57 lines
1.4 KiB
Java
57 lines
1.4 KiB
Java
package DynamicProgramming;
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// Here is the top-down approach of
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// dynamic programming
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public class MemoizationTechniqueKnapsack {
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// A utility function that returns
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// maximum of two integers
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static int max(int a, int b) {
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return (a > b) ? a : b;
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}
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// Returns the value of maximum profit
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static int knapSackRec(int W, int wt[], int val[], int n, int[][] dp) {
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// Base condition
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if (n == 0 || W == 0) return 0;
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if (dp[n][W] != -1) return dp[n][W];
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if (wt[n - 1] > W)
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// Store the value of function call
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// stack in table before return
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return dp[n][W] = knapSackRec(W, wt, val, n - 1, dp);
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else
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// Return value of table after storing
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return dp[n][W] =
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max(
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(val[n - 1] + knapSackRec(W - wt[n - 1], wt, val, n - 1, dp)),
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knapSackRec(W, wt, val, n - 1, dp));
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}
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static int knapSack(int W, int wt[], int val[], int N) {
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// Declare the table dynamically
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int dp[][] = new int[N + 1][W + 1];
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// Loop to initially filled the
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// table with -1
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for (int i = 0; i < N + 1; i++) for (int j = 0; j < W + 1; j++) dp[i][j] = -1;
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return knapSackRec(W, wt, val, N, dp);
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}
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// Driver Code
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public static void main(String[] args) {
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int val[] = {60, 100, 120};
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int wt[] = {10, 20, 30};
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int W = 50;
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int N = val.length;
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System.out.println(knapSack(W, wt, val, N));
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}
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}
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