标签:post cos shuff main 概率 srand from inpu code
Reservoir sampling is a family of randomized algorithms for randomly choosing k samples from a list of n items, where n is either a very large or unknown number. Typically n is large enough that the list doesn’t fit into main memory. For example, a list of search queries in Google and Facebook.
So we are given a big array (or stream) of numbers (to simplify), and we need to write an efficient function to randomly select k numbers where 1 <= k <= n. Let the input array be stream[].
A simple solution is to create an array reservoir[] of maximum size k. One by one randomly select an item from stream[0..n-1]. If the selected item is not previously selected, then put it in reservoir[]. To check if an item is previously selected or not, we need to search the item in reservoir[]. The time complexity of this algorithm will be O(k^2). This can be costly if k is big. Also, this is not efficient if the input is in the form of a stream.
It can be solved in O(n) time. The solution also suits well for input in the form of stream. The idea is similar to this post. Following are the steps.
1) Create an array reservoir[0..k-1] and copy first k items of stream[] to it.
2) Now one by one consider all items from (k+1)th item to nth item.
…a) Generate a random number from 0 to i where i is index of current item in stream[]. Let the generated random number is j.
…b) If j is in range 0 to k-1, replace reservoir[j] with arr[i]
void selectKItems(int stream[], int n, int k) { int i; // index for elements in stream[] // reservoir[] is the output array. Initialize // it with first k elements from stream[] int reservoir[k]; for (i=0;i<k;++i) reservoir[i]=stream[i]; // Use a different seed value so that we don‘t get // same result each time we run this program srand(time(NULL)); // Iterate from the (k+1)th element to nth element for (;i<n;++i) { // Pick a random index from 0 to i. int j=rand()%(i+1); // If the randomly picked index is in [0,k-1] // then replace the element present at the index // with new element from stream if (j<k) reservoir[j] = stream[i]; } cout << "Following are k randomly selected items \n"; for (int i=0;i<k;++i) cout<<reservoir[i]<<‘ ‘; } int main() { int stream[] = {1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12}; int n = sizeof(stream)/sizeof(stream[0]); int k = 5; selectKItems(stream, n, k); return 0; }
时间复杂度 O(n)
Proof
最后的k个元素只有下面两种情况:
1. 属于 steam[0~k-1]
如果一个元素属于steam[0~k-1],且最后还在reservior里,说明后面n-k个元素的随机都没有没有随机到该元素的下标。
P = (k/k+1)*(k+1/k+2)*...*(n-1/n) = k/n
2. 属于 steam[k~n-1],假设是下标为i的元素,i∈[k~n-1]
说明第i个元素随机到了[0~k-1]中,且后续的元素都没有没有随机到该元素的下标。
P = (k/i+1)*(i+1/i+2)*...*(n-1/n) = k/n
=> 每个steam中的元素被选中的概率都是 k/n
Reference
https://www.geeksforgeeks.org/reservoir-sampling/
标签:post cos shuff main 概率 srand from inpu code
原文地址:https://www.cnblogs.com/hankunyan/p/11711295.html