Submission #51595

#TimeUsernameProblemLanguageResultExecution timeMemory
51595model_codeMecho (IOI09_mecho)C++98
100 / 100
287 ms22148 KiB
/** * A binary search solution for IOI 2009 problem "mecho" * * This solution should score 100% * * Carl Hultquist, [email protected] */ #include <iostream> #include <string> #include <cstdlib> #include <fstream> #include <vector> #include <utility> #include <memory.h> #include <deque> using namespace std; #define MAX_N 2000 int cx[4] = {1, -1, 0, 0}; int cy[4] = {0, 0, 1, -1}; char mainMap[MAX_N][MAX_N]; bool reachable[MAX_N][MAX_N]; // The time that it takes the bees to reach any cell in the map int beeDistance[MAX_N][MAX_N]; int n, s; int dx, dy; int mx, my; /** * Tests if Mecho is able to reach his home after staying with * the honey for the given delay time. */ bool test(int delay) { // Check if the bees catch Mecho whilst he is still with // the honey. if (delay * s >= beeDistance[mx][my]) return false; // Initialise data structures -- at the beginning of the search, // Mecho has only reached the cell with the honey. Note that it // is possible for the bees to catch Mecho at the honey -- but // we checked for this case above, and so if we reach this point // we know that Mecho is safe with the honey after the given // delay. memset(reachable, 0, sizeof(reachable)); deque<pair<int, pair<int, int> > > q; q.push_back(make_pair(delay * s, make_pair(mx, my))); reachable[mx][my] = true; // Now do the main loop to see what other cells Mecho can reach. while (!q.empty()) { int distance = q.front().first; int x = q.front().second.first; int y = q.front().second.second; q.pop_front(); // If Mecho has reached his home, then we are done. if (mainMap[x][y] == 'D') return true; // Check neighbouring cells for (int c = 0; c < 4; c++) { int nx = x + cx[c]; int ny = y + cy[c]; // Check that the cell is valid, that it is not a tree, and // that Mecho can get here before the bees. if (nx < 0 || nx >= n || ny < 0 || ny >= n || mainMap[nx][ny] == 'T' || (distance + 1) >= beeDistance[nx][ny] || reachable[nx][ny]) continue; // All OK, so add it to the queue q.push_back(make_pair(distance + 1, make_pair(nx, ny))); reachable[nx][ny] = true; } } // If we reach here, then Mecho was unable to reach his home. return false; } int main(int argc, char **argv) { // Read in the data cin >> n >> s; deque<pair<int, int> > bq; memset(beeDistance, -1, sizeof(beeDistance)); for (int i = 0; i < n; i++) { cin >> ws; for (int j = 0; j < n; j++) { cin >> mainMap[i][j]; if (mainMap[i][j] == 'H') { bq.push_back(make_pair(i, j)); beeDistance[i][j] = 0; } else if (mainMap[i][j] == 'M') { mx = i; my = j; // Bees can travel through the location of the honey mainMap[i][j] = 'G'; } else if (mainMap[i][j] == 'D') { dx = i; dy = j; } } } // Precompute the time that it takes the bees to reach any other // cell in the map. while (!bq.empty()) { int x = bq.front().first; int y = bq.front().second; bq.pop_front(); for (int c = 0; c < 4; c++) { int nx = x + cx[c]; int ny = y + cy[c]; if (nx < 0 || nx >= n || ny < 0 || ny >= n || mainMap[nx][ny] != 'G' || beeDistance[nx][ny] != -1) continue; beeDistance[nx][ny] = beeDistance[x][y] + s; bq.push_back(make_pair(nx, ny)); } } // The bees can never enter Mecho's home, so set this to a large // sentinel value. beeDistance[dx][dy] = n * n * s; // Binary search to find the maximum delay time. int low = -1, high = 2 * n * n; while (high - low > 1) { int mid = (low + high) >> 1; if (test(mid)) low = mid; else high = mid; } cout << low << endl; return 0; }
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