[−][src]Struct generic_array::GenericArray
Struct representing a generic array - GenericArray<T, N>
works like [T; N]
Methods
impl<T, N> GenericArray<T, N> where
N: ArrayLength<T>,
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N: ArrayLength<T>,
pub fn as_slice(&self) -> &[T]
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Extracts a slice containing the entire array.
pub fn as_mut_slice(&mut self) -> &mut [T]
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Extracts a mutable slice containing the entire array.
pub fn from_slice(slice: &[T]) -> &GenericArray<T, N>
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Converts slice to a generic array reference with inferred length;
Length of the slice must be equal to the length of the array.
pub fn from_mut_slice(slice: &mut [T]) -> &mut GenericArray<T, N>
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Converts mutable slice to a mutable generic array reference
Length of the slice must be equal to the length of the array.
impl<T: Clone, N> GenericArray<T, N> where
N: ArrayLength<T>,
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N: ArrayLength<T>,
pub fn clone_from_slice(list: &[T]) -> GenericArray<T, N>
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Construct a GenericArray
from a slice by cloning its content
Length of the slice must be equal to the length of the array
impl<T, N> GenericArray<T, N> where
N: ArrayLength<T>,
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N: ArrayLength<T>,
pub fn from_exact_iter<I>(iter: I) -> Option<Self> where
I: IntoIterator<Item = T>,
<I as IntoIterator>::IntoIter: ExactSizeIterator,
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I: IntoIterator<Item = T>,
<I as IntoIterator>::IntoIter: ExactSizeIterator,
Creates a new GenericArray
instance from an iterator with a known exact size.
Returns None
if the size is not equal to the number of elements in the GenericArray
.
Trait Implementations
impl<T, U, N> MappedGenericSequence<T, U> for GenericArray<T, N> where
N: ArrayLength<T> + ArrayLength<U>,
GenericArray<U, N>: GenericSequence<U, Length = N>,
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N: ArrayLength<T> + ArrayLength<U>,
GenericArray<U, N>: GenericSequence<U, Length = N>,
type Mapped = GenericArray<U, N>
Mapped sequence type
impl<T, N> FunctionalSequence<T> for GenericArray<T, N> where
N: ArrayLength<T>,
Self: GenericSequence<T, Item = T, Length = N>,
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N: ArrayLength<T>,
Self: GenericSequence<T, Item = T, Length = N>,
fn map<U, F>(self, f: F) -> MappedSequence<Self, T, U> where
Self::Length: ArrayLength<U>,
Self: MappedGenericSequence<T, U>,
F: FnMut(T) -> U,
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Self::Length: ArrayLength<U>,
Self: MappedGenericSequence<T, U>,
F: FnMut(T) -> U,
fn zip<B, Rhs, U, F>(self, rhs: Rhs, f: F) -> MappedSequence<Self, T, U> where
Self: MappedGenericSequence<T, U>,
Rhs: MappedGenericSequence<B, U, Mapped = MappedSequence<Self, T, U>>,
Self::Length: ArrayLength<B> + ArrayLength<U>,
Rhs: GenericSequence<B, Length = Self::Length>,
F: FnMut(T, Rhs::Item) -> U,
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Self: MappedGenericSequence<T, U>,
Rhs: MappedGenericSequence<B, U, Mapped = MappedSequence<Self, T, U>>,
Self::Length: ArrayLength<B> + ArrayLength<U>,
Rhs: GenericSequence<B, Length = Self::Length>,
F: FnMut(T, Rhs::Item) -> U,
fn fold<U, F>(self, init: U, f: F) -> U where
F: FnMut(U, T) -> U,
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F: FnMut(U, T) -> U,
impl<T, N> GenericSequence<T> for GenericArray<T, N> where
N: ArrayLength<T>,
Self: IntoIterator<Item = T>,
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N: ArrayLength<T>,
Self: IntoIterator<Item = T>,
type Length = N
GenericArray
associated length
type Sequence = Self
Concrete sequence type used in conjuction with reference implementations of GenericSequence
fn generate<F>(f: F) -> GenericArray<T, N> where
F: FnMut(usize) -> T,
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F: FnMut(usize) -> T,
impl<T, N: ArrayLength<T>> Lengthen<T> for GenericArray<T, N> where
N: Add<B1>,
Add1<N>: ArrayLength<T>,
Add1<N>: Sub<B1, Output = N>,
Sub1<Add1<N>>: ArrayLength<T>,
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N: Add<B1>,
Add1<N>: ArrayLength<T>,
Add1<N>: Sub<B1, Output = N>,
Sub1<Add1<N>>: ArrayLength<T>,
type Longer = GenericArray<T, Add1<N>>
GenericSequence
that has one more element than Self
fn append(self, last: T) -> Self::Longer
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fn prepend(self, first: T) -> Self::Longer
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impl<T, N: ArrayLength<T>> Shorten<T> for GenericArray<T, N> where
N: Sub<B1>,
Sub1<N>: ArrayLength<T>,
Sub1<N>: Add<B1, Output = N>,
Add1<Sub1<N>>: ArrayLength<T>,
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N: Sub<B1>,
Sub1<N>: ArrayLength<T>,
Sub1<N>: Add<B1, Output = N>,
Add1<Sub1<N>>: ArrayLength<T>,
type Shorter = GenericArray<T, Sub1<N>>
GenericSequence
that has one less element than Self
fn pop_back(self) -> (Self::Shorter, T)
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fn pop_front(self) -> (T, Self::Shorter)
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impl<T, N, K> Split<T, K> for GenericArray<T, N> where
N: ArrayLength<T>,
K: ArrayLength<T>,
N: Sub<K>,
Diff<N, K>: ArrayLength<T>,
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N: ArrayLength<T>,
K: ArrayLength<T>,
N: Sub<K>,
Diff<N, K>: ArrayLength<T>,
type First = GenericArray<T, K>
First part of the resulting split array
type Second = GenericArray<T, Diff<N, K>>
Second part of the resulting split array
fn split(self) -> (Self::First, Self::Second)
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impl<T, N, M> Concat<T, M> for GenericArray<T, N> where
N: ArrayLength<T> + Add<M>,
M: ArrayLength<T>,
Sum<N, M>: ArrayLength<T>,
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N: ArrayLength<T> + Add<M>,
M: ArrayLength<T>,
Sum<N, M>: ArrayLength<T>,
type Rest = GenericArray<T, M>
Sequence to be concatenated with self
type Output = GenericArray<T, Sum<N, M>>
Resulting sequence formed by the concatenation.
fn concat(self, rest: Self::Rest) -> Self::Output
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impl<T> From<[T; 1]> for GenericArray<T, U1>
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impl<T> From<[T; 2]> for GenericArray<T, U2>
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impl<T> From<[T; 3]> for GenericArray<T, U3>
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impl<T> From<[T; 4]> for GenericArray<T, U4>
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impl<T> From<[T; 5]> for GenericArray<T, U5>
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impl<T> From<[T; 6]> for GenericArray<T, U6>
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impl<T> From<[T; 7]> for GenericArray<T, U7>
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impl<T> From<[T; 8]> for GenericArray<T, U8>
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impl<T> From<[T; 9]> for GenericArray<T, U9>
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impl<T> From<[T; 10]> for GenericArray<T, U10>
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impl<T> From<[T; 11]> for GenericArray<T, U11>
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impl<T> From<[T; 12]> for GenericArray<T, U12>
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impl<T> From<[T; 13]> for GenericArray<T, U13>
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impl<T> From<[T; 14]> for GenericArray<T, U14>
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impl<T> From<[T; 15]> for GenericArray<T, U15>
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impl<T> From<[T; 16]> for GenericArray<T, U16>
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impl<T> From<[T; 17]> for GenericArray<T, U17>
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impl<T> From<[T; 18]> for GenericArray<T, U18>
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impl<T> From<[T; 19]> for GenericArray<T, U19>
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impl<T> From<[T; 20]> for GenericArray<T, U20>
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impl<T> From<[T; 21]> for GenericArray<T, U21>
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impl<T> From<[T; 22]> for GenericArray<T, U22>
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impl<T> From<[T; 23]> for GenericArray<T, U23>
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impl<T> From<[T; 24]> for GenericArray<T, U24>
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impl<T> From<[T; 25]> for GenericArray<T, U25>
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impl<T> From<[T; 26]> for GenericArray<T, U26>
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impl<T> From<[T; 27]> for GenericArray<T, U27>
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impl<T> From<[T; 28]> for GenericArray<T, U28>
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impl<T> From<[T; 29]> for GenericArray<T, U29>
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impl<T> From<[T; 30]> for GenericArray<T, U30>
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impl<T> From<[T; 31]> for GenericArray<T, U31>
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impl<T> From<[T; 32]> for GenericArray<T, U32>
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impl<'a, T, N: ArrayLength<T>> From<&'a [T]> for &'a GenericArray<T, N>
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fn from(slice: &[T]) -> &GenericArray<T, N>
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Converts slice to a generic array reference with inferred length;
Length of the slice must be equal to the length of the array.
impl<'a, T, N: ArrayLength<T>> From<&'a mut [T]> for &'a mut GenericArray<T, N>
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fn from(slice: &mut [T]) -> &mut GenericArray<T, N>
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Converts mutable slice to a mutable generic array reference
Length of the slice must be equal to the length of the array.
impl<T: Debug, N> Debug for GenericArray<T, N> where
N: ArrayLength<T>,
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N: ArrayLength<T>,
impl<T: PartialEq, N> PartialEq<GenericArray<T, N>> for GenericArray<T, N> where
N: ArrayLength<T>,
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N: ArrayLength<T>,
impl<T: Eq, N> Eq for GenericArray<T, N> where
N: ArrayLength<T>,
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N: ArrayLength<T>,
impl<T: Ord, N> Ord for GenericArray<T, N> where
N: ArrayLength<T>,
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N: ArrayLength<T>,
fn cmp(&self, other: &GenericArray<T, N>) -> Ordering
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fn max(self, other: Self) -> Self
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fn min(self, other: Self) -> Self
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fn clamp(self, min: Self, max: Self) -> Self
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impl<T: PartialOrd, N> PartialOrd<GenericArray<T, N>> for GenericArray<T, N> where
N: ArrayLength<T>,
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N: ArrayLength<T>,
fn partial_cmp(&self, other: &GenericArray<T, N>) -> Option<Ordering>
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#[must_use]
fn lt(&self, other: &Rhs) -> bool
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#[must_use]
fn le(&self, other: &Rhs) -> bool
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#[must_use]
fn gt(&self, other: &Rhs) -> bool
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#[must_use]
fn ge(&self, other: &Rhs) -> bool
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impl<T, N> Deref for GenericArray<T, N> where
N: ArrayLength<T>,
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N: ArrayLength<T>,
impl<T, N> DerefMut for GenericArray<T, N> where
N: ArrayLength<T>,
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N: ArrayLength<T>,
impl<T: Hash, N> Hash for GenericArray<T, N> where
N: ArrayLength<T>,
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N: ArrayLength<T>,
fn hash<H>(&self, state: &mut H) where
H: Hasher,
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H: Hasher,
fn hash_slice<H>(data: &[Self], state: &mut H) where
H: Hasher,
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H: Hasher,
impl<T: Copy, N> Copy for GenericArray<T, N> where
N: ArrayLength<T>,
N::ArrayType: Copy,
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N: ArrayLength<T>,
N::ArrayType: Copy,
impl<T: Send, N: ArrayLength<T>> Send for GenericArray<T, N>
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impl<T: Sync, N: ArrayLength<T>> Sync for GenericArray<T, N>
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impl<T, N> FromIterator<T> for GenericArray<T, N> where
N: ArrayLength<T>,
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N: ArrayLength<T>,
fn from_iter<I>(iter: I) -> GenericArray<T, N> where
I: IntoIterator<Item = T>,
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I: IntoIterator<Item = T>,
impl<T, N> IntoIterator for GenericArray<T, N> where
N: ArrayLength<T>,
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N: ArrayLength<T>,
type Item = T
The type of the elements being iterated over.
type IntoIter = GenericArrayIter<T, N>
Which kind of iterator are we turning this into?
fn into_iter(self) -> Self::IntoIter
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impl<'a, T: 'a, N> IntoIterator for &'a GenericArray<T, N> where
N: ArrayLength<T>,
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N: ArrayLength<T>,
type IntoIter = Iter<'a, T>
Which kind of iterator are we turning this into?
type Item = &'a T
The type of the elements being iterated over.
fn into_iter(self: &'a GenericArray<T, N>) -> Self::IntoIter
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impl<'a, T: 'a, N> IntoIterator for &'a mut GenericArray<T, N> where
N: ArrayLength<T>,
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N: ArrayLength<T>,
type IntoIter = IterMut<'a, T>
Which kind of iterator are we turning this into?
type Item = &'a mut T
The type of the elements being iterated over.
fn into_iter(self: &'a mut GenericArray<T, N>) -> Self::IntoIter
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impl<T, N> AsRef<[T]> for GenericArray<T, N> where
N: ArrayLength<T>,
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N: ArrayLength<T>,
impl<T, N> AsMut<[T]> for GenericArray<T, N> where
N: ArrayLength<T>,
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N: ArrayLength<T>,
impl<T> Into<[T; 1]> for GenericArray<T, U1>
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impl<T> Into<[T; 2]> for GenericArray<T, U2>
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impl<T> Into<[T; 3]> for GenericArray<T, U3>
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impl<T> Into<[T; 4]> for GenericArray<T, U4>
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impl<T> Into<[T; 5]> for GenericArray<T, U5>
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impl<T> Into<[T; 6]> for GenericArray<T, U6>
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impl<T> Into<[T; 7]> for GenericArray<T, U7>
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impl<T> Into<[T; 8]> for GenericArray<T, U8>
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impl<T> Into<[T; 9]> for GenericArray<T, U9>
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impl<T> Into<[T; 10]> for GenericArray<T, U10>
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impl<T> Into<[T; 11]> for GenericArray<T, U11>
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impl<T> Into<[T; 12]> for GenericArray<T, U12>
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impl<T> Into<[T; 13]> for GenericArray<T, U13>
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impl<T> Into<[T; 14]> for GenericArray<T, U14>
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impl<T> Into<[T; 15]> for GenericArray<T, U15>
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impl<T> Into<[T; 16]> for GenericArray<T, U16>
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impl<T> Into<[T; 17]> for GenericArray<T, U17>
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impl<T> Into<[T; 18]> for GenericArray<T, U18>
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impl<T> Into<[T; 19]> for GenericArray<T, U19>
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impl<T> Into<[T; 20]> for GenericArray<T, U20>
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impl<T> Into<[T; 21]> for GenericArray<T, U21>
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impl<T> Into<[T; 22]> for GenericArray<T, U22>
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impl<T> Into<[T; 23]> for GenericArray<T, U23>
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impl<T> Into<[T; 24]> for GenericArray<T, U24>
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impl<T> Into<[T; 25]> for GenericArray<T, U25>
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impl<T> Into<[T; 26]> for GenericArray<T, U26>
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impl<T> Into<[T; 27]> for GenericArray<T, U27>
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impl<T> Into<[T; 28]> for GenericArray<T, U28>
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impl<T> Into<[T; 29]> for GenericArray<T, U29>
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impl<T> Into<[T; 30]> for GenericArray<T, U30>
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impl<T> Into<[T; 31]> for GenericArray<T, U31>
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impl<T> Into<[T; 32]> for GenericArray<T, U32>
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impl<T: ArrayLength<u8>> LowerHex for GenericArray<u8, T> where
T: Add<T>,
<T as Add<T>>::Output: ArrayLength<u8>,
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T: Add<T>,
<T as Add<T>>::Output: ArrayLength<u8>,
impl<T: ArrayLength<u8>> UpperHex for GenericArray<u8, T> where
T: Add<T>,
<T as Add<T>>::Output: ArrayLength<u8>,
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T: Add<T>,
<T as Add<T>>::Output: ArrayLength<u8>,
impl<T: Clone, N> Clone for GenericArray<T, N> where
N: ArrayLength<T>,
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N: ArrayLength<T>,
fn clone(&self) -> GenericArray<T, N>
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fn clone_from(&mut self, source: &Self)
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impl<T: Default, N> Default for GenericArray<T, N> where
N: ArrayLength<T>,
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N: ArrayLength<T>,
impl<T, N> Borrow<[T]> for GenericArray<T, N> where
N: ArrayLength<T>,
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N: ArrayLength<T>,
impl<T, N> BorrowMut<[T]> for GenericArray<T, N> where
N: ArrayLength<T>,
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N: ArrayLength<T>,
fn borrow_mut(&mut self) -> &mut [T]
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Auto Trait Implementations
impl<T, U> Unpin for GenericArray<T, U> where
<U as ArrayLength<T>>::ArrayType: Unpin,
<U as ArrayLength<T>>::ArrayType: Unpin,
Blanket Implementations
impl<T> From<T> for T
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impl<T, U> TryFrom<U> for T where
U: Into<T>,
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U: Into<T>,
type Error = Infallible
The type returned in the event of a conversion error.
fn try_from(value: U) -> Result<T, <T as TryFrom<U>>::Error>
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impl<I> IntoIterator for I where
I: Iterator,
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I: Iterator,
type Item = <I as Iterator>::Item
The type of the elements being iterated over.
type IntoIter = I
Which kind of iterator are we turning this into?
fn into_iter(self) -> I
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impl<T, U> Into<U> for T where
U: From<T>,
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U: From<T>,
impl<T, U> TryInto<U> for T where
U: TryFrom<T>,
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U: TryFrom<T>,
type Error = <U as TryFrom<T>>::Error
The type returned in the event of a conversion error.
fn try_into(self) -> Result<U, <U as TryFrom<T>>::Error>
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impl<T> Borrow<T> for T where
T: ?Sized,
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T: ?Sized,
impl<T> BorrowMut<T> for T where
T: ?Sized,
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T: ?Sized,
fn borrow_mut(&mut self) -> &mut T
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impl<T> Any for T where
T: 'static + ?Sized,
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T: 'static + ?Sized,
impl<T> Same<T> for T
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type Output = T
Should always be Self