use reifydb_type::value::dictionary::DictionaryId;
use serde::{Deserialize, Serialize};
use super::{EncodableKey, KeyKind};
use crate::{
encoded::key::{EncodedKey, EncodedKeyRange},
interface::catalog::{
id::{RingBufferId, SeriesId, TableId, ViewId},
shape::ShapeId,
vtable::VTableId,
},
util::encoding::keycode::{deserializer::KeyDeserializer, serializer::KeySerializer},
};
const VERSION: u8 = 1;
#[derive(Debug, Clone, PartialEq, Eq, Serialize, Deserialize)]
pub struct RowTtlKey {
pub shape: ShapeId,
}
impl RowTtlKey {
pub fn encoded(shape: impl Into<ShapeId>) -> EncodedKey {
Self {
shape: shape.into(),
}
.encode()
}
}
impl EncodableKey for RowTtlKey {
const KIND: KeyKind = KeyKind::RowTtl;
fn encode(&self) -> EncodedKey {
let mut serializer = KeySerializer::with_capacity(11);
serializer.extend_u8(VERSION).extend_u8(Self::KIND as u8);
match &self.shape {
ShapeId::Table(id) => {
serializer.extend_u8(0x01).extend_u64(id.0);
}
ShapeId::View(id) => {
serializer.extend_u8(0x02).extend_u64(id.0);
}
ShapeId::TableVirtual(id) => {
serializer.extend_u8(0x03).extend_u64(id.0);
}
ShapeId::RingBuffer(id) => {
serializer.extend_u8(0x04).extend_u64(id.0);
}
ShapeId::Dictionary(id) => {
serializer.extend_u8(0x06).extend_u64(id.0);
}
ShapeId::Series(id) => {
serializer.extend_u8(0x07).extend_u64(id.0);
}
}
serializer.to_encoded_key()
}
fn decode(key: &EncodedKey) -> Option<Self> {
let mut de = KeyDeserializer::from_bytes(key.as_slice());
let version = de.read_u8().ok()?;
if version != VERSION {
return None;
}
let kind: KeyKind = de.read_u8().ok()?.try_into().ok()?;
if kind != Self::KIND {
return None;
}
let discriminator = de.read_u8().ok()?;
let id = de.read_u64().ok()?;
let shape = match discriminator {
0x01 => ShapeId::Table(TableId(id)),
0x02 => ShapeId::View(ViewId(id)),
0x03 => ShapeId::TableVirtual(VTableId(id)),
0x04 => ShapeId::RingBuffer(RingBufferId(id)),
0x06 => ShapeId::Dictionary(DictionaryId(id)),
0x07 => ShapeId::Series(SeriesId(id)),
_ => return None,
};
Some(Self {
shape,
})
}
}
pub struct RowTtlKeyRange;
impl RowTtlKeyRange {
pub fn full_scan() -> EncodedKeyRange {
EncodedKeyRange::start_end(Some(Self::start()), Some(Self::end()))
}
fn start() -> EncodedKey {
let mut serializer = KeySerializer::with_capacity(2);
serializer.extend_u8(VERSION).extend_u8(RowTtlKey::KIND as u8);
serializer.to_encoded_key()
}
fn end() -> EncodedKey {
let mut serializer = KeySerializer::with_capacity(2);
serializer.extend_u8(VERSION).extend_u8(RowTtlKey::KIND as u8 - 1);
serializer.to_encoded_key()
}
}
#[cfg(test)]
pub mod tests {
use super::*;
#[test]
fn test_row_ttl_key_encoding() {
let key = RowTtlKey {
shape: ShapeId::Table(TableId(42)),
};
let encoded = key.encode();
let decoded = RowTtlKey::decode(&encoded).unwrap();
assert_eq!(key, decoded);
}
#[test]
fn test_row_ttl_key_roundtrip_ringbuffer() {
let key = RowTtlKey {
shape: ShapeId::RingBuffer(RingBufferId(99)),
};
let encoded = key.encode();
let decoded = RowTtlKey::decode(&encoded).unwrap();
assert_eq!(key, decoded);
}
#[test]
fn test_row_ttl_key_roundtrip_series() {
let key = RowTtlKey {
shape: ShapeId::Series(SeriesId(7)),
};
let encoded = key.encode();
let decoded = RowTtlKey::decode(&encoded).unwrap();
assert_eq!(key, decoded);
}
}