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Update Aggregate functions to take builder parameters #859

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1825394
Add NullTreatment enum wrapper and add filter option to approx_distinct
timsaucer Sep 4, 2024
3b96b9d
Small usability on aggregate
timsaucer Sep 4, 2024
c434b4e
Adding documentation and additional unit test for approx_median
timsaucer Sep 6, 2024
1a5e138
Update approx_percentil_cont with builder parameters it uses, which i…
timsaucer Sep 6, 2024
c931c06
Update approx_percentil_cont_with_weight with builder parameters it u…
timsaucer Sep 6, 2024
2cc7c94
Update array_agg to use aggregate options
timsaucer Sep 7, 2024
52e33ac
Update builder options for avg aggregate function
timsaucer Sep 7, 2024
3701631
move bit_and bit_or to use macro to generaty python fn
timsaucer Sep 7, 2024
176092c
Update builder arguments for bitwise operators
timsaucer Sep 7, 2024
fdee791
Use macro for bool_and and bool_or
timsaucer Sep 7, 2024
4f93736
Update python wrapper for arguments appropriate to bool operators
timsaucer Sep 7, 2024
62f3d2c
Set corr to use macro for pyfunction
timsaucer Sep 7, 2024
32d8ddd
Update unit test to make it easier to debug
timsaucer Sep 7, 2024
9543626
Update corr python wrapper to expose only builder parameters used
timsaucer Sep 7, 2024
8d16a3c
Update count and count_star to use macro for exposing
timsaucer Sep 7, 2024
55ebc17
Update count and count_star with approprate aggregation options
timsaucer Sep 7, 2024
7e42e6c
Move covar_pop and covar_samp to use macro for aggregates
timsaucer Sep 7, 2024
ceb65c6
Updateing covar_pop and covar_samp with builder option
timsaucer Sep 7, 2024
b7262ba
Use macro for last_value and move first_value to be near it
timsaucer Sep 7, 2024
91e5f7d
Update first_value and last_value with the builder parameters that ar…
timsaucer Sep 7, 2024
fde7e70
Remove grouping since it is not actually implemented upstream
timsaucer Sep 7, 2024
22826d4
Move median to use macro
timsaucer Sep 7, 2024
85df127
Expose builder options for median
timsaucer Sep 7, 2024
3296e1a
Expose nth value
timsaucer Sep 7, 2024
a0e24b4
Updating linear regression functions to use filter and macro
timsaucer Sep 8, 2024
2325223
Update stddev and stddev_pop to use filter and macro
timsaucer Sep 8, 2024
6be2094
Expose string_agg
timsaucer Sep 8, 2024
6420f07
Add string_agg to python wrappers and add unit test
timsaucer Sep 8, 2024
529de88
Switch sum to use macro in rust side and expose correct options in py…
timsaucer Sep 8, 2024
e352ee3
Use macro for exposing var_pop and var_samp
timsaucer Sep 8, 2024
1857468
Add unit tests for filtering on var_pop and var_samp
timsaucer Sep 8, 2024
7148dcb
Move approximation functions to use macro when possible
timsaucer Sep 8, 2024
b55ff88
Update user documentation to explain in detail the options for aggreg…
timsaucer Sep 8, 2024
ba09df1
Update unit test to handle Python 3.10
timsaucer Sep 8, 2024
62ab0ea
Clean up commented code
timsaucer Sep 9, 2024
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206 changes: 184 additions & 22 deletions docs/source/user-guide/common-operations/aggregations.rst
Original file line number Diff line number Diff line change
Expand Up @@ -20,43 +20,205 @@
Aggregation
============

An aggregate or aggregation is a function where the values of multiple rows are processed together to form a single summary value.
For performing an aggregation, DataFusion provides the :py:func:`~datafusion.dataframe.DataFrame.aggregate`
An aggregate or aggregation is a function where the values of multiple rows are processed together
to form a single summary value. For performing an aggregation, DataFusion provides the
:py:func:`~datafusion.dataframe.DataFrame.aggregate`

.. ipython:: python

import urllib.request
from datafusion import SessionContext
from datafusion import column, lit
from datafusion import col, lit
from datafusion import functions as f
import random

ctx = SessionContext()
df = ctx.from_pydict(
{
"a": ["foo", "bar", "foo", "bar", "foo", "bar", "foo", "foo"],
"b": ["one", "one", "two", "three", "two", "two", "one", "three"],
"c": [random.randint(0, 100) for _ in range(8)],
"d": [random.random() for _ in range(8)],
},
name="foo_bar"
urllib.request.urlretrieve(
"https://gist.githubusercontent.com/ritchie46/cac6b337ea52281aa23c049250a4ff03/raw/89a957ff3919d90e6ef2d34235e6bf22304f3366/pokemon.csv",
"pokemon.csv",
)

col_a = column("a")
col_b = column("b")
col_c = column("c")
col_d = column("d")
ctx = SessionContext()
df = ctx.read_csv("pokemon.csv")

col_type_1 = col('"Type 1"')
col_type_2 = col('"Type 2"')
col_speed = col('"Speed"')
col_attack = col('"Attack"')

df.aggregate([], [f.approx_distinct(col_c), f.approx_median(col_d), f.approx_percentile_cont(col_d, lit(0.5))])
df.aggregate([col_type_1], [
f.approx_distinct(col_speed).alias("Count"),
f.approx_median(col_speed).alias("Median Speed"),
f.approx_percentile_cont(col_speed, 0.9).alias("90% Speed")])

When the :code:`group_by` list is empty the aggregation is done over the whole :class:`.DataFrame`. For grouping
the :code:`group_by` list must contain at least one column
When the :code:`group_by` list is empty the aggregation is done over the whole :class:`.DataFrame`.
For grouping the :code:`group_by` list must contain at least one column.

.. ipython:: python

df.aggregate([col_a], [f.sum(col_c), f.max(col_d), f.min(col_d)])
df.aggregate([col_type_1], [
f.max(col_speed).alias("Max Speed"),
f.avg(col_speed).alias("Avg Speed"),
f.min(col_speed).alias("Min Speed")])

More than one column can be used for grouping

.. ipython:: python

df.aggregate([col_a, col_b], [f.sum(col_c), f.max(col_d), f.min(col_d)])
df.aggregate([col_type_1, col_type_2], [
f.max(col_speed).alias("Max Speed"),
f.avg(col_speed).alias("Avg Speed"),
f.min(col_speed).alias("Min Speed")])



Setting Parameters
------------------

Each of the built in aggregate functions provides arguments for the parameters that affect their
operation. These can also be overridden using the builder approach to setting any of the following
parameters. When you use the builder, you must call ``build()`` to finish. For example, these two
expressions are equivalent.

.. ipython:: python

first_1 = f.first_value(col("a"), order_by=[col("a")])
first_2 = f.first_value(col("a")).order_by(col("a")).build()

Ordering
^^^^^^^^

You can control the order in which rows are processed by window functions by providing
a list of ``order_by`` functions for the ``order_by`` parameter. In the following example, we
sort the Pokemon by their attack in increasing order and take the first value, which gives us the
Pokemon with the smallest attack value in each ``Type 1``.

.. ipython:: python

df.aggregate(
[col('"Type 1"')],
[f.first_value(
col('"Name"'),
order_by=[col('"Attack"').sort(ascending=True)]
).alias("Smallest Attack")
])

Distinct
^^^^^^^^

When you set the parameter ``distinct`` to ``True``, then unique values will only be evaluated one
time each. Suppose we want to create an array of all of the ``Type 2`` for each ``Type 1`` of our
Pokemon set. Since there will be many entries of ``Type 2`` we only one each distinct value.

.. ipython:: python

df.aggregate([col_type_1], [f.array_agg(col_type_2, distinct=True).alias("Type 2 List")])

In the output of the above we can see that there are some ``Type 1`` for which the ``Type 2`` entry
is ``null``. In reality, we probably want to filter those out. We can do this in two ways. First,
we can filter DataFrame rows that have no ``Type 2``. If we do this, we might have some ``Type 1``
entries entirely removed. The second is we can use the ``filter`` argument described below.

.. ipython:: python

df.filter(col_type_2.is_not_null()).aggregate([col_type_1], [f.array_agg(col_type_2, distinct=True).alias("Type 2 List")])

df.aggregate([col_type_1], [f.array_agg(col_type_2, distinct=True, filter=col_type_2.is_not_null()).alias("Type 2 List")])

Which approach you take should depend on your use case.

Null Treatment
^^^^^^^^^^^^^^

This option allows you to either respect or ignore null values.

One common usage for handling nulls is the case where you want to find the first value within a
partition. By setting the null treatment to ignore nulls, we can find the first non-null value
in our partition.


.. ipython:: python

from datafusion.common import NullTreatment

df.aggregate([col_type_1], [
f.first_value(
col_type_2,
order_by=[col_attack],
null_treatment=NullTreatment.RESPECT_NULLS
).alias("Lowest Attack Type 2")])

df.aggregate([col_type_1], [
f.first_value(
col_type_2,
order_by=[col_attack],
null_treatment=NullTreatment.IGNORE_NULLS
).alias("Lowest Attack Type 2")])

Filter
^^^^^^

Using the filter option is useful for filtering results to include in the aggregate function. It can
be seen in the example above on how this can be useful to only filter rows evaluated by the
aggregate function without filtering rows from the entire DataFrame.

Filter takes a single expression.

Suppose we want to find the speed values for only Pokemon that have low Attack values.

.. ipython:: python

df.aggregate([col_type_1], [
f.avg(col_speed).alias("Avg Speed All"),
f.avg(col_speed, filter=col_attack < lit(50)).alias("Avg Speed Low Attack")])


Aggregate Functions
-------------------

The available aggregate functions are:

1. Comparison Functions
- :py:func:`datafusion.functions.min`
- :py:func:`datafusion.functions.max`
2. Math Functions
- :py:func:`datafusion.functions.sum`
- :py:func:`datafusion.functions.avg`
- :py:func:`datafusion.functions.median`
3. Array Functions
- :py:func:`datafusion.functions.array_agg`
4. Logical Functions
- :py:func:`datafusion.functions.bit_and`
- :py:func:`datafusion.functions.bit_or`
- :py:func:`datafusion.functions.bit_xor`
- :py:func:`datafusion.functions.bool_and`
- :py:func:`datafusion.functions.bool_or`
5. Statistical Functions
- :py:func:`datafusion.functions.count`
- :py:func:`datafusion.functions.corr`
- :py:func:`datafusion.functions.covar_samp`
- :py:func:`datafusion.functions.covar_pop`
- :py:func:`datafusion.functions.stddev`
- :py:func:`datafusion.functions.stddev_pop`
- :py:func:`datafusion.functions.var_samp`
- :py:func:`datafusion.functions.var_pop`
6. Linear Regression Functions
- :py:func:`datafusion.functions.regr_count`
- :py:func:`datafusion.functions.regr_slope`
- :py:func:`datafusion.functions.regr_intercept`
- :py:func:`datafusion.functions.regr_r2`
- :py:func:`datafusion.functions.regr_avgx`
- :py:func:`datafusion.functions.regr_avgy`
- :py:func:`datafusion.functions.regr_sxx`
- :py:func:`datafusion.functions.regr_syy`
- :py:func:`datafusion.functions.regr_slope`
7. Positional Functions
- :py:func:`datafusion.functions.first_value`
- :py:func:`datafusion.functions.last_value`
- :py:func:`datafusion.functions.nth_value`
8. String Functions
- :py:func:`datafusion.functions.string_agg`
9. Approximation Functions
- :py:func:`datafusion.functions.approx_distinct`
- :py:func:`datafusion.functions.approx_median`
- :py:func:`datafusion.functions.approx_percentile_cont`
- :py:func:`datafusion.functions.approx_percentile_cont_with_weight`

15 changes: 14 additions & 1 deletion python/datafusion/common.py
Original file line number Diff line number Diff line change
Expand Up @@ -17,13 +17,13 @@
"""Common data types used throughout the DataFusion project."""

from ._internal import common as common_internal
from enum import Enum

# TODO these should all have proper wrapper classes

DFSchema = common_internal.DFSchema
DataType = common_internal.DataType
DataTypeMap = common_internal.DataTypeMap
NullTreatment = common_internal.NullTreatment
PythonType = common_internal.PythonType
RexType = common_internal.RexType
SqlFunction = common_internal.SqlFunction
Expand All @@ -47,3 +47,16 @@
"SqlStatistics",
"SqlFunction",
]


class NullTreatment(Enum):
"""Describe how null values are to be treated by functions.

This is used primarily by aggregate and window functions. It can be set on
these functions using the builder approach described in
ref:`_window_functions` and ref:`_aggregation` in the online documentation.

"""

RESPECT_NULLS = common_internal.NullTreatment.RESPECT_NULLS
IGNORE_NULLS = common_internal.NullTreatment.IGNORE_NULLS
7 changes: 6 additions & 1 deletion python/datafusion/dataframe.py
Original file line number Diff line number Diff line change
Expand Up @@ -180,7 +180,9 @@ def with_column_renamed(self, old_name: str, new_name: str) -> DataFrame:
"""
return DataFrame(self.df.with_column_renamed(old_name, new_name))

def aggregate(self, group_by: list[Expr], aggs: list[Expr]) -> DataFrame:
def aggregate(
self, group_by: list[Expr] | Expr, aggs: list[Expr] | Expr
) -> DataFrame:
"""Aggregates the rows of the current DataFrame.

Args:
Expand All @@ -190,6 +192,9 @@ def aggregate(self, group_by: list[Expr], aggs: list[Expr]) -> DataFrame:
Returns:
DataFrame after aggregation.
"""
group_by = group_by if isinstance(group_by, list) else [group_by]
aggs = aggs if isinstance(aggs, list) else [aggs]

group_by = [e.expr for e in group_by]
aggs = [e.expr for e in aggs]
return DataFrame(self.df.aggregate(group_by, aggs))
Expand Down
4 changes: 2 additions & 2 deletions python/datafusion/expr.py
Original file line number Diff line number Diff line change
Expand Up @@ -473,7 +473,7 @@ def null_treatment(self, null_treatment: NullTreatment) -> ExprFuncBuilder:
set parameters for either window or aggregate functions. If used on any other
type of expression, an error will be generated when ``build()`` is called.
"""
return ExprFuncBuilder(self.expr.null_treatment(null_treatment))
return ExprFuncBuilder(self.expr.null_treatment(null_treatment.value))

def partition_by(self, *partition_by: Expr) -> ExprFuncBuilder:
"""Set the partitioning for a window function.
Expand Down Expand Up @@ -518,7 +518,7 @@ def distinct(self) -> ExprFuncBuilder:

def null_treatment(self, null_treatment: NullTreatment) -> ExprFuncBuilder:
"""Set how nulls are treated for either window or aggregate functions."""
return ExprFuncBuilder(self.builder.null_treatment(null_treatment))
return ExprFuncBuilder(self.builder.null_treatment(null_treatment.value))

def partition_by(self, *partition_by: Expr) -> ExprFuncBuilder:
"""Set partitioning for window functions."""
Expand Down
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