Tuesday, 13 May 2014

C - Memory Management and with C - Command Line Arguments

Post By: Hanan Mannan
Contact Number: Pak (+92)-321-59-95-634
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This chapter will explain dynamic memory management in C. The C programming language provides several functions for memory allocation and management. These functions can be found in the header file.
S.N.Function and Description
1void *calloc(int num, int size);
This function allocates an array of num elements each of which size in bytes will be size.
2void free(void *address); 
This function release a block of memory block specified by address.
3void *malloc(int num); 
This function allocates an array of num bytes and leave them initialized.
4void *realloc(void *address, int newsize); 
This function re-allocates memory extending it upto newsize.

Allocating Memory Dynamically

While doing programming, if you are aware about the size of an array, then it is easy and you can define it as an array. For example to store a name of any person, it can go max 100 characters so you can define something as follows:
char name[100];
But now let us consider a situation where you have no idea about the length of the text you need to store, for example you want to store a detailed description about a topic. Here we need to define a pointer to character without defining how much memory is required and later based on requirement we can allocate memory as shown in the below example:
#include 
#include
#include

int main()
{
char name[100];
char *description;

strcpy
(name, "Zara Ali");

/* allocate memory dynamically */
description
= malloc( 200 * sizeof(char) );
if( description == NULL )
{
fprintf
(stderr, "Error - unable to allocate required memory\n");
}
else
{
strcpy
( description, "Zara ali a DPS student in class 10th");
}
printf
("Name = %s\n", name );
printf
("Description: %s\n", description );
}
When the above code is compiled and executed, it produces the following result.
Name = Zara Ali
Description: Zara ali a DPS student in class 10th
Same program can be written using calloc() only thing you need to replace malloc with calloc as follows:
calloc(200, sizeof(char));
So you have complete control and you can pass any size value while allocating memory unlike arrays where once you defined the size can not be changed.

Resizing and Releasing Memory

When your program comes out, operating system automatically release all the memory allocated by your program but as a good practice when you are not in need of memory anymore then you should release that memory by calling the function free().
Alternatively, you can increase or decrease the size of an allocated memory block by calling the functionrealloc(). Let us check the above program once again and make use of realloc() and free() functions:
#include 
#include
#include

int main()
{
char name[100];
char *description;

strcpy
(name, "Zara Ali");

/* allocate memory dynamically */
description
= malloc( 30 * sizeof(char) );
if( description == NULL )
{
fprintf
(stderr, "Error - unable to allocate required memory\n");
}
else
{
strcpy
( description, "Zara ali a DPS student.");
}
/* suppose you want to store bigger description */
description
= realloc( description, 100 * sizeof(char) );
if( description == NULL )
{
fprintf
(stderr, "Error - unable to allocate required memory\n");
}
else
{
strcat
( description, "She is in class 10th");
}

printf
("Name = %s\n", name );
printf
("Description: %s\n", description );

/* release memory using free() function */
free
(description);
}
When the above code is compiled and executed, it produces the following result.
Name = Zara Ali
Description: Zara ali a DPS student.She is in class 10th
You can try above example without re-allocating extra memory and strcat() function will give an error due to lack of available memory in description.

C - Command Line Arguments
It is possible to pass some values from the command line to your C programs when they are executed. These values are called command line arguments and many times they are important for your program specially when you want to control your program from outside instead of hard coding those values inside the code.
The command line arguments are handled using main() function arguments where argc refers to the number of arguments passed, and argv[] is a pointer array which points to each argument passed to the program. Following is a simple example which checks if there is any argument supplied from the command line and take action accordingly:
#include 

int main( int argc, char *argv[] )
{
if( argc == 2 )
{
printf
("The argument supplied is %s\n", argv[1]);
}
else if( argc > 2 )
{
printf
("Too many arguments supplied.\n");
}
else
{
printf
("One argument expected.\n");
}
}
When the above code is compiled and executed with a single argument, it produces the following result.
$./a.out testing
The argument supplied is testing
When the above code is compiled and executed with a two arguments, it produces the following result.
$./a.out testing1 testing2
Too many arguments supplied.
When the above code is compiled and executed without passing any argument, it produces the following result.
$./a.out
One argument expected
It should be noted that argv[0] holds the name of the program itself and argv[1] is a pointer to the first command line argument supplied, and *argv[n] is the last argument. If no arguments are supplied, argc will be one, otherwise and if you pass one argument then argc is set at 2.
You pass all the command line arguments separated by a space, but if argument itself has a space then you can pass such arguments by putting them inside double quotes "" or single quotes ''. Let us re-write above example once again where we will print program name and we also pass a command line argument by putting inside double quotes:
#include 

int main( int argc, char *argv[] )
{
printf
("Program name %s\n", argv[0]);

if( argc == 2 )
{
printf
("The argument supplied is %s\n", argv[1]);
}
else if( argc > 2 )
{
printf
("Too many arguments supplied.\n");
}
else
{
printf
("One argument expected.\n");
}
}
When the above code is compiled and executed with a single argument separated by space but inside double quotes, it produces the following result.
$./a.out "testing1 testing2"

Progranm name ./a.out
The argument supplied is testing1 testing2

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