結果
問題 | No.5003 物理好きクリッカー |
ユーザー | siman |
提出日時 | 2018-12-07 14:10:42 |
言語 | C++11 (gcc 11.4.0) |
結果 |
AC
|
実行時間 | 2,681 ms / 10,000 ms |
コード長 | 24,224 bytes |
コンパイル時間 | 1,484 ms |
実行使用メモリ | 21,948 KB |
スコア | 259,813,890,646 |
平均クエリ数 | 10000.00 |
最終ジャッジ日時 | 2021-07-19 09:07:04 |
合計ジャッジ時間 | 92,600 ms |
ジャッジサーバーID (参考情報) |
judge14 / judge12 |
純コード判定しない問題か言語 |
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テストケース
テストケース表示入力 | 結果 | 実行時間 実行使用メモリ |
---|---|---|
testcase_00 | AC | 2,681 ms
21,888 KB |
testcase_01 | AC | 2,660 ms
21,504 KB |
testcase_02 | AC | 2,668 ms
21,852 KB |
testcase_03 | AC | 2,666 ms
21,372 KB |
testcase_04 | AC | 2,670 ms
21,348 KB |
testcase_05 | AC | 2,666 ms
21,348 KB |
testcase_06 | AC | 2,662 ms
21,516 KB |
testcase_07 | AC | 2,667 ms
21,912 KB |
testcase_08 | AC | 2,660 ms
21,852 KB |
testcase_09 | AC | 2,655 ms
21,528 KB |
testcase_10 | AC | 2,660 ms
21,672 KB |
testcase_11 | AC | 2,656 ms
21,528 KB |
testcase_12 | AC | 2,658 ms
21,492 KB |
testcase_13 | AC | 2,657 ms
21,624 KB |
testcase_14 | AC | 2,663 ms
21,888 KB |
testcase_15 | AC | 2,658 ms
21,516 KB |
testcase_16 | AC | 2,661 ms
21,672 KB |
testcase_17 | AC | 2,661 ms
21,684 KB |
testcase_18 | AC | 2,658 ms
21,924 KB |
testcase_19 | AC | 2,659 ms
21,912 KB |
testcase_20 | AC | 2,656 ms
21,348 KB |
testcase_21 | AC | 2,657 ms
21,492 KB |
testcase_22 | AC | 2,656 ms
21,888 KB |
testcase_23 | AC | 2,661 ms
21,516 KB |
testcase_24 | AC | 2,673 ms
21,348 KB |
testcase_25 | AC | 2,659 ms
21,876 KB |
testcase_26 | AC | 2,656 ms
21,468 KB |
testcase_27 | AC | 2,659 ms
21,528 KB |
testcase_28 | AC | 2,656 ms
21,864 KB |
testcase_29 | AC | 2,662 ms
21,828 KB |
testcase_30 | AC | 2,663 ms
21,516 KB |
testcase_31 | AC | 2,658 ms
21,864 KB |
ソースコード
#include <cassert> #include <cmath> #include <iostream> #include <vector> #include <string.h> typedef long long ll; using namespace std; double TIME_LIMIT = 2.0; const ll CYCLE_PER_SEC = 2700000000; const int N = 10000; const int NOTHING = -1; const int CLICK = 0; const int BUY = 1; const int SELL = 2; const int REINFORCE = 3; const int ENHCLICK = 4; const int BUY_HAND = 5; const int BUY_LILY = 6; const int BUY_FACTORY = 7; const int BUY_CASINO = 8; const int BUY_GRIMOIRE = 9; const int BUY_NEXT = 10; const int BUY_SAME = 11; const int UPDATE_HAND = 12; const int UPDATE_LILY = 13; const int UPDATE_FACTORY = 14; const int UPDATE_CASINO = 15; const int UPDATE_GRIMOIRE = 16; const int UPGRADE_FACTORY = 17; const int SELL_HAND = 18; const int SELL_LILY = 19; const int SELL_FACTORY = 20; const int SELL_CASINO = 21; const int SELL_GRIMOIRE = 22; const int SELL_SAME = 23; const int HAND = 1; const int LILY = 2; const int FACTORY = 3; const int CASINO = 4; const int GRIMOIRE = 5; const int BUY_OPERATIONS[7] = { NOTHING, BUY_HAND, BUY_LILY, BUY_FACTORY, BUY_CASINO, BUY_GRIMOIRE, NOTHING }; const int UPDATE_OPERATIONS[7] = { NOTHING, UPDATE_HAND, UPDATE_LILY, UPDATE_FACTORY, UPDATE_CASINO, UPDATE_GRIMOIRE, NOTHING }; const int SELL_OPERATIONS[7] = { NOTHING, SELL_HAND, SELL_LILY, SELL_FACTORY, SELL_CASINO, SELL_GRIMOIRE, NOTHING, }; const int BONUS = 1; const int FEVER = 2; const int SALE = 3; const int PRODUCTIVITY[6] = { 1, 1, 10, 120, 2000, 25000 }; const ll UPDATE_COST[6][6] = { { 15, 150, 1500, 15000, 150000, 1500000 }, { 150, 1500, 15000, 150000, 1500000, 15000000 }, { 2000, 20000, 200000, 2000000, 20000000, 200000000, }, { 15, 150, 1500, 15000, 150000, 1500000 }, { 15, 150, 1500, 15000, 150000, 1500000 }, { 15, 150, 1500, 15000, 150000, 1500000 }, }; unsigned long long xor128() { static unsigned long long rx = 123456789, ry = 362436069, rz = 521288629, rw = 88675123; unsigned long long rt = (rx ^ (rx << 11)); rx = ry; ry = rz; rz = rw; return (rw = (rw ^ (rw >> 19)) ^ (rt ^ (rt >> 8))); } unsigned long long int getCycle() { unsigned int low, high; __asm__ volatile ("rdtsc" : "=a" (low), "=d" (high)); return ((unsigned long long int) low) | ((unsigned long long int) high << 32); } double getTime(unsigned long long int begin_cycle) { return (double) (getCycle() - begin_cycle) / CYCLE_PER_SEC; } ll factory_price[7][50]; ll update_cost[7][50]; int operations[N]; int bonus[N + 21]; ll startCycle; int OPERATION_LENGTH = 150; class CookieClicker { public: void init(string events) { startCycle = getCycle(); memset(operations, CLICK, sizeof(operations)); memset(bonus, NOTHING, sizeof(bonus)); for (int i = 0; i < N; i++) { switch (events[i]) { case 'B': bonus[i] = BONUS; break; case 'F': for (int j = i + 1; j <= i + 20; j++) { bonus[j] = FEVER; } break; case 'S': bonus[i + 1] = SALE; break; } } int prices[6] = { 0, 150, 2000, 30000, 600000, 10000000 }; for (int i = 1; i <= 5; i++) { ll price = prices[i]; ll cost = 10 * prices[i]; for (int j = 0; j < 19; j++) { update_cost[i][j] = cost; cost *= 10; } for (int j = 0; j < 50; j++) { factory_price[i][j] = price; price = ceil((6 * price) / 5) + 1; } } } vector<int> firstAnswer() { vector<int> actions; actions.push_back(ENHCLICK); actions.push_back(ENHCLICK); actions.push_back(BUY_NEXT); for (int i = 0; i < 5; i++) { actions.push_back(BUY_SAME); actions.push_back(NOTHING); } actions.push_back(BUY_NEXT); for (int i = 0; i < 5; i++) { actions.push_back(BUY_SAME); actions.push_back(NOTHING); } actions.push_back(UPGRADE_FACTORY); actions.push_back(BUY_NEXT); for (int i = 0; i < 5; i++) { actions.push_back(BUY_SAME); actions.push_back(NOTHING); } actions.push_back(UPGRADE_FACTORY); actions.push_back(BUY_NEXT); for (int i = 0; i < 5; i++) { actions.push_back(BUY_SAME); actions.push_back(NOTHING); } actions.push_back(UPGRADE_FACTORY); actions.push_back(BUY_NEXT); for (int i = 0; i < 10; i++) { actions.push_back(BUY_SAME); actions.push_back(NOTHING); } while (actions.size() < OPERATION_LENGTH) { actions.push_back(NOTHING); } assert(actions.size() == OPERATION_LENGTH); return actions; } vector <string> run(string events) { init(events); vector<int> bestActions = firstAnswer(); vector<int> actions = bestActions; ll bestScore = updateAnswer(bestActions); ll currentScore = bestScore; int opes[2] = {BUY_SAME, UPGRADE_FACTORY}; int tryCount = 0; int R = 500000; double k = 10.0; double currentTime = getTime(startCycle); double remainTime = 0.0; while (currentTime < TIME_LIMIT) { currentTime = getTime(startCycle); remainTime = (TIME_LIMIT - currentTime) / TIME_LIMIT; int j = xor128() % OPERATION_LENGTH; int act = actions[j]; if (actions[j] == NOTHING) { actions[j] = opes[xor128() % 2]; } else if (actions[j] == BUY_SAME) { actions[j] = (xor128() % 2 == 0) ? NOTHING : UPGRADE_FACTORY; } else if (actions[j] == UPGRADE_FACTORY) { actions[j] = (xor128() % 2 == 0) ? NOTHING : BUY_SAME; } else { continue; } ll score = updateAnswer(actions); ll diff = currentScore - score; if (currentScore < score || (xor128() % R < R * exp(-diff / (k * sqrt(remainTime))))) { currentScore = score; if (bestScore < score) { cerr << bestScore << endl; bestScore = score; bestActions = actions; } } else { actions[j] = act; } tryCount++; } fprintf(stderr, "tryCount = %d\n", tryCount); updateAnswer(bestActions); vector <string> answer = createAnswer(); return answer; } vector <string> createAnswer() { vector <string> answer; for (int i = 0; i < N; i++) { switch (operations[i]) { case NOTHING: answer.push_back("nothing"); break; case CLICK: answer.push_back("click"); break; case BUY: answer.push_back("buy"); break; case SELL: break; case REINFORCE: break; case ENHCLICK: answer.push_back("enhclick"); break; case BUY_HAND: answer.push_back("buy hand"); break; case BUY_LILY: answer.push_back("buy lily"); break; case BUY_FACTORY: answer.push_back("buy factory"); break; case BUY_CASINO: answer.push_back("buy casino"); break; case BUY_GRIMOIRE: answer.push_back("buy grimoire"); break; case UPDATE_HAND: answer.push_back("reinforce hand"); break; case UPDATE_LILY: answer.push_back("reinforce lily"); break; case UPDATE_FACTORY: answer.push_back("reinforce factory"); break; case UPDATE_CASINO: answer.push_back("reinforce casino"); break; case UPDATE_GRIMOIRE: answer.push_back("reinforce grimoire"); break; case SELL_HAND: answer.push_back("sell hand"); break; case SELL_LILY: answer.push_back("sell lily"); break; default: cerr << operations[i] << endl; assert(false); } } return answer; } ll updateAnswer(vector<int> actions) { memset(operations, CLICK, sizeof(operations)); int index = 0; int clickLevel = 0; int factoryGrade = 0; ll cookie = 0; ll productivity = 0; int clickPower = 1; ll updateCost; int clickPoint; ll price; int factoryCount[7] = {0, 0, 0, 0, 0, 0, 0}; int factoryLevels[7] = {0, 0, 0, 0, 0, 0, 0}; int nextFactory; int sell_price; for (int i = 0; i < N; i++) { if (actions.size() <= index) { return (N - i) * productivity + cookie; break; } clickPoint = clickPower; switch (actions[index]) { case ENHCLICK: updateCost = UPDATE_COST[CLICK][clickLevel]; if (bonus[i] == SALE) { updateCost = ceil(updateCost * 0.9) + 1; } if (cookie >= updateCost) { cookie -= updateCost; clickLevel++; clickPower *= 2; operations[i] = ENHCLICK; index++; clickPoint = 0; } break; case BUY_LILY: price = factory_price[LILY][factoryCount[LILY]]; if (bonus[i] == SALE) { price = ceil(price * 0.9) + 1; } if (cookie >= price) { cookie -= price; factoryCount[LILY]++; productivity += PRODUCTIVITY[LILY]; operations[i] = BUY_LILY; factoryGrade = max(factoryGrade, LILY); index++; clickPoint = 0; } break; case BUY_NEXT: nextFactory = factoryGrade + 1; if (nextFactory <= GRIMOIRE) { price = factory_price[nextFactory][factoryCount[nextFactory]]; if (bonus[i] == SALE) { price = ceil(price * 0.9) + 1; } if (cookie >= price) { cookie -= price; factoryCount[nextFactory]++; productivity += PRODUCTIVITY[nextFactory]; operations[i] = BUY_OPERATIONS[nextFactory]; factoryGrade = max(factoryGrade, nextFactory); index++; clickPoint = 0; } } else { index++; } break; case BUY_SAME: price = factory_price[factoryGrade][factoryCount[factoryGrade]]; if (bonus[i] == SALE) { price = ceil(price * 0.9) + 1; } if (cookie >= price) { cookie -= price; factoryCount[factoryGrade]++; productivity += PRODUCTIVITY[factoryGrade] * pow(2, factoryLevels[factoryGrade]); operations[i] = BUY_OPERATIONS[factoryGrade]; index++; clickPoint = 0; } break; case UPGRADE_FACTORY: updateCost = update_cost[factoryGrade][factoryLevels[factoryGrade]]; if (bonus[i] == SALE) { updateCost = ceil(updateCost * 0.9) + 1; } assert(factoryCount[factoryGrade] > 0); if (cookie >= updateCost) { cookie -= updateCost; productivity += factoryCount[factoryGrade] * PRODUCTIVITY[factoryGrade] * pow(2, factoryLevels[factoryGrade]); operations[i] = UPDATE_OPERATIONS[factoryGrade]; index++; factoryLevels[factoryGrade]++; clickPoint = 0; } break; case SELL_SAME: assert(factoryCount[factoryGrade] > 0); nextFactory = factoryGrade + 1; sell_price = 0.25 * factory_price[factoryGrade][factoryCount[factoryGrade] - 1]; if (nextFactory <= GRIMOIRE) { if (sell_price + cookie >= factory_price[nextFactory][0]) { cookie += sell_price; productivity -= PRODUCTIVITY[factoryGrade] * pow(2, factoryLevels[factoryGrade]); operations[i] = SELL_OPERATIONS[factoryGrade]; index++; factoryCount[factoryGrade]--; clickPoint = 0; } } break; case NOTHING: index++; break; default: assert(false); break; } switch (bonus[i]) { case FEVER: cookie += 7 * (productivity + clickPoint); break; case BONUS: cookie += productivity + clickPoint; cookie += ceil(cookie * 0.01) - 1; break; default: cookie += productivity + clickPoint; break; } } return cookie; } ll calcScore() { ll cookie = 0; int clickPower = 1; int clickLevel = 0; int updateCost; int price; int factoryCount[6] = {0, 0, 0, 0, 0, 0}; int factoryLevels[6] = {0, 0, 0, 0, 0, 0}; int factoryLevel = 0; int productivity = 0; int sell_price; for (int i = 0; i < N; i++) { switch (operations[i]) { case NOTHING: break; case CLICK: if (bonus[i] == FEVER) { cookie += 7 * clickPower; } else { cookie += clickPower; } break; case ENHCLICK: updateCost = UPDATE_COST[CLICK][clickLevel]; if (bonus[i] == SALE) { updateCost = ceil(updateCost * 0.9) + 1; } assert(cookie >= updateCost); cookie -= updateCost; clickPower *= 2; clickLevel++; break; case BUY_HAND: price = factory_price[HAND][factoryCount[HAND]]; if (bonus[i] == SALE) { price = ceil(price * 0.9) + 1; } assert(cookie >= price); cookie -= price; factoryLevel = max(factoryLevel, HAND); factoryCount[HAND]++; productivity += PRODUCTIVITY[HAND] * pow(2, factoryLevels[HAND]); break; case BUY_LILY: price = factory_price[LILY][factoryCount[LILY]]; if (bonus[i] == SALE) { price = ceil(price * 0.9) + 1; } assert(cookie >= price); cookie -= price; factoryLevel = max(factoryLevel, LILY); factoryCount[LILY]++; productivity += PRODUCTIVITY[LILY] * pow(2, factoryLevels[LILY]); break; case BUY_FACTORY: price = factory_price[FACTORY][factoryCount[FACTORY]]; if (bonus[i] == SALE) { price = ceil(price * 0.9) + 1; } assert(cookie >= price); cookie -= price; factoryCount[FACTORY]++; productivity += PRODUCTIVITY[FACTORY] * pow(2, factoryLevels[FACTORY]); break; case BUY_CASINO: price = factory_price[CASINO][factoryCount[CASINO]]; if (bonus[i] == SALE) { price = ceil(price * 0.9) + 1; } assert(cookie >= price); cookie -= price; factoryCount[CASINO]++; productivity += PRODUCTIVITY[CASINO] * pow(2, factoryLevels[CASINO]); break; case BUY_GRIMOIRE: price = factory_price[GRIMOIRE][factoryCount[GRIMOIRE]]; if (bonus[i] == SALE) { price = ceil(price * 0.9) + 1; } assert(cookie >= price); cookie -= price; factoryCount[GRIMOIRE]++; productivity += PRODUCTIVITY[GRIMOIRE] * pow(2, factoryLevels[GRIMOIRE]); break; case UPDATE_HAND: updateCost = update_cost[HAND][factoryLevels[HAND]]; if (bonus[i] == SALE) { updateCost = ceil(updateCost * 0.9) + 1; } if (cookie >= updateCost) { cookie -= updateCost; productivity += factoryCount[HAND] * PRODUCTIVITY[HAND] * pow(2, factoryLevels[HAND]); factoryLevels[HAND]++; } break; case UPDATE_LILY: updateCost = update_cost[LILY][factoryLevels[LILY]]; if (bonus[i] == SALE) { updateCost = ceil(updateCost * 0.9) + 1; } if (cookie >= updateCost) { cookie -= updateCost; productivity += factoryCount[LILY] * PRODUCTIVITY[LILY] * pow(2, factoryLevels[LILY]); factoryLevels[LILY]++; } break; case UPDATE_FACTORY: updateCost = update_cost[FACTORY][factoryLevels[FACTORY]]; if (bonus[i] == SALE) { updateCost = ceil(updateCost * 0.9) + 1; } if (cookie >= updateCost) { cookie -= updateCost; productivity += factoryCount[FACTORY] * PRODUCTIVITY[FACTORY] * pow(2, factoryLevels[FACTORY]); factoryLevels[FACTORY]++; } break; case UPDATE_CASINO: updateCost = update_cost[CASINO][factoryLevels[CASINO]]; if (bonus[i] == SALE) { updateCost = ceil(updateCost * 0.9) + 1; } if (cookie >= updateCost) { cookie -= updateCost; productivity += factoryCount[CASINO] * PRODUCTIVITY[CASINO] * pow(2, factoryLevels[CASINO]); factoryLevels[CASINO]++; } break; case UPDATE_GRIMOIRE: updateCost = update_cost[GRIMOIRE][factoryLevels[GRIMOIRE]]; if (bonus[i] == SALE) { updateCost = ceil(updateCost * 0.9) + 1; } if (cookie >= updateCost) { cookie -= updateCost; productivity += factoryCount[GRIMOIRE] * PRODUCTIVITY[GRIMOIRE] * pow(2, factoryLevels[GRIMOIRE]); factoryLevels[GRIMOIRE]++; } break; case SELL_HAND: assert(factoryCount[HAND] > 0); sell_price = 0.25 * factory_price[HAND][factoryCount[HAND] - 1]; if (sell_price + cookie >= factory_price[LILY][0]) { cookie += sell_price; productivity -= PRODUCTIVITY[HAND] * pow(2, factoryLevels[HAND]); factoryCount[HAND]--; } break; case SELL_LILY: assert(factoryCount[LILY] > 0); sell_price = 0.25 * factory_price[LILY][factoryCount[LILY] - 1]; if (sell_price + cookie >= factory_price[FACTORY][0]) { cookie += sell_price; productivity -= PRODUCTIVITY[LILY] * pow(2, factoryLevels[LILY]); factoryCount[LILY]--; } break; default: assert(false); break; } switch (bonus[i]) { case FEVER: cookie += 7 * productivity; break; case BONUS: cookie += productivity; cookie += ceil(cookie * 0.01); break; default: cookie += productivity; break; } // fprintf(stderr, "%d: cookie = %d\n", i, cookie); } fprintf(stderr, "clickLevel = %d\n", clickLevel); return cookie; } }; int main() { int n; string s, res; CookieClicker cc; cin >> n; cin >> s; vector <string> answer = cc.run(s); for (int i = 0; i < N; i++) { cout << answer[i] << endl; cin >> res; assert(res[0] == 'o'); } ll score = cc.calcScore(); fprintf(stderr, "Score = %lld\n", score); return 0; }