datafusion_functions/core/
nullif.rsuse arrow::datatypes::DataType;
use datafusion_common::{exec_err, Result};
use datafusion_expr::{ColumnarValue, Documentation};
use arrow::compute::kernels::cmp::eq;
use arrow::compute::kernels::nullif::nullif;
use datafusion_common::ScalarValue;
use datafusion_expr::scalar_doc_sections::DOC_SECTION_CONDITIONAL;
use datafusion_expr::{ScalarUDFImpl, Signature, Volatility};
use std::any::Any;
use std::sync::OnceLock;
#[derive(Debug)]
pub struct NullIfFunc {
signature: Signature,
}
static SUPPORTED_NULLIF_TYPES: &[DataType] = &[
DataType::Boolean,
DataType::UInt8,
DataType::UInt16,
DataType::UInt32,
DataType::UInt64,
DataType::Int8,
DataType::Int16,
DataType::Int32,
DataType::Int64,
DataType::Float32,
DataType::Float64,
DataType::Utf8,
DataType::LargeUtf8,
];
impl Default for NullIfFunc {
fn default() -> Self {
Self::new()
}
}
impl NullIfFunc {
pub fn new() -> Self {
Self {
signature: Signature::uniform(
2,
SUPPORTED_NULLIF_TYPES.to_vec(),
Volatility::Immutable,
),
}
}
}
impl ScalarUDFImpl for NullIfFunc {
fn as_any(&self) -> &dyn Any {
self
}
fn name(&self) -> &str {
"nullif"
}
fn signature(&self) -> &Signature {
&self.signature
}
fn return_type(&self, arg_types: &[DataType]) -> Result<DataType> {
let coerced_types = datafusion_expr::type_coercion::functions::data_types(
arg_types,
&self.signature,
);
coerced_types
.map(|typs| typs[0].clone())
.map_err(|e| e.context("Failed to coerce arguments for NULLIF"))
}
fn invoke(&self, args: &[ColumnarValue]) -> Result<ColumnarValue> {
nullif_func(args)
}
fn documentation(&self) -> Option<&Documentation> {
Some(get_nullif_doc())
}
}
static DOCUMENTATION: OnceLock<Documentation> = OnceLock::new();
fn get_nullif_doc() -> &'static Documentation {
DOCUMENTATION.get_or_init(|| {
Documentation::builder()
.with_doc_section(DOC_SECTION_CONDITIONAL)
.with_description("Returns _null_ if _expression1_ equals _expression2_; otherwise it returns _expression1_.
This can be used to perform the inverse operation of [`coalesce`](#coalesce).")
.with_syntax_example("nullif(expression1, expression2)")
.with_sql_example(r#"```sql
> select nullif('datafusion', 'data');
+-----------------------------------------+
| nullif(Utf8("datafusion"),Utf8("data")) |
+-----------------------------------------+
| datafusion |
+-----------------------------------------+
> select nullif('datafusion', 'datafusion');
+-----------------------------------------------+
| nullif(Utf8("datafusion"),Utf8("datafusion")) |
+-----------------------------------------------+
| |
+-----------------------------------------------+
```
"#)
.with_argument(
"expression1",
"Expression to compare and return if equal to expression2. Can be a constant, column, or function, and any combination of operators."
)
.with_argument(
"expression2",
"Expression to compare to expression1. Can be a constant, column, or function, and any combination of operators."
)
.build()
.unwrap()
})
}
fn nullif_func(args: &[ColumnarValue]) -> Result<ColumnarValue> {
if args.len() != 2 {
return exec_err!(
"{:?} args were supplied but NULLIF takes exactly two args",
args.len()
);
}
let (lhs, rhs) = (&args[0], &args[1]);
match (lhs, rhs) {
(ColumnarValue::Array(lhs), ColumnarValue::Scalar(rhs)) => {
let rhs = rhs.to_scalar()?;
let array = nullif(lhs, &eq(&lhs, &rhs)?)?;
Ok(ColumnarValue::Array(array))
}
(ColumnarValue::Array(lhs), ColumnarValue::Array(rhs)) => {
let array = nullif(lhs, &eq(&lhs, &rhs)?)?;
Ok(ColumnarValue::Array(array))
}
(ColumnarValue::Scalar(lhs), ColumnarValue::Array(rhs)) => {
let lhs_s = lhs.to_scalar()?;
let lhs_a = lhs.to_array_of_size(rhs.len())?;
let array = nullif(
lhs_a.as_ref(),
&eq(&lhs_s, &rhs)?,
)?;
Ok(ColumnarValue::Array(array))
}
(ColumnarValue::Scalar(lhs), ColumnarValue::Scalar(rhs)) => {
let val: ScalarValue = match lhs.eq(rhs) {
true => lhs.data_type().try_into()?,
false => lhs.clone(),
};
Ok(ColumnarValue::Scalar(val))
}
}
}
#[cfg(test)]
mod tests {
use std::sync::Arc;
use arrow::array::*;
use super::*;
#[test]
fn nullif_int32() -> Result<()> {
let a = Int32Array::from(vec![
Some(1),
Some(2),
None,
None,
Some(3),
None,
None,
Some(4),
Some(5),
]);
let a = ColumnarValue::Array(Arc::new(a));
let lit_array = ColumnarValue::Scalar(ScalarValue::Int32(Some(2i32)));
let result = nullif_func(&[a, lit_array])?;
let result = result.into_array(0).expect("Failed to convert to array");
let expected = Arc::new(Int32Array::from(vec![
Some(1),
None,
None,
None,
Some(3),
None,
None,
Some(4),
Some(5),
])) as ArrayRef;
assert_eq!(expected.as_ref(), result.as_ref());
Ok(())
}
#[test]
fn nullif_int32_nonulls() -> Result<()> {
let a = Int32Array::from(vec![1, 3, 10, 7, 8, 1, 2, 4, 5]);
let a = ColumnarValue::Array(Arc::new(a));
let lit_array = ColumnarValue::Scalar(ScalarValue::Int32(Some(1i32)));
let result = nullif_func(&[a, lit_array])?;
let result = result.into_array(0).expect("Failed to convert to array");
let expected = Arc::new(Int32Array::from(vec![
None,
Some(3),
Some(10),
Some(7),
Some(8),
None,
Some(2),
Some(4),
Some(5),
])) as ArrayRef;
assert_eq!(expected.as_ref(), result.as_ref());
Ok(())
}
#[test]
fn nullif_boolean() -> Result<()> {
let a = BooleanArray::from(vec![Some(true), Some(false), None]);
let a = ColumnarValue::Array(Arc::new(a));
let lit_array = ColumnarValue::Scalar(ScalarValue::Boolean(Some(false)));
let result = nullif_func(&[a, lit_array])?;
let result = result.into_array(0).expect("Failed to convert to array");
let expected =
Arc::new(BooleanArray::from(vec![Some(true), None, None])) as ArrayRef;
assert_eq!(expected.as_ref(), result.as_ref());
Ok(())
}
#[test]
fn nullif_string() -> Result<()> {
let a = StringArray::from(vec![Some("foo"), Some("bar"), None, Some("baz")]);
let a = ColumnarValue::Array(Arc::new(a));
let lit_array = ColumnarValue::Scalar(ScalarValue::from("bar"));
let result = nullif_func(&[a, lit_array])?;
let result = result.into_array(0).expect("Failed to convert to array");
let expected = Arc::new(StringArray::from(vec![
Some("foo"),
None,
None,
Some("baz"),
])) as ArrayRef;
assert_eq!(expected.as_ref(), result.as_ref());
Ok(())
}
#[test]
fn nullif_literal_first() -> Result<()> {
let a = Int32Array::from(vec![Some(1), Some(2), None, None, Some(3), Some(4)]);
let a = ColumnarValue::Array(Arc::new(a));
let lit_array = ColumnarValue::Scalar(ScalarValue::Int32(Some(2i32)));
let result = nullif_func(&[lit_array, a])?;
let result = result.into_array(0).expect("Failed to convert to array");
let expected = Arc::new(Int32Array::from(vec![
Some(2),
None,
Some(2),
Some(2),
Some(2),
Some(2),
])) as ArrayRef;
assert_eq!(expected.as_ref(), result.as_ref());
Ok(())
}
#[test]
fn nullif_scalar() -> Result<()> {
let a_eq = ColumnarValue::Scalar(ScalarValue::Int32(Some(2i32)));
let b_eq = ColumnarValue::Scalar(ScalarValue::Int32(Some(2i32)));
let result_eq = nullif_func(&[a_eq, b_eq])?;
let result_eq = result_eq.into_array(1).expect("Failed to convert to array");
let expected_eq = Arc::new(Int32Array::from(vec![None])) as ArrayRef;
assert_eq!(expected_eq.as_ref(), result_eq.as_ref());
let a_neq = ColumnarValue::Scalar(ScalarValue::Int32(Some(2i32)));
let b_neq = ColumnarValue::Scalar(ScalarValue::Int32(Some(1i32)));
let result_neq = nullif_func(&[a_neq, b_neq])?;
let result_neq = result_neq
.into_array(1)
.expect("Failed to convert to array");
let expected_neq = Arc::new(Int32Array::from(vec![Some(2i32)])) as ArrayRef;
assert_eq!(expected_neq.as_ref(), result_neq.as_ref());
Ok(())
}
}