結果

問題 No.5013 セクスタプル (open)
ユーザー EvbCFfp1XBEvbCFfp1XB
提出日時 2022-12-29 17:22:03
言語 Java21
(openjdk 21)
結果
AC  
実行時間 1,902 ms / 2,000 ms
コード長 12,908 bytes
コンパイル時間 2,814 ms
実行使用メモリ 56,996 KB
スコア 18,425
最終ジャッジ日時 2022-12-29 17:25:22
合計ジャッジ時間 198,993 ms
ジャッジサーバーID
(参考情報)
judge11 / judge13
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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 1,886 ms
46,008 KB
testcase_01 AC 1,888 ms
46,084 KB
testcase_02 AC 1,886 ms
46,120 KB
testcase_03 AC 1,891 ms
46,092 KB
testcase_04 AC 1,887 ms
45,720 KB
testcase_05 AC 1,888 ms
46,020 KB
testcase_06 AC 1,886 ms
46,144 KB
testcase_07 AC 1,890 ms
46,252 KB
testcase_08 AC 1,895 ms
46,220 KB
testcase_09 AC 1,895 ms
46,036 KB
testcase_10 AC 1,902 ms
46,276 KB
testcase_11 AC 1,898 ms
45,956 KB
testcase_12 AC 1,898 ms
46,116 KB
testcase_13 AC 1,883 ms
45,512 KB
testcase_14 AC 1,886 ms
45,620 KB
testcase_15 AC 1,887 ms
46,140 KB
testcase_16 AC 1,886 ms
45,712 KB
testcase_17 AC 1,883 ms
46,036 KB
testcase_18 AC 1,879 ms
45,616 KB
testcase_19 AC 1,887 ms
46,088 KB
testcase_20 AC 1,888 ms
46,364 KB
testcase_21 AC 1,887 ms
45,724 KB
testcase_22 AC 1,888 ms
46,204 KB
testcase_23 AC 1,885 ms
46,196 KB
testcase_24 AC 1,890 ms
46,172 KB
testcase_25 AC 1,888 ms
46,132 KB
testcase_26 AC 1,891 ms
46,216 KB
testcase_27 AC 1,887 ms
46,132 KB
testcase_28 AC 1,891 ms
46,228 KB
testcase_29 AC 1,891 ms
46,212 KB
testcase_30 AC 1,889 ms
46,028 KB
testcase_31 AC 1,888 ms
46,048 KB
testcase_32 AC 1,877 ms
46,016 KB
testcase_33 AC 1,887 ms
45,616 KB
testcase_34 AC 1,888 ms
45,996 KB
testcase_35 AC 1,885 ms
46,040 KB
testcase_36 AC 1,889 ms
46,056 KB
testcase_37 AC 1,889 ms
46,228 KB
testcase_38 AC 1,889 ms
46,144 KB
testcase_39 AC 1,899 ms
46,148 KB
testcase_40 AC 1,893 ms
46,144 KB
testcase_41 AC 1,894 ms
46,124 KB
testcase_42 AC 1,895 ms
46,064 KB
testcase_43 AC 1,898 ms
46,156 KB
testcase_44 AC 1,896 ms
46,024 KB
testcase_45 AC 1,888 ms
46,180 KB
testcase_46 AC 1,886 ms
46,128 KB
testcase_47 AC 1,888 ms
46,092 KB
testcase_48 AC 1,886 ms
46,224 KB
testcase_49 AC 1,886 ms
46,088 KB
testcase_50 AC 1,887 ms
46,024 KB
testcase_51 AC 1,889 ms
45,704 KB
testcase_52 AC 1,888 ms
46,260 KB
testcase_53 AC 1,886 ms
46,076 KB
testcase_54 AC 1,883 ms
45,952 KB
testcase_55 AC 1,888 ms
45,656 KB
testcase_56 AC 1,887 ms
46,068 KB
testcase_57 AC 1,890 ms
45,984 KB
testcase_58 AC 1,887 ms
46,176 KB
testcase_59 AC 1,888 ms
45,512 KB
testcase_60 AC 1,892 ms
56,996 KB
testcase_61 AC 1,890 ms
45,900 KB
testcase_62 AC 1,886 ms
46,212 KB
testcase_63 AC 1,887 ms
46,124 KB
testcase_64 AC 1,886 ms
46,248 KB
testcase_65 AC 1,887 ms
46,260 KB
testcase_66 AC 1,877 ms
45,668 KB
testcase_67 AC 1,880 ms
45,948 KB
testcase_68 AC 1,890 ms
46,228 KB
testcase_69 AC 1,885 ms
46,200 KB
testcase_70 AC 1,883 ms
46,116 KB
testcase_71 AC 1,883 ms
46,200 KB
testcase_72 AC 1,885 ms
46,164 KB
testcase_73 AC 1,887 ms
45,804 KB
testcase_74 AC 1,880 ms
46,064 KB
testcase_75 AC 1,884 ms
46,224 KB
testcase_76 AC 1,886 ms
46,272 KB
testcase_77 AC 1,888 ms
46,124 KB
testcase_78 AC 1,883 ms
45,764 KB
testcase_79 AC 1,886 ms
45,716 KB
testcase_80 AC 1,887 ms
46,108 KB
testcase_81 AC 1,888 ms
46,216 KB
testcase_82 AC 1,889 ms
46,380 KB
testcase_83 AC 1,886 ms
46,244 KB
testcase_84 AC 1,888 ms
46,180 KB
testcase_85 AC 1,888 ms
46,136 KB
testcase_86 AC 1,886 ms
46,092 KB
testcase_87 AC 1,893 ms
46,132 KB
testcase_88 AC 1,893 ms
46,032 KB
testcase_89 AC 1,896 ms
46,088 KB
testcase_90 AC 1,892 ms
46,280 KB
testcase_91 AC 1,893 ms
45,596 KB
testcase_92 AC 1,885 ms
46,248 KB
testcase_93 AC 1,888 ms
46,068 KB
testcase_94 AC 1,888 ms
46,128 KB
testcase_95 AC 1,885 ms
45,556 KB
testcase_96 AC 1,895 ms
46,052 KB
testcase_97 AC 1,891 ms
46,152 KB
testcase_98 AC 1,885 ms
46,040 KB
testcase_99 AC 1,883 ms
45,712 KB
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ソースコード

diff #

import java.util.Arrays;
import java.util.Scanner;

public class Main {
    private int[][] dice;
    private int score = (int) -1e18;
    private int[][] table;
    private int bestScore = (int) -1e18;
    private int[][] bestTable;
    private SAState sa = new SAState();
    private int[] counts = new int[6];
    private int[] part_score_row = new int[6];
    private int[] part_score_column = new int[6];

    public static void main(String[] args) throws Exception {
        new Main().run();
    }

    private void run() {
        read();
        solve();
        write();
    }

    private void read() {
        try (final Scanner in = new Scanner(System.in)) {
            dice = new int[36][6];
            for (int i = 0; i < 36; i++) {
                for (int j = 0; j < 6; j++) {
                    dice[i][j] = in.nextInt() - 1;
                    if (i == 0 && j == 0) {
                        Constants.watch.init();
                    }
                }
            }
        } catch (Exception e) {
            e.printStackTrace();
        }
    }

    private void solve() {
        greedy();
        multiSA();
        Utils.debug(bestScore);
    }

    private void greedy() {
        table = new int[6][6];
        bestTable = new int[6][6];
        for (int i = 0; i < 6; i++) {
            for (int j = 0; j < 6; j++) {
                table[i][j] = i * 6 + j;
            }
        }
        score = calculateScore();
        saveBest();
    }

    private void saveBest() {
        if (score > bestScore) {
            bestScore = score;
            for (int r = 0; r < 6; r++) {
                for (int c = 0; c < 6; c++) {
                    bestTable[r][c] = table[r][c];
                }
            }
        }
    }

    private void multiSA() {
        int numRestart = 1;
        double startTime = Constants.watch.getSecond();
        double endTime = 1 * 1.75;
        double remainTime = endTime - startTime;
        double startStartTemperature = 1;
        double endStartTemperature = 1e-9;
        for (double restart = 0; restart < numRestart; restart++) {
            sa.startTime = startTime + remainTime * restart / numRestart;
            sa.endTime = startTime + remainTime * (restart + 1) / numRestart;
            sa.startTemperature = endStartTemperature + (startStartTemperature - endStartTemperature) * ((numRestart - restart) / numRestart);
            sa.endTemperature = 1e-9;
            SA();
        }
    }

    private void SA() {
        final double deltaSecond = (sa.endTime - sa.startTime) * 0.999 / 10;
        double thresholdSecond = sa.startTime + deltaSecond;
        sa.init();
        for (;; ++sa.numIterations) {
            if ((sa.numIterations & ((1 << 10) - 1)) == 0) {
                sa.update();
                if (sa.time > thresholdSecond) {
                    thresholdSecond += deltaSecond;
                    Utils.debug(sa.numIterations, String.format("%6.2f%%", 100.0 * sa.validIterations / sa.numIterations), String.format("%6.2f%%", 100.0 * sa.acceptIterations / sa.validIterations), String.format("%5d", score), String.format("%5d", bestScore), String.format("%8.6f", 1.0 / sa.inverseTemperature), String.format("%8.6f", 1.0 / sa.lastAcceptTemperature), sa.time);
                }
                if (sa.isTLE()) {
                    break;
                }
            }
            mutate();
        }
    }

    private void mutate() {
        change();
    }

    private void change() {
        int v1 = sa.numIterations % 36;
        int r1 = v1 / 6;
        int c1 = v1 % 6;
        int r2 = r1;
        int c2 = c1;
        if (Constants.RNG.nextInt(2) == 0) {
            while (r2 == r1) {
                r2 = Constants.RNG.nextInt(6);
            }
        } else {
            while (c2 == c1) {
                c2 = Constants.RNG.nextInt(6);
            }
        }
        int current1 = table[r1][c1];
        int current2 = table[r2][c2];
        int before = 0;
        before += part_score_row[r1];
        before += part_score_row[r2];
        before += part_score_column[c1];
        before += part_score_column[c2];
        table[r1][c1] = current2;
        table[r2][c2] = current1;
        int after_r1 = partScoreRow(counts, r1);
        int after_r2 = partScoreRow(counts, r2);
        int after_c1 = partScoreColumn(counts, c1);
        int after_c2 = partScoreColumn(counts, c2);
        int after = 0;
        after += after_r1;
        after += after_r2;
        after += after_c1;
        after += after_c2;
        int deltaScore = after - before;
        if (sa.accept(deltaScore)) {
            score += deltaScore;
            part_score_row[r1] = after_r1;
            part_score_row[r2] = after_r2;
            part_score_column[c1] = after_c1;
            part_score_column[c2] = after_c2;
            saveBest();
        } else {
            table[r1][c1] = current1;
            table[r2][c2] = current2;
        }
    }

    private int calculateScore() {
        int score = 0;
        for (int r = 0; r < 6; r++) {
            final int partScoreRow = partScoreRow(counts, r);
            part_score_row[r] = partScoreRow;
            score += partScoreRow;
        }
        for (int c = 0; c < 6; c++) {
            final int partScoreColumn = partScoreColumn(counts, c);
            part_score_column[c] = partScoreColumn;
            score += partScoreColumn;
        }
        return score;
    }

    private int partScoreColumn(int[] counts_column, int c) {
        Arrays.fill(counts_column, 0);
        int mask = (1 << 6) - 1;
        for (int r = 0; r < 6; r++) {
            int index = table[r][c];
            int mask2 = 0;
            for (int i = 0; i < 6; i++) {
                counts_column[dice[index][i]]++;
                mask2 |= (1 << dice[index][i]);
            }
            mask &= mask2;
        }
        int part_score = 0;
        for (int i = 0; i < 6; i++) {
            if ((mask & (1 << i)) == 0) {
                continue;
            }
            part_score += 3;
            part_score += counts_column[i] - 6;
        }
        return part_score;
    }

    private int partScoreRow(int[] counts_row, int r) {
        Arrays.fill(counts_row, 0);
        int mask = (1 << 6) - 1;
        for (int c = 0; c < 6; c++) {
            int index = table[r][c];
            int mask2 = 0;
            for (int i = 0; i < 6; i++) {
                counts_row[dice[index][i]]++;
                mask2 |= (1 << dice[index][i]);
            }
            mask &= mask2;
        }
        int part_score = 0;
        for (int i = 0; i < 6; i++) {
            if ((mask & (1 << i)) == 0) {
                continue;
            }
            part_score += 3;
            part_score += counts_row[i] - 6;
        }
        return part_score;
    }

    private void write() {
        String[] s = new String[36];
        for (int i = 0; i < s.length; i++) {
            s[i] = "";
        }
        for (int r = 0; r < 6; r++) {
            for (int c = 0; c < 6; c++) {
                s[bestTable[r][c]] = (r + 1) + " " + (c + 1);
            }
        }
        StringBuilder sb = new StringBuilder();
        for (int i = 0; i < 36; i++) {
            sb.append(s[i]).append('\n');
        }
        System.out.print(sb.toString());
        System.out.flush();
    }
}

class SAState {
    public static final boolean useTime = true;
    public double startTime;
    public double endTime;
    public double time;
    public double startTemperature;
    public double endTemperature;
    public double inverseTemperature;
    public double lastAcceptTemperature;
    public double startRange;
    public double endRange;
    public double range;
    public int numIterations;
    public int validIterations;
    public int acceptIterations;
    private double[] log = new double[32768];

    public SAState() {
        for (int i = 0; i < log.length; i++) {
            log[i] = Math.log((i + 0.5) / log.length);
        }
    }

    public void init() {
        numIterations = 0;
        validIterations = 0;
        acceptIterations = 0;
        startTime = useTime ? Constants.watch.getSecond() : numIterations;
        update();
        lastAcceptTemperature = inverseTemperature;
    }

    public void update() {
        updateTime();
        updateTemperature();
    }

    public boolean useExp = !true;

    public void updateTemperature() {
        if (useExp) {
            double time0to1 = elapsedPercentage(startTime, endTime, time);
            double startY = startTemperature;
            double endY = endTemperature;
            double startX = Math.log(startY);
            double endX = Math.log(endY);
            double xStartToEnd = interpolate(startX, endX, time0to1);
            double temperature = Math.exp(xStartToEnd);
            inverseTemperature = 1.0 / temperature;
        } else {
            double time0to1 = elapsedPercentage(startTime, endTime, time);
            double startY = startTemperature;
            double endY = endTemperature;
            double temperature = interpolate(startY, endY, time0to1);
            inverseTemperature = 1.0 / temperature;
        }
    }

    private double elapsedPercentage(double min, double max, double v) {
        return (v - min) / (max - min);
    }

    private double interpolate(double v0, double v1, double d0to1) {
        return v0 + (v1 - v0) * d0to1;
    }

    public void updateRange() {
        range = endRange + (startRange - endRange) * Math.pow((endTime - time) / (endTime - startTime), 1.0);
    }

    public void updateTime() {
        time = useTime ? Constants.watch.getSecond() : numIterations;
    }

    public boolean isTLE() {
        return time >= endTime;
    }

    public boolean accept(double deltaScore) {
        return acceptB(deltaScore);
    }

    public boolean acceptB(double deltaScore) {
        validIterations++;
        if (deltaScore > -1e-9) {
            acceptIterations++;
            return true;
        }
        double d = deltaScore * inverseTemperature;
        if (d < -10) {
            return false;
        }
        if (log[Constants.RNG.nextInt() & 32767] < d) {
            acceptIterations++;
            lastAcceptTemperature = inverseTemperature;
            return true;
        }
        return false;
    }

    public boolean acceptS(double deltaScore) {
        validIterations++;
        if (deltaScore < 1e-9) {
            acceptIterations++;
            return true;
        }
        double d = -deltaScore * inverseTemperature;
        if (d < -10) {
            return false;
        }
        if (log[Constants.RNG.nextInt() & 32767] < d) {
            acceptIterations++;
            lastAcceptTemperature = inverseTemperature;
            return true;
        }
        return false;
    }
}

final class Utils {
    private Utils() {
    }

    public static final void debug(Object... o) {
        System.err.println(toString(o));
        System.err.flush();
    }

    public static final String toString(Object... o) {
        return Arrays.deepToString(o);
    }

    public static boolean isValid(int v, int min, int minUpper) {
        return v >= min && v < minUpper;
    }
}

class Watch {
    private long start;

    public Watch() {
        init();
    }

    public double getSecond() {
        return (System.nanoTime() - start) * 1e-9;
    }

    public void init() {
        init(System.nanoTime());
    }

    private void init(long start) {
        this.start = start;
    }

    public String getSecondString() {
        return toString(getSecond());
    }

    public static final String toString(double second) {
        if (second < 60) {
            return String.format("%5.2fs", second);
        } else if (second < 60 * 60) {
            int minute = (int) (second / 60);
            return String.format("%2dm%2ds", minute, (int) (second % 60));
        } else {
            int hour = (int) (second / (60 * 60));
            int minute = (int) (second / 60);
            return String.format("%2dh%2dm%2ds", hour, minute % (60), (int) (second % 60));
        }
    }
}

interface Constants {
    Watch watch = new Watch();
    PCG_XSH_RR RNG = new PCG_XSH_RR(System.nanoTime());
}

final class PCG_XSH_RR {
    private long state = 5342;

    public PCG_XSH_RR(final long state) {
        this.state = state;
    }

    public int nextInt() {
        final long oldstate = state;
        state = oldstate * 6364136223846793005L + 521L;
        final int xorshift = (int) (((oldstate >>> 18) ^ oldstate) >>> 27);
        final int rotation = (int) (oldstate >>> 59);
        return (xorshift >>> rotation) | (xorshift << (-rotation & 31));
    }

    public int nextInt(int n) {
        return (int) (n * nextDouble());
    }

    public double nextDouble() {
        return (nextInt() >>> 1) * 4.6566128730773926E-10;
    }
}
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