#[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 AluminiumIsotope {
Al21,
Al22,
Al23,
Al24,
Al25,
Al26,
Al27,
Al28,
Al29,
Al30,
Al31,
Al32,
Al33,
Al34,
Al35,
Al36,
Al37,
Al38,
Al39,
Al40,
Al41,
Al42,
Al43,
}
impl super::RelativeAtomicMass for AluminiumIsotope {
#[inline]
fn relative_atomic_mass(&self) -> f64 {
match self {
Self::Al21 => 21.02897f64,
Self::Al22 => 22.01954f64,
Self::Al23 => 23.00724435f64,
Self::Al24 => 23.9999489f64,
Self::Al25 => 24.9904281f64,
Self::Al26 => 25.986891904f64,
Self::Al27 => 26.98153853f64,
Self::Al28 => 27.98191021f64,
Self::Al29 => 28.9804565f64,
Self::Al30 => 29.98296f64,
Self::Al31 => 30.983945f64,
Self::Al32 => 31.988085f64,
Self::Al33 => 32.990909f64,
Self::Al34 => 33.996705f64,
Self::Al35 => 34.999764f64,
Self::Al36 => 36.00639f64,
Self::Al37 => 37.01053f64,
Self::Al38 => 38.0174f64,
Self::Al39 => 39.02254f64,
Self::Al40 => 40.03003f64,
Self::Al41 => 41.03638f64,
Self::Al42 => 42.04384f64,
Self::Al43 => 43.05147f64,
}
}
}
impl super::ElementVariant for AluminiumIsotope {
#[inline]
fn element(&self) -> crate::Element {
crate::Element::Al
}
}
impl super::MassNumber for AluminiumIsotope {
#[inline]
fn mass_number(&self) -> u16 {
match self {
Self::Al21 => 21u16,
Self::Al22 => 22u16,
Self::Al23 => 23u16,
Self::Al24 => 24u16,
Self::Al25 => 25u16,
Self::Al26 => 26u16,
Self::Al27 => 27u16,
Self::Al28 => 28u16,
Self::Al29 => 29u16,
Self::Al30 => 30u16,
Self::Al31 => 31u16,
Self::Al32 => 32u16,
Self::Al33 => 33u16,
Self::Al34 => 34u16,
Self::Al35 => 35u16,
Self::Al36 => 36u16,
Self::Al37 => 37u16,
Self::Al38 => 38u16,
Self::Al39 => 39u16,
Self::Al40 => 40u16,
Self::Al41 => 41u16,
Self::Al42 => 42u16,
Self::Al43 => 43u16,
}
}
}
impl super::IsotopicComposition for AluminiumIsotope {
#[inline]
fn isotopic_composition(&self) -> Option<f64> {
match self {
Self::Al27 => Some(1f64),
_ => None,
}
}
}
impl super::MostAbundantIsotope for AluminiumIsotope {
fn most_abundant_isotope() -> Self {
Self::Al27
}
}
impl From<AluminiumIsotope> for crate::Isotope {
fn from(isotope: AluminiumIsotope) -> Self {
crate::Isotope::Al(isotope)
}
}
impl From<AluminiumIsotope> for crate::Element {
fn from(_isotope: AluminiumIsotope) -> Self {
crate::Element::Al
}
}
impl TryFrom<u64> for AluminiumIsotope {
type Error = crate::errors::Error;
fn try_from(value: u64) -> Result<Self, Self::Error> {
match value {
21u64 => Ok(Self::Al21),
22u64 => Ok(Self::Al22),
23u64 => Ok(Self::Al23),
24u64 => Ok(Self::Al24),
25u64 => Ok(Self::Al25),
26u64 => Ok(Self::Al26),
27u64 => Ok(Self::Al27),
28u64 => Ok(Self::Al28),
29u64 => Ok(Self::Al29),
30u64 => Ok(Self::Al30),
31u64 => Ok(Self::Al31),
32u64 => Ok(Self::Al32),
33u64 => Ok(Self::Al33),
34u64 => Ok(Self::Al34),
35u64 => Ok(Self::Al35),
36u64 => Ok(Self::Al36),
37u64 => Ok(Self::Al37),
38u64 => Ok(Self::Al38),
39u64 => Ok(Self::Al39),
40u64 => Ok(Self::Al40),
41u64 => Ok(Self::Al41),
42u64 => Ok(Self::Al42),
43u64 => Ok(Self::Al43),
_ => Err(crate::errors::Error::Isotope(crate::Element::Al, value)),
}
}
}
impl TryFrom<u8> for AluminiumIsotope {
type Error = crate::errors::Error;
fn try_from(value: u8) -> Result<Self, Self::Error> {
Self::try_from(u64::from(value))
}
}
impl TryFrom<u16> for AluminiumIsotope {
type Error = crate::errors::Error;
fn try_from(value: u16) -> Result<Self, Self::Error> {
Self::try_from(u64::from(value))
}
}
impl TryFrom<u32> for AluminiumIsotope {
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 AluminiumIsotope {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
match self {
Self::Al21 => write!(f, "Al21"),
Self::Al22 => write!(f, "Al22"),
Self::Al23 => write!(f, "Al23"),
Self::Al24 => write!(f, "Al24"),
Self::Al25 => write!(f, "Al25"),
Self::Al26 => write!(f, "Al26"),
Self::Al27 => write!(f, "Al27"),
Self::Al28 => write!(f, "Al28"),
Self::Al29 => write!(f, "Al29"),
Self::Al30 => write!(f, "Al30"),
Self::Al31 => write!(f, "Al31"),
Self::Al32 => write!(f, "Al32"),
Self::Al33 => write!(f, "Al33"),
Self::Al34 => write!(f, "Al34"),
Self::Al35 => write!(f, "Al35"),
Self::Al36 => write!(f, "Al36"),
Self::Al37 => write!(f, "Al37"),
Self::Al38 => write!(f, "Al38"),
Self::Al39 => write!(f, "Al39"),
Self::Al40 => write!(f, "Al40"),
Self::Al41 => write!(f, "Al41"),
Self::Al42 => write!(f, "Al42"),
Self::Al43 => write!(f, "Al43"),
}
}
}
#[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 AluminiumIsotope::iter() {
let mass = isotope.relative_atomic_mass();
assert!(mass > 0.0, "Mass should be positive for {isotope:?}");
}
}
#[test]
fn test_element() {
for isotope in AluminiumIsotope::iter() {
let element = isotope.element();
assert_eq!(element, crate::Element::Al, "Element should be correct for {isotope:?}");
}
}
#[test]
fn test_mass_number() {
for isotope in AluminiumIsotope::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 AluminiumIsotope::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 = AluminiumIsotope::most_abundant_isotope();
let _ = most_abundant.relative_atomic_mass();
}
#[test]
fn test_from_isotope() {
for isotope in AluminiumIsotope::iter() {
let iso: crate::Isotope = isotope.into();
match iso {
crate::Isotope::Al(i) => assert_eq!(i, isotope),
_ => panic!("Wrong isotope type"),
}
}
}
#[test]
fn test_from_element() {
for isotope in AluminiumIsotope::iter() {
let elem: crate::Element = isotope.into();
assert_eq!(elem, crate::Element::Al);
}
}
#[test]
fn test_try_from_mass_number() {
for isotope in AluminiumIsotope::iter() {
let mass = isotope.mass_number();
let iso = AluminiumIsotope::try_from(mass).unwrap();
assert_eq!(iso, isotope);
let iso_u32 = AluminiumIsotope::try_from(u32::from(mass)).unwrap();
assert_eq!(iso_u32, isotope);
if let Ok(mass_u8) = u8::try_from(mass) {
let iso_u8 = AluminiumIsotope::try_from(mass_u8).unwrap();
assert_eq!(iso_u8, isotope);
}
}
assert!(AluminiumIsotope::try_from(0_u16).is_err());
assert!(AluminiumIsotope::try_from(1000_u16).is_err());
assert!(AluminiumIsotope::try_from(0_u32).is_err());
assert!(AluminiumIsotope::try_from(1000_u32).is_err());
assert!(AluminiumIsotope::try_from(0_u8).is_err());
}
#[test]
fn test_display() {
for isotope in AluminiumIsotope::iter() {
let s = alloc::format!("{isotope}");
assert!(!s.is_empty(), "Display should not be empty for {isotope:?}");
}
}
}