C Programming Tutorial
First C Program
Before starting the abcd of C language, you need to learn how to write, compile and run the first c program.
To write the first c program, open the C console and write the following code:
#include <stdio.h>
int main(){
printf("Hello C Language");
return 0;
}
#include
int main() The main() function is the entry point of every program in c language.
printf() The printf() function is used to print data on the console.
return 0 The return 0 statement, returns execution status to the OS. The 0 value is used for successful execution and 1 for unsuccessful execution.
How to compile and run the c program
There are 2 ways to compile and run the c program, by menu and by shortcut.
By menu
Now click on the compile menu then compile sub menu to compile the c program.
Then click on the run menu then run sub menu to run the c program.
By shortcut
Or, press ctrl+f9 keys compile and run the program directly.
You will see the following output on user screen.
You can view the user screen any time by pressing the alt+f5 keys.
Now press Esc to return to the turbo c++ console.
Header files contain the set of predefined standard library functions that we can include in our c programs. But to use these various library functions, we have to include the appropriate header files.
Let us see in detail how the compiler interprets the line :
#include<stdio.h>
Here, # is a pre-processor directive which tells us that this is the line which must be pre-processed by pre-processor.
include tells us that there is a filename ahead which must be included at the top of our program. Preprocessor simply copies contents of file stdio.h in our code.
<> – Angled brackets defines where to search for header files.
stdio.h – is the file to be included in our program so that we can use built-in functions in our program. These built-in functions are only declared in such header files and not defined.
Apart from method or class declarations, header files also contain predefined macros, data type definitions, etc.
When you call a built-in function, at compile time compiler compares your calling statement with function prototype(which is in the header file) and if the return type, function name, number of arguments, type of arguments are same then only the result of comparison is said to be satisfying otherwise compiler gives you errors.
We can create our own header files as well. But they are specified in between double quotes instead of angular brackets which will convene to make programming easier.
If you have a standard set of instructions that you want to insert in a lot of programs that you are writing then you can do it using the #include statement.
The # symbol at the start stipulate that this isn’t a C statement but one for the C pre-processor which looks at the text file before the compiler gets it. The #include tells the pre-processor to read in a text file and treat it as if it was part of the program’s text. For example:
#include “copy.txt”
could be used to include a copyright notice stored in the file copy.txt. However, the most common use of the #include is to define constants and macros. The C pre-processor is almost a language in its own right For example if you define the identifier NULL as:
#define NULL 0
then whenever you use NULL in your program the pre-processor substitutes 0. In most cases you want these definitions to be included in all your programs and so the obvious thing to do is to create a separate file that you can #include.
This idea of using standard include files has spiraled out of all proportions. Now such include files are called header files and they are distinguished by ending in the extension .h. A header file is generally used to define all of the functions, variables, and constants contained in any function library that you might want to use.
There are many header files in C programming language and there all header files have their own different functionalities…
List of all header file of c language as below.
LIST OF HEADER FILES IN C LANGUAGE
| No. | Name | Description |
|---|---|---|
| 1 | stdio.h | Input/Output Functions |
| 2 | conio.h | console input/output |
| 3 | assert.h | Diagnostics Functions |
| 4 | ctype.h | Character Handling Functions |
| 5 | cocale.h | Localization Functions |
| 6 | math.h | Mathematics Functions |
| 7 | setjmp.h | Nonlocal Jump Functions |
| 8 | signal.h | Signal Handling Functions |
| 9 | stdarg.h | Variable Argument List Functions |
| 10 | stdlib.h | General Utility Functions |
| 11 | string.h | String Functions |
| 12 | time.h | Date and Time Functions |
| 13 | complex.h | A set of function for manipulating complex numbers |
| 14 | stdalign.h | For querying and specifying the alignment of objects |
| 15 | errno.h | For testing error codes |
| 16 | locale.h | Defines localization functions |
| 17 | stdatomic.h | For atomic operations on data shared between threads |
| 18 | stdnoreturn.h | For specifying non-returning functions |
| 19 | uchar.h | Types and functions for manipulating Unicode characters |
| 20 | fenv.h | A set of functions for controlling floating-point environment |
| 21 | wchar.h | Defines wide string handling functions |
| 22 | tgmath.h | Type-generic mathematical functions |
| 23 | stdarg.h | Accessing a varying number of arguments passed to functions |
| 24 | stdbool.h | Defines a boolean data type |
