How do I use the diamond syntax?

By I Wayan Saryada in Basic, Core API 0 Comment

In Java 7 a new feature called diamond syntax or diamond operator was introduced. This diamond syntax <> simplify how we instantiate generic type variables. In the previous version of Java when declaring and instantiating generic types we’ll do it like the snippet below:

List<String> names = new ArrayList<String>();
Map<String, List<Integer>> map = new HashMap<String, List<Integer>>();

As you can see in the snippet, we were repeating our self by defining the generic type two times. We define the object type we’ll be stored in the List and the Map on both left and the right side. By using the diamond syntax the compiler will infer the type of the right side expression argument automatically. So in Java 7 we can write the above code snippet like this:

List<String> names = new ArrayList<>();
Map<String, List<Integer>> map = new HashMap<>();

This make our code simpler and more readable, and by using the diamond syntax the compiler will ensure that we have the generic type-safe checking available in our code. This will make any error due to type incompatibility captured at compile time.

How do I pick a random value from an enum?

By I Wayan Saryada in Basic, Core API 6 Comments

The following code snippet will show you how to pick a random value from an enum. First we’ll create an enum called BaseColor which will have three valid value. These values are Red, Green and Blue.

To allow us to get random value of this BaseColor enum we define a getRandomColor() method in the enum. This method use the java.util.Random to create a random value. This random value then will be used to pick a random value from the enum.

Let’s see the code snippet below:

package org.kodejava.basic;

import java.util.Random;

public class EnumGetRandomValueExample {
    public static void main(String[] args) {
        // Pick a random BaseColor for 10 times.
        for (int i = 0; i < 10; i++) {
            System.out.printf("color[%d] = %s%n", i,
                    BaseColor.getRandomColor());
        }
    }

    /**
     * BaseColor enum.
     */
    private enum BaseColor {
        Red,
        Green,
        Blue;

        /**
         * Pick a random value of the BaseColor enum.
         *
         * @return a random BaseColor.
         */
        public static BaseColor getRandomColor() {
            Random random = new Random();
            return values()[random.nextInt(values().length)];
        }
    }
}

The output of the code snippet:

color[0] = Green
color[1] = Green
color[2] = Blue
color[3] = Red
color[4] = Blue
color[5] = Blue
color[6] = Blue
color[7] = Blue
color[8] = Green
color[9] = Blue

How do I use try-with-resources statement?

By I Wayan Saryada in Basic, Core API 0 Comment

The try-with-resources statement is introduced in the Java 7. With this new statement we can simplify resource management in our program, also known as ARM (Automatic Resource Management).

This statement is a try statement that declares one or more resources. After the program finish with the resource, it must be closed. The try-with-resources ensures that each resource is closed and the end of the statement.

Any object that implements java.lang.AutoCloseable, which includes all objects which implement java.io.Closeable, can be used as a resource.

package org.kodejava.basic;

import java.io.*;
import java.nio.charset.StandardCharsets;

public class TryWithResourceExample {
    public static void main(String[] args) {
        try {
            TryWithResourceExample demo = new TryWithResourceExample();
            demo.printStream("F:/tmp/data.txt");
        } catch (IOException e) {
            e.printStackTrace();
        }
    }

    private void printStream(String fileName) throws IOException {
        char[] buffer = new char[1024];

        try (InputStream is = new FileInputStream(fileName);
             Reader reader = new BufferedReader(
                     new InputStreamReader(is, StandardCharsets.UTF_8))) {

            while (reader.read(buffer) != -1) {
                System.out.println(buffer);
            }
        }
    }
}

How do I use string in switch statement?

By I Wayan Saryada in Basic, Core API 0 Comment

Starting from Java 7 release you can now use a String in the switch statement. On the previous version we can only use constants type of byte, char, short, int (and their corresponding reference / wrapper type) or enum constants in the switch statement.

The code below give you a simple example on how the Java 7 extended to allow the use of String in switch statement.

package org.kodejava.basic;

public class StringInSwitchExample {
    public static void main(String[] args) {
        String day = "Sunday";
        switch (day) {
            case "Sunday":
                System.out.println("doSomething");
                break;
            case "Monday":
                System.out.println("doSomethingElse");
                break;
            case "Tuesday":
            case "Wednesday":
                System.out.println("doSomeOtherThings");
                break;
            default:
                System.out.println("doDefault");
                break;
        }
    }
}

How do I use the || operator in Java?

By I Wayan Saryada in Basic, Core API 0 Comment

The || operator or conditional OR operator operates on two boolean expressions. This operator exhibit “short-circuiting” behavior, which means that the second operand is evaluated only if needed.

The || operator evaluate only boolean values. For an OR (||) expression it will return true if either of the operand is true. If the first operand resolves true, then the second operand will not evaluate, because the complete expression will return true.

package org.kodejava.basic;

public class ConditionalORDemo {
    public static void main(String[] args) {
        // the second operand (5<3) is not evaluated, because the
        // first operand return true, the result of complete
        // expression will be true
        boolean a = (1 == 1) || (5 < 3);

        // the first operand return false, the second operand is
        // evaluated to check the result of the second expression.
        // If the second operand resolves to true, the complete
        // expression return true, otherwise return false.
        boolean b = (5 < 3) || (2 == 3);
        boolean c = (5 < 3) || (1 == 1);

        System.out.println("result a: " + a);
        System.out.println("result b: " + b);
        System.out.println("result c: " + c);
    }
}

The program prints the following output:

result a: true
result b: false
result c: true