use std::sync::Arc;
use reifydb_abi::operator::capabilities::CAPABILITY_ALL_STANDARD;
use reifydb_core::{
encoded::shape::RowShape,
interface::{
catalog::{flow::FlowNodeId, ringbuffer::RingBuffer, shape::ShapeId},
change::{Change, Diff},
},
key::row::RowKey,
value::column::{ColumnWithName, buffer::ColumnBuffer, columns::Columns},
};
use reifydb_type::{
Result,
fragment::Fragment,
value::{datetime::DateTime, row_number::RowNumber},
};
use crate::{Operator, operator::sink::decode_dictionary_columns, transaction::FlowTransaction};
pub struct PrimitiveRingBufferOperator {
node: FlowNodeId,
ringbuffer: RingBuffer,
}
impl PrimitiveRingBufferOperator {
pub fn new(node: FlowNodeId, ringbuffer: RingBuffer) -> Self {
Self {
node,
ringbuffer,
}
}
}
impl Operator for PrimitiveRingBufferOperator {
fn id(&self) -> FlowNodeId {
self.node
}
fn capabilities(&self) -> u32 {
CAPABILITY_ALL_STANDARD
}
fn apply(&self, txn: &mut FlowTransaction, change: Change) -> Result<Change> {
let mut decoded_diffs = Vec::with_capacity(change.diffs.len());
for diff in change.diffs {
decoded_diffs.push(match diff {
Diff::Insert {
post,
} => {
let mut decoded = post;
decode_dictionary_columns(Arc::make_mut(&mut decoded), txn)?;
Diff::insert_arc(decoded)
}
Diff::Update {
pre,
post,
} => {
let mut decoded_pre = pre;
let mut decoded_post = post;
decode_dictionary_columns(Arc::make_mut(&mut decoded_pre), txn)?;
decode_dictionary_columns(Arc::make_mut(&mut decoded_post), txn)?;
Diff::update_arc(decoded_pre, decoded_post)
}
Diff::Remove {
pre,
} => {
let mut decoded = pre;
decode_dictionary_columns(Arc::make_mut(&mut decoded), txn)?;
Diff::remove_arc(decoded)
}
});
}
Ok(Change::from_flow(self.node, change.version, decoded_diffs, change.changed_at))
}
fn pull(&self, txn: &mut FlowTransaction, rows: &[RowNumber]) -> Result<Columns> {
if rows.is_empty() {
return Ok(self.empty_columns());
}
let shape: RowShape = (&self.ringbuffer.columns).into();
let fields = shape.fields();
let mut columns_vec: Vec<ColumnWithName> = Vec::with_capacity(fields.len());
for field in fields.iter() {
columns_vec.push(ColumnWithName {
name: Fragment::internal(&field.name),
data: ColumnBuffer::with_capacity(field.constraint.get_type(), rows.len()),
});
}
let mut row_numbers = Vec::with_capacity(rows.len());
let mut created_at = Vec::with_capacity(rows.len());
let mut updated_at = Vec::with_capacity(rows.len());
for row_num in rows {
let key = RowKey::encoded(ShapeId::ringbuffer(self.ringbuffer.id), *row_num);
if let Some(encoded) = txn.get(&key)? {
row_numbers.push(*row_num);
created_at.push(DateTime::from_nanos(encoded.created_at_nanos()));
updated_at.push(DateTime::from_nanos(encoded.updated_at_nanos()));
for (i, _field) in fields.iter().enumerate() {
let value = shape.get_value(&encoded, i);
columns_vec[i].data.push_value(value);
}
}
}
if row_numbers.is_empty() {
Ok(self.empty_columns())
} else {
Ok(Columns::with_system_columns(columns_vec, row_numbers, created_at, updated_at))
}
}
}
impl PrimitiveRingBufferOperator {
fn empty_columns(&self) -> Columns {
let columns: Vec<ColumnWithName> = self
.ringbuffer
.columns
.iter()
.map(|col| ColumnWithName {
name: Fragment::internal(&col.name),
data: ColumnBuffer::with_capacity(col.constraint.get_type(), 0),
})
.collect();
Columns::new(columns)
}
}