use std::fmt::Display;
use super::{BaseUnit, Convert, Metric, UnitElectricPotential};
impl Display for UnitElectricPotential {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
write!(f, "{}V", self.get_metric().as_str())
}
}
impl From<UnitElectricPotential> for String {
fn from(val: UnitElectricPotential) -> Self {
val.to_string()
}
}
impl Convert<UnitElectricPotential> for UnitElectricPotential {
fn convert(&self, other: &UnitElectricPotential) -> f64 {
self.scale() / other.scale()
}
}
impl BaseUnit for UnitElectricPotential {
fn scale(&self) -> f64 {
match self {
Self::Volt(m) => m.scale(),
}
}
fn get_metric(&self) -> Metric {
match self {
Self::Volt(m) => *m,
}
}
fn base(&self) -> f64 {
1.0
}
}
#[cfg(test)]
mod electrical_potential_testing {
use crate::units::{BaseUnit, Metric, UnitElectricPotential};
#[test]
fn unit_angle_base_comparison() {
assert!(UnitElectricPotential::Volt(Metric::None).base() == 1.0);
}
#[test]
fn unit_angle_to_string() {
for i in [
(UnitElectricPotential::Volt(Metric::Ronto), "rV"),
(UnitElectricPotential::Volt(Metric::Ronna), "RV"),
(UnitElectricPotential::Volt(Metric::Quetta), "QV"),
(UnitElectricPotential::Volt(Metric::Quecto), "qV"),
(UnitElectricPotential::Volt(Metric::Atto), "aV"),
(UnitElectricPotential::Volt(Metric::Centi), "cV"),
(UnitElectricPotential::Volt(Metric::Deca), "daV"),
(UnitElectricPotential::Volt(Metric::Deci), "dV"),
(UnitElectricPotential::Volt(Metric::Exa), "EV"),
(UnitElectricPotential::Volt(Metric::Femto), "fV"),
(UnitElectricPotential::Volt(Metric::Giga), "GV"),
(UnitElectricPotential::Volt(Metric::Hecto), "hV"),
(UnitElectricPotential::Volt(Metric::Kilo), "kV"),
(UnitElectricPotential::Volt(Metric::Mega), "MV"),
(UnitElectricPotential::Volt(Metric::Micro), "μV"),
(UnitElectricPotential::Volt(Metric::Milli), "mV"),
(UnitElectricPotential::Volt(Metric::Nano), "nV"),
(UnitElectricPotential::Volt(Metric::None), "V"),
(UnitElectricPotential::Volt(Metric::Peta), "PV"),
(UnitElectricPotential::Volt(Metric::Pico), "pV"),
(UnitElectricPotential::Volt(Metric::Tera), "TV"),
(UnitElectricPotential::Volt(Metric::Yocto), "yV"),
(UnitElectricPotential::Volt(Metric::Yotta), "YV"),
(UnitElectricPotential::Volt(Metric::Zepto), "zV"),
(UnitElectricPotential::Volt(Metric::Zetta), "ZV"),
] {
assert_eq!(&i.0.to_string(), i.1);
let t: String = i.0.into();
assert_eq!(t, i.1.to_string());
}
}
#[test]
fn unit_angle_scale() {
for i in [
(UnitElectricPotential::Volt(Metric::Ronto), Metric::Ronto),
(UnitElectricPotential::Volt(Metric::Ronna), Metric::Ronna),
(UnitElectricPotential::Volt(Metric::Quetta), Metric::Quetta),
(UnitElectricPotential::Volt(Metric::Quecto), Metric::Quecto),
(UnitElectricPotential::Volt(Metric::Atto), Metric::Atto),
(UnitElectricPotential::Volt(Metric::Centi), Metric::Centi),
(UnitElectricPotential::Volt(Metric::Deca), Metric::Deca),
(UnitElectricPotential::Volt(Metric::Deci), Metric::Deci),
(UnitElectricPotential::Volt(Metric::Exa), Metric::Exa),
(UnitElectricPotential::Volt(Metric::Femto), Metric::Femto),
(UnitElectricPotential::Volt(Metric::Giga), Metric::Giga),
(UnitElectricPotential::Volt(Metric::Hecto), Metric::Hecto),
(UnitElectricPotential::Volt(Metric::Kilo), Metric::Kilo),
(UnitElectricPotential::Volt(Metric::Mega), Metric::Mega),
(UnitElectricPotential::Volt(Metric::Micro), Metric::Micro),
(UnitElectricPotential::Volt(Metric::Milli), Metric::Milli),
(UnitElectricPotential::Volt(Metric::Nano), Metric::Nano),
(UnitElectricPotential::Volt(Metric::None), Metric::None),
(UnitElectricPotential::Volt(Metric::Peta), Metric::Peta),
(UnitElectricPotential::Volt(Metric::Pico), Metric::Pico),
(UnitElectricPotential::Volt(Metric::Tera), Metric::Tera),
(UnitElectricPotential::Volt(Metric::Yocto), Metric::Yocto),
(UnitElectricPotential::Volt(Metric::Yotta), Metric::Yotta),
(UnitElectricPotential::Volt(Metric::Zepto), Metric::Zepto),
(UnitElectricPotential::Volt(Metric::Zetta), Metric::Zetta),
] {
assert_eq!(i.0.get_metric(), i.1);
}
for i in [
(UnitElectricPotential::Volt(Metric::Ronto), 1.0e-27),
(UnitElectricPotential::Volt(Metric::Ronna), 1.0e27),
(UnitElectricPotential::Volt(Metric::Quetta), 1.0e30),
(UnitElectricPotential::Volt(Metric::Quecto), 1.0e-30),
(UnitElectricPotential::Volt(Metric::Atto), 1.0e-18),
(UnitElectricPotential::Volt(Metric::Centi), 0.01),
(UnitElectricPotential::Volt(Metric::Deca), 10.0),
(UnitElectricPotential::Volt(Metric::Deci), 0.1),
(UnitElectricPotential::Volt(Metric::Exa), 1.0e18),
(UnitElectricPotential::Volt(Metric::Femto), 1.0e-15),
(UnitElectricPotential::Volt(Metric::Giga), 1.0e9),
(UnitElectricPotential::Volt(Metric::Hecto), 100.0),
(UnitElectricPotential::Volt(Metric::Kilo), 1.0e3),
(UnitElectricPotential::Volt(Metric::Mega), 1.0e6),
(UnitElectricPotential::Volt(Metric::Micro), 1.0e-6),
(UnitElectricPotential::Volt(Metric::Milli), 0.001),
(UnitElectricPotential::Volt(Metric::Nano), 1.0e-9),
(UnitElectricPotential::Volt(Metric::None), 1.0),
(UnitElectricPotential::Volt(Metric::Peta), 1.0e15),
(UnitElectricPotential::Volt(Metric::Pico), 1.0e-12),
(UnitElectricPotential::Volt(Metric::Tera), 1.0e12),
(UnitElectricPotential::Volt(Metric::Yocto), 1.0e-24),
(UnitElectricPotential::Volt(Metric::Yotta), 1.0e24),
(UnitElectricPotential::Volt(Metric::Zepto), 1.0e-21),
(UnitElectricPotential::Volt(Metric::Zetta), 1.0e21),
] {
assert_eq!(i.0.scale(), i.1);
}
}
}