polars.LazyFrame.map#
- LazyFrame.map(
- function: Callable[[DataFrame], DataFrame],
- *,
- predicate_pushdown: bool = True,
- projection_pushdown: bool = True,
- slice_pushdown: bool = True,
- no_optimizations: bool = False,
- schema: None | SchemaDict = None,
- validate_output_schema: bool = True,
- streamable: bool = False,
Apply a custom function.
It is important that the function returns a Polars DataFrame.
- Parameters:
- function
Lambda/ function to apply.
- predicate_pushdown
Allow predicate pushdown optimization to pass this node.
- projection_pushdown
Allow projection pushdown optimization to pass this node.
- slice_pushdown
Allow slice pushdown optimization to pass this node.
- no_optimizations
Turn off all optimizations past this point.
- schema
Output schema of the function, if set to
None
we assume that the schema will remain unchanged by the applied function.- validate_output_schema
It is paramount that polars’ schema is correct. This flag will ensure that the output schema of this function will be checked with the expected schema. Setting this to
False
will not do this check, but may lead to hard to debug bugs.- streamable
Whether the function that is given is eligible to be running with the streaming engine. That means that the function must produce the same result when it is executed in batches or when it is be executed on the full dataset.
Warning
The
schema
of a LazyFrame must always be correct. It is up to the caller of this function to ensure that this invariant is upheld.It is important that the optimization flags are correct. If the custom function for instance does an aggregation of a column,
predicate_pushdown
should not be allowed, as this prunes rows and will influence your aggregation results.Examples
>>> lf = pl.LazyFrame( ... { ... "a": [1, 2], ... "b": [3, 4], ... } ... ) >>> lf.map(lambda x: 2 * x).collect() shape: (2, 2) ┌─────┬─────┐ │ a ┆ b │ │ --- ┆ --- │ │ i64 ┆ i64 │ ╞═════╪═════╡ │ 2 ┆ 6 │ │ 4 ┆ 8 │ └─────┴─────┘