Description#
You are given an integer array nums of length n and an integer numSlots such that 2 * numSlots >= n. There are numSlots slots numbered from 1 to numSlots.
You have to place all n integers into the slots such that each slot contains at most two numbers. The AND sum of a given placement is the sum of the bitwise AND of every number with its respective slot number.
- For example, the AND sum of placing the numbers
[1, 3] into slot 1 and [4, 6] into slot 2 is equal to (1 AND 1) + (3 AND 1) + (4 AND 2) + (6 AND 2) = 1 + 1 + 0 + 2 = 4.
Return the maximum possible AND sum of nums given numSlots slots.
Example 1:
Input: nums = [1,2,3,4,5,6], numSlots = 3
Output: 9
Explanation: One possible placement is [1, 4] into slot 1, [2, 6] into slot 2, and [3, 5] into slot 3.
This gives the maximum AND sum of (1 AND 1) + (4 AND 1) + (2 AND 2) + (6 AND 2) + (3 AND 3) + (5 AND 3) = 1 + 0 + 2 + 2 + 3 + 1 = 9.
Example 2:
Input: nums = [1,3,10,4,7,1], numSlots = 9
Output: 24
Explanation: One possible placement is [1, 1] into slot 1, [3] into slot 3, [4] into slot 4, [7] into slot 7, and [10] into slot 9.
This gives the maximum AND sum of (1 AND 1) + (1 AND 1) + (3 AND 3) + (4 AND 4) + (7 AND 7) + (10 AND 9) = 1 + 1 + 3 + 4 + 7 + 8 = 24.
Note that slots 2, 5, 6, and 8 are empty which is permitted.
Constraints:
n == nums.length1 <= numSlots <= 91 <= n <= 2 * numSlots1 <= nums[i] <= 15
Solutions#
Solution 1#
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| class Solution:
def maximumANDSum(self, nums: List[int], numSlots: int) -> int:
n = len(nums)
m = numSlots << 1
f = [0] * (1 << m)
for i in range(1 << m):
cnt = i.bit_count()
if cnt > n:
continue
for j in range(m):
if i >> j & 1:
f[i] = max(f[i], f[i ^ (1 << j)] + (nums[cnt - 1] & (j // 2 + 1)))
return max(f)
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| class Solution {
public int maximumANDSum(int[] nums, int numSlots) {
int n = nums.length;
int m = numSlots << 1;
int[] f = new int[1 << m];
int ans = 0;
for (int i = 0; i < 1 << m; ++i) {
int cnt = Integer.bitCount(i);
if (cnt > n) {
continue;
}
for (int j = 0; j < m; ++j) {
if ((i >> j & 1) == 1) {
f[i] = Math.max(f[i], f[i ^ (1 << j)] + (nums[cnt - 1] & (j / 2 + 1)));
}
}
ans = Math.max(ans, f[i]);
}
return ans;
}
}
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| class Solution {
public:
int maximumANDSum(vector<int>& nums, int numSlots) {
int n = nums.size();
int m = numSlots << 1;
int f[1 << m];
memset(f, 0, sizeof(f));
for (int i = 0; i < 1 << m; ++i) {
int cnt = __builtin_popcount(i);
if (cnt > n) {
continue;
}
for (int j = 0; j < m; ++j) {
if (i >> j & 1) {
f[i] = max(f[i], f[i ^ (1 << j)] + (nums[cnt - 1] & (j / 2 + 1)));
}
}
}
return *max_element(f, f + (1 << m));
}
};
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| func maximumANDSum(nums []int, numSlots int) int {
n := len(nums)
m := numSlots << 1
f := make([]int, 1<<m)
for i := range f {
cnt := bits.OnesCount(uint(i))
if cnt > n {
continue
}
for j := 0; j < m; j++ {
if i>>j&1 == 1 {
f[i] = max(f[i], f[i^(1<<j)]+(nums[cnt-1]&(j/2+1)))
}
}
}
return slices.Max(f)
}
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| function maximumANDSum(nums: number[], numSlots: number): number {
const n = nums.length;
const m = numSlots << 1;
const f: number[] = new Array(1 << m).fill(0);
for (let i = 0; i < 1 << m; ++i) {
const cnt = i
.toString(2)
.split('')
.filter(c => c === '1').length;
if (cnt > n) {
continue;
}
for (let j = 0; j < m; ++j) {
if (((i >> j) & 1) === 1) {
f[i] = Math.max(f[i], f[i ^ (1 << j)] + (nums[cnt - 1] & ((j >> 1) + 1)));
}
}
}
return Math.max(...f);
}
|
