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true |
Medium |
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Weekly Contest 176 Q2 |
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Design an algorithm that accepts a stream of integers and retrieves the product of the last k integers of the stream.
Implement the ProductOfNumbers class:
ProductOfNumbers()Initializes the object with an empty stream.void add(int num)Appends the integernumto the stream.int getProduct(int k)Returns the product of the lastknumbers in the current list. You can assume that always the current list has at leastknumbers.
The test cases are generated so that, at any time, the product of any contiguous sequence of numbers will fit into a single 32-bit integer without overflowing.
Example:
Input ["ProductOfNumbers","add","add","add","add","add","getProduct","getProduct","getProduct","add","getProduct"] [[],[3],[0],[2],[5],[4],[2],[3],[4],[8],[2]] Output [null,null,null,null,null,null,20,40,0,null,32] Explanation 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); // return 20. The product of the last 2 numbers is 5 * 4 = 20 productOfNumbers.getProduct(3); // return 40. The product of the last 3 numbers is 2 * 5 * 4 = 40 productOfNumbers.getProduct(4); // return 0. The product of the last 4 numbers is 0 * 2 * 5 * 4 = 0 productOfNumbers.add(8); // [3,0,2,5,4,8] productOfNumbers.getProduct(2); // return 32. The product of the last 2 numbers is 4 * 8 = 32
Constraints:
0 <= num <= 1001 <= k <= 4 * 104- At most
4 * 104calls will be made toaddandgetProduct. - The product of the stream at any point in time will fit in a 32-bit integer.
We initialize an array
When calling add(num), we judge whether num is [1]. Otherwise, we multiply the last element of num and add the result to the end of
When calling getProduct(k), we now judge whether the length of
The time complexity is add is called.
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);
*/