Andrew skipped lessons on the subject 'Algorithms and Data Structures' for the entire term. When he came to the final test, the teacher decided to give him a difficult task as a punishment.
The teacher gave Andrew an array of n numbers a1, ..., an. After that he asked Andrew for each k from 1 to n - 1 to build a k-ary heap on the array and count the number of elements for which the property of the minimum-rooted heap is violated, i.e. the value of an element is less than the value of its parent.
Andrew looked up on the Wikipedia that a k-ary heap is a rooted tree with vertices in elements of the array. If the elements of the array are indexed from 1 to n, then the children of element v are elements with indices k(v - 1) + 2, ..., kv + 1 (if some of these elements lie outside the borders of the array, the corresponding children are absent). In any k-ary heap every element except for the first one has exactly one parent; for the element 1 the parent is absent (this element is the root of the heap). Denote p(v) as the number of the parent of the element with the number v. Let's say that for a non-root element v the property of the heap is violated if av < ap(v).
Help Andrew cope with the task!
The first line contains a single integer n (2 ≤ n ≤ 2·105).
The second line contains n space-separated integers a1, ..., an ( - 109 ≤ ai ≤ 109).
in a single line print n - 1 integers, separate the consecutive numbers with a single space — the number of elements for which the property of the k-ary heap is violated, for k = 1, 2, ..., n - 1.
5
1 5 4 3 2
3 2 1 0
6
2 2 2 2 2 2
0 0 0 0 0
题意:给定一个序列,一次建立k叉堆(1 <= k <= n-1), 求n-1个堆中 不合法的点的个数。
按照题解:两种做法,,感觉还是第一种比较好,。
大致做法: 我们先把所有数字按照大小排序(记录他们在原始序列的位置), 然后对于 第i个数字, 假设它在原始数组中的位置为pos, 那么他的孩子的index是 k*(pos-1)+2 ~ k*pos+1, 我们按照从小到大加入到树状数组中, 那么对于这个数字 他的孩子中不合法的个数就是 query (min(k*pos+1, n)) - query(k*(pos-1)+2)。 然后做n次这样的操作就OK了。。
1 #include <bits/stdc++.h> 2 using namespace std; 3 const int MAXN = 2e5+10; 4 int arr[MAXN]; 5 int lowbit (int x) 6 { 7 return x & -x; 8 } 9 void modify(int x, int d) 10 { 11 while (x < MAXN) 12 { 13 arr[x] += d; 14 x += lowbit(x); 15 } 16 } 17 int query (int x) 18 { 19 int ans = 0; 20 while (x) 21 { 22 ans += arr[x]; 23 x -= lowbit(x); 24 } 25 return ans; 26 } 27 typedef pair <int, int>pii; 28 pii a[MAXN]; 29 int n, ans[MAXN]; 30 void solve () 31 { 32 memset(arr, 0, sizeof (arr)); 33 memset(ans, 0, sizeof (ans)); 34 for (int i = 1; i <= n; ) 35 { 36 int tmp = i; 37 while (tmp <= n && a[tmp].first == a[i].first) 38 tmp++; 39 for (int j = i; j < tmp; j++) 40 { 41 for (int k = 1; k <= n-1 && k*(a[j].second-1)+2 <= n; k++) 42 { 43 ans[k] += query(min(n, k*a[j].second+1)) - query(k*(a[j].second-1)+1); 44 } 45 } 46 for (int j = i; j < tmp; j++) 47 modify(a[j].second, 1); 48 i = tmp; 49 } 50 for (int i = 1; i <= n-1; i++) 51 { 52 printf("%d%c", ans[i], " "[i==n-1]); 53 } 54 } 55 int main(void) 56 { 57 #ifndef ONLINE_JUDGE 58 freopen("in.txt", "r", stdin); 59 #endif // ONLINE_JUDGE 60 while (~scanf ("%d", &n)) 61 { 62 for (int i = 0; i < n; i++) 63 { 64 scanf ("%d", &a[i+1].first); 65 a[i+1].second = i+1; 66 } 67 sort (a+1, a+n+1); 68 solve(); 69 } 70 return 0; 71 }