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quantity! {
quantity: Acceleration; "acceleration";
dimension: ISQ<
P1,
Z0,
N2,
Z0,
Z0,
Z0,
Z0>;
units {
@yottameter_per_second_squared: prefix!(yotta); "Ym/s²", "yottameter per second squared",
"yottameters per second squared";
@zettameter_per_second_squared: prefix!(zetta); "Zm/s²", "zettameter per second squared",
"zettameters per second squared";
@exameter_per_second_squared: prefix!(exa); "Em/s²", "exameter per second squared",
"exameters per second squared";
@petameter_per_second_squared: prefix!(peta); "Pm/s²", "petameter per second squared",
"petameters per second squared";
@terameter_per_second_squared: prefix!(tera); "Tm/s²", "terameter per second squared",
"terameters per second squared";
@gigameter_per_second_squared: prefix!(giga); "Gm/s²", "gigameter per second squared",
"gigameters per second squared";
@megameter_per_second_squared: prefix!(mega); "Mm/s²", "megameter per second squared",
"megameters per second squared";
@kilometer_per_second_squared: prefix!(kilo); "km/s²", "kilometer per second squared",
"kilometers per second squared";
@hectometer_per_second_squared: prefix!(hecto); "hm/s²", "hectometer per second squared",
"hectometers per second squared";
@decameter_per_second_squared: prefix!(deca); "dam/s²", "decameter per second squared",
"decameters per second squared";
@meter_per_second_squared: prefix!(none); "m/s²", "meter per second squared",
"meters per second squared";
@decimeter_per_second_squared: prefix!(deci); "dm/s²", "decimeter per second squared",
"decimeters per second squared";
@centimeter_per_second_squared: prefix!(centi); "cm/s²", "centimeter per second squared",
"centimeters per second squared";
@millimeter_per_second_squared: prefix!(milli); "mm/s²", "millimeter per second squared",
"millimeters per second squared";
@micrometer_per_second_squared: prefix!(micro); "µm/s²", "micrometer per second squared",
"micrometers per second squared";
@nanometer_per_second_squared: prefix!(nano); "nm/s²", "nanometer per second squared",
"nanometers per second squared";
@picometer_per_second_squared: prefix!(pico); "pm/s²", "picometer per second squared",
"picometers per second squared";
@femtometer_per_second_squared: prefix!(femto); "fm/s²", "femtometer per second squared",
"femtometers per second squared";
@attometer_per_second_squared: prefix!(atto); "am/s²", "attometer per second squared",
"attometers per second squared";
@zeptometer_per_second_squared: prefix!(zepto); "zm/s²", "zeptometer per second squared",
"zeptometers per second squared";
@yoctometer_per_second_squared: prefix!(yocto); "ym/s²", "yoctometer per second squared",
"yoctometers per second squared";
@foot_per_second_squared: 3.048_E-1; "ft/s²", "foot per second squared",
"feet per second squared";
@galileo: 1.0_E-2; "Gal", "galileo", "galileos";
@inch_per_second_squared: 2.54_E-2; "in/s²", "inch per second squared",
"inches per second squared";
@millimeter_per_minute_squared: 2.777_777_777_777_777_8_E-7; "mm/min²",
"millimeter per minute squared", "millimeters per minute squared";
}
}
#[cfg(test)]
mod tests {
storage_types! {
use crate::si::acceleration as a;
use crate::si::length as l;
use crate::si::quantities::*;
use crate::si::time as t;
use crate::tests::Test;
use crate::num::One;
#[test]
fn check_dimension() {
let _: Acceleration<V> = Length::new::<l::meter>(V::one()) /
(Time::new::<t::second>(V::one()) * Time::new::<t::second>(V::one()));
}
#[test]
fn check_units() {
test::<l::yottameter, t::second, a::yottameter_per_second_squared>();
test::<l::zettameter, t::second, a::zettameter_per_second_squared>();
test::<l::exameter, t::second, a::exameter_per_second_squared>();
test::<l::petameter, t::second, a::petameter_per_second_squared>();
test::<l::terameter, t::second, a::terameter_per_second_squared>();
test::<l::gigameter, t::second, a::gigameter_per_second_squared>();
test::<l::megameter, t::second, a::megameter_per_second_squared>();
test::<l::kilometer, t::second, a::kilometer_per_second_squared>();
test::<l::hectometer, t::second, a::hectometer_per_second_squared>();
test::<l::decameter, t::second, a::decameter_per_second_squared>();
test::<l::meter, t::second, a::meter_per_second_squared>();
test::<l::decimeter, t::second, a::decimeter_per_second_squared>();
test::<l::centimeter, t::second, a::centimeter_per_second_squared>();
test::<l::millimeter, t::second, a::millimeter_per_second_squared>();
test::<l::micrometer, t::second, a::micrometer_per_second_squared>();
test::<l::nanometer, t::second, a::nanometer_per_second_squared>();
test::<l::picometer, t::second, a::picometer_per_second_squared>();
test::<l::femtometer, t::second, a::femtometer_per_second_squared>();
test::<l::attometer, t::second, a::attometer_per_second_squared>();
test::<l::zeptometer, t::second, a::zeptometer_per_second_squared>();
test::<l::yoctometer, t::second, a::yoctometer_per_second_squared>();
test::<l::foot, t::second, a::foot_per_second_squared>();
test::<l::centimeter, t::second, a::galileo>();
test::<l::inch, t::second, a::inch_per_second_squared>();
test::<l::millimeter, t::minute, a::millimeter_per_minute_squared>();
fn test<L: l::Conversion<V>, T: t::Conversion<V>, A: a::Conversion<V>>() {
Test::assert_eq(&Acceleration::new::<A>(V::one()),
&(Length::new::<L>(V::one()) /
(Time::new::<T>(V::one()) * Time::new::<T>(V::one()))));
}
}
}
}
