polars.DataFrame.fold#

DataFrame.fold(operation: Callable[[Series, Series], Series]) Series[source]#

Apply a horizontal reduction on a DataFrame.

This can be used to effectively determine aggregations on a row level, and can be applied to any DataType that can be supercasted (casted to a similar parent type).

An example of the supercast rules when applying an arithmetic operation on two DataTypes are for instance:

  • Int8 + String = String

  • Float32 + Int64 = Float32

  • Float32 + Float64 = Float64

Parameters:
operation

function that takes two Series and returns a Series.

Examples

A horizontal sum operation:

>>> df = pl.DataFrame(
...     {
...         "a": [2, 1, 3],
...         "b": [1, 2, 3],
...         "c": [1.0, 2.0, 3.0],
...     }
... )
>>> df.fold(lambda s1, s2: s1 + s2)
shape: (3,)
Series: 'a' [f64]
[
    4.0
    5.0
    9.0
]

A horizontal minimum operation:

>>> df = pl.DataFrame({"a": [2, 1, 3], "b": [1, 2, 3], "c": [1.0, 2.0, 3.0]})
>>> df.fold(lambda s1, s2: s1.zip_with(s1 < s2, s2))
shape: (3,)
Series: 'a' [f64]
[
    1.0
    1.0
    3.0
]

A horizontal string concatenation:

>>> df = pl.DataFrame(
...     {
...         "a": ["foo", "bar", 2],
...         "b": [1, 2, 3],
...         "c": [1.0, 2.0, 3.0],
...     }
... )
>>> df.fold(lambda s1, s2: s1 + s2)
shape: (3,)
Series: 'a' [str]
[
    "foo11.0"
    "bar22.0"
    null
]

A horizontal boolean or, similar to a row-wise .any():

>>> df = pl.DataFrame(
...     {
...         "a": [False, False, True],
...         "b": [False, True, False],
...     }
... )
>>> df.fold(lambda s1, s2: s1 | s2)
shape: (3,)
Series: 'a' [bool]
[
        false
        true
        true
]