# Coin Change :Dynamic Programming

The code I have written solves the basic coin change problem using dynamic programming and gives the minimum number of coins required to make the change. But I want to store the count of each coin playing part in the minimum number.

What I am trying to do is initializing an array `count[]` and just like hashing it increments the number of `coin[j]` whenever `min` is found, i.e `count[coin[j]]++` . But this is not working the way I wanted because it adds the coin every time it finds `min` corresponding to `coin[j]`. Hence the number is not the final count of coin in the final answer.

Here is the code:

``````void makeChange(int coin[], int n, int value)
{
int i, j;
int min_coin[MAX];
int min;

int count[MAX];
min_coin = 0;

for (i=1; i <= value; i++)
{
min = 999;
for (j = 0; j<n; j++)
{
if (coin[j] <= i)
{
if (min > min_coin[i-coin[j]]+1)
{
min = min_coin[i-coin[j]]+1;
count[coin[j]]++;
}
}
}
min_coin[i] = min;
}

printf("minimum coins required %d \n", min_coin[value]);

}
``````

## 2 Answers

You have to keep an extra, two-dinemsional array to store the coin count for each value and each coin denomination.

When you assign a new minimum in your inner loop, copy all coin counts from `i - coin[j]` to i and then increment `min_count[i][j]`. The number of coins needed is then in `coin_count[value]`.

As you already noted, the bottom-up solution adds the coin every time, not only when `i == value`, but if you want to know the count of coins when `i == value`, it depends on the the counts of coins of sub-problems, so we need store previous computations with a 2-D array:

``````#include <stdio.h>

#define MAX 1000
#define COIN_ARRAY_SIZE 4

void makeChange(int coin[], int n, int value)
{
int i, j, k;
int min_coin[MAX];

int count[MAX + 1][COIN_ARRAY_SIZE] = {0}; // zeroing
int min;

//int count[MAX];
min_coin = 0;

for (i=1; i <= value; i++)
{
min = 999;
for (j = 0; j<n; j++)
{
if (coin[j] <= i)
{
if (min > min_coin[i-coin[j]]+1)
{
min = min_coin[i-coin[j]]+1;
for(k = 0; k < n; ++k)
{
count[i][k] = count[i-coin[j]][k]; // copy coin counts when value=i-coin[j]
}
count[i][j]++; // use a coin[j], increase the count
}
}
}
min_coin[i] = min;
}

printf("minimum coins required %d \n", min_coin[value]);
for(int i = 0; i < COIN_ARRAY_SIZE; ++i)
printf("%d: %d\n", coin[i], count[value][i]);

}
``````

Driver program to test above function:

``````int main()
{
int coin[COIN_ARRAY_SIZE] = {5,3,2,1};
makeChange(coin, 4, 8);
makeChange(coin, 4, 10);
};
``````