i want to calculate the time difference/date difference for each unique name it took for the status to get from order to arrived.
Input dataframe is like this
+------------------------------+
| Date | id | name |staus
+------------------------------+
| 1986/10/15| A |john |order
| 1986/10/16| A |john |dispatched
| 1986/10/18| A |john |arrived
| 1986/10/15| B |peter|order
| 1986/10/16| B |peter|dispatched
| 1986/10/17| B |peter|arrived
| 1986/10/16| C |raul |order
| 1986/10/17| C |raul |dispatched
| 1986/10/18| C |raul |arrived
+-----------------------------+
the expected output dataset should look similar to this
+---------------------------------------------------+
| id | name |time_difference_from_order_to_delivered|
+---------------------------------------------------+
A | john | 3days
B |peter | 2days
C | Raul | 2days
+---------------------------------------------------+
I am stuck on what logic to implement
You can group by and calculate the date diff using a conditional aggregation:
import pyspark.sql.functions as F
df2 = df.groupBy('id', 'name').agg(
F.datediff(
F.to_date(F.max(F.when(F.col('staus') == 'arrived', F.col('Date'))), 'yyyy/MM/dd'),
F.to_date(F.min(F.when(F.col('staus') == 'order', F.col('Date'))), 'yyyy/MM/dd')
).alias('time_diff')
)
df2.show()
+---+-----+---------+
| id| name|time_diff|
+---+-----+---------+
| A| john| 3|
| C| raul| 2|
| B|peter| 2|
+---+-----+---------+
You can also directly subtract the dates, which will return an interval type column:
import pyspark.sql.functions as F
df2 = df.groupBy('id', 'name').agg(
(
F.to_date(F.max(F.when(F.col('staus') == 'arrived', F.col('Date'))), 'yyyy/MM/dd') -
F.to_date(F.min(F.when(F.col('staus') == 'order', F.col('Date'))), 'yyyy/MM/dd')
).alias('time_diff')
)
df2.show()
+---+-----+---------+
| id| name|time_diff|
+---+-----+---------+
| A| john| 3 days|
| C| raul| 2 days|
| B|peter| 2 days|
+---+-----+---------+
Assuming ordered is the earliest date and delivered is the last, just use aggregation and datediff():
select id, name, datediff(max(date), min(date)) as num_days
from t
group by id, name;
For more precision, you can use conditional aggregation:
select id, name,
datediff(max(case when status = 'arrived' then date end)
min(case when status = 'order' then date end)
) as num_days
from t
group by id, name;
Related
I am new to pyspark. I want to compare two tables. If the the value in one of the column does not match, I want to print out that column name in a new column. Using, Compare two dataframes Pyspark link, I am able to get that result. Now, I want to filter the new table based on the newly created column.
df1 = spark.createDataFrame([
[1, "ABC", 5000, "US"],
[2, "DEF", 4000, "UK"],
[3, "GHI", 3000, "JPN"],
[4, "JKL", 4500, "CHN"]
], ["id", "name", "sal", "Address"])
df2 = spark.createDataFrame([
[1, "ABC", 5000, "US"],
[2, "DEF", 4000, "CAN"],
[3, "GHI", 3500, "JPN"],
[4, "JKL_M", 4800, "CHN"]
], ["id", "name", "sal", "Address"])
from pyspark.sql.functions import *
#from pyspark.sql.functions import col, array, when, array_remove
# get conditions for all columns except id
conditions_ = [when(df1[c]!=df2[c], lit(c)).otherwise("") for c in df1.columns if c != 'id']
select_expr =[
col("id"),
*[df2[c] for c in df2.columns if c != 'id'],
array_remove(array(*conditions_), "").alias("column_names")
]
df3 = df1.join(df2, "id").select(*select_expr)
df3.show()
DF3:
+------+---------+--------+------+--------------+
| id | |name | sal | Address | column_names |
+------+---------+--------+------+--------------+
| 1| ABC | 5000 | US | [] |
| 2| DEF | 4000 | CAN | [address] |
| 3| GHI | 3500 | JPN | [sal] |
| 4| JKL_M | 4800 | CHN | [name,sal] |
+------+---------+--------+------+--------------+
This is the step where I am getting an error message.
df3.filter(df3.column_names!="")
Error: cannot resolve '(column_names = '')' due to data type mismatch: differing types in '(column_names = '')' (array<string> and string).
I want the following result
DF3:
+------+---------+--------+------+--------------+
| id | |name | sal | Address | column_names |
+------+---------+--------+------+--------------+
| 1| DEF | 4000 | CAN | [address] |
| 2| GHI | 3500 | JPN | [sal] |
| 3| JKL_M | 4800 | CHN | [name,sal] |
+------+---------+--------+------+--------------+
you are getting error because you are comparing array type to string, you should first convert column_names array type to string then it will work
df3 = df3.withColumn('column_names',concat_ws(";",col("column_names")))
You can create a udf to filter and pass the relevant column name to it, I hope below code will help.
from pyspark.sql import functions
simple filter function
#udf(returnType=BooleanType())
def my_filter(col1):
return True if len(col1) > 0 else False
df3.filter(my_filter(col('column_names'))).show()
Another way
#Do an outer join
new = df1.join(df2.alias('df2'), how='outer', on=['id','name','sal','Address'])
#Count disntict values in in each column per id
new1 =new.groupBy('id').agg(*[countDistinct(x).alias(f'{x}') for x in new.drop('id').columns])
#Using case when, where there is more than one distinct value, append column to new column
new2 = new1.select('id',array_except(array((*[when(col(c) != 1, lit(c)) for c in new1.drop('id').columns])),array(lit(None).cast('string'))).alias('column_names'))
#Join back to df2
df2.join(new2,how='right', on='id').show()
+---+-----+----+-------+------------+
| id| name| sal|Address|column_names|
+---+-----+----+-------+------------+
| 1| ABC|5000| US| []|
| 2| DEF|4000| CAN| [Address]|
| 3| GHI|3500| JPN| [sal]|
| 4|JKL_M|4800| CHN| [name, sal]|
+---+-----+----+-------+------------+
Use filter('array_column != array()'). See below example that filters out the empty arrays.
spark.sparkContext.parallelize([([],), (['blah', 'bleh'],)]).toDF(['arrcol']). \
show()
# +------------+
# | arrcol|
# +------------+
# | []|
# |[blah, bleh]|
# +------------+
spark.sparkContext.parallelize([([],), (['blah', 'bleh'],)]).toDF(['arrcol']). \
filter('arrcol != array()'). \
show()
# +------------+
# | arrcol|
# +------------+
# |[blah, bleh]|
# +------------+
I'm trying to compare two data frames with have same number of columns i.e. 4 columns with id as key column in both data frames
df1 = spark.read.csv("/path/to/data1.csv")
df2 = spark.read.csv("/path/to/data2.csv")
Now I want to append new column to DF2 i.e. column_names which is the list of the columns with different values than df1
df2.withColumn("column_names",udf())
DF1
+------+---------+--------+------+
| id | |name | sal | Address |
+------+---------+--------+------+
| 1| ABC | 5000 | US |
| 2| DEF | 4000 | UK |
| 3| GHI | 3000 | JPN |
| 4| JKL | 4500 | CHN |
+------+---------+--------+------+
DF2:
+------+---------+--------+------+
| id | |name | sal | Address |
+------+---------+--------+------+
| 1| ABC | 5000 | US |
| 2| DEF | 4000 | CAN |
| 3| GHI | 3500 | JPN |
| 4| JKL_M | 4800 | CHN |
+------+---------+--------+------+
Now I want DF3
DF3:
+------+---------+--------+------+--------------+
| id | |name | sal | Address | column_names |
+------+---------+--------+------+--------------+
| 1| ABC | 5000 | US | [] |
| 2| DEF | 4000 | CAN | [address] |
| 3| GHI | 3500 | JPN | [sal] |
| 4| JKL_M | 4800 | CHN | [name,sal] |
+------+---------+--------+------+--------------+
I saw this SO question, How to compare two dataframe and print columns that are different in scala. Tried that, however the result is different.
I'm thinking of going with a UDF function by passing row from each dataframe to udf and compare column by column and return column list. However for that both the data frames should be in sorted order so that same id rows will be sent to udf. Sorting is costly operation here. Any solution?
Assuming that we can use id to join these two datasets I don't think that there is a need for UDF. This could be solved just by using inner join, array and array_remove functions among others.
First let's create the two datasets:
df1 = spark.createDataFrame([
[1, "ABC", 5000, "US"],
[2, "DEF", 4000, "UK"],
[3, "GHI", 3000, "JPN"],
[4, "JKL", 4500, "CHN"]
], ["id", "name", "sal", "Address"])
df2 = spark.createDataFrame([
[1, "ABC", 5000, "US"],
[2, "DEF", 4000, "CAN"],
[3, "GHI", 3500, "JPN"],
[4, "JKL_M", 4800, "CHN"]
], ["id", "name", "sal", "Address"])
First we do an inner join between the two datasets then we generate the condition df1[col] != df2[col] for each column except id. When the columns aren't equal we return the column name otherwise an empty string. The list of conditions will consist the items of an array from which finally we remove the empty items:
from pyspark.sql.functions import col, array, when, array_remove
# get conditions for all columns except id
conditions_ = [when(df1[c]!=df2[c], lit(c)).otherwise("") for c in df1.columns if c != 'id']
select_expr =[
col("id"),
*[df2[c] for c in df2.columns if c != 'id'],
array_remove(array(*conditions_), "").alias("column_names")
]
df1.join(df2, "id").select(*select_expr).show()
# +---+-----+----+-------+------------+
# | id| name| sal|Address|column_names|
# +---+-----+----+-------+------------+
# | 1| ABC|5000| US| []|
# | 3| GHI|3500| JPN| [sal]|
# | 2| DEF|4000| CAN| [Address]|
# | 4|JKL_M|4800| CHN| [name, sal]|
# +---+-----+----+-------+------------+
Here is your solution with UDF, I have changed first dataframe name dynamically so that it will be not ambiguous during check. Go through below code and let me know in case any concerns.
>>> from pyspark.sql.functions import *
>>> df.show()
+---+----+----+-------+
| id|name| sal|Address|
+---+----+----+-------+
| 1| ABC|5000| US|
| 2| DEF|4000| UK|
| 3| GHI|3000| JPN|
| 4| JKL|4500| CHN|
+---+----+----+-------+
>>> df1.show()
+---+----+----+-------+
| id|name| sal|Address|
+---+----+----+-------+
| 1| ABC|5000| US|
| 2| DEF|4000| CAN|
| 3| GHI|3500| JPN|
| 4|JKLM|4800| CHN|
+---+----+----+-------+
>>> df2 = df.select([col(c).alias("x_"+c) for c in df.columns])
>>> df3 = df1.join(df2, col("id") == col("x_id"), "left")
//udf declaration
>>> def CheckMatch(Column,r):
... check=''
... ColList=Column.split(",")
... for cc in ColList:
... if(r[cc] != r["x_" + cc]):
... check=check + "," + cc
... return check.replace(',','',1).split(",")
>>> CheckMatchUDF = udf(CheckMatch)
//final column that required to select
>>> finalCol = df1.columns
>>> finalCol.insert(len(finalCol), "column_names")
>>> df3.withColumn("column_names", CheckMatchUDF(lit(','.join(df1.columns)),struct([df3[x] for x in df3.columns])))
.select(finalCol)
.show()
+---+----+----+-------+------------+
| id|name| sal|Address|column_names|
+---+----+----+-------+------------+
| 1| ABC|5000| US| []|
| 2| DEF|4000| CAN| [Address]|
| 3| GHI|3500| JPN| [sal]|
| 4|JKLM|4800| CHN| [name, sal]|
+---+----+----+-------+------------+
Python: PySpark version of my previous scala code.
import pyspark.sql.functions as f
df1 = spark.read.option("header", "true").csv("test1.csv")
df2 = spark.read.option("header", "true").csv("test2.csv")
columns = df1.columns
df3 = df1.alias("d1").join(df2.alias("d2"), f.col("d1.id") == f.col("d2.id"), "left")
for name in columns:
df3 = df3.withColumn(name + "_temp", f.when(f.col("d1." + name) != f.col("d2." + name), f.lit(name)))
df3.withColumn("column_names", f.concat_ws(",", *map(lambda name: f.col(name + "_temp"), columns))).select("d1.*", "column_names").show()
Scala: Here is my best approach for your problem.
val df1 = spark.read.option("header", "true").csv("test1.csv")
val df2 = spark.read.option("header", "true").csv("test2.csv")
val columns = df1.columns
val df3 = df1.alias("d1").join(df2.alias("d2"), col("d1.id") === col("d2.id"), "left")
columns.foldLeft(df3) {(df, name) => df.withColumn(name + "_temp", when(col("d1." + name) =!= col("d2." + name), lit(name)))}
.withColumn("column_names", concat_ws(",", columns.map(name => col(name + "_temp")): _*))
.show(false)
First, I join two dataframe into df3 and used the columns from df1. By folding left to the df3 with temp columns that have the value for column name when df1 and df2 has the same id and other column values.
After that, concat_ws for those column names and the null's are gone away and only the column names are left.
+---+----+----+-------+------------+
|id |name|sal |Address|column_names|
+---+----+----+-------+------------+
|1 |ABC |5000|US | |
|2 |DEF |4000|UK |Address |
|3 |GHI |3000|JPN |sal |
|4 |JKL |4500|CHN |name,sal |
+---+----+----+-------+------------+
The only thing different from your expected result is that the output is not a list but string.
p.s. I forgot to use PySpark but this is the normal spark, sorry.
You can get that query build for you in PySpark and Scala by the spark-extension package.
It provides the diff transformation that does exactly that.
from gresearch.spark.diff import *
options = DiffOptions().with_change_column('changes')
df1.diff_with_options(df2, options, 'id').show()
+----+-----------+---+---------+----------+--------+---------+------------+-------------+
|diff| changes| id|left_name|right_name|left_sal|right_sal|left_Address|right_Address|
+----+-----------+---+---------+----------+--------+---------+------------+-------------+
| N| []| 1| ABC| ABC| 5000| 5000| US| US|
| C| [Address]| 2| DEF| DEF| 4000| 4000| UK| CAN|
| C| [sal]| 3| GHI| GHI| 3000| 3500| JPN| JPN|
| C|[name, sal]| 4| JKL| JKL_M| 4500| 4800| CHN| CHN|
+----+-----------+---+---------+----------+--------+---------+------------+-------------+
While this is a simple example, diffing DataFrames can become complicated when wide schemas, insertions, deletions and null values are involved. That package is well-tested, so you don't have to worry about getting that query right yourself.
There is a wonderful package for pyspark that compares two dataframes. The name of the package is datacompy
https://capitalone.github.io/datacompy/
example code:
import datacompy as dc
comparison = dc.SparkCompare(spark, base_df=df1, compare_df=df2, join_columns=common_keys, match_rates=True)
comparison.report()
The above code will generate a summary report, and the one below it will give you the mismatches.
comparison.rows_both_mismatch.display()
There are also more fearures that you can explore.
I have a Spark dataframe that adheres to the following structure:
+------+-----------+-----------+-----------+------+
|ID | Name1 | Name2 | Name3 | Y |
+------+-----------+-----------+-----------+------+
| 1 | A,1 | B,1 | C,4 | B |
| 2 | D,2 | E,2 | F,8 | D |
| 3 | G,5 | H,2 | I,3 | H |
+------+-----------+-----------+-----------+------+
For every row I want to find in which column the value of Y is denoted as the first element. So, ideally I want to retrieve a list like: [Name2,Name1,Name2].
I am not sure how and whether it works to convert first to a RDD, then use a map function and convert the result back to DataFrame.
Any ideas are welcome.
You can probably try this piece of code :
df.show()
+---+-----+-----+-----+---+
| ID|Name1|Name2|Name3| Y|
+---+-----+-----+-----+---+
| 1| A,1| B,1| C,4| B|
| 2| D,2| E,2| F,8| D|
| 3| G,5| H,2| I,3| H|
+---+-----+-----+-----+---+
from pyspark.sql import functions as F
name_cols = ["Name1", "Name2", "Name3"]
cond = F
for col in name_cols:
cond = cond.when(F.split(F.col(col),',').getItem(0) == F.col("Y"), col)
df.withColumn("whichName", cond).show()
+---+-----+-----+-----+---+---------+
| ID|Name1|Name2|Name3| Y|whichName|
+---+-----+-----+-----+---+---------+
| 1| A,1| B,1| C,4| B| Name2|
| 2| D,2| E,2| F,8| D| Name1|
| 3| G,5| H,2| I,3| H| Name2|
+---+-----+-----+-----+---+---------+
I have a dataframe with many columns. My aim is to produce a dataframe thats lists each column name, along with the number of null values in that column.
Example:
+-------------+-------------+
| Column_Name | NULL_Values |
+-------------+-------------+
| Column_1 | 15 |
| Column_2 | 56 |
| Column_3 | 18 |
| ... | ... |
+-------------+-------------+
I have managed to get the number of null values for ONE column like so:
df.agg(F.count(F.when(F.isnull(c), c)).alias('NULL_Count'))
where c is a column in the dataframe. However, it does not show the name of the column. The output is:
+------------+
| NULL_Count |
+------------+
| 15 |
+------------+
Any ideas?
You can use a list comprehension to loop over all of your columns in the agg, and use alias to rename the output column:
import pyspark.sql.functions as F
df_agg = df.agg(*[F.count(F.when(F.isnull(c), c)).alias(c) for c in df.columns])
However, this will return the results in one row as shown below:
df_agg.show()
#+--------+--------+--------+
#|Column_1|Column_2|Column_3|
#+--------+--------+--------+
#| 15| 56| 18|
#+--------+--------+--------+
If you wanted the results in one column instead, you could union each column from df_agg using functools.reduce as follows:
from functools import reduce
df_agg_col = reduce(
lambda a, b: a.union(b),
(
df_agg.select(F.lit(c).alias("Column_Name"), F.col(c).alias("NULL_Count"))
for c in df_agg.columns
)
)
df_agg_col.show()
#+-----------+----------+
#|Column_Name|NULL_Count|
#+-----------+----------+
#| Column_1| 15|
#| Column_2| 56|
#| Column_3| 18|
#+-----------+----------+
Or you can skip the intermediate step of creating df_agg and do:
df_agg_col = reduce(
lambda a, b: a.union(b),
(
df.agg(
F.count(F.when(F.isnull(c), c)).alias('NULL_Count')
).select(F.lit(c).alias("Column_Name"), "NULL_Count")
for c in df.columns
)
)
Scala alternative could be
case class Test(id:Int, weight:Option[Int], age:Int, gender: Option[String])
val df1 = Seq(Test(1, Some(100), 23, Some("Male")), Test(2, None, 25, None), Test(3, None, 33, Some("Female"))).toDF()
df1.show()
+---+------+---+------+
| id|weight|age|gender|
+---+------+---+------+
| 1| 100| 23| Male|
| 2| null| 25| null|
| 3| null| 33|Female|
+---+------+---+------+
val s = df1.columns.map(c => sum(col(c).isNull.cast("integer")).alias(c))
val df2 = df1.agg(s.head, s.tail:_*)
val t = df2.columns.map(c => df2.select(lit(c).alias("col_name"), col(c).alias("null_count")))
val df_agg_col = t.reduce((df1, df2) => df1.union(df2))
df_agg_col.show()
I have a Pyspark Dataframe in the following format:
+------------+---------+
| date | query |
+------------+---------+
| 2011-08-11 | Query 1 |
| 2011-08-11 | Query 1 |
| 2011-08-11 | Query 2 |
| 2011-08-12 | Query 3 |
| 2011-08-12 | Query 3 |
| 2011-08-13 | Query 1 |
+------------+---------+
And I need to transform it to turn each unique query into a column, grouped by date, and insert the count of each query in the rows of the dataframe. I expect the output to be like this:
+------------+---------+---------+---------+
| date | Query 1 | Query 2 | Query 3 |
+------------+---------+---------+---------+
| 2011-08-11 | 2 | 1 | 0 |
| 2011-08-12 | 0 | 0 | 2 |
| 2011-08-13 | 1 | 0 | 0 |
+------------+---------+---------+---------+
I am trying to use this answer as example, but I don't quite understand the code, especially the return statement in the make_row function.
Is there a way to count the queries while transforming the DataFrame?
Maybe something like
import pyspark.sql.functions as func
grouped = (df
.map(lambda row: (row.date, (row.query, func.count(row.query)))) # Just an example. Not sure how to do this.
.groupByKey())
It is a dataframe with potentially hundreds of thousands of rows and queries, so I prefer the RDD version over the options that use a .collect()
Thank you!
You can use groupBy.pivot with count as the aggregation function:
from pyspark.sql.functions import count
df.groupBy('date').pivot('query').agg(count('query')).na.fill(0).orderBy('date').show()
+--------------------+-------+-------+-------+
| date|Query 1|Query 2|Query 3|
+--------------------+-------+-------+-------+
|2011-08-11 00:00:...| 2| 1| 0|
|2011-08-12 00:00:...| 0| 0| 2|
|2011-08-13 00:00:...| 1| 0| 0|
+--------------------+-------+-------+-------+