# need help in fixing this code on dynamic programming/ recursion on calculating the minimum coins using Java

I have my code here, which is aimed to return the minimum configuration of coins to make change for a given sum. It takes two parameters, sum and a list of denominations. I have no compilation error and the the program works to give output, but not quite right in what I get. Any help on this much appreciated.

//this program calculates the minimum coins and distribution of
//denominations required to make change for a given sum
import java.util.*;
import java.io.*;
public class MinCoinCollectionBacktrack {
private int sum;
private List<Integer> coins;

//constructor that takes sum and list of denominations
//such as [1,5,10,25]
public MinCoinCollectionBacktrack(int amount,List<Integer> denominationList) {
sum=amount;
coins=denominationList;
}

//calculate the minimum coins
//uses map to store sum-->list of combinations
//eg 3-->[2,1], 4 -->[2,2] for a given denomination list of [1,2,5]
public  List<Integer> Mincoins() {
Map<Integer, List<Integer>> lenChoices=new HashMap<Integer,List<Integer>>();
int maxdenomination=Collections.max(coins);
Integer sum1= new Integer(sum);
return minCoins(lenChoices,sum,maxdenomination);

}

//wrapper method for MinCoins, it takes a map and updates as when
//minimum configuration of a sum is found. stores the value
//as described above
private List<Integer> minCoins(Map<Integer, List<Integer>> lenChoices, int value,int maxdenomination) {
//check if sum is a key in map, then return its value
if (lenChoices.containsKey(value)) {
return lenChoices.get(value);
//check if the coinlist contains sum, if yes, it creates a
//new key value pair to the Map
} else if (coins.contains(value)) {
List<Integer> newlist = new ArrayList<Integer>();
lenChoices.put(value,newlist);
return lenChoices.get(value);
//if the denomiation is > sum, just return empty list
} else if (maxdenomination > value) {
List<Integer> newlist = new ArrayList<Integer>();
lenChoices.put(value,newlist);
return lenChoices.get(value);
//here is where recursive backtracking happens
} else {
int minLength=0;
List<Integer> minConfig=new ArrayList<Integer>();
for (int coin : coins) {
List<Integer> results = minCoins(lenChoices,value - coin,maxdenomination);
if (!results.isEmpty()) {
if (minLength==0 || (1+results.size()) < minConfig.size()) {
minConfig=results;
minLength=minConfig.size();
}
}
}
lenChoices.put(value,minConfig);
return lenChoices.get(value);
}
}

public static void main(String[] args) {
System.out.println("enter the denoninations, hit enter to Zero(0) to finish");
Scanner console = new Scanner(System.in);
List<Integer> coinlist= new ArrayList<Integer>();
int input = console.nextInt();
while (input>0) {
input = console.nextInt();
}
System.out.println("coin collections are :"+ coinlist);
System.out.println("enter the sum for which you need minimum coins");
input = console.nextInt();
MinCoinCollectionBacktrack result=new MinCoinCollectionBacktrack(input,coinlist);
List<Integer> output = result.Mincoins();
System.out.println("you require " + output.size() + " coins in the"
+ " following combination " + output);

}

}


please feel free to comment on potential areas of improvement on style and algorithm. Thanks!

-
Do you really need Map? Are you informed with D.P equation for this problem? You haven't correctly implemented the recursion equation. Try to look here: ccs.neu.edu/home/jaa/CSG713.04F/Information/Handouts/…. – Nishant Shreshth Aug 1 '13 at 22:45
//if the denomiation is > sum, just return empty list Your code here will return empty list for following input: coins: {1,2,5,10,20,50,100,500,1000} value: 150 your result: empty list; expected result: {50,100} – Nishant Shreshth Aug 1 '13 at 22:49
This is how my code is intended for : the empty list is used for look up in map. what it means is that no combination of 1000 can form the expected result of 150, and thats why I assign it to empty list, 1000 --> [], where as 50 -->[3]. I could be wrong too.please correct me if you think so – brain storm Aug 1 '13 at 23:51

In general your code is quite convoluted! I tried a few changes and if I understand correctly what you are trying to do, just a few new lines are enough to get proper values. Of course I haven't tried this with every possible combination, so you are welcome to present me with one that breaks the result!

Mincoins method:

  public  List<Integer> Mincoins() {
Map<Integer, List<Integer>> lenChoices=new HashMap<Integer, List<Integer>>();
Collections.sort(coins, Collections.reverseOrder()); // since later on in the code you are iterating over your coins, it makes sense to sort them with the largest first so that you are slowly left with the bits that can not be divided by the larger values and have more probability to be caught be the small ones
int maxdenomination=Collections.max(coins);
Integer sum1= new Integer(sum);
List<Integer> result = new ArrayList<Integer>();
for (Integer c: coins) { //as per  Nishant Shreshth's comment, you need to check all invalid coins first and don't bother unless one which produces results is found
println(c);
result = minCoins(lenChoices, sum, c, 0);
lenChoices.clear();
if (result.size() > 0) break;
}
return result;
}


minCoins method @ else {

else {
int minLength=0;
List<Integer> minConfig=new ArrayList<Integer>();
for (int coin : coins) {
List<Integer> results = minCoins(lenChoices, value - coin, maxdenomination);
if (!results.isEmpty()) {
if (minLength==0 || (1+results.size()) < minConfig.size()) {

seems to work, Thanks for your time. I will do more vigorous test. while the changes you made here makes sense, I dont know why it is necessary. you use break since you start with highest denomination of coin and go lower( you use reverse-sorted list). I was going through all coin denominations and trying to find the best combination I can make of for example, a sum of 4 can be made by (2,2) and (2,1,1) if my coin set is [1,2]. I will choose (2,2) since its length is small. I am finding it hard to find where I am going wrong, though the code seems to make sense – brain storm Aug 1 '13 at 23:07