#[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 ScandiumIsotope {
Sc37,
Sc38,
Sc39,
Sc40,
Sc41,
Sc42,
Sc43,
Sc44,
Sc45,
Sc46,
Sc47,
Sc48,
Sc49,
Sc50,
Sc51,
Sc52,
Sc53,
Sc54,
Sc55,
Sc56,
Sc57,
Sc58,
Sc59,
Sc60,
Sc61,
Sc62,
Sc63,
}
impl super::RelativeAtomicMass for ScandiumIsotope {
#[inline]
fn relative_atomic_mass(&self) -> f64 {
match self {
Self::Sc37 => 37.00374f64,
Self::Sc38 => 37.99512f64,
Self::Sc39 => 38.984785f64,
Self::Sc40 => 39.9779673f64,
Self::Sc41 => 40.969251105f64,
Self::Sc42 => 41.96551653f64,
Self::Sc43 => 42.9611505f64,
Self::Sc44 => 43.9594029f64,
Self::Sc45 => 44.95590828f64,
Self::Sc46 => 45.95516826f64,
Self::Sc47 => 46.9524037f64,
Self::Sc48 => 47.9522236f64,
Self::Sc49 => 48.9500146f64,
Self::Sc50 => 49.952176f64,
Self::Sc51 => 50.953592f64,
Self::Sc52 => 51.95688f64,
Self::Sc53 => 52.95909f64,
Self::Sc54 => 53.96393f64,
Self::Sc55 => 54.96782f64,
Self::Sc56 => 55.97345f64,
Self::Sc57 => 56.97777f64,
Self::Sc58 => 57.98403f64,
Self::Sc59 => 58.98894f64,
Self::Sc60 => 59.995115f64,
Self::Sc61 => 61.001f64,
Self::Sc62 => 62.007848f64,
Self::Sc63 => 63.014031f64,
}
}
}
impl super::ElementVariant for ScandiumIsotope {
#[inline]
fn element(&self) -> crate::Element {
crate::Element::Sc
}
}
impl super::MassNumber for ScandiumIsotope {
#[inline]
fn mass_number(&self) -> u16 {
match self {
Self::Sc37 => 37u16,
Self::Sc38 => 38u16,
Self::Sc39 => 39u16,
Self::Sc40 => 40u16,
Self::Sc41 => 41u16,
Self::Sc42 => 42u16,
Self::Sc43 => 43u16,
Self::Sc44 => 44u16,
Self::Sc45 => 45u16,
Self::Sc46 => 46u16,
Self::Sc47 => 47u16,
Self::Sc48 => 48u16,
Self::Sc49 => 49u16,
Self::Sc50 => 50u16,
Self::Sc51 => 51u16,
Self::Sc52 => 52u16,
Self::Sc53 => 53u16,
Self::Sc54 => 54u16,
Self::Sc55 => 55u16,
Self::Sc56 => 56u16,
Self::Sc57 => 57u16,
Self::Sc58 => 58u16,
Self::Sc59 => 59u16,
Self::Sc60 => 60u16,
Self::Sc61 => 61u16,
Self::Sc62 => 62u16,
Self::Sc63 => 63u16,
}
}
}
impl super::IsotopicComposition for ScandiumIsotope {
#[inline]
fn isotopic_composition(&self) -> Option<f64> {
match self {
Self::Sc45 => Some(1f64),
_ => None,
}
}
}
impl super::MostAbundantIsotope for ScandiumIsotope {
fn most_abundant_isotope() -> Self {
Self::Sc45
}
}
impl From<ScandiumIsotope> for crate::Isotope {
fn from(isotope: ScandiumIsotope) -> Self {
crate::Isotope::Sc(isotope)
}
}
impl From<ScandiumIsotope> for crate::Element {
fn from(_isotope: ScandiumIsotope) -> Self {
crate::Element::Sc
}
}
impl TryFrom<u64> for ScandiumIsotope {
type Error = crate::errors::Error;
fn try_from(value: u64) -> Result<Self, Self::Error> {
match value {
37u64 => Ok(Self::Sc37),
38u64 => Ok(Self::Sc38),
39u64 => Ok(Self::Sc39),
40u64 => Ok(Self::Sc40),
41u64 => Ok(Self::Sc41),
42u64 => Ok(Self::Sc42),
43u64 => Ok(Self::Sc43),
44u64 => Ok(Self::Sc44),
45u64 => Ok(Self::Sc45),
46u64 => Ok(Self::Sc46),
47u64 => Ok(Self::Sc47),
48u64 => Ok(Self::Sc48),
49u64 => Ok(Self::Sc49),
50u64 => Ok(Self::Sc50),
51u64 => Ok(Self::Sc51),
52u64 => Ok(Self::Sc52),
53u64 => Ok(Self::Sc53),
54u64 => Ok(Self::Sc54),
55u64 => Ok(Self::Sc55),
56u64 => Ok(Self::Sc56),
57u64 => Ok(Self::Sc57),
58u64 => Ok(Self::Sc58),
59u64 => Ok(Self::Sc59),
60u64 => Ok(Self::Sc60),
61u64 => Ok(Self::Sc61),
62u64 => Ok(Self::Sc62),
63u64 => Ok(Self::Sc63),
_ => Err(crate::errors::Error::Isotope(crate::Element::Sc, value)),
}
}
}
impl TryFrom<u8> for ScandiumIsotope {
type Error = crate::errors::Error;
fn try_from(value: u8) -> Result<Self, Self::Error> {
Self::try_from(u64::from(value))
}
}
impl TryFrom<u16> for ScandiumIsotope {
type Error = crate::errors::Error;
fn try_from(value: u16) -> Result<Self, Self::Error> {
Self::try_from(u64::from(value))
}
}
impl TryFrom<u32> for ScandiumIsotope {
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 ScandiumIsotope {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
match self {
Self::Sc37 => write!(f, "Sc37"),
Self::Sc38 => write!(f, "Sc38"),
Self::Sc39 => write!(f, "Sc39"),
Self::Sc40 => write!(f, "Sc40"),
Self::Sc41 => write!(f, "Sc41"),
Self::Sc42 => write!(f, "Sc42"),
Self::Sc43 => write!(f, "Sc43"),
Self::Sc44 => write!(f, "Sc44"),
Self::Sc45 => write!(f, "Sc45"),
Self::Sc46 => write!(f, "Sc46"),
Self::Sc47 => write!(f, "Sc47"),
Self::Sc48 => write!(f, "Sc48"),
Self::Sc49 => write!(f, "Sc49"),
Self::Sc50 => write!(f, "Sc50"),
Self::Sc51 => write!(f, "Sc51"),
Self::Sc52 => write!(f, "Sc52"),
Self::Sc53 => write!(f, "Sc53"),
Self::Sc54 => write!(f, "Sc54"),
Self::Sc55 => write!(f, "Sc55"),
Self::Sc56 => write!(f, "Sc56"),
Self::Sc57 => write!(f, "Sc57"),
Self::Sc58 => write!(f, "Sc58"),
Self::Sc59 => write!(f, "Sc59"),
Self::Sc60 => write!(f, "Sc60"),
Self::Sc61 => write!(f, "Sc61"),
Self::Sc62 => write!(f, "Sc62"),
Self::Sc63 => write!(f, "Sc63"),
}
}
}
#[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 ScandiumIsotope::iter() {
let mass = isotope.relative_atomic_mass();
assert!(mass > 0.0, "Mass should be positive for {isotope:?}");
}
}
#[test]
fn test_element() {
for isotope in ScandiumIsotope::iter() {
let element = isotope.element();
assert_eq!(element, crate::Element::Sc, "Element should be correct for {isotope:?}");
}
}
#[test]
fn test_mass_number() {
for isotope in ScandiumIsotope::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 ScandiumIsotope::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 = ScandiumIsotope::most_abundant_isotope();
let _ = most_abundant.relative_atomic_mass();
}
#[test]
fn test_from_isotope() {
for isotope in ScandiumIsotope::iter() {
let iso: crate::Isotope = isotope.into();
match iso {
crate::Isotope::Sc(i) => assert_eq!(i, isotope),
_ => panic!("Wrong isotope type"),
}
}
}
#[test]
fn test_from_element() {
for isotope in ScandiumIsotope::iter() {
let elem: crate::Element = isotope.into();
assert_eq!(elem, crate::Element::Sc);
}
}
#[test]
fn test_try_from_mass_number() {
for isotope in ScandiumIsotope::iter() {
let mass = isotope.mass_number();
let iso = ScandiumIsotope::try_from(mass).unwrap();
assert_eq!(iso, isotope);
let iso_u32 = ScandiumIsotope::try_from(u32::from(mass)).unwrap();
assert_eq!(iso_u32, isotope);
if let Ok(mass_u8) = u8::try_from(mass) {
let iso_u8 = ScandiumIsotope::try_from(mass_u8).unwrap();
assert_eq!(iso_u8, isotope);
}
}
assert!(ScandiumIsotope::try_from(0_u16).is_err());
assert!(ScandiumIsotope::try_from(1000_u16).is_err());
assert!(ScandiumIsotope::try_from(0_u32).is_err());
assert!(ScandiumIsotope::try_from(1000_u32).is_err());
assert!(ScandiumIsotope::try_from(0_u8).is_err());
}
#[test]
fn test_display() {
for isotope in ScandiumIsotope::iter() {
let s = alloc::format!("{isotope}");
assert!(!s.is_empty(), "Display should not be empty for {isotope:?}");
}
}
}