Submission #253017

#	Time	Username	Problem	Language	Result	Execution time	Memory
253017		Kubin	Race (IOI11_race)	C++17	0 / 100	1255 ms	262148 KiB

race

#include <bits/stdc++.h>

using namespace std;

vector<vector<size_t>> adj;
vector<vector<pair<size_t, int>>> graph;

const int oo = INT_MAX / 3;
int& rd(map<int, int>& m, int key)
{
    auto it = m.find(key);
    if(it == m.end()) it = m.emplace_hint(it, key, +oo);
    return it->second;
}

void mini(map<int, int>& m, int key, int value)
{
    rd(m, key) = min(rd(m, key), value);
}


void dfs_map_paths(size_t u, int s, int d, map<int, int>& m,
                   size_t glock = SIZE_MAX, size_t lock = SIZE_MAX)
{
    if(d > +oo) return;
    mini(m, s, d);
    for(auto [v, w] : graph[u])
        if(v != lock and v != glock)
            dfs_map_paths(v, s + w, d + 1, m, glock, u);
}

size_t gl_vertices;
vector<size_t> gl_parent, gl_subsize;
void dfs_root(size_t u, size_t glock = SIZE_MAX, size_t lock = SIZE_MAX)
{
    gl_vertices++;
    gl_subsize[u] = 1;
    for(auto v : adj[u])
        if(v != lock and v != glock)
            gl_parent[v] = u, dfs_root(v, glock, u), gl_subsize[u] += gl_subsize[v];
}

size_t subtree_size(size_t from, size_t to)
{
    return from == gl_parent[to] ? gl_subsize[to] : gl_vertices - gl_subsize[from];
}

size_t find_centroid(size_t init, size_t lock = SIZE_MAX)
{
    (void)lock;

    gl_vertices = 0;

    dfs_root(init, lock);
    gl_parent[init] = SIZE_MAX;

    size_t u = init;
    while(true)
    {
        bool any = false;
        for(auto v : adj[u])
            if(v != lock and subtree_size(u, v) > subtree_size(v, u))
                { any = true; u = v; break; }
        if(not any) break;
    }

    return u;
}

int solve(size_t init, int k, size_t lock = SIZE_MAX)
{
    auto fix = find_centroid(init, lock);

    int result = +oo;

    map<int, int> pre = {{0, 0}};
    for(auto [v, w] : graph[fix])
      if(v != lock)
    {
        map<int, int> cur;
        dfs_map_paths(v, w, 1, cur, fix);

        for(auto [s, d] : cur)
            result = min(result, d + rd(pre, k - s));
        for(auto [s, d] : cur)
            mini(pre, s, d);
    }

    for(auto v : adj[fix])
        if(v != lock)
            result = min(result, solve(v, k, fix));

    return result;
}


int best_path(int _n, int k, int H[][2], int L[])
{
    const size_t n = _n;

    graph.resize(n);
    adj.resize(n);
    for(size_t i = 0; i < n - 1; i++)
    {
        graph[H[i][0]].emplace_back(H[i][1], L[i]);
        graph[H[i][1]].emplace_back(H[i][0], L[i]);
        adj[H[i][0]].push_back(H[i][1]);
        adj[H[i][1]].push_back(H[i][0]);
    }

    gl_parent.resize(n);
    gl_subsize.resize(n);
    int result = solve(0, k);

    return result >= +oo ? -1 : result;
}



#ifdef XHOVA
#define MAX_N 500000

static int N, K;
static int H[MAX_N][2];
static int L[MAX_N];
static int solution;

inline
void my_assert(int e) {if (!e) abort();}

void read_input()
{
  int i;
  my_assert(2==scanf("%d %d",&N,&K));
  for(i=0; i<N-1; i++)
    my_assert(3==scanf("%d %d %d",&H[i][0],&H[i][1],&L[i]));
  my_assert(1==scanf("%d",&solution));
}

int main()
{
  int ans;
  read_input();
  ans = best_path(N,K,H,L);
  if(ans==solution)
    printf("Correct.\n");
  else
    printf("Incorrect. Returned %d, Expected %d.\n",ans,solution);

  return 0;
}
#endif

• Subtask 1: 0 / 9
• Subtask 2: 0 / 12
• Subtask 3: 0 / 22
• Subtask 4: 0 / 57