use reifydb_core::value::column::{Column, columns::Columns, data::ColumnData};
use reifydb_type::value::{container::temporal::TemporalContainer, date::Date, duration::Duration, r#type::Type};
use crate::function::{Function, FunctionCapability, FunctionContext, FunctionInfo, error::FunctionError};
pub struct DateTimeAge {
info: FunctionInfo,
}
impl Default for DateTimeAge {
fn default() -> Self {
Self::new()
}
}
impl DateTimeAge {
pub fn new() -> Self {
Self {
info: FunctionInfo::new("datetime::age"),
}
}
}
impl Function for DateTimeAge {
fn info(&self) -> &FunctionInfo {
&self.info
}
fn capabilities(&self) -> &[FunctionCapability] {
&[FunctionCapability::Scalar]
}
fn return_type(&self, _input_types: &[Type]) -> Type {
Type::Duration
}
fn execute(&self, ctx: &FunctionContext, args: &Columns) -> Result<Columns, FunctionError> {
if args.len() != 2 {
return Err(FunctionError::ArityMismatch {
function: ctx.fragment.clone(),
expected: 2,
actual: args.len(),
});
}
let col1 = &args[0];
let col2 = &args[1];
let (data1, bitvec1) = col1.data().unwrap_option();
let (data2, bitvec2) = col2.data().unwrap_option();
let row_count = data1.len();
let result_data = match (data1, data2) {
(ColumnData::DateTime(container1), ColumnData::DateTime(container2)) => {
let mut container = TemporalContainer::with_capacity(row_count);
for i in 0..row_count {
match (container1.get(i), container2.get(i)) {
(Some(dt1), Some(dt2)) => {
let nanos1 = dt1.time().to_nanos_since_midnight() as i64;
let nanos2 = dt2.time().to_nanos_since_midnight() as i64;
let mut nanos_diff = nanos1 - nanos2;
let mut days_borrow: i32 = 0;
if nanos_diff < 0 {
days_borrow = 1;
nanos_diff += 86_400_000_000_000;
}
let date1 = dt1.date();
let date2 = dt2.date();
let y1 = date1.year();
let m1 = date1.month() as i32;
let day1 = date1.day() as i32;
let y2 = date2.year();
let m2 = date2.month() as i32;
let day2 = date2.day() as i32;
let mut years = y1 - y2;
let mut months = m1 - m2;
let mut days = day1 - day2 - days_borrow;
if days < 0 {
months -= 1;
let borrow_month = if m1 - 1 < 1 {
12
} else {
m1 - 1
};
let borrow_year = if m1 - 1 < 1 {
y1 - 1
} else {
y1
};
days += Date::days_in_month(
borrow_year,
borrow_month as u32,
) as i32;
}
if months < 0 {
years -= 1;
months += 12;
}
let total_months = years * 12 + months;
container.push(Duration::new(total_months, days, nanos_diff)?);
}
_ => container.push_default(),
}
}
ColumnData::Duration(container)
}
(ColumnData::DateTime(_), other) => {
return Err(FunctionError::InvalidArgumentType {
function: ctx.fragment.clone(),
argument_index: 1,
expected: vec![Type::DateTime],
actual: other.get_type(),
});
}
(other, _) => {
return Err(FunctionError::InvalidArgumentType {
function: ctx.fragment.clone(),
argument_index: 0,
expected: vec![Type::DateTime],
actual: other.get_type(),
});
}
};
let final_data = match (bitvec1, bitvec2) {
(Some(bv), _) | (_, Some(bv)) => ColumnData::Option {
inner: Box::new(result_data),
bitvec: bv.clone(),
},
_ => result_data,
};
Ok(Columns::new(vec![Column::new(ctx.fragment.clone(), final_data)]))
}
}