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中等 |
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第 176 场周赛 Q2 |
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请你实现一个「数字乘积类」ProductOfNumbers,要求支持下述两种方法:
1. add(int num)
- 将数字
num添加到当前数字列表的最后面。
2. getProduct(int k)
- 返回当前数字列表中,最后
k个数字的乘积。 - 你可以假设当前列表中始终 至少 包含
k个数字。
题目数据保证:任何时候,任一连续数字序列的乘积都在 32-bit 整数范围内,不会溢出。
示例:
输入: ["ProductOfNumbers","add","add","add","add","add","getProduct","getProduct","getProduct","add","getProduct"] [[],[3],[0],[2],[5],[4],[2],[3],[4],[8],[2]] 输出: [null,null,null,null,null,null,20,40,0,null,32] 解释: ProductOfNumbers productOfNumbers = new ProductOfNumbers(); productOfNumbers.add(3); // [3] productOfNumbers.add(0); // [3,0] productOfNumbers.add(2); // [3,0,2] productOfNumbers.add(5); // [3,0,2,5] productOfNumbers.add(4); // [3,0,2,5,4] productOfNumbers.getProduct(2); // 返回 20 。最后 2 个数字的乘积是 5 * 4 = 20 productOfNumbers.getProduct(3); // 返回 40 。最后 3 个数字的乘积是 2 * 5 * 4 = 40 productOfNumbers.getProduct(4); // 返回 0 。最后 4 个数字的乘积是 0 * 2 * 5 * 4 = 0 productOfNumbers.add(8); // [3,0,2,5,4,8] productOfNumbers.getProduct(2); // 返回 32 。最后 2 个数字的乘积是 4 * 8 = 32
提示:
add和getProduct两种操作加起来总共不会超过40000次。0 <= num <= 1001 <= k <= 40000
我们初始化一个数组
当调用 add(num) 时,我们判断 num 是否为 [1],否则将 num,并将结果添加到
当调用 getProduct(k) 时,此时判断
时间复杂度 add 的次数。
class ProductOfNumbers:
def __init__(self):
self.s = [1]
def add(self, num: int) -> None:
if num == 0:
self.s = [1]
return
self.s.append(self.s[-1] * num)
def getProduct(self, k: int) -> int:
return 0 if len(self.s) <= k else self.s[-1] // self.s[-k - 1]
# Your ProductOfNumbers object will be instantiated and called as such:
# obj = ProductOfNumbers()
# obj.add(num)
# param_2 = obj.getProduct(k)class ProductOfNumbers {
private List<Integer> s = new ArrayList<>();
public ProductOfNumbers() {
s.add(1);
}
public void add(int num) {
if (num == 0) {
s.clear();
s.add(1);
return;
}
s.add(s.get(s.size() - 1) * num);
}
public int getProduct(int k) {
int n = s.size();
return n <= k ? 0 : s.get(n - 1) / s.get(n - k - 1);
}
}
/**
* Your ProductOfNumbers object will be instantiated and called as such:
* ProductOfNumbers obj = new ProductOfNumbers();
* obj.add(num);
* int param_2 = obj.getProduct(k);
*/class ProductOfNumbers {
public:
ProductOfNumbers() {
s.push_back(1);
}
void add(int num) {
if (num == 0) {
s.clear();
s.push_back(1);
return;
}
s.push_back(s.back() * num);
}
int getProduct(int k) {
int n = s.size();
return n <= k ? 0 : s.back() / s[n - k - 1];
}
private:
vector<int> s;
};
/**
* Your ProductOfNumbers object will be instantiated and called as such:
* ProductOfNumbers* obj = new ProductOfNumbers();
* obj->add(num);
* int param_2 = obj->getProduct(k);
*/type ProductOfNumbers struct {
s []int
}
func Constructor() ProductOfNumbers {
return ProductOfNumbers{[]int{1}}
}
func (this *ProductOfNumbers) Add(num int) {
if num == 0 {
this.s = []int{1}
return
}
this.s = append(this.s, this.s[len(this.s)-1]*num)
}
func (this *ProductOfNumbers) GetProduct(k int) int {
n := len(this.s)
if n <= k {
return 0
}
return this.s[len(this.s)-1] / this.s[len(this.s)-k-1]
}
/**
* Your ProductOfNumbers object will be instantiated and called as such:
* obj := Constructor();
* obj.Add(num);
* param_2 := obj.GetProduct(k);
*/