Struct multiversx_sc::types::ManagedAddress

#[repr(transparent)]
pub struct ManagedAddress<M: ManagedTypeApi> { /* private fields */ }

Implementations

impl<M> ManagedAddress<M>where M: ManagedTypeApi,

pub fn from_address(address: &Address) -> Self

pub fn zero() -> Self

pub fn to_address(&self) -> Address

pub fn is_zero(&self) -> bool

pub fn new_from_bytes(bytes: &[u8; 32]) -> Self

pub fn as_managed_buffer(&self) -> &ManagedBuffer<M>

pub fn as_managed_byte_array(&self) -> &ManagedByteArray<M, 32>

pub fn to_byte_array(&self) -> [u8; 32]

Trait Implementations

impl<M: Clone + ManagedTypeApi> Clone for ManagedAddress<M>

fn clone(&self) -> ManagedAddress<M>

Returns a copy of the value.

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source.

impl<M: ManagedTypeApi> Debug for ManagedAddress<M>

fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter.

impl<M> Default for ManagedAddress<M>where M: ManagedTypeApi,

fn default() -> Self

Returns the “default value” for a type.

impl<M> From<&[u8; 32]> for ManagedAddress<M>where M: ManagedTypeApi,

fn from(bytes: &[u8; 32]) -> Self

Converts to this type from the input type.

impl<M> From<&Address> for ManagedAddress<M>where M: ManagedTypeApi,

fn from(address: &Address) -> Self

Converts to this type from the input type.

impl<M> From<[u8; 32]> for ManagedAddress<M>where M: ManagedTypeApi,

fn from(bytes: [u8; 32]) -> Self

Converts to this type from the input type.

impl<M> From<Address> for ManagedAddress<M>where M: ManagedTypeApi,

fn from(address: Address) -> Self

Converts to this type from the input type.

impl<M> From<ManagedByteArray<M, 32>> for ManagedAddress<M>where M: ManagedTypeApi,

fn from(value: ManagedByteArray<M, 32>) -> Self

Converts to this type from the input type.

impl<M> ManagedType<M> for ManagedAddress<M>where M: ManagedTypeApi,

type OwnHandle = <M as HandleTypeInfo>::ManagedBufferHandle

fn get_handle(&self) -> M::ManagedBufferHandle

fn transmute_from_handle_ref(handle_ref: &M::ManagedBufferHandle) -> &Self

Implement carefully, since the underlying transmutation is an unsafe operation. For types that wrap a handle to some VM-managed data, make sure the type only contains the handle (plus ZSTs if necessary). For types that just wrap another managed type it is easier, call for the wrapped object.

fn get_raw_handle(&self) -> RawHandle

fn as_ref(&self) -> ManagedRef<'_, M, Self>

impl<M: ManagedTypeApi> ManagedVecItem for ManagedAddress<M>

const PAYLOAD_SIZE: usize = 4usize

Size of the data stored in the underlying ManagedBuffer.

const SKIPS_RESERIALIZATION: bool = false

If true, then the encoding of the item is identical to the payload, and no further conversion is necessary (the underlying buffer can be used as-is during serialization). False for all managed types, but true for basic types (like u32).

type Ref<'a> = ManagedRef<'a, M, ManagedAddress<M>>

Reference representation of the ManagedVec item.

fn from_byte_reader<Reader: FnMut(&mut [u8])>(reader: Reader) -> Self

Parses given bytes as a an owned object.

unsafe fn from_byte_reader_as_borrow<'a, Reader: FnMut(&mut [u8])>( reader: Reader ) -> Self::Ref<'a>

Parses given bytes as a representation of the object, either owned, or a reference.

fn to_byte_writer<R, Writer: FnMut(&[u8]) -> R>(&self, writer: Writer) -> R

impl<M> NestedDecode for ManagedAddress<M>where M: ManagedTypeApi,

fn dep_decode_or_handle_err<I, H>( input: &mut I, h: H ) -> Result<Self, H::HandledErr>where I: NestedDecodeInput, H: DecodeErrorHandler,

Version of dep_decode that can handle errors as soon as they occur. For instance in can exit immediately and make sure that if it returns, it is a success. By not deferring error handling, this can lead to somewhat smaller bytecode.

fn dep_decode<I>(input: &mut I) -> Result<Self, DecodeError>where I: NestedDecodeInput,

Attempt to deserialise the value from input, using the format of an object nested inside another structure. In case of success returns the deserialized value and the number of bytes consumed during the operation.

impl<M> NestedEncode for ManagedAddress<M>where M: ManagedTypeApi,

fn dep_encode_or_handle_err<O, H>( &self, dest: &mut O, h: H ) -> Result<(), H::HandledErr>where O: NestedEncodeOutput, H: EncodeErrorHandler,

Version of dep_encode that can handle errors as soon as they occur. For instance in can exit immediately and make sure that if it returns, it is a success. By not deferring error handling, this can lead to somewhat smaller bytecode.

fn dep_encode<O>(&self, dest: &mut O) -> Result<(), EncodeError>where O: NestedEncodeOutput,

NestedEncode to output, using the format of an object nested inside another structure. Does not provide compact version.

impl<M> PartialEq<ManagedAddress<M>> for ManagedAddress<M>where M: ManagedTypeApi,

fn eq(&self, other: &Self) -> bool

This method tests for self and other values to be equal, and is used by ==.

fn ne(&self, other: &Rhs) -> bool

This method tests for !=. The default implementation is almost always sufficient, and should not be overridden without very good reason.

impl<M: ManagedTypeApi> SCLowerHex for ManagedAddress<M>

fn fmt<F: FormatByteReceiver>(&self, f: &mut F)

impl<M> TopDecode for ManagedAddress<M>where M: ManagedTypeApi,

fn top_decode_or_handle_err<I, H>(input: I, h: H) -> Result<Self, H::HandledErr>where I: TopDecodeInput, H: DecodeErrorHandler,

Version of top_decode that can handle errors as soon as they occur. For instance it can exit immediately and make sure that if it returns, it is a success. By not deferring error handling, this can lead to somewhat smaller bytecode.

fn top_decode<I>(input: I) -> Result<Self, DecodeError>where I: TopDecodeInput,

Attempt to deserialize the value from input.

impl<M> TopEncode for ManagedAddress<M>where M: ManagedTypeApi,

fn top_encode_or_handle_err<O, H>( &self, output: O, h: H ) -> Result<(), H::HandledErr>where O: TopEncodeOutput, H: EncodeErrorHandler,

Version of top_encode that can handle errors as soon as they occur. For instance in can exit immediately and make sure that if it returns, it is a success. By not deferring error handling, this can lead to somewhat smaller bytecode.

fn top_encode<O>(&self, output: O) -> Result<(), EncodeError>where O: TopEncodeOutput,

Attempt to serialize the value to ouput.

impl<M> TryFrom<ManagedBuffer<M>> for ManagedAddress<M>where M: ManagedTypeApi,

type Error = DecodeError

The type returned in the event of a conversion error.

fn try_from(value: ManagedBuffer<M>) -> Result<Self, Self::Error>

Performs the conversion.

impl<M> TypeAbi for ManagedAddress<M>where M: ManagedTypeApi,

fn type_name() -> TypeName

"Address" instead of "array32<u8>".

fn provide_type_descriptions<TDC: TypeDescriptionContainer>( accumulator: &mut TDC )

A type can provide more than its own description. For instance, a struct can also provide the descriptions of the type of its fields. TypeAbi doesn’t care for the exact accumulator type, which is abstracted by the TypeDescriptionContainer trait.

impl<M> CodecFrom<[u8; 32]> for ManagedAddress<M>where M: ManagedTypeApi,

impl<M> CodecFromSelf for ManagedAddress<M>where M: ManagedTypeApi,

impl<M> Eq for ManagedAddress<M>where M: ManagedTypeApi,