uom::si::time

Struct second_sidereal

Source 
pub struct second_sidereal;
Expand description

seconds (sidereal)

Trait Implementations§

Source§

impl Clone for second_sidereal

Source§

fn clone(&self) -> second_sidereal

Returns a duplicate of the value. Read more
1.0.0 · Source§

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

Performs copy-assignment from source. Read more
Source§

impl Conversion<BigInt> for second_sidereal

Source§

type T = Ratio<BigInt>

Conversion factor type specific to the underlying storage type.
Source§

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.
Source§

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.
Source§

fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
Source§

impl Conversion<BigUint> for second_sidereal

Source§

type T = Ratio<BigUint>

Conversion factor type specific to the underlying storage type.
Source§

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.
Source§

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.
Source§

fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
Source§

impl Conversion<Ratio<BigInt>> for second_sidereal

Source§

type T = Ratio<BigInt>

Conversion factor type specific to the underlying storage type.
Source§

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.
Source§

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.
Source§

fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
Source§

impl Conversion<Ratio<i32>> for second_sidereal

Source§

type T = Ratio<i32>

Conversion factor type specific to the underlying storage type.
Source§

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.
Source§

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.
Source§

fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
Source§

impl Conversion<Ratio<i64>> for second_sidereal

Source§

type T = Ratio<i64>

Conversion factor type specific to the underlying storage type.
Source§

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.
Source§

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.
Source§

fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
Source§

impl Conversion<Ratio<isize>> for second_sidereal

Source§

type T = Ratio<isize>

Conversion factor type specific to the underlying storage type.
Source§

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.
Source§

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.
Source§

fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
Source§

impl Conversion<f32> for second_sidereal

Source§

type T = f32

Conversion factor type specific to the underlying storage type.
Source§

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.
Source§

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.
Source§

fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
Source§

impl Conversion<f64> for second_sidereal

Source§

type T = f64

Conversion factor type specific to the underlying storage type.
Source§

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.
Source§

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.
Source§

fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
Source§

impl Conversion<i32> for second_sidereal

Source§

type T = Ratio<i32>

Conversion factor type specific to the underlying storage type.
Source§

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.
Source§

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.
Source§

fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
Source§

impl Conversion<i64> for second_sidereal

Source§

type T = Ratio<i64>

Conversion factor type specific to the underlying storage type.
Source§

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.
Source§

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.
Source§

fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
Source§

impl Conversion<isize> for second_sidereal

Source§

type T = Ratio<isize>

Conversion factor type specific to the underlying storage type.
Source§

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.
Source§

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.
Source§

fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
Source§

impl Conversion<u32> for second_sidereal

Source§

type T = Ratio<u32>

Conversion factor type specific to the underlying storage type.
Source§

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.
Source§

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.
Source§

fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
Source§

impl Conversion<u64> for second_sidereal

Source§

type T = Ratio<u64>

Conversion factor type specific to the underlying storage type.
Source§

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.
Source§

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.
Source§

fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
Source§

impl Conversion<usize> for second_sidereal

Source§

type T = Ratio<usize>

Conversion factor type specific to the underlying storage type.
Source§

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.
Source§

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.
Source§

fn conversion(&self) -> Self::T
where Self: Sized,

Instance conversion factor. Read more
Source§

impl Debug for second_sidereal

Source§

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

Formats the value using the given formatter. Read more
Source§

impl Hash for second_sidereal

Source§

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

Feeds this value into the given Hasher. Read more
1.3.0 · Source§

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
Source§

impl Unit for second_sidereal

Source§

fn abbreviation() -> &'static str

Unit abbreviation.
Source§

fn singular() -> &'static str

Unit singular description.
Source§

fn plural() -> &'static str

Unit plural description.
Source§

impl Conversion<BigInt> for second_sidereal

Source§

impl Conversion<BigUint> for second_sidereal

Source§

impl Conversion<Ratio<BigInt>> for second_sidereal

Source§

impl Conversion<Ratio<i32>> for second_sidereal

Source§

impl Conversion<Ratio<i64>> for second_sidereal

Source§

impl Conversion<Ratio<isize>> for second_sidereal

Source§

impl Conversion<f32> for second_sidereal

Source§

impl Conversion<f64> for second_sidereal

Source§

impl Conversion<i32> for second_sidereal

Source§

impl Conversion<i64> for second_sidereal

Source§

impl Conversion<isize> for second_sidereal

Source§

impl Conversion<u32> for second_sidereal

Source§

impl Conversion<u64> for second_sidereal

Source§

impl Conversion<usize> for second_sidereal

Source§

impl Copy for second_sidereal

Source§

impl Unit for second_sidereal

Auto Trait Implementations§

Blanket Implementations§

Source§

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

Source§

fn type_id(&self) -> TypeId

Gets the TypeId of self. Read more
Source§

impl<T> Borrow<T> for T
where T: ?Sized,

Source§

fn borrow(&self) -> &T

Immutably borrows from an owned value. Read more
Source§

impl<T> BorrowMut<T> for T
where T: ?Sized,

Source§

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

Mutably borrows from an owned value. Read more
Source§

impl<T> CloneToUninit for T
where T: Clone,

Source§

unsafe fn clone_to_uninit(&self, dest: *mut u8)

🔬This is a nightly-only experimental API. (clone_to_uninit)
Performs copy-assignment from self to dest. Read more
Source§

impl<T> From<T> for T

Source§

fn from(t: T) -> T

Returns the argument unchanged.

Source§

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

Source§

fn into(self) -> U

Calls U::from(self).

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

Source§

impl<T> Same for T

Source§

type Output = T

Should always be Self
Source§

impl<T> ToOwned for T
where T: Clone,

Source§

type Owned = T

The resulting type after obtaining ownership.
Source§

fn to_owned(&self) -> T

Creates owned data from borrowed data, usually by cloning. Read more
Source§

fn clone_into(&self, target: &mut T)

Uses borrowed data to replace owned data, usually by cloning. Read more
Source§

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

Source§

type Error = Infallible

The type returned in the event of a conversion error.
Source§

fn try_from(value: U) -> Result<T, <T as TryFrom<U>>::Error>

Performs the conversion.
Source§

impl<T, U> TryInto<U> for T
where U: TryFrom<T>,

Source§

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

The type returned in the event of a conversion error.
Source§

fn try_into(self) -> Result<U, <U as TryFrom<T>>::Error>

Performs the conversion.