1187. Make Array Strictly Increasing

May 17, 2024 · View on GitHub

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Description

Given two integer arrays arr1 and arr2, return the minimum number of operations (possibly zero) needed to make arr1 strictly increasing.

In one operation, you can choose two indices 0 <= i < arr1.length and 0 <= j < arr2.length and do the assignment arr1[i] = arr2[j].

If there is no way to make arr1 strictly increasing, return -1.

 

Example 1:

Input: arr1 = [1,5,3,6,7], arr2 = [1,3,2,4]
Output: 1
Explanation: Replace 5 with 2, then arr1 = [1, 2, 3, 6, 7].

Example 2:

Input: arr1 = [1,5,3,6,7], arr2 = [4,3,1]
Output: 2
Explanation: Replace 5 with 3 and then replace 3 with 4. arr1 = [1, 3, 4, 6, 7].

Example 3:

Input: arr1 = [1,5,3,6,7], arr2 = [1,6,3,3]
Output: -1
Explanation: You can't make arr1 strictly increasing.

 

Constraints:

  • 1 <= arr1.length, arr2.length <= 2000
  • 0 <= arr1[i], arr2[i] <= $10^{9}$

 

Solutions

Solution 1: Dynamic Programming

We define f[i]f[i] as the minimum number of operations to convert arr1[0,..,i]arr1[0,..,i] into a strictly increasing array, and arr1[i]arr1[i] is not replaced. Therefore, we set two sentinels -\infty and \infty at the beginning and end of arr1arr1. The last number is definitely not replaced, so f[n1]f[n-1] is the answer. We initialize f[0]=0f[0]=0, and the rest f[i]=f[i]=\infty.

Next, we sort the array arr2arr2 and remove duplicates for easy binary search.

For i=1,..,n1i=1,..,n-1, we consider whether arr1[i1]arr1[i-1] is replaced. If arr1[i1]<arr1[i]arr1[i-1] \lt arr1[i], then f[i]f[i] can be transferred from f[i1]f[i-1], that is, f[i]=f[i1]f[i] = f[i-1]. Then, we consider the case where arr[i1]arr[i-1] is replaced. Obviously, arr[i1]arr[i-1] should be replaced with a number as large as possible and less than arr[i]arr[i]. We perform a binary search in the array arr2arr2 and find the first index jj that is greater than or equal to arr[i]arr[i]. Then we enumerate the number of replacements in the range k[1,min(i1,j)]k \in [1, min(i-1, j)]. If arr[ik1]<arr2[jk]arr[i-k-1] \lt arr2[j-k], then f[i]f[i] can be transferred from f[ik1]f[i-k-1], that is, f[i]=min(f[i],f[ik1]+k)f[i] = \min(f[i], f[i-k-1] + k).

Finally, if f[n1]f[n-1] \geq \infty, it means that it cannot be converted into a strictly increasing array, return 1-1, otherwise return f[n1]f[n-1].

The time complexity is (n×(logm+min(m,n)))(n \times (\log m + \min(m, n))), and the space complexity is O(n)O(n). Here, nn is the length of arr1arr1.

Python3

class Solution:
    def makeArrayIncreasing(self, arr1: List[int], arr2: List[int]) -> int:
        arr2.sort()
        m = 0
        for x in arr2:
            if m == 0 or x != arr2[m - 1]:
                arr2[m] = x
                m += 1
        arr2 = arr2[:m]
        arr = [-inf] + arr1 + [inf]
        n = len(arr)
        f = [inf] * n
        f[0] = 0
        for i in range(1, n):
            if arr[i - 1] < arr[i]:
                f[i] = f[i - 1]
            j = bisect_left(arr2, arr[i])
            for k in range(1, min(i - 1, j) + 1):
                if arr[i - k - 1] < arr2[j - k]:
                    f[i] = min(f[i], f[i - k - 1] + k)
        return -1 if f[n - 1] >= inf else f[n - 1]

Java

class Solution {
    public int makeArrayIncreasing(int[] arr1, int[] arr2) {
        Arrays.sort(arr2);
        int m = 0;
        for (int x : arr2) {
            if (m == 0 || x != arr2[m - 1]) {
                arr2[m++] = x;
            }
        }
        final int inf = 1 << 30;
        int[] arr = new int[arr1.length + 2];
        arr[0] = -inf;
        arr[arr.length - 1] = inf;
        System.arraycopy(arr1, 0, arr, 1, arr1.length);
        int[] f = new int[arr.length];
        Arrays.fill(f, inf);
        f[0] = 0;
        for (int i = 1; i < arr.length; ++i) {
            if (arr[i - 1] < arr[i]) {
                f[i] = f[i - 1];
            }
            int j = search(arr2, arr[i], m);
            for (int k = 1; k <= Math.min(i - 1, j); ++k) {
                if (arr[i - k - 1] < arr2[j - k]) {
                    f[i] = Math.min(f[i], f[i - k - 1] + k);
                }
            }
        }
        return f[arr.length - 1] >= inf ? -1 : f[arr.length - 1];
    }

    private int search(int[] nums, int x, int n) {
        int l = 0, r = n;
        while (l < r) {
            int mid = (l + r) >> 1;
            if (nums[mid] >= x) {
                r = mid;
            } else {
                l = mid + 1;
            }
        }
        return l;
    }
}

C++

class Solution {
public:
    int makeArrayIncreasing(vector<int>& arr1, vector<int>& arr2) {
        sort(arr2.begin(), arr2.end());
        arr2.erase(unique(arr2.begin(), arr2.end()), arr2.end());
        const int inf = 1 << 30;
        arr1.insert(arr1.begin(), -inf);
        arr1.push_back(inf);
        int n = arr1.size();
        vector<int> f(n, inf);
        f[0] = 0;
        for (int i = 1; i < n; ++i) {
            if (arr1[i - 1] < arr1[i]) {
                f[i] = f[i - 1];
            }
            int j = lower_bound(arr2.begin(), arr2.end(), arr1[i]) - arr2.begin();
            for (int k = 1; k <= min(i - 1, j); ++k) {
                if (arr1[i - k - 1] < arr2[j - k]) {
                    f[i] = min(f[i], f[i - k - 1] + k);
                }
            }
        }
        return f[n - 1] >= inf ? -1 : f[n - 1];
    }
};

Go

func makeArrayIncreasing(arr1 []int, arr2 []int) int {
	sort.Ints(arr2)
	m := 0
	for _, x := range arr2 {
		if m == 0 || x != arr2[m-1] {
			arr2[m] = x
			m++
		}
	}
	arr2 = arr2[:m]
	const inf = 1 << 30
	arr1 = append([]int{-inf}, arr1...)
	arr1 = append(arr1, inf)
	n := len(arr1)
	f := make([]int, n)
	for i := range f {
		f[i] = inf
	}
	f[0] = 0
	for i := 1; i < n; i++ {
		if arr1[i-1] < arr1[i] {
			f[i] = f[i-1]
		}
		j := sort.SearchInts(arr2, arr1[i])
		for k := 1; k <= min(i-1, j); k++ {
			if arr1[i-k-1] < arr2[j-k] {
				f[i] = min(f[i], f[i-k-1]+k)
			}
		}
	}
	if f[n-1] >= inf {
		return -1
	}
	return f[n-1]
}

TypeScript

function makeArrayIncreasing(arr1: number[], arr2: number[]): number {
    arr2.sort((a, b) => a - b);
    let m = 0;
    for (const x of arr2) {
        if (m === 0 || x !== arr2[m - 1]) {
            arr2[m++] = x;
        }
    }
    arr2 = arr2.slice(0, m);
    const inf = 1 << 30;
    arr1 = [-inf, ...arr1, inf];
    const n = arr1.length;
    const f: number[] = new Array(n).fill(inf);
    f[0] = 0;
    const search = (arr: number[], x: number): number => {
        let l = 0;
        let r = arr.length;
        while (l < r) {
            const mid = (l + r) >> 1;
            if (arr[mid] >= x) {
                r = mid;
            } else {
                l = mid + 1;
            }
        }
        return l;
    };
    for (let i = 1; i < n; ++i) {
        if (arr1[i - 1] < arr1[i]) {
            f[i] = f[i - 1];
        }
        const j = search(arr2, arr1[i]);
        for (let k = 1; k <= Math.min(i - 1, j); ++k) {
            if (arr1[i - k - 1] < arr2[j - k]) {
                f[i] = Math.min(f[i], f[i - k - 1] + k);
            }
        }
    }
    return f[n - 1] >= inf ? -1 : f[n - 1];
}

C#

public class Solution {
    public int MakeArrayIncreasing(int[] arr1, int[] arr2) {
        Array.Sort(arr2);
        int m = 0;
        foreach (int x in arr2) {
            if (m == 0 || x != arr2[m - 1]) {
                arr2[m++] = x;
            }
        }
        int inf = 1 << 30;
        int[] arr = new int[arr1.Length + 2];
        arr[0] = -inf;
        arr[arr.Length - 1] = inf;
        for (int i = 0; i < arr1.Length; ++i) {
            arr[i + 1] = arr1[i];
        }
        int[] f = new int[arr.Length];
        Array.Fill(f, inf);
        f[0] = 0;
        for (int i = 1; i < arr.Length; ++i) {
            if (arr[i - 1] < arr[i]) {
                f[i] = f[i - 1];
            }
            int j = search(arr2, arr[i], m);
            for (int k = 1; k <= Math.Min(i - 1, j); ++k) {
                if (arr[i - k - 1] < arr2[j - k]) {
                    f[i] = Math.Min(f[i], f[i - k - 1] + k);
                }
            }
        }
        return f[arr.Length - 1] >= inf ? -1 : f[arr.Length - 1];
    }

    private int search(int[] nums, int x, int n) {
        int l = 0, r = n;
        while (l < r) {
            int mid = (l + r) >> 1;
            if (nums[mid] >= x) {
                r = mid;
            } else {
                l = mid + 1;
            }
        }
        return l;
    }
}