C - Recursion
Recursion is the process of repeating items in a self-similar way. In programming languages, if a program allows you to call a function inside the same function, then it is called a recursive call of the function.
void recursion() { recursion(); /* function calls itself */ } int main() { recursion(); }
The C programming language supports recursion, i.e., a function to call itself. But while using recursion, programmers need to be careful to define an exit condition from the function, otherwise it will go into an infinite loop.
Recursive functions are very useful to solve many mathematical problems, such as calculating the factorial of a number, generating Fibonacci series, etc.
Number Factorial
The following example calculates the factorial of a given number using a recursive function −
#include <stdio.h> unsigned long long int factorial(unsigned int i) { if(i <= 1) { return 1; } return i * factorial(i - 1); } int main() { int i = 12; printf("Factorial of %d is %d\n", i, factorial(i)); return 0; }
When the above code is compiled and executed, it produces the following result −
Factorial of 12 is 479001600
Fibonacci Series
The following example generates the Fibonacci series for a given number using a recursive function −
#include <stdio.h> int fibonacci(int i) { if(i == 0) { return 0; } if(i == 1) { return 1; } return fibonacci(i-1) + fibonacci(i-2); } int main() { int i; for (i = 0; i < 10; i++) { printf("%d\t\n", fibonacci(i)); } return 0; }
When the above code is compiled and executed, it produces the following result −
0 1 1 2 3 5 8 13 21 34
C - Variable Arguments
Sometimes, you may come across a situation, when you want to have a function, which can take variable number of arguments, i.e., parameters, instead of predefined number of parameters. The C programming language provides a solution for this situation and you are allowed to define a function which can accept variable number of parameters based on your requirement. The following example shows the definition of such a function.
int func(int, ... ) { . . . } int main() { func(1, 2, 3); func(1, 2, 3, 4); }
It should be noted that the function func() has its last argument as ellipses, i.e. three dotes (...) and the one just before the ellipses is always an int which will represent the total number variable arguments passed. To use such functionality, you need to make use of stdarg.h header file which provides the functions and macros to implement the functionality of variable arguments and follow the given steps −
Define a function with its last parameter as ellipses and the one just before the ellipses is always an int which will represent the number of arguments.
Create a va_list type variable in the function definition. This type is defined in stdarg.h header file.
Use int parameter and va_start macro to initialize the va_list variable to an argument list. The macro va_start is defined in stdarg.h header file.
Use va_arg macro and va_list variable to access each item in argument list.
Use a macro va_end to clean up the memory assigned to va_list variable.
Now let us follow the above steps and write down a simple function which can take the variable number of parameters and return their average −
#include <stdio.h> #include <stdarg.h> double average(int num,...) { va_list valist; double sum = 0.0; int i; /* initialize valist for num number of arguments */ va_start(valist, num); /* access all the arguments assigned to valist */ for (i = 0; i < num; i++) { sum += va_arg(valist, int); } /* clean memory reserved for valist */ va_end(valist); return sum/num; } int main() { printf("Average of 2, 3, 4, 5 = %f\n", average(4, 2,3,4,5)); printf("Average of 5, 10, 15 = %f\n", average(3, 5,10,15)); }
When the above code is compiled and executed, it produces the following result. It should be noted that the function average() has been called twice and each time the first argument represents the total number of variable arguments being passed. Only ellipses will be used to pass variable number of arguments.
Average of 2, 3, 4, 5 = 3.500000 Average of 5, 10, 15 = 10.000000
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