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Hands-On Big Data Analytics with PySpark
Hands-On Big Data Analytics with PySpark

Hands-On Big Data Analytics with PySpark: Analyze large datasets and discover techniques for testing, immunizing, and parallelizing Spark jobs

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Profile Icon Rudy Lai Profile Icon Bartłomiej Potaczek
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Arrow left icon
Profile Icon Rudy Lai Profile Icon Bartłomiej Potaczek
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Full star icon Half star icon Empty star icon Empty star icon Empty star icon 1.8 (5 Ratings)
eBook Mar 2019 182 pages 1st Edition
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$12.99 $18.99
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$25.99
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Hands-On Big Data Analytics with PySpark

Installing Pyspark and Setting up Your Development Environment

In this chapter, we are going to introduce Spark and learn the core concepts, such as, SparkContext, and Spark tools such as SparkConf and Spark shell. The only prerequisite is the knowledge of basic Python concepts and the desire to seek insight from big data. We will learn how to analyze and discover patterns with Spark SQL to improve our business intelligence. Also, you will be able to quickly iterate through your solution by setting to PySpark for your own computer. By the end of the book, you will be able to work with real-life messy data sets using PySpark to get practical big data experience.

In this chapter, we will cover the following topics:

  • An overview of PySpark
  • Setting up Spark on Windows and PySpark
  • Core concepts in Spark and PySpark

An overview of PySpark

Before we start with installing PySpark, which is the Python interface for Spark, let's go through some core concepts in Spark and PySpark. Spark is the latest big data tool from Apache, which can be found by simply going to http://spark.apache.org/. It's a unified analytics engine for large-scale data processing. This means that, if you have a lot of data, you can feed that data into Spark to create some analytics at a good speed. If we look at the running times between Hadoop and Spark, Spark is more than a hundred times faster than Hadoop. It is very easy to use because there are very good APIs for use with Spark.

The four major components of the Spark platform are as follows:

  • Spark SQL: A clearing language for Spark
  • Spark Streaming: Allows you to feed in real-time streaming data
  • MLlib (machine learning): The machine learning library for Spark
  • GraphX (graph): The graphing library for Spark

The core concept in Spark is an RDD, which is similar to the pandas DataFrame, or a Python dictionary or list. It is a way for Spark to store large amounts of data on the infrastructure for us. The key difference of an RDD versus something that is in your local memory, such as a pandas DataFrame, is that an RDD is distributed across many machines, but it appears like one unified dataset. What this means is, if you have large amounts of data that you want to operate on in parallel, you can put it in an RDD and Spark will handle parallelization and the clustering of the data for you.

Spark has three different interfaces, as follows:

  • Scala
  • Java
  • Python

Python is similar to PySpark integration, which we will cover soon. For now, we will import some libraries from the PySpark package to help us work with Spark. The best way for us to understand Spark is to look at an example, as shown in the following screenshot:

lines = sc.textFile("data.txt")
lineLengths = lines.map(lambda s: len(s))
totalLength = lineLengths.reduce(lambda a, b: a + b)

In the preceding code, we have created a new variable called lines by calling SC.textFile ("data.txt"). sc is our Python objects that represent our Spark cluster. A Spark cluster is a series of instances or cloud computers that store our Spark processes. By calling a textFile constructor and feeding in data.text, we have potentially fed in a large text file and created an RDD just using this one line. In other words, what we are trying to do here is to feed a large text file into a distributed cluster and Spark, and Spark handles this clustering for us.

In line two and line three, we have a MapReduce function. In line two, we have mapped the length function using a lambda function to each line of data.text. In line three, we have called a reduction function to add all lineLengths together to produce the total length of the documents. While Python's lines is a variable that contains all the lines in data.text, under the hood, Spark is actually handling the distribution of fragments of data.text in two different instances on the Spark cluster, and is handling the MapReduce computation over all of these instances.

Spark SQL

Spark SQL is one of the four components on top of the Spark platform, as we saw earlier in the chapter. It can be used to execute SQL queries or read data from any existing Hive insulation, where Hive is a database implementation also from Apache. Spark SQL looks very similar to MySQL or Postgres. The following code snippet is a good example:

#Register the DataFrame as a SQL temporary view
df.CreateOrReplaceTempView("people")

sqlDF = spark.sql("SELECT * FROM people")
sqlDF.show()

#+----+-------+
#| age| name|
#+----+-------+
#+null|Jackson|
#| 30| Martin|
#| 19| Melvin|
#+----|-------|

You'll need to select all the columns from a certain table, such as people, and using the Spark objects, you'll feed in a very standard-looking SQL statement, which is going to show an SQL result much like what you would expect from a normal SQL implementation.

Let's now look at datasets and DataFrames. A dataset is a distributed collection of data. It is an interface added in Spark 1.6 that provides benefits on top of RDDs. A DataFrame, on the other hand, is very familiar to those who have used pandas or R. A DataFrame is simply a dataset organized into named columns, which is similar to a relational database or a DataFrame in Python. The main difference between a dataset and a DataFrame is that DataFrames have column names. As you can imagine, this would be very convenient for machine learning work and feeding into things such as scikit-learn.

Let's look at how DataFrames can be used. The following code snippet is a quick example of a DataFrame:

# spark is an existing SparkSession
df = spark.read.json("examples/src/main/resources/people.json")
# Displays the content of the DataFrame to stdout
df.show()

#+----+-------+
#| age| name|
#+----+-------+
#+null|Jackson|
#| 30| Martin|
#| 19| Melvin|
#+----|-------|

In the same way, as pandas or R would do, read.json allows us to feed in some data from a JSON file, and df.show shows us the contents of the DataFrame in a similar way to pandas.

MLlib, as we know, is used to make machine learning scalable and easy. MLlib allows you to do common machine learning tasks, such as featurization; creating pipelines; saving and loading algorithms, models, and pipelines; and also some utilities, such as linear algebra, statistics, and data handling. The other thing to note is that Spark and RDD are almost inseparable concepts. If your main use case for Spark is machine learning, Spark now actually encourages you to use the DataFrame-based API for MLlib, which is quite beneficial to us as we are already familiar with pandas, which means a smooth transition into Spark.

In the next section, we will see how we can set up Spark on Windows, and set up PySpark as the interface.

Setting up Spark on Windows and PySpark

Complete the following steps to install PySpark on a Windows machine:

  1. Download Gnu on Windows (GOW) from https://github.com/bmatzelle/gow/releases/download/v0.8.0/Gow-0.8.0.exe.
  2. GOW allows the use of Linux commands on Windows. We can use the following command to see the basic Linux commands allowed by installing GOW:
gow --list

This gives the following output:

  1. Download and install Anaconda. If you need help, you can go through the following tutorial: https://medium.com/@GalarnykMichael/install-python-on-windows-anaconda-c63c7c3d1444.
  2. Close the previous command line and open a new command line.
  3. Go to the Apache Spark website (https://spark.apache.org/).
  4. To download Spark, choose the following from the drop-down menu:
    • A recent Spark release
    • A proper package type

The following screenshot shows the download page of Apache Spark:

  1. Then, download Spark. Once it is downloaded, move the file to the folder where you want to unzip it.
  2. You can either unzip it manually or use the following commands:
gzip -d spark-2.1.0-bin-hadoop2.7.tgz
tar xvf spark-2.1.0-bin-hadoop2.7.tar
  1. Now, download winutils.exe into your spark-2.1.0-bin-hadoop2.7\bin folder using the following command:
curl -k -L -o winutils.exe https://github.com/steveloughran/winutils/blob/master/hadoop-2.6.0/bin/winutils.exe?raw=true
  1. Make sure you have Java installed on your machine. You can use the following command to see the Java version:
java --version

This gives the following output:

  1. Check for the Python version by using the following command:
python --version 

This gives the following output:

  1. Let's edit our environmental variables so that we can open Spark in any directory, as follows:
setx SPARK_HOME C:\opt\spark\spark-2.1.0-bin-hadoop2.7
setx HADOOP_HOME C:\opt\spark\spark-2.1.0-bin-hadoop2.7
setx PYSPARK_DRIVER_PYTHON ipython
setx PYSPARK_DRIVER_PYTHON_OPTS notebook

Add C:\opt\spark\spark-2.1.0-bin-hadoop2.7\bin to your path.

  1. Close the Terminal, open a new one, and type the following command:
--master local[2]
The PYSPARK_DRIVER_PYTHON and the PYSPARK_DRIVER_PYTHON_OPTS parameters are used to launch the PySpark shell in Jupyter Notebook. The --master parameter is used for setting the master node address.
  1. The next thing to do is to run the PySpark command in the bin folder:
.\bin\pyspark

This gives the following output:

Core concepts in Spark and PySpark

Let's now look at the following core concepts in Spark and PySpark:

  • SparkContext
  • SparkConf
  • Spark shell

SparkContext

SparkContext is an object or concept within Spark. It is a big data analytical engine that allows you to programmatically harness the power of Spark.

The power of Spark can be seen when you have a large amount of data that doesn't fit into your local machine or your laptop, so you need two or more computers to process it. You also need to maintain the speed of processing this data while working on it. We not only want the data to be split among a few computers for computation; we also want the computation to be parallel. Lastly, you want this computation to look like one single computation.

Let's consider an example where we have a large contact database that has 50 million names, and we might want to extract the first name from each of these contacts. Obviously, it is difficult to fit 50 million names into your local memory, especially if each name is embedded within a larger contacts object. This is where Spark comes into the picture. Spark allows you to give it a big data file, and will help in handling and uploading this data file, while handling all the operations carried out on this data for you. This power is managed by Spark's cluster manager, as shown in the following diagram:

The cluster manager manages multiple workers; there could be 2, 3, or even 100. The main point is that Spark's technology helps in managing this cluster of workers, and you need a way to control how the cluster is behaving, and also pass data back and forth from the clustered rate.

A SparkContext lets you use the power of Spark's cluster manager as with Python objects. So with a SparkContext, you can pass jobs and resources, schedule tasks, and complete tasks the downstream from the SparkContext down to the Spark Cluster Manager, which will then take the results back from the Spark Cluster Manager once it has completed its computation.

Let's see what this looks like in practice and see how to set up a SparkContext:

  1. First, we need to import SparkContext.
  2. Create a new object in the sc variable standing for the SparkContext using the SparkContext constructor.
  3. In the SparkContext constructor, pass a local context. We are looking at hands on PySpark in this context, as follows:
from pyspark import SparkContext
sc = SparkContext('local', 'hands on PySpark')
  1. After we've established this, all we need to do is then use sc as an entry point to our Spark operation, as demonstrated in the following code snippet:
visitors = [10, 3, 35, 25, 41, 9, 29]
df_visitors = sc.parallelize(visitors)
df_visitors_yearly = df_visitors.map(lambda x: x*365).collect()
print(df_visitors_yearly)

Let's take an example; if we were to analyze the synthetic datasets of visitor counts to our clothing store, we might have a list of visitors denoting the daily visitors to our store. We can then create a parallelized version of the DataFrame, call sc.parallelize(visitors), and feed in the visitors datasets. df_visitors then creates for us a DataFrame of visitors. We can then map a function; for example, making the daily numbers and extrapolating them into a yearly number by mapping a lambda function that multiplies the daily number (x) by 365, which is the number of days in a year. Then, we call a collect() function to make sure that Spark executes on this lambda call. Lastly, we print out df_ visitors_yearly. Now, we have Spark working on this computation on our synthetic data behind the scenes, while this is simply a Python operation.

Spark shell

We will go back into our Spark folder, which is spark-2.3.2-bin-hadoop2.7, and start our PySpark binary by typing .\bin\pyspark.

We can see that we've started a shell session with Spark in the following screenshot:

Spark is now available to us as a spark variable. Let's try a simple thing in Spark. The first thing to do is to load a random file. In each Spark installation, there is a README.md markdown file, so let's load it into our memory as follows:

text_file = spark.read.text("README.md")

If we use spark.read.text and then put in README.md, we get a few warnings, but we shouldn't be too concerned about that at the moment, as we will see later how we are going to fix these things. The main thing here is that we can use Python syntax to access Spark.

What we have done here is put README.md as text data read by spark into Spark, and we can use text_file.count() can get Spark to count how many characters are in our text file as follows:

text_file.count()

From this, we get the following output:

103

We can also see what the first line is with the following:

text_file.first()

We will get the following output:

Row(value='# Apache Spark')

We can now count a number of lines that contain the word Spark by doing the following:

lines_with_spark = text_file.filter(text_file.value.contains("Spark"))

Here, we have filtered for lines using the filter() function, and within the filter() function, we have specified that text_file_value.contains includes the word "Spark", and we have put those results into the lines_with_spark variable.

We can modify the preceding command and simply add .count(), as follows:

text_file.filter(text_file.value.contains("Spark")).count()

We will now get the following output:

20

We can see that 20 lines in the text file contain the word Spark. This is just a simple example of how we can use the Spark shell.

SparkConf

SparkConf allows us to configure a Spark application. It sets various Spark parameters as key-value pairs, and so will usually create a SparkConf object with a SparkConf() constructor, which would then load values from the spark.* underlying Java system.

There are a few useful functions; for example, we can use the sets() function to set the configuration property. We can use the setMaster() function to set the master URL to connect to. We can use the setAppName() function to set the application name, and setSparkHome() in order to set the path where Spark will be installed on worker nodes.

Summary

In this chapter, we learned about the core concepts in Spark and PySpark. We learned about setting up Spark and using PySpark on Windows. We also went through the three main pillars of Spark, which are SparkContext, Spark shell, and SparkConf.

In the next chapter, we're going to look at getting your big data into Spark environments using RDDs.

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Key benefits

  • Work with large amounts of agile data using distributed datasets and in-memory caching
  • Source data from all popular data hosting platforms, such as HDFS, Hive, JSON, and S3
  • Employ the easy-to-use PySpark API to deploy big data Analytics for production

Description

Apache Spark is an open source parallel-processing framework that has been around for quite some time now. One of the many uses of Apache Spark is for data analytics applications across clustered computers. In this book, you will not only learn how to use Spark and the Python API to create high-performance analytics with big data, but also discover techniques for testing, immunizing, and parallelizing Spark jobs. You will learn how to source data from all popular data hosting platforms, including HDFS, Hive, JSON, and S3, and deal with large datasets with PySpark to gain practical big data experience. This book will help you work on prototypes on local machines and subsequently go on to handle messy data in production and at scale. This book covers installing and setting up PySpark, RDD operations, big data cleaning and wrangling, and aggregating and summarizing data into useful reports. You will also learn how to implement some practical and proven techniques to improve certain aspects of programming and administration in Apache Spark. By the end of the book, you will be able to build big data analytical solutions using the various PySpark offerings and also optimize them effectively.

Who is this book for?

This book is for developers, data scientists, business analysts, or anyone who needs to reliably analyze large amounts of large-scale, real-world data. Whether you're tasked with creating your company's business intelligence function or creating great data platforms for your machine learning models, or are looking to use code to magnify the impact of your business, this book is for you.

What you will learn

  • Get practical big data experience while working on messy datasets
  • Analyze patterns with Spark SQL to improve your business intelligence
  • Use PySpark s interactive shell to speed up development time
  • Create highly concurrent Spark programs by leveraging immutability
  • Discover ways to avoid the most expensive operation in the Spark API: the shuffle operation
  • Re-design your jobs to use reduceByKey instead of groupBy
  • Create robust processing pipelines by testing Apache Spark jobs

Product Details

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Publication date : Mar 29, 2019
Length: 182 pages
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Language : English
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Product feature icon Download this book in EPUB and PDF formats
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Product Details

Publication date : Mar 29, 2019
Length: 182 pages
Edition : 1st
Language : English
ISBN-13 : 9781838648831
Vendor :
Apache
Category :
Languages :
Concepts :
Tools :

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Table of Contents

14 Chapters
Installing Pyspark and Setting up Your Development Environment Chevron down icon Chevron up icon
Getting Your Big Data into the Spark Environment Using RDDs Chevron down icon Chevron up icon
Big Data Cleaning and Wrangling with Spark Notebooks Chevron down icon Chevron up icon
Aggregating and Summarizing Data into Useful Reports Chevron down icon Chevron up icon
Powerful Exploratory Data Analysis with MLlib Chevron down icon Chevron up icon
Putting Structure on Your Big Data with SparkSQL Chevron down icon Chevron up icon
Transformations and Actions Chevron down icon Chevron up icon
Immutable Design Chevron down icon Chevron up icon
Avoiding Shuffle and Reducing Operational Expenses Chevron down icon Chevron up icon
Saving Data in the Correct Format Chevron down icon Chevron up icon
Working with the Spark Key/Value API Chevron down icon Chevron up icon
Testing Apache Spark Jobs Chevron down icon Chevron up icon
Leveraging the Spark GraphX API Chevron down icon Chevron up icon
Other Books You May Enjoy Chevron down icon Chevron up icon

Customer reviews

Rating distribution
Full star icon Half star icon Empty star icon Empty star icon Empty star icon 1.8
(5 Ratings)
5 star 0%
4 star 0%
3 star 20%
2 star 40%
1 star 40%
dmdgirl Jun 03, 2022
Full star icon Full star icon Full star icon Empty star icon Empty star icon 3
This book goes over some really great concepts.I was in the University of Miami Master’s in Analytics program and this book did help with basic skills but does not go into enough detail for deep learning and machine learning in pyspark.
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Kindle Customer Aug 12, 2019
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Has some good information, but it needs better review and editing. If you follow along with the book there are multiple errors and in Chapter 7 it suddenly switches to Scala code with no explanation.
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Cristian Fabian Ortiz Muñoz Jun 11, 2019
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I dislike because it has a very light content.
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Michael Meier Mar 01, 2020
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Sehr schlecht gemacht, kein strukturierter Aufbau, fehlerhaft, nicht zu empfehlen
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Devang Jul 19, 2022
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Book content is very poor. Not at all worth the cost
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