reifydb_function/time/
age.rs1use reifydb_core::value::column::data::ColumnData;
5use reifydb_type::value::{container::temporal::TemporalContainer, duration::Duration, r#type::Type};
6
7use crate::{ScalarFunction, ScalarFunctionContext, error::ScalarFunctionError, propagate_options};
8
9pub struct TimeAge;
10
11impl TimeAge {
12 pub fn new() -> Self {
13 Self
14 }
15}
16
17impl ScalarFunction for TimeAge {
18 fn scalar(&self, ctx: ScalarFunctionContext) -> crate::error::ScalarFunctionResult<ColumnData> {
19 if let Some(result) = propagate_options(self, &ctx) {
20 return result;
21 }
22 let columns = ctx.columns;
23 let row_count = ctx.row_count;
24
25 if columns.len() != 2 {
26 return Err(ScalarFunctionError::ArityMismatch {
27 function: ctx.fragment.clone(),
28 expected: 2,
29 actual: columns.len(),
30 });
31 }
32
33 let col1 = columns.get(0).unwrap();
34 let col2 = columns.get(1).unwrap();
35
36 match (col1.data(), col2.data()) {
37 (ColumnData::Time(container1), ColumnData::Time(container2)) => {
38 let mut container = TemporalContainer::with_capacity(row_count);
39
40 for i in 0..row_count {
41 match (container1.get(i), container2.get(i)) {
42 (Some(t1), Some(t2)) => {
43 let diff_nanos = t1.to_nanos_since_midnight() as i64
44 - t2.to_nanos_since_midnight() as i64;
45 container.push(Duration::from_nanoseconds(diff_nanos));
46 }
47 _ => container.push_default(),
48 }
49 }
50
51 Ok(ColumnData::Duration(container))
52 }
53 (ColumnData::Time(_), other) => Err(ScalarFunctionError::InvalidArgumentType {
54 function: ctx.fragment.clone(),
55 argument_index: 1,
56 expected: vec![Type::Time],
57 actual: other.get_type(),
58 }),
59 (other, _) => Err(ScalarFunctionError::InvalidArgumentType {
60 function: ctx.fragment.clone(),
61 argument_index: 0,
62 expected: vec![Type::Time],
63 actual: other.get_type(),
64 }),
65 }
66 }
67
68 fn return_type(&self, _input_types: &[Type]) -> Type {
69 Type::Duration
70 }
71}