#include<bits/stdc++.h>
using namespace std;
/*
struct Node{
int size, time_created, lazy;
array<int,2> c;
Node(int time, int _size = 0):
size(_size), time_created(time), lazy(0), c({-1, -1}){}
};
struct PersMaxXORTrie{
vector<Node> nodes;
// root: nodes[0]
// todos numeros sao armazenados em nos terminais
// um no terminal pode manter mais de um numero
void propagate_xor(int node, int curr_bit){
if(get_bit(nodes[node].lazy, curr_bit)){
swap(nodes[node].c[0], nodes[node].c[1]);
}
for(int i = 0; i < 2; ++i){
if(nodes[node].c[i] != -1){
nodes[nodes[node].c[i]].lazy ^= nodes[node].lazy;
}
}
nodes[node].lazy = 0;
}
void xor_all(int x){
nodes[0].lazy ^= x;
// for(auto &y : added) y ^= x;
}
// vector<int> added;
PersMaxXORTrie(){
nodes.push_back(Node(-1));
}
bool get_bit(int x, int i){
return (x >> i) & 1;
}
void add(int num, int time, int curr_node = 0, int curr_bit = 31){
nodes[curr_node].size++;
if(curr_bit == -1) return;
propagate_xor(curr_node, curr_bit);
nodes[curr_node].time_created = min(nodes[curr_node].time_created, time);
int b = get_bit(num, curr_bit);
if(nodes[curr_node].c[b] == -1){
nodes[curr_node].c[b] = nodes.size();
nodes.push_back(Node(time));
}
add(num, time, nodes[curr_node].c[b], curr_bit - 1);
}
int query_max(int num, int max_perm_time, int curr_node = 0, int curr_bit = 31){
// want to max (num ^ x)
if(curr_bit == -1) return 0; // base recursion case
propagate_xor(curr_node, curr_bit);
assert(nodes[curr_node].size > 0); // cant enter an empty node
int b = !get_bit(num, curr_bit); // target bit (maximize xor)
if((nodes[curr_node].c[b] != -1) && (nodes[nodes[curr_node].c[b]].time_created <= max_perm_time)){
return query_max(num, max_perm_time, nodes[curr_node].c[b], curr_bit - 1) + (b << curr_bit);
}else{
return query_max(num, max_perm_time, nodes[curr_node].c[!b], curr_bit - 1) + ((!b) << curr_bit);
}
}
};
*/
#define MAXN 200010
#define MAXLOG 20
vector<int> v[MAXN];
int dfs_time = 0;
// int xor_until[MAXN];
int sz[MAXN];
// int w[MAXN];
// int beg[MAXN], en[MAXN], ver[MAXN];
// int time_added[MAXN];
// PersMaxXORTrie tries[MAXN];
int preprocess_dfs(int x, int p){
// xor preffix
// xor_until[x] = xor_until[p] ^ w[x];
// sack
// ver[dfs_time] = x;
// beg[x] = dfs_time++;
sz[x] = 1;
for(auto y : v[x]){
if(y != p){
preprocess_dfs(y, x);
sz[x] += sz[y];
}
}
// sack
// en[x] = dfs_time;
return 0;
}
vector<pair<int,int>> queries[MAXN]; // time, val
int ans[MAXN];
int solve(int x){
int heavy_child = -1;
int max_size = -1;
// for (auto k : v[x]){
// if (sz[k] > max_size){
// max_size = sz[k];
// heavy_child = k;
// }
// }
for (auto k : v[x]) solve(k);
if(heavy_child != -1){
// swap(tries[x], tries[heavy_child]);
// tries[x].xor_all(w[heavy_child]);
for (auto k : v[x]){
// tries[k].nodes.clear();
// if (k != heavy_child){
// cout << k << endl;
// cout << k << " " << beg[k] << " " << en[k] << endl;
// for(int it = beg[k]; it < en[k]; ++it){
// tries[x].add(xor_until[ver[it]] ^ xor_until[x], time_added[ver[it]]);
// }
// }
}
}
// tries[x].add(0, time_added[x]);
// for(auto [t, a] : queries[x]){
// ans[t] = a ^ tries[x].query_max(a, t);
// }
return 0;
}
int main(){
memset(ans, -1, sizeof ans);
int next_node = 2;
int n; cin >> n;
// vector<pair<int,pair<int,int>>> q;
for(int i = 0; i < n; ++i){
string s; cin >> s;
if(s[0] == 'A'){
int par, weight; cin >> par >> weight;
// time_added[next_node] = i;
// w[next_node] = weight;
v[par].push_back(next_node);
next_node++;
}else{
int start, subtree; cin >> start >> subtree;
// q.push_back({i, {start, subtree}});
}
}
preprocess_dfs(1, 0);
// for(auto [i, ab] : q){
// auto [start, subtree] = ab;
// int val = xor_until[start] ^ xor_until[subtree];
// queries[subtree].push_back({i, val});
// }
solve(1);
for(int i = 0; i < MAXN; ++i){
if(ans[i] != -1) cout << ans[i] << "\n";
}
return 0;
}
Compilation message
klasika.cpp: In function 'int solve(int)':
klasika.cpp:137:15: warning: unused variable 'k' [-Wunused-variable]
137 | for (auto k : v[x]){
| ^
klasika.cpp:121:7: warning: unused variable 'max_size' [-Wunused-variable]
121 | int max_size = -1;
| ^~~~~~~~
| # |
Verdict |
Execution time |
Memory |
Grader output |
| 1 |
Incorrect |
6 ms |
10444 KB |
Output isn't correct |
| 2 |
Halted |
0 ms |
0 KB |
- |
| # |
Verdict |
Execution time |
Memory |
Grader output |
| 1 |
Incorrect |
6 ms |
10444 KB |
Output isn't correct |
| 2 |
Halted |
0 ms |
0 KB |
- |
| # |
Verdict |
Execution time |
Memory |
Grader output |
| 1 |
Incorrect |
139 ms |
14936 KB |
Output isn't correct |
| 2 |
Halted |
0 ms |
0 KB |
- |
| # |
Verdict |
Execution time |
Memory |
Grader output |
| 1 |
Incorrect |
6 ms |
10444 KB |
Output isn't correct |
| 2 |
Halted |
0 ms |
0 KB |
- |
