Question
How do I declare and initialize an array in Java?
How do I declare and initialize an array in Java?
Question
How do I declare and initialize an array in Java?
Solution
You can either use array declaration or array literal (but only when you declare and affect the variable right away, array literals cannot be used for re-assigning an array).
For primitive types:
int[] myIntArray = new int[3]; // each element of the array is initialised to 0
int[] myIntArray = {1, 2, 3};
int[] myIntArray = new int[]{1, 2, 3};
// Since Java 8. Doc of IntStream: https://docs.oracle.com/javase/8/docs/api/java/util/stream/IntStream.html
int [] myIntArray = IntStream.range(0, 100).toArray(); // From 0 to 99
int [] myIntArray = IntStream.rangeClosed(0, 100).toArray(); // From 0 to 100
int [] myIntArray = IntStream.of(12,25,36,85,28,96,47).toArray(); // The order is preserved.
int [] myIntArray = IntStream.of(12,25,36,85,28,96,47).sorted().toArray(); // Sort
For classes, for example String
, it's the same:
String[] myStringArray = new String[3]; // each element is initialised to null
String[] myStringArray = {"a", "b", "c"};
String[] myStringArray = new String[]{"a", "b", "c"};
The third way of initializing is useful when you declare an array first and then initialize it, pass an array as a function argument, or return an array. The explicit type is required.
String[] myStringArray;
myStringArray = new String[]{"a", "b", "c"};
Solution
There are two types of array.
Syntax for default values:
int[] num = new int[5];
Or (less preferred)
int num[] = new int[5];
Syntax with values given (variable/field initialization):
int[] num = {1,2,3,4,5};
Or (less preferred)
int num[] = {1, 2, 3, 4, 5};
Note: For convenience int[] num is preferable because it clearly tells that you are talking here about array. Otherwise no difference. Not at all.
int[][] num = new int[5][2];
Or
int num[][] = new int[5][2];
Or
int[] num[] = new int[5][2];
num[0][0]=1;
num[0][1]=2;
num[1][0]=1;
num[1][1]=2;
num[2][0]=1;
num[2][1]=2;
num[3][0]=1;
num[3][1]=2;
num[4][0]=1;
num[4][1]=2;
Or
int[][] num={ {1,2}, {1,2}, {1,2}, {1,2}, {1,2} };
int[][] num = new int[5][];
num[0] = new int[1];
num[1] = new int[5];
num[2] = new int[2];
num[3] = new int[3];
So here we are defining columns explicitly.
Another Way:
int[][] num={ {1}, {1,2}, {1,2,3,4,5}, {1,2}, {1,2,3} };
for (int i=0; i<(num.length); i++ ) {
for (int j=0;j<num[i].length;j++)
System.out.println(num[i][j]);
}
Alternatively:
for (int[] a : num) {
for (int i : a) {
System.out.println(i);
}
}
Ragged arrays are multidimensional arrays.
For explanation see multidimensional array detail at the official java tutorials
Solution
Type[] variableName = new Type[capacity];
Type[] variableName = {comma-delimited values};
Type variableName[] = new Type[capacity];
Type variableName[] = {comma-delimited values};
is also valid, but I prefer the brackets after the type, because it's easier to see that the variable's type is actually an array.
Solution
There are various ways in which you can declare an array in Java:
float floatArray[]; // Initialize later
int[] integerArray = new int[10];
String[] array = new String[] {"a", "b"};
You can find more information in the Sun tutorial site and the JavaDoc.
Solution
I find it is helpful if you understand each part:
Type[] name = new Type[5];
Type[]
is the type of the variable called name ("name" is called the identifier). The literal "Type" is the base type, and the brackets mean this is the array type of that base. Array types are in turn types of their own, which allows you to make multidimensional arrays like Type[][]
(the array type of Type[]). The keyword new
says to allocate memory for the new array. The number between the bracket says how large the new array will be and how much memory to allocate. For instance, if Java knows that the base type Type
takes 32 bytes, and you want an array of size 5, it needs to internally allocate 32 * 5 = 160 bytes.
You can also create arrays with the values already there, such as
int[] name = {1, 2, 3, 4, 5};
which not only creates the empty space but fills it with those values. Java can tell that the primitives are integers and that there are 5 of them, so the size of the array can be determined implicitly.
Solution
The following shows the declaration of an array, but the array is not initialized:
int[] myIntArray = new int[3];
The following shows the declaration as well as initialization of the array:
int[] myIntArray = {1,2,3};
Now, the following also shows the declaration as well as initialization of the array:
int[] myIntArray = new int[]{1,2,3};
But this third one shows the property of anonymous array-object creation which is pointed by a reference variable "myIntArray", so if we write just "new int[]{1,2,3};" then this is how anonymous array-object can be created.
If we just write:
int[] myIntArray;
this is not declaration of array, but the following statement makes the above declaration complete:
myIntArray=new int[3];
Solution
Alternatively,
// Either method works
String arrayName[] = new String[10];
String[] arrayName = new String[10];
That declares an array called arrayName
of size 10 (you have elements 0 through 9 to use).
Solution
Also, in case you want something more dynamic there is the List interface. This will not perform as well, but is more flexible:
List<String> listOfString = new ArrayList<String>();
listOfString.add("foo");
listOfString.add("bar");
String value = listOfString.get(0);
assertEquals( value, "foo" );
Solution
There are two main ways to make an array:
This one, for an empty array:
int[] array = new int[n]; // "n" being the number of spaces to allocate in the array
And this one, for an initialized array:
int[] array = {1,2,3,4 ...};
You can also make multidimensional arrays, like this:
int[][] array2d = new int[x][y]; // "x" and "y" specify the dimensions
int[][] array2d = { {1,2,3 ...}, {4,5,6 ...} ...};
Solution
Using Arrays.setAll
(similar to Arrays.fill
, but takes the generator function, which accepts an index and produces the desired value for that position, which gives more flexibility):
int[] a = new int[5];
Arrays.setAll(a, index -> index + 1);
Out: [1, 2, 3, 4, 5]
Using different IntStream.iterate
and IntStream.takeWhile
methods:
int[] a = IntStream.iterate(10, x -> x <= 100, x -> x + 10).toArray();
Out: [10, 20, 30, 40, 50, 60, 70, 80, 90, 100]
int[] b = IntStream.iterate(0, x -> x + 1).takeWhile(x -> x < 10).toArray();
Out: [0, 1, 2, 3, 4, 5, 6, 7, 8, 9]
Using the Local Variable Type Inference:
var letters = new String[]{"A", "B", "C"};
Solution
Take the primitive type int
for example. There are several ways to declare and int
array:
int[] i = new int[capacity];
int[] i = new int[] {value1, value2, value3, etc};
int[] i = {value1, value2, value3, etc};
where in all of these, you can use int i[]
instead of int[] i
.
With reflection, you can use (Type[]) Array.newInstance(Type.class, capacity);
Note that in method parameters, ...
indicates variable arguments
. Essentially, any number of parameters is fine. It's easier to explain with code:
public static void varargs(int fixed1, String fixed2, int... varargs) {...}
...
varargs(0, "", 100); // fixed1 = 0, fixed2 = "", varargs = {100}
varargs(0, "", 100, 200); // fixed1 = 0, fixed2 = "", varargs = {100, 200};
Inside the method, varargs
is treated as a normal int[]
. Type...
can only be used in method parameters, so int... i = new int[] {}
will not compile.
Note that when passing an int[]
to a method (or any other Type[]
), you cannot use the third way. In the statement int[] i = *{a, b, c, d, etc}*
, the compiler assumes that the {...}
means an int[]
. But that is because you are declaring a variable. When passing an array to a method, the declaration must either be new Type[capacity]
or new Type[] {...}
.
Multidimensional arrays are much harder to deal with. Essentially, a 2D array is an array of arrays. int[][]
means an array of int[]
s. The key is that if an int[][]
is declared as int[x][y]
, the maximum index is i[x-1][y-1]
. Essentially, a rectangular int[3][5]
is:
[0, 0] [1, 0] [2, 0]
[0, 1] [1, 1] [2, 1]
[0, 2] [1, 2] [2, 2]
[0, 3] [1, 3] [2, 3]
[0, 4] [1, 4] [2, 4]
Solution
In Java 8 you can use something like this.
String[] strs = IntStream.range(0, 15) // 15 is the size
.mapToObj(i -> Integer.toString(i))
.toArray(String[]::new);
Solution
If you want to create arrays using reflections then you can do like this:
int size = 3;
int[] intArray = (int[]) Array.newInstance(int.class, size );
Solution
Declaring an array of object references:
class Animal {}
class Horse extends Animal {
public static void main(String[] args) {
/*
* Array of Animal can hold Animal and Horse (all subtypes of Animal allowed)
*/
Animal[] a1 = new Animal[10];
a1[0] = new Animal();
a1[1] = new Horse();
/*
* Array of Animal can hold Animal and Horse and all subtype of Horse
*/
Animal[] a2 = new Horse[10];
a2[0] = new Animal();
a2[1] = new Horse();
/*
* Array of Horse can hold only Horse and its subtype (if any) and not
allowed supertype of Horse nor other subtype of Animal.
*/
Horse[] h1 = new Horse[10];
h1[0] = new Animal(); // Not allowed
h1[1] = new Horse();
/*
* This can not be declared.
*/
Horse[] h2 = new Animal[10]; // Not allowed
}
}
Solution
Array is a sequential list of items
int item = value;
int [] one_dimensional_array = { value, value, value, .., value };
int [][] two_dimensional_array =
{
{ value, value, value, .. value },
{ value, value, value, .. value },
.. .. .. ..
{ value, value, value, .. value }
};
If it's an object, then it's the same concept
Object item = new Object();
Object [] one_dimensional_array = { new Object(), new Object(), .. new Object() };
Object [][] two_dimensional_array =
{
{ new Object(), new Object(), .. new Object() },
{ new Object(), new Object(), .. new Object() },
.. .. ..
{ new Object(), new Object(), .. new Object() }
};
In case of objects, you need to either assign it to null
to initialize them using new Type(..)
, classes like String
and Integer
are special cases that will be handled as following
String [] a = { "hello", "world" };
// is equivalent to
String [] a = { new String({'h','e','l','l','o'}), new String({'w','o','r','l','d'}) };
Integer [] b = { 1234, 5678 };
// is equivalent to
Integer [] b = { new Integer(1234), new Integer(5678) };
In general you can create arrays that's M
dimensional
int [][]..[] array =
// ^ M times [] brackets
{{..{
// ^ M times { bracket
// this is array[0][0]..[0]
// ^ M times [0]
}}..}
// ^ M times } bracket
;
It's worthy to note that creating an M
dimensional array is expensive in terms of Space. Since when you create an M
dimensional array with N
on all the dimensions, The total size of the array is bigger than N^M
, since each array has a reference, and at the M-dimension there is an (M-1)-dimensional array of references. The total size is as following
Space = N^M + N^(M-1) + N^(M-2) + .. + N^0
// ^ ^ array reference
// ^ actual data
Solution
If by "array" you meant using java.util.Arrays
, you can do it with:
List<String> number = Arrays.asList("1", "2", "3");
// Out: ["1", "2", "3"]
This one is pretty simple and straightforward to create a List
. (What is difference between List and Array?) Now if you really wanted an Array
you may still get one using:
String[] numberArray = Arrays.asList("1", "2", "3").toArray(new String[0]);
Solution
int[] nums1; // best practice
int []nums2;
int nums3[];
int[][] nums1; // best practice
int [][]nums2;
int[] []nums3;
int[] nums4[];
int nums5[][];
int[] nums = new int[3]; // [0, 0, 0]
Object[] objects = new Object[3]; // [null, null, null]
int[] nums1 = {1, 2, 3};
int[] nums2 = new int[]{1, 2, 3};
Object[] objects1 = {new Object(), new Object(), new Object()};
Object[] objects2 = new Object[]{new Object(), new Object(), new Object()};
for
int[] nums = new int[3];
for (int i = 0; i < nums.length; i++) {
nums[i] = i; // can contain any YOUR filling strategy
}
Object[] objects = new Object[3];
for (int i = 0; i < objects.length; i++) {
objects[i] = new Object(); // can contain any YOUR filling strategy
}
for
and Random
int[] nums = new int[10];
Random random = new Random();
for (int i = 0; i < nums.length; i++) {
nums[i] = random.nextInt(10); // random int from 0 to 9
}
Stream
(since Java 8)int[] nums1 = IntStream.range(0, 3)
.toArray(); // [0, 1, 2]
int[] nums2 = IntStream.rangeClosed(0, 3)
.toArray(); // [0, 1, 2, 3]
int[] nums3 = IntStream.of(10, 11, 12, 13)
.toArray(); // [10, 11, 12, 13]
int[] nums4 = IntStream.of(12, 11, 13, 10)
.sorted()
.toArray(); // [10, 11, 12, 13]
int[] nums5 = IntStream.iterate(0, x -> x <= 3, x -> x + 1)
.toArray(); // [0, 1, 2, 3]
int[] nums6 = IntStream.iterate(0, x -> x + 1)
.takeWhile(x -> x < 3)
.toArray(); // [0, 1, 2]
int size = 3;
Object[] objects1 = IntStream.range(0, size)
.mapToObj(i -> new Object()) // can contain any YOUR filling strategy
.toArray(Object[]::new);
Object[] objects2 = Stream.generate(() -> new Object()) // can contain any YOUR filling strategy
.limit(size)
.toArray(Object[]::new);
Random
and Stream
(since Java 8)int size = 3;
int randomNumberOrigin = -10;
int randomNumberBound = 10
int[] nums = new Random().ints(size, randomNumberOrigin, randomNumberBound).toArray();
int[][] nums = new int[3][3]; // [[0, 0, 0], [0, 0, 0], [0, 0, 0]]
Object[][] objects = new Object[3][3]; // [[null, null, null], [null, null, null], [null, null, null]]
int[][] nums1 = {
{1, 2, 3},
{4, 5, 6},
{7, 8, 9}
};
int[][] nums2 = new int[][]{
{1, 2, 3},
{4, 5, 6},
{7, 8, 9}
};
Object[][] objects1 = {
{new Object(), new Object(), new Object()},
{new Object(), new Object(), new Object()},
{new Object(), new Object(), new Object()}
};
Object[][] objects2 = new Object[][]{
{new Object(), new Object(), new Object()},
{new Object(), new Object(), new Object()},
{new Object(), new Object(), new Object()}
};
for
int[][] nums = new int[3][3];
for (int i = 0; i < nums.length; i++) {
for (int j = 0; j < nums[i].length; i++) {
nums[i][j] = i + j; // can contain any YOUR filling strategy
}
}
Object[][] objects = new Object[3][3];
for (int i = 0; i < objects.length; i++) {
for (int j = 0; j < nums[i].length; i++) {
objects[i][j] = new Object(); // can contain any YOUR filling strategy
}
}
Solution
Declare and initialize for Java 8 and later. Create a simple integer array:
int [] a1 = IntStream.range(1, 20).toArray();
System.out.println(Arrays.toString(a1));
// Output: [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19]
Create a random array for integers between [-50, 50] and for doubles [0, 1E17]:
int [] a2 = new Random().ints(15, -50, 50).toArray();
double [] a3 = new Random().doubles(5, 0, 1e17).toArray();
Power-of-two sequence:
double [] a4 = LongStream.range(0, 7).mapToDouble(i -> Math.pow(2, i)).toArray();
System.out.println(Arrays.toString(a4));
// Output: [1.0, 2.0, 4.0, 8.0, 16.0, 32.0, 64.0]
For String[] you must specify a constructor:
String [] a5 = Stream.generate(()->"I will not squeak chalk").limit(5).toArray(String[]::new);
System.out.println(Arrays.toString(a5));
Multidimensional arrays:
String [][] a6 = List.of(new String[]{"a", "b", "c"} , new String[]{"d", "e", "f", "g"})
.toArray(new String[0][]);
System.out.println(Arrays.deepToString(a6));
// Output: [[a, b, c], [d, e, f, g]]
Solution
For creating arrays of class Objects you can use the java.util.ArrayList
. to define an array:
public ArrayList<ClassName> arrayName;
arrayName = new ArrayList<ClassName>();
Assign values to the array:
arrayName.add(new ClassName(class parameters go here);
Read from the array:
ClassName variableName = arrayName.get(index);
Note:
variableName
is a reference to the array meaning that manipulating variableName
will manipulate arrayName
for loops:
//repeats for every value in the array
for (ClassName variableName : arrayName){
}
//Note that using this for loop prevents you from editing arrayName
for loop that allows you to edit arrayName
(conventional for loop):
for (int i = 0; i < arrayName.size(); i++){
//manipulate array here
}
Solution
An array has two basic types.
Static Array: Fixed size array (its size should be declared at the start and can not be changed later)
Dynamic Array: No size limit is considered for this. (Pure dynamic arrays do not exist in Java. Instead, List is most encouraged.)
To declare a static array of Integer, string, float, etc., use the below declaration and initialization statements.
int[] intArray = new int[10];
String[] intArray = new int[10];
float[] intArray = new int[10];
// Here you have 10 index starting from 0 to 9
To use dynamic features, you have to use List... List is pure dynamic Array and there is no need to declare size at beginning. Below is the proper way to declare a list in Java -
ArrayList<String> myArray = new ArrayList<String>();
myArray.add("Value 1: something");
myArray.add("Value 2: something more");
Solution
There are a lot of answers here. I am adding a few tricky ways to create arrays (from an exam point of view it's good to know this)
Declare and define an array
int intArray[] = new int[3];
This will create an array of length 3. As it holds a primitive type, int, all values are set to 0 by default. For example,
intArray[2]; // Will return 0
Using box brackets [] before the variable name
int[] intArray = new int[3];
intArray[0] = 1; // Array content is now {1, 0, 0}
Initialise and provide data to the array
int[] intArray = new int[]{1, 2, 3};
This time there isn't any need to mention the size in the box bracket. Even a simple variant of this is:
int[] intArray = {1, 2, 3, 4};
An array of length 0
int[] intArray = new int[0];
int length = intArray.length; // Will return length 0
Similar for multi-dimensional arrays
int intArray[][] = new int[2][3];
// This will create an array of length 2 and
//each element contains another array of length 3.
// { {0,0,0},{0,0,0} }
int lenght1 = intArray.length; // Will return 2
int length2 = intArray[0].length; // Will return 3
Using box brackets before the variable:
int[][] intArray = new int[2][3];
It's absolutely fine if you put one box bracket at the end:
int[] intArray [] = new int[2][4];
int[] intArray[][] = new int[2][3][4]
Some examples
int [] intArray [] = new int[][] {{1,2,3},{4,5,6}};
int [] intArray1 [] = new int[][] {new int[] {1,2,3}, new int [] {4,5,6}};
int [] intArray2 [] = new int[][] {new int[] {1,2,3},{4,5,6}}
// All the 3 arrays assignments are valid
// Array looks like {{1,2,3},{4,5,6}}
It's not mandatory that each inner element is of the same size.
int [][] intArray = new int[2][];
intArray[0] = {1,2,3};
intArray[1] = {4,5};
//array looks like {{1,2,3},{4,5}}
int[][] intArray = new int[][2] ; // This won't compile. Keep this in mind.
You have to make sure if you are using the above syntax, that the forward direction you have to specify the values in box brackets. Else it won't compile. Some examples:
int [][][] intArray = new int[1][][];
int [][][] intArray = new int[1][2][];
int [][][] intArray = new int[1][2][3];
Another important feature is covariant
Number[] numArray = {1,2,3,4}; // java.lang.Number
numArray[0] = new Float(1.5f); // java.lang.Float
numArray[1] = new Integer(1); // java.lang.Integer
// You can store a subclass object in an array that is declared
// to be of the type of its superclass.
// Here 'Number' is the superclass for both Float and Integer.
Number num[] = new Float[5]; // This is also valid
IMPORTANT: For referenced types, the default value stored in the array is null.
Solution
Another way to declare and initialize ArrayList:
private List<String> list = new ArrayList<String>(){{
add("e1");
add("e2");
}};
Solution
An array can contain primitives data types as well as objects of a class depending on the definition of the array. In case of primitives data types, the actual values are stored in contiguous memory locations. In case of objects of a class, the actual objects are stored in the heap segment.
One-Dimensional Arrays:
The general form of a one-dimensional array declaration is
type var-name[];
OR
type[] var-name;
Instantiating an Array in Java
var-name = new type [size];
For example,
int intArray[]; // Declaring an array
intArray = new int[20]; // Allocating memory to the array
// The below line is equal to line1 + line2
int[] intArray = new int[20]; // Combining both statements in one
int[] intArray = new int[]{ 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 };
// Accessing the elements of the specified array
for (int i = 0; i < intArray.length; i++)
System.out.println("Element at index " + i + ": "+ intArray[i]);
Ref: Arrays in Java
Solution
int[] x = new int[enter the size of array here];
Example:
int[] x = new int[10];
Or
int[] x = {enter the elements of array here];
Example:
int[] x = {10, 65, 40, 5, 48, 31};
Solution
With local variable type inference you only have to specify the type once:
var values = new int[] { 1, 2, 3 };
Or
int[] values = { 1, 2, 3 }
Solution
Sometimes I use this for initializing String arrays:
private static final String[] PROPS = "lastStart,storetime,tstore".split(",");
It reduces the quoting clutter at the cost of a more expensive initialization.
Solution
Declare Array: int[] arr;
Initialize Array: int[] arr = new int[10];
10 represents the number of elements allowed in the array
Declare Multidimensional Array: int[][] arr;
Initialize Multidimensional Array: int[][] arr = new int[10][17];
10 rows and 17 columns and 170 elements because 10 times 17 is 170.
Initializing an array means specifying the size of it.
Solution
One another full example with a movies class:
public class A {
public static void main(String[] args) {
class Movie {
String movieName;
String genre;
String movieType;
String year;
String ageRating;
String rating;
public Movie(String [] str)
{
this.movieName = str[0];
this.genre = str[1];
this.movieType = str[2];
this.year = str[3];
this.ageRating = str[4];
this.rating = str[5];
}
}
String [] movieDetailArr = {"Inception", "Thriller", "MovieType", "2010", "13+", "10/10"};
Movie mv = new Movie(movieDetailArr);
System.out.println("Movie Name: "+ mv.movieName);
System.out.println("Movie genre: "+ mv.genre);
System.out.println("Movie type: "+ mv.movieType);
System.out.println("Movie year: "+ mv.year);
System.out.println("Movie age : "+ mv.ageRating);
System.out.println("Movie rating: "+ mv.rating);
}
}
Solution
package com.examplehub.basics;
import java.util.Arrays;
public class Array {
public static void main(String[] args) {
int[] numbers = {1, 2, 3, 4, 5};
/*
* numbers[0] = 1
* numbers[1] = 2
* numbers[2] = 3
* numbers[3] = 4
* numbers[4] = 5
*/
System.out.println("numbers[0] = " + numbers[0]);
System.out.println("numbers[1] = " + numbers[1]);
System.out.println("numbers[2] = " + numbers[2]);
System.out.println("numbers[3] = " + numbers[3]);
System.out.println("numbers[4] = " + numbers[4]);
/*
* Array index is out of bounds
*/
//System.out.println(numbers[-1]);
//System.out.println(numbers[5]);
/*
* numbers[0] = 1
* numbers[1] = 2
* numbers[2] = 3
* numbers[3] = 4
* numbers[4] = 5
*/
for (int i = 0; i < 5; i++) {
System.out.println("numbers[" + i + "] = " + numbers[i]);
}
/*
* Length of numbers = 5
*/
System.out.println("length of numbers = " + numbers.length);
/*
* numbers[0] = 1
* numbers[1] = 2
* numbers[2] = 3
* numbers[3] = 4
* numbers[4] = 5
*/
for (int i = 0; i < numbers.length; i++) {
System.out.println("numbers[" + i + "] = " + numbers[i]);
}
/*
* numbers[4] = 5
* numbers[3] = 4
* numbers[2] = 3
* numbers[1] = 2
* numbers[0] = 1
*/
for (int i = numbers.length - 1; i >= 0; i--) {
System.out.println("numbers[" + i + "] = " + numbers[i]);
}
/*
* 12345
*/
for (int number : numbers) {
System.out.print(number);
}
System.out.println();
/*
* [1, 2, 3, 4, 5]
*/
System.out.println(Arrays.toString(numbers));
String[] company = {"Google", "Facebook", "Amazon", "Microsoft"};
/*
* company[0] = Google
* company[1] = Facebook
* company[2] = Amazon
* company[3] = Microsoft
*/
for (int i = 0; i < company.length; i++) {
System.out.println("company[" + i + "] = " + company[i]);
}
/*
* Google
* Facebook
* Amazon
* Microsoft
*/
for (String c : company) {
System.out.println(c);
}
/*
* [Google, Facebook, Amazon, Microsoft]
*/
System.out.println(Arrays.toString(company));
int[][] twoDimensionalNumbers = {
{1, 2, 3},
{4, 5, 6, 7},
{8, 9},
{10, 11, 12, 13, 14, 15}
};
/*
* total rows = 4
*/
System.out.println("total rows = " + twoDimensionalNumbers.length);
/*
* row 0 length = 3
* row 1 length = 4
* row 2 length = 2
* row 3 length = 6
*/
for (int i = 0; i < twoDimensionalNumbers.length; i++) {
System.out.println("row " + i + " length = " + twoDimensionalNumbers[i].length);
}
/*
* row 0 = 1 2 3
* row 1 = 4 5 6 7
* row 2 = 8 9
* row 3 = 10 11 12 13 14 15
*/
for (int i = 0; i < twoDimensionalNumbers.length; i++) {
System.out.print("row " + i + " = ");
for (int j = 0; j < twoDimensionalNumbers[i].length; j++) {
System.out.print(twoDimensionalNumbers[i][j] + " ");
}
System.out.println();
}
/*
* row 0 = [1, 2, 3]
* row 1 = [4, 5, 6, 7]
* row 2 = [8, 9]
* row 3 = [10, 11, 12, 13, 14, 15]
*/
for (int i = 0; i < twoDimensionalNumbers.length; i++) {
System.out.println("row " + i + " = " + Arrays.toString(twoDimensionalNumbers[i]));
}
/*
* 1 2 3
* 4 5 6 7
* 8 9
* 10 11 12 13 14 15
*/
for (int[] ints : twoDimensionalNumbers) {
for (int num : ints) {
System.out.print(num + " ");
}
System.out.println();
}
/*
* [1, 2, 3]
* [4, 5, 6, 7]
* [8, 9]
* [10, 11, 12, 13, 14, 15]
*/
for (int[] ints : twoDimensionalNumbers) {
System.out.println(Arrays.toString(ints));
}
int length = 5;
int[] array = new int[length];
for (int i = 0; i < 5; i++) {
array[i] = i + 1;
}
/*
* [1, 2, 3, 4, 5]
*/
System.out.println(Arrays.toString(array));
}
}
Solution
for initializing with default value other than 0:
var arr = new int[1000];
Arrays.fill(arr, 1);