README.md

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3007. 价值和小于等于 K 的最大数字

English Version

题目描述

给你一个整数 k 和一个整数 x 。整数 num 的价值是它的二进制表示中在 x，2x，3x 等位置处 设置位 的数目（从最低有效位开始）。下面的表格包含了如何计算价值的例子。

x	num	Binary Representation	Price
1	13	000001101	3
2	13	000001101	1
2	233	011101001	3
3	13	000001101	1
3	362	101101010	2

 

num 的 累加价值 是从 1 到 num 的数字的 总 价值。如果 num 的累加价值小于或等于 k 则被认为是 廉价 的。

请你返回 最大 的廉价数字。

 

示例 1：

输入：k = 9, x = 1
输出：6
解释：由下表所示，6 是最大的廉价数字。

x	num	Binary Representation	Price	Accumulated Price
1	1	001	1	1
1	2	010	1	2
1	3	011	2	4
1	4	100	1	5
1	5	101	2	7
1	6	110	2	9
1	7	111	3	12

示例 2：

输入：k = 7, x = 2
输出：9
解释：由下表所示，9 是最大的廉价数字。

x	num	Binary Representation	Price	Accumulated Price
2	1	0001	0	0
2	2	0010	1	1
2	3	0011	1	2
2	4	0100	0	2
2	5	0101	0	2
2	6	0110	1	3
2	7	0111	1	4
2	8	1000	1	5
2	9	1001	1	6
2	10	1010	2	8

 

提示：

• 1 <= k <= 1015
• 1 <= x <= 8

解法

方法一

Python3

class Solution:
    def findMaximumNumber(self, k: int, x: int) -> int:
        @cache
        def dfs(pos, limit, cnt):
            if pos == 0:
                return cnt
            ans = 0
            up = (self.num >> (pos - 1) & 1) if limit else 1
            for i in range(up + 1):
                ans += dfs(pos - 1, limit and i == up, cnt + (i == 1 and pos % x == 0))
            return ans

        l, r = 1, 10**18
        while l < r:
            mid = (l + r + 1) >> 1
            self.num = mid
            v = dfs(mid.bit_length(), True, 0)
            dfs.cache_clear()
            if v <= k:
                l = mid
            else:
                r = mid - 1
        return l

Java

class Solution {
    private int x;
    private long num;
    private Long[][] f;

    public long findMaximumNumber(long k, int x) {
        this.x = x;
        long l = 1, r = (long) 1e17;
        while (l < r) {
            long mid = (l + r + 1) >>> 1;
            num = mid;
            f = new Long[65][65];
            int pos = 64 - Long.numberOfLeadingZeros(mid);
            if (dfs(pos, 0, true) <= k) {
                l = mid;
            } else {
                r = mid - 1;
            }
        }
        return l;
    }

    private long dfs(int pos, int cnt, boolean limit) {
        if (pos == 0) {
            return cnt;
        }
        if (!limit && f[pos][cnt] != null) {
            return f[pos][cnt];
        }
        long ans = 0;
        int up = limit ? (int) (num >> (pos - 1) & 1) : 1;
        for (int i = 0; i <= up; ++i) {
            ans += dfs(pos - 1, cnt + (i == 1 && pos % x == 0 ? 1 : 0), limit && i == up);
        }
        if (!limit) {
            f[pos][cnt] = ans;
        }
        return ans;
    }
}

C++

class Solution {
public:
    long long findMaximumNumber(long long k, int x) {
        using ll = long long;
        ll l = 1, r = 1e17;
        ll num = 0;
        ll f[65][65];
        function<ll(int, int, bool)> dfs = [&](int pos, int cnt, bool limit) -> ll {
            if (pos == 0) {
                return cnt;
            }
            if (!limit && f[pos][cnt] != -1) {
                return f[pos][cnt];
            }
            int up = limit ? num >> (pos - 1) & 1 : 1;
            ll ans = 0;
            for (int i = 0; i <= up; ++i) {
                ans += dfs(pos - 1, cnt + (i == 1 && pos % x == 0), limit && i == up);
            }
            if (!limit) {
                f[pos][cnt] = ans;
            }
            return ans;
        };
        while (l < r) {
            ll mid = (l + r + 1) >> 1;
            num = mid;
            memset(f, -1, sizeof(f));
            int pos = 64 - __builtin_clzll(mid);
            if (dfs(pos, 0, true) <= k) {
                l = mid;
            } else {
                r = mid - 1;
            }
        }
        return l;
    }
};

Go

func findMaximumNumber(k int64, x int) int64 {
	var l, r int64 = 1, 1e17
	var num int64
	var f [65][65]int64
	var dfs func(pos, cnt int, limit bool) int64
	dfs = func(pos, cnt int, limit bool) int64 {
		if pos == 0 {
			return int64(cnt)
		}
		if !limit && f[pos][cnt] != -1 {
			return f[pos][cnt]
		}
		var ans int64
		up := 1
		if limit {
			up = int(num >> (pos - 1) & 1)
		}
		for i := 0; i <= up; i++ {
			v := cnt
			if i == 1 && pos%x == 0 {
				v++
			}
			ans += dfs(pos-1, v, limit && i == up)
		}
		if !limit {
			f[pos][cnt] = ans
		}
		return ans
	}
	for l < r {
		mid := (l + r + 1) >> 1
		num = mid
		m := bits.Len(uint(num))
		for i := range f {
			for j := range f[i] {
				f[i][j] = -1
			}
		}
		if dfs(m, 0, true) <= k {
			l = mid
		} else {
			r = mid - 1
		}
	}
	return l
}