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English Version

题目描述

二进制手表顶部有 4 个 LED 代表 小时(0-11),底部的 6 个 LED 代表 分钟(0-59)。每个 LED 代表一个 0 或 1,最低位在右侧。

  • 例如,下面的二进制手表读取 "4:51"

给你一个整数 turnedOn ,表示当前亮着的 LED 的数量,返回二进制手表可以表示的所有可能时间。你可以 按任意顺序 返回答案。

小时不会以零开头:

  • 例如,"01:00" 是无效的时间,正确的写法应该是 "1:00"

分钟必须由两位数组成,可能会以零开头:

  • 例如,"10:2" 是无效的时间,正确的写法应该是 "10:02"

 

示例 1:

输入:turnedOn = 1
输出:["0:01","0:02","0:04","0:08","0:16","0:32","1:00","2:00","4:00","8:00"]

示例 2:

输入:turnedOn = 9
输出:[]

 

提示:

  • 0 <= turnedOn <= 10

解法

方法一:枚举组合

题目可转换为求 i(i∈[0,12)) 和 j(j∈[0,60)) 所有可能的组合。

合法组合需要满足的条件是:i 的二进制形式中 1 的个数加上 j 的二进制形式中 1 的个数,结果等于 turnedOn。

class Solution:
    def readBinaryWatch(self, turnedOn: int) -> List[str]:
        return [
            '{:d}:{:02d}'.format(i, j)
            for i in range(12)
            for j in range(60)
            if (bin(i) + bin(j)).count('1') == turnedOn
        ]
class Solution {
    public List<String> readBinaryWatch(int turnedOn) {
        List<String> ans = new ArrayList<>();
        for (int i = 0; i < 12; ++i) {
            for (int j = 0; j < 60; ++j) {
                if (Integer.bitCount(i) + Integer.bitCount(j) == turnedOn) {
                    ans.add(String.format("%d:%02d", i, j));
                }
            }
        }
        return ans;
    }
}
class Solution {
public:
    vector<string> readBinaryWatch(int turnedOn) {
        vector<string> ans;
        for (int i = 0; i < 12; ++i) {
            for (int j = 0; j < 60; ++j) {
                if (__builtin_popcount(i) + __builtin_popcount(j) == turnedOn) {
                    ans.push_back(to_string(i) + ":" + (j < 10 ? "0" : "") + to_string(j));
                }
            }
        }
        return ans;
    }
};
func readBinaryWatch(turnedOn int) []string {
	var ans []string
	for i := 0; i < 12; i++ {
		for j := 0; j < 60; j++ {
			if bits.OnesCount(uint(i))+bits.OnesCount(uint(j)) == turnedOn {
				ans = append(ans, fmt.Sprintf("%d:%02d", i, j))
			}
		}
	}
	return ans
}
function readBinaryWatch(turnedOn: number): string[] {
    if (turnedOn === 0) {
        return ['0:00'];
    }
    const n = 10;
    const res = [];
    const bitArr = new Array(10).fill(false);
    const createTime = () => {
        return [
            bitArr.slice(0, 4).reduce((p, v) => (p << 1) | Number(v), 0),
            bitArr.slice(4).reduce((p, v) => (p << 1) | Number(v), 0),
        ];
    };
    const helper = (i: number, count: number) => {
        if (i + count > n || count === 0) {
            return;
        }
        bitArr[i] = true;
        if (count === 1) {
            const [h, m] = createTime();
            if (h < 12 && m < 60) {
                res.push(`${h}:${m < 10 ? '0' + m : m}`);
            }
        }
        helper(i + 1, count - 1);
        bitArr[i] = false;
        helper(i + 1, count);
    };
    helper(0, turnedOn);
    return res;
}
impl Solution {
    fn create_time(bit_arr: &[bool; 10]) -> (i32, i32) {
        let mut h = 0;
        let mut m = 0;
        for i in 0..4 {
            h <<= 1;
            h |= if bit_arr[i] { 1 } else { 0 };
        }
        for i in 4..10 {
            m <<= 1;
            m |= if bit_arr[i] { 1 } else { 0 };
        }

        (h, m)
    }

    fn helper(res: &mut Vec<String>, bit_arr: &mut [bool; 10], i: usize, count: usize) {
        if i + count > 10 || count == 0 {
            return;
        }
        bit_arr[i] = true;
        if count == 1 {
            let (h, m) = Self::create_time(bit_arr);
            if h < 12 && m < 60 {
                if m < 10 {
                    res.push(format!("{}:0{}", h, m));
                } else {
                    res.push(format!("{}:{}", h, m));
                }
            }
        }
        Self::helper(res, bit_arr, i + 1, count - 1);
        bit_arr[i] = false;
        Self::helper(res, bit_arr, i + 1, count);
    }

    pub fn read_binary_watch(turned_on: i32) -> Vec<String> {
        if turned_on == 0 {
            return vec![String::from("0:00")];
        }
        let mut res = vec![];
        let mut bit_arr = [false; 10];
        Self::helper(&mut res, &mut bit_arr, 0, turned_on as usize);
        res
    }
}

方法二:二进制枚举

利用 10 个二进制位表示手表,其中前 4 位代表小时,后 6 位代表分钟。枚举 [0, 1 << 10) 的所有数,找出合法的数。

class Solution:
    def readBinaryWatch(self, turnedOn: int) -> List[str]:
        ans = []
        for i in range(1 << 10):
            h, m = i >> 6, i & 0b111111
            if h < 12 and m < 60 and i.bit_count() == turnedOn:
                ans.append('{:d}:{:02d}'.format(h, m))
        return ans
class Solution {
    public List<String> readBinaryWatch(int turnedOn) {
        List<String> ans = new ArrayList<>();
        for (int i = 0; i < 1 << 10; ++i) {
            int h = i >> 6, m = i & 0b111111;
            if (h < 12 && m < 60 && Integer.bitCount(i) == turnedOn) {
                ans.add(String.format("%d:%02d", h, m));
            }
        }
        return ans;
    }
}
class Solution {
public:
    vector<string> readBinaryWatch(int turnedOn) {
        vector<string> ans;
        for (int i = 0; i < 1 << 10; ++i) {
            int h = i >> 6, m = i & 0b111111;
            if (h < 12 && m < 60 && __builtin_popcount(i) == turnedOn) {
                ans.push_back(to_string(h) + ":" + (m < 10 ? "0" : "") + to_string(m));
            }
        }
        return ans;
    }
};
func readBinaryWatch(turnedOn int) []string {
	var ans []string
	for i := 0; i < 1<<10; i++ {
		h, m := i>>6, i&0b111111
		if h < 12 && m < 60 && bits.OnesCount(uint(i)) == turnedOn {
			ans = append(ans, fmt.Sprintf("%d:%02d", h, m))
		}
	}
	return ans
}