I have the following code for subset sum which is suitable for integers. How to extend this code to double data type input? for example, how to extend this same code when the input is 1.01,2.65,3.08,4.07,5.12 (say) and output is 15.62 (say).These inputs and out are example even if they vary the code should work.
// A Java program to count all subsets with given sum.
import java.util.ArrayList;
public class subset_sum
{
// dp[i][j] is going to store true if sum j is
// possible with array elements from 0 to i.
static boolean[][] dp;
static void display(ArrayList<Integer> v)
{
System.out.println(v);
}
// A recursive function to print all subsets with the
// help of dp[][]. Vector p[] stores current subset.
static void printSubsetsRec(int arr[], int i, int sum,
ArrayList<Integer> p)
{
// If we reached end and sum is non-zero. We print
// p[] only if arr[0] is equal to sun OR dp[0][sum]
// is true.
if (i == 0 && sum != 0 && dp[0][sum])
{
p.add(arr[i]);
display(p);
p.clear();
return;
}
// If sum becomes 0
if (i == 0 && sum == 0)
{
display(p);
p.clear();
return;
}
// If given sum can be achieved after ignoring
// current element.
if (dp[i-1][sum])
{
// Create a new vector to store path
ArrayList<Integer> b = new ArrayList<>();
b.addAll(p);
printSubsetsRec(arr, i-1, sum, b);
}
// If given sum can be achieved after considering
// current element.
if (sum >= arr[i] && dp[i-1][sum-arr[i]])
{
p.add(arr[i]);
printSubsetsRec(arr, i-1, sum-arr[i], p);
}
}
// Prints all subsets of arr[0..n-1] with sum 0.
static void printAllSubsets(int arr[], int n, int sum)
{
if (n == 0 || sum < 0)
return;
// Sum 0 can always be achieved with 0 elements
dp = new boolean[n][sum + 1];
for (int i=0; i<n; ++i)
{
dp[i][0] = true;
}
// Sum arr[0] can be achieved with single element
if (arr[0] <= sum)
dp[0][arr[0]] = true;
// Fill rest of the entries in dp[][]
for (int i = 1; i < n; ++i)
for (int j = 0; j < sum + 1; ++j)
dp[i][j] = (arr[i] <= j) ? (dp[i-1][j] ||
dp[i-1][j-arr[i]])
: dp[i - 1][j];
if (dp[n-1][sum] == false)
{
System.out.println("There are no subsets with" +
" sum "+ sum);
return;
}
// Now recursively traverse dp[][] to find all
// paths from dp[n-1][sum]
ArrayList<Integer> p = new ArrayList<>();
printSubsetsRec(arr, n-1, sum, p);
}
//Driver Program to test above functions
public static void main(String args[])
{
int arr[] = {1, 2, 3, 4, 5};
int n = arr.length;
int sum = 10;
printAllSubsets(arr, n, sum);
}
}
Output:[4, 3, 2, 1] [5, 3, 2] [5, 4, 1]
I found answer to this question by simply converting double to integer by calculating decimal places and multiply it by 100(say) as the algorithm uses addition this change does not affect final values in that case I divided the final value by 100 to get the result and displayed it in double data type