cartesi-rollups-contracts 2.2.0

/**

Generated by the following Solidity interface...
```solidity
interface IERC20Portal {
    error ERC20TransferFailed();

    function depositERC20Tokens(address token, address appContract, uint256 value, bytes memory execLayerData) external;
    function getInputBox() external view returns (address);
}
```

...which was generated by the following JSON ABI:
```json
[
  {
    "type": "function",
    "name": "depositERC20Tokens",
    "inputs": [
      {
        "name": "token",
        "type": "address",
        "internalType": "contract IERC20"
      },
      {
        "name": "appContract",
        "type": "address",
        "internalType": "address"
      },
      {
        "name": "value",
        "type": "uint256",
        "internalType": "uint256"
      },
      {
        "name": "execLayerData",
        "type": "bytes",
        "internalType": "bytes"
      }
    ],
    "outputs": [],
    "stateMutability": "nonpayable"
  },
  {
    "type": "function",
    "name": "getInputBox",
    "inputs": [],
    "outputs": [
      {
        "name": "",
        "type": "address",
        "internalType": "contract IInputBox"
      }
    ],
    "stateMutability": "view"
  },
  {
    "type": "error",
    "name": "ERC20TransferFailed",
    "inputs": []
  }
]
```*/
#[allow(
    non_camel_case_types,
    non_snake_case,
    clippy::pub_underscore_fields,
    clippy::style,
    clippy::empty_structs_with_brackets
)]
pub mod IERC20Portal {
    use super::*;
    use alloy::sol_types as alloy_sol_types;
    /// The creation / init bytecode of the contract.
    ///
    /// ```text
    ///0x
    /// ```
    #[rustfmt::skip]
    #[allow(clippy::all)]
    pub static BYTECODE: alloy_sol_types::private::Bytes = alloy_sol_types::private::Bytes::from_static(
        b"",
    );
    /// The runtime bytecode of the contract, as deployed on the network.
    ///
    /// ```text
    ///0x
    /// ```
    #[rustfmt::skip]
    #[allow(clippy::all)]
    pub static DEPLOYED_BYTECODE: alloy_sol_types::private::Bytes = alloy_sol_types::private::Bytes::from_static(
        b"",
    );
    #[derive(serde::Serialize, serde::Deserialize)]
    #[derive(Default, Debug, PartialEq, Eq, Hash)]
    /**Custom error with signature `ERC20TransferFailed()` and selector `0xf27f64e4`.
```solidity
error ERC20TransferFailed();
```*/
    #[allow(non_camel_case_types, non_snake_case, clippy::pub_underscore_fields)]
    #[derive(Clone)]
    pub struct ERC20TransferFailed;
    #[allow(
        non_camel_case_types,
        non_snake_case,
        clippy::pub_underscore_fields,
        clippy::style
    )]
    const _: () = {
        use alloy::sol_types as alloy_sol_types;
        #[doc(hidden)]
        #[allow(dead_code)]
        type UnderlyingSolTuple<'a> = ();
        #[doc(hidden)]
        type UnderlyingRustTuple<'a> = ();
        #[cfg(test)]
        #[allow(dead_code, unreachable_patterns)]
        fn _type_assertion(
            _t: alloy_sol_types::private::AssertTypeEq<UnderlyingRustTuple>,
        ) {
            match _t {
                alloy_sol_types::private::AssertTypeEq::<
                    <UnderlyingSolTuple as alloy_sol_types::SolType>::RustType,
                >(_) => {}
            }
        }
        #[automatically_derived]
        #[doc(hidden)]
        impl ::core::convert::From<ERC20TransferFailed> for UnderlyingRustTuple<'_> {
            fn from(value: ERC20TransferFailed) -> Self {
                ()
            }
        }
        #[automatically_derived]
        #[doc(hidden)]
        impl ::core::convert::From<UnderlyingRustTuple<'_>> for ERC20TransferFailed {
            fn from(tuple: UnderlyingRustTuple<'_>) -> Self {
                Self
            }
        }
        #[automatically_derived]
        impl alloy_sol_types::SolError for ERC20TransferFailed {
            type Parameters<'a> = UnderlyingSolTuple<'a>;
            type Token<'a> = <Self::Parameters<
                'a,
            > as alloy_sol_types::SolType>::Token<'a>;
            const SIGNATURE: &'static str = "ERC20TransferFailed()";
            const SELECTOR: [u8; 4] = [242u8, 127u8, 100u8, 228u8];
            #[inline]
            fn new<'a>(
                tuple: <Self::Parameters<'a> as alloy_sol_types::SolType>::RustType,
            ) -> Self {
                tuple.into()
            }
            #[inline]
            fn tokenize(&self) -> Self::Token<'_> {
                ()
            }
            #[inline]
            fn abi_decode_raw_validate(data: &[u8]) -> alloy_sol_types::Result<Self> {
                <Self::Parameters<
                    '_,
                > as alloy_sol_types::SolType>::abi_decode_sequence_validate(data)
                    .map(Self::new)
            }
        }
    };
    #[derive(serde::Serialize, serde::Deserialize)]
    #[derive(Default, Debug, PartialEq, Eq, Hash)]
    /**Function with signature `depositERC20Tokens(address,address,uint256,bytes)` and selector `0x95854b81`.
```solidity
function depositERC20Tokens(address token, address appContract, uint256 value, bytes memory execLayerData) external;
```*/
    #[allow(non_camel_case_types, non_snake_case, clippy::pub_underscore_fields)]
    #[derive(Clone)]
    pub struct depositERC20TokensCall {
        #[allow(missing_docs)]
        pub token: alloy::sol_types::private::Address,
        #[allow(missing_docs)]
        pub appContract: alloy::sol_types::private::Address,
        #[allow(missing_docs)]
        pub value: alloy::sol_types::private::primitives::aliases::U256,
        #[allow(missing_docs)]
        pub execLayerData: alloy::sol_types::private::Bytes,
    }
    ///Container type for the return parameters of the [`depositERC20Tokens(address,address,uint256,bytes)`](depositERC20TokensCall) function.
    #[allow(non_camel_case_types, non_snake_case, clippy::pub_underscore_fields)]
    #[derive(Clone)]
    pub struct depositERC20TokensReturn {}
    #[allow(
        non_camel_case_types,
        non_snake_case,
        clippy::pub_underscore_fields,
        clippy::style
    )]
    const _: () = {
        use alloy::sol_types as alloy_sol_types;
        {
            #[doc(hidden)]
            #[allow(dead_code)]
            type UnderlyingSolTuple<'a> = (
                alloy::sol_types::sol_data::Address,
                alloy::sol_types::sol_data::Address,
                alloy::sol_types::sol_data::Uint<256>,
                alloy::sol_types::sol_data::Bytes,
            );
            #[doc(hidden)]
            type UnderlyingRustTuple<'a> = (
                alloy::sol_types::private::Address,
                alloy::sol_types::private::Address,
                alloy::sol_types::private::primitives::aliases::U256,
                alloy::sol_types::private::Bytes,
            );
            #[cfg(test)]
            #[allow(dead_code, unreachable_patterns)]
            fn _type_assertion(
                _t: alloy_sol_types::private::AssertTypeEq<UnderlyingRustTuple>,
            ) {
                match _t {
                    alloy_sol_types::private::AssertTypeEq::<
                        <UnderlyingSolTuple as alloy_sol_types::SolType>::RustType,
                    >(_) => {}
                }
            }
            #[automatically_derived]
            #[doc(hidden)]
            impl ::core::convert::From<depositERC20TokensCall>
            for UnderlyingRustTuple<'_> {
                fn from(value: depositERC20TokensCall) -> Self {
                    (value.token, value.appContract, value.value, value.execLayerData)
                }
            }
            #[automatically_derived]
            #[doc(hidden)]
            impl ::core::convert::From<UnderlyingRustTuple<'_>>
            for depositERC20TokensCall {
                fn from(tuple: UnderlyingRustTuple<'_>) -> Self {
                    Self {
                        token: tuple.0,
                        appContract: tuple.1,
                        value: tuple.2,
                        execLayerData: tuple.3,
                    }
                }
            }
        }
        {
            #[doc(hidden)]
            #[allow(dead_code)]
            type UnderlyingSolTuple<'a> = ();
            #[doc(hidden)]
            type UnderlyingRustTuple<'a> = ();
            #[cfg(test)]
            #[allow(dead_code, unreachable_patterns)]
            fn _type_assertion(
                _t: alloy_sol_types::private::AssertTypeEq<UnderlyingRustTuple>,
            ) {
                match _t {
                    alloy_sol_types::private::AssertTypeEq::<
                        <UnderlyingSolTuple as alloy_sol_types::SolType>::RustType,
                    >(_) => {}
                }
            }
            #[automatically_derived]
            #[doc(hidden)]
            impl ::core::convert::From<depositERC20TokensReturn>
            for UnderlyingRustTuple<'_> {
                fn from(value: depositERC20TokensReturn) -> Self {
                    ()
                }
            }
            #[automatically_derived]
            #[doc(hidden)]
            impl ::core::convert::From<UnderlyingRustTuple<'_>>
            for depositERC20TokensReturn {
                fn from(tuple: UnderlyingRustTuple<'_>) -> Self {
                    Self {}
                }
            }
        }
        impl depositERC20TokensReturn {
            fn _tokenize(
                &self,
            ) -> <depositERC20TokensCall as alloy_sol_types::SolCall>::ReturnToken<'_> {
                ()
            }
        }
        #[automatically_derived]
        impl alloy_sol_types::SolCall for depositERC20TokensCall {
            type Parameters<'a> = (
                alloy::sol_types::sol_data::Address,
                alloy::sol_types::sol_data::Address,
                alloy::sol_types::sol_data::Uint<256>,
                alloy::sol_types::sol_data::Bytes,
            );
            type Token<'a> = <Self::Parameters<
                'a,
            > as alloy_sol_types::SolType>::Token<'a>;
            type Return = depositERC20TokensReturn;
            type ReturnTuple<'a> = ();
            type ReturnToken<'a> = <Self::ReturnTuple<
                'a,
            > as alloy_sol_types::SolType>::Token<'a>;
            const SIGNATURE: &'static str = "depositERC20Tokens(address,address,uint256,bytes)";
            const SELECTOR: [u8; 4] = [149u8, 133u8, 75u8, 129u8];
            #[inline]
            fn new<'a>(
                tuple: <Self::Parameters<'a> as alloy_sol_types::SolType>::RustType,
            ) -> Self {
                tuple.into()
            }
            #[inline]
            fn tokenize(&self) -> Self::Token<'_> {
                (
                    <alloy::sol_types::sol_data::Address as alloy_sol_types::SolType>::tokenize(
                        &self.token,
                    ),
                    <alloy::sol_types::sol_data::Address as alloy_sol_types::SolType>::tokenize(
                        &self.appContract,
                    ),
                    <alloy::sol_types::sol_data::Uint<
                        256,
                    > as alloy_sol_types::SolType>::tokenize(&self.value),
                    <alloy::sol_types::sol_data::Bytes as alloy_sol_types::SolType>::tokenize(
                        &self.execLayerData,
                    ),
                )
            }
            #[inline]
            fn tokenize_returns(ret: &Self::Return) -> Self::ReturnToken<'_> {
                depositERC20TokensReturn::_tokenize(ret)
            }
            #[inline]
            fn abi_decode_returns(data: &[u8]) -> alloy_sol_types::Result<Self::Return> {
                <Self::ReturnTuple<
                    '_,
                > as alloy_sol_types::SolType>::abi_decode_sequence(data)
                    .map(Into::into)
            }
            #[inline]
            fn abi_decode_returns_validate(
                data: &[u8],
            ) -> alloy_sol_types::Result<Self::Return> {
                <Self::ReturnTuple<
                    '_,
                > as alloy_sol_types::SolType>::abi_decode_sequence_validate(data)
                    .map(Into::into)
            }
        }
    };
    #[derive(serde::Serialize, serde::Deserialize)]
    #[derive(Default, Debug, PartialEq, Eq, Hash)]
    /**Function with signature `getInputBox()` and selector `0x00aace9a`.
```solidity
function getInputBox() external view returns (address);
```*/
    #[allow(non_camel_case_types, non_snake_case, clippy::pub_underscore_fields)]
    #[derive(Clone)]
    pub struct getInputBoxCall;
    #[derive(serde::Serialize, serde::Deserialize)]
    #[derive(Default, Debug, PartialEq, Eq, Hash)]
    ///Container type for the return parameters of the [`getInputBox()`](getInputBoxCall) function.
    #[allow(non_camel_case_types, non_snake_case, clippy::pub_underscore_fields)]
    #[derive(Clone)]
    pub struct getInputBoxReturn {
        #[allow(missing_docs)]
        pub _0: alloy::sol_types::private::Address,
    }
    #[allow(
        non_camel_case_types,
        non_snake_case,
        clippy::pub_underscore_fields,
        clippy::style
    )]
    const _: () = {
        use alloy::sol_types as alloy_sol_types;
        {
            #[doc(hidden)]
            #[allow(dead_code)]
            type UnderlyingSolTuple<'a> = ();
            #[doc(hidden)]
            type UnderlyingRustTuple<'a> = ();
            #[cfg(test)]
            #[allow(dead_code, unreachable_patterns)]
            fn _type_assertion(
                _t: alloy_sol_types::private::AssertTypeEq<UnderlyingRustTuple>,
            ) {
                match _t {
                    alloy_sol_types::private::AssertTypeEq::<
                        <UnderlyingSolTuple as alloy_sol_types::SolType>::RustType,
                    >(_) => {}
                }
            }
            #[automatically_derived]
            #[doc(hidden)]
            impl ::core::convert::From<getInputBoxCall> for UnderlyingRustTuple<'_> {
                fn from(value: getInputBoxCall) -> Self {
                    ()
                }
            }
            #[automatically_derived]
            #[doc(hidden)]
            impl ::core::convert::From<UnderlyingRustTuple<'_>> for getInputBoxCall {
                fn from(tuple: UnderlyingRustTuple<'_>) -> Self {
                    Self
                }
            }
        }
        {
            #[doc(hidden)]
            #[allow(dead_code)]
            type UnderlyingSolTuple<'a> = (alloy::sol_types::sol_data::Address,);
            #[doc(hidden)]
            type UnderlyingRustTuple<'a> = (alloy::sol_types::private::Address,);
            #[cfg(test)]
            #[allow(dead_code, unreachable_patterns)]
            fn _type_assertion(
                _t: alloy_sol_types::private::AssertTypeEq<UnderlyingRustTuple>,
            ) {
                match _t {
                    alloy_sol_types::private::AssertTypeEq::<
                        <UnderlyingSolTuple as alloy_sol_types::SolType>::RustType,
                    >(_) => {}
                }
            }
            #[automatically_derived]
            #[doc(hidden)]
            impl ::core::convert::From<getInputBoxReturn> for UnderlyingRustTuple<'_> {
                fn from(value: getInputBoxReturn) -> Self {
                    (value._0,)
                }
            }
            #[automatically_derived]
            #[doc(hidden)]
            impl ::core::convert::From<UnderlyingRustTuple<'_>> for getInputBoxReturn {
                fn from(tuple: UnderlyingRustTuple<'_>) -> Self {
                    Self { _0: tuple.0 }
                }
            }
        }
        #[automatically_derived]
        impl alloy_sol_types::SolCall for getInputBoxCall {
            type Parameters<'a> = ();
            type Token<'a> = <Self::Parameters<
                'a,
            > as alloy_sol_types::SolType>::Token<'a>;
            type Return = alloy::sol_types::private::Address;
            type ReturnTuple<'a> = (alloy::sol_types::sol_data::Address,);
            type ReturnToken<'a> = <Self::ReturnTuple<
                'a,
            > as alloy_sol_types::SolType>::Token<'a>;
            const SIGNATURE: &'static str = "getInputBox()";
            const SELECTOR: [u8; 4] = [0u8, 170u8, 206u8, 154u8];
            #[inline]
            fn new<'a>(
                tuple: <Self::Parameters<'a> as alloy_sol_types::SolType>::RustType,
            ) -> Self {
                tuple.into()
            }
            #[inline]
            fn tokenize(&self) -> Self::Token<'_> {
                ()
            }
            #[inline]
            fn tokenize_returns(ret: &Self::Return) -> Self::ReturnToken<'_> {
                (
                    <alloy::sol_types::sol_data::Address as alloy_sol_types::SolType>::tokenize(
                        ret,
                    ),
                )
            }
            #[inline]
            fn abi_decode_returns(data: &[u8]) -> alloy_sol_types::Result<Self::Return> {
                <Self::ReturnTuple<
                    '_,
                > as alloy_sol_types::SolType>::abi_decode_sequence(data)
                    .map(|r| {
                        let r: getInputBoxReturn = r.into();
                        r._0
                    })
            }
            #[inline]
            fn abi_decode_returns_validate(
                data: &[u8],
            ) -> alloy_sol_types::Result<Self::Return> {
                <Self::ReturnTuple<
                    '_,
                > as alloy_sol_types::SolType>::abi_decode_sequence_validate(data)
                    .map(|r| {
                        let r: getInputBoxReturn = r.into();
                        r._0
                    })
            }
        }
    };
    ///Container for all the [`IERC20Portal`](self) function calls.
    #[derive(Clone)]
    #[derive(serde::Serialize, serde::Deserialize)]
    #[derive()]
    pub enum IERC20PortalCalls {
        #[allow(missing_docs)]
        depositERC20Tokens(depositERC20TokensCall),
        #[allow(missing_docs)]
        getInputBox(getInputBoxCall),
    }
    impl IERC20PortalCalls {
        /// All the selectors of this enum.
        ///
        /// Note that the selectors might not be in the same order as the variants.
        /// No guarantees are made about the order of the selectors.
        ///
        /// Prefer using `SolInterface` methods instead.
        pub const SELECTORS: &'static [[u8; 4usize]] = &[
            [0u8, 170u8, 206u8, 154u8],
            [149u8, 133u8, 75u8, 129u8],
        ];
        /// The names of the variants in the same order as `SELECTORS`.
        pub const VARIANT_NAMES: &'static [&'static str] = &[
            ::core::stringify!(getInputBox),
            ::core::stringify!(depositERC20Tokens),
        ];
        /// The signatures in the same order as `SELECTORS`.
        pub const SIGNATURES: &'static [&'static str] = &[
            <getInputBoxCall as alloy_sol_types::SolCall>::SIGNATURE,
            <depositERC20TokensCall as alloy_sol_types::SolCall>::SIGNATURE,
        ];
        /// Returns the signature for the given selector, if known.
        #[inline]
        pub fn signature_by_selector(
            selector: [u8; 4usize],
        ) -> ::core::option::Option<&'static str> {
            match Self::SELECTORS.binary_search(&selector) {
                ::core::result::Result::Ok(idx) => {
                    ::core::option::Option::Some(Self::SIGNATURES[idx])
                }
                ::core::result::Result::Err(_) => ::core::option::Option::None,
            }
        }
        /// Returns the enum variant name for the given selector, if known.
        #[inline]
        pub fn name_by_selector(
            selector: [u8; 4usize],
        ) -> ::core::option::Option<&'static str> {
            let sig = Self::signature_by_selector(selector)?;
            sig.split_once('(').map(|(name, _)| name)
        }
    }
    #[automatically_derived]
    impl alloy_sol_types::SolInterface for IERC20PortalCalls {
        const NAME: &'static str = "IERC20PortalCalls";
        const MIN_DATA_LENGTH: usize = 0usize;
        const COUNT: usize = 2usize;
        #[inline]
        fn selector(&self) -> [u8; 4] {
            match self {
                Self::depositERC20Tokens(_) => {
                    <depositERC20TokensCall as alloy_sol_types::SolCall>::SELECTOR
                }
                Self::getInputBox(_) => {
                    <getInputBoxCall as alloy_sol_types::SolCall>::SELECTOR
                }
            }
        }
        #[inline]
        fn selector_at(i: usize) -> ::core::option::Option<[u8; 4]> {
            Self::SELECTORS.get(i).copied()
        }
        #[inline]
        fn valid_selector(selector: [u8; 4]) -> bool {
            Self::SELECTORS.binary_search(&selector).is_ok()
        }
        #[inline]
        #[allow(non_snake_case)]
        fn abi_decode_raw(
            selector: [u8; 4],
            data: &[u8],
        ) -> alloy_sol_types::Result<Self> {
            static DECODE_SHIMS: &[fn(
                &[u8],
            ) -> alloy_sol_types::Result<IERC20PortalCalls>] = &[
                {
                    fn getInputBox(
                        data: &[u8],
                    ) -> alloy_sol_types::Result<IERC20PortalCalls> {
                        <getInputBoxCall as alloy_sol_types::SolCall>::abi_decode_raw(
                                data,
                            )
                            .map(IERC20PortalCalls::getInputBox)
                    }
                    getInputBox
                },
                {
                    fn depositERC20Tokens(
                        data: &[u8],
                    ) -> alloy_sol_types::Result<IERC20PortalCalls> {
                        <depositERC20TokensCall as alloy_sol_types::SolCall>::abi_decode_raw(
                                data,
                            )
                            .map(IERC20PortalCalls::depositERC20Tokens)
                    }
                    depositERC20Tokens
                },
            ];
            let Ok(idx) = Self::SELECTORS.binary_search(&selector) else {
                return Err(
                    alloy_sol_types::Error::unknown_selector(
                        <Self as alloy_sol_types::SolInterface>::NAME,
                        selector,
                    ),
                );
            };
            DECODE_SHIMS[idx](data)
        }
        #[inline]
        #[allow(non_snake_case)]
        fn abi_decode_raw_validate(
            selector: [u8; 4],
            data: &[u8],
        ) -> alloy_sol_types::Result<Self> {
            static DECODE_VALIDATE_SHIMS: &[fn(
                &[u8],
            ) -> alloy_sol_types::Result<IERC20PortalCalls>] = &[
                {
                    fn getInputBox(
                        data: &[u8],
                    ) -> alloy_sol_types::Result<IERC20PortalCalls> {
                        <getInputBoxCall as alloy_sol_types::SolCall>::abi_decode_raw_validate(
                                data,
                            )
                            .map(IERC20PortalCalls::getInputBox)
                    }
                    getInputBox
                },
                {
                    fn depositERC20Tokens(
                        data: &[u8],
                    ) -> alloy_sol_types::Result<IERC20PortalCalls> {
                        <depositERC20TokensCall as alloy_sol_types::SolCall>::abi_decode_raw_validate(
                                data,
                            )
                            .map(IERC20PortalCalls::depositERC20Tokens)
                    }
                    depositERC20Tokens
                },
            ];
            let Ok(idx) = Self::SELECTORS.binary_search(&selector) else {
                return Err(
                    alloy_sol_types::Error::unknown_selector(
                        <Self as alloy_sol_types::SolInterface>::NAME,
                        selector,
                    ),
                );
            };
            DECODE_VALIDATE_SHIMS[idx](data)
        }
        #[inline]
        fn abi_encoded_size(&self) -> usize {
            match self {
                Self::depositERC20Tokens(inner) => {
                    <depositERC20TokensCall as alloy_sol_types::SolCall>::abi_encoded_size(
                        inner,
                    )
                }
                Self::getInputBox(inner) => {
                    <getInputBoxCall as alloy_sol_types::SolCall>::abi_encoded_size(
                        inner,
                    )
                }
            }
        }
        #[inline]
        fn abi_encode_raw(&self, out: &mut alloy_sol_types::private::Vec<u8>) {
            match self {
                Self::depositERC20Tokens(inner) => {
                    <depositERC20TokensCall as alloy_sol_types::SolCall>::abi_encode_raw(
                        inner,
                        out,
                    )
                }
                Self::getInputBox(inner) => {
                    <getInputBoxCall as alloy_sol_types::SolCall>::abi_encode_raw(
                        inner,
                        out,
                    )
                }
            }
        }
    }
    ///Container for all the [`IERC20Portal`](self) custom errors.
    #[derive(Clone)]
    #[derive(serde::Serialize, serde::Deserialize)]
    #[derive(Debug, PartialEq, Eq, Hash)]
    pub enum IERC20PortalErrors {
        #[allow(missing_docs)]
        ERC20TransferFailed(ERC20TransferFailed),
    }
    impl IERC20PortalErrors {
        /// All the selectors of this enum.
        ///
        /// Note that the selectors might not be in the same order as the variants.
        /// No guarantees are made about the order of the selectors.
        ///
        /// Prefer using `SolInterface` methods instead.
        pub const SELECTORS: &'static [[u8; 4usize]] = &[[242u8, 127u8, 100u8, 228u8]];
        /// The names of the variants in the same order as `SELECTORS`.
        pub const VARIANT_NAMES: &'static [&'static str] = &[
            ::core::stringify!(ERC20TransferFailed),
        ];
        /// The signatures in the same order as `SELECTORS`.
        pub const SIGNATURES: &'static [&'static str] = &[
            <ERC20TransferFailed as alloy_sol_types::SolError>::SIGNATURE,
        ];
        /// Returns the signature for the given selector, if known.
        #[inline]
        pub fn signature_by_selector(
            selector: [u8; 4usize],
        ) -> ::core::option::Option<&'static str> {
            match Self::SELECTORS.binary_search(&selector) {
                ::core::result::Result::Ok(idx) => {
                    ::core::option::Option::Some(Self::SIGNATURES[idx])
                }
                ::core::result::Result::Err(_) => ::core::option::Option::None,
            }
        }
        /// Returns the enum variant name for the given selector, if known.
        #[inline]
        pub fn name_by_selector(
            selector: [u8; 4usize],
        ) -> ::core::option::Option<&'static str> {
            let sig = Self::signature_by_selector(selector)?;
            sig.split_once('(').map(|(name, _)| name)
        }
    }
    #[automatically_derived]
    impl alloy_sol_types::SolInterface for IERC20PortalErrors {
        const NAME: &'static str = "IERC20PortalErrors";
        const MIN_DATA_LENGTH: usize = 0usize;
        const COUNT: usize = 1usize;
        #[inline]
        fn selector(&self) -> [u8; 4] {
            match self {
                Self::ERC20TransferFailed(_) => {
                    <ERC20TransferFailed as alloy_sol_types::SolError>::SELECTOR
                }
            }
        }
        #[inline]
        fn selector_at(i: usize) -> ::core::option::Option<[u8; 4]> {
            Self::SELECTORS.get(i).copied()
        }
        #[inline]
        fn valid_selector(selector: [u8; 4]) -> bool {
            Self::SELECTORS.binary_search(&selector).is_ok()
        }
        #[inline]
        #[allow(non_snake_case)]
        fn abi_decode_raw(
            selector: [u8; 4],
            data: &[u8],
        ) -> alloy_sol_types::Result<Self> {
            static DECODE_SHIMS: &[fn(
                &[u8],
            ) -> alloy_sol_types::Result<IERC20PortalErrors>] = &[
                {
                    fn ERC20TransferFailed(
                        data: &[u8],
                    ) -> alloy_sol_types::Result<IERC20PortalErrors> {
                        <ERC20TransferFailed as alloy_sol_types::SolError>::abi_decode_raw(
                                data,
                            )
                            .map(IERC20PortalErrors::ERC20TransferFailed)
                    }
                    ERC20TransferFailed
                },
            ];
            let Ok(idx) = Self::SELECTORS.binary_search(&selector) else {
                return Err(
                    alloy_sol_types::Error::unknown_selector(
                        <Self as alloy_sol_types::SolInterface>::NAME,
                        selector,
                    ),
                );
            };
            DECODE_SHIMS[idx](data)
        }
        #[inline]
        #[allow(non_snake_case)]
        fn abi_decode_raw_validate(
            selector: [u8; 4],
            data: &[u8],
        ) -> alloy_sol_types::Result<Self> {
            static DECODE_VALIDATE_SHIMS: &[fn(
                &[u8],
            ) -> alloy_sol_types::Result<IERC20PortalErrors>] = &[
                {
                    fn ERC20TransferFailed(
                        data: &[u8],
                    ) -> alloy_sol_types::Result<IERC20PortalErrors> {
                        <ERC20TransferFailed as alloy_sol_types::SolError>::abi_decode_raw_validate(
                                data,
                            )
                            .map(IERC20PortalErrors::ERC20TransferFailed)
                    }
                    ERC20TransferFailed
                },
            ];
            let Ok(idx) = Self::SELECTORS.binary_search(&selector) else {
                return Err(
                    alloy_sol_types::Error::unknown_selector(
                        <Self as alloy_sol_types::SolInterface>::NAME,
                        selector,
                    ),
                );
            };
            DECODE_VALIDATE_SHIMS[idx](data)
        }
        #[inline]
        fn abi_encoded_size(&self) -> usize {
            match self {
                Self::ERC20TransferFailed(inner) => {
                    <ERC20TransferFailed as alloy_sol_types::SolError>::abi_encoded_size(
                        inner,
                    )
                }
            }
        }
        #[inline]
        fn abi_encode_raw(&self, out: &mut alloy_sol_types::private::Vec<u8>) {
            match self {
                Self::ERC20TransferFailed(inner) => {
                    <ERC20TransferFailed as alloy_sol_types::SolError>::abi_encode_raw(
                        inner,
                        out,
                    )
                }
            }
        }
    }
    use alloy::contract as alloy_contract;
    /**Creates a new wrapper around an on-chain [`IERC20Portal`](self) contract instance.

See the [wrapper's documentation](`IERC20PortalInstance`) for more details.*/
    #[inline]
    pub const fn new<
        P: alloy_contract::private::Provider<N>,
        N: alloy_contract::private::Network,
    >(
        address: alloy_sol_types::private::Address,
        __provider: P,
    ) -> IERC20PortalInstance<P, N> {
        IERC20PortalInstance::<P, N>::new(address, __provider)
    }
    /**Deploys this contract using the given `provider` and constructor arguments, if any.

Returns a new instance of the contract, if the deployment was successful.

For more fine-grained control over the deployment process, use [`deploy_builder`] instead.*/
    #[inline]
    pub fn deploy<
        P: alloy_contract::private::Provider<N>,
        N: alloy_contract::private::Network,
    >(
        __provider: P,
    ) -> impl ::core::future::Future<
        Output = alloy_contract::Result<IERC20PortalInstance<P, N>>,
    > {
        IERC20PortalInstance::<P, N>::deploy(__provider)
    }
    /**Creates a `RawCallBuilder` for deploying this contract using the given `provider`
and constructor arguments, if any.

This is a simple wrapper around creating a `RawCallBuilder` with the data set to
the bytecode concatenated with the constructor's ABI-encoded arguments.*/
    #[inline]
    pub fn deploy_builder<
        P: alloy_contract::private::Provider<N>,
        N: alloy_contract::private::Network,
    >(__provider: P) -> alloy_contract::RawCallBuilder<P, N> {
        IERC20PortalInstance::<P, N>::deploy_builder(__provider)
    }
    /**A [`IERC20Portal`](self) instance.

Contains type-safe methods for interacting with an on-chain instance of the
[`IERC20Portal`](self) contract located at a given `address`, using a given
provider `P`.

If the contract bytecode is available (see the [`sol!`](alloy_sol_types::sol!)
documentation on how to provide it), the `deploy` and `deploy_builder` methods can
be used to deploy a new instance of the contract.

See the [module-level documentation](self) for all the available methods.*/
    #[derive(Clone)]
    pub struct IERC20PortalInstance<P, N = alloy_contract::private::Ethereum> {
        address: alloy_sol_types::private::Address,
        provider: P,
        _network: ::core::marker::PhantomData<N>,
    }
    #[automatically_derived]
    impl<P, N> ::core::fmt::Debug for IERC20PortalInstance<P, N> {
        #[inline]
        fn fmt(&self, f: &mut ::core::fmt::Formatter<'_>) -> ::core::fmt::Result {
            f.debug_tuple("IERC20PortalInstance").field(&self.address).finish()
        }
    }
    /// Instantiation and getters/setters.
    impl<
        P: alloy_contract::private::Provider<N>,
        N: alloy_contract::private::Network,
    > IERC20PortalInstance<P, N> {
        /**Creates a new wrapper around an on-chain [`IERC20Portal`](self) contract instance.

See the [wrapper's documentation](`IERC20PortalInstance`) for more details.*/
        #[inline]
        pub const fn new(
            address: alloy_sol_types::private::Address,
            __provider: P,
        ) -> Self {
            Self {
                address,
                provider: __provider,
                _network: ::core::marker::PhantomData,
            }
        }
        /**Deploys this contract using the given `provider` and constructor arguments, if any.

Returns a new instance of the contract, if the deployment was successful.

For more fine-grained control over the deployment process, use [`deploy_builder`] instead.*/
        #[inline]
        pub async fn deploy(
            __provider: P,
        ) -> alloy_contract::Result<IERC20PortalInstance<P, N>> {
            let call_builder = Self::deploy_builder(__provider);
            let contract_address = call_builder.deploy().await?;
            Ok(Self::new(contract_address, call_builder.provider))
        }
        /**Creates a `RawCallBuilder` for deploying this contract using the given `provider`
and constructor arguments, if any.

This is a simple wrapper around creating a `RawCallBuilder` with the data set to
the bytecode concatenated with the constructor's ABI-encoded arguments.*/
        #[inline]
        pub fn deploy_builder(__provider: P) -> alloy_contract::RawCallBuilder<P, N> {
            alloy_contract::RawCallBuilder::new_raw_deploy(
                __provider,
                ::core::clone::Clone::clone(&BYTECODE),
            )
        }
        /// Returns a reference to the address.
        #[inline]
        pub const fn address(&self) -> &alloy_sol_types::private::Address {
            &self.address
        }
        /// Sets the address.
        #[inline]
        pub fn set_address(&mut self, address: alloy_sol_types::private::Address) {
            self.address = address;
        }
        /// Sets the address and returns `self`.
        pub fn at(mut self, address: alloy_sol_types::private::Address) -> Self {
            self.set_address(address);
            self
        }
        /// Returns a reference to the provider.
        #[inline]
        pub const fn provider(&self) -> &P {
            &self.provider
        }
    }
    impl<P: ::core::clone::Clone, N> IERC20PortalInstance<&P, N> {
        /// Clones the provider and returns a new instance with the cloned provider.
        #[inline]
        pub fn with_cloned_provider(self) -> IERC20PortalInstance<P, N> {
            IERC20PortalInstance {
                address: self.address,
                provider: ::core::clone::Clone::clone(&self.provider),
                _network: ::core::marker::PhantomData,
            }
        }
    }
    /// Function calls.
    impl<
        P: alloy_contract::private::Provider<N>,
        N: alloy_contract::private::Network,
    > IERC20PortalInstance<P, N> {
        /// Creates a new call builder using this contract instance's provider and address.
        ///
        /// Note that the call can be any function call, not just those defined in this
        /// contract. Prefer using the other methods for building type-safe contract calls.
        pub fn call_builder<C: alloy_sol_types::SolCall>(
            &self,
            call: &C,
        ) -> alloy_contract::SolCallBuilder<&P, C, N> {
            alloy_contract::SolCallBuilder::new_sol(&self.provider, &self.address, call)
        }
        ///Creates a new call builder for the [`depositERC20Tokens`] function.
        pub fn depositERC20Tokens(
            &self,
            token: alloy::sol_types::private::Address,
            appContract: alloy::sol_types::private::Address,
            value: alloy::sol_types::private::primitives::aliases::U256,
            execLayerData: alloy::sol_types::private::Bytes,
        ) -> alloy_contract::SolCallBuilder<&P, depositERC20TokensCall, N> {
            self.call_builder(
                &depositERC20TokensCall {
                    token,
                    appContract,
                    value,
                    execLayerData,
                },
            )
        }
        ///Creates a new call builder for the [`getInputBox`] function.
        pub fn getInputBox(
            &self,
        ) -> alloy_contract::SolCallBuilder<&P, getInputBoxCall, N> {
            self.call_builder(&getInputBoxCall)
        }
    }
    /// Event filters.
    impl<
        P: alloy_contract::private::Provider<N>,
        N: alloy_contract::private::Network,
    > IERC20PortalInstance<P, N> {
        /// Creates a new event filter using this contract instance's provider and address.
        ///
        /// Note that the type can be any event, not just those defined in this contract.
        /// Prefer using the other methods for building type-safe event filters.
        pub fn event_filter<E: alloy_sol_types::SolEvent>(
            &self,
        ) -> alloy_contract::Event<&P, E, N> {
            alloy_contract::Event::new_sol(&self.provider, &self.address)
        }
    }
}