#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash, PartialOrd, Ord, strum :: EnumIter)]
#[cfg_attr(feature = "serde", derive(serde::Serialize, serde::Deserialize))]
#[cfg_attr(feature = "arbitrary", derive(arbitrary::Arbitrary))]
#[cfg_attr(feature = "mem_size", derive(mem_dbg::MemSize))]
#[cfg_attr(feature = "mem_dbg", derive(mem_dbg::MemDbg))]
#[cfg_attr(feature = "mem_size", mem_size(flat))]
pub enum NeptuniumIsotope {
Np219,
Np220,
Np222,
Np223,
Np224,
Np225,
Np226,
Np227,
Np228,
Np229,
Np230,
Np231,
Np232,
Np233,
Np234,
Np235,
Np236,
Np237,
Np238,
Np239,
Np240,
Np241,
Np242,
Np243,
Np244,
Np245,
}
impl super::RelativeAtomicMass for NeptuniumIsotope {
#[inline]
fn relative_atomic_mass(&self) -> f64 {
match self {
Self::Np219 => 219.03143f64,
Self::Np220 => 220.03254f64,
Self::Np222 => 222.0333f64,
Self::Np223 => 223.03285f64,
Self::Np224 => 224.03422f64,
Self::Np225 => 225.033911f64,
Self::Np226 => 226.035188f64,
Self::Np227 => 227.034957f64,
Self::Np228 => 228.036067f64,
Self::Np229 => 229.036264f64,
Self::Np230 => 230.037828f64,
Self::Np231 => 231.038245f64,
Self::Np232 => 232.04011f64,
Self::Np233 => 233.040741f64,
Self::Np234 => 234.0428953f64,
Self::Np235 => 235.0440635f64,
Self::Np236 => 236.04657f64,
Self::Np237 => 237.0481736f64,
Self::Np238 => 238.0509466f64,
Self::Np239 => 239.0529392f64,
Self::Np240 => 240.056165f64,
Self::Np241 => 241.058253f64,
Self::Np242 => 242.06164f64,
Self::Np243 => 243.06428f64,
Self::Np244 => 244.06785f64,
Self::Np245 => 245.070693f64,
}
}
}
impl super::ElementVariant for NeptuniumIsotope {
#[inline]
fn element(&self) -> crate::Element {
crate::Element::Np
}
}
impl super::MassNumber for NeptuniumIsotope {
#[inline]
fn mass_number(&self) -> u16 {
match self {
Self::Np219 => 219u16,
Self::Np220 => 220u16,
Self::Np222 => 222u16,
Self::Np223 => 223u16,
Self::Np224 => 224u16,
Self::Np225 => 225u16,
Self::Np226 => 226u16,
Self::Np227 => 227u16,
Self::Np228 => 228u16,
Self::Np229 => 229u16,
Self::Np230 => 230u16,
Self::Np231 => 231u16,
Self::Np232 => 232u16,
Self::Np233 => 233u16,
Self::Np234 => 234u16,
Self::Np235 => 235u16,
Self::Np236 => 236u16,
Self::Np237 => 237u16,
Self::Np238 => 238u16,
Self::Np239 => 239u16,
Self::Np240 => 240u16,
Self::Np241 => 241u16,
Self::Np242 => 242u16,
Self::Np243 => 243u16,
Self::Np244 => 244u16,
Self::Np245 => 245u16,
}
}
}
impl super::IsotopicComposition for NeptuniumIsotope {
#[inline]
fn isotopic_composition(&self) -> Option<f64> {
None
}
}
impl super::MostAbundantIsotope for NeptuniumIsotope {
fn most_abundant_isotope() -> Self {
Self::Np245
}
}
impl From<NeptuniumIsotope> for crate::Isotope {
fn from(isotope: NeptuniumIsotope) -> Self {
crate::Isotope::Np(isotope)
}
}
impl From<NeptuniumIsotope> for crate::Element {
fn from(_isotope: NeptuniumIsotope) -> Self {
crate::Element::Np
}
}
impl TryFrom<u64> for NeptuniumIsotope {
type Error = crate::errors::Error;
fn try_from(value: u64) -> Result<Self, Self::Error> {
match value {
219u64 => Ok(Self::Np219),
220u64 => Ok(Self::Np220),
222u64 => Ok(Self::Np222),
223u64 => Ok(Self::Np223),
224u64 => Ok(Self::Np224),
225u64 => Ok(Self::Np225),
226u64 => Ok(Self::Np226),
227u64 => Ok(Self::Np227),
228u64 => Ok(Self::Np228),
229u64 => Ok(Self::Np229),
230u64 => Ok(Self::Np230),
231u64 => Ok(Self::Np231),
232u64 => Ok(Self::Np232),
233u64 => Ok(Self::Np233),
234u64 => Ok(Self::Np234),
235u64 => Ok(Self::Np235),
236u64 => Ok(Self::Np236),
237u64 => Ok(Self::Np237),
238u64 => Ok(Self::Np238),
239u64 => Ok(Self::Np239),
240u64 => Ok(Self::Np240),
241u64 => Ok(Self::Np241),
242u64 => Ok(Self::Np242),
243u64 => Ok(Self::Np243),
244u64 => Ok(Self::Np244),
245u64 => Ok(Self::Np245),
_ => Err(crate::errors::Error::Isotope(crate::Element::Np, value)),
}
}
}
impl TryFrom<u8> for NeptuniumIsotope {
type Error = crate::errors::Error;
fn try_from(value: u8) -> Result<Self, Self::Error> {
Self::try_from(u64::from(value))
}
}
impl TryFrom<u16> for NeptuniumIsotope {
type Error = crate::errors::Error;
fn try_from(value: u16) -> Result<Self, Self::Error> {
Self::try_from(u64::from(value))
}
}
impl TryFrom<u32> for NeptuniumIsotope {
type Error = crate::errors::Error;
fn try_from(value: u32) -> Result<Self, Self::Error> {
Self::try_from(u64::from(value))
}
}
impl core::fmt::Display for NeptuniumIsotope {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
match self {
Self::Np219 => write!(f, "Np219"),
Self::Np220 => write!(f, "Np220"),
Self::Np222 => write!(f, "Np222"),
Self::Np223 => write!(f, "Np223"),
Self::Np224 => write!(f, "Np224"),
Self::Np225 => write!(f, "Np225"),
Self::Np226 => write!(f, "Np226"),
Self::Np227 => write!(f, "Np227"),
Self::Np228 => write!(f, "Np228"),
Self::Np229 => write!(f, "Np229"),
Self::Np230 => write!(f, "Np230"),
Self::Np231 => write!(f, "Np231"),
Self::Np232 => write!(f, "Np232"),
Self::Np233 => write!(f, "Np233"),
Self::Np234 => write!(f, "Np234"),
Self::Np235 => write!(f, "Np235"),
Self::Np236 => write!(f, "Np236"),
Self::Np237 => write!(f, "Np237"),
Self::Np238 => write!(f, "Np238"),
Self::Np239 => write!(f, "Np239"),
Self::Np240 => write!(f, "Np240"),
Self::Np241 => write!(f, "Np241"),
Self::Np242 => write!(f, "Np242"),
Self::Np243 => write!(f, "Np243"),
Self::Np244 => write!(f, "Np244"),
Self::Np245 => write!(f, "Np245"),
}
}
}
#[cfg(test)]
mod tests {
use strum::IntoEnumIterator;
use super::*;
use crate::isotopes::{
ElementVariant, IsotopicComposition, MassNumber, MostAbundantIsotope, RelativeAtomicMass,
};
#[test]
fn test_relative_atomic_mass() {
for isotope in NeptuniumIsotope::iter() {
let mass = isotope.relative_atomic_mass();
assert!(mass > 0.0, "Mass should be positive for {isotope:?}");
}
}
#[test]
fn test_element() {
for isotope in NeptuniumIsotope::iter() {
let element = isotope.element();
assert_eq!(element, crate::Element::Np, "Element should be correct for {isotope:?}");
}
}
#[test]
fn test_mass_number() {
for isotope in NeptuniumIsotope::iter() {
let mass_number = isotope.mass_number();
assert!(
mass_number > 0 && mass_number < 300,
"Mass number should be reasonable for {isotope:?}"
);
}
}
#[test]
fn test_isotopic_composition() {
for isotope in NeptuniumIsotope::iter() {
let comp = isotope.isotopic_composition();
if let Some(c) = comp {
assert!(
(0.0..=1.0).contains(&c),
"Composition should be between 0 and 1 for {isotope:?}"
);
}
}
}
#[test]
fn test_most_abundant() {
let most_abundant = NeptuniumIsotope::most_abundant_isotope();
let _ = most_abundant.relative_atomic_mass();
}
#[test]
fn test_from_isotope() {
for isotope in NeptuniumIsotope::iter() {
let iso: crate::Isotope = isotope.into();
match iso {
crate::Isotope::Np(i) => assert_eq!(i, isotope),
_ => panic!("Wrong isotope type"),
}
}
}
#[test]
fn test_from_element() {
for isotope in NeptuniumIsotope::iter() {
let elem: crate::Element = isotope.into();
assert_eq!(elem, crate::Element::Np);
}
}
#[test]
fn test_try_from_mass_number() {
for isotope in NeptuniumIsotope::iter() {
let mass = isotope.mass_number();
let iso = NeptuniumIsotope::try_from(mass).unwrap();
assert_eq!(iso, isotope);
let iso_u32 = NeptuniumIsotope::try_from(u32::from(mass)).unwrap();
assert_eq!(iso_u32, isotope);
if let Ok(mass_u8) = u8::try_from(mass) {
let iso_u8 = NeptuniumIsotope::try_from(mass_u8).unwrap();
assert_eq!(iso_u8, isotope);
}
}
assert!(NeptuniumIsotope::try_from(0_u16).is_err());
assert!(NeptuniumIsotope::try_from(1000_u16).is_err());
assert!(NeptuniumIsotope::try_from(0_u32).is_err());
assert!(NeptuniumIsotope::try_from(1000_u32).is_err());
assert!(NeptuniumIsotope::try_from(0_u8).is_err());
}
#[test]
fn test_display() {
for isotope in NeptuniumIsotope::iter() {
let s = alloc::format!("{isotope}");
assert!(!s.is_empty(), "Display should not be empty for {isotope:?}");
}
}
}