Java 8 Features
Some of the important Java 8 features are;
- forEach() method in Iterable interface
- default and static methods in Interfaces
- Functional Interfaces and Lambda Expressions
- Java Stream API for Bulk Data Operations on Collections
- Java Time API
- Collection API improvements
- Concurrency API improvements
- Java IO improvements
- Miscellaneous Core API improvements
forEach() method in Iterable interface
Whenever we need to traverse through a Collection, we need to create an
Iterator
whose whole purpose is to iterate over and then we have business logic in a loop for each of the elements in the Collection. We might get ConcurrentModificationException if iterator is not used properly.Java 8 has introduced forEach method in
java.lang.Iterable
interface so that while writing code we focus on business logic only. forEach method takesjava.util.function.Consumer
object as argument, so it helps in having our business logic at a separate location that we can reuse. Let’s see forEach usage with simple example.package com.journaldev.java8.foreach; import java.util.ArrayList; import java.util.Iterator; import java.util.List; import java.util.function.Consumer; import java.lang.Integer; public class Java8ForEachExample { public static void main(String[] args) { //creating sample Collection List<Integer> myList = new ArrayList<Integer>(); for(int i=0; i<10; i++) myList.add(i); //traversing using Iterator Iterator<Integer> it = myList.iterator(); while(it.hasNext()){ Integer i = it.next(); System.out.println("Iterator Value::"+i); } //traversing through forEach method of Iterable with anonymous class myList.forEach(new Consumer<Integer>() { public void accept(Integer t) { System.out.println("forEach anonymous class Value::"+t); } }); //traversing with Consumer interface implementation MyConsumer action = new MyConsumer(); myList.forEach(action); } } //Consumer implementation that can be reused class MyConsumer implements Consumer<Integer>{ public void accept(Integer t) { System.out.println("Consumer impl Value::"+t); } }
The number of lines might increase but forEach method helps in having the logic for iteration and business logic at separate place resulting in higher separation of concern and cleaner code.
default and static methods in Interfaces
If you read forEach method details carefully, you will notice that it’s defined in Iterable interface but we know that interfaces can’t have method body. From Java 8, interfaces are enhanced to have method with implementation. We can use
default
andstatic
keyword to create interfaces with method implementation. forEach method implementation in Iterable interface is:default void forEach(Consumer<? super T> action) { Objects.requireNonNull(action); for (T t : this) { action.accept(t); } }
We know that Java doesn’t provide multiple inheritance in Classes because it leads to Diamond Problem. So how it will be handled with interfaces now, since interfaces are now similar to abstract classes. The solution is that compiler will throw exception in this scenario and we will have to provide implementation logic in the class implementing the interfaces.
package com.journaldev.java8.defaultmethod; @FunctionalInterface public interface Interface1 { void method1(String str); default void log(String str){ System.out.println("I1 logging::"+str); } static void print(String str){ System.out.println("Printing "+str); } //trying to override Object method gives compile-time error as //"A default method cannot override a method from java.lang.Object" // default String toString(){ // return "i1"; // } }
package com.journaldev.java8.defaultmethod; @FunctionalInterface public interface Interface2 { void method2(); default void log(String str){ System.out.println("I2 logging::"+str); } }
Notice that both the interfaces have a common method log() with implementation logic.
package com.journaldev.java8.defaultmethod; public class MyClass implements Interface1, Interface2 { @Override public void method2() { } @Override public void method1(String str) { } //MyClass won't compile without having it's own log() implementation @Override public void log(String str){ System.out.println("MyClass logging::"+str); Interface1.print("abc"); } }
As you can see that
Interface1
has static method implementation that is used inMyClass.log()
method implementation. Java 8 uses default and static methods heavily in Collection API and default methods are added so that our code remains backward compatible.If any class in the hierarchy has a method with the same signature, then default methods become irrelevant. Since any class implementing an interface already has Object as a superclass, if we have equals(), hashCode() default methods in the interface, it will become irrelevant. That’s why for better clarity, interfaces are not allowed to have Object default methods.
For complete details of interface changes in Java 8, please read Java 8 interface changes.
Functional Interfaces and Lambda Expressions
If you notice above interfaces code, you will notice @FunctionalInterface annotation. Functional interfaces are new concept introduced in Java 8. An interface with exactly one abstract method becomes Functional Interface. We don’t need to use @FunctionalInterface annotation to mark an interface as Functional Interface. @FunctionalInterface annotation is a facility to avoid accidental addition of abstract methods in the functional interfaces. You can think of it like @Override annotation and it’s best practice to use it.
java.lang.Runnable
with single abstract method run() is a great example of functional interface.One of the major benefits of functional interface is the possibility to use lambda expressions to instantiate them. We can instantiate an interface with anonymous class but the code looks bulky.
Runnable r = new Runnable(){ @Override public void run() { System.out.println("My Runnable"); }};
Since functional interfaces have only one method, lambda expressions can easily provide the method implementation. We just need to provide method arguments and business logic. For example, we can write above implementation using lambda expression as:
Runnable r1 = () -> { System.out.println("My Runnable"); };
If you have single statement in method implementation, we don’t need curly braces also. For example above Interface1 anonymous class can be instantiated using lambda as follows:
Interface1 i1 = (s) -> System.out.println(s); i1.method1("abc");
So lambda expressions are a means to create anonymous classes of functional interfaces easily. There are no runtime benefits of using lambda expressions, so I will use it cautiously because I don’t mind writing a few extra lines of code.
A new package
java.util.function
has been added with bunch of functional interfaces to provide target types for lambda expressions and method references. Lambda expressions are a huge topic, I will write a separate article on that in the future.You can read complete tutorial at Java 8 Lambda Expressions Tutorial.
Java Stream API for Bulk Data Operations on Collections
A new
java.util.stream
has been added in Java 8 to perform filter/map/reduce like operations with the collection. Stream API will allow sequential as well as parallel execution. This is one of the best features for me because I work a lot with Collections and usually with Big Data, we need to filter out them based on some conditions.Collection interface has been extended with stream() and parallelStream() default methods to get the Stream for sequential and parallel execution. Let’s see their usage with simple example.
package com.journaldev.java8.stream; import java.util.ArrayList; import java.util.List; import java.util.stream.Stream; public class StreamExample { public static void main(String[] args) { List<Integer> myList = new ArrayList<>(); for(int i=0; i<100; i++) myList.add(i); //sequential stream Stream<Integer> sequentialStream = myList.stream(); //parallel stream Stream<Integer> parallelStream = myList.parallelStream(); //using lambda with Stream API, filter example Stream<Integer> highNums = parallelStream.filter(p -> p > 90); //using lambda in forEach highNums.forEach(p -> System.out.println("High Nums parallel="+p)); Stream<Integer> highNumsSeq = sequentialStream.filter(p -> p > 90); highNumsSeq.forEach(p -> System.out.println("High Nums sequential="+p)); } }
If you will run above example code, you will get output like this:
High Nums parallel=91 High Nums parallel=96 High Nums parallel=93 High Nums parallel=98 High Nums parallel=94 High Nums parallel=95 High Nums parallel=97 High Nums parallel=92 High Nums parallel=99 High Nums sequential=91 High Nums sequential=92 High Nums sequential=93 High Nums sequential=94 High Nums sequential=95 High Nums sequential=96 High Nums sequential=97 High Nums sequential=98 High Nums sequential=99
Notice that parallel processing values are not in order, so parallel processing will be very helpful while working with huge collections.
Covering everything about Stream API is not possible in this post, you can read everything about Stream API at Java 8 Stream API Example Tutorial.Java Time API
It has always been hard to work with Date, Time and Time Zones in java. There was no standard approach or API in java for date and time in Java. One of the nice addition in Java 8 is the
java.time
package that will streamline the process of working with time in java.Just by looking at Java Time API packages, I can sense that it will be very easy to use. It has some sub-packages
java.time.format
that provides classes to print and parse dates and times andjava.time.zone
provides support for time-zones and their rules.The new Time API prefers enums over integer constants for months and days of the week. One of the useful class is
DateTimeFormatter
for converting DateTime objects to strings.For complete tutorial, head over to Java Date Time API Example Tutorial.
Collection API improvements
We have already seen forEach() method and Stream API for collections. Some new methods added in Collection API are:
Iterator
default methodforEachRemaining(Consumer action)
to perform the given action for each remaining element until all elements have been processed or the action throws an exception.Collection
default methodremoveIf(Predicate filter)
to remove all of the elements of this collection that satisfy the given predicate.Collection
spliterator()
method returning Spliterator instance that can be used to traverse elements sequentially or parallel.- Map
replaceAll()
,compute()
,merge()
methods. - Performance Improvement for HashMap class with Key Collisions
Concurrency API improvements
Some important concurrent API enhancements are:
ConcurrentHashMap
compute(), forEach(), forEachEntry(), forEachKey(), forEachValue(), merge(), reduce() and search() methods.CompletableFuture
that may be explicitly completed (setting its value and status).Executors
newWorkStealingPool()
method to create a work-stealing thread pool using all available processors as its target parallelism level.
Java IO improvements
Some IO improvements known to me are:
Files.list(Path dir)
that returns a lazily populated Stream, the elements of which are the entries in the directory.Files.lines(Path path)
that reads all lines from a file as a Stream.Files.find()
that returns a Stream that is lazily populated with Path by searching for files in a file tree rooted at a given starting file.BufferedReader.lines()
that return a Stream, the elements of which are lines read from this BufferedReader.
Miscellaneous Core API improvements
Some misc API improvements that might come handy are:
- ThreadLocal static method withInitial(Supplier supplier) to create instance easily.
- Comparator interface has been extended with a lot of default and static methods for natural ordering, reverse order etc.
- min(), max() and sum() methods in Integer, Long and Double wrapper classes.
- logicalAnd(), logicalOr() and logicalXor() methods in Boolean class.
- ZipFile.stream() method to get an ordered Stream over the ZIP file entries. Entries appear in the Stream in the order they appear in the central directory of the ZIP file.
- Several utility methods in Math class.
jjs
command is added to invoke Nashorn Engine.jdeps
command is added to analyze class files- JDBC-ODBC Bridge has been removed.
- PermGen memory space has been removed
That’s all for Java 8 features with example programs. If I have missed some important features of Java 8, please let me know through comments.
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