# Understanding recursion

I am struggling to understand this recursion used in the dynamic programming example. Can anyone explain the working of this. The objective is to find the least number of coins for a value.

//f(n) = 1 + min f(n-d) for all denomimations d

Pseudocode:

``````int memo[128]; //initialized to -1

int min_coin(int n)
{
if(n < 0) return INF;
if(n == 0) return 0;
if(memo[n] != -1)

int ans = INF;
for(int i = 0; i < num_denomination; ++i)
{
ans = min(ans, min_coin(n - denominations[i]));
}
return memo[n] = ans+1; //when does this get called?

}
``````
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Some `{}` missing after `if(memo[n] != -1)` ? –  ring0 Sep 29 '10 at 3:55
I don't know to correct it. It was given as an example here ugrad.cs.ubc.ca/~cs490/sec202/notes/dp/DP%201.pdf –  Neerad Sep 29 '10 at 3:59

This particular example is explained very well in this article at Topcoder.

Basically this recursion is using the solutions to smaller problems (least number of coins for a smaller n) to find the solution for the overall problem. The dynamic programming aspect of this is the memoization of the solutions to the sub-problems so they don't have to be recalculated every time.

And yes - there are {} missing as ring0 mentioned in his comment - the recursion should only be executed if the sub-problem has not been solved before.

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To answer the owner's question when does this get called? : in a solution based on a recursive program, the same function is called by itself... but eventually returns... When does it return? from the time the function ceased to call itself

``````f(a) {
if (a > 0) f(a-1);
display "x"
}

f(5);
``````

`f(5)` would call f(4), in turns call f(3) that call f(2) which calls f(1) calling f(0).

`f(0)` has `a` being 0, so it does not call `f()`, and displays "x" then returns. It returns to the previous `f(1)` that, after calling `f(0)` - done - displays also "x". `f(1)` ends, f(2) displays "x", ... , until f(5). You get 6 "x".

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In another terms from what ring0 has already mentioned - when the program reaches the base case and starts to unwind by going up the stack (call frames). For similar case using factorial example see this.

``````#!/usr/bin/env  perl

use strict;
use IO::Handle;
use Carp qw(cluck);

STDOUT->autoflush(1);
STDERR->autoflush(1);

sub factorial {
my \$v = shift;

dummy_func();
return 1 if \$v == 1;
print "Variable v value: \$v and it's address:", \\$v, "\ncurrent sub factorial addr:", \&factorial, "\n","-"x40;
return \$v * factorial(\$v - 1);
}

sub dummy_func {
cluck;
}

factorial(5);
``````
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