[−][src]Struct heim::cpu::CpuTime
This is supported on
feature="cpu"
only.System CPU time.
Compatibility
For Linux additional information can be retrieved with CpuTimeExt extension trait.
Methods
impl CpuTime
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pub fn user(
&self
) -> Quantity<dyn Dimension<M = Z0, I = Z0, N = Z0, T = PInt<UInt<UTerm, B1>>, Th = Z0, J = Z0, Kind = dyn Kind + 'static, L = Z0> + 'static, dyn Units<f64, thermodynamic_temperature = kelvin, luminous_intensity = candela, amount_of_substance = mole, mass = kilogram, time = second, electric_current = ampere, length = meter> + 'static, f64>
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&self
) -> Quantity<dyn Dimension<M = Z0, I = Z0, N = Z0, T = PInt<UInt<UTerm, B1>>, Th = Z0, J = Z0, Kind = dyn Kind + 'static, L = Z0> + 'static, dyn Units<f64, thermodynamic_temperature = kelvin, luminous_intensity = candela, amount_of_substance = mole, mass = kilogram, time = second, electric_current = ampere, length = meter> + 'static, f64>
This is supported on
feature="cpu"
only.Returns time spent by normal processes executing in user mode.
Compatibility
- on Linux this also includes guest time
pub fn system(
&self
) -> Quantity<dyn Dimension<M = Z0, I = Z0, N = Z0, T = PInt<UInt<UTerm, B1>>, Th = Z0, J = Z0, Kind = dyn Kind + 'static, L = Z0> + 'static, dyn Units<f64, thermodynamic_temperature = kelvin, luminous_intensity = candela, amount_of_substance = mole, mass = kilogram, time = second, electric_current = ampere, length = meter> + 'static, f64>
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&self
) -> Quantity<dyn Dimension<M = Z0, I = Z0, N = Z0, T = PInt<UInt<UTerm, B1>>, Th = Z0, J = Z0, Kind = dyn Kind + 'static, L = Z0> + 'static, dyn Units<f64, thermodynamic_temperature = kelvin, luminous_intensity = candela, amount_of_substance = mole, mass = kilogram, time = second, electric_current = ampere, length = meter> + 'static, f64>
This is supported on
feature="cpu"
only.Returns time spent by processes executing in kernel mode.
pub fn idle(
&self
) -> Quantity<dyn Dimension<M = Z0, I = Z0, N = Z0, T = PInt<UInt<UTerm, B1>>, Th = Z0, J = Z0, Kind = dyn Kind + 'static, L = Z0> + 'static, dyn Units<f64, thermodynamic_temperature = kelvin, luminous_intensity = candela, amount_of_substance = mole, mass = kilogram, time = second, electric_current = ampere, length = meter> + 'static, f64>
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&self
) -> Quantity<dyn Dimension<M = Z0, I = Z0, N = Z0, T = PInt<UInt<UTerm, B1>>, Th = Z0, J = Z0, Kind = dyn Kind + 'static, L = Z0> + 'static, dyn Units<f64, thermodynamic_temperature = kelvin, luminous_intensity = candela, amount_of_substance = mole, mass = kilogram, time = second, electric_current = ampere, length = meter> + 'static, f64>
This is supported on
feature="cpu"
only.Returns time spent doing nothing.
Trait Implementations
impl CpuTimeExt for CpuTime
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fn nice(
&self
) -> Quantity<dyn Dimension<M = Z0, I = Z0, N = Z0, T = PInt<UInt<UTerm, B1>>, Th = Z0, J = Z0, Kind = dyn Kind + 'static, L = Z0> + 'static, dyn Units<f64, thermodynamic_temperature = kelvin, luminous_intensity = candela, amount_of_substance = mole, mass = kilogram, time = second, electric_current = ampere, length = meter> + 'static, f64>
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&self
) -> Quantity<dyn Dimension<M = Z0, I = Z0, N = Z0, T = PInt<UInt<UTerm, B1>>, Th = Z0, J = Z0, Kind = dyn Kind + 'static, L = Z0> + 'static, dyn Units<f64, thermodynamic_temperature = kelvin, luminous_intensity = candela, amount_of_substance = mole, mass = kilogram, time = second, electric_current = ampere, length = meter> + 'static, f64>
fn io_wait(
&self
) -> Quantity<dyn Dimension<M = Z0, I = Z0, N = Z0, T = PInt<UInt<UTerm, B1>>, Th = Z0, J = Z0, Kind = dyn Kind + 'static, L = Z0> + 'static, dyn Units<f64, thermodynamic_temperature = kelvin, luminous_intensity = candela, amount_of_substance = mole, mass = kilogram, time = second, electric_current = ampere, length = meter> + 'static, f64>
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&self
) -> Quantity<dyn Dimension<M = Z0, I = Z0, N = Z0, T = PInt<UInt<UTerm, B1>>, Th = Z0, J = Z0, Kind = dyn Kind + 'static, L = Z0> + 'static, dyn Units<f64, thermodynamic_temperature = kelvin, luminous_intensity = candela, amount_of_substance = mole, mass = kilogram, time = second, electric_current = ampere, length = meter> + 'static, f64>
fn irq(
&self
) -> Quantity<dyn Dimension<M = Z0, I = Z0, N = Z0, T = PInt<UInt<UTerm, B1>>, Th = Z0, J = Z0, Kind = dyn Kind + 'static, L = Z0> + 'static, dyn Units<f64, thermodynamic_temperature = kelvin, luminous_intensity = candela, amount_of_substance = mole, mass = kilogram, time = second, electric_current = ampere, length = meter> + 'static, f64>
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&self
) -> Quantity<dyn Dimension<M = Z0, I = Z0, N = Z0, T = PInt<UInt<UTerm, B1>>, Th = Z0, J = Z0, Kind = dyn Kind + 'static, L = Z0> + 'static, dyn Units<f64, thermodynamic_temperature = kelvin, luminous_intensity = candela, amount_of_substance = mole, mass = kilogram, time = second, electric_current = ampere, length = meter> + 'static, f64>
fn soft_irq(
&self
) -> Quantity<dyn Dimension<M = Z0, I = Z0, N = Z0, T = PInt<UInt<UTerm, B1>>, Th = Z0, J = Z0, Kind = dyn Kind + 'static, L = Z0> + 'static, dyn Units<f64, thermodynamic_temperature = kelvin, luminous_intensity = candela, amount_of_substance = mole, mass = kilogram, time = second, electric_current = ampere, length = meter> + 'static, f64>
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&self
) -> Quantity<dyn Dimension<M = Z0, I = Z0, N = Z0, T = PInt<UInt<UTerm, B1>>, Th = Z0, J = Z0, Kind = dyn Kind + 'static, L = Z0> + 'static, dyn Units<f64, thermodynamic_temperature = kelvin, luminous_intensity = candela, amount_of_substance = mole, mass = kilogram, time = second, electric_current = ampere, length = meter> + 'static, f64>
fn steal(
&self
) -> Quantity<dyn Dimension<M = Z0, I = Z0, N = Z0, T = PInt<UInt<UTerm, B1>>, Th = Z0, J = Z0, Kind = dyn Kind + 'static, L = Z0> + 'static, dyn Units<f64, thermodynamic_temperature = kelvin, luminous_intensity = candela, amount_of_substance = mole, mass = kilogram, time = second, electric_current = ampere, length = meter> + 'static, f64>
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&self
) -> Quantity<dyn Dimension<M = Z0, I = Z0, N = Z0, T = PInt<UInt<UTerm, B1>>, Th = Z0, J = Z0, Kind = dyn Kind + 'static, L = Z0> + 'static, dyn Units<f64, thermodynamic_temperature = kelvin, luminous_intensity = candela, amount_of_substance = mole, mass = kilogram, time = second, electric_current = ampere, length = meter> + 'static, f64>
fn guest(
&self
) -> Option<Quantity<dyn Dimension<M = Z0, I = Z0, N = Z0, T = PInt<UInt<UTerm, B1>>, Th = Z0, J = Z0, Kind = dyn Kind + 'static, L = Z0> + 'static, dyn Units<f64, thermodynamic_temperature = kelvin, luminous_intensity = candela, amount_of_substance = mole, mass = kilogram, time = second, electric_current = ampere, length = meter> + 'static, f64>>
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&self
) -> Option<Quantity<dyn Dimension<M = Z0, I = Z0, N = Z0, T = PInt<UInt<UTerm, B1>>, Th = Z0, J = Z0, Kind = dyn Kind + 'static, L = Z0> + 'static, dyn Units<f64, thermodynamic_temperature = kelvin, luminous_intensity = candela, amount_of_substance = mole, mass = kilogram, time = second, electric_current = ampere, length = meter> + 'static, f64>>
fn guest_nice(
&self
) -> Option<Quantity<dyn Dimension<M = Z0, I = Z0, N = Z0, T = PInt<UInt<UTerm, B1>>, Th = Z0, J = Z0, Kind = dyn Kind + 'static, L = Z0> + 'static, dyn Units<f64, thermodynamic_temperature = kelvin, luminous_intensity = candela, amount_of_substance = mole, mass = kilogram, time = second, electric_current = ampere, length = meter> + 'static, f64>>
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&self
) -> Option<Quantity<dyn Dimension<M = Z0, I = Z0, N = Z0, T = PInt<UInt<UTerm, B1>>, Th = Z0, J = Z0, Kind = dyn Kind + 'static, L = Z0> + 'static, dyn Units<f64, thermodynamic_temperature = kelvin, luminous_intensity = candela, amount_of_substance = mole, mass = kilogram, time = second, electric_current = ampere, length = meter> + 'static, f64>>
impl Debug for CpuTime
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Auto Trait Implementations
impl !RefUnwindSafe for CpuTime
impl Send for CpuTime
impl Sync for CpuTime
impl !Unpin for CpuTime
impl !UnwindSafe for CpuTime
Blanket Implementations
impl<T> Any for T where
T: 'static + ?Sized,
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T: 'static + ?Sized,
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> From<T> for T
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impl<T, U> Into<U> for T where
U: From<T>,
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U: From<T>,
impl<T> Same<T> for T
type Output = T
Should always be Self
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<T, U> TryInto<U> for T where
U: TryFrom<T>,
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U: TryFrom<T>,