use reifydb_core::value::column::{ColumnWithName, buffer::ColumnBuffer, columns::Columns};
use reifydb_type::value::{container::temporal::TemporalContainer, time::Time, r#type::Type};
use crate::routine::{Function, FunctionKind, Routine, RoutineInfo, context::FunctionContext, error::RoutineError};
pub struct TimeSubtract {
info: RoutineInfo,
}
impl Default for TimeSubtract {
fn default() -> Self {
Self::new()
}
}
impl TimeSubtract {
pub fn new() -> Self {
Self {
info: RoutineInfo::new("time::subtract"),
}
}
}
const NANOS_PER_DAY: i64 = 86_400_000_000_000;
impl<'a> Routine<FunctionContext<'a>> for TimeSubtract {
fn info(&self) -> &RoutineInfo {
&self.info
}
fn return_type(&self, _input_types: &[Type]) -> Type {
Type::Time
}
fn execute(&self, ctx: &mut FunctionContext<'a>, args: &Columns) -> Result<Columns, RoutineError> {
if args.len() != 2 {
return Err(RoutineError::FunctionArityMismatch {
function: ctx.fragment.clone(),
expected: 2,
actual: args.len(),
});
}
let time_col = &args[0];
let dur_col = &args[1];
let (time_data, time_bv) = time_col.unwrap_option();
let (dur_data, dur_bv) = dur_col.unwrap_option();
match (time_data, dur_data) {
(ColumnBuffer::Time(time_container), ColumnBuffer::Duration(dur_container)) => {
let row_count = time_data.len();
let mut container = TemporalContainer::with_capacity(row_count);
for i in 0..row_count {
match (time_container.get(i), dur_container.get(i)) {
(Some(time), Some(dur)) => {
let time_nanos = time.to_nanos_since_midnight() as i64;
let dur_nanos =
dur.get_nanos() + dur.get_days() as i64 * NANOS_PER_DAY;
let result_nanos =
(time_nanos - dur_nanos).rem_euclid(NANOS_PER_DAY);
match Time::from_nanos_since_midnight(result_nanos as u64) {
Some(result) => container.push(result),
None => container.push_default(),
}
}
_ => container.push_default(),
}
}
let mut result_data = ColumnBuffer::Time(container);
if let Some(bv) = time_bv {
result_data = ColumnBuffer::Option {
inner: Box::new(result_data),
bitvec: bv.clone(),
};
} else if let Some(bv) = dur_bv {
result_data = ColumnBuffer::Option {
inner: Box::new(result_data),
bitvec: bv.clone(),
};
}
Ok(Columns::new(vec![ColumnWithName::new(ctx.fragment.clone(), result_data)]))
}
(ColumnBuffer::Time(_), other) => Err(RoutineError::FunctionInvalidArgumentType {
function: ctx.fragment.clone(),
argument_index: 1,
expected: vec![Type::Duration],
actual: other.get_type(),
}),
(other, _) => Err(RoutineError::FunctionInvalidArgumentType {
function: ctx.fragment.clone(),
argument_index: 0,
expected: vec![Type::Time],
actual: other.get_type(),
}),
}
}
}
impl Function for TimeSubtract {
fn kinds(&self) -> &[FunctionKind] {
&[FunctionKind::Scalar]
}
}