I have data like this
I want to unpivot the dataframe by calling the columns dynamically without hardcoding.
How do I achieve this?
Create an array of struct column that combines the columns and column values using list comprehension. Explode the struct column using inline.
df =spark.createDataFrame([
('78','20','19','90'),
('78','20','19','&')
],
('Machines', 'Books', 'Vehicles', 'Plants'))
df.show()
df.withColumn('tab', F.array(*[F.struct(lit(x).alias('Fields'), col(x).alias('Count')).alias(x) for x in df.columns])).selectExpr('inline(tab)').show()
+---+------+------+
| Id| Date|Amount|
+---+------+------+
| 1|202201| 50|
| 1|202202| 150|
| 1|202203| 100|
| 2|202201| 10|
| 2|202202| |
| 2|202203| 50|
| 3|202201| 20|
| 3|202202| 10|
| 3|202203| |
+---+------+------+
Related
I have two data frames. I need to filter one to only show values that are contained in the other.
table_a:
+---+----+
|AID| foo|
+---+----+
| 1 | bar|
| 2 | bar|
| 3 | bar|
| 4 | bar|
+---+----+
table_b:
+---+
|BID|
+---+
| 1 |
| 2 |
+---+
In the end I want to filter out what was in table_a to only the IDs that are in the table_b, like this:
+--+----+
|ID| foo|
+--+----+
| 1| bar|
| 2| bar|
+--+----+
Here is what I'm trying to do
result_table = table_a.filter(table_b.BID.contains(table_a.AID))
But this doesn't seem to be working. It looks like I'm getting ALL values.
NOTE: I can't add any other imports other than pyspark.sql.functions import col
You can join the two tables and specify how = 'left_semi'
A left semi-join returns values from the left side of the relation that has a match with the right.
result_table = table_a.join(table_b, (table_a.AID == table_b.BID), \
how = "left_semi").drop("BID")
result_table.show()
+---+---+
|AID|foo|
+---+---+
| 1|bar|
| 2|bar|
+---+---+
In case you have duplicates or Multiple values in the second dataframe and you want to take only distinct values, below approach can be useful to tackle such use cases -
Create the Dataframe
df = spark.createDataFrame([(1,"bar"),(2,"bar"),(3,"bar"),(4,"bar")],[ "col1","col2"])
df_lookup = spark.createDataFrame([(1,1),(1,2)],[ "id","val"])
df.show(truncate=True)
df_lookup.show()
+----+----+
|col1|col2|
+----+----+
| 1| bar|
| 2| bar|
| 3| bar|
| 4| bar|
+----+----+
+---+---+
| id|val|
+---+---+
| 1| 1|
| 1| 2|
+---+---+
get all the unique values of val column in dataframe two and take in a set/list variable
df_lookup_var = df_lookup.groupBy("id").agg(F.collect_set("val").alias("val")).collect()[0][1][0]
print(df_lookup_var)
df = df.withColumn("case_col", F.when((F.col("col1").isin([1,2])), F.lit("1")).otherwise(F.lit("0")))
df = df.filter(F.col("case_col") == F.lit("1"))
df.show()
+----+----+--------+
|col1|col2|case_col|
+----+----+--------+
| 1| bar| 1|
| 2| bar| 1|
+----+----+--------+
This should work too:
table_a.where( col(AID).isin(table_b.BID.tolist() ) )
I have a dataset that has column userid and index values.
+---------+--------+
| userid | index|
+---------+--------+
| user1| 1|
| user2| 2|
| user3| 3|
| user4| 4|
| user5| 5|
| user6| 6|
| user7| 7|
| user8| 8|
| user9| 9|
| user10| 10|
+---------+--------+
I want to append a new data frame to it and add an index to the newly added columns.
The userid is unique and the existing data frame will not have the Dataframe 2 user ids.
+----------+
| userid |
+----------+
| user11|
| user21|
| user41|
| user51|
| user64|
+----------+
The expected output with newly added userid and index
+---------+--------+
| userid | index|
+---------+--------+
| user1| 1|
| user2| 2|
| user3| 3|
| user4| 4|
| user5| 5|
| user6| 6|
| user7| 7|
| user8| 8|
| user9| 9|
| user10| 10|
| user11| 11|
| user21| 12|
| user41| 13|
| user51| 14|
| user64| 15|
+---------+--------+
Is it possible to achive this by passing a max index value and start index for second Dataframe from given index value.
If the userid has some ordering, then you can use the rownumber function. Even if it does not have, then you can add an id using monotonically_increasing_id(). For now I assume that userid can be ordered. Then you can do this:
from pyspark.sql import functions as F
from pyspark.sql.window import Window
df_merge = df1.select('userid').union(df2.select('userid'))
w=Window.orderBy('userid')
df_result = df_merge.withColumn('indexid',F.row_number().over(w))
EDIT : After discussions in comment.
#%% Test data and imports
import pyspark.sql.functions as F
from pyspark.sql import Window
df = sqlContext.createDataFrame([('a',100),('ab',50),('ba',300),('ced',60),('d',500)],schema=['userid','index'])
df1 = sqlContext.createDataFrame([('fgh',100),('ff',50),('fe',300),('er',60),('fi',500)],schema=['userid','dummy'])
#%%
#%% Merge the two dataframes, with a null columns as the index
df1=df1.withColumn('index', F.lit(None))
df_merge = df.select(df.columns).union(df1.select(df.columns))
#%%Define a window to arrange the newly added rows at the last and order them by userid
#%% The user id, even though random strings, can be ordered
w= Window.orderBy(F.col('index').asc_nulls_last(),F.col('userid'))# if possible add a partition column here, otherwise all your data will come in one partition, consider salting
#%% For the newly added rows, define index as the maximum value + increment of number of rows in main dataframe
df_final = df_merge.withColumn("index_new",F.when(~F.col('index').isNull(),F.col('index')).otherwise((F.last(F.col('index'),ignorenulls=True).over(w))+F.sum(F.lit(1)).over(w)))
#%% If number of rows in main dataframe is huge, then add an offset in the above line
df_final.show()
+------+-----+---------+
|userid|index|index_new|
+------+-----+---------+
| ab| 50| 50|
| ced| 60| 60|
| a| 100| 100|
| ba| 300| 300|
| d| 500| 500|
| er| null| 506|
| fe| null| 507|
| ff| null| 508|
| fgh| null| 509|
| fi| null| 510|
+------+-----+---------+
Pyspark newbie here. I have a dataframe, say,
+------------+-------+----+
| id| mode|count|
+------------+------+-----+
| 146360 | DOS| 30|
| 423541 | UNO| 3|
+------------+------+-----+
I want a dataframe with a new column aggregate with count * 2 , when mode is 'DOS' and count * 1 when mode is 'UNO'
+------------+-------+----+---------+
| id| mode|count|aggregate|
+------------+------+-----+---------+
| 146360 | DOS| 30| 60|
| 423541 | UNO| 3| 3|
+------------+------+-----+---------+
Appreciate your inputs and also some pointers to best practices :)
Method 1: using pyspark.sql.functions with when :
from pyspark.sql.functions import when,col
df = df.withColumn('aggregate', when(col('mode')=='DOS', col('count')*2).when(col('mode')=='UNO', col('count')*1).otherwise('count'))
Method 2: using SQL CASE expression with selectExpr:
df = df.selectExpr("*","CASE WHEN mode == 'DOS' THEN count*2 WHEN mode == 'UNO' THEN count*1 ELSE count END AS aggregate")
The result:
+------+----+-----+---------+
| id|mode|count|aggregate|
+------+----+-----+---------+
|146360| DOS| 30| 60|
|423541| UNO| 3| 3|
+------+----+-----+---------+
I have a fol df:
Zip | Name | id |
abc | xyz | 1 |
def | wxz | 2 |
abc | wex | 3 |
bcl | rea | 4 |
abc | txc | 5 |
def | rfx | 6 |
abc | abc | 7 |
I need to group all the names that contain 'x' based on same Zip using scala
Desired Output:
Zip | Count |
abc | 3 |
def | 2 |
Any help is highly appreciated
As #Shaido mentioned in the comment above, all you need is filter, groupBy and aggregation as
import org.apache.spark.sql.functions._
fol.filter(col("Name").contains("x")) //filtering the rows that has x in the Name column
.groupBy("Zip") //grouping by Zip column
.agg(count("Zip").as("Count")) //counting the rows in each groups
.show(false)
and you should have the desired output
+---+-----+
|Zip|Count|
+---+-----+
|abc|3 |
|def|2 |
+---+-----+
You want to groupBy bellow data frame.
+---+----+---+
|zip|name| id|
+---+----+---+
|abc| xyz| 1|
|def| wxz| 2|
|abc| wex| 3|
|bcl| rea| 4|
|abc| txc| 5|
|def| rfx| 6|
|abc| abc| 7|
+---+----+---+
then you can simply use groupBy function with passing column parameter and followed by count will give you the result.
val groupedDf: DataFrame = df.groupBy("zip").count()
groupedDf.show()
// +---+-----+
// |zip|count|
// +---+-----+
// |bcl| 1|
// |abc| 4|
// |def| 2|
// +---+-----+
I have the below table:
+-------+---------+---------+
|movieId|movieName| genre|
+-------+---------+---------+
| 1| example1| action|
| 1| example1| thriller|
| 1| example1| romance|
| 2| example2|fantastic|
| 2| example2| action|
+-------+---------+---------+
What I am trying to achieve is to append the genre values together where the id and name are the same. Like this:
+-------+---------+---------------------------+
|movieId|movieName| genre |
+-------+---------+---------------------------+
| 1| example1| action|thriller|romance |
| 2| example2| action|fantastic |
+-------+---------+---------------------------+
Use groupBy and collect_list to get a list of all items with the same movie name. Then combine these to a string using concat_ws (if the order is important, first use sort_array). Small example with given sample dataframe:
val df2 = df.groupBy("movieId", "movieName")
.agg(collect_list($"genre").as("genre"))
.withColumn("genre", concat_ws("|", sort_array($"genre")))
Gives the result:
+-------+---------+-----------------------+
|movieId|movieName|genre |
+-------+---------+-----------------------+
|1 |example1 |action|thriller|romance|
|2 |example2 |action|fantastic |
+-------+---------+-----------------------+