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I have 2 PySpark dataframes: one with points df_pnt and the other with polygons df_poly. As I'm not very familiar to PySpark I'm struggling with correct join of this dataframe on the condition whether a point is inside a polygon. I started with this code that I constructed from materials on this page:

from shapely import wkt  
import numpy as np
from shapely.geometry import Polygon, Point
import matplotlib.pyplot as plt
import pandas as pd
import geopandas as gpd
from pyspark.sql.types import StringType

# Create simple data
polygon1 = Polygon([[0, 0], [.5, 0], [0.3, 0.2], [0, 0.2]])
polygon2 = Polygon([[0.6, 0], [0.6, 0.3], [0.6, 0.4], [0.7, 0.2]])
polygon3 = Polygon([[0.6, 0.5], [.5, 0.5], [0.3, 0.7], [0.4, 0.8]])
polygon4 = Polygon([[0, .5], [.2, 0.4], [0.5, 0.3], [0.5, 0.1]])

df = pd.DataFrame(data={'id':[0, 1, 2, 3],
                 'geometry':[polygon1, polygon2,   polygon3, polygon4]})
df_poly = gpd.GeoDataFrame(
    df, geometry=df['geometry']); del df


df = pd.DataFrame(data={'id':range(0,15),
                'geometry':[Point(pnt) for pnt in np.random.rand(15,2)]})
df_pnt = gpd.GeoDataFrame(
    df, geometry=df['geometry']); del df

# convert shape to str in pandas df
df_poly['wkt'] = pd.Series(
    map(lambda geom: str(geom.to_wkt()), df_poly['geometry']),
    index=df_poly.index, dtype='str')

df_pnt['wkt'] = pd.Series(
        map(lambda geom: str(geom.to_wkt()), df_pnt['geometry']),
        index=df_pnt.index, dtype='str')

# Now we create geometry column as string column in pyspark df
tmp = df_poly.drop("geometry", axis=1)
df_poly = spark.createDataFrame(tmp).cache(); del tmp

tmp = df_pnt.drop("geometry", axis=1)
df_pnt = spark.createDataFrame(tmp).cache(); del tmp

If we want to plot the first polygon we should launch the code

wkt.loads(df_poly.take(1)[0].wkt)

And if we want to check whether a Polygon object containt an object Point we need the following line 

Polygon.contains(Point)

The question is how to handle this custom condition during the join procedure? The df_poly is way smaller than point df so I want to exploit broadcasting as well

UPD: If I'd need to implement this in geopandas it'd look like this:

df_pnt
    id  geometry
0   0   POINT (0.08834 0.23203)
1   1   POINT (0.67457 0.19285)
2   2   POINT (0.71186 0.25128)
3   3   POINT (0.55621 0.35016)
4   4   POINT (0.79637 0.24668)
5   5   POINT (0.40932 0.37155)
6   6   POINT (0.36124 0.68229)
7   7   POINT (0.13476 0.58242)
8   8   POINT (0.41659 0.46298)
9   9   POINT (0.74878 0.78191)
10  10  POINT (0.82088 0.58064)
11  11  POINT (0.28797 0.24399)
12  12  POINT (0.40502 0.99233)
13  13  POINT (0.68928 0.73251)
14  14  POINT (0.37765 0.71518)

df_poly

        id  geometry
0   0   POLYGON ((0.00000 0.00000, 0.50000 0.00000, 0....
1   1   POLYGON ((0.60000 0.00000, 0.60000 0.30000, 0....
2   2   POLYGON ((0.60000 0.50000, 0.50000 0.50000, 0....
3   3   POLYGON ((0.00000 0.50000, 0.20000 0.40000, 0....

gpd.sjoin(df_pnt, df_poly, how="left", op='intersects')

    id_left     geometry    index_right     id_right
0   0   POINT (0.08834 0.23203)     NaN     NaN
1   1   POINT (0.67457 0.19285)     1.0     1.0
2   2   POINT (0.71186 0.25128)     NaN     NaN
3   3   POINT (0.55621 0.35016)     NaN     NaN
4   4   POINT (0.79637 0.24668)     NaN     NaN
5   5   POINT (0.40932 0.37155)     NaN     NaN
6   6   POINT (0.36124 0.68229)     2.0     2.0
7   7   POINT (0.13476 0.58242)     NaN     NaN
8   8   POINT (0.41659 0.46298)     NaN     NaN
9   9   POINT (0.74878 0.78191)     NaN     NaN
10  10  POINT (0.82088 0.58064)     NaN     NaN
11  11  POINT (0.28797 0.24399)     NaN     NaN
12  12  POINT (0.40502 0.99233)     NaN     NaN
13  13  POINT (0.68928 0.73251)     NaN     NaN
14  14  POINT (0.37765 0.71518)     2.0     2.0

data

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  • Hm... I don't know all PySpark features and I have no clear representation what the schema is supposed to be proper for my case... But I added some info in my question in order to explain what outcome would emerge if geopandas was used
    – James Flash
    Mar 7, 2020 at 10:44
  • When you create spark dataframes df_pnt and df_poly, can you print the schemas? (df.printSchema()) and show some values? (df.show(truncate=False)). Not every pyspark user is familiar with pandas, so it's difficult to answer your question as it is.
    – blackbishop
    Mar 7, 2020 at 11:05
  • The result of printSchema for both Spark df's root |-- id: long (nullable = true) |-- wkt: string (nullable = true)
    – James Flash
    Mar 7, 2020 at 11:44
  • The df.show for df_pnt look like this +---+---------------------------------------------+ |id |wkt | +---+---------------------------------------------+ |0 |POINT (0.2921357376954469 0.6871580673326519)| |1 |POINT (0.6286913183363046 0.1356827455860742)| |2 |POINT (0.8953860983142878 0.5851118896234707)| |3 |POINT (0.3906532809342733 0.7742480793942560)| |4 |POINT (0.2680620635805934 0.1676353319933286)| +---+---------------------------------------------+
    – James Flash
    Mar 7, 2020 at 11:46
  • The df.show for df_poly looks like this |id |wkt | |0 |POLYGON ((0.0000000000000000 0.0000000000000000, 0.5000000000000000 0.0000000000000000, 0.3000000000000000 0.2000000000000000, 0.0000000000000000 0.2000000000000000, 0.0000000000000000 0.0000000000000000))|
    – James Flash
    Mar 7, 2020 at 11:48

1 Answer 1

Reset to default
0

You can wrap Polygon.contains() in UDF and join tables on it. User defined function as a join condition are allowed only in inner join, though.

Create example dataframes:

from pyspark.sql import types as T
from pyspark.sql import functions as F
from shapely.geometry import Polygon, Point
from typing import Tuple, List


# create points dataframe
point = T.StructType(
    [
        T.StructField("x", T.FloatType()),
        T.StructField("y", T.FloatType()),
    ]
)

# point table
df_pnt = spark_session.createDataFrame(
    data=[
        (0, (0.08834, 0.23203)),
        (1, (0.67457, 0.19285)),
        (2, (0.71186, 0.25128)),
    ],
    schema=T.StructType(
        [
            T.StructField("id", T.IntegerType()),
            T.StructField("point", point),
        ]
    ),
)
df_pnt.printSchema()
df_pnt.show()

# create polygon dataframe 
polygon = T.ArrayType(point)
df_plg = spark_session.createDataFrame(
    data=[
        (0, [[0.0, 0.0], [0.5, 0.0], [0.3, 0.2], [0.0, 0.2]]),
        (1, [[0.6, 0.0], [0.6, 0.3], [0.6, 0.4], [0.7, 0.2]]),
        (2, [[0.6, 0.5], [0.5, 0.5], [0.3, 0.7], [0.4, 0.8]]),
        (3, [[0.0, 0.5], [0.2, 0.4], [0.5, 0.3], [0.5, 0.1]]),
    ],
    schema=T.StructType(
        [
            T.StructField("id", T.IntegerType()),
            T.StructField("polygon", polygon),
        ]
    ),
)
df_plg.printSchema()
df_plg.show(truncate=False)

Output:

root
 |-- id: integer (nullable = true)
 |-- point: struct (nullable = true)
 |    |-- x: float (nullable = true)
 |    |-- y: float (nullable = true)

+---+------------------+
| id|             point|
+---+------------------+
|  0|[0.08834, 0.23203]|
|  1|[0.67457, 0.19285]|
|  2|[0.71186, 0.25128]|
+---+------------------+

root
 |-- id: integer (nullable = true)
 |-- polygon: array (nullable = true)
 |    |-- element: struct (containsNull = true)
 |    |    |-- x: float (nullable = true)
 |    |    |-- y: float (nullable = true)

+---+------------------------------------------------+
|id |polygon                                         |
+---+------------------------------------------------+
|0  |[[0.0, 0.0], [0.5, 0.0], [0.3, 0.2], [0.0, 0.2]]|
|1  |[[0.6, 0.0], [0.6, 0.3], [0.6, 0.4], [0.7, 0.2]]|
|2  |[[0.6, 0.5], [0.5, 0.5], [0.3, 0.7], [0.4, 0.8]]|
|3  |[[0.0, 0.5], [0.2, 0.4], [0.5, 0.3], [0.5, 0.1]]|
+---+------------------------------------------------+

Join tables on custom join condition:

# join condition UDF
@F.udf(returnType=T.BooleanType())
def is_point_in_polygon(
    point: Tuple[float, float], polygon: List[Tuple[float, float]]
) -> bool:
    return Polygon(shell=polygon).contains(Point(*point))


# use UDF as join condition
df_pnt.join(df_plg, on=is_point_in_polygon("point", "polygon"), how="inner").show(truncate=False)

# show UDF value for each (point, polygon) pair
df_pnt.crossJoin(df_plg).withColumn(
    "is_in", is_point_in_polygon("point", "polygon")
).show(truncate=False)

Output:

+---+------------------+---+------------------------------------------------+
|id |point             |id |polygon                                         |
+---+------------------+---+------------------------------------------------+
|1  |[0.67457, 0.19285]|1  |[[0.6, 0.0], [0.6, 0.3], [0.6, 0.4], [0.7, 0.2]]|
+---+------------------+---+------------------------------------------------+


+---+------------------+---+------------------------------------------------+-----+
|id |point             |id |polygon                                         |is_in|
+---+------------------+---+------------------------------------------------+-----+
|0  |[0.08834, 0.23203]|0  |[[0.0, 0.0], [0.5, 0.0], [0.3, 0.2], [0.0, 0.2]]|false|
|0  |[0.08834, 0.23203]|1  |[[0.6, 0.0], [0.6, 0.3], [0.6, 0.4], [0.7, 0.2]]|false|
|0  |[0.08834, 0.23203]|2  |[[0.6, 0.5], [0.5, 0.5], [0.3, 0.7], [0.4, 0.8]]|false|
|0  |[0.08834, 0.23203]|3  |[[0.0, 0.5], [0.2, 0.4], [0.5, 0.3], [0.5, 0.1]]|false|
|1  |[0.67457, 0.19285]|0  |[[0.0, 0.0], [0.5, 0.0], [0.3, 0.2], [0.0, 0.2]]|false|
|1  |[0.67457, 0.19285]|1  |[[0.6, 0.0], [0.6, 0.3], [0.6, 0.4], [0.7, 0.2]]|true |
|2  |[0.71186, 0.25128]|0  |[[0.0, 0.0], [0.5, 0.0], [0.3, 0.2], [0.0, 0.2]]|false|
|2  |[0.71186, 0.25128]|1  |[[0.6, 0.0], [0.6, 0.3], [0.6, 0.4], [0.7, 0.2]]|false|
|1  |[0.67457, 0.19285]|2  |[[0.6, 0.5], [0.5, 0.5], [0.3, 0.7], [0.4, 0.8]]|false|
|1  |[0.67457, 0.19285]|3  |[[0.0, 0.5], [0.2, 0.4], [0.5, 0.3], [0.5, 0.1]]|false|
|2  |[0.71186, 0.25128]|2  |[[0.6, 0.5], [0.5, 0.5], [0.3, 0.7], [0.4, 0.8]]|false|
|2  |[0.71186, 0.25128]|3  |[[0.0, 0.5], [0.2, 0.4], [0.5, 0.3], [0.5, 0.1]]|false|
+---+------------------+---+------------------------------------------------+-----+

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