# | Submission time | Handle | Problem | Language | Result | Execution time | Memory |
---|---|---|---|---|---|---|---|
304327 | 2020-09-21T06:19:46 Z | galca | Counting Mushrooms (IOI20_mushrooms) | C++14 | 0 ms | 256 KB |
#include "mushrooms.h" using namespace std; vector<int> knownZeros; vector<int> knownOnes; vector<int> alternating; void resolveAlternating(int lastVal) { if (alternating.size() > 0) { if (lastVal == -1) { lastVal = use_machine({ 0, alternating[alternating.size()-1] }); } while (alternating.size() > 0) { if (lastVal) { knownOnes.push_back(alternating[alternating.size() - 1]); } else { knownZeros.push_back(alternating[alternating.size() - 1]); } lastVal ^= 1; alternating.pop_back(); } } } int count_mushrooms(int n) { knownZeros.push_back(0); // find one more, or two 1s int i = 1; while ((knownZeros.size() < 2) && (knownOnes.size() < 2)) { int c = use_machine({ 0, i }); if (c) { knownOnes.push_back(i); } else { knownZeros.push_back(i); } ++i; if (i == n) { return knownZeros.size(); } } vector<int> fives; bool isZero = false; if (knownZeros.size() == 2) { fives.push_back(0); fives.push_back(knownZeros[0]); fives.push_back(0); fives.push_back(knownZeros[1]); fives.push_back(0); isZero = true; } else { fives.push_back(0); fives.push_back(knownOnes[0]); fives.push_back(0); fives.push_back(knownOnes[1]); fives.push_back(0); } while (((knownZeros.size() + alternating.size()/2) < 100) && ((knownOnes.size() + alternating.size() / 2) < 100)) { if (i == n) { return knownZeros.size(); } if (i == (n - 1)) { int c = use_machine({ 0, n - 1 }); return knownZeros.size() + 1 - c; } if (i == (n - 2)) { int c1 = use_machine({ 0, n - 1 }); int c2 = use_machine({ 0, n - 2 }); return knownZeros.size() + 2 - (c1+c2); } fives[0] = i; fives[2] = i + 1; fives[4] = i + 2; int c = use_machine(fives); switch (c) { case 0: if (isZero) { knownZeros.push_back(i); knownZeros.push_back(i+1); knownZeros.push_back(i+2); resolveAlternating(0); } else { knownOnes.push_back(i); knownOnes.push_back(i + 1); knownOnes.push_back(i + 2); resolveAlternating(1); } i += 3; break; case 1: if (isZero) { knownZeros.push_back(i+1); if (alternating.size() == 0) { alternating.push_back(i); } alternating.push_back(i + 2); } else { knownOnes.push_back(i + 1); if (alternating.size() == 0) { alternating.push_back(i); } alternating.push_back(i + 2); } i += 2; break; case 2: if (isZero) { if (alternating.size() == 0) { alternating.push_back(i); } alternating.push_back(i + 1); alternating.push_back(i + 2); } else { if (alternating.size() == 0) { alternating.push_back(i); } alternating.push_back(i + 1); alternating.push_back(i + 2); } i += 2; break; case 3: if (isZero) { knownOnes.push_back(i+1); if (alternating.size() == 0) { alternating.push_back(i); } alternating.push_back(i + 2); } else { knownZeros.push_back(i + 1); if (alternating.size() == 0) { alternating.push_back(i); } alternating.push_back(i + 2); } i += 2; break; case 4: if (isZero) { knownOnes.push_back(i); knownOnes.push_back(i + 1); knownOnes.push_back(i + 2); resolveAlternating(1); } else { knownZeros.push_back(i); knownZeros.push_back(i + 1); knownZeros.push_back(i + 2); resolveAlternating(0); } i += 3; break; } } resolveAlternating(-1); i = knownZeros.size() + knownOnes.size(); int totalZeros = knownZeros.size(); while (i < n) { vector<int> m; if (knownOnes.size() >= knownZeros.size()) { for (int j = 0; j < knownOnes.size(); j++) { if ((i + j) < n) { m.push_back(knownOnes[j]); m.push_back(i + j); } } i += knownOnes.size(); int c = use_machine(m); if (c & 1) { ++totalZeros; --c; knownZeros.push_back(m[m.size() - 1]); } else { knownOnes.push_back(m[m.size() - 1]); } totalZeros += c / 2; } else { for (int j = 0; j < knownZeros.size(); j++) { if ((i + j) < n) { m.push_back(knownZeros[j]); m.push_back(i + j); } } i += knownZeros.size(); int c = use_machine(m); if (c & 1) { ++c; knownOnes.push_back(m[m.size() - 1]); } else { knownZeros.push_back(m[m.size() - 1]); } totalZeros += (m.size() - c) / 2; } } return totalZeros; }
Compilation message
# | Verdict | Execution time | Memory | Grader output |
---|---|---|---|---|
1 | Correct | 0 ms | 256 KB | Output is correct |
2 | Correct | 0 ms | 256 KB | Output is correct |
3 | Incorrect | 0 ms | 256 KB | Answer is not correct. |
4 | Halted | 0 ms | 0 KB | - |