use crate::units::TimeUnit;
use castep_cell_fmt::{Cell, CellValue, ToCell, ToCellValue};
use castep_cell_fmt::parse::{FromCellValue, FromKeyValue};
use castep_cell_fmt::{CResult, Error};
use castep_cell_fmt::query::row_as_f64_n;
#[derive(Debug, Clone, Copy, PartialEq, PartialOrd)]
pub struct MdDeltaT {
pub value: f64,
pub unit: Option<TimeUnit>,
}
impl FromCellValue for MdDeltaT {
fn from_cell_value(value: &CellValue<'_>) -> CResult<Self> {
match value {
CellValue::Array(_) => {
let arr = row_as_f64_n::<2>(value)?;
Ok(Self {
value: arr[0],
unit: if arr[1] > 0.0 {
Some(TimeUnit::from_cell_value(&CellValue::Float(arr[1]))?)
} else {
None
},
})
}
CellValue::Float(f) => Ok(Self {
value: *f,
unit: None,
}),
_ => Err(Error::Message("expected float or array".to_string())),
}
}
}
impl FromKeyValue for MdDeltaT {
const KEY_NAME: &'static str = "MD_DELTA_T";
fn from_cell_value_kv(value: &CellValue<'_>) -> CResult<Self> {
Self::from_cell_value(value)
}
}
impl ToCell for MdDeltaT {
fn to_cell(&self) -> Cell<'_> {
Cell::KeyValue("MD_DELTA_T", self.to_cell_value())
}
}
impl ToCellValue for MdDeltaT {
fn to_cell_value(&self) -> CellValue<'_> {
CellValue::Array(
[
CellValue::Float(self.value),
self.unit
.as_ref()
.map(|u| u.to_cell_value())
.unwrap_or(CellValue::Null),
]
.to_vec(),
)
}
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_from_cell_value_float_only() {
let val = CellValue::Float(1.54);
let result = MdDeltaT::from_cell_value(&val).unwrap();
assert_eq!(result.value, 1.54);
assert!(result.unit.is_none());
}
#[test]
fn test_key_name() {
assert_eq!(MdDeltaT::KEY_NAME, "MD_DELTA_T");
}
}