Let's Start With C Programming
- Introduction to C Programming
- Features And Importance
- Standard Library
- Programming in C
- Data Types
- Variables
- Constants
- Storage Classes
- Static Storage Class
- Scope Rules
- Operators
- Arithmetic Operators
- Relational Operators
- Logical Operators
- Bitwise Operators
- Assignment Operators
- Misc Operators
- Arithmetic Operators
- Relational Operators
- Logical Operators
- Bitwise Operators
- Assignment Operators
- Misc Operators
- Arithmetic Operators
- Relational Operators
- Logical Operators
- Bitwise Operators
- Assignment Operators
- Misc Operators
- Arithmetic Operators
- Relational Operators
- Logical Operators
- Bitwise Operators
- Assignment Operators
- Misc Operators
- Arithmetic Operators
- Relational Operators
- Logical Operators
- Bitwise Operators
- Assignment Operators
- Misc Operators
- Arithmetic Operators
- Relational Operators
- Logical Operators
- Bitwise Operators
- Assignment Operators
- Misc Operators
- Operator Precedence in C
- Control Structures
- Program Controls
- Loop Control Statement
- Functions
- Arrays
- Array Definition
- Array initialization
- Static and Automatic Arrays
- Single Dimensional Array
- Multi Dimensional Array
- Array Definition
- Array initialization
- Static and Automatic Arrays
- Single Dimensional Array
- Multi Dimensional Array
- Array Definition
- Array initialization
- Static and Automatic Arrays
- Single Dimensional Array
- Multi Dimensional Array
- Array Definition
- Array initialization
- Static and Automatic Arrays
- Single Dimensional Array
- Multi Dimensional Array
- Array Definition
- Array initialization
- Static and Automatic Arrays
- Single Dimensional Array
- Multi Dimensional Array
- Pointers
- Definitions and Initialization
- Pointers Operators
- Pointer Expression and Arithmetic
- Pointer-Array Relationship
- Array of Pointers
- Definitions and Initialization
- Pointers Operators
- Pointer Expression and Arithmetic
- Pointer-Array Relationship
- Array of Pointers
- Definitions and Initialization
- Pointers Operators
- Pointer Expression and Arithmetic
- Pointer-Array Relationship
- Array of Pointers
- Definitions and Initialization
- Pointers Operators
- Pointer Expression and Arithmetic
- Pointer-Array Relationship
- Array of Pointers
- Definitions and Initialization
- Pointers Operators
- Pointer Expression and Arithmetic
- Pointer-Array Relationship
- Array of Pointers
- Characters and Strings
- Character Handling Library
- String-Conversion Functions
- Standard I/O Functions
- String-Manipulation Functions
- Comparison Functions
- Search Functions
- Memory Functions
- Remaining Functions
- Character Handling Library
- String-Conversion Functions
- Standard I/O Functions
- String-Manipulation Functions
- Comparison Functions
- Search Functions
- Memory Functions
- Remaining Functions
- Character Handling Library
- String-Conversion Functions
- Standard I/O Functions
- String-Manipulation Functions
- Comparison Functions
- Search Functions
- Memory Functions
- Remaining Functions
- Character Handling Library
- String-Conversion Functions
- Standard I/O Functions
- String-Manipulation Functions
- Comparison Functions
- Search Functions
- Memory Functions
- Remaining Functions
- Character Handling Library
- String-Conversion Functions
- Standard I/O Functions
- String-Manipulation Functions
- Comparison Functions
- Search Functions
- Memory Functions
- Remaining Functions
- Character Handling Library
- String-Conversion Functions
- Standard I/O Functions
- String-Manipulation Functions
- Comparison Functions
- Search Functions
- Memory Functions
- Remaining Functions
- Character Handling Library
- String-Conversion Functions
- Standard I/O Functions
- String-Manipulation Functions
- Comparison Functions
- Search Functions
- Memory Functions
- Remaining Functions
- Character Handling Library
- String-Conversion Functions
- Standard I/O Functions
- String-Manipulation Functions
- Comparison Functions
- Search Functions
- Memory Functions
- Remaining Functions
- Structures
- typedef
- Unions
- Enumeration Constants
- File Processing
- Preprocessors
- Header Files
- Recursion
- Variable Argument
- Command Line Arguments
- Memory Management
- Typecasting
Single Dimensional Array
The single dimensional array is used to store data in sequential order. The single dimensional array contains only one subscript/index in their declaration, like int myarray[500];
In the one-dimensional array, we can access any element using one index reference, like myarray[15].
Example:
/* How to use a single Dimensional array in C */
#include<stdio.h>
int main()
{
int i;
/* Initialize the value of array */
int myarray[5] = {51, 52, 53, 54, 55};
for(i=0; i<5;i++)
{
/*Accessing the elements of myarray*/
printf(“Element of myarray[%d] is %d \n”, i, myarray[i]);
}}
Output:
Element of myarray[0] is 51
Element of myarray[1] is 52
Element of myarray[2] is 53
Element of myarray[3] is 54
Element of myarray[4] is 55
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