use std::fmt;
use mz_lowertest::MzReflect;
use mz_repr::adt::numeric::{self, Numeric, NumericMaxScale};
use mz_repr::{strconv, ColumnType, ScalarType};
use serde::{Deserialize, Serialize};
use crate::scalar::func::EagerUnaryFunc;
use crate::EvalError;
sqlfunc!(
#[sqlname = "-"]
#[preserves_uniqueness = true]
#[inverse = to_unary!(NegInt16)]
#[is_monotone = true]
fn neg_int16(a: i16) -> Result<i16, EvalError> {
a.checked_neg()
.ok_or(EvalError::Int16OutOfRange(a.to_string().into()))
}
);
sqlfunc!(
#[sqlname = "~"]
#[preserves_uniqueness = true]
#[inverse = to_unary!(BitNotInt16)]
fn bit_not_int16(a: i16) -> i16 {
!a
}
);
sqlfunc!(
#[sqlname = "abs"]
fn abs_int16(a: i16) -> Result<i16, EvalError> {
a.checked_abs()
.ok_or(EvalError::Int16OutOfRange(a.to_string().into()))
}
);
sqlfunc!(
#[sqlname = "smallint_to_real"]
#[preserves_uniqueness = true]
#[inverse = to_unary!(super::CastFloat32ToInt16)]
#[is_monotone = true]
fn cast_int16_to_float32(a: i16) -> f32 {
f32::from(a)
}
);
sqlfunc!(
#[sqlname = "smallint_to_double"]
#[preserves_uniqueness = true]
#[inverse = to_unary!(super::CastFloat64ToInt16)]
#[is_monotone = true]
fn cast_int16_to_float64(a: i16) -> f64 {
f64::from(a)
}
);
sqlfunc!(
#[sqlname = "smallint_to_integer"]
#[preserves_uniqueness = true]
#[inverse = to_unary!(super::CastInt32ToInt16)]
#[is_monotone = true]
fn cast_int16_to_int32(a: i16) -> i32 {
i32::from(a)
}
);
sqlfunc!(
#[sqlname = "smallint_to_bigint"]
#[preserves_uniqueness = true]
#[inverse = to_unary!(super::CastInt64ToInt16)]
#[is_monotone = true]
fn cast_int16_to_int64(a: i16) -> i64 {
i64::from(a)
}
);
sqlfunc!(
#[sqlname = "smallint_to_text"]
#[preserves_uniqueness = true]
#[inverse = to_unary!(super::CastStringToInt16)]
fn cast_int16_to_string(a: i16) -> String {
let mut buf = String::new();
strconv::format_int16(&mut buf, a);
buf
}
);
sqlfunc!(
#[sqlname = "smallint_to_uint2"]
#[preserves_uniqueness = true]
#[inverse = to_unary!(super::CastUint16ToInt16)]
#[is_monotone = true]
fn cast_int16_to_uint16(a: i16) -> Result<u16, EvalError> {
u16::try_from(a).or(Err(EvalError::UInt16OutOfRange(a.to_string().into())))
}
);
sqlfunc!(
#[sqlname = "smallint_to_uint4"]
#[preserves_uniqueness = true]
#[inverse = to_unary!(super::CastUint32ToInt16)]
#[is_monotone = true]
fn cast_int16_to_uint32(a: i16) -> Result<u32, EvalError> {
u32::try_from(a).or(Err(EvalError::UInt32OutOfRange(a.to_string().into())))
}
);
sqlfunc!(
#[sqlname = "smallint_to_uint8"]
#[preserves_uniqueness = true]
#[inverse = to_unary!(super::CastUint64ToInt16)]
#[is_monotone = true]
fn cast_int16_to_uint64(a: i16) -> Result<u64, EvalError> {
u64::try_from(a).or(Err(EvalError::UInt64OutOfRange(a.to_string().into())))
}
);
#[derive(Ord, PartialOrd, Clone, Debug, Eq, PartialEq, Serialize, Deserialize, Hash, MzReflect)]
pub struct CastInt16ToNumeric(pub Option<NumericMaxScale>);
impl<'a> EagerUnaryFunc<'a> for CastInt16ToNumeric {
type Input = i16;
type Output = Result<Numeric, EvalError>;
fn call(&self, a: i16) -> Result<Numeric, EvalError> {
let mut a = Numeric::from(i32::from(a));
if let Some(scale) = self.0 {
if numeric::rescale(&mut a, scale.into_u8()).is_err() {
return Err(EvalError::NumericFieldOverflow);
}
}
Ok(a)
}
fn output_type(&self, input: ColumnType) -> ColumnType {
ScalarType::Numeric { max_scale: self.0 }.nullable(input.nullable)
}
fn could_error(&self) -> bool {
self.0.is_some()
}
fn inverse(&self) -> Option<crate::UnaryFunc> {
to_unary!(super::CastNumericToInt16)
}
fn is_monotone(&self) -> bool {
true
}
}
impl fmt::Display for CastInt16ToNumeric {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.write_str("smallint_to_numeric")
}
}