reifydb_function/text/
ascii.rs1use reifydb_core::value::column::data::ColumnData;
5use reifydb_type::value::r#type::Type;
6
7use crate::{
8 ScalarFunction, ScalarFunctionContext,
9 error::{ScalarFunctionError, ScalarFunctionResult},
10 propagate_options,
11};
12
13pub struct TextAscii;
14
15impl TextAscii {
16 pub fn new() -> Self {
17 Self
18 }
19}
20
21impl ScalarFunction for TextAscii {
22 fn scalar(&self, ctx: ScalarFunctionContext) -> ScalarFunctionResult<ColumnData> {
23 if let Some(result) = propagate_options(self, &ctx) {
24 return result;
25 }
26
27 let columns = ctx.columns;
28 let row_count = ctx.row_count;
29
30 if columns.len() != 1 {
31 return Err(ScalarFunctionError::ArityMismatch {
32 function: ctx.fragment.clone(),
33 expected: 1,
34 actual: columns.len(),
35 });
36 }
37
38 let column = columns.get(0).unwrap();
39
40 match &column.data() {
41 ColumnData::Utf8 {
42 container,
43 ..
44 } => {
45 let mut result_data = Vec::with_capacity(row_count);
46 let mut result_bitvec = Vec::with_capacity(row_count);
47
48 for i in 0..row_count {
49 if container.is_defined(i) {
50 let s = &container[i];
51 let code_point = s.chars().next().map(|c| c as i32).unwrap_or(0);
52 result_data.push(code_point);
53 result_bitvec.push(true);
54 } else {
55 result_data.push(0);
56 result_bitvec.push(false);
57 }
58 }
59
60 Ok(ColumnData::int4_with_bitvec(result_data, result_bitvec))
61 }
62 other => Err(ScalarFunctionError::InvalidArgumentType {
63 function: ctx.fragment.clone(),
64 argument_index: 0,
65 expected: vec![Type::Utf8],
66 actual: other.get_type(),
67 }),
68 }
69 }
70
71 fn return_type(&self, _input_types: &[Type]) -> Type {
72 Type::Int4
73 }
74}