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--- spark:spark-introduction [2022/12/14 12:34]
straka [Word Count Example]
+++ spark:spark-introduction [2022/12/14 13:28] (current)
straka [Running Spark Shell in Python]
@@ Line 5: / Line 5: @@
 ===== Running Spark Shell in Python =====
-To run interactive Python shell in local Spark mode, run (on your local workstation or on cluster using ''qrsh'' from ''lrc1'')
+To run interactive Python shell in local Spark mode, run (on your local workstation or on cluster using ''srun'' from ''lrc1'')
-  PYSPARK_DRIVER_PYTHON=ipython3 pyspark
+  MASTER=local PYSPARK_DRIVER_PYTHON=ipython3 pyspark
 The PYSPARK_DRIVER_PYTHON=ipython3 parameter instructs Spark to use ''ipython3'' instead of ''python3''.
@@ Line 27: / Line 27: @@
 We start by simple word count example. We load the RDD from text file, every line of the input file becoming an element of RDD. We then split every line into words, count every word occurrence and sort the words by the occurrences. Copy the following to the opened Python shell:
 <file python>
-wiki = sc.textFile("/lnet/troja/data/npfl118/wiki/cs/wiki.txt")
+wiki = sc.textFile("/net/projects/spark-example-data/wiki-cs")
 words = wiki.flatMap(lambda line: line.split())
 counts = words.map(lambda word: (word, 1)).reduceByKey(lambda c1, c2: c1+c2)
@@ Line 34: / Line 34: @@
 # Alternatively, we can avoid variables:
-(sc.textFile("/lnet/troja/data/npfl118/wiki/cs/wiki.txt")
+(sc.textFile("/net/projects/spark-example-data/wiki-cs")
    .flatMap(lambda line: line.split())
    .map(lambda word: (word, 1))
@@ Line 43: / Line 43: @@
 The output of 'saveAsTextFile' is the directory ''output'' -- because the RDD can be distributed on several computers, the output is a directory containing possibly multiple files.
-Note that 'map' and 'reduceByKey' operations exist, allowing any Hadoop MapReduce operation to be implemented. On the other hand, several operations like 'join', 'sortBy', 'cogroup' are available, which are not available in Hadoop (or at least not directly), making Spark computational model a strict superset of Hadoop computational model.
+Note that ''flatMap'' and ''reduceByKey'' operations exist, allowing any Hadoop MapReduce operation to be implemented. On the other hand, several operations like ''join'', ''sortBy'', ''cogroup'' are available, which are not available in Hadoop (or at least not directly), making Spark computational model a strict superset of Hadoop computational model.
 The Scala versions is quite similar:
@@ Line 49: / Line 49: @@
 val wiki = sc.textFile("/net/projects/spark-example-data/wiki-cs")
 val words = wiki.flatMap(line => line.split("\\s"))
-val counts = words.map(word => (word,1)).reduceByKey((c1,c2) => c1+c2)
+val counts = words.map(word => (word, 1)).reduceByKey((c1, c2) => c1+c2)
 val sorted = counts.sortBy({case (word, count) => count}, ascending=false)
 sorted.saveAsTextFile("output")
@@ Line 63: / Line 63: @@
 ===== K-Means Example =====
-An example implementing [[http://en.wikipedia.org/wiki/K-means_clustering|Standard iterative K-Means algorithm]] follows. Try copying it to open Python shell. Note that this wiki is formating empty lines as lines with one space, which is confusing for ''pyspark'' used without ''IPYTHON=1'', so either use ''IPYTHON=1'' or copy the text paragraph-by-paragraph.
+An example implementing [[http://en.wikipedia.org/wiki/K-means_clustering|Standard iterative K-Means algorithm]] follows.
 <file python>
 import numpy as np
@@ Line 73: / Line 73: @@
 data = lines.map(lambda line: np.array(map(float, line.split()))).cache()
-K = 50
+K = 100
 epsilon = 1e-3
@@ Line 114: / Line 114: @@
 val data = lines.map(line => Vector(line.split("\\s+").map(_.toDouble))).cache()
-val K = 50
+val K = 100
 val epsilon = 1e-3

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