Submission #841151

#	Submission time	Handle	Problem	Language	Result	Execution time	Memory
841151	2023-09-01T09:53:59 Z	MrBrionix	Longest Trip (IOI23_longesttrip)	C++17	40 / 100	22 ms	480 KB

longesttrip

#pragma GCC optimize("O3")
#include<bits/stdc++.h>
using namespace std;

bool are_connected(std::vector<int> A, std::vector<int> B);

void add(vector<int> &a,vector<int> &b){
    reverse(a.begin(),a.end());
    for(auto i : b)a.push_back(i);
}

bool query(vector<int> &a,vector<int> &b,int l1,int r1,int l2,int r2){
    vector<int> tmp1,tmp2;
    for(int i=l1;i<=r1;i++)tmp1.push_back(a[i]);
    for(int i=l2;i<=r2;i++)tmp2.push_back(b[i]);
    
    return are_connected(tmp1,tmp2);
}

bool comp1(vector<int> &a,vector<int> &b){
    return a.size()<b.size();
}

bool comp2(vector<int> &a,vector<int> &b){
    return a.size()>b.size();
}

bool comp(pair<int,vector<int>> &a,pair<int,vector<int>> &b){
    return a.first<b.first;
}

mt19937 rng((uint64_t) chrono::duration_cast<chrono::
    nanoseconds>(chrono::high_resolution_clock::now()
        .time_since_epoch()).count());

vector<int> longest_trip(int N, int D)
{
    srand(time(NULL));
    deque<pair<int,vector<int>>> q;
    
    
    for(int i=0;i<N;i++){
        q.push_back({0,{i}});
    }
    shuffle(q.begin(),q.end(),rng);
    
    int cont=0;
    
    while(q.size()>2){
        
        
        sort(q.begin(),q.end(),comp);
        //sort(q.begin()+1,q.end(),comp2);
        //shuffle(q.begin()+1,q.begin()+3,rng);
        auto a = q.front().second;
        auto ca = q.front().first;
        q.pop_front();
        auto b = q.front().second;
        auto cb = q.front().first;
        q.pop_front();
        auto c = q.front().second;
        auto cc = q.front().first;
        q.pop_front();
        
        //if(rng()%2)reverse(a.begin(),a.end());
        //if(rng()%2)reverse(b.begin(),b.end());
        //if(rng()%2)reverse(c.begin(),c.end());
        
        swap(a,c);
        
        if(are_connected({*a.begin()},{*b.begin()})){
            add(a,b);
            shuffle(q.begin(),q.end(),rng);
            q.push_back({max(ca,cb),a});
            q.push_front({cc,c});
            cont++;
        }else if(are_connected({*a.begin()},{*c.begin()})){
            add(a,c);
            shuffle(q.begin(),q.end(),rng);
            q.push_back({max(ca,cc),a});
            q.push_front({cb+1,b});
            cont+=2;
        }else{
            add(b,c);
            shuffle(q.begin(),q.end(),rng);
            q.push_back({max(cb,cc),b});
            q.push_front({ca+1,a});
            cont+=2;
        }
    }
    
    
    assert(cont<400);
    auto a = q.front().second;
    q.pop_front();
    auto b = q.front().second;
    q.pop_front();
    
    if(!are_connected(a,b)){
        if(a.size()>b.size())return a;
        else return b;
    }else{
        int l1 = *a.begin(), r1 = a.back();
        int l2 = *b.begin(), r2 = b.back();
        
        if(are_connected((l1==r1) ? vector<int>{l1} : vector<int>{l1,r1},(l2 == r2) ? vector<int>{l2} : vector<int>{l2,r2})){
            if(are_connected({l1},{l2})){
                add(a,b);
                return a;
            }
            if(are_connected({l1},{r2})){
                reverse(b.begin(),b.end());
                add(a,b);
                return a;
            }
            if(are_connected({l2},{r1})){
                reverse(a.begin(),a.end());
                add(a,b);
                return a;
            }
            
            reverse(a.begin(),a.end());
            reverse(b.begin(),b.end());
            add(a,b);
            return a;
        }
        
        
        int low = -1, up = a.size()-1;
        
        while(up-low>1){
            int mid = (up+low)/2;
            
            if(query(a,b,0,mid,0,b.size()-1)){
                up=mid;
            }else{
                low=mid;
            }
        }
        
        int ind = up;
        
        low = -1, up = b.size()-1;
        while(up-low>1){
            int mid = (up+low)/2;
            
            if(query(a,b,ind,ind,0,mid)){
                up=mid;
            }else{
                low=mid;
            }
        }
        
        
        for(int i=0;i<ind;i++){
            a.push_back(*a.begin());
            a.erase(a.begin());
        }
        
        for(int i=0;i<up;i++){
            b.push_back(*b.begin());
            b.erase(b.begin());
        }
        
        add(a,b);
        return a;
    }
}

/*
  1
  5 1
  1
  1 1
  0 0 1
  0 0 0 1
 
  static inline constexpr int maxNumberOfCalls = 32640;
  static inline constexpr int maxTotalNumberOfCalls = 150000;
  static inline constexpr int maxTotalNumberOfLandmarksInCalls = 1500000;
  static int call_counter = 0;
  static int total_call_counter = 0;
  static int landmark_counter = 0;
  
  static int C, N, D;
  static std::vector<std::vector<int>> U;
  static std::vector<bool> present;
  
  static inline void protocol_violation(std::string message)
  {
  printf("Protocol Violation: %s\n", message.c_str());
  exit(0);
  }
  
  bool are_connected(std::vector<int> A, std::vector<int> B)
  {
  ++call_counter;
  ++total_call_counter;
  if (call_counter > maxNumberOfCalls || total_call_counter > maxTotalNumberOfCalls)
  {
  protocol_violation("too many calls");
  }
  
  int nA = A.size(), nB = B.size();
  landmark_counter += nA + nB;
  if (landmark_counter > maxTotalNumberOfLandmarksInCalls)
  {
  protocol_violation("too many elements");
  }
  
  if (nA == 0 || nB == 0)
  {
  protocol_violation("invalid array");
  }
  for (int i = 0; i < nA; ++i)
  {
  if (A[i] < 0 || N <= A[i])
  {
  protocol_violation("invalid array");
  }
  if (present[A[i]])
  {
  protocol_violation("invalid array");
  }
  present[A[i]] = true;
  }
  for (int i = 0; i < nA; ++i)
  {
  present[A[i]] = false;
  }
  for (int i = 0; i < nB; ++i)
  {
  if (B[i] < 0 || N <= B[i])
  {
  protocol_violation("invalid array");
  }
  if (present[B[i]])
  {
  protocol_violation("invalid array");
  }
  present[B[i]] = true;
  }
  for (int i = 0; i < nB; ++i)
  {
  present[B[i]] = false;
  }
  
  for (int i = 0; i < nA; ++i)
  {
  for (int j = 0; j < nB; ++j)
  {
  if (A[i] == B[j])
  {
  protocol_violation("non-disjoint arrays");
  }
  }
  }
  
  for (int i = 0; i < nA; ++i)
  {
  for (int j = 0; j < nB; ++j)
  {
  if (U[std::max(A[i], B[j])][std::min(A[i], B[j])] == 1)
  {
  return true;
  }
  }
  }
  
  return false;
  }
  
  
  int main()
  {
  assert(1 == scanf("%d", &C));
  int maximumCalls = 0;
  for (int c = 0; c < C; ++c)
  {
  call_counter = 0;
  assert(2 == scanf("%d %d", &N, &D));
  
  present.assign(N, false);
  U.resize(N);
  for (int i = 1; i < N; ++i)
  {
  U[i].resize(i);
  for (int j = 0; j < i; ++j)
  {
  assert(1 == scanf("%d", &U[i][j]));
  }
  }
  
  for (int i = 2; i < N; ++i)
  {
  for (int j = 1; j < i; ++j)
  {
  for (int k = 0; k < j; ++k)
  {
  if (U[i][j] + U[i][k] + U[j][k] < D)
  {
  printf("Insufficient Density\n");
  exit(0);
  }
  }
  }
  }
  
  std::vector<int> t = longest_trip(N, D);
  int l = t.size();
  printf("%d\n", l);
  for (int i = 0; i < l; ++i)
  {
  printf(i == 0 ? "%d" : " %d", t[i]);
  }
  printf("\n");
  printf("%d chiamate\n", call_counter);
  
  maximumCalls = std::max(maximumCalls, call_counter);
  call_counter = 0;
  }
  printf("%d max chiamate\n", maximumCalls);
  
  return 0;
  }
 */

Subtask #0

0.0 / 0.0

#	Verdict	Execution time	Memory	Grader output
1	Correct	0 ms	208 KB	Output is correct
2	Correct	4 ms	320 KB	Output is correct

Subtask #1

5.0 / 5.0

#	Verdict	Execution time	Memory	Grader output
1	Correct	13 ms	208 KB	Output is correct
2	Correct	8 ms	208 KB	Output is correct
3	Correct	9 ms	208 KB	Output is correct
4	Correct	8 ms	384 KB	Output is correct
5	Correct	14 ms	336 KB	Output is correct

Subtask #2

10.0 / 10.0

#	Verdict	Execution time	Memory	Grader output
1	Correct	12 ms	208 KB	Output is correct
2	Correct	10 ms	208 KB	Output is correct
3	Correct	10 ms	316 KB	Output is correct
4	Correct	11 ms	324 KB	Output is correct
5	Correct	11 ms	356 KB	Output is correct
6	Correct	19 ms	208 KB	Output is correct
7	Correct	9 ms	208 KB	Output is correct
8	Correct	7 ms	208 KB	Output is correct
9	Correct	12 ms	324 KB	Output is correct
10	Correct	13 ms	340 KB	Output is correct
11	Correct	12 ms	336 KB	Output is correct
12	Correct	13 ms	352 KB	Output is correct
13	Correct	14 ms	388 KB	Output is correct

Subtask #3

25.0 / 25.0

#	Verdict	Execution time	Memory	Grader output
1	Correct	12 ms	208 KB	Output is correct
2	Correct	9 ms	208 KB	Output is correct
3	Correct	8 ms	208 KB	Output is correct
4	Correct	12 ms	336 KB	Output is correct
5	Correct	13 ms	348 KB	Output is correct
6	Correct	13 ms	208 KB	Output is correct
7	Correct	10 ms	208 KB	Output is correct
8	Correct	10 ms	308 KB	Output is correct
9	Correct	12 ms	308 KB	Output is correct
10	Correct	10 ms	340 KB	Output is correct
11	Correct	13 ms	480 KB	Output is correct
12	Correct	13 ms	336 KB	Output is correct
13	Correct	13 ms	352 KB	Output is correct
14	Correct	9 ms	208 KB	Output is correct
15	Correct	10 ms	208 KB	Output is correct
16	Correct	11 ms	208 KB	Output is correct
17	Correct	11 ms	208 KB	Output is correct
18	Correct	10 ms	208 KB	Output is correct
19	Correct	10 ms	208 KB	Output is correct
20	Correct	10 ms	316 KB	Output is correct
21	Correct	18 ms	372 KB	Output is correct
22	Correct	18 ms	340 KB	Output is correct
23	Correct	11 ms	336 KB	Output is correct
24	Correct	14 ms	340 KB	Output is correct
25	Correct	8 ms	208 KB	Output is correct
26	Correct	14 ms	208 KB	Output is correct
27	Correct	9 ms	208 KB	Output is correct
28	Correct	12 ms	208 KB	Output is correct
29	Correct	9 ms	208 KB	Output is correct
30	Correct	12 ms	340 KB	Output is correct
31	Correct	12 ms	308 KB	Output is correct
32	Correct	17 ms	208 KB	Output is correct
33	Correct	9 ms	208 KB	Output is correct
34	Correct	9 ms	320 KB	Output is correct
35	Correct	10 ms	324 KB	Output is correct
36	Correct	11 ms	344 KB	Output is correct
37	Correct	16 ms	352 KB	Output is correct
38	Correct	14 ms	320 KB	Output is correct
39	Correct	15 ms	336 KB	Output is correct
40	Correct	17 ms	340 KB	Output is correct
41	Correct	15 ms	324 KB	Output is correct
42	Correct	17 ms	468 KB	Output is correct
43	Correct	20 ms	340 KB	Output is correct
44	Correct	16 ms	336 KB	Output is correct
45	Correct	16 ms	208 KB	Output is correct
46	Correct	17 ms	208 KB	Output is correct
47	Correct	9 ms	208 KB	Output is correct
48	Correct	11 ms	208 KB	Output is correct
49	Correct	10 ms	208 KB	Output is correct
50	Correct	10 ms	208 KB	Output is correct
51	Correct	11 ms	208 KB	Output is correct
52	Correct	18 ms	308 KB	Output is correct
53	Correct	13 ms	208 KB	Output is correct
54	Correct	11 ms	208 KB	Output is correct
55	Correct	15 ms	316 KB	Output is correct
56	Correct	13 ms	344 KB	Output is correct
57	Correct	14 ms	360 KB	Output is correct
58	Correct	15 ms	336 KB	Output is correct
59	Correct	14 ms	352 KB	Output is correct
60	Correct	21 ms	336 KB	Output is correct
61	Correct	17 ms	336 KB	Output is correct
62	Correct	18 ms	336 KB	Output is correct
63	Correct	17 ms	336 KB	Output is correct
64	Correct	17 ms	336 KB	Output is correct

Subtask #4

0.0 / 60.0

#	Verdict	Execution time	Memory	Grader output
1	Correct	12 ms	208 KB	Output is correct
2	Correct	10 ms	208 KB	Output is correct
3	Correct	9 ms	208 KB	Output is correct
4	Correct	10 ms	328 KB	Output is correct
5	Correct	13 ms	348 KB	Output is correct
6	Correct	12 ms	208 KB	Output is correct
7	Correct	12 ms	208 KB	Output is correct
8	Correct	11 ms	208 KB	Output is correct
9	Correct	9 ms	208 KB	Output is correct
10	Correct	12 ms	336 KB	Output is correct
11	Correct	13 ms	340 KB	Output is correct
12	Correct	13 ms	336 KB	Output is correct
13	Correct	13 ms	336 KB	Output is correct
14	Correct	7 ms	208 KB	Output is correct
15	Correct	11 ms	208 KB	Output is correct
16	Correct	12 ms	208 KB	Output is correct
17	Correct	12 ms	208 KB	Output is correct
18	Correct	12 ms	308 KB	Output is correct
19	Correct	11 ms	324 KB	Output is correct
20	Correct	14 ms	316 KB	Output is correct
21	Correct	11 ms	208 KB	Output is correct
22	Correct	10 ms	208 KB	Output is correct
23	Correct	9 ms	208 KB	Output is correct
24	Correct	9 ms	208 KB	Output is correct
25	Correct	9 ms	208 KB	Output is correct
26	Correct	12 ms	312 KB	Output is correct
27	Correct	11 ms	312 KB	Output is correct
28	Correct	11 ms	208 KB	Output is correct
29	Correct	13 ms	336 KB	Output is correct
30	Correct	10 ms	208 KB	Output is correct
31	Correct	10 ms	208 KB	Output is correct
32	Correct	13 ms	208 KB	Output is correct
33	Correct	14 ms	208 KB	Output is correct
34	Correct	10 ms	208 KB	Output is correct
35	Correct	12 ms	208 KB	Output is correct
36	Correct	13 ms	208 KB	Output is correct
37	Correct	12 ms	312 KB	Output is correct
38	Correct	13 ms	208 KB	Output is correct
39	Correct	14 ms	208 KB	Output is correct
40	Correct	13 ms	324 KB	Output is correct
41	Correct	11 ms	208 KB	Output is correct
42	Correct	14 ms	208 KB	Output is correct
43	Correct	13 ms	336 KB	Output is correct
44	Correct	16 ms	336 KB	Output is correct
45	Correct	12 ms	360 KB	Output is correct
46	Correct	12 ms	348 KB	Output is correct
47	Correct	17 ms	344 KB	Output is correct
48	Correct	16 ms	332 KB	Output is correct
49	Correct	14 ms	332 KB	Output is correct
50	Correct	13 ms	336 KB	Output is correct
51	Correct	17 ms	332 KB	Output is correct
52	Correct	16 ms	328 KB	Output is correct
53	Correct	19 ms	336 KB	Output is correct
54	Correct	22 ms	324 KB	Output is correct
55	Correct	19 ms	316 KB	Output is correct
56	Correct	13 ms	336 KB	Output is correct
57	Correct	12 ms	328 KB	Output is correct
58	Correct	19 ms	336 KB	Output is correct
59	Correct	21 ms	336 KB	Output is correct
60	Correct	20 ms	208 KB	Output is correct
61	Correct	16 ms	336 KB	Output is correct
62	Correct	13 ms	348 KB	Output is correct
63	Correct	13 ms	464 KB	Output is correct
64	Correct	15 ms	464 KB	Output is correct
65	Correct	17 ms	336 KB	Output is correct
66	Correct	17 ms	336 KB	Output is correct
67	Partially correct	17 ms	340 KB	Output is partially correct
68	Correct	17 ms	328 KB	Output is correct
69	Runtime error	6 ms	448 KB	Execution killed with signal 6
70	Halted	0 ms	0 KB	-