#include #include #include using namespace std; template inline void YES(T condition){ if(condition) cout << "YES" << endl; else cout << "NO" << endl; } template inline void Yes(T condition){ if(condition) cout << "Yes" << endl; else cout << "No" << endl; } template inline void POSS(T condition){ if(condition) cout << "POSSIBLE" << endl; else cout << "IMPOSSIBLE" << endl; } template inline void Poss(T condition){ if(condition) cout << "Possible" << endl; else cout << "Impossible" << endl; } template inline void First(T condition){ if(condition) cout << "First" << endl; else cout << "Second" << endl; } int character_count(string text, char character){ int ans = 0; for(int i = 0; i < text.size(); i++){ ans += (text[i] == character); } return ans; } long power(long base, long exponent, long module){ if(exponent % 2){ return power(base, exponent - 1, module) * base % module; }else if(exponent){ long root_ans = power(base, exponent / 2, module); return root_ans * root_ans % module; }else{ return 1; }} struct position{ int y, x; }; position move_pattern[4] = {{-1, 0}, {0, 1}, {1, 0}, {0, -1}}; // double euclidean(position first, position second){ return sqrt((second.x - first.x) * (second.x - first.x) + (second.y - first.y) * (second.y - first.y)); } template string to_string(pair x){ return to_string(x.first) + "," + to_string(x.second); } template void array_output(itr start, itr goal){ string ans; for(auto i = start; i != goal; i++){ ans += to_string(*i) + " "; } ans.pop_back(); cout << ans << endl; } template T gcd(T a, T b){ if(a && b){ return gcd(min(a, b), max(a, b) % min(a, b)); }else{ return a; }} template T lcm(T a, T b){ return a / gcd(a, b) * b; } #define mod long(1e9 + 7) #define all(x) (x).begin(), (x).end() #define bitcount(n) __builtin_popcountl(long(n)) template< class T > struct BinaryIndexedTree { vector< T > data; BinaryIndexedTree(int sz) { data.assign(++sz, 0); } T sum(int k) { T ret = 0; for(++k; k > 0; k -= k & -k) ret += data[k]; return (ret); } void add(int k, T x) { for(++k; k < data.size(); k += k & -k) data[k] += x; } }; int main(){ int N; cin >> N; int nums[N]; pair sorted_nums[N]; for(int i = 0; i < N; i++){ cin >> nums[i]; sorted_nums[i] = {nums[i], i}; } sort(sorted_nums, sorted_nums + N, greater<>()); int sorted_nums_array[N]; for(int i = 0; i < N; i++){ sorted_nums_array[i] = sorted_nums[i].first; } BinaryIndexedTree bubble_sort_tree(N); long ans = 0; for(int i = 0; i < N; i++){ ans += bubble_sort_tree.sum(sorted_nums[i].second); bubble_sort_tree.add(sorted_nums[i].second, 1); } reverse(sorted_nums_array, sorted_nums_array + N); for(int i = 0; i < N; i++){ cout << ans << endl; ans += (sorted_nums_array + N - 1 - lower_bound(sorted_nums_array, sorted_nums_array + N, nums[i])) - (lower_bound(sorted_nums_array, sorted_nums_array + N, nums[i]) - sorted_nums_array); } }