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int i = 0;
int min = x[i];
while ( i < n ){
	if ( x[i] < min ){
		min = x[i];
return min;

I've written the iterative form to find the min number of an array. But I'd like to write a function that with recursion. Please help!

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Is the list sorted? If it is, recursion might make more sense, otherwise, recursion seems awkward here. –  samoz Nov 14 '09 at 20:57
If the list was sorted, the first element would be the minimum and neither iteration nor recursion would make sense. –  sepp2k Nov 14 '09 at 20:59
Well even if it was sorted, the last element could also be the minimum depending how it was sorted... –  Myles Nov 14 '09 at 21:02
Let us not make any assumptions and consider the list as unsorted. –  Vikram Aug 1 '12 at 20:44

8 Answers 8

up vote 12 down vote accepted

Because this sounds like homework, here's a hint: The minimum value in an array is either the first element, or the minimum number in the rest of the array, whichever is smaller.

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Please note: Whether or not this actually is homework is not relevant. It's the kind of exercise that you will get immensely more value from if you discover the solution, than you will by copying the solution from somebody else. –  Greg Hewgill Nov 14 '09 at 20:58

The minimum number of a single-element array is the one element in the array.

The minimum number of an array with size > 1 is the minimum of the first element and the minimum of the rest of the array.

(The minimum number of an empty array is not defined.)

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Sounds like homework, but your best bet is something like this:

int main(void) {
    int size = 2;
    int test[] = {0,1};
    int min = test[0];
    findMin(&min, test, size);
    printf("%d", min);

void findMin(int* min, int* test, int* length);

void findMin(int* min, int* test, int* length) {
    if (length >= 0) {
         if (*test < *min) {
            *min = test;
         findMin(min, test++, (*length)--);
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Technically recursive but lacks gestalt. –  Jim Zajkowski Nov 14 '09 at 21:35

Why do you want to do this with recursion? A general rule with recursion is don't use recursion if you can do it inside a simple linear loop.

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Presumably because the assignment says to do it with recursion. –  sepp2k Nov 14 '09 at 20:57
Meh. I like recursion. Basically, I apply the inverse of your rule (provided the compiler has tail recursion optimization). –  Konrad Rudolph Nov 14 '09 at 21:00
Using tail recursion it would seem like there is no difference between a straight loop and recursion, assuming a semi-decent compiler. It just depends what is more clear code-wise. –  Myles Nov 14 '09 at 21:01
@Myles: exactly. And for that reason I often (not always) prefer recursion. For many things, recursion fits the natural expression of a mathematical concept quite literally, while iteration requires refactoring. I acknowledge that many people have a problem with recursion so I try to avoid it in an “unnatural habitat”. But the OP’s problem is actually extremely well-suited for recursion (it’s just a simple reduction using min as the operation). –  Konrad Rudolph Nov 15 '09 at 19:19

Here is a function that will return a pointer to the minimum value:

#include <stddef.h>

int *recursiveMin(int *x, int n) {
  if (x == NULL || n == 0)
      return NULL;
  if (n == 1)
      return x;
  int *t = recursiveMin(x + 1, n - 1);
  return *x < *t ? x : t;
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  int recursive_min(list<int> arr) {
    return recursive_min(arr);

Although this doesn't work in imperative languages.

A more serious answer would be, in pseudocode:

func recursive_min( list l ) {
 head = l[1]
 tail = l[2<->end]
 if l.length==1 return head else return min(head,recursive_min(tail))

Although that doesn't work if l is empty.

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general rule of recursion is to avoid "small steps" - so "first element compared to rest of the array" is very bad idea. try to process the array in halves, like this:

min( array ) {
   if size of array == 1 return array[0]
   else if size of array == 2 return array[0] < array[1] ? array[0] : array[1]
   else {
      firstmin = min( firsthalf) // stored to avoid double calls
      secondmin = min( secondhalf)
      firstmin < second_min ? firstmin : secondmin

for further optimization:
- avoid array copies - consider using quicksort-like signature (array, from, to)
- avoid recursive calls for sizes < 2

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const int = 20;

int getmin (int v[], int n);

main ()

int v[N];
int i,n,min;

printf("\n\tType number of elements:\t");

for (i=0;i<n;i++)

min = getmin (v,n);

printf("\n\n\tMinimume value is %d.",min);


int getmin (int v[],int n)

if (n>0)

if ( v[n-2] > v[n-1] )


getmin (v,n-1);

return v[n-2];       
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i've seen an exercise like thin in the exam of c, and i tried to solve it this way. I know i'm 1 year late for this discussion but maybe i might helpful for hereafter visitors. –  Diti Ymeri Jun 20 '10 at 8:37

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