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

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. 


The minimum number of a singleelement 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.) 


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



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:
for further optimization: 


This is not an optimal solution, because you may save the result of the recursive call in an int variable, but I wasn't allowed to in my exercise. Anyway, this function searches the lowest value in an int array by using recursion. As first it checks how many elements are in the array by checking if the size equals to 1 and then returns the first value as result. If the table is bigger than 1 (and technically also when lower) it compares the last value in the array with the recursive call with the rest of the array. The recursion stops at the 0index and then compares that value with the index 1. Then it compares the lowest value of index 0 and 1 with the value from index 3 and so on until it reaches last value.
Rules in my exercise:



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. 


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



Try:
Although this doesn't work in imperative languages. A more serious answer would be, in pseudocode:
Although that doesn't work if l is empty. 










