quantity! {
quantity: LinearNumberDensity; "linear number density";
dimension: ISQ<
N1, Z0, Z0, Z0, Z0, Z0, Z0>; kind: dyn (crate::si::marker::ConstituentConcentrationKind);
units {
@per_kilometer: prefix!(none) / prefix!(kilo); "km⁻¹", "per kilometer", "per kilometer";
@per_meter: prefix!(none); "m⁻¹", "per meter", "per meter";
@per_decimeter: prefix!(none) / prefix!(deci); "dm⁻¹", "per decimeter", "per decimeter";
@per_centimeter: prefix!(none) / prefix!(centi); "cm⁻¹", "per centimeter", "per centimeter";
@per_millimeter: prefix!(none) / prefix!(milli); "mm⁻¹", "per millimeter", "per millimeter";
@per_foot: prefix!(none) / 3.048_E-1; "ft⁻¹", "per foot", "per foot";
@per_foot_survey: prefix!(none) / 3.048_006_E-1; "ft (U.S. survey)", "foot (U.S. survey)",
"foot (U.S. survey)";
@per_inch: prefix!(none) / 2.54_E-2; "in⁻¹", "per inch", "per inch";
@per_mile: prefix!(none) / 1.609_344_E3; "mi⁻¹", "per mile", "per mile";
@per_mile_survey: prefix!(none) / 1.609_347_E3; "mi⁻¹ (U.S. survey)",
"per mile (U.S. survey)", "per mile (U.S. survey)";
@per_nautical_mile: prefix!(none) / 1.852_E3; "M⁻¹", "per nautical mile",
"per nautical mile";
@per_yard: prefix!(none) / 9.144_E-1; "yd⁻¹", "per yard", "per yard";
}
}
#[cfg(test)]
mod test {
storage_types! {
use crate::num::One;
use crate::si::length as l;
use crate::si::linear_number_density as n;
use crate::si::quantities::*;
use crate::tests::Test;
#[test]
fn check_dimension() {
let _: LinearNumberDensity<V> = (V::one()
/ Length::new::<l::meter>(V::one())).into();
}
#[test]
fn check_units() {
test::<n::per_kilometer, l::kilometer>();
test::<n::per_meter, l::meter>();
test::<n::per_decimeter, l::decimeter>();
test::<n::per_centimeter, l::centimeter>();
test::<n::per_millimeter, l::millimeter>();
fn test<N: n::Conversion<V>, L: l::Conversion<V>>() {
Test::assert_approx_eq(&LinearNumberDensity::new::<N>(V::one()),
&(V::one() / Length::new::<L>(V::one())).into());
}
}
}
}