Posts tagged as “easy”

花花酱 LeetCode 2562. Find the Array Concatenation Value

By zxi on February 12, 2023

You are given a 0-indexed integer array nums.

The concatenation of two numbers is the number formed by concatenating their numerals.

For example, the concatenation of 15, 49 is 1549.

The concatenation value of nums is initially equal to 0. Perform this operation until nums becomes empty:

If there exists more than one number in nums, pick the first element and last element in nums respectively and add the value of their concatenation to the concatenation value of nums, then delete the first and last element from nums.
If one element exists, add its value to the concatenation value of nums, then delete it.

Return the concatenation value of the nums.

Example 1:

Input: nums = [7,52,2,4]
Output: 596
Explanation: Before performing any operation, nums is [7,52,2,4] and concatenation value is 0.
 - In the first operation:
We pick the first element, 7, and the last element, 4.
Their concatenation is 74, and we add it to the concatenation value, so it becomes equal to 74.
Then we delete them from nums, so nums becomes equal to [52,2].
 - In the second operation:
We pick the first element, 52, and the last element, 2.
Their concatenation is 522, and we add it to the concatenation value, so it becomes equal to 596.
Then we delete them from the nums, so nums becomes empty.
Since the concatenation value is 596 so the answer is 596.

Example 2:

Input: nums = [5,14,13,8,12]
Output: 673
Explanation: Before performing any operation, nums is [5,14,13,8,12] and concatenation value is 0.
 - In the first operation:
We pick the first element, 5, and the last element, 12.
Their concatenation is 512, and we add it to the concatenation value, so it becomes equal to 512.
Then we delete them from the nums, so nums becomes equal to [14,13,8].
 - In the second operation:
We pick the first element, 14, and the last element, 8.
Their concatenation is 148, and we add it to the concatenation value, so it becomes equal to 660.
Then we delete them from the nums, so nums becomes equal to [13].
 - In the third operation:
nums has only one element, so we pick 13 and add it to the concatenation value, so it becomes equal to 673.
Then we delete it from nums, so nums become empty.
Since the concatenation value is 673 so the answer is 673.

Constraints:

1 <= nums.length <= 1000
1 <= nums[i] <= 10⁴

Solution: Follow the rules

Time complexity: O(sum(log(nums[i]))
Space complexity: O(1)

C++

// Author: Huahua

class Solution {

public:

long long findTheArrayConcVal(vector<int>& nums) {

long long ans = 0;

const int n = nums.size();

for (int i = 0; i < n / 2; ++i) {

int cur = nums[i];

for (int t = nums[n - i - 1]; t > 0; t /= 10)

cur *= 10;

cur += nums[n - i - 1];

ans += cur;

}

if (n & 1) ans += nums[n / 2];

return ans;

}

};

花花酱 LeetCode 2558. Take Gifts From the Richest Pile

By zxi on February 4, 2023

You are given an integer array gifts denoting the number of gifts in various piles. Every second, you do the following:

Choose the pile with the maximum number of gifts.
If there is more than one pile with the maximum number of gifts, choose any.
Leave behind the floor of the square root of the number of gifts in the pile. Take the rest of the gifts.

Return the number of gifts remaining after k seconds.

Example 1:

Input: gifts = [25,64,9,4,100], k = 4
Output: 29
Explanation: 
The gifts are taken in the following way:
- In the first second, the last pile is chosen and 10 gifts are left behind.
- Then the second pile is chosen and 8 gifts are left behind.
- After that the first pile is chosen and 5 gifts are left behind.
- Finally, the last pile is chosen again and 3 gifts are left behind.
The final remaining gifts are [5,8,9,4,3], so the total number of gifts remaining is 29.

Example 2:

Input: gifts = [1,1,1,1], k = 4
Output: 4
Explanation: 
In this case, regardless which pile you choose, you have to leave behind 1 gift in each pile. 
That is, you can't take any pile with you. 
So, the total gifts remaining are 4.

Constraints:

1 <= gifts.length <= 10³
1 <= gifts[i] <= 10⁹
1 <= k <= 10³

Solution: Priority Queue

Keep all numbers in a priority queue (max heap), each time extract the top one (largest one), then put num – sqrt(num) back to the queue.

Tip: We can early return if all the numbers become 1.

Time complexity: O(n + klogn)
Space complexity: O(n)

C++

// Author: Huahua

class Solution {

public:

long long pickGifts(vector<int>& gifts, int k) {

long long ans = accumulate(begin(gifts), end(gifts), 0LL);

priority_queue<int> q(begin(gifts), end(gifts));

while (k-- && q.top() > 1) {

int cur = q.top(); q.pop();

int next = sqrt(cur);

ans -= (cur - next);

q.push(next);

}

return ans;

}

};

花花酱 LeetCode 2469. Convert the Temperature

By zxi on November 22, 2022

You are given a non-negative floating point number rounded to two decimal places celsius, that denotes the temperature in Celsius.

You should convert Celsius into Kelvin and Fahrenheit and return it as an array ans = [kelvin, fahrenheit].

Return the array ans. Answers within 10^-5 of the actual answer will be accepted.

Note that:

Kelvin = Celsius + 273.15
Fahrenheit = Celsius * 1.80 + 32.00

Example 1:

Input: celsius = 36.50
Output: [309.65000,97.70000]
Explanation: Temperature at 36.50 Celsius converted in Kelvin is 309.65 and converted in Fahrenheit is 97.70.

Example 2:

Input: celsius = 122.11
Output: [395.26000,251.79800]
Explanation: Temperature at 122.11 Celsius converted in Kelvin is 395.26 and converted in Fahrenheit is 251.798.

Constraints:

0 <= celsius <= 1000

Solution: Follow the formulas

Time complexity: O(1)
Space complexity: O(1)

C++

// Author: Huahua

class Solution {

public:

vector<double> convertTemperature(double celsius) {

return {celsius + 273.15, celsius * 1.80 + 32.00};

}

};

花花酱 LeetCode 2475. Number of Unequal Triplets in Array

By zxi on November 21, 2022

You are given a 0-indexed array of positive integers nums. Find the number of triplets (i, j, k) that meet the following conditions:

0 <= i < j < k < nums.length
nums[i], nums[j], and nums[k] are pairwise distinct.
- In other words, nums[i] != nums[j], nums[i] != nums[k], and nums[j] != nums[k].

Return the number of triplets that meet the conditions.

Example 1:

Input: nums = [4,4,2,4,3]
Output: 3
Explanation: The following triplets meet the conditions:
- (0, 2, 4) because 4 != 2 != 3
- (1, 2, 4) because 4 != 2 != 3
- (2, 3, 4) because 2 != 4 != 3
Since there are 3 triplets, we return 3.
Note that (2, 0, 4) is not a valid triplet because 2 > 0.

Example 2:

Input: nums = [1,1,1,1,1]
Output: 0
Explanation: No triplets meet the conditions so we return 0.

Constraints:

3 <= nums.length <= 100
1 <= nums[i] <= 1000

Solution 1: Brute Force

Enumerate i, j, k.

Time complexity: O(n³)
Space complexity: O(1)

C++

// Author: Huahua

class Solution {

public:

int unequalTriplets(vector<int>& nums) {

int ans = 0;

const int n = nums.size();

for (int i = 0; i < n; ++i)

for (int j = i + 1; j < n; ++j)

for (int k = j + 1; k < n; ++k)

if (nums[i] != nums[j] && nums[j] != nums[k] && nums[i] != nums[k])

++ans;

return ans;

}

};

花花酱 LeetCode 2451. Odd String Difference

By zxi on October 31, 2022

You are given an array of equal-length strings words. Assume that the length of each string is n.

Each string words[i] can be converted into a difference integer array difference[i] of length n - 1 where difference[i][j] = words[i][j+1] - words[i][j] where 0 <= j <= n - 2. Note that the difference between two letters is the difference between their positions in the alphabet i.e. the position of 'a' is 0, 'b' is 1, and 'z' is 25.

For example, for the string "acb", the difference integer array is [2 - 0, 1 - 2] = [2, -1].

All the strings in words have the same difference integer array, except one. You should find that string.

Return the string in words that has different difference integer array.

Example 1:

Input: words = ["adc","wzy","abc"]
Output: "abc"
Explanation: 
- The difference integer array of "adc" is [3 - 0, 2 - 3] = [3, -1].
- The difference integer array of "wzy" is [25 - 22, 24 - 25]= [3, -1].
- The difference integer array of "abc" is [1 - 0, 2 - 1] = [1, 1]. 
The odd array out is [1, 1], so we return the corresponding string, "abc".

Example 2:

Input: words = ["aaa","bob","ccc","ddd"]
Output: "bob"
Explanation: All the integer arrays are [0, 0] except for "bob", which corresponds to [13, -13].

Constraints:

3 <= words.length <= 100
n == words[i].length
2 <= n <= 20
words[i] consists of lowercase English letters.

Solution: Comparing with first string.

Let us pick words[0] as a reference for comparison, assuming it’s valid. If we only found one instance say words[i], that is different than words[0], we know that words[i] is bad, otherwise we should see m – 1 different words which means words[0] itself is bad.

Time complexity: O(m*n)
Space complexity: O(1)

C++

// Author: Huahua

class Solution {

public:

string oddString(vector<string>& words) {

const int m = words.size();

const int n = words[0].size();

int count = 0;

int bad = 0;

for (int i = 1; i < m; ++i)

for (int j = 1; j < n; ++j) {

if (words[i][j] - words[i][j - 1]

!= words[0][j] - words[0][j - 1]) {

++count;

bad = i;

break;

}

return words[count == 1 ? bad : 0];

}

};