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Big Data Analytics with Hadoop 3

You're reading from   Big Data Analytics with Hadoop 3 Build highly effective analytics solutions to gain valuable insight into your big data

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Product type Paperback
Published in May 2018
Publisher Packt
ISBN-13 9781788628846
Length 482 pages
Edition 1st Edition
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Author (1):
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Sridhar Alla Sridhar Alla
Author Profile Icon Sridhar Alla
Sridhar Alla
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Table of Contents (13) Chapters Close

Preface 1. Introduction to Hadoop FREE CHAPTER 2. Overview of Big Data Analytics 3. Big Data Processing with MapReduce 4. Scientific Computing and Big Data Analysis with Python and Hadoop 5. Statistical Big Data Computing with R and Hadoop 6. Batch Analytics with Apache Spark 7. Real-Time Analytics with Apache Spark 8. Batch Analytics with Apache Flink 9. Stream Processing with Apache Flink 10. Visualizing Big Data 11. Introduction to Cloud Computing 12. Using Amazon Web Services

DataFrame APIs and the SQL API


A DataFrame can be created in several ways; some of them are as follows:

  • Execute SQL queries, load external data such as Parquet, JSON, CSV, Text, Hive, JDBC, and so on
  • Convert RDDs to DataFrames
  • Load a CSV file

We will take a look at statesPopulation.csv here, which we will then load as a DataFrame.

The CSV has the following format of the population of US states from the years 2010 to 2016:

State

Year

Population

Alabama

2010

47,85,492

Alaska

2010

714,031

Arizona

2010

64,08,312

Arkansas

2010

2,921,995

California

2010

37,332,685

Since this CSV has a header, we can use it to quickly load into a DataFrame with an implicit schema detection:

scala> val statesDF = spark.read.option("header",
"true").option("inferschema", "true").option("sep",
",").csv("statesPopulation.csv")
statesDF: org.apache.spark.sql.DataFrame = [State: string, Year: int ... 1
more field]

Once we load the DataFrame, it can be examined for the schema:

scala> statesDF.printSchema
root
|-- State: string (nullable ...
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