Given a rod of length n inches and an array of prices that contains prices of all pieces of size smaller than n. Determine the maximum value obtainable by cutting up the rod and selling the pieces. For example, if length of the rod is 8 and the values of different pieces are given as following, then the maximum obtainable value is 22 (by cutting in two pieces of lengths 2 and 6)

length | 1 2 3 4 5 6 7 8 -------------------------------------------- price | 1 5 8 9 10 17 17 20

And if the prices are as following, then the maximum obtainable value is 24 (by cutting in eight pieces of length 1)

length | 1 2 3 4 5 6 7 8 -------------------------------------------- price | 3 5 8 9 10 17 17 20

A naive solution for this problem is to generate all configurations of different pieces and find the highest priced configuration. This solution is exponential in term of time complexity. Let us see how this problem possesses both important properties of a Dynamic Programming (DP) Problem and can efficiently solved using Dynamic Programming.

**1) Optimal Substructure: **

We can get the best price by making a cut at different positions and comparing the values obtained after a cut. We can recursively call the same function for a piece obtained after a cut.

Let cutRod(n) be the required (best possible price) value for a rod of length n. cutRod(n) can be written as following.

cutRod(n) = max(price[i] + cutRod(n-i-1)) for all i in {0, 1 .. n-1}

**2) Overlapping Subproblems**

Following is simple recursive implementation of the Rod Cutting problem. The implementation simply follows the recursive structure mentioned above.

## C++

// A Naive recursive solution for Rod cutting problem #include<stdio.h> #include<limits.h> // A utility function to get the maximum of two integers int max(int a, int b) { return (a > b)? a : b;} /* Returns the best obtainable price for a rod of length n and price[] as prices of different pieces */ int cutRod(int price[], int n) { if (n <= 0) return 0; int max_val = INT_MIN; // Recursively cut the rod in different pieces and compare different // configurations for (int i = 0; i<n; i++) max_val = max(max_val, price[i] + cutRod(price, n-i-1)); return max_val; } /* Driver program to test above functions */ int main() { int arr[] = {1, 5, 8, 9, 10, 17, 17, 20}; int size = sizeof(arr)/sizeof(arr[0]); printf("Maximum Obtainable Value is %dn", cutRod(arr, size)); getchar(); return 0; }

## Java

// // A Naive recursive solution for Rod cutting problem class RodCutting { /* Returns the best obtainable price for a rod of length n and price[] as prices of different pieces */ static int cutRod(int price[], int n) { if (n <= 0) return 0; int max_val = Integer.MIN_VALUE; // Recursively cut the rod in different pieces and // compare different configurations for (int i = 0; i<n; i++) max_val = Math.max(max_val, price[i] + cutRod(price, n-i-1)); return max_val; } /* Driver program to test above functions */ public static void main(String args[]) { int arr[] = new int[] {1, 5, 8, 9, 10, 17, 17, 20}; int size = arr.length; System.out.println("Maximum Obtainable Value is "+ cutRod(arr, size)); } } /* This code is contributed by Rajat Mishra */

## Python

# A Naive recursive solution # for Rod cutting problem import sys # A utility function to get the # maximum of two integers def max(a, b): return a if (a > b) else b # Returns the best obtainable price for a rod of length n # and price[] as prices of different pieces def cutRod(price, n): if(n <= 0): return 0 max_val = -sys.maxsize-1 # Recursively cut the rod in different pieces # and compare different configurations for i in range(0, n): max_val = max(max_val, price[i] + cutRod(price, n - i - 1)) return max_val # Driver code arr = [1, 5, 8, 9, 10, 17, 17, 20] size = len(arr) print("Maximum Obtainable Value is", cutRod(arr, size)) # This code is contributed by 'Smitha Dinesh Semwal'

## C#

// A Naive recursive solution for // Rod cutting problem using System; class GFG { /* Returns the best obtainable price for a rod of length n and price[] as prices of different pieces */ static int cutRod(int []price, int n) { if (n <= 0) return 0; int max_val = int.MinValue; // Recursively cut the rod in // different pieces and compare // different configurations for (int i = 0; i < n; i++) max_val = Math.Max(max_val, price[i] + cutRod(price, n - i - 1)); return max_val; } // Driver Code public static void Main() { int []arr = new int[] {1, 5, 8, 9, 10, 17, 17, 20}; int size = arr.Length; Console.WriteLine("Maximum Obtainable Value is "+ cutRod(arr, size)); } } // This code is contributed by Sam007

## PHP

<?php // A Naive recursive solution for // Rod cutting problem /* Returns the best obtainable price for a rod of length n and price[] as prices of different pieces */ function cutRod( $price, $n) { if ($n <= 0) return 0; $max_val = PHP_INT_MIN; // Recursively cut the rod in different // pieces and compare different // configurations for ($i = 0; $i < $n; $i++) $max_val = max($max_val, $price[$i] + cutRod($price, $n - $i - 1)); return $max_val; } // Driver Code $arr = array(1, 5, 8, 9, 10, 17, 17, 20); $size =count($arr); echo "Maximum Obtainable Value is " , cutRod($arr, $size); // This code is contributed anuj_67. ?>

Output:

Maximum Obtainable Value is 22

Considering the above implementation, following is recursion tree for a Rod of length 4.

cR() ---> cutRod() cR(4) / / / / cR(3) cR(2) cR(1) cR(0) / | / | / | / | cR(2) cR(1) cR(0) cR(1) cR(0) cR(0) / | | / | | cR(1) cR(0) cR(0) cR(0) / / CR(0)

In the above partial recursion tree, cR(2) is being solved twice. We can see that there are many subproblems which are solved again and again. Since same suproblems are called again, this problem has Overlapping Subprolems property. So the Rod Cutting problem has both properties (see this and this) of a dynamic programming problem. Like other typical Dynamic Programming(DP) problems, recomputations of same subproblems can be avoided by constructing a temporary array val[] in bottom up manner.

## C++

// A Dynamic Programming solution for Rod cutting problem #include<stdio.h> #include<limits.h> // A utility function to get the maximum of two integers int max(int a, int b) { return (a > b)? a : b;} /* Returns the best obtainable price for a rod of length n and price[] as prices of different pieces */ int cutRod(int price[], int n) { int val[n+1]; val[0] = 0; int i, j; // Build the table val[] in bottom up manner and return the last entry // from the table for (i = 1; i<=n; i++) { int max_val = INT_MIN; for (j = 0; j < i; j++) max_val = max(max_val, price[j] + val[i-j-1]); val[i] = max_val; } return val[n]; } /* Driver program to test above functions */ int main() { int arr[] = {1, 5, 8, 9, 10, 17, 17, 20}; int size = sizeof(arr)/sizeof(arr[0]); printf("Maximum Obtainable Value is %dn", cutRod(arr, size)); getchar(); return 0; }

## Java

// A Dynamic Programming solution for Rod cutting problem class RodCutting { /* Returns the best obtainable price for a rod of length n and price[] as prices of different pieces */ static int cutRod(int price[],int n) { int val[] = new int[n+1]; val[0] = 0; // Build the table val[] in bottom up manner and return // the last entry from the table for (int i = 1; i<=n; i++) { int max_val = Integer.MIN_VALUE; for (int j = 0; j < i; j++) max_val = Math.max(max_val, price[j] + val[i-j-1]); val[i] = max_val; } return val[n]; } /* Driver program to test above functions */ public static void main(String args[]) { int arr[] = new int[] {1, 5, 8, 9, 10, 17, 17, 20}; int size = arr.length; System.out.println("Maximum Obtainable Value is " + cutRod(arr, size)); } } /* This code is contributed by Rajat Mishra */

## Python

# A Dynamic Programming solution for Rod cutting problem INT_MIN = -32767 # Returns the best obtainable price for a rod of length n and # price[] as prices of different pieces def cutRod(price, n): val = [0 for x in range(n+1)] val[0] = 0 # Build the table val[] in bottom up manner and return # the last entry from the table for i in range(1, n+1): max_val = INT_MIN for j in range(i): max_val = max(max_val, price[j] + val[i-j-1]) val[i] = max_val return val[n] # Driver program to test above functions arr = [1, 5, 8, 9, 10, 17, 17, 20] size = len(arr) print("Maximum Obtainable Value is " + str(cutRod(arr, size))) # This code is contributed by Bhavya Jain

## C#

// A Dynamic Programming solution // for Rod cutting problem using System; class GFG { /* Returns the best obtainable price for a rod of length n and price[] as prices of different pieces */ static int cutRod(int []price,int n) { int []val = new int[n + 1]; val[0] = 0; // Build the table val[] in // bottom up manner and return // the last entry from the table for (int i = 1; i<=n; i++) { int max_val = int.MinValue; for (int j = 0; j < i; j++) max_val = Math.Max(max_val, price[j] + val[i - j - 1]); val[i] = max_val; } return val[n]; } // Driver Code public static void Main() { int []arr = new int[] {1, 5, 8, 9, 10, 17, 17, 20}; int size = arr.Length; Console.WriteLine("Maximum Obtainable Value is " + cutRod(arr, size)); } } // This code is contributed by Sam007

## PHP

<?php // A Dynamic Programming solution for // Rod cutting problem /* Returns the best obtainable price for a rod of length n and price[] as prices of different pieces */ function cutRod( $price, $n) { $val = array(); $val[0] = 0; $i; $j; // Build the table val[] in bottom // up manner and return the last // entry from the table for ($i = 1; $i <= $n; $i++) { $max_val = PHP_INT_MIN; for ($j = 0; $j < $i; $j++) $max_val = max($max_val, $price[$j] + $val[$i-$j-1]); $val[$i] = $max_val; } return $val[$n]; } // Driver program to test above functions $arr = array(1, 5, 8, 9, 10, 17, 17, 20); $size = count($arr); echo "Maximum Obtainable Value is ", cutRod($arr, $size); // This code is contributed by anuj_67. ?>

Output:

Maximum Obtainable Value is 22

Time Complexity of the above implementation is O(n^2) which is much better than the worst-case time complexity of Naive Recursive implementation.

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