use reifydb_core::value::column::data::ColumnData;
use reifydb_type::{
fragment::Fragment,
value::{blob::Blob, r#type::Type},
};
use crate::function::{
ScalarFunction, ScalarFunctionContext,
error::{ScalarFunctionError, ScalarFunctionResult},
propagate_options,
};
pub struct BlobHex;
impl BlobHex {
pub fn new() -> Self {
Self
}
}
impl ScalarFunction for BlobHex {
fn scalar(&self, ctx: ScalarFunctionContext) -> ScalarFunctionResult<ColumnData> {
if let Some(result) = propagate_options(self, &ctx) {
return result;
}
let columns = ctx.columns;
let row_count = ctx.row_count;
if columns.len() != 1 {
return Err(ScalarFunctionError::ArityMismatch {
function: ctx.fragment.clone(),
expected: 1,
actual: columns.len(),
});
}
let column = columns.get(0).unwrap();
match &column.data() {
ColumnData::Utf8 {
container,
..
} => {
let mut result_data = Vec::with_capacity(container.data().len());
let mut result_bitvec = Vec::with_capacity(row_count);
for i in 0..row_count {
if container.is_defined(i) {
let hex_str = &container[i];
let blob = Blob::from_hex(Fragment::internal(hex_str))?;
result_data.push(blob);
result_bitvec.push(true);
} else {
result_data.push(Blob::empty());
result_bitvec.push(false);
}
}
Ok(ColumnData::blob_with_bitvec(result_data, result_bitvec))
}
other => Err(ScalarFunctionError::InvalidArgumentType {
function: ctx.fragment.clone(),
argument_index: 0,
expected: vec![Type::Utf8],
actual: other.get_type(),
}),
}
}
fn return_type(&self, _input_types: &[Type]) -> Type {
Type::Blob
}
}