Enum Condition 

#[non_exhaustive]
pub enum Condition<T = NodePtr> {
    Remark(Remark<T>),
    AggSigParent(AggSigParent),
    AggSigPuzzle(AggSigPuzzle),
    AggSigAmount(AggSigAmount),
    AggSigPuzzleAmount(AggSigPuzzleAmount),
    AggSigParentAmount(AggSigParentAmount),
    AggSigParentPuzzle(AggSigParentPuzzle),
    AggSigUnsafe(AggSigUnsafe),
    AggSigMe(AggSigMe),
    CreateCoin(CreateCoin<T>),
    ReserveFee(ReserveFee),
    CreateCoinAnnouncement(CreateCoinAnnouncement),
    AssertCoinAnnouncement(AssertCoinAnnouncement),
    CreatePuzzleAnnouncement(CreatePuzzleAnnouncement),
    AssertPuzzleAnnouncement(AssertPuzzleAnnouncement),
    AssertConcurrentSpend(AssertConcurrentSpend),
    AssertConcurrentPuzzle(AssertConcurrentPuzzle),
    SendMessage(SendMessage<T>),
    ReceiveMessage(ReceiveMessage<T>),
    AssertMyCoinId(AssertMyCoinId),
    AssertMyParentId(AssertMyParentId),
    AssertMyPuzzleHash(AssertMyPuzzleHash),
    AssertMyAmount(AssertMyAmount),
    AssertMyBirthSeconds(AssertMyBirthSeconds),
    AssertMyBirthHeight(AssertMyBirthHeight),
    AssertEphemeral(AssertEphemeral),
    AssertSecondsRelative(AssertSecondsRelative),
    AssertSecondsAbsolute(AssertSecondsAbsolute),
    AssertHeightRelative(AssertHeightRelative),
    AssertHeightAbsolute(AssertHeightAbsolute),
    AssertBeforeSecondsRelative(AssertBeforeSecondsRelative),
    AssertBeforeSecondsAbsolute(AssertBeforeSecondsAbsolute),
    AssertBeforeHeightRelative(AssertBeforeHeightRelative),
    AssertBeforeHeightAbsolute(AssertBeforeHeightAbsolute),
    Softfork(Softfork<T>),
    TransferNft(TransferNft),
    RunCatTail(RunCatTail<T, T>),
    MeltSingleton(MeltSingleton),
    UpdateNftMetadata(UpdateNftMetadata<T, T>),
    UpdateDataStoreMerkleRoot(UpdateDataStoreMerkleRoot),
    Other(T),
}

Variants (Non-exhaustive)

Non-exhaustive enums could have additional variants added in future. Therefore, when matching against variants of non-exhaustive enums, an extra wildcard arm must be added to account for any future variants.

Remark(Remark<T>)

AggSigParent(AggSigParent)

AggSigPuzzle(AggSigPuzzle)

AggSigAmount(AggSigAmount)

AggSigPuzzleAmount(AggSigPuzzleAmount)

AggSigParentAmount(AggSigParentAmount)

AggSigParentPuzzle(AggSigParentPuzzle)

AggSigUnsafe(AggSigUnsafe)

AggSigMe(AggSigMe)

CreateCoin(CreateCoin<T>)

ReserveFee(ReserveFee)

CreateCoinAnnouncement(CreateCoinAnnouncement)

AssertCoinAnnouncement(AssertCoinAnnouncement)

CreatePuzzleAnnouncement(CreatePuzzleAnnouncement)

AssertPuzzleAnnouncement(AssertPuzzleAnnouncement)

AssertConcurrentSpend(AssertConcurrentSpend)

AssertConcurrentPuzzle(AssertConcurrentPuzzle)

SendMessage(SendMessage<T>)

ReceiveMessage(ReceiveMessage<T>)

AssertMyCoinId(AssertMyCoinId)

AssertMyParentId(AssertMyParentId)

AssertMyPuzzleHash(AssertMyPuzzleHash)

AssertMyAmount(AssertMyAmount)

AssertMyBirthSeconds(AssertMyBirthSeconds)

AssertMyBirthHeight(AssertMyBirthHeight)

AssertEphemeral(AssertEphemeral)

AssertSecondsRelative(AssertSecondsRelative)

AssertSecondsAbsolute(AssertSecondsAbsolute)

AssertHeightRelative(AssertHeightRelative)

AssertHeightAbsolute(AssertHeightAbsolute)

AssertBeforeSecondsRelative(AssertBeforeSecondsRelative)

AssertBeforeSecondsAbsolute(AssertBeforeSecondsAbsolute)

AssertBeforeHeightRelative(AssertBeforeHeightRelative)

AssertBeforeHeightAbsolute(AssertBeforeHeightAbsolute)

Softfork(Softfork<T>)

TransferNft(TransferNft)

RunCatTail(RunCatTail<T, T>)

MeltSingleton(MeltSingleton)

UpdateNftMetadata(UpdateNftMetadata<T, T>)

UpdateDataStoreMerkleRoot(UpdateDataStoreMerkleRoot)

Other(T)

Implementations

impl<T> Condition<T>

pub fn into_agg_sig(self) -> Option<AggSig>

pub fn is_agg_sig(&self) -> bool

impl<T> Condition<T>

pub fn remark(rest: T) -> Condition<T>

pub fn into_remark(self) -> Option<Remark<T>>

pub fn as_remark(&self) -> Option<&Remark<T>>

pub fn is_remark(&self) -> bool

pub fn agg_sig_parent(public_key: PublicKey, message: Bytes) -> Condition<T>

pub fn into_agg_sig_parent(self) -> Option<AggSigParent>

pub fn as_agg_sig_parent(&self) -> Option<&AggSigParent>

pub fn is_agg_sig_parent(&self) -> bool

pub fn agg_sig_puzzle(public_key: PublicKey, message: Bytes) -> Condition<T>

pub fn into_agg_sig_puzzle(self) -> Option<AggSigPuzzle>

pub fn as_agg_sig_puzzle(&self) -> Option<&AggSigPuzzle>

pub fn is_agg_sig_puzzle(&self) -> bool

pub fn agg_sig_amount(public_key: PublicKey, message: Bytes) -> Condition<T>

pub fn into_agg_sig_amount(self) -> Option<AggSigAmount>

pub fn as_agg_sig_amount(&self) -> Option<&AggSigAmount>

pub fn is_agg_sig_amount(&self) -> bool

pub fn agg_sig_puzzle_amount( public_key: PublicKey, message: Bytes, ) -> Condition<T>

pub fn into_agg_sig_puzzle_amount(self) -> Option<AggSigPuzzleAmount>

pub fn as_agg_sig_puzzle_amount(&self) -> Option<&AggSigPuzzleAmount>

pub fn is_agg_sig_puzzle_amount(&self) -> bool

pub fn agg_sig_parent_amount( public_key: PublicKey, message: Bytes, ) -> Condition<T>

pub fn into_agg_sig_parent_amount(self) -> Option<AggSigParentAmount>

pub fn as_agg_sig_parent_amount(&self) -> Option<&AggSigParentAmount>

pub fn is_agg_sig_parent_amount(&self) -> bool

pub fn agg_sig_parent_puzzle( public_key: PublicKey, message: Bytes, ) -> Condition<T>

pub fn into_agg_sig_parent_puzzle(self) -> Option<AggSigParentPuzzle>

pub fn as_agg_sig_parent_puzzle(&self) -> Option<&AggSigParentPuzzle>

pub fn is_agg_sig_parent_puzzle(&self) -> bool

pub fn agg_sig_unsafe(public_key: PublicKey, message: Bytes) -> Condition<T>

pub fn into_agg_sig_unsafe(self) -> Option<AggSigUnsafe>

pub fn as_agg_sig_unsafe(&self) -> Option<&AggSigUnsafe>

pub fn is_agg_sig_unsafe(&self) -> bool

pub fn agg_sig_me(public_key: PublicKey, message: Bytes) -> Condition<T>

pub fn into_agg_sig_me(self) -> Option<AggSigMe>

pub fn as_agg_sig_me(&self) -> Option<&AggSigMe>

pub fn is_agg_sig_me(&self) -> bool

pub fn create_coin( puzzle_hash: BytesImpl<32>, amount: u64, memos: Memos<T>, ) -> Condition<T>

pub fn into_create_coin(self) -> Option<CreateCoin<T>>

pub fn as_create_coin(&self) -> Option<&CreateCoin<T>>

pub fn is_create_coin(&self) -> bool

pub fn reserve_fee(amount: u64) -> Condition<T>

pub fn into_reserve_fee(self) -> Option<ReserveFee>

pub fn as_reserve_fee(&self) -> Option<&ReserveFee>

pub fn is_reserve_fee(&self) -> bool

pub fn create_coin_announcement(message: Bytes) -> Condition<T>

pub fn into_create_coin_announcement(self) -> Option<CreateCoinAnnouncement>

pub fn as_create_coin_announcement(&self) -> Option<&CreateCoinAnnouncement>

pub fn is_create_coin_announcement(&self) -> bool

pub fn assert_coin_announcement(announcement_id: BytesImpl<32>) -> Condition<T>

pub fn into_assert_coin_announcement(self) -> Option<AssertCoinAnnouncement>

pub fn as_assert_coin_announcement(&self) -> Option<&AssertCoinAnnouncement>

pub fn is_assert_coin_announcement(&self) -> bool

pub fn create_puzzle_announcement(message: Bytes) -> Condition<T>

pub fn into_create_puzzle_announcement(self) -> Option<CreatePuzzleAnnouncement>

pub fn as_create_puzzle_announcement(&self) -> Option<&CreatePuzzleAnnouncement>

pub fn is_create_puzzle_announcement(&self) -> bool

pub fn assert_puzzle_announcement( announcement_id: BytesImpl<32>, ) -> Condition<T>

pub fn into_assert_puzzle_announcement(self) -> Option<AssertPuzzleAnnouncement>

pub fn as_assert_puzzle_announcement(&self) -> Option<&AssertPuzzleAnnouncement>

pub fn is_assert_puzzle_announcement(&self) -> bool

pub fn assert_concurrent_spend(coin_id: BytesImpl<32>) -> Condition<T>

pub fn into_assert_concurrent_spend(self) -> Option<AssertConcurrentSpend>

pub fn as_assert_concurrent_spend(&self) -> Option<&AssertConcurrentSpend>

pub fn is_assert_concurrent_spend(&self) -> bool

pub fn assert_concurrent_puzzle(puzzle_hash: BytesImpl<32>) -> Condition<T>

pub fn into_assert_concurrent_puzzle(self) -> Option<AssertConcurrentPuzzle>

pub fn as_assert_concurrent_puzzle(&self) -> Option<&AssertConcurrentPuzzle>

pub fn is_assert_concurrent_puzzle(&self) -> bool

pub fn send_message(mode: u8, message: Bytes, data: Vec<T>) -> Condition<T>

pub fn into_send_message(self) -> Option<SendMessage<T>>

pub fn as_send_message(&self) -> Option<&SendMessage<T>>

pub fn is_send_message(&self) -> bool

pub fn receive_message(mode: u8, message: Bytes, data: Vec<T>) -> Condition<T>

pub fn into_receive_message(self) -> Option<ReceiveMessage<T>>

pub fn as_receive_message(&self) -> Option<&ReceiveMessage<T>>

pub fn is_receive_message(&self) -> bool

pub fn assert_my_coin_id(coin_id: BytesImpl<32>) -> Condition<T>

pub fn into_assert_my_coin_id(self) -> Option<AssertMyCoinId>

pub fn as_assert_my_coin_id(&self) -> Option<&AssertMyCoinId>

pub fn is_assert_my_coin_id(&self) -> bool

pub fn assert_my_parent_id(parent_id: BytesImpl<32>) -> Condition<T>

pub fn into_assert_my_parent_id(self) -> Option<AssertMyParentId>

pub fn as_assert_my_parent_id(&self) -> Option<&AssertMyParentId>

pub fn is_assert_my_parent_id(&self) -> bool

pub fn assert_my_puzzle_hash(puzzle_hash: BytesImpl<32>) -> Condition<T>

pub fn into_assert_my_puzzle_hash(self) -> Option<AssertMyPuzzleHash>

pub fn as_assert_my_puzzle_hash(&self) -> Option<&AssertMyPuzzleHash>

pub fn is_assert_my_puzzle_hash(&self) -> bool

pub fn assert_my_amount(amount: u64) -> Condition<T>

pub fn into_assert_my_amount(self) -> Option<AssertMyAmount>

pub fn as_assert_my_amount(&self) -> Option<&AssertMyAmount>

pub fn is_assert_my_amount(&self) -> bool

pub fn assert_my_birth_seconds(seconds: u64) -> Condition<T>

pub fn into_assert_my_birth_seconds(self) -> Option<AssertMyBirthSeconds>

pub fn as_assert_my_birth_seconds(&self) -> Option<&AssertMyBirthSeconds>

pub fn is_assert_my_birth_seconds(&self) -> bool

pub fn assert_my_birth_height(height: u32) -> Condition<T>

pub fn into_assert_my_birth_height(self) -> Option<AssertMyBirthHeight>

pub fn as_assert_my_birth_height(&self) -> Option<&AssertMyBirthHeight>

pub fn is_assert_my_birth_height(&self) -> bool

pub fn assert_ephemeral() -> Condition<T>

pub fn into_assert_ephemeral(self) -> Option<AssertEphemeral>

pub fn as_assert_ephemeral(&self) -> Option<&AssertEphemeral>

pub fn is_assert_ephemeral(&self) -> bool

pub fn assert_seconds_relative(seconds: u64) -> Condition<T>

pub fn into_assert_seconds_relative(self) -> Option<AssertSecondsRelative>

pub fn as_assert_seconds_relative(&self) -> Option<&AssertSecondsRelative>

pub fn is_assert_seconds_relative(&self) -> bool

pub fn assert_seconds_absolute(seconds: u64) -> Condition<T>

pub fn into_assert_seconds_absolute(self) -> Option<AssertSecondsAbsolute>

pub fn as_assert_seconds_absolute(&self) -> Option<&AssertSecondsAbsolute>

pub fn is_assert_seconds_absolute(&self) -> bool

pub fn assert_height_relative(height: u32) -> Condition<T>

pub fn into_assert_height_relative(self) -> Option<AssertHeightRelative>

pub fn as_assert_height_relative(&self) -> Option<&AssertHeightRelative>

pub fn is_assert_height_relative(&self) -> bool

pub fn assert_height_absolute(height: u32) -> Condition<T>

pub fn into_assert_height_absolute(self) -> Option<AssertHeightAbsolute>

pub fn as_assert_height_absolute(&self) -> Option<&AssertHeightAbsolute>

pub fn is_assert_height_absolute(&self) -> bool

pub fn assert_before_seconds_relative(seconds: u64) -> Condition<T>

pub fn into_assert_before_seconds_relative( self, ) -> Option<AssertBeforeSecondsRelative>

pub fn as_assert_before_seconds_relative( &self, ) -> Option<&AssertBeforeSecondsRelative>

pub fn is_assert_before_seconds_relative(&self) -> bool

pub fn assert_before_seconds_absolute(seconds: u64) -> Condition<T>

pub fn into_assert_before_seconds_absolute( self, ) -> Option<AssertBeforeSecondsAbsolute>

pub fn as_assert_before_seconds_absolute( &self, ) -> Option<&AssertBeforeSecondsAbsolute>

pub fn is_assert_before_seconds_absolute(&self) -> bool

pub fn assert_before_height_relative(height: u32) -> Condition<T>

pub fn into_assert_before_height_relative( self, ) -> Option<AssertBeforeHeightRelative>

pub fn as_assert_before_height_relative( &self, ) -> Option<&AssertBeforeHeightRelative>

pub fn is_assert_before_height_relative(&self) -> bool

pub fn assert_before_height_absolute(height: u32) -> Condition<T>

pub fn into_assert_before_height_absolute( self, ) -> Option<AssertBeforeHeightAbsolute>

pub fn as_assert_before_height_absolute( &self, ) -> Option<&AssertBeforeHeightAbsolute>

pub fn is_assert_before_height_absolute(&self) -> bool

pub fn softfork(cost: u64, rest: T) -> Condition<T>

pub fn into_softfork(self) -> Option<Softfork<T>>

pub fn as_softfork(&self) -> Option<&Softfork<T>>

pub fn is_softfork(&self) -> bool

pub fn transfer_nft( launcher_id: Option<BytesImpl<32>>, trade_prices: Vec<TradePrice>, singleton_inner_puzzle_hash: Option<BytesImpl<32>>, ) -> Condition<T>

pub fn into_transfer_nft(self) -> Option<TransferNft>

pub fn as_transfer_nft(&self) -> Option<&TransferNft>

pub fn is_transfer_nft(&self) -> bool

pub fn run_cat_tail(program: T, solution: T) -> Condition<T>

pub fn into_run_cat_tail(self) -> Option<RunCatTail<T, T>>

pub fn as_run_cat_tail(&self) -> Option<&RunCatTail<T, T>>

pub fn is_run_cat_tail(&self) -> bool

pub fn melt_singleton() -> Condition<T>

pub fn into_melt_singleton(self) -> Option<MeltSingleton>

pub fn as_melt_singleton(&self) -> Option<&MeltSingleton>

pub fn is_melt_singleton(&self) -> bool

pub fn update_nft_metadata( updater_puzzle_reveal: T, updater_solution: T, ) -> Condition<T>

pub fn into_update_nft_metadata(self) -> Option<UpdateNftMetadata<T, T>>

pub fn as_update_nft_metadata(&self) -> Option<&UpdateNftMetadata<T, T>>

pub fn is_update_nft_metadata(&self) -> bool

pub fn update_data_store_merkle_root( new_merkle_root: BytesImpl<32>, memos: Vec<Bytes>, ) -> Condition<T>

pub fn into_update_data_store_merkle_root( self, ) -> Option<UpdateDataStoreMerkleRoot>

pub fn as_update_data_store_merkle_root( &self, ) -> Option<&UpdateDataStoreMerkleRoot>

pub fn is_update_data_store_merkle_root(&self) -> bool

Trait Implementations

impl<T> Clone for Condition<T>

where T: Clone,

fn clone(&self) -> Condition<T>

Returns a duplicate of the value.

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

Performs copy-assignment from source.

impl<T> Debug for Condition<T>

where T: Debug,

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

Formats the value using the given formatter.

impl<T> From<AggSigAmount> for Condition<T>

fn from(inner: AggSigAmount) -> Condition<T>

Converts to this type from the input type.

impl<T> From<AggSigMe> for Condition<T>

fn from(inner: AggSigMe) -> Condition<T>

Converts to this type from the input type.

impl<T> From<AggSigParent> for Condition<T>

fn from(inner: AggSigParent) -> Condition<T>

Converts to this type from the input type.

impl<T> From<AggSigParentAmount> for Condition<T>

fn from(inner: AggSigParentAmount) -> Condition<T>

Converts to this type from the input type.

impl<T> From<AggSigParentPuzzle> for Condition<T>

fn from(inner: AggSigParentPuzzle) -> Condition<T>

Converts to this type from the input type.

impl<T> From<AggSigPuzzle> for Condition<T>

fn from(inner: AggSigPuzzle) -> Condition<T>

Converts to this type from the input type.

impl<T> From<AggSigPuzzleAmount> for Condition<T>

fn from(inner: AggSigPuzzleAmount) -> Condition<T>

Converts to this type from the input type.

impl<T> From<AggSigUnsafe> for Condition<T>

fn from(inner: AggSigUnsafe) -> Condition<T>

Converts to this type from the input type.

impl<T> From<AssertBeforeHeightAbsolute> for Condition<T>

fn from(inner: AssertBeforeHeightAbsolute) -> Condition<T>

Converts to this type from the input type.

impl<T> From<AssertBeforeHeightRelative> for Condition<T>

fn from(inner: AssertBeforeHeightRelative) -> Condition<T>

Converts to this type from the input type.

impl<T> From<AssertBeforeSecondsAbsolute> for Condition<T>

fn from(inner: AssertBeforeSecondsAbsolute) -> Condition<T>

Converts to this type from the input type.

impl<T> From<AssertBeforeSecondsRelative> for Condition<T>

fn from(inner: AssertBeforeSecondsRelative) -> Condition<T>

Converts to this type from the input type.

impl<T> From<AssertCoinAnnouncement> for Condition<T>

fn from(inner: AssertCoinAnnouncement) -> Condition<T>

Converts to this type from the input type.

impl<T> From<AssertConcurrentPuzzle> for Condition<T>

fn from(inner: AssertConcurrentPuzzle) -> Condition<T>

Converts to this type from the input type.

impl<T> From<AssertConcurrentSpend> for Condition<T>

fn from(inner: AssertConcurrentSpend) -> Condition<T>

Converts to this type from the input type.

impl<T> From<AssertEphemeral> for Condition<T>

fn from(inner: AssertEphemeral) -> Condition<T>

Converts to this type from the input type.

impl<T> From<AssertHeightAbsolute> for Condition<T>

fn from(inner: AssertHeightAbsolute) -> Condition<T>

Converts to this type from the input type.

impl<T> From<AssertHeightRelative> for Condition<T>

fn from(inner: AssertHeightRelative) -> Condition<T>

Converts to this type from the input type.

impl<T> From<AssertMyAmount> for Condition<T>

fn from(inner: AssertMyAmount) -> Condition<T>

Converts to this type from the input type.

impl<T> From<AssertMyBirthHeight> for Condition<T>

fn from(inner: AssertMyBirthHeight) -> Condition<T>

Converts to this type from the input type.

impl<T> From<AssertMyBirthSeconds> for Condition<T>

fn from(inner: AssertMyBirthSeconds) -> Condition<T>

Converts to this type from the input type.

impl<T> From<AssertMyCoinId> for Condition<T>

fn from(inner: AssertMyCoinId) -> Condition<T>

Converts to this type from the input type.

impl<T> From<AssertMyParentId> for Condition<T>

fn from(inner: AssertMyParentId) -> Condition<T>

Converts to this type from the input type.

impl<T> From<AssertMyPuzzleHash> for Condition<T>

fn from(inner: AssertMyPuzzleHash) -> Condition<T>

Converts to this type from the input type.

impl<T> From<AssertPuzzleAnnouncement> for Condition<T>

fn from(inner: AssertPuzzleAnnouncement) -> Condition<T>

Converts to this type from the input type.

impl<T> From<AssertSecondsAbsolute> for Condition<T>

fn from(inner: AssertSecondsAbsolute) -> Condition<T>

Converts to this type from the input type.

impl<T> From<AssertSecondsRelative> for Condition<T>

fn from(inner: AssertSecondsRelative) -> Condition<T>

Converts to this type from the input type.

impl<T> From<CreateCoin<T>> for Condition<T>

fn from(inner: CreateCoin<T>) -> Condition<T>

Converts to this type from the input type.

impl<T> From<CreateCoinAnnouncement> for Condition<T>

fn from(inner: CreateCoinAnnouncement) -> Condition<T>

Converts to this type from the input type.

impl<T> From<CreatePuzzleAnnouncement> for Condition<T>

fn from(inner: CreatePuzzleAnnouncement) -> Condition<T>

Converts to this type from the input type.

impl<T> From<MeltSingleton> for Condition<T>

fn from(inner: MeltSingleton) -> Condition<T>

Converts to this type from the input type.

impl<T> From<ReceiveMessage<T>> for Condition<T>

fn from(inner: ReceiveMessage<T>) -> Condition<T>

Converts to this type from the input type.

impl<T> From<Remark<T>> for Condition<T>

fn from(inner: Remark<T>) -> Condition<T>

Converts to this type from the input type.

impl<T> From<ReserveFee> for Condition<T>

fn from(inner: ReserveFee) -> Condition<T>

Converts to this type from the input type.

impl<T> From<RunCatTail<T, T>> for Condition<T>

fn from(inner: RunCatTail<T, T>) -> Condition<T>

Converts to this type from the input type.

impl<T> From<SendMessage<T>> for Condition<T>

fn from(inner: SendMessage<T>) -> Condition<T>

Converts to this type from the input type.

impl<T> From<Softfork<T>> for Condition<T>

fn from(inner: Softfork<T>) -> Condition<T>

Converts to this type from the input type.

impl<T> From<TransferNft> for Condition<T>

fn from(inner: TransferNft) -> Condition<T>

Converts to this type from the input type.

impl<T> From<UpdateDataStoreMerkleRoot> for Condition<T>

fn from(inner: UpdateDataStoreMerkleRoot) -> Condition<T>

Converts to this type from the input type.

impl<T> From<UpdateNftMetadata<T, T>> for Condition<T>

fn from(inner: UpdateNftMetadata<T, T>) -> Condition<T>

Converts to this type from the input type.

impl<T, Node, D> FromClvm<D> for Condition<T>

where T: FromClvm<D>, D: ClvmDecoder<Node = Node>,

fn from_clvm(decoder: &D, node: Node) -> Result<Condition<T>, FromClvmError>

impl<T> PartialEq for Condition<T>

where T: PartialEq,

fn eq(&self, other: &Condition<T>) -> bool

Tests for self and other values to be equal, and is used by ==.

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

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

impl<T, Node, E> ToClvm<E> for Condition<T>

where T: ToClvm<E>, E: ClvmEncoder<Node = Node>,

fn to_clvm(&self, encoder: &mut E) -> Result<Node, ToClvmError>

impl<T> Eq for Condition<T>

where T: Eq,

impl<T> StructuralPartialEq for Condition<T>