Struct uom::si::information::byte

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pub struct byte;
Expand description

The byte is a unit of information consisting of 8 bits.

Although the bit is the base unit of information uom treats it as a derived unit. The byte is treated as the base unit in order to provide more accurate conversion factors for byte derived units which are more commonly used than bits.

Trait Implementations§

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impl Clone for byte

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fn clone(&self) -> byte

Returns a copy of the value. Read more
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fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source. Read more
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impl Conversion<BigInt> for byte

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type T = Ratio<BigInt>

Conversion factor type specific to the underlying storage type.
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fn coefficient() -> Self::T

Coefficient portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the multiplicative identity (Self::T::one()) if no coefficient exists.
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fn constant(op: ConstantOp) -> Self::T

Constant portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the additive identity (Self::T::zero()) if no constant exists. See ConstantOp documentation for details about parameter use to ensure the method optimizes correctly.
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fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
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impl Conversion<BigUint> for byte

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type T = Ratio<BigUint>

Conversion factor type specific to the underlying storage type.
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fn coefficient() -> Self::T

Coefficient portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the multiplicative identity (Self::T::one()) if no coefficient exists.
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fn constant(op: ConstantOp) -> Self::T

Constant portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the additive identity (Self::T::zero()) if no constant exists. See ConstantOp documentation for details about parameter use to ensure the method optimizes correctly.
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fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
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impl Conversion<Ratio<BigInt>> for byte

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type T = Ratio<BigInt>

Conversion factor type specific to the underlying storage type.
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fn coefficient() -> Self::T

Coefficient portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the multiplicative identity (Self::T::one()) if no coefficient exists.
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fn constant(op: ConstantOp) -> Self::T

Constant portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the additive identity (Self::T::zero()) if no constant exists. See ConstantOp documentation for details about parameter use to ensure the method optimizes correctly.
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fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
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impl Conversion<Ratio<i32>> for byte

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type T = Ratio<i32>

Conversion factor type specific to the underlying storage type.
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fn coefficient() -> Self::T

Coefficient portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the multiplicative identity (Self::T::one()) if no coefficient exists.
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fn constant(op: ConstantOp) -> Self::T

Constant portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the additive identity (Self::T::zero()) if no constant exists. See ConstantOp documentation for details about parameter use to ensure the method optimizes correctly.
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fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
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impl Conversion<Ratio<i64>> for byte

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type T = Ratio<i64>

Conversion factor type specific to the underlying storage type.
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fn coefficient() -> Self::T

Coefficient portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the multiplicative identity (Self::T::one()) if no coefficient exists.
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fn constant(op: ConstantOp) -> Self::T

Constant portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the additive identity (Self::T::zero()) if no constant exists. See ConstantOp documentation for details about parameter use to ensure the method optimizes correctly.
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fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
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impl Conversion<Ratio<isize>> for byte

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type T = Ratio<isize>

Conversion factor type specific to the underlying storage type.
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fn coefficient() -> Self::T

Coefficient portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the multiplicative identity (Self::T::one()) if no coefficient exists.
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fn constant(op: ConstantOp) -> Self::T

Constant portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the additive identity (Self::T::zero()) if no constant exists. See ConstantOp documentation for details about parameter use to ensure the method optimizes correctly.
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fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
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impl Conversion<f32> for byte

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type T = f32

Conversion factor type specific to the underlying storage type.
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fn coefficient() -> Self::T

Coefficient portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the multiplicative identity (Self::T::one()) if no coefficient exists.
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fn constant(op: ConstantOp) -> Self::T

Constant portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the additive identity (Self::T::zero()) if no constant exists. See ConstantOp documentation for details about parameter use to ensure the method optimizes correctly.
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fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
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impl Conversion<f64> for byte

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type T = f64

Conversion factor type specific to the underlying storage type.
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fn coefficient() -> Self::T

Coefficient portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the multiplicative identity (Self::T::one()) if no coefficient exists.
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fn constant(op: ConstantOp) -> Self::T

Constant portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the additive identity (Self::T::zero()) if no constant exists. See ConstantOp documentation for details about parameter use to ensure the method optimizes correctly.
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fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
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impl Conversion<i32> for byte

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type T = Ratio<i32>

Conversion factor type specific to the underlying storage type.
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fn coefficient() -> Self::T

Coefficient portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the multiplicative identity (Self::T::one()) if no coefficient exists.
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fn constant(op: ConstantOp) -> Self::T

Constant portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the additive identity (Self::T::zero()) if no constant exists. See ConstantOp documentation for details about parameter use to ensure the method optimizes correctly.
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fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
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impl Conversion<i64> for byte

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type T = Ratio<i64>

Conversion factor type specific to the underlying storage type.
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fn coefficient() -> Self::T

Coefficient portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the multiplicative identity (Self::T::one()) if no coefficient exists.
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fn constant(op: ConstantOp) -> Self::T

Constant portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the additive identity (Self::T::zero()) if no constant exists. See ConstantOp documentation for details about parameter use to ensure the method optimizes correctly.
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fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
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impl Conversion<isize> for byte

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type T = Ratio<isize>

Conversion factor type specific to the underlying storage type.
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fn coefficient() -> Self::T

Coefficient portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the multiplicative identity (Self::T::one()) if no coefficient exists.
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fn constant(op: ConstantOp) -> Self::T

Constant portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the additive identity (Self::T::zero()) if no constant exists. See ConstantOp documentation for details about parameter use to ensure the method optimizes correctly.
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fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
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impl Conversion<u32> for byte

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type T = Ratio<u32>

Conversion factor type specific to the underlying storage type.
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fn coefficient() -> Self::T

Coefficient portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the multiplicative identity (Self::T::one()) if no coefficient exists.
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fn constant(op: ConstantOp) -> Self::T

Constant portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the additive identity (Self::T::zero()) if no constant exists. See ConstantOp documentation for details about parameter use to ensure the method optimizes correctly.
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fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
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impl Conversion<u64> for byte

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type T = Ratio<u64>

Conversion factor type specific to the underlying storage type.
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fn coefficient() -> Self::T

Coefficient portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the multiplicative identity (Self::T::one()) if no coefficient exists.
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fn constant(op: ConstantOp) -> Self::T

Constant portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the additive identity (Self::T::zero()) if no constant exists. See ConstantOp documentation for details about parameter use to ensure the method optimizes correctly.
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fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
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impl Conversion<usize> for byte

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type T = Ratio<usize>

Conversion factor type specific to the underlying storage type.
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fn coefficient() -> Self::T

Coefficient portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the multiplicative identity (Self::T::one()) if no coefficient exists.
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fn constant(op: ConstantOp) -> Self::T

Constant portion of conversion factor for converting the given unit. To convert to the base unit for the quantity use (value + constant()) * coefficient(). To convert from the base unit, (value / coefficient()) - constant() is used. Implementation should return the additive identity (Self::T::zero()) if no constant exists. See ConstantOp documentation for details about parameter use to ensure the method optimizes correctly.
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fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
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impl Debug for byte

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

Formats the value using the given formatter. Read more
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impl Hash for byte

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fn hash<__H: Hasher>(&self, state: &mut __H)

Feeds this value into the given Hasher. Read more
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fn hash_slice<H>(data: &[Self], state: &mut H)
where H: Hasher, Self: Sized,

Feeds a slice of this type into the given Hasher. Read more
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impl Unit for byte

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fn abbreviation() -> &'static str

Unit abbreviation.
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fn singular() -> &'static str

Unit singular description.
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fn plural() -> &'static str

Unit plural description.
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impl Conversion<BigInt> for byte

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impl Conversion<BigUint> for byte

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impl Conversion<Ratio<BigInt>> for byte

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impl Conversion<Ratio<i32>> for byte

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impl Conversion<Ratio<i64>> for byte

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impl Conversion<Ratio<isize>> for byte

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impl Conversion<f32> for byte

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impl Conversion<f64> for byte

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impl Conversion<i32> for byte

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impl Conversion<i64> for byte

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impl Conversion<isize> for byte

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impl Conversion<u32> for byte

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impl Conversion<u64> for byte

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impl Conversion<usize> for byte

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impl Copy for byte

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impl Unit for byte

Auto Trait Implementations§

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impl Freeze for byte

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impl RefUnwindSafe for byte

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impl Send for byte

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impl Sync for byte

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impl Unpin for byte

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impl UnwindSafe for byte

Blanket Implementations§

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impl<T> Any for T
where T: 'static + ?Sized,

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fn type_id(&self) -> TypeId

Gets the TypeId of self. Read more
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impl<T> Borrow<T> for T
where T: ?Sized,

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fn borrow(&self) -> &T

Immutably borrows from an owned value. Read more
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impl<T> BorrowMut<T> for T
where T: ?Sized,

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fn borrow_mut(&mut self) -> &mut T

Mutably borrows from an owned value. Read more
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impl<T> From<T> for T

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fn from(t: T) -> T

Returns the argument unchanged.

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impl<T, U> Into<U> for T
where U: From<T>,

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fn into(self) -> U

Calls U::from(self).

That is, this conversion is whatever the implementation of From<T> for U chooses to do.

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impl<T> Same for T

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type Output = T

Should always be Self
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impl<T> ToOwned for T
where T: Clone,

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type Owned = T

The resulting type after obtaining ownership.
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fn to_owned(&self) -> T

Creates owned data from borrowed data, usually by cloning. Read more
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fn clone_into(&self, target: &mut T)

Uses borrowed data to replace owned data, usually by cloning. Read more
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impl<T, U> TryFrom<U> for T
where U: Into<T>,

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type Error = Infallible

The type returned in the event of a conversion error.
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fn try_from(value: U) -> Result<T, <T as TryFrom<U>>::Error>

Performs the conversion.
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impl<T, U> TryInto<U> for T
where U: TryFrom<T>,

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type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.
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fn try_into(self) -> Result<U, <U as TryFrom<T>>::Error>

Performs the conversion.