimate_gas(self, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method().estimateGas(tx_params.as_dict())

Inherited members

class TransferFromMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the transferFrom method.

Persist instance data.

Expand source code
class TransferFromMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the transferFrom method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("transferFrom")

    def validate_and_normalize_inputs(self, src: str, dst: str, amount: int) -> any:
        """Validate the inputs to the transferFrom method."""
        self.validator.assert_valid(
            method_name='transferFrom',
            parameter_name='src',
            argument_value=src,
        )
        src = self.validate_and_checksum_address(src)
        self.validator.assert_valid(
            method_name='transferFrom',
            parameter_name='dst',
            argument_value=dst,
        )
        dst = self.validate_and_checksum_address(dst)
        self.validator.assert_valid(
            method_name='transferFrom',
            parameter_name='amount',
            argument_value=amount,
        )
        # safeguard against fractional inputs
        amount = int(amount)
        return (src, dst, amount)

    def block_send(self, src: str, dst: str, amount: int, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> bool:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method(src, dst, amount)
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: transfer_from")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, src: str, dst: str, amount: int, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        (src, dst, amount) = self.validate_and_normalize_inputs(src, dst, amount)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(src, dst, amount).transact(tx_params.as_dict())

    def build_transaction(self, src: str, dst: str, amount: int, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        (src, dst, amount) = self.validate_and_normalize_inputs(src, dst, amount)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(src, dst, amount).buildTransaction(tx_params.as_dict())

    def estimate_gas(self, src: str, dst: str, amount: int, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (src, dst, amount) = self.validate_and_normalize_inputs(src, dst, amount)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(src, dst, amount).estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_send(self, src: str, dst: str, amount: int, _gaswei: int, _pricewei: int) ‑> bool

Execute underlying contract method via eth_call.

:param tx_params: transaction parameters :returns: the return value of the underlying method.

Expand source code
def block_send(self, src: str, dst: str, amount: int, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> bool:
    """Execute underlying contract method via eth_call.

    :param tx_params: transaction parameters
    :returns: the return value of the underlying method.
    """
    _fn = self._underlying_method(src, dst, amount)
    try:

        _t = _fn.buildTransaction({
            'from': self._operate,
            'gas': _gaswei,
            'gasPrice': _pricewei
        })
        _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

        if _valeth > 0:
            _t['value'] = _valeth

        if _debugtx:
            print(f"======== Signing ✅ by {self._operate}")
            print(f"======== Transaction ✅ check")
            print(_t)

        if 'data' in _t:

            signed = self._web3_eth.account.sign_transaction(_t)
            txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
            tx_receipt = None
            if _receipList is True:
                print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                if _debugtx:
                    print("======== TX Result ✅")
                    print(tx_receipt)

            print(f"======== TX blockHash ✅")
            if tx_receipt is not None:
                print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
            else:
                print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

        if _receipList is False:
            time.sleep(self._wait)


    except ContractLogicError as er:
        print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: transfer_from")

    except ValueError as err:
        if "message" in err.args[0]:
            message = err.args[0]["message"]
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
        else:
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")
def build_transaction(self, src: str, dst: str, amount: int, tx_params: Union[TxParams, NoneType] = None) ‑> dict

Construct calldata to be used as input to the method.

Expand source code
def build_transaction(self, src: str, dst: str, amount: int, tx_params: Optional[TxParams] = None) -> dict:
    """Construct calldata to be used as input to the method."""
    (src, dst, amount) = self.validate_and_normalize_inputs(src, dst, amount)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(src, dst, amount).buildTransaction(tx_params.as_dict())
def estimate_gas(self, src: str, dst: str, amount: int, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, src: str, dst: str, amount: int, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    (src, dst, amount) = self.validate_and_normalize_inputs(src, dst, amount)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(src, dst, amount).estimateGas(tx_params.as_dict())
def send_transaction(self, src: str, dst: str, amount: int, tx_params: Union[TxParams, NoneType] = None) ‑> Union[hexbytes.main.HexBytes, bytes]

Execute underlying contract method via eth_sendTransaction.

:param tx_params: transaction parameters

Expand source code
def send_transaction(self, src: str, dst: str, amount: int, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
    """Execute underlying contract method via eth_sendTransaction.

    :param tx_params: transaction parameters
    """
    (src, dst, amount) = self.validate_and_normalize_inputs(src, dst, amount)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(src, dst, amount).transact(tx_params.as_dict())
def validate_and_normalize_inputs(self, src: str, dst: str, amount: int) ‑> 

Validate the inputs to the transferFrom method.

Expand source code
def validate_and_normalize_inputs(self, src: str, dst: str, amount: int) -> any:
    """Validate the inputs to the transferFrom method."""
    self.validator.assert_valid(
        method_name='transferFrom',
        parameter_name='src',
        argument_value=src,
    )
    src = self.validate_and_checksum_address(src)
    self.validator.assert_valid(
        method_name='transferFrom',
        parameter_name='dst',
        argument_value=dst,
    )
    dst = self.validate_and_checksum_address(dst)
    self.validator.assert_valid(
        method_name='transferFrom',
        parameter_name='amount',
        argument_value=amount,
    )
    # safeguard against fractional inputs
    amount = int(amount)
    return (src, dst, amount)

Inherited members

class TransferMethod (elib: MiliDoS, contract_address: str, contract_function: web3.contract.ContractFunction, validator: Validator = None)

Various interfaces to the transfer method.

Persist instance data.

Expand source code
class TransferMethod(ContractMethod):  # pylint: disable=invalid-name
    """Various interfaces to the transfer method."""

    def __init__(self, elib: MiliDoS, contract_address: str, contract_function: ContractFunction, validator: Validator = None):
        """Persist instance data."""
        super().__init__(elib, contract_address, validator)
        self._underlying_method = contract_function
        self.sign = validator.getSignature("transfer")

    def validate_and_normalize_inputs(self, dst: str, amount: int) -> any:
        """Validate the inputs to the transfer method."""
        self.validator.assert_valid(
            method_name='transfer',
            parameter_name='dst',
            argument_value=dst,
        )
        dst = self.validate_and_checksum_address(dst)
        self.validator.assert_valid(
            method_name='transfer',
            parameter_name='amount',
            argument_value=amount,
        )
        # safeguard against fractional inputs
        amount = int(amount)
        return (dst, amount)

    def block_send(self, dst: str, amount: int, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> bool:
        """Execute underlying contract method via eth_call.

        :param tx_params: transaction parameters
        :returns: the return value of the underlying method.
        """
        _fn = self._underlying_method(dst, amount)
        try:

            _t = _fn.buildTransaction({
                'from': self._operate,
                'gas': _gaswei,
                'gasPrice': _pricewei
            })
            _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

            if _valeth > 0:
                _t['value'] = _valeth

            if _debugtx:
                print(f"======== Signing ✅ by {self._operate}")
                print(f"======== Transaction ✅ check")
                print(_t)

            if 'data' in _t:

                signed = self._web3_eth.account.sign_transaction(_t)
                txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
                tx_receipt = None
                if _receipList is True:
                    print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                    tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                    if _debugtx:
                        print("======== TX Result ✅")
                        print(tx_receipt)

                print(f"======== TX blockHash ✅")
                if tx_receipt is not None:
                    print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
                else:
                    print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

            if _receipList is False:
                time.sleep(self._wait)


        except ContractLogicError as er:
            print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: transfer")

        except ValueError as err:
            if "message" in err.args[0]:
                message = err.args[0]["message"]
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
            else:
                print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")

    def send_transaction(self, dst: str, amount: int, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
        """Execute underlying contract method via eth_sendTransaction.

        :param tx_params: transaction parameters
        """
        (dst, amount) = self.validate_and_normalize_inputs(dst, amount)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(dst, amount).transact(tx_params.as_dict())

    def build_transaction(self, dst: str, amount: int, tx_params: Optional[TxParams] = None) -> dict:
        """Construct calldata to be used as input to the method."""
        (dst, amount) = self.validate_and_normalize_inputs(dst, amount)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(dst, amount).buildTransaction(tx_params.as_dict())

    def estimate_gas(self, dst: str, amount: int, tx_params: Optional[TxParams] = None) -> int:
        """Estimate gas consumption of method call."""
        (dst, amount) = self.validate_and_normalize_inputs(dst, amount)
        tx_params = super().normalize_tx_params(tx_params)
        return self._underlying_method(dst, amount).estimateGas(tx_params.as_dict())

Ancestors

Methods

def block_send(self, dst: str, amount: int, _gaswei: int, _pricewei: int) ‑> bool

Execute underlying contract method via eth_call.

:param tx_params: transaction parameters :returns: the return value of the underlying method.

Expand source code
def block_send(self, dst: str, amount: int, _gaswei: int, _pricewei: int, _valeth: int = 0, _debugtx: bool = False, _receipList: bool = False) -> bool:
    """Execute underlying contract method via eth_call.

    :param tx_params: transaction parameters
    :returns: the return value of the underlying method.
    """
    _fn = self._underlying_method(dst, amount)
    try:

        _t = _fn.buildTransaction({
            'from': self._operate,
            'gas': _gaswei,
            'gasPrice': _pricewei
        })
        _t['nonce'] = self._web3_eth.getTransactionCount(self._operate)

        if _valeth > 0:
            _t['value'] = _valeth

        if _debugtx:
            print(f"======== Signing ✅ by {self._operate}")
            print(f"======== Transaction ✅ check")
            print(_t)

        if 'data' in _t:

            signed = self._web3_eth.account.sign_transaction(_t)
            txHash = self._web3_eth.sendRawTransaction(signed.rawTransaction)
            tx_receipt = None
            if _receipList is True:
                print(f"======== awaiting Confirmation 🚸️ {self.sign}")
                tx_receipt = self._web3_eth.waitForTransactionReceipt(txHash)
                if _debugtx:
                    print("======== TX Result ✅")
                    print(tx_receipt)

            print(f"======== TX blockHash ✅")
            if tx_receipt is not None:
                print(f"{Bolors.OK}{tx_receipt.blockHash.hex()}{Bolors.RESET}")
            else:
                print(f"{Bolors.WARNING}{txHash.hex()}{Bolors.RESET} - broadcast hash")

        if _receipList is False:
            time.sleep(self._wait)


    except ContractLogicError as er:
        print(f"{Bolors.FAIL}Error {er} {Bolors.RESET}: transfer")

    except ValueError as err:
        if "message" in err.args[0]:
            message = err.args[0]["message"]
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET} on set_asset_token: {message}")
        else:
            print(f"{Bolors.FAIL}Error Revert {Bolors.RESET}: set_asset_token")
def build_transaction(self, dst: str, amount: int, tx_params: Union[TxParams, NoneType] = None) ‑> dict

Construct calldata to be used as input to the method.

Expand source code
def build_transaction(self, dst: str, amount: int, tx_params: Optional[TxParams] = None) -> dict:
    """Construct calldata to be used as input to the method."""
    (dst, amount) = self.validate_and_normalize_inputs(dst, amount)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(dst, amount).buildTransaction(tx_params.as_dict())
def estimate_gas(self, dst: str, amount: int, tx_params: Union[TxParams, NoneType] = None) ‑> int

Estimate gas consumption of method call.

Expand source code
def estimate_gas(self, dst: str, amount: int, tx_params: Optional[TxParams] = None) -> int:
    """Estimate gas consumption of method call."""
    (dst, amount) = self.validate_and_normalize_inputs(dst, amount)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(dst, amount).estimateGas(tx_params.as_dict())
def send_transaction(self, dst: str, amount: int, tx_params: Union[TxParams, NoneType] = None) ‑> Union[hexbytes.main.HexBytes, bytes]

Execute underlying contract method via eth_sendTransaction.

:param tx_params: transaction parameters

Expand source code
def send_transaction(self, dst: str, amount: int, tx_params: Optional[TxParams] = None) -> Union[HexBytes, bytes]:
    """Execute underlying contract method via eth_sendTransaction.

    :param tx_params: transaction parameters
    """
    (dst, amount) = self.validate_and_normalize_inputs(dst, amount)
    tx_params = super().normalize_tx_params(tx_params)
    return self._underlying_method(dst, amount).transact(tx_params.as_dict())
def validate_and_normalize_inputs(self, dst: str, amount: int) ‑> 

Validate the inputs to the transfer method.

Expand source code
def validate_and_normalize_inputs(self, dst: str, amount: int) -> any:
    """Validate the inputs to the transfer method."""
    self.validator.assert_valid(
        method_name='transfer',
        parameter_name='dst',
        argument_value=dst,
    )
    dst = self.validate_and_checksum_address(dst)
    self.validator.assert_valid(
        method_name='transfer',
        parameter_name='amount',
        argument_value=amount,
    )
    # safeguard against fractional inputs
    amount = int(amount)
    return (dst, amount)

Inherited members