배열은 연속적인 메모리 위치를 갖는 유사한 유형의 요소 그룹입니다. 배열은 공통 이름으로 표시되는 유사한 유형의 변수 모음입니다.
이 튜토리얼에서는 일반적으로 사용되는 언어로 배열에 값을 저장하는 방법을 간략하게 알아봅니다.
1. C 언어
모든 배열은 메모리 위치의 연속 블록입니다. 기본적으로 배열의 가장 낮은 위치에는 첫 번째 요소가 저장되고 가장 높은 위치에는 마지막 데이터가 저장됩니다. C에서는 요소의 유형과 데이터를 저장하는 데 필요한 배열의 전체 길이를 지정하여 배열을 선언합니다.
배열 선언 구문
type arrayName [ arrSize ];
배열 값 저장을 위한 초기화 구문
double balance[6] = {500.0, 52.0, 63.6, 77.80, 70.10, 80.12}; 예
#include int main () { int n[ 11 ]; /* declaring an array comprising of 11 integers */ int i,j; /* initialize elements of array n to 0 */ for ( i = 0; i <11; 100 i++ ) { n[ i ]="i" + 10; * storing or initializing the array at location with element } result of element's value for (j="0;" j < 11; j++ printf('element stored position [%d]="%d
'," j, n[j] ); return 0; pre> <p> <strong>Output</strong> </p> <pre> Element stored at position [0] = 10 Element stored at position [1] = 11 Element stored at position [2] = 12 Element stored at position [3] = 13 Element stored at position [4] = 14 Element stored at position [5] = 15 Element stored at position [6] = 16 Element stored at position [7] = 17 Element stored at position [8] = 18 Element stored at position [9] = 19 Element stored at position [10] = 20 </pre> <h3>Multidimensional Array in C</h3> <p>In C language, the elements of a 2 D (two-dimensional) array are accessed with the help of subscripts, i.e., the row index number and the column index number of the array.</p> <p> <strong>Syntax for declaring Array</strong> </p> <pre> int val = arr[x][y]; </pre> <p> <strong>Syntax for Initializing Two-Dimensional Arrays</strong> </p> <pre> int a[1][4] = { {4, 4, 2, 1} , /* initializers for row indexed by 0 */ {4, 5, 16, 10} , /* initializers for row indexed by 1 */ {8, 19, 10, 11} /* initializers for row indexed by 2 */ }; </pre> <p> <strong></strong> </p> <pre> #include int main () { /* declaring and initializing the array with 4 rows and 2 columns*/ int arr[4][2] = { {1,0}, {1,2}, {2,4}, {3,6}}; int i, j; /* output each array element's value */ for ( i = 0; i <4; i++ ) { for ( j="0;" < 2; j++ printf(' data stored in 2d array[%d][%d]="%d
'," i,j, arr[i][j] ); } return 0; pre> <p> <strong>Output</strong> </p> <pre> Data stored in 2D array[0][0] = 1 Data stored in 2D array[0][1] = 0 Data stored in 2D array[1][0] = 1 Data stored in 2D array[1][1] = 2 Data stored in 2D array[2][0] = 2 Data stored in 2D array[2][1] = 4 Data stored in 2D array[3][0] = 3 Data stored in 2D array[3][1] = 6 </pre> <h2>2. C++ Language</h2> <p>In C++ language the user needs to specify the element type and total length of array.</p> <p> <strong>Syntax to Declare Array</strong> </p> <pre> type arrName [ arrSize ]; </pre> <p> <strong>Syntax to initialize array</strong> </p> <pre> int arr[] = { 1, 2, 3, 4, 5 } </pre> <p> <strong>Example</strong> </p> <pre> #include using namespace std; int main () { // declaring an array with 4 rows. int arr[4] = {1,7,50,6}; // traversing the output for each array value for ( int i = 0; i <4; i++ ) { cout << 'array at position[' i ']: '; arr[i]<< endl; } return 0; < pre> <p> <strong>Output</strong> </p> <pre> array at position[0]: 1 array at position[1]: 7 array at position[2]: 50 array at position[3]: 6 </pre> <h3>Multidimensional Array</h3> <p>C++ language also enables the Multidimensional arrays.</p> <p> <strong>Syntax for initializing 2D array</strong> </p> <pre> int a[4][3] = { {0, 1, 2} , /* storing data in array for row indexed by 0 */ {42, 25, 62} , /* storing data in array for row indexed by 1 */ {18, 90, 15}, /* storing data in array for row indexed by 2 */ {21, 19, 25}, /* storing data in array for row indexed by 3 */ }; </pre> <p> <strong>Example</strong> </p> <pre> #include using namespace std; int main () { // declaring an array with 4 rows and 2 columns. int arr[4][2] = { {1,0}, {0,2}, {2,3}, {5,6}}; // traversing the output for each array value for ( int i = 0; i <4; i++ ) for ( int j="0;" < 2; j++ { cout << 'array at position[' i '][' ']: '; arr[i][j]<< endl; } return 0; pre> <p> <strong>Output</strong> </p> <pre> array at position[0][0]: 1 array at position[0][1]: 0 array at position[1][0]: 0 array at position[1][1]: 2 array at position[2][0]: 2 array at position[2][1]: 3 array at position[3][0]: 5 array at position[3][1]: 6 </pre> <h2>3. Java</h2> <p>In Java language, Arrays work differently than what they used to do in C or C++ language.</p> <h3>One-Dimensional Arrays:</h3> <p>To declare an array, the user needs to have two primary components: the type and the array's name.</p> <p>The 'Type' refers to the elementary type of a specific array. It determines the data type of all elements that are included in the array. It comprises the array of primitive data types, unlike integers, char, float, double, etc., or it could include the user-defined data types (objects of a class) as well. Therefore, the element type for the array concludes what kind of data the array will contain.</p> <p> <strong>Syntax</strong> </p> <pre> type arr_var_name[]; OR type[] arr_var_name; OR var-name = new type [size]; </pre> <p> <strong>Store values in one-dimensional array</strong> </p> <p>Assigning values to an element in an array is similar to assigning values to scalar variables.</p> <pre> Array [index]= initializers; arr[1]= 50 arr[2]= 20 </pre> <h4>NOTE: It the array element is not assigned any value, by default it has a Null (empty) value.</h4> <p> <strong>Example</strong> </p> <pre> //Java Program to demonstrate how to initialize, store and display //values in one-dimensional arrays. class Testarray{ public static void main(String args[]){ int arr[]=new int[5];//declaration and instantiation arr[0]=20;//initialization of the array arr[1]=40; arr[2]=60; arr[3]=80; arr[4]=100; //traversing array to print the array values for(int i=0;i <arr.length;i++) system.out.println(arr[i]); }} < pre> <p> <strong>Output</strong> </p> <pre> 20 40 60 80 100 </pre> <h3>Arrays of Objects</h3> <p>An array of objects is constructed in the same way as an array of primitive type data elements.</p> <p> <strong>Example</strong> </p> <pre> // Java program to create, store and display values for one-dimensional // array of objects class Employee { public int id_no; public String name; Employee(int id_no, String name) { this.id_no = id_no; this.name = name; } } // The Elements of the array are objects of a class Employee. public class Array_Objects_Example { public static void main (String[] args) { // declares an Array of integers. Employee[] arr; // assigning space for 5 objects of type Employee. arr = new Employee[5]; // storing the value for the first element of the array arr[0] = new Employee(111,'Varun'); // storing the value for the second elements of the array arr[1] = new Employee(121,'Sukla'); // so on... arr[2] = new Employee(131,'Virat'); arr[3] = new Employee(141,'Anuskha'); arr[4] = new Employee(151,'Mohit'); // accessing the elements of the specified array for (int i = 0; i <arr.length; i++) system.out.println('element at ' + i : arr[i].id_no +' '+ arr[i].name); } < pre> <p> <strong>Output</strong> </p> <pre> Element at 0 : 111 Varun Element at 1 : 121 Sukla Element at 2 : 131 Virat Element at 3 : 141 Anuskha Element at 4 : 151 Mohit </pre> <h3>Multidimensional Arrays</h3> <p>Multidimensional arrays are termed 'arrays of arrays' as they can hold each element of an array with the reference of another array. These are also known as Jagged Arrays. A multidimensional array is constructed by adding a set of square brackets ([]) per dimension.</p> <p> <strong>Syntax</strong> </p> <pre> int[][] intArray = new int[10][20]; //a 2D array or matrix int[][][] intArray = new int[10][20][10]; //a 3D array </pre> <p> <strong>Example to store values in a Multidimensional Array</strong> </p> <pre> arry[0][0]=10; arry[0][1]=20; arry[0][2]=30; arry[1][0]=40; arry[1][1]=50; arry[1][3]=60; arry[2][1]=70; arry[2][2]=80; arry[2][3]=90; </pre> <p> <strong>Example of Multidimensional Array</strong> </p> <pre> class multiDimensional_Example { public static void main(String args[]) { // declaring and storing data in 2-Dimensional array int arry[][] = { {12,17,19},{32,62,12},{37,34,32} }; // traversing and printing the 2-Dimensional array for (int i=0; i<3 3 ; i++) { for (int j="0;" < j++) system.out.print(arry[i][j] + ' '); system.out.println(); } pre> <p> <strong>Output</strong> </p> <pre> 12 17 19 32 62 12 37 34 32 </pre> <h2>4. PHP</h2> <p>PHP array is an ordered map (holds elements on the base of the key-value). It is utilized to hold multiple values of a similar data type in a single variable.</p> <p>PHP contains 3 kinds of array that are as follows:</p> <ol class="points"> <li>Indexed Array</li> <li>Associative Array</li> <li>Multidimensional Array</li> </ol> <h3>1. Indexed Array</h3> <p>PHP index is described by an integer number that begins with 0 (default value). The PHP array can store any data type, such as numbers, characters, strings, and objects. All PHP array data are allocated an index number by default.</p> <p> <strong>Syntax to store values</strong> </p> <pre> $Colour =array('Red', 'White', 'Black', 'Yellow'); </pre> <p> <strong>Or</strong> </p> <pre> $Colour[0]='Red '; $Colour[1]='White'; $Colour[2]='Black'; $Colour[3]='Yellow'; </pre> <p> <strong>Example</strong> </p> <pre> </pre> <p> <strong>Output</strong> </p> <pre> Colours are: Red, White, Black, Yellow </pre> <h3>2. Associative Array</h3> <p>In PHP, the user can associate any specific name with each array elements using the '=>' symbol.</p> <p> <strong>Syntax</strong> </p> <pre> $marks =array('Reema'=>'95','John'=>'45','Rahul'=>'20'); </pre> <p> <strong>Or</strong> </p> <pre> $marks['Reema ']='95'; $marks['John']='45'; $marks ['Rahul ']='20'; </pre> <p> <strong>Example</strong> </p> <pre> <?php $marks['Reema ']='95'; $marks['John']='45'; $marks ['Rahul ']='20'; echo 'Reema's Marks: '.$marks ['Reema '].' <br/>'; echo ' John's Marks: '.$marks['John'].' <br>'; echo ' Rahul's Marks: '.$marks ['Rahul '].' <br>'; ?> </pre> <p> <strong>Output</strong> </p> <pre> Reema's Marks: 95 John's Marks: 45 Rahul's Marks: 20 </pre> <h3>3. Multidimensional Array</h3> <p>Multidimensional arrays in PHP are also termed as 'array of arrays'. It enabled the user to store array data in a tabular format. PHP multidimensional array can be expressed in the form of a matrix which is denoted by row * column.</p> <p> <strong>Syntax</strong> </p> <pre> $emp = array ( array (1,'Reema',95), array(2,'john',45), array(3,'rahul',20) ); </pre> <p> <strong>Example</strong> </p> <pre> <?php $emp = array ( array (1,'Reema',95), array(2,'john',45), array(3,'rahul',20) ); for ($row = 0; $row < 3; $row++) { for ($col = 0; $col < 3; $col++) { echo $emp[$row][$col].' '; } echo ' <br/>'; } ?> </pre> <p> <strong>Output</strong> </p> <pre> 1 Reema 95 2 john 45 3 rahul 20 </pre> <h2>5. Python</h2> <p>Python uses a module named 'Array' to handle all the functions of Arrays in Python. It is helpful when the user wants to manipulate only particular data values. Given below are the keywords that are important to learn the concept of an array in Python:</p> <ul> <li>Element - Any data stored in an array is known an element.</li> <li>Index - Whenever an array stores any data, it has some numerical location known as index that is beneficial to identify the location of the element.</li> </ul> <p> <strong>Syntax</strong> </p> <pre> from array import * arrayName = array(typecode, [data_to_be_initialized]) </pre> <p> <strong>Example</strong> </p> <pre> import array as arry n = arry.array('i', [20, 40, 60, 80]) print('First array value:', n[0]) print('Second array value:', n[1]) print('Second last array value:', n[-1]) </pre> <p> <strong>Output</strong> </p> <pre> First array value: 20 Second array value: 40 Second last array value: 80 </pre> <hr></3></pre></arr.length;></pre></arr.length;i++)></pre></4;></pre></4;></pre></4;></pre></11;> C의 다차원 배열
C 언어에서 2D(2차원) 배열의 요소는 아래 첨자를 사용하여 액세스됩니다. 즉, 배열의 행 인덱스 번호와 열 인덱스 번호입니다.
배열 선언 구문
int val = arr[x][y];
2차원 배열 초기화 구문
int a[1][4] = { {4, 4, 2, 1} , /* initializers for row indexed by 0 */ {4, 5, 16, 10} , /* initializers for row indexed by 1 */ {8, 19, 10, 11} /* initializers for row indexed by 2 */ };
#include int main () { /* declaring and initializing the array with 4 rows and 2 columns*/ int arr[4][2] = { {1,0}, {1,2}, {2,4}, {3,6}}; int i, j; /* output each array element's value */ for ( i = 0; i <4; i++ ) { for ( j="0;" < 2; j++ printf(\' data stored in 2d array[%d][%d]="%d
'," i,j, arr[i][j] ); } return 0; pre> <p> <strong>Output</strong> </p> <pre> Data stored in 2D array[0][0] = 1 Data stored in 2D array[0][1] = 0 Data stored in 2D array[1][0] = 1 Data stored in 2D array[1][1] = 2 Data stored in 2D array[2][0] = 2 Data stored in 2D array[2][1] = 4 Data stored in 2D array[3][0] = 3 Data stored in 2D array[3][1] = 6 </pre> <h2>2. C++ Language</h2> <p>In C++ language the user needs to specify the element type and total length of array.</p> <p> <strong>Syntax to Declare Array</strong> </p> <pre> type arrName [ arrSize ]; </pre> <p> <strong>Syntax to initialize array</strong> </p> <pre> int arr[] = { 1, 2, 3, 4, 5 } </pre> <p> <strong>Example</strong> </p> <pre> #include using namespace std; int main () { // declaring an array with 4 rows. int arr[4] = {1,7,50,6}; // traversing the output for each array value for ( int i = 0; i <4; i++ ) { cout << \'array at position[\' i \']: \'; arr[i]<< endl; } return 0; < pre> <p> <strong>Output</strong> </p> <pre> array at position[0]: 1 array at position[1]: 7 array at position[2]: 50 array at position[3]: 6 </pre> <h3>Multidimensional Array</h3> <p>C++ language also enables the Multidimensional arrays.</p> <p> <strong>Syntax for initializing 2D array</strong> </p> <pre> int a[4][3] = { {0, 1, 2} , /* storing data in array for row indexed by 0 */ {42, 25, 62} , /* storing data in array for row indexed by 1 */ {18, 90, 15}, /* storing data in array for row indexed by 2 */ {21, 19, 25}, /* storing data in array for row indexed by 3 */ }; </pre> <p> <strong>Example</strong> </p> <pre> #include using namespace std; int main () { // declaring an array with 4 rows and 2 columns. int arr[4][2] = { {1,0}, {0,2}, {2,3}, {5,6}}; // traversing the output for each array value for ( int i = 0; i <4; i++ ) for ( int j="0;" < 2; j++ { cout << \'array at position[\' i \'][\' \']: \'; arr[i][j]<< endl; } return 0; pre> <p> <strong>Output</strong> </p> <pre> array at position[0][0]: 1 array at position[0][1]: 0 array at position[1][0]: 0 array at position[1][1]: 2 array at position[2][0]: 2 array at position[2][1]: 3 array at position[3][0]: 5 array at position[3][1]: 6 </pre> <h2>3. Java</h2> <p>In Java language, Arrays work differently than what they used to do in C or C++ language.</p> <h3>One-Dimensional Arrays:</h3> <p>To declare an array, the user needs to have two primary components: the type and the array's name.</p> <p>The 'Type' refers to the elementary type of a specific array. It determines the data type of all elements that are included in the array. It comprises the array of primitive data types, unlike integers, char, float, double, etc., or it could include the user-defined data types (objects of a class) as well. Therefore, the element type for the array concludes what kind of data the array will contain.</p> <p> <strong>Syntax</strong> </p> <pre> type arr_var_name[]; OR type[] arr_var_name; OR var-name = new type [size]; </pre> <p> <strong>Store values in one-dimensional array</strong> </p> <p>Assigning values to an element in an array is similar to assigning values to scalar variables.</p> <pre> Array [index]= initializers; arr[1]= 50 arr[2]= 20 </pre> <h4>NOTE: It the array element is not assigned any value, by default it has a Null (empty) value.</h4> <p> <strong>Example</strong> </p> <pre> //Java Program to demonstrate how to initialize, store and display //values in one-dimensional arrays. class Testarray{ public static void main(String args[]){ int arr[]=new int[5];//declaration and instantiation arr[0]=20;//initialization of the array arr[1]=40; arr[2]=60; arr[3]=80; arr[4]=100; //traversing array to print the array values for(int i=0;i <arr.length;i++) system.out.println(arr[i]); }} < pre> <p> <strong>Output</strong> </p> <pre> 20 40 60 80 100 </pre> <h3>Arrays of Objects</h3> <p>An array of objects is constructed in the same way as an array of primitive type data elements.</p> <p> <strong>Example</strong> </p> <pre> // Java program to create, store and display values for one-dimensional // array of objects class Employee { public int id_no; public String name; Employee(int id_no, String name) { this.id_no = id_no; this.name = name; } } // The Elements of the array are objects of a class Employee. public class Array_Objects_Example { public static void main (String[] args) { // declares an Array of integers. Employee[] arr; // assigning space for 5 objects of type Employee. arr = new Employee[5]; // storing the value for the first element of the array arr[0] = new Employee(111,'Varun'); // storing the value for the second elements of the array arr[1] = new Employee(121,'Sukla'); // so on... arr[2] = new Employee(131,'Virat'); arr[3] = new Employee(141,'Anuskha'); arr[4] = new Employee(151,'Mohit'); // accessing the elements of the specified array for (int i = 0; i <arr.length; i++) system.out.println(\'element at \' + i : arr[i].id_no +\' \'+ arr[i].name); } < pre> <p> <strong>Output</strong> </p> <pre> Element at 0 : 111 Varun Element at 1 : 121 Sukla Element at 2 : 131 Virat Element at 3 : 141 Anuskha Element at 4 : 151 Mohit </pre> <h3>Multidimensional Arrays</h3> <p>Multidimensional arrays are termed 'arrays of arrays' as they can hold each element of an array with the reference of another array. These are also known as Jagged Arrays. A multidimensional array is constructed by adding a set of square brackets ([]) per dimension.</p> <p> <strong>Syntax</strong> </p> <pre> int[][] intArray = new int[10][20]; //a 2D array or matrix int[][][] intArray = new int[10][20][10]; //a 3D array </pre> <p> <strong>Example to store values in a Multidimensional Array</strong> </p> <pre> arry[0][0]=10; arry[0][1]=20; arry[0][2]=30; arry[1][0]=40; arry[1][1]=50; arry[1][3]=60; arry[2][1]=70; arry[2][2]=80; arry[2][3]=90; </pre> <p> <strong>Example of Multidimensional Array</strong> </p> <pre> class multiDimensional_Example { public static void main(String args[]) { // declaring and storing data in 2-Dimensional array int arry[][] = { {12,17,19},{32,62,12},{37,34,32} }; // traversing and printing the 2-Dimensional array for (int i=0; i<3 3 ; i++) { for (int j="0;" < j++) system.out.print(arry[i][j] + \' \'); system.out.println(); } pre> <p> <strong>Output</strong> </p> <pre> 12 17 19 32 62 12 37 34 32 </pre> <h2>4. PHP</h2> <p>PHP array is an ordered map (holds elements on the base of the key-value). It is utilized to hold multiple values of a similar data type in a single variable.</p> <p>PHP contains 3 kinds of array that are as follows:</p> <ol class="points"> <li>Indexed Array</li> <li>Associative Array</li> <li>Multidimensional Array</li> </ol> <h3>1. Indexed Array</h3> <p>PHP index is described by an integer number that begins with 0 (default value). The PHP array can store any data type, such as numbers, characters, strings, and objects. All PHP array data are allocated an index number by default.</p> <p> <strong>Syntax to store values</strong> </p> <pre> $Colour =array('Red', 'White', 'Black', 'Yellow'); </pre> <p> <strong>Or</strong> </p> <pre> $Colour[0]='Red '; $Colour[1]='White'; $Colour[2]='Black'; $Colour[3]='Yellow'; </pre> <p> <strong>Example</strong> </p> <pre> </pre> <p> <strong>Output</strong> </p> <pre> Colours are: Red, White, Black, Yellow </pre> <h3>2. Associative Array</h3> <p>In PHP, the user can associate any specific name with each array elements using the '=>' symbol.</p> <p> <strong>Syntax</strong> </p> <pre> $marks =array('Reema'=>'95','John'=>'45','Rahul'=>'20'); </pre> <p> <strong>Or</strong> </p> <pre> $marks['Reema ']='95'; $marks['John']='45'; $marks ['Rahul ']='20'; </pre> <p> <strong>Example</strong> </p> <pre> <?php $marks[\'Reema \']=\'95\'; $marks[\'John\']=\'45\'; $marks [\'Rahul \']=\'20\'; echo \'Reema\'s Marks: \'.$marks [\'Reema \'].\' <br/>'; echo ' John's Marks: '.$marks['John'].' <br>'; echo ' Rahul's Marks: '.$marks ['Rahul '].' <br>'; ?> </pre> <p> <strong>Output</strong> </p> <pre> Reema's Marks: 95 John's Marks: 45 Rahul's Marks: 20 </pre> <h3>3. Multidimensional Array</h3> <p>Multidimensional arrays in PHP are also termed as 'array of arrays'. It enabled the user to store array data in a tabular format. PHP multidimensional array can be expressed in the form of a matrix which is denoted by row * column.</p> <p> <strong>Syntax</strong> </p> <pre> $emp = array ( array (1,'Reema',95), array(2,'john',45), array(3,'rahul',20) ); </pre> <p> <strong>Example</strong> </p> <pre> <?php $emp = array ( array (1,\'Reema\',95), array(2,\'john\',45), array(3,\'rahul\',20) ); for ($row = 0; $row < 3; $row++) { for ($col = 0; $col < 3; $col++) { echo $emp[$row][$col].\' \'; } echo \' <br/>'; } ?> </pre> <p> <strong>Output</strong> </p> <pre> 1 Reema 95 2 john 45 3 rahul 20 </pre> <h2>5. Python</h2> <p>Python uses a module named 'Array' to handle all the functions of Arrays in Python. It is helpful when the user wants to manipulate only particular data values. Given below are the keywords that are important to learn the concept of an array in Python:</p> <ul> <li>Element - Any data stored in an array is known an element.</li> <li>Index - Whenever an array stores any data, it has some numerical location known as index that is beneficial to identify the location of the element.</li> </ul> <p> <strong>Syntax</strong> </p> <pre> from array import * arrayName = array(typecode, [data_to_be_initialized]) </pre> <p> <strong>Example</strong> </p> <pre> import array as arry n = arry.array('i', [20, 40, 60, 80]) print('First array value:', n[0]) print('Second array value:', n[1]) print('Second last array value:', n[-1]) </pre> <p> <strong>Output</strong> </p> <pre> First array value: 20 Second array value: 40 Second last array value: 80 </pre> <hr></3></pre></arr.length;></pre></arr.length;i++)></pre></4;></pre></4;></pre></4;> 2. C++ 언어
C++ 언어에서는 사용자가 요소 유형과 배열의 전체 길이를 지정해야 합니다.
배열 선언 구문
type arrName [ arrSize ];
배열을 초기화하는 구문
int arr[] = { 1, 2, 3, 4, 5 } 예
#include using namespace std; int main () { // declaring an array with 4 rows. int arr[4] = {1,7,50,6}; // traversing the output for each array value for ( int i = 0; i <4; i++ ) { cout << \'array at position[\' i \']: \'; arr[i]<< endl; } return 0; < pre> <p> <strong>Output</strong> </p> <pre> array at position[0]: 1 array at position[1]: 7 array at position[2]: 50 array at position[3]: 6 </pre> <h3>Multidimensional Array</h3> <p>C++ language also enables the Multidimensional arrays.</p> <p> <strong>Syntax for initializing 2D array</strong> </p> <pre> int a[4][3] = { {0, 1, 2} , /* storing data in array for row indexed by 0 */ {42, 25, 62} , /* storing data in array for row indexed by 1 */ {18, 90, 15}, /* storing data in array for row indexed by 2 */ {21, 19, 25}, /* storing data in array for row indexed by 3 */ }; </pre> <p> <strong>Example</strong> </p> <pre> #include using namespace std; int main () { // declaring an array with 4 rows and 2 columns. int arr[4][2] = { {1,0}, {0,2}, {2,3}, {5,6}}; // traversing the output for each array value for ( int i = 0; i <4; i++ ) for ( int j="0;" < 2; j++ { cout << \'array at position[\' i \'][\' \']: \'; arr[i][j]<< endl; } return 0; pre> <p> <strong>Output</strong> </p> <pre> array at position[0][0]: 1 array at position[0][1]: 0 array at position[1][0]: 0 array at position[1][1]: 2 array at position[2][0]: 2 array at position[2][1]: 3 array at position[3][0]: 5 array at position[3][1]: 6 </pre> <h2>3. Java</h2> <p>In Java language, Arrays work differently than what they used to do in C or C++ language.</p> <h3>One-Dimensional Arrays:</h3> <p>To declare an array, the user needs to have two primary components: the type and the array's name.</p> <p>The 'Type' refers to the elementary type of a specific array. It determines the data type of all elements that are included in the array. It comprises the array of primitive data types, unlike integers, char, float, double, etc., or it could include the user-defined data types (objects of a class) as well. Therefore, the element type for the array concludes what kind of data the array will contain.</p> <p> <strong>Syntax</strong> </p> <pre> type arr_var_name[]; OR type[] arr_var_name; OR var-name = new type [size]; </pre> <p> <strong>Store values in one-dimensional array</strong> </p> <p>Assigning values to an element in an array is similar to assigning values to scalar variables.</p> <pre> Array [index]= initializers; arr[1]= 50 arr[2]= 20 </pre> <h4>NOTE: It the array element is not assigned any value, by default it has a Null (empty) value.</h4> <p> <strong>Example</strong> </p> <pre> //Java Program to demonstrate how to initialize, store and display //values in one-dimensional arrays. class Testarray{ public static void main(String args[]){ int arr[]=new int[5];//declaration and instantiation arr[0]=20;//initialization of the array arr[1]=40; arr[2]=60; arr[3]=80; arr[4]=100; //traversing array to print the array values for(int i=0;i <arr.length;i++) system.out.println(arr[i]); }} < pre> <p> <strong>Output</strong> </p> <pre> 20 40 60 80 100 </pre> <h3>Arrays of Objects</h3> <p>An array of objects is constructed in the same way as an array of primitive type data elements.</p> <p> <strong>Example</strong> </p> <pre> // Java program to create, store and display values for one-dimensional // array of objects class Employee { public int id_no; public String name; Employee(int id_no, String name) { this.id_no = id_no; this.name = name; } } // The Elements of the array are objects of a class Employee. public class Array_Objects_Example { public static void main (String[] args) { // declares an Array of integers. Employee[] arr; // assigning space for 5 objects of type Employee. arr = new Employee[5]; // storing the value for the first element of the array arr[0] = new Employee(111,'Varun'); // storing the value for the second elements of the array arr[1] = new Employee(121,'Sukla'); // so on... arr[2] = new Employee(131,'Virat'); arr[3] = new Employee(141,'Anuskha'); arr[4] = new Employee(151,'Mohit'); // accessing the elements of the specified array for (int i = 0; i <arr.length; i++) system.out.println(\'element at \' + i : arr[i].id_no +\' \'+ arr[i].name); } < pre> <p> <strong>Output</strong> </p> <pre> Element at 0 : 111 Varun Element at 1 : 121 Sukla Element at 2 : 131 Virat Element at 3 : 141 Anuskha Element at 4 : 151 Mohit </pre> <h3>Multidimensional Arrays</h3> <p>Multidimensional arrays are termed 'arrays of arrays' as they can hold each element of an array with the reference of another array. These are also known as Jagged Arrays. A multidimensional array is constructed by adding a set of square brackets ([]) per dimension.</p> <p> <strong>Syntax</strong> </p> <pre> int[][] intArray = new int[10][20]; //a 2D array or matrix int[][][] intArray = new int[10][20][10]; //a 3D array </pre> <p> <strong>Example to store values in a Multidimensional Array</strong> </p> <pre> arry[0][0]=10; arry[0][1]=20; arry[0][2]=30; arry[1][0]=40; arry[1][1]=50; arry[1][3]=60; arry[2][1]=70; arry[2][2]=80; arry[2][3]=90; </pre> <p> <strong>Example of Multidimensional Array</strong> </p> <pre> class multiDimensional_Example { public static void main(String args[]) { // declaring and storing data in 2-Dimensional array int arry[][] = { {12,17,19},{32,62,12},{37,34,32} }; // traversing and printing the 2-Dimensional array for (int i=0; i<3 3 ; i++) { for (int j="0;" < j++) system.out.print(arry[i][j] + \' \'); system.out.println(); } pre> <p> <strong>Output</strong> </p> <pre> 12 17 19 32 62 12 37 34 32 </pre> <h2>4. PHP</h2> <p>PHP array is an ordered map (holds elements on the base of the key-value). It is utilized to hold multiple values of a similar data type in a single variable.</p> <p>PHP contains 3 kinds of array that are as follows:</p> <ol class="points"> <li>Indexed Array</li> <li>Associative Array</li> <li>Multidimensional Array</li> </ol> <h3>1. Indexed Array</h3> <p>PHP index is described by an integer number that begins with 0 (default value). The PHP array can store any data type, such as numbers, characters, strings, and objects. All PHP array data are allocated an index number by default.</p> <p> <strong>Syntax to store values</strong> </p> <pre> $Colour =array('Red', 'White', 'Black', 'Yellow'); </pre> <p> <strong>Or</strong> </p> <pre> $Colour[0]='Red '; $Colour[1]='White'; $Colour[2]='Black'; $Colour[3]='Yellow'; </pre> <p> <strong>Example</strong> </p> <pre> </pre> <p> <strong>Output</strong> </p> <pre> Colours are: Red, White, Black, Yellow </pre> <h3>2. Associative Array</h3> <p>In PHP, the user can associate any specific name with each array elements using the '=>' symbol.</p> <p> <strong>Syntax</strong> </p> <pre> $marks =array('Reema'=>'95','John'=>'45','Rahul'=>'20'); </pre> <p> <strong>Or</strong> </p> <pre> $marks['Reema ']='95'; $marks['John']='45'; $marks ['Rahul ']='20'; </pre> <p> <strong>Example</strong> </p> <pre> <?php $marks[\'Reema \']=\'95\'; $marks[\'John\']=\'45\'; $marks [\'Rahul \']=\'20\'; echo \'Reema\'s Marks: \'.$marks [\'Reema \'].\' <br/>'; echo ' John's Marks: '.$marks['John'].' <br>'; echo ' Rahul's Marks: '.$marks ['Rahul '].' <br>'; ?> </pre> <p> <strong>Output</strong> </p> <pre> Reema's Marks: 95 John's Marks: 45 Rahul's Marks: 20 </pre> <h3>3. Multidimensional Array</h3> <p>Multidimensional arrays in PHP are also termed as 'array of arrays'. It enabled the user to store array data in a tabular format. PHP multidimensional array can be expressed in the form of a matrix which is denoted by row * column.</p> <p> <strong>Syntax</strong> </p> <pre> $emp = array ( array (1,'Reema',95), array(2,'john',45), array(3,'rahul',20) ); </pre> <p> <strong>Example</strong> </p> <pre> <?php $emp = array ( array (1,\'Reema\',95), array(2,\'john\',45), array(3,\'rahul\',20) ); for ($row = 0; $row < 3; $row++) { for ($col = 0; $col < 3; $col++) { echo $emp[$row][$col].\' \'; } echo \' <br/>'; } ?> </pre> <p> <strong>Output</strong> </p> <pre> 1 Reema 95 2 john 45 3 rahul 20 </pre> <h2>5. Python</h2> <p>Python uses a module named 'Array' to handle all the functions of Arrays in Python. It is helpful when the user wants to manipulate only particular data values. Given below are the keywords that are important to learn the concept of an array in Python:</p> <ul> <li>Element - Any data stored in an array is known an element.</li> <li>Index - Whenever an array stores any data, it has some numerical location known as index that is beneficial to identify the location of the element.</li> </ul> <p> <strong>Syntax</strong> </p> <pre> from array import * arrayName = array(typecode, [data_to_be_initialized]) </pre> <p> <strong>Example</strong> </p> <pre> import array as arry n = arry.array('i', [20, 40, 60, 80]) print('First array value:', n[0]) print('Second array value:', n[1]) print('Second last array value:', n[-1]) </pre> <p> <strong>Output</strong> </p> <pre> First array value: 20 Second array value: 40 Second last array value: 80 </pre> <hr></3></pre></arr.length;></pre></arr.length;i++)></pre></4;></pre></4;> 다차원 배열
C++ 언어에서는 다차원 배열도 가능합니다.
2D 배열 초기화 구문
int a[4][3] = { {0, 1, 2} , /* storing data in array for row indexed by 0 */ {42, 25, 62} , /* storing data in array for row indexed by 1 */ {18, 90, 15}, /* storing data in array for row indexed by 2 */ {21, 19, 25}, /* storing data in array for row indexed by 3 */ }; 예
부울을 문자열로
#include using namespace std; int main () { // declaring an array with 4 rows and 2 columns. int arr[4][2] = { {1,0}, {0,2}, {2,3}, {5,6}}; // traversing the output for each array value for ( int i = 0; i <4; i++ ) for ( int j="0;" < 2; j++ { cout << \'array at position[\' i \'][\' \']: \'; arr[i][j]<< endl; } return 0; pre> <p> <strong>Output</strong> </p> <pre> array at position[0][0]: 1 array at position[0][1]: 0 array at position[1][0]: 0 array at position[1][1]: 2 array at position[2][0]: 2 array at position[2][1]: 3 array at position[3][0]: 5 array at position[3][1]: 6 </pre> <h2>3. Java</h2> <p>In Java language, Arrays work differently than what they used to do in C or C++ language.</p> <h3>One-Dimensional Arrays:</h3> <p>To declare an array, the user needs to have two primary components: the type and the array's name.</p> <p>The 'Type' refers to the elementary type of a specific array. It determines the data type of all elements that are included in the array. It comprises the array of primitive data types, unlike integers, char, float, double, etc., or it could include the user-defined data types (objects of a class) as well. Therefore, the element type for the array concludes what kind of data the array will contain.</p> <p> <strong>Syntax</strong> </p> <pre> type arr_var_name[]; OR type[] arr_var_name; OR var-name = new type [size]; </pre> <p> <strong>Store values in one-dimensional array</strong> </p> <p>Assigning values to an element in an array is similar to assigning values to scalar variables.</p> <pre> Array [index]= initializers; arr[1]= 50 arr[2]= 20 </pre> <h4>NOTE: It the array element is not assigned any value, by default it has a Null (empty) value.</h4> <p> <strong>Example</strong> </p> <pre> //Java Program to demonstrate how to initialize, store and display //values in one-dimensional arrays. class Testarray{ public static void main(String args[]){ int arr[]=new int[5];//declaration and instantiation arr[0]=20;//initialization of the array arr[1]=40; arr[2]=60; arr[3]=80; arr[4]=100; //traversing array to print the array values for(int i=0;i <arr.length;i++) system.out.println(arr[i]); }} < pre> <p> <strong>Output</strong> </p> <pre> 20 40 60 80 100 </pre> <h3>Arrays of Objects</h3> <p>An array of objects is constructed in the same way as an array of primitive type data elements.</p> <p> <strong>Example</strong> </p> <pre> // Java program to create, store and display values for one-dimensional // array of objects class Employee { public int id_no; public String name; Employee(int id_no, String name) { this.id_no = id_no; this.name = name; } } // The Elements of the array are objects of a class Employee. public class Array_Objects_Example { public static void main (String[] args) { // declares an Array of integers. Employee[] arr; // assigning space for 5 objects of type Employee. arr = new Employee[5]; // storing the value for the first element of the array arr[0] = new Employee(111,'Varun'); // storing the value for the second elements of the array arr[1] = new Employee(121,'Sukla'); // so on... arr[2] = new Employee(131,'Virat'); arr[3] = new Employee(141,'Anuskha'); arr[4] = new Employee(151,'Mohit'); // accessing the elements of the specified array for (int i = 0; i <arr.length; i++) system.out.println(\'element at \' + i : arr[i].id_no +\' \'+ arr[i].name); } < pre> <p> <strong>Output</strong> </p> <pre> Element at 0 : 111 Varun Element at 1 : 121 Sukla Element at 2 : 131 Virat Element at 3 : 141 Anuskha Element at 4 : 151 Mohit </pre> <h3>Multidimensional Arrays</h3> <p>Multidimensional arrays are termed 'arrays of arrays' as they can hold each element of an array with the reference of another array. These are also known as Jagged Arrays. A multidimensional array is constructed by adding a set of square brackets ([]) per dimension.</p> <p> <strong>Syntax</strong> </p> <pre> int[][] intArray = new int[10][20]; //a 2D array or matrix int[][][] intArray = new int[10][20][10]; //a 3D array </pre> <p> <strong>Example to store values in a Multidimensional Array</strong> </p> <pre> arry[0][0]=10; arry[0][1]=20; arry[0][2]=30; arry[1][0]=40; arry[1][1]=50; arry[1][3]=60; arry[2][1]=70; arry[2][2]=80; arry[2][3]=90; </pre> <p> <strong>Example of Multidimensional Array</strong> </p> <pre> class multiDimensional_Example { public static void main(String args[]) { // declaring and storing data in 2-Dimensional array int arry[][] = { {12,17,19},{32,62,12},{37,34,32} }; // traversing and printing the 2-Dimensional array for (int i=0; i<3 3 ; i++) { for (int j="0;" < j++) system.out.print(arry[i][j] + \' \'); system.out.println(); } pre> <p> <strong>Output</strong> </p> <pre> 12 17 19 32 62 12 37 34 32 </pre> <h2>4. PHP</h2> <p>PHP array is an ordered map (holds elements on the base of the key-value). It is utilized to hold multiple values of a similar data type in a single variable.</p> <p>PHP contains 3 kinds of array that are as follows:</p> <ol class="points"> <li>Indexed Array</li> <li>Associative Array</li> <li>Multidimensional Array</li> </ol> <h3>1. Indexed Array</h3> <p>PHP index is described by an integer number that begins with 0 (default value). The PHP array can store any data type, such as numbers, characters, strings, and objects. All PHP array data are allocated an index number by default.</p> <p> <strong>Syntax to store values</strong> </p> <pre> $Colour =array('Red', 'White', 'Black', 'Yellow'); </pre> <p> <strong>Or</strong> </p> <pre> $Colour[0]='Red '; $Colour[1]='White'; $Colour[2]='Black'; $Colour[3]='Yellow'; </pre> <p> <strong>Example</strong> </p> <pre> </pre> <p> <strong>Output</strong> </p> <pre> Colours are: Red, White, Black, Yellow </pre> <h3>2. Associative Array</h3> <p>In PHP, the user can associate any specific name with each array elements using the '=>' symbol.</p> <p> <strong>Syntax</strong> </p> <pre> $marks =array('Reema'=>'95','John'=>'45','Rahul'=>'20'); </pre> <p> <strong>Or</strong> </p> <pre> $marks['Reema ']='95'; $marks['John']='45'; $marks ['Rahul ']='20'; </pre> <p> <strong>Example</strong> </p> <pre> <?php $marks[\'Reema \']=\'95\'; $marks[\'John\']=\'45\'; $marks [\'Rahul \']=\'20\'; echo \'Reema\'s Marks: \'.$marks [\'Reema \'].\' <br/>'; echo ' John's Marks: '.$marks['John'].' <br>'; echo ' Rahul's Marks: '.$marks ['Rahul '].' <br>'; ?> </pre> <p> <strong>Output</strong> </p> <pre> Reema's Marks: 95 John's Marks: 45 Rahul's Marks: 20 </pre> <h3>3. Multidimensional Array</h3> <p>Multidimensional arrays in PHP are also termed as 'array of arrays'. It enabled the user to store array data in a tabular format. PHP multidimensional array can be expressed in the form of a matrix which is denoted by row * column.</p> <p> <strong>Syntax</strong> </p> <pre> $emp = array ( array (1,'Reema',95), array(2,'john',45), array(3,'rahul',20) ); </pre> <p> <strong>Example</strong> </p> <pre> <?php $emp = array ( array (1,\'Reema\',95), array(2,\'john\',45), array(3,\'rahul\',20) ); for ($row = 0; $row < 3; $row++) { for ($col = 0; $col < 3; $col++) { echo $emp[$row][$col].\' \'; } echo \' <br/>'; } ?> </pre> <p> <strong>Output</strong> </p> <pre> 1 Reema 95 2 john 45 3 rahul 20 </pre> <h2>5. Python</h2> <p>Python uses a module named 'Array' to handle all the functions of Arrays in Python. It is helpful when the user wants to manipulate only particular data values. Given below are the keywords that are important to learn the concept of an array in Python:</p> <ul> <li>Element - Any data stored in an array is known an element.</li> <li>Index - Whenever an array stores any data, it has some numerical location known as index that is beneficial to identify the location of the element.</li> </ul> <p> <strong>Syntax</strong> </p> <pre> from array import * arrayName = array(typecode, [data_to_be_initialized]) </pre> <p> <strong>Example</strong> </p> <pre> import array as arry n = arry.array('i', [20, 40, 60, 80]) print('First array value:', n[0]) print('Second array value:', n[1]) print('Second last array value:', n[-1]) </pre> <p> <strong>Output</strong> </p> <pre> First array value: 20 Second array value: 40 Second last array value: 80 </pre> <hr></3></pre></arr.length;></pre></arr.length;i++)></pre></4;> 3. 자바
Java 언어에서 배열은 C 또는 C++ 언어에서 수행했던 것과 다르게 작동합니다.
1차원 배열:
배열을 선언하려면 사용자에게 유형과 배열 이름이라는 두 가지 기본 구성 요소가 있어야 합니다.
'유형'은 특정 배열의 기본 유형을 나타냅니다. 배열에 포함된 모든 요소의 데이터 유형을 결정합니다. 이는 정수, char, float, double 등과 달리 기본 데이터 유형의 배열로 구성되거나 사용자 정의 데이터 유형(클래스의 객체)도 포함할 수 있습니다. 따라서 배열의 요소 유형에 따라 배열에 포함될 데이터 종류가 결정됩니다.
통사론
type arr_var_name[]; OR type[] arr_var_name; OR var-name = new type [size];
1차원 배열에 값 저장
배열의 요소에 값을 할당하는 것은 스칼라 변수에 값을 할당하는 것과 비슷합니다.
Array [index]= initializers; arr[1]= 50 arr[2]= 20
참고: 배열 요소에는 값이 할당되지 않으며 기본적으로 Null(비어 있음) 값이 있습니다.
예
//Java Program to demonstrate how to initialize, store and display //values in one-dimensional arrays. class Testarray{ public static void main(String args[]){ int arr[]=new int[5];//declaration and instantiation arr[0]=20;//initialization of the array arr[1]=40; arr[2]=60; arr[3]=80; arr[4]=100; //traversing array to print the array values for(int i=0;i <arr.length;i++) system.out.println(arr[i]); }} < pre> <p> <strong>Output</strong> </p> <pre> 20 40 60 80 100 </pre> <h3>Arrays of Objects</h3> <p>An array of objects is constructed in the same way as an array of primitive type data elements.</p> <p> <strong>Example</strong> </p> <pre> // Java program to create, store and display values for one-dimensional // array of objects class Employee { public int id_no; public String name; Employee(int id_no, String name) { this.id_no = id_no; this.name = name; } } // The Elements of the array are objects of a class Employee. public class Array_Objects_Example { public static void main (String[] args) { // declares an Array of integers. Employee[] arr; // assigning space for 5 objects of type Employee. arr = new Employee[5]; // storing the value for the first element of the array arr[0] = new Employee(111,'Varun'); // storing the value for the second elements of the array arr[1] = new Employee(121,'Sukla'); // so on... arr[2] = new Employee(131,'Virat'); arr[3] = new Employee(141,'Anuskha'); arr[4] = new Employee(151,'Mohit'); // accessing the elements of the specified array for (int i = 0; i <arr.length; i++) system.out.println(\'element at \' + i : arr[i].id_no +\' \'+ arr[i].name); } < pre> <p> <strong>Output</strong> </p> <pre> Element at 0 : 111 Varun Element at 1 : 121 Sukla Element at 2 : 131 Virat Element at 3 : 141 Anuskha Element at 4 : 151 Mohit </pre> <h3>Multidimensional Arrays</h3> <p>Multidimensional arrays are termed 'arrays of arrays' as they can hold each element of an array with the reference of another array. These are also known as Jagged Arrays. A multidimensional array is constructed by adding a set of square brackets ([]) per dimension.</p> <p> <strong>Syntax</strong> </p> <pre> int[][] intArray = new int[10][20]; //a 2D array or matrix int[][][] intArray = new int[10][20][10]; //a 3D array </pre> <p> <strong>Example to store values in a Multidimensional Array</strong> </p> <pre> arry[0][0]=10; arry[0][1]=20; arry[0][2]=30; arry[1][0]=40; arry[1][1]=50; arry[1][3]=60; arry[2][1]=70; arry[2][2]=80; arry[2][3]=90; </pre> <p> <strong>Example of Multidimensional Array</strong> </p> <pre> class multiDimensional_Example { public static void main(String args[]) { // declaring and storing data in 2-Dimensional array int arry[][] = { {12,17,19},{32,62,12},{37,34,32} }; // traversing and printing the 2-Dimensional array for (int i=0; i<3 3 ; i++) { for (int j="0;" < j++) system.out.print(arry[i][j] + \' \'); system.out.println(); } pre> <p> <strong>Output</strong> </p> <pre> 12 17 19 32 62 12 37 34 32 </pre> <h2>4. PHP</h2> <p>PHP array is an ordered map (holds elements on the base of the key-value). It is utilized to hold multiple values of a similar data type in a single variable.</p> <p>PHP contains 3 kinds of array that are as follows:</p> <ol class="points"> <li>Indexed Array</li> <li>Associative Array</li> <li>Multidimensional Array</li> </ol> <h3>1. Indexed Array</h3> <p>PHP index is described by an integer number that begins with 0 (default value). The PHP array can store any data type, such as numbers, characters, strings, and objects. All PHP array data are allocated an index number by default.</p> <p> <strong>Syntax to store values</strong> </p> <pre> $Colour =array('Red', 'White', 'Black', 'Yellow'); </pre> <p> <strong>Or</strong> </p> <pre> $Colour[0]='Red '; $Colour[1]='White'; $Colour[2]='Black'; $Colour[3]='Yellow'; </pre> <p> <strong>Example</strong> </p> <pre> </pre> <p> <strong>Output</strong> </p> <pre> Colours are: Red, White, Black, Yellow </pre> <h3>2. Associative Array</h3> <p>In PHP, the user can associate any specific name with each array elements using the '=>' symbol.</p> <p> <strong>Syntax</strong> </p> <pre> $marks =array('Reema'=>'95','John'=>'45','Rahul'=>'20'); </pre> <p> <strong>Or</strong> </p> <pre> $marks['Reema ']='95'; $marks['John']='45'; $marks ['Rahul ']='20'; </pre> <p> <strong>Example</strong> </p> <pre> <?php $marks[\'Reema \']=\'95\'; $marks[\'John\']=\'45\'; $marks [\'Rahul \']=\'20\'; echo \'Reema\'s Marks: \'.$marks [\'Reema \'].\' <br/>'; echo ' John's Marks: '.$marks['John'].' <br>'; echo ' Rahul's Marks: '.$marks ['Rahul '].' <br>'; ?> </pre> <p> <strong>Output</strong> </p> <pre> Reema's Marks: 95 John's Marks: 45 Rahul's Marks: 20 </pre> <h3>3. Multidimensional Array</h3> <p>Multidimensional arrays in PHP are also termed as 'array of arrays'. It enabled the user to store array data in a tabular format. PHP multidimensional array can be expressed in the form of a matrix which is denoted by row * column.</p> <p> <strong>Syntax</strong> </p> <pre> $emp = array ( array (1,'Reema',95), array(2,'john',45), array(3,'rahul',20) ); </pre> <p> <strong>Example</strong> </p> <pre> <?php $emp = array ( array (1,\'Reema\',95), array(2,\'john\',45), array(3,\'rahul\',20) ); for ($row = 0; $row < 3; $row++) { for ($col = 0; $col < 3; $col++) { echo $emp[$row][$col].\' \'; } echo \' <br/>'; } ?> </pre> <p> <strong>Output</strong> </p> <pre> 1 Reema 95 2 john 45 3 rahul 20 </pre> <h2>5. Python</h2> <p>Python uses a module named 'Array' to handle all the functions of Arrays in Python. It is helpful when the user wants to manipulate only particular data values. Given below are the keywords that are important to learn the concept of an array in Python:</p> <ul> <li>Element - Any data stored in an array is known an element.</li> <li>Index - Whenever an array stores any data, it has some numerical location known as index that is beneficial to identify the location of the element.</li> </ul> <p> <strong>Syntax</strong> </p> <pre> from array import * arrayName = array(typecode, [data_to_be_initialized]) </pre> <p> <strong>Example</strong> </p> <pre> import array as arry n = arry.array('i', [20, 40, 60, 80]) print('First array value:', n[0]) print('Second array value:', n[1]) print('Second last array value:', n[-1]) </pre> <p> <strong>Output</strong> </p> <pre> First array value: 20 Second array value: 40 Second last array value: 80 </pre> <hr></3></pre></arr.length;></pre></arr.length;i++)> 객체 배열
객체 배열은 기본 유형 데이터 요소 배열과 동일한 방식으로 구성됩니다.
예
// Java program to create, store and display values for one-dimensional // array of objects class Employee { public int id_no; public String name; Employee(int id_no, String name) { this.id_no = id_no; this.name = name; } } // The Elements of the array are objects of a class Employee. public class Array_Objects_Example { public static void main (String[] args) { // declares an Array of integers. Employee[] arr; // assigning space for 5 objects of type Employee. arr = new Employee[5]; // storing the value for the first element of the array arr[0] = new Employee(111,'Varun'); // storing the value for the second elements of the array arr[1] = new Employee(121,'Sukla'); // so on... arr[2] = new Employee(131,'Virat'); arr[3] = new Employee(141,'Anuskha'); arr[4] = new Employee(151,'Mohit'); // accessing the elements of the specified array for (int i = 0; i <arr.length; i++) system.out.println(\\'element at \\' + i : arr[i].id_no +\\' \\'+ arr[i].name); } < pre> <p> <strong>Output</strong> </p> <pre> Element at 0 : 111 Varun Element at 1 : 121 Sukla Element at 2 : 131 Virat Element at 3 : 141 Anuskha Element at 4 : 151 Mohit </pre> <h3>Multidimensional Arrays</h3> <p>Multidimensional arrays are termed 'arrays of arrays' as they can hold each element of an array with the reference of another array. These are also known as Jagged Arrays. A multidimensional array is constructed by adding a set of square brackets ([]) per dimension.</p> <p> <strong>Syntax</strong> </p> <pre> int[][] intArray = new int[10][20]; //a 2D array or matrix int[][][] intArray = new int[10][20][10]; //a 3D array </pre> <p> <strong>Example to store values in a Multidimensional Array</strong> </p> <pre> arry[0][0]=10; arry[0][1]=20; arry[0][2]=30; arry[1][0]=40; arry[1][1]=50; arry[1][3]=60; arry[2][1]=70; arry[2][2]=80; arry[2][3]=90; </pre> <p> <strong>Example of Multidimensional Array</strong> </p> <pre> class multiDimensional_Example { public static void main(String args[]) { // declaring and storing data in 2-Dimensional array int arry[][] = { {12,17,19},{32,62,12},{37,34,32} }; // traversing and printing the 2-Dimensional array for (int i=0; i<3 3 ; i++) { for (int j="0;" < j++) system.out.print(arry[i][j] + \\' \\'); system.out.println(); } pre> <p> <strong>Output</strong> </p> <pre> 12 17 19 32 62 12 37 34 32 </pre> <h2>4. PHP</h2> <p>PHP array is an ordered map (holds elements on the base of the key-value). It is utilized to hold multiple values of a similar data type in a single variable.</p> <p>PHP contains 3 kinds of array that are as follows:</p> <ol class="points"> <li>Indexed Array</li> <li>Associative Array</li> <li>Multidimensional Array</li> </ol> <h3>1. Indexed Array</h3> <p>PHP index is described by an integer number that begins with 0 (default value). The PHP array can store any data type, such as numbers, characters, strings, and objects. All PHP array data are allocated an index number by default.</p> <p> <strong>Syntax to store values</strong> </p> <pre> $Colour =array('Red', 'White', 'Black', 'Yellow'); </pre> <p> <strong>Or</strong> </p> <pre> $Colour[0]='Red '; $Colour[1]='White'; $Colour[2]='Black'; $Colour[3]='Yellow'; </pre> <p> <strong>Example</strong> </p> <pre> </pre> <p> <strong>Output</strong> </p> <pre> Colours are: Red, White, Black, Yellow </pre> <h3>2. Associative Array</h3> <p>In PHP, the user can associate any specific name with each array elements using the '=>' symbol.</p> <p> <strong>Syntax</strong> </p> <pre> $marks =array('Reema'=>'95','John'=>'45','Rahul'=>'20'); </pre> <p> <strong>Or</strong> </p> <pre> $marks['Reema ']='95'; $marks['John']='45'; $marks ['Rahul ']='20'; </pre> <p> <strong>Example</strong> </p> <pre> <?php $marks[\\'Reema \\']=\\'95\\'; $marks[\\'John\\']=\\'45\\'; $marks [\\'Rahul \\']=\\'20\\'; echo \\'Reema\\'s Marks: \\'.$marks [\\'Reema \\'].\\' <br/>'; echo ' John's Marks: '.$marks['John'].' <br>'; echo ' Rahul's Marks: '.$marks ['Rahul '].' <br>'; ?> </pre> <p> <strong>Output</strong> </p> <pre> Reema's Marks: 95 John's Marks: 45 Rahul's Marks: 20 </pre> <h3>3. Multidimensional Array</h3> <p>Multidimensional arrays in PHP are also termed as 'array of arrays'. It enabled the user to store array data in a tabular format. PHP multidimensional array can be expressed in the form of a matrix which is denoted by row * column.</p> <p> <strong>Syntax</strong> </p> <pre> $emp = array ( array (1,'Reema',95), array(2,'john',45), array(3,'rahul',20) ); </pre> <p> <strong>Example</strong> </p> <pre> <?php $emp = array ( array (1,\\'Reema\\',95), array(2,\\'john\\',45), array(3,\\'rahul\\',20) ); for ($row = 0; $row < 3; $row++) { for ($col = 0; $col < 3; $col++) { echo $emp[$row][$col].\\' \\'; } echo \\' <br/>'; } ?> </pre> <p> <strong>Output</strong> </p> <pre> 1 Reema 95 2 john 45 3 rahul 20 </pre> <h2>5. Python</h2> <p>Python uses a module named 'Array' to handle all the functions of Arrays in Python. It is helpful when the user wants to manipulate only particular data values. Given below are the keywords that are important to learn the concept of an array in Python:</p> <ul> <li>Element - Any data stored in an array is known an element.</li> <li>Index - Whenever an array stores any data, it has some numerical location known as index that is beneficial to identify the location of the element.</li> </ul> <p> <strong>Syntax</strong> </p> <pre> from array import * arrayName = array(typecode, [data_to_be_initialized]) </pre> <p> <strong>Example</strong> </p> <pre> import array as arry n = arry.array('i', [20, 40, 60, 80]) print('First array value:', n[0]) print('Second array value:', n[1]) print('Second last array value:', n[-1]) </pre> <p> <strong>Output</strong> </p> <pre> First array value: 20 Second array value: 40 Second last array value: 80 </pre> <hr></3></pre></arr.length;> 다차원 배열
다차원 배열은 다른 배열을 참조하여 배열의 각 요소를 보유할 수 있으므로 '배열의 배열'이라고 합니다. 이는 가변 배열(Jagged Array)이라고도 합니다. 다차원 배열은 차원마다 대괄호([]) 세트를 추가하여 구성됩니다.
통사론
int[][] intArray = new int[10][20]; //a 2D array or matrix int[][][] intArray = new int[10][20][10]; //a 3D array
다차원 배열에 값을 저장하는 예
arry[0][0]=10; arry[0][1]=20; arry[0][2]=30; arry[1][0]=40; arry[1][1]=50; arry[1][3]=60; arry[2][1]=70; arry[2][2]=80; arry[2][3]=90;
다차원 배열의 예
class multiDimensional_Example { public static void main(String args[]) { // declaring and storing data in 2-Dimensional array int arry[][] = { {12,17,19},{32,62,12},{37,34,32} }; // traversing and printing the 2-Dimensional array for (int i=0; i<3 3 ; i++) { for (int j="0;" < j++) system.out.print(arry[i][j] + \\' \\'); system.out.println(); } pre> <p> <strong>Output</strong> </p> <pre> 12 17 19 32 62 12 37 34 32 </pre> <h2>4. PHP</h2> <p>PHP array is an ordered map (holds elements on the base of the key-value). It is utilized to hold multiple values of a similar data type in a single variable.</p> <p>PHP contains 3 kinds of array that are as follows:</p> <ol class="points"> <li>Indexed Array</li> <li>Associative Array</li> <li>Multidimensional Array</li> </ol> <h3>1. Indexed Array</h3> <p>PHP index is described by an integer number that begins with 0 (default value). The PHP array can store any data type, such as numbers, characters, strings, and objects. All PHP array data are allocated an index number by default.</p> <p> <strong>Syntax to store values</strong> </p> <pre> $Colour =array('Red', 'White', 'Black', 'Yellow'); </pre> <p> <strong>Or</strong> </p> <pre> $Colour[0]='Red '; $Colour[1]='White'; $Colour[2]='Black'; $Colour[3]='Yellow'; </pre> <p> <strong>Example</strong> </p> <pre> </pre> <p> <strong>Output</strong> </p> <pre> Colours are: Red, White, Black, Yellow </pre> <h3>2. Associative Array</h3> <p>In PHP, the user can associate any specific name with each array elements using the '=>' symbol.</p> <p> <strong>Syntax</strong> </p> <pre> $marks =array('Reema'=>'95','John'=>'45','Rahul'=>'20'); </pre> <p> <strong>Or</strong> </p> <pre> $marks['Reema ']='95'; $marks['John']='45'; $marks ['Rahul ']='20'; </pre> <p> <strong>Example</strong> </p> <pre> <?php $marks[\\'Reema \\']=\\'95\\'; $marks[\\'John\\']=\\'45\\'; $marks [\\'Rahul \\']=\\'20\\'; echo \\'Reema\\'s Marks: \\'.$marks [\\'Reema \\'].\\' <br/>'; echo ' John's Marks: '.$marks['John'].' <br>'; echo ' Rahul's Marks: '.$marks ['Rahul '].' <br>'; ?> </pre> <p> <strong>Output</strong> </p> <pre> Reema's Marks: 95 John's Marks: 45 Rahul's Marks: 20 </pre> <h3>3. Multidimensional Array</h3> <p>Multidimensional arrays in PHP are also termed as 'array of arrays'. It enabled the user to store array data in a tabular format. PHP multidimensional array can be expressed in the form of a matrix which is denoted by row * column.</p> <p> <strong>Syntax</strong> </p> <pre> $emp = array ( array (1,'Reema',95), array(2,'john',45), array(3,'rahul',20) ); </pre> <p> <strong>Example</strong> </p> <pre> <?php $emp = array ( array (1,\\'Reema\\',95), array(2,\\'john\\',45), array(3,\\'rahul\\',20) ); for ($row = 0; $row < 3; $row++) { for ($col = 0; $col < 3; $col++) { echo $emp[$row][$col].\\' \\'; } echo \\' <br/>'; } ?> </pre> <p> <strong>Output</strong> </p> <pre> 1 Reema 95 2 john 45 3 rahul 20 </pre> <h2>5. Python</h2> <p>Python uses a module named 'Array' to handle all the functions of Arrays in Python. It is helpful when the user wants to manipulate only particular data values. Given below are the keywords that are important to learn the concept of an array in Python:</p> <ul> <li>Element - Any data stored in an array is known an element.</li> <li>Index - Whenever an array stores any data, it has some numerical location known as index that is beneficial to identify the location of the element.</li> </ul> <p> <strong>Syntax</strong> </p> <pre> from array import * arrayName = array(typecode, [data_to_be_initialized]) </pre> <p> <strong>Example</strong> </p> <pre> import array as arry n = arry.array('i', [20, 40, 60, 80]) print('First array value:', n[0]) print('Second array value:', n[1]) print('Second last array value:', n[-1]) </pre> <p> <strong>Output</strong> </p> <pre> First array value: 20 Second array value: 40 Second last array value: 80 </pre> <hr></3> 4. PHP
PHP 배열은 순서가 지정된 맵입니다(키-값을 기준으로 요소를 보유함). 단일 변수에 유사한 데이터 유형의 여러 값을 보유하는 데 사용됩니다.
PHP에는 다음과 같은 3가지 종류의 배열이 포함되어 있습니다.
- 인덱스 배열
- 연관 배열
- 다차원 배열
1. 인덱스 배열
PHP 인덱스는 0(기본값)으로 시작하는 정수로 설명됩니다. PHP 배열은 숫자, 문자, 문자열, 객체 등 모든 데이터 유형을 저장할 수 있습니다. 모든 PHP 배열 데이터에는 기본적으로 인덱스 번호가 할당됩니다.
값을 저장하는 구문
$Colour =array('Red', 'White', 'Black', 'Yellow');
또는
$Colour[0]='Red '; $Colour[1]='White'; $Colour[2]='Black'; $Colour[3]='Yellow';
예
산출
나무를 펴다
Colours are: Red, White, Black, Yellow
2. 연관 배열
PHP에서 사용자는 '=>' 기호를 사용하여 특정 이름을 각 배열 요소와 연결할 수 있습니다.
통사론
$marks =array('Reema'=>'95','John'=>'45','Rahul'=>'20');
또는
$marks['Reema ']='95'; $marks['John']='45'; $marks ['Rahul ']='20';
예
<?php $marks[\\'Reema \\']=\\'95\\'; $marks[\\'John\\']=\\'45\\'; $marks [\\'Rahul \\']=\\'20\\'; echo \\'Reema\\'s Marks: \\'.$marks [\\'Reema \\'].\\' <br/>'; echo ' John's Marks: '.$marks['John'].' <br>'; echo ' Rahul's Marks: '.$marks ['Rahul '].' <br>'; ?>
산출
Reema's Marks: 95 John's Marks: 45 Rahul's Marks: 20
3. 다차원 배열
PHP의 다차원 배열은 '배열의 배열'이라고도 합니다. 이를 통해 사용자는 배열 데이터를 표 형식으로 저장할 수 있었습니다. PHP 다차원 배열은 행 * 열로 표시되는 행렬 형태로 표현될 수 있습니다.
통사론
$emp = array ( array (1,'Reema',95), array(2,'john',45), array(3,'rahul',20) );
예
<?php $emp = array ( array (1,\\'Reema\\',95), array(2,\\'john\\',45), array(3,\\'rahul\\',20) ); for ($row = 0; $row < 3; $row++) { for ($col = 0; $col < 3; $col++) { echo $emp[$row][$col].\\' \\'; } echo \\' <br/>'; } ?> 산출
1 Reema 95 2 john 45 3 rahul 20
5. 파이썬
Python은 'Array'라는 모듈을 사용하여 Python에서 배열의 모든 기능을 처리합니다. 사용자가 특정 데이터 값만 조작하려는 경우에 유용합니다. 다음은 Python에서 배열의 개념을 배우는 데 중요한 키워드입니다.
- 요소 - 배열에 저장된 모든 데이터를 요소라고 합니다.
- 인덱스 - 배열이 데이터를 저장할 때마다 요소의 위치를 식별하는 데 유용한 인덱스라는 숫자 위치가 있습니다.
통사론
from array import * arrayName = array(typecode, [data_to_be_initialized])
예
import array as arry n = arry.array('i', [20, 40, 60, 80]) print('First array value:', n[0]) print('Second array value:', n[1]) print('Second last array value:', n[-1])
산출
First array value: 20 Second array value: 40 Second last array value: 80