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use super::*;
impl DataFrame {
/// Get a row from a [`DataFrame`]. Use of this is discouraged as it will likely be slow.
pub fn get_row(&self, idx: usize) -> PolarsResult<Row> {
let values = self
.columns
.iter()
.map(|s| s.get(idx))
.collect::<PolarsResult<Vec<_>>>()?;
Ok(Row(values))
}
/// Amortize allocations by reusing a row.
/// The caller is responsible to make sure that the row has at least the capacity for the number
/// of columns in the [`DataFrame`]
pub fn get_row_amortized<'a>(&'a self, idx: usize, row: &mut Row<'a>) -> PolarsResult<()> {
for (s, any_val) in self.columns.iter().zip(&mut row.0) {
*any_val = s.get(idx)?;
}
Ok(())
}
/// Amortize allocations by reusing a row.
/// The caller is responsible to make sure that the row has at least the capacity for the number
/// of columns in the [`DataFrame`]
///
/// # Safety
/// Does not do any bounds checking.
#[inline]
pub unsafe fn get_row_amortized_unchecked<'a>(&'a self, idx: usize, row: &mut Row<'a>) {
self.columns
.iter()
.zip(&mut row.0)
.for_each(|(s, any_val)| {
*any_val = s.get_unchecked(idx);
});
}
/// Create a new [`DataFrame`] from rows.
///
/// This should only be used when you have row wise data, as this is a lot slower
/// than creating the [`Series`] in a columnar fashion
pub fn from_rows_and_schema(rows: &[Row], schema: &Schema) -> PolarsResult<Self> {
Self::from_rows_iter_and_schema(rows.iter(), schema)
}
/// Create a new [`DataFrame`] from an iterator over rows.
///
/// This should only be used when you have row wise data, as this is a lot slower
/// than creating the [`Series`] in a columnar fashion.
pub fn from_rows_iter_and_schema<'a, I>(mut rows: I, schema: &Schema) -> PolarsResult<Self>
where
I: Iterator<Item = &'a Row<'a>>,
{
let capacity = rows.size_hint().0;
let mut buffers: Vec<_> = schema
.iter_dtypes()
.map(|dtype| {
let buf: AnyValueBuffer = (dtype, capacity).into();
buf
})
.collect();
let mut expected_len = 0;
rows.try_for_each::<_, PolarsResult<()>>(|row| {
expected_len += 1;
for (value, buf) in row.0.iter().zip(&mut buffers) {
buf.add_fallible(value)?
}
Ok(())
})?;
let v = buffers
.into_iter()
.zip(schema.iter_names())
.map(|(b, name)| {
let mut s = b.into_series();
// if the schema adds a column not in the rows, we
// fill it with nulls
if s.is_empty() {
Series::full_null(name, expected_len, s.dtype())
} else {
s.rename(name);
s
}
})
.collect();
DataFrame::new(v)
}
/// Create a new [`DataFrame`] from an iterator over rows. This should only be used when you have row wise data,
/// as this is a lot slower than creating the [`Series`] in a columnar fashion
pub fn try_from_rows_iter_and_schema<'a, I>(mut rows: I, schema: &Schema) -> PolarsResult<Self>
where
I: Iterator<Item = PolarsResult<&'a Row<'a>>>,
{
let capacity = rows.size_hint().0;
let mut buffers: Vec<_> = schema
.iter_dtypes()
.map(|dtype| {
let buf: AnyValueBuffer = (dtype, capacity).into();
buf
})
.collect();
let mut expected_len = 0;
rows.try_for_each::<_, PolarsResult<()>>(|row| {
expected_len += 1;
for (value, buf) in row?.0.iter().zip(&mut buffers) {
buf.add_fallible(value)?
}
Ok(())
})?;
let v = buffers
.into_iter()
.zip(schema.iter_names())
.map(|(b, name)| {
let mut s = b.into_series();
// if the schema adds a column not in the rows, we
// fill it with nulls
if s.is_empty() {
Series::full_null(name, expected_len, s.dtype())
} else {
s.rename(name);
s
}
})
.collect();
DataFrame::new(v)
}
/// Create a new [`DataFrame`] from rows. This should only be used when you have row wise data,
/// as this is a lot slower than creating the [`Series`] in a columnar fashion
pub fn from_rows(rows: &[Row]) -> PolarsResult<Self> {
let schema = rows_to_schema_first_non_null(rows, Some(50))?;
let has_nulls = schema
.iter_dtypes()
.any(|dtype| matches!(dtype, DataType::Null));
polars_ensure!(
!has_nulls, ComputeError: "unable to infer row types because of null values"
);
Self::from_rows_and_schema(rows, &schema)
}
}