use std::any::Any;
use std::sync::Arc;
use arrow::array::{ArrayRef, GenericStringArray, OffsetSizeTrait};
use arrow::datatypes::DataType;
use datafusion_common::cast::{as_generic_string_array, as_int64_array};
use unicode_segmentation::UnicodeSegmentation;
use crate::utils::{make_scalar_function, utf8_to_str_type};
use datafusion_common::{exec_err, Result};
use datafusion_expr::TypeSignature::Exact;
use datafusion_expr::{ColumnarValue, ScalarUDFImpl, Signature, Volatility};
#[derive(Debug)]
pub struct RPadFunc {
signature: Signature,
}
impl Default for RPadFunc {
fn default() -> Self {
Self::new()
}
}
impl RPadFunc {
pub fn new() -> Self {
use DataType::*;
Self {
signature: Signature::one_of(
vec![
Exact(vec![Utf8, Int64]),
Exact(vec![LargeUtf8, Int64]),
Exact(vec![Utf8, Int64, Utf8]),
Exact(vec![LargeUtf8, Int64, Utf8]),
Exact(vec![Utf8, Int64, LargeUtf8]),
Exact(vec![LargeUtf8, Int64, LargeUtf8]),
],
Volatility::Immutable,
),
}
}
}
impl ScalarUDFImpl for RPadFunc {
fn as_any(&self) -> &dyn Any {
self
}
fn name(&self) -> &str {
"rpad"
}
fn signature(&self) -> &Signature {
&self.signature
}
fn return_type(&self, arg_types: &[DataType]) -> Result<DataType> {
utf8_to_str_type(&arg_types[0], "rpad")
}
fn invoke(&self, args: &[ColumnarValue]) -> Result<ColumnarValue> {
match args[0].data_type() {
DataType::Utf8 => make_scalar_function(rpad::<i32>, vec![])(args),
DataType::LargeUtf8 => make_scalar_function(rpad::<i64>, vec![])(args),
other => exec_err!("Unsupported data type {other:?} for function rpad"),
}
}
}
pub fn rpad<T: OffsetSizeTrait>(args: &[ArrayRef]) -> Result<ArrayRef> {
match args.len() {
2 => {
let string_array = as_generic_string_array::<T>(&args[0])?;
let length_array = as_int64_array(&args[1])?;
let result = string_array
.iter()
.zip(length_array.iter())
.map(|(string, length)| match (string, length) {
(Some(string), Some(length)) => {
if length > i32::MAX as i64 {
return exec_err!(
"rpad requested length {length} too large"
);
}
let length = if length < 0 { 0 } else { length as usize };
if length == 0 {
Ok(Some("".to_string()))
} else {
let graphemes = string.graphemes(true).collect::<Vec<&str>>();
if length < graphemes.len() {
Ok(Some(graphemes[..length].concat()))
} else {
let mut s = string.to_string();
s.push_str(" ".repeat(length - graphemes.len()).as_str());
Ok(Some(s))
}
}
}
_ => Ok(None),
})
.collect::<Result<GenericStringArray<T>>>()?;
Ok(Arc::new(result) as ArrayRef)
}
3 => {
let string_array = as_generic_string_array::<T>(&args[0])?;
let length_array = as_int64_array(&args[1])?;
let fill_array = as_generic_string_array::<T>(&args[2])?;
let result = string_array
.iter()
.zip(length_array.iter())
.zip(fill_array.iter())
.map(|((string, length), fill)| match (string, length, fill) {
(Some(string), Some(length), Some(fill)) => {
if length > i32::MAX as i64 {
return exec_err!(
"rpad requested length {length} too large"
);
}
let length = if length < 0 { 0 } else { length as usize };
let graphemes = string.graphemes(true).collect::<Vec<&str>>();
let fill_chars = fill.chars().collect::<Vec<char>>();
if length < graphemes.len() {
Ok(Some(graphemes[..length].concat()))
} else if fill_chars.is_empty() {
Ok(Some(string.to_string()))
} else {
let mut s = string.to_string();
let mut char_vector =
Vec::<char>::with_capacity(length - graphemes.len());
for l in 0..length - graphemes.len() {
char_vector
.push(*fill_chars.get(l % fill_chars.len()).unwrap());
}
s.push_str(char_vector.iter().collect::<String>().as_str());
Ok(Some(s))
}
}
_ => Ok(None),
})
.collect::<Result<GenericStringArray<T>>>()?;
Ok(Arc::new(result) as ArrayRef)
}
other => exec_err!(
"rpad was called with {other} arguments. It requires at least 2 and at most 3."
),
}
}
#[cfg(test)]
mod tests {
use arrow::array::{Array, StringArray};
use arrow::datatypes::DataType::Utf8;
use datafusion_common::{Result, ScalarValue};
use datafusion_expr::{ColumnarValue, ScalarUDFImpl};
use crate::unicode::rpad::RPadFunc;
use crate::utils::test::test_function;
#[test]
fn test_functions() -> Result<()> {
test_function!(
RPadFunc::new(),
&[
ColumnarValue::Scalar(ScalarValue::from("josé")),
ColumnarValue::Scalar(ScalarValue::from(5i64)),
],
Ok(Some("josé ")),
&str,
Utf8,
StringArray
);
test_function!(
RPadFunc::new(),
&[
ColumnarValue::Scalar(ScalarValue::from("hi")),
ColumnarValue::Scalar(ScalarValue::from(5i64)),
],
Ok(Some("hi ")),
&str,
Utf8,
StringArray
);
test_function!(
RPadFunc::new(),
&[
ColumnarValue::Scalar(ScalarValue::from("hi")),
ColumnarValue::Scalar(ScalarValue::from(0i64)),
],
Ok(Some("")),
&str,
Utf8,
StringArray
);
test_function!(
RPadFunc::new(),
&[
ColumnarValue::Scalar(ScalarValue::from("hi")),
ColumnarValue::Scalar(ScalarValue::Int64(None)),
],
Ok(None),
&str,
Utf8,
StringArray
);
test_function!(
RPadFunc::new(),
&[
ColumnarValue::Scalar(ScalarValue::Utf8(None)),
ColumnarValue::Scalar(ScalarValue::from(5i64)),
],
Ok(None),
&str,
Utf8,
StringArray
);
test_function!(
RPadFunc::new(),
&[
ColumnarValue::Scalar(ScalarValue::from("hi")),
ColumnarValue::Scalar(ScalarValue::from(5i64)),
ColumnarValue::Scalar(ScalarValue::from("xy")),
],
Ok(Some("hixyx")),
&str,
Utf8,
StringArray
);
test_function!(
RPadFunc::new(),
&[
ColumnarValue::Scalar(ScalarValue::from("hi")),
ColumnarValue::Scalar(ScalarValue::from(21i64)),
ColumnarValue::Scalar(ScalarValue::from("abcdef")),
],
Ok(Some("hiabcdefabcdefabcdefa")),
&str,
Utf8,
StringArray
);
test_function!(
RPadFunc::new(),
&[
ColumnarValue::Scalar(ScalarValue::from("hi")),
ColumnarValue::Scalar(ScalarValue::from(5i64)),
ColumnarValue::Scalar(ScalarValue::from(" ")),
],
Ok(Some("hi ")),
&str,
Utf8,
StringArray
);
test_function!(
RPadFunc::new(),
&[
ColumnarValue::Scalar(ScalarValue::from("hi")),
ColumnarValue::Scalar(ScalarValue::from(5i64)),
ColumnarValue::Scalar(ScalarValue::from("")),
],
Ok(Some("hi")),
&str,
Utf8,
StringArray
);
test_function!(
RPadFunc::new(),
&[
ColumnarValue::Scalar(ScalarValue::Utf8(None)),
ColumnarValue::Scalar(ScalarValue::from(5i64)),
ColumnarValue::Scalar(ScalarValue::from("xy")),
],
Ok(None),
&str,
Utf8,
StringArray
);
test_function!(
RPadFunc::new(),
&[
ColumnarValue::Scalar(ScalarValue::from("hi")),
ColumnarValue::Scalar(ScalarValue::Int64(None)),
ColumnarValue::Scalar(ScalarValue::from("xy")),
],
Ok(None),
&str,
Utf8,
StringArray
);
test_function!(
RPadFunc::new(),
&[
ColumnarValue::Scalar(ScalarValue::from("hi")),
ColumnarValue::Scalar(ScalarValue::from(5i64)),
ColumnarValue::Scalar(ScalarValue::Utf8(None)),
],
Ok(None),
&str,
Utf8,
StringArray
);
test_function!(
RPadFunc::new(),
&[
ColumnarValue::Scalar(ScalarValue::from("josé")),
ColumnarValue::Scalar(ScalarValue::from(10i64)),
ColumnarValue::Scalar(ScalarValue::from("xy")),
],
Ok(Some("joséxyxyxy")),
&str,
Utf8,
StringArray
);
test_function!(
RPadFunc::new(),
&[
ColumnarValue::Scalar(ScalarValue::from("josé")),
ColumnarValue::Scalar(ScalarValue::from(10i64)),
ColumnarValue::Scalar(ScalarValue::from("éñ")),
],
Ok(Some("josééñéñéñ")),
&str,
Utf8,
StringArray
);
#[cfg(not(feature = "unicode_expressions"))]
test_function!(
RPadFunc::new(),
&[
ColumnarValue::Scalar(ScalarValue::from("josé")),
ColumnarValue::Scalar(ScalarValue::from(5i64)),
],
internal_err!(
"function rpad requires compilation with feature flag: unicode_expressions."
),
&str,
Utf8,
StringArray
);
Ok(())
}
}