elements_rs 0.2.5

//! Isotopes of the element Gold
#[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))]
/// Isotopes of the element Gold
pub enum GoldIsotope {
    /// Isotope Au170 of Gold
    Au170,
    /// Isotope Au171 of Gold
    Au171,
    /// Isotope Au172 of Gold
    Au172,
    /// Isotope Au173 of Gold
    Au173,
    /// Isotope Au174 of Gold
    Au174,
    /// Isotope Au175 of Gold
    Au175,
    /// Isotope Au176 of Gold
    Au176,
    /// Isotope Au177 of Gold
    Au177,
    /// Isotope Au178 of Gold
    Au178,
    /// Isotope Au179 of Gold
    Au179,
    /// Isotope Au180 of Gold
    Au180,
    /// Isotope Au181 of Gold
    Au181,
    /// Isotope Au182 of Gold
    Au182,
    /// Isotope Au183 of Gold
    Au183,
    /// Isotope Au184 of Gold
    Au184,
    /// Isotope Au185 of Gold
    Au185,
    /// Isotope Au186 of Gold
    Au186,
    /// Isotope Au187 of Gold
    Au187,
    /// Isotope Au188 of Gold
    Au188,
    /// Isotope Au189 of Gold
    Au189,
    /// Isotope Au190 of Gold
    Au190,
    /// Isotope Au191 of Gold
    Au191,
    /// Isotope Au192 of Gold
    Au192,
    /// Isotope Au193 of Gold
    Au193,
    /// Isotope Au194 of Gold
    Au194,
    /// Isotope Au195 of Gold
    Au195,
    /// Isotope Au196 of Gold
    Au196,
    /// Isotope Au197 of Gold
    Au197,
    /// Isotope Au198 of Gold
    Au198,
    /// Isotope Au199 of Gold
    Au199,
    /// Isotope Au200 of Gold
    Au200,
    /// Isotope Au201 of Gold
    Au201,
    /// Isotope Au202 of Gold
    Au202,
    /// Isotope Au203 of Gold
    Au203,
    /// Isotope Au204 of Gold
    Au204,
    /// Isotope Au205 of Gold
    Au205,
    /// Isotope Au206 of Gold
    Au206,
    /// Isotope Au207 of Gold
    Au207,
    /// Isotope Au208 of Gold
    Au208,
    /// Isotope Au209 of Gold
    Au209,
    /// Isotope Au210 of Gold
    Au210,
}
impl super::RelativeAtomicMass for GoldIsotope {
    #[inline]
    fn relative_atomic_mass(&self) -> f64 {
        match self {
            Self::Au170 => 169.99597f64,
            Self::Au171 => 170.991876f64,
            Self::Au172 => 171.989942f64,
            Self::Au173 => 172.986241f64,
            Self::Au174 => 173.984717f64,
            Self::Au175 => 174.981304f64,
            Self::Au176 => 175.98025f64,
            Self::Au177 => 176.97687f64,
            Self::Au178 => 177.976032f64,
            Self::Au179 => 178.973174f64,
            Self::Au180 => 179.972523f64,
            Self::Au181 => 180.970079f64,
            Self::Au182 => 181.969618f64,
            Self::Au183 => 182.967591f64,
            Self::Au184 => 183.967452f64,
            Self::Au185 => 184.96579f64,
            Self::Au186 => 185.965953f64,
            Self::Au187 => 186.964543f64,
            Self::Au188 => 187.965349f64,
            Self::Au189 => 188.963948f64,
            Self::Au190 => 189.964698f64,
            Self::Au191 => 190.963702f64,
            Self::Au192 => 191.964814f64,
            Self::Au193 => 192.9641373f64,
            Self::Au194 => 193.9654178f64,
            Self::Au195 => 194.9650352f64,
            Self::Au196 => 195.9665699f64,
            Self::Au197 => 196.96656879f64,
            Self::Au198 => 197.96824242f64,
            Self::Au199 => 198.96876528f64,
            Self::Au200 => 199.970756f64,
            Self::Au201 => 200.9716575f64,
            Self::Au202 => 201.973856f64,
            Self::Au203 => 202.9751544f64,
            Self::Au204 => 203.97783f64,
            Self::Au205 => 204.97985f64,
            Self::Au206 => 205.98474f64,
            Self::Au207 => 206.9884f64,
            Self::Au208 => 207.99345f64,
            Self::Au209 => 208.99735f64,
            Self::Au210 => 210.0025f64,
        }
    }
}
impl super::ElementVariant for GoldIsotope {
    #[inline]
    fn element(&self) -> crate::Element {
        crate::Element::Au
    }
}
impl super::MassNumber for GoldIsotope {
    #[inline]
    fn mass_number(&self) -> u16 {
        match self {
            Self::Au170 => 170u16,
            Self::Au171 => 171u16,
            Self::Au172 => 172u16,
            Self::Au173 => 173u16,
            Self::Au174 => 174u16,
            Self::Au175 => 175u16,
            Self::Au176 => 176u16,
            Self::Au177 => 177u16,
            Self::Au178 => 178u16,
            Self::Au179 => 179u16,
            Self::Au180 => 180u16,
            Self::Au181 => 181u16,
            Self::Au182 => 182u16,
            Self::Au183 => 183u16,
            Self::Au184 => 184u16,
            Self::Au185 => 185u16,
            Self::Au186 => 186u16,
            Self::Au187 => 187u16,
            Self::Au188 => 188u16,
            Self::Au189 => 189u16,
            Self::Au190 => 190u16,
            Self::Au191 => 191u16,
            Self::Au192 => 192u16,
            Self::Au193 => 193u16,
            Self::Au194 => 194u16,
            Self::Au195 => 195u16,
            Self::Au196 => 196u16,
            Self::Au197 => 197u16,
            Self::Au198 => 198u16,
            Self::Au199 => 199u16,
            Self::Au200 => 200u16,
            Self::Au201 => 201u16,
            Self::Au202 => 202u16,
            Self::Au203 => 203u16,
            Self::Au204 => 204u16,
            Self::Au205 => 205u16,
            Self::Au206 => 206u16,
            Self::Au207 => 207u16,
            Self::Au208 => 208u16,
            Self::Au209 => 209u16,
            Self::Au210 => 210u16,
        }
    }
}
impl super::IsotopicComposition for GoldIsotope {
    #[inline]
    fn isotopic_composition(&self) -> Option<f64> {
        match self {
            Self::Au197 => Some(1f64),
            _ => None,
        }
    }
}
impl super::MostAbundantIsotope for GoldIsotope {
    fn most_abundant_isotope() -> Self {
        Self::Au197
    }
}
impl From<GoldIsotope> for crate::Isotope {
    fn from(isotope: GoldIsotope) -> Self {
        crate::Isotope::Au(isotope)
    }
}
impl From<GoldIsotope> for crate::Element {
    fn from(_isotope: GoldIsotope) -> Self {
        crate::Element::Au
    }
}
impl TryFrom<u64> for GoldIsotope {
    type Error = crate::errors::Error;
    fn try_from(value: u64) -> Result<Self, Self::Error> {
        match value {
            170u64 => Ok(Self::Au170),
            171u64 => Ok(Self::Au171),
            172u64 => Ok(Self::Au172),
            173u64 => Ok(Self::Au173),
            174u64 => Ok(Self::Au174),
            175u64 => Ok(Self::Au175),
            176u64 => Ok(Self::Au176),
            177u64 => Ok(Self::Au177),
            178u64 => Ok(Self::Au178),
            179u64 => Ok(Self::Au179),
            180u64 => Ok(Self::Au180),
            181u64 => Ok(Self::Au181),
            182u64 => Ok(Self::Au182),
            183u64 => Ok(Self::Au183),
            184u64 => Ok(Self::Au184),
            185u64 => Ok(Self::Au185),
            186u64 => Ok(Self::Au186),
            187u64 => Ok(Self::Au187),
            188u64 => Ok(Self::Au188),
            189u64 => Ok(Self::Au189),
            190u64 => Ok(Self::Au190),
            191u64 => Ok(Self::Au191),
            192u64 => Ok(Self::Au192),
            193u64 => Ok(Self::Au193),
            194u64 => Ok(Self::Au194),
            195u64 => Ok(Self::Au195),
            196u64 => Ok(Self::Au196),
            197u64 => Ok(Self::Au197),
            198u64 => Ok(Self::Au198),
            199u64 => Ok(Self::Au199),
            200u64 => Ok(Self::Au200),
            201u64 => Ok(Self::Au201),
            202u64 => Ok(Self::Au202),
            203u64 => Ok(Self::Au203),
            204u64 => Ok(Self::Au204),
            205u64 => Ok(Self::Au205),
            206u64 => Ok(Self::Au206),
            207u64 => Ok(Self::Au207),
            208u64 => Ok(Self::Au208),
            209u64 => Ok(Self::Au209),
            210u64 => Ok(Self::Au210),
            _ => Err(crate::errors::Error::Isotope(crate::Element::Au, value)),
        }
    }
}
impl TryFrom<u8> for GoldIsotope {
    type Error = crate::errors::Error;
    fn try_from(value: u8) -> Result<Self, Self::Error> {
        Self::try_from(u64::from(value))
    }
}
impl TryFrom<u16> for GoldIsotope {
    type Error = crate::errors::Error;
    fn try_from(value: u16) -> Result<Self, Self::Error> {
        Self::try_from(u64::from(value))
    }
}
impl TryFrom<u32> for GoldIsotope {
    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 GoldIsotope {
    fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
        match self {
            Self::Au170 => write!(f, "Au170"),
            Self::Au171 => write!(f, "Au171"),
            Self::Au172 => write!(f, "Au172"),
            Self::Au173 => write!(f, "Au173"),
            Self::Au174 => write!(f, "Au174"),
            Self::Au175 => write!(f, "Au175"),
            Self::Au176 => write!(f, "Au176"),
            Self::Au177 => write!(f, "Au177"),
            Self::Au178 => write!(f, "Au178"),
            Self::Au179 => write!(f, "Au179"),
            Self::Au180 => write!(f, "Au180"),
            Self::Au181 => write!(f, "Au181"),
            Self::Au182 => write!(f, "Au182"),
            Self::Au183 => write!(f, "Au183"),
            Self::Au184 => write!(f, "Au184"),
            Self::Au185 => write!(f, "Au185"),
            Self::Au186 => write!(f, "Au186"),
            Self::Au187 => write!(f, "Au187"),
            Self::Au188 => write!(f, "Au188"),
            Self::Au189 => write!(f, "Au189"),
            Self::Au190 => write!(f, "Au190"),
            Self::Au191 => write!(f, "Au191"),
            Self::Au192 => write!(f, "Au192"),
            Self::Au193 => write!(f, "Au193"),
            Self::Au194 => write!(f, "Au194"),
            Self::Au195 => write!(f, "Au195"),
            Self::Au196 => write!(f, "Au196"),
            Self::Au197 => write!(f, "Au197"),
            Self::Au198 => write!(f, "Au198"),
            Self::Au199 => write!(f, "Au199"),
            Self::Au200 => write!(f, "Au200"),
            Self::Au201 => write!(f, "Au201"),
            Self::Au202 => write!(f, "Au202"),
            Self::Au203 => write!(f, "Au203"),
            Self::Au204 => write!(f, "Au204"),
            Self::Au205 => write!(f, "Au205"),
            Self::Au206 => write!(f, "Au206"),
            Self::Au207 => write!(f, "Au207"),
            Self::Au208 => write!(f, "Au208"),
            Self::Au209 => write!(f, "Au209"),
            Self::Au210 => write!(f, "Au210"),
        }
    }
}
#[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 GoldIsotope::iter() {
            let mass = isotope.relative_atomic_mass();
            assert!(mass > 0.0, "Mass should be positive for {isotope:?}");
        }
    }
    #[test]
    fn test_element() {
        for isotope in GoldIsotope::iter() {
            let element = isotope.element();
            assert_eq!(element, crate::Element::Au, "Element should be correct for {isotope:?}");
        }
    }
    #[test]
    fn test_mass_number() {
        for isotope in GoldIsotope::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 GoldIsotope::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 = GoldIsotope::most_abundant_isotope();
        let _ = most_abundant.relative_atomic_mass();
    }
    #[test]
    fn test_from_isotope() {
        for isotope in GoldIsotope::iter() {
            let iso: crate::Isotope = isotope.into();
            match iso {
                crate::Isotope::Au(i) => assert_eq!(i, isotope),
                _ => panic!("Wrong isotope type"),
            }
        }
    }
    #[test]
    fn test_from_element() {
        for isotope in GoldIsotope::iter() {
            let elem: crate::Element = isotope.into();
            assert_eq!(elem, crate::Element::Au);
        }
    }
    #[test]
    fn test_try_from_mass_number() {
        for isotope in GoldIsotope::iter() {
            let mass = isotope.mass_number();
            let iso = GoldIsotope::try_from(mass).unwrap();
            assert_eq!(iso, isotope);
            let iso_u32 = GoldIsotope::try_from(u32::from(mass)).unwrap();
            assert_eq!(iso_u32, isotope);
            if let Ok(mass_u8) = u8::try_from(mass) {
                let iso_u8 = GoldIsotope::try_from(mass_u8).unwrap();
                assert_eq!(iso_u8, isotope);
            }
        }
        assert!(GoldIsotope::try_from(0_u16).is_err());
        assert!(GoldIsotope::try_from(1000_u16).is_err());
        assert!(GoldIsotope::try_from(0_u32).is_err());
        assert!(GoldIsotope::try_from(1000_u32).is_err());
        assert!(GoldIsotope::try_from(0_u8).is_err());
    }
    #[test]
    fn test_display() {
        for isotope in GoldIsotope::iter() {
            let s = alloc::format!("{isotope}");
            assert!(!s.is_empty(), "Display should not be empty for {isotope:?}");
        }
    }
}