Advanced Java 9

Introduction:

This course provides an in-depth treatment of the many significant Java 9 features and updates, with the goal of demonstrating how these features can be used to improve the performance and functionality of Java applications.

Objectives:

Students who attend this course will leave armed with new skills to leverage Modules, scale applications into multi-core environments and improve the performance of Java 9 applications. This course will teach students everything they need to successfully master and implement the latest features and benefits of Java 9 and become a more effective Java 9 developer.

Course Outline:

1 – Review of What is New in Java 9

  • Overview of ‘smaller’ Java 9 topics
  • Java versioning
  • The JDK/JRE file structure
  • Deprecation
  • The jdeprscan tool
  • Multi-Release JAR Files
  • HTML 5 compliant JavaDoc
  • Exercise: Creating a MRJar

2 – Milling Project Coin

  • Changes made to the language since Java 6
  • Multi-catch
  • Using effectively final variables in try-with-resources
  • Suppressed Exceptions
  • Binary literals
  • Reserved underscore (Java 9)
  • Type inference in anonymous classes (Java 9)
  • @SafeVargs (updates in Java 9)
  • Default and static methods in interfaces (Java 8)
  • Private methods in interfaces (Java 9)
  • Exercise: Try-With-Resources

3 – Why JigSaw?

  • Problems with Classpath
  • Encapsulation and the public access modifier
  • Application memory footprint
  • Java 8’s compact profile
  • Using internal JDK APIs

4 – Introduction to the Module System

  • Introduce Project Jigsaw
  • Classpath and Encapsulation
  • The JDK internal APIs
  • Java 9 Platform modules
  • Defining application modules
  • Define module dependencies
  • Implicit dependencies
  • Implied Readability
  • Exporting packages
  • Exercise: Defining Modules

5 – The Module Descriptor

  • Define module requirements
  • Explain qualified exports
  • Open modules for reflection
  • Use ServiceLoader
  • The provides and uses keywords
  • Exercise: Modules and the ServiceLoader
  • Exercise: Using Reflection on modules

6 – Working with Modules

  • Being backwards compatible
  • The ModulePath and ClassPath
  • Unnamed Modules
  • Automatic Modules
  • The JLink tool
  • Exercise: Migrating to modules

7 – JShell

  • Introduction to JShell
  • Running Expressions in JShell
  • Importing packages
  • Defining methods and types
  • Using the JShell editor
  • Save and loading state
  • Exercise: Working with JShell

8 – Other New Java 9 Features

  • Enhancements on the Optional class
  • Improvements made in the Process API
  • The Stack-Walking API
  • The HTTP2 Client
  • The Multi-Resolution API
  • Exercise: Working with Native processes
  • Exercise: HTTP Clients

9 – Performance Optimizations

  • Performance in Java 9
  • Compact Strings
  • String deduplication
  • Ahead-Of-Time Compilation
  • Hotspot Diagnostic commands
  • The G1 Garbage collector
  • Variable and Method Handles

10 – Multithreading

  • Principles of Multithreading
  • Creating a Threaded Class
  • Basic Features of the Thread Class
  • Thread Scheduling
  • Thread Synchronization
  • Exercise: Simple Thread Class
  • Exercise: Simple Runnable Class

11 – Concurrent Java

  • Concurrent Locks are Explicit and Flexible
  • Executor Interfaces Provide Thread Management
  • Challenges for Concurrent Use of Collections
  • Concurrent Collections
  • Atomic Variables Avoid Synchronization
  • Exercise: Working with Concurrent Java
  • Exercise: Sleeping Threads
  • Exercise: Safe Data Access
  • Exercise: Producer/Consumer

12 – Java 8 Concurrency Updates

  • The common thread pool
  • Atomic variables
  • LongAdder and LongAccumulator
  • CompletableFuture
  • Non-blocking asynchronous tasks
  • Exercise: CompletableFuture

13 – Introspection and Reflection

  • Reflection classes
  • Introspection
  • Dynamic invocation of methods
  • Using annotations
  • Type annotations
  • Receiver parameter
  • Exercise: Introspection and Reflection
  • Exercise: Reflection Server

14 – Reference Objects

  • List the kinds of object references available in Java
  • Introduce Weak, Soft and PhantomReference
  • Explain the ReferenceQueue

15 – Objects, Declarations, and Initializations

  • Abstraction and Responsibilities
  • Low Coupling
  • Programming principles
  • Inheritance

16 – Exceptions

  • Proper use of Exceptions
  • Managing state in exceptional situations
  • Checked vs. Unchecked Exceptions

17 – Profiling and Benchmarking

  • List and describe the two types of benchmarks
  • Describe the criteria that should be considered when constructing a benchmark plan
  • Name the three most useful targets for profiling
  • List four common tools/techniques for profiling
  • Describe two strategies for improving performance as a result of profiling data
  • List and explain the five most common problem areas for good performance with Java

18 – Profiling Tools

  • Use the JDK to collect runtime profiling data
  • Successfully read the profiling data generated by the JDK to detect performance bottlenecks
  • Instrument your own code to collect method execution time data
  • Exercise: Using the JVM Profiling Tools and Visual VM

19 – Code Optimization Techniques

  • List three potential problems with strings
  • List two ways to optimize loops
  • Describe the advantages of private and final methods
  • List two advantages of collections over vectors and hashtables
  • List 4 other code and system optimizations
  • Exercise: Code Optimizations

20 – Code Optimization Myths

  • Debunk several myths of Java performance tuning
  • Synchronization trade-offs
  • Setting methods to be final
  • String is not always bad
  • Revisit the fundamentals of Java code performance
  • How to detect a performance myth

21 – Design Optimization Techniques

  • List five ways to optimize Java program design
  • Exercise: Design Optimizations

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