use std::mem;
use indexmap::IndexMap;
use reifydb_core::value::column::{
Column,
columns::Columns,
data::ColumnData,
view::group_by::{GroupByView, GroupKey},
};
use reifydb_type::{
fragment::Fragment,
value::{
Value,
decimal::Decimal,
int::Int,
r#type::{Type, input_types::InputTypes},
uint::Uint,
},
};
use crate::function::{Accumulator, Function, FunctionCapability, FunctionContext, FunctionInfo, error::FunctionError};
pub struct Sum {
info: FunctionInfo,
}
impl Default for Sum {
fn default() -> Self {
Self::new()
}
}
impl Sum {
pub fn new() -> Self {
Self {
info: FunctionInfo::new("math::sum"),
}
}
}
impl Function for Sum {
fn info(&self) -> &FunctionInfo {
&self.info
}
fn capabilities(&self) -> &[FunctionCapability] {
&[FunctionCapability::Scalar, FunctionCapability::Aggregate]
}
fn return_type(&self, input_types: &[Type]) -> Type {
input_types.first().cloned().unwrap_or(Type::Int8)
}
fn accepted_types(&self) -> InputTypes {
InputTypes::numeric()
}
fn execute(&self, ctx: &FunctionContext, args: &Columns) -> Result<Columns, FunctionError> {
if args.is_empty() {
return Err(FunctionError::ArityMismatch {
function: ctx.fragment.clone(),
expected: 1,
actual: 0,
});
}
let row_count = args.row_count();
let mut results = Vec::with_capacity(row_count);
for i in 0..row_count {
let val1 = args[0].data().get_value(i);
results.push(Box::new(val1));
}
Ok(Columns::new(vec![Column::new(ctx.fragment.clone(), ColumnData::any(results))]))
}
fn accumulator(&self, _ctx: &FunctionContext) -> Option<Box<dyn Accumulator>> {
Some(Box::new(SumAccumulator::new()))
}
}
struct SumAccumulator {
pub sums: IndexMap<Vec<Value>, Value>,
input_type: Option<Type>,
}
impl SumAccumulator {
pub fn new() -> Self {
Self {
sums: IndexMap::new(),
input_type: None,
}
}
}
macro_rules! sum_arm {
($self:expr, $column:expr, $groups:expr, $container:expr, $t:ty, $ctor:expr) => {
for (group, indices) in $groups.iter() {
let mut sum: $t = Default::default();
let mut has_value = false;
for &i in indices {
if $column.data().is_defined(i) {
if let Some(&val) = $container.get(i) {
sum += val;
has_value = true;
}
}
}
if has_value {
$self.sums.insert(group.clone(), $ctor(sum));
} else {
$self.sums.entry(group.clone()).or_insert(Value::none());
}
}
};
}
impl Accumulator for SumAccumulator {
fn update(&mut self, args: &Columns, groups: &GroupByView) -> Result<(), FunctionError> {
let column = &args[0];
let (data, _bitvec) = column.data().unwrap_option();
if self.input_type.is_none() {
self.input_type = Some(data.get_type());
}
match data {
ColumnData::Int1(container) => {
sum_arm!(self, column, groups, container, i8, Value::Int1);
Ok(())
}
ColumnData::Int2(container) => {
sum_arm!(self, column, groups, container, i16, Value::Int2);
Ok(())
}
ColumnData::Int4(container) => {
sum_arm!(self, column, groups, container, i32, Value::Int4);
Ok(())
}
ColumnData::Int8(container) => {
sum_arm!(self, column, groups, container, i64, Value::Int8);
Ok(())
}
ColumnData::Int16(container) => {
sum_arm!(self, column, groups, container, i128, Value::Int16);
Ok(())
}
ColumnData::Uint1(container) => {
sum_arm!(self, column, groups, container, u8, Value::Uint1);
Ok(())
}
ColumnData::Uint2(container) => {
sum_arm!(self, column, groups, container, u16, Value::Uint2);
Ok(())
}
ColumnData::Uint4(container) => {
sum_arm!(self, column, groups, container, u32, Value::Uint4);
Ok(())
}
ColumnData::Uint8(container) => {
sum_arm!(self, column, groups, container, u64, Value::Uint8);
Ok(())
}
ColumnData::Uint16(container) => {
sum_arm!(self, column, groups, container, u128, Value::Uint16);
Ok(())
}
ColumnData::Float4(container) => {
sum_arm!(self, column, groups, container, f32, Value::float4);
Ok(())
}
ColumnData::Float8(container) => {
sum_arm!(self, column, groups, container, f64, Value::float8);
Ok(())
}
ColumnData::Int {
container,
..
} => {
for (group, indices) in groups.iter() {
let mut sum = Int::zero();
let mut has_value = false;
for &i in indices {
if column.data().is_defined(i)
&& let Some(val) = container.get(i)
{
sum = Int(sum.0 + &val.0);
has_value = true;
}
}
if has_value {
self.sums.insert(group.clone(), Value::Int(sum));
} else {
self.sums.entry(group.clone()).or_insert(Value::none());
}
}
Ok(())
}
ColumnData::Uint {
container,
..
} => {
for (group, indices) in groups.iter() {
let mut sum = Uint::zero();
let mut has_value = false;
for &i in indices {
if column.data().is_defined(i)
&& let Some(val) = container.get(i)
{
sum = Uint(sum.0 + &val.0);
has_value = true;
}
}
if has_value {
self.sums.insert(group.clone(), Value::Uint(sum));
} else {
self.sums.entry(group.clone()).or_insert(Value::none());
}
}
Ok(())
}
ColumnData::Decimal {
container,
..
} => {
for (group, indices) in groups.iter() {
let mut sum = Decimal::zero();
let mut has_value = false;
for &i in indices {
if column.data().is_defined(i)
&& let Some(val) = container.get(i)
{
sum = Decimal(sum.0 + &val.0);
has_value = true;
}
}
if has_value {
self.sums.insert(group.clone(), Value::Decimal(sum));
} else {
self.sums.entry(group.clone()).or_insert(Value::none());
}
}
Ok(())
}
other => Err(FunctionError::InvalidArgumentType {
function: Fragment::internal("math::sum"),
argument_index: 0,
expected: InputTypes::numeric().expected_at(0).to_vec(),
actual: other.get_type(),
}),
}
}
fn finalize(&mut self) -> Result<(Vec<GroupKey>, ColumnData), FunctionError> {
let ty = self.input_type.take().unwrap_or(Type::Int8);
let mut keys = Vec::with_capacity(self.sums.len());
let mut data = ColumnData::with_capacity(ty, self.sums.len());
for (key, sum) in mem::take(&mut self.sums) {
keys.push(key);
data.push_value(sum);
}
Ok((keys, data))
}
}