Submission #314680

#TimeUsernameProblemLanguageResultExecution timeMemory
314680neizodCounting Mushrooms (IOI20_mushrooms)C++17
100 / 100
9 ms384 KiB
// WIP: REFACTORING #include "mushrooms.h" #include <bits/stdc++.h> using namespace std; const int M = 100; vector<int> A, B; int count_A, count_B, i; void get_same_two_pivots() { while (A.size() < 2 and B.size() < 2) { if (0 == use_machine({ 0, i })) { A.push_back(i); } else { B.push_back(i); } i += 1; } // XXX defer this to very later (part 4); count_A = A.size(); count_B = B.size(); } void get_mixed_three_two_pivots() { // TODO refactor while condition while ( (count_A < 3 or count_B < 2) and (count_A < 2 or count_B < 3) and count_A < M and count_B < M ) { bool swapped = false; if (count_A < count_B) { swapped = true; swap(A, B); swap(count_A, count_B); } switch (use_machine({ i, A[0], i+1, A[1] })) { case 0: A.insert(A.end(), { i, i+1 }); count_A += 2; break; case 1: B.push_back(i); A.push_back(i+1); count_A++; count_B++; break; case 2: A.push_back(i); B.push_back(i+1); count_A++; count_B++; break; default: B.insert(B.end(), { i, i+1 }); count_B += 2; } if (swapped) { swap(A, B); swap(count_A, count_B); } i += 2; } } void get_same_many_pivots() { // TODO argument: limits // TODO M is somewhat magic number, can we determine them in term of n? while (count_A < M && count_B < M) { bool swapped = false; if (count_A < count_B) { swapped = true; swap(A, B); swap(count_A, count_B); } int result = use_machine({ i, A[0], i+1, A[1], i+2, A[2] }); int parity = result % 2; switch (parity) { case 0: A.push_back(i); count_A++; break; case 1: B.push_back(i); count_B++; break; } switch (result - parity) { case 0: A.insert(A.end(), { i+1, i+2 }); count_A += 2; i += 3; break; case 4: B.insert(B.end(), { i+1, i+2 }); count_B += 2; i += 3; break; case 2: switch (use_machine({ B[0], i+1, B[1], A[0], i+2, A[1], i+3, A[2], i+4 })) { case 1: A.insert(A.end(), { i+2, i+3, i+4 }); B.insert(B.end(), { i+1 }); //B.push_back(i+1); //A.push_back(i+2); //A.push_back(i+3); //A.push_back(i+4); count_A += 3; count_B += 1; break; case 2: B.push_back(i+1); A.push_back(i+2); A.push_back(i+3); B.push_back(i+4); count_A += 2; count_B += 2; break; case 3: B.push_back(i+1); A.push_back(i+2); B.push_back(i+3); A.push_back(i+4); count_A += 2; count_B += 2; break; case 4: B.push_back(i+1); A.push_back(i+2); B.push_back(i+3); B.push_back(i+4); count_A += 1; count_B += 3; break; case 5: A.push_back(i+1); B.push_back(i+2); A.push_back(i+3); A.push_back(i+4); count_A += 3; count_B += 1; break; case 6: A.push_back(i+1); B.push_back(i+2); A.push_back(i+3); B.push_back(i+4); count_A += 2; count_B += 2; break; case 7: A.push_back(i+1); B.push_back(i+2); B.push_back(i+3); A.push_back(i+4); count_A += 2; count_B += 2; break; default: A.push_back(i+1); B.push_back(i+2); B.push_back(i+3); B.push_back(i+4); count_A += 1; count_B += 3; } i += 5; } if (swapped) { swap(A, B); swap(count_A, count_B); } } } void count_the_rest(int n) { while (i < n) { bool swapped = false; if (A.size() < B.size()) { swapped = true; swap(A, B); swap(count_A, count_B); } vector<int> x; int L = min((int)A.size(), n-i); for (int j=0;j<L;j++) { x.push_back(i+j); x.push_back(A[j]); } int result = use_machine(x); if (result%2 == 0) { A.push_back(i); count_A++; } else { B.push_back(i); count_B++; } count_B += result/2; count_A += (L-1) - result/2; if (swapped) { swap(A, B); swap(count_A, count_B); } i += L; } } int naive(int n) { while (i < n) { vector<int> x; x.push_back(0); x.push_back(i); int result = use_machine(x); if (result == 0 ) { A.push_back(i); count_A++; } else { B.push_back(i); count_B++; } i++; } return count_A; } int count_mushrooms(int n) { A = { 0 }; B = { }; count_A = 1; count_B = 0; i = 1; if (n <= 226) { return naive(n); } get_same_two_pivots(); get_mixed_three_two_pivots(); get_same_many_pivots(); count_the_rest(n); return count_A; }

Subtask 1100 / 100

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