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Java SE 8 Programming Ed 1

Duration : 5 Days (40 Hours)

Java SE 8 Programming Ed 1 Course Overview:

The Java SE 8 certification training introduces participants to the fundamental concepts of object-oriented programming, such as classes, inheritance, encapsulation, and polymorphism, using the Java language. This comprehensive Java programming training covers essential topics, including working with objects, strings, arrays, loops, and Predicate Lambda expressions. The course equips learners with core skills to develop robust applications using JDK 8 Technology and the NetBeans IDE.

Taking this Java programming course enables developers to adopt a universal approach in creating high-performance and portable applications that can run seamlessly across multiple devices. Designed for Application Developers, system administrators, web administrators, project managers, and developers seeking to enhance their Java application development skills, the Java training provides valuable insights into building versatile and efficient applications.

Intended Audience:

  1. Application Developers
  2. System Administrators
  3. Web Administrators
  4. Project Managers
  5. Developers seeking to expand their knowledge of Java application development.

Learning Objectives of Java SE 8 Programming Ed 1:

  • Create applications using variables, arrays, and loop constructs in Java code.
  • Use Java operators to manipulate string data and numeric data.
  • Implement casting without compromising on accuracy and precision.
  • Make use of overloaded constructors and access modifiers for encapsulating a class. Implement a simple Java Interface to demonstrate polymorphism.
  • Use Lambda as an argument to a method.
  • Handle exceptions in a Java application.
 Module 1: Java Platform Overview
  • Defining how the Java language achieves platform independence
  • Differentiating between the Java ME, Java SE, and Java EE Platforms
  • Evaluating Java libraries, middle-ware, and database options
  • Defining how the Java language continues to evolve
  • Creating simple Java classes
  • Creating primitive variables
  • Using operators
  • Creating and manipulate strings
  • Using if-else and switch statements
  • Iterating with loops: while,do-while,for,enhanced for
  • Creating arrays
  • Using Java fields, constructors, and methods
  • Using encapsulation in Java class design
  • Modeling business problems using Java classes
  • Making classes immutable
  • Creating and use Java subclasses
  • Overloading methods
  • Using access levels: private, protected, default, and public.
  • Overriding methods
  • Using virtual method invocation
  • Using varargs to specify variable arguments
  • Using the instanceof operator to compare object types
  • Using upward and downward casts
  • Modeling business problems by using the static keyword
  • Implementing the singleton design pattern
  • Designing general-purpose base classes by using abstract classes
  • Constructing abstract Java classes and subclasses
  • Applying final keyword in Java
  • Distinguish between top-level and nested classes
  • Defining a Java interface
  • Choosing between interface inheritance and class inheritance
  • Extending an interface
  • Defaulting methods
  • Anonymous inner classes
  • Defining a Lambda Expression
  • Creating a custom generic class
  • Using the type inference diamond to create an object
  • Creating a collection by using generics
  • Implementing an ArrayList
  • Implementing a TreeSet
  • Implementing a HashMap
  • Implementing a Deque
  • Ordering collections
  • Describing the Builder pattern
  • Iterating through a collection using lambda syntax
  • Describing the Stream interface
  • Filtering a collection using lambda expressions
  • Calling an existing method using a method reference
  • Chaining multiple methods together
  • Defining pipelines in terms of lambdas and collections
  • Listing the built-in interfaces included in java.util.function
  • Core interfaces – Predicate, Consumer, Function, Supplier
  • Using primitive versions of base interfaces
  • Using binary versions of base interfaces
  • Extracting data from an object using map
  • Describing the types of stream operations
  • Describing the Optional class
  • Describing lazy processing
  • Sorting a stream
  • Saving results to a collection using the collect method
  • Grouping and partition data using the Collectors class
  • Defining the purpose of Java exceptions
  • Using the try and throw statements
  • Using the catch, multi-catch, and finally clauses
  • Autoclose resources with a try-with-resources statement
  • Recognizing common exception classes and categories
  • Creating custom exceptions
  • Testing invariants by using assertions
  • Creating and manage date-based events
  • Creating and manage time-based events
  • Combining date and time into a single object
  • Working with dates and times across time zones
  • Managing changes resulting from daylight savings
  • Defining and create timestamps, periods and durations
  • Applying formatting to local and zoned dates and times
  • Describing the basics of input and output in Java
  • Read and write data from the console
  • Using streams to read and write files
  • Writing and read objects using serialization
  • Using the Path interface to operate on file and directory paths
  • Using the Files class to check, delete, copy, or move a file or directory
  • Using Stream API with NIO2
  • Describing operating system task scheduling
  • Creating worker threads using Runnable and Callable
  • Using an ExecutorService to concurrently execute tasks
  • Identifying potential threading problems
  • Using synchronized and concurrent atomic to manage atomicity
  • Using monitor locks to control the order of thread execution
  • Using the java.util.concurrent collections
  • Parallelism
  • The need for Fork-Join
  • Work stealing
  • RecursiveTask
  • Reviewing the key characteristics of streams
  • Describing how to make a stream pipeline execute in parallel
  • List the key assumptions needed to use a parallel pipeline
  • Defining reduction
  • Describing why reduction requires an associative function
  • Calculating a value using reduce
  • Describing the process for decomposing and then merging work
  • Listing the key performance considerations for parallel streams
  • Defining the layout of the JDBC API
  • Connecting to a database by using a JDBC driver
  • Submitting queries and get results from the database
  • Specifying JDBC driver information externally
  • Performing CRUD operations using the JDBC API
  • Describing the advantages of localizing an application
  • Defining what a locale represents
  • Read and set the locale by using the Locale object
  • Building a resource bundle for each locale
  • Calling a resource bundle from an application
  • Changing the locale for a resource bundle

Java SE 8 Programming Ed 1 Course Prerequisites:

Java SE 8 Fundamentals

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Live Online

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  • Interaction and collaboration
  • Networking opportunities
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  • Familiar environment
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Training Exclusives

This course comes with following benefits:

  • Practice Labs.
  • Get Trained by Certified Trainers.
  • Access to the recordings of your class sessions for 90 days.
  • Digital courseware
  • Experience 24*7 learner support.

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