Submission #18187962


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import java.io.InputStream;
import java.util.Arrays;
import java.util.function.IntUnaryOperator;
import java.util.function.LongUnaryOperator;


public class Main {
    public static void main(String[] args) throws Exception {
        ExtendedScanner sc = new ExtendedScanner();
        FastPrintStream pw = new FastPrintStream();
        solve(sc, pw);
        sc.close();
        pw.flush();
        pw.close();
    }

    public static void solve(ExtendedScanner sc, FastPrintStream pw) {
        int n = sc.nextInt();
        int m = sc.nextInt();
        int s = n / 2;
        int t = n - n / 2;

        boolean[][] edges = new boolean[n][n];
        for (int i = 0; i < m; i++) {
            int u = sc.nextInt() - 1;
            int v = sc.nextInt() - 1;
            edges[u][v] = edges[v][u] = true;
        }

        int[][] bits = new int[1 << t][];
        bits[0] = new int[0];

        int[] dpt = new int[1 << t];
        for (int set = 1; set < 1 << t; set++) {
            int bsr = BitUtil.bsr(set);
            int pset = set ^ (1 << bsr);
            int[] pbits = bits[pset];
            int plen = pbits.length;
            bits[set] = Arrays.copyOf(pbits, plen + 1);
            bits[set][plen] = bsr;

            boolean ng = false;
            int u = bsr;
            for (int v : pbits) ng |= edges[s + u][s + v];
            dpt[set] = dpt[pset] + (ng ? 0 : 1);
        }

        for (int i = 1; i < 1 << t; i <<= 1) {
            for (int j = 0; j < 1 << t; j++) {
                if ((j & i) == 0) {
                    dpt[j | i] = Math.max(dpt[j | i], dpt[j]);
                }
            }
        }

        boolean[] oks = new boolean[1 << s];
        int[] ts = new int[1 << s];
        oks[0] = true;
        ts[0] = (1 << t) - 1;
        for (int set = 1; set < 1 << s; set++) {
            int bsr = BitUtil.bsr(set);
            int pset = set ^ (1 << bsr);

            boolean ok = oks[pset];
            int u = bsr;
            for (int v : bits[pset]) ok &= !edges[u][v];
            if (oks[set] = ok) {
                ts[set] = ts[pset];
                for (int i = 0; i < t; i++) {
                    if (edges[u][s + i]) {
                        ts[set] &= ~(1 << i);
                    }
                }
            }
        }

        int max = 0;
        for (int i = 0; i < 1 << s; i++) {
            if (!oks[i]) continue;
            max = Math.max(max, bits[i].length + dpt[ts[i]]);
        }
        pw.println(max);
    }
}

/**
 * @author https://atcoder.jp/users/suisen
 */
class FastScanner implements AutoCloseable {
    private final ByteBuffer tokenBuf = new ByteBuffer();
    private final java.io.InputStream in;
    private final byte[] rawBuf = new byte[1 << 14];
    private int ptr = 0;
    private int buflen = 0;

    public FastScanner(java.io.InputStream in) {
        this.in = in;
    }

    public FastScanner() {
        this(new java.io.FileInputStream(java.io.FileDescriptor.in));
    }

    private final int readByte() {
        if (ptr < buflen) return rawBuf[ptr++];
        ptr = 0;
        try {
            buflen = in.read(rawBuf);
            if (buflen > 0) {
                return rawBuf[ptr++];
            } else {
                throw new java.io.EOFException();
            }
        } catch (java.io.IOException e) {
            throw new java.io.UncheckedIOException(e);
        }
    }

    private final int readByteUnsafe() {
        if (ptr < buflen) return rawBuf[ptr++];
        ptr = 0;
        try {
            buflen = in.read(rawBuf);
            if (buflen > 0) {
                return rawBuf[ptr++];
            } else {
                return -1;
            }
        } catch (java.io.IOException e) {
            throw new java.io.UncheckedIOException(e);
        }
    }

    private final int skipUnprintableChars() {
        int b = readByte();
        while (b <= 32 || b >= 127) b = readByte();
        return b;
    }

    private final void loadToken() {
        tokenBuf.clear();
        for (int b = skipUnprintableChars(); 32 < b && b < 127; b = readByteUnsafe()) {
            tokenBuf.append(b);
        }
    }

    public final boolean hasNext() {
        for (int b = readByteUnsafe(); b <= 32 || b >= 127; b = readByteUnsafe()) {
            if (b == -1) return false;
        }
        --ptr;
        return true;
    }

    public final String next() {
        loadToken();
        return new String(tokenBuf.getRawBuf(), 0, tokenBuf.size());
    }

    public final String nextLine() {
        tokenBuf.clear();
        for (int b = readByte(); b != '\n'; b = readByteUnsafe()) {
            if (b == -1) break;
            tokenBuf.append(b);
        }
        return new String(tokenBuf.getRawBuf(), 0, tokenBuf.size());
    }

    public final char nextChar() {
        return (char) skipUnprintableChars();
    }

    public final char[] nextChars() {
        loadToken();
        return tokenBuf.toCharArray();
    }

    public final long nextLong() {
        long n = 0;
        boolean isNegative = false;
        int b = skipUnprintableChars();
        if (b == '-') {
            isNegative = true;
            b = readByteUnsafe();
        }
        if (b < '0' || '9' < b) throw new NumberFormatException();
        while ('0' <= b && b <= '9') {
            // -9223372036854775808 - 9223372036854775807
            if (n >= 922337203685477580l) {
                if (n > 922337203685477580l) {
                    throw new ArithmeticException("long overflow");
                }
                if (isNegative) {
                    if (b >= '9') {
                        throw new ArithmeticException("long overflow");
                    }
                    n = -n - (b + '0');
                    b = readByteUnsafe();
                    if ('0' <= b && b <= '9') {
                        throw new ArithmeticException("long overflow");
                    } else if (b <= 32 || b >= 127) {
                        return n;
                    } else {
                        throw new NumberFormatException();
                    }
                } else {
                    if (b >= '8') {
                        throw new ArithmeticException("long overflow");
                    }
                    n = n * 10 + b - '0';
                    b = readByteUnsafe();
                    if ('0' <= b && b <= '9') {
                        throw new ArithmeticException("long overflow");
                    } else if (b <= 32 || b >= 127) {
                        return n;
                    } else {
                        throw new NumberFormatException();
                    }
                }
            }
            n = n * 10 + b - '0';
            b = readByteUnsafe();
        }
        if (b <= 32 || b >= 127) return isNegative ? -n : n;
        throw new NumberFormatException();
    }
    public final int nextInt() {
        long value = nextLong();
        if ((int) value != value) {
            throw new ArithmeticException("int overflow");
        }
        return (int) value;
    }
    public final double nextDouble() {
        return Double.parseDouble(next());
    }
    public final void close() {
        try {
            in.close();
        } catch (java.io.IOException e) {
            throw new java.io.UncheckedIOException(e);
        }
    }

    private static final class ByteBuffer {
        private static final int DEFAULT_BUF_SIZE = 1 << 12;
        private byte[] buf;
        private int ptr = 0;
        private ByteBuffer(int capacity) {
            this.buf = new byte[capacity];
        }
        private ByteBuffer() {
            this(DEFAULT_BUF_SIZE);
        }
        private ByteBuffer append(int b) {
            if (ptr == buf.length) {
                int newLength = buf.length << 1;
                byte[] newBuf = new byte[newLength];
                System.arraycopy(buf, 0, newBuf, 0, buf.length);
                buf = newBuf;
            }
            buf[ptr++] = (byte) b;
            return this;
        }
        private char[] toCharArray() {
            char[] chs = new char[ptr];
            for (int i = 0; i < ptr; i++) {
                chs[i] = (char) buf[i];
            }
            return chs;
        }
        private byte[] getRawBuf() {
            return buf;
        }
        private int size() {
            return ptr;
        }
        private void clear() {
            ptr = 0;
        }
    }
}


/**
 * @author https://atcoder.jp/users/suisen
 */
final class ExtendedScanner extends FastScanner {
    public ExtendedScanner() {super();}
    public ExtendedScanner(InputStream in) {super(in);}
    public int[] ints(final int n) {
        final int[] a = new int[n];
        Arrays.setAll(a, $ -> nextInt());
        return a;
    }
    public int[] ints(final int n, final IntUnaryOperator f) {
        final int[] a = new int[n];
        Arrays.setAll(a, $ -> f.applyAsInt(nextInt()));
        return a;
    }
    public int[][] ints(final int n, final int m) {
        final int[][] a = new int[n][];
        Arrays.setAll(a, $ -> ints(m));
        return a;
    }
    public int[][] ints(final int n, final int m, final IntUnaryOperator f) {
        final int[][] a = new int[n][];
        Arrays.setAll(a, $ -> ints(m, f));
        return a;
    }
    public long[] longs(final int n) {
        final long[] a = new long[n];
        Arrays.setAll(a, $ -> nextLong());
        return a;
    }
    public long[] longs(final int n, final LongUnaryOperator f) {
        final long[] a = new long[n];
        Arrays.setAll(a, $ -> f.applyAsLong(nextLong()));
        return a;
    }
    public long[][] longs(final int n, final int m) {
        final long[][] a = new long[n][];
        Arrays.setAll(a, $ -> longs(m));
        return a;
    }
    public long[][] longs(final int n, final int m, final LongUnaryOperator f) {
        final long[][] a = new long[n][];
        Arrays.setAll(a, $ -> longs(m, f));
        return a;
    }
    public char[][] charArrays(final int n) {
        final char[][] c = new char[n][];
        Arrays.setAll(c, $ -> nextChars());
        return c;
    }
    public double[] doubles(final int n) {
        final double[] a = new double[n];
        Arrays.setAll(a, $ -> nextDouble());
        return a;
    }
    public double[][] doubles(final int n, final int m) {
        final double[][] a = new double[n][];
        Arrays.setAll(a, $ -> doubles(m));
        return a;
    }
    public String[] strings(final int n) {
        final String[] s = new String[n];
        Arrays.setAll(s, $ -> next());
        return s;
    }
}

/**
 * @author https://atcoder.jp/users/suisen
 */
class FastPrintStream implements AutoCloseable {
    private static final int INT_MAX_LEN = 11;
    private static final int LONG_MAX_LEN = 20;

    private int precision = 9;

    private static final int BUF_SIZE = 1 << 14;
    private static final int BUF_SIZE_MINUS_INT_MAX_LEN = BUF_SIZE - INT_MAX_LEN;
    private static final int BUF_SIZE_MINUS_LONG_MAX_LEN = BUF_SIZE - LONG_MAX_LEN;
    private final byte[] buf = new byte[BUF_SIZE];
    private int ptr = 0;
    private final java.lang.reflect.Field strField;
    private final java.nio.charset.CharsetEncoder encoder;

    private final java.io.OutputStream out;

    public FastPrintStream(java.io.OutputStream out) {
        this.out = out;
        java.lang.reflect.Field f;
        try {
            f = java.lang.String.class.getDeclaredField("value");
            f.setAccessible(true);
        } catch (NoSuchFieldException | SecurityException e) {
            f = null;
        }
        this.strField = f;
        this.encoder = java.nio.charset.StandardCharsets.US_ASCII.newEncoder();
    }

    public FastPrintStream(java.io.File file) throws java.io.IOException {
        this(new java.io.FileOutputStream(file));
    }

    public FastPrintStream(java.lang.String filename) throws java.io.IOException {
        this(new java.io.File(filename));
    }

    public FastPrintStream() {
        this(new java.io.FileOutputStream(java.io.FileDescriptor.out));
    }

    public FastPrintStream println() {
        if (ptr == BUF_SIZE) internalFlush();
        buf[ptr++] = (byte) '\n';
        return this;
    }

    public FastPrintStream println(java.lang.Object o) {
        return print(o).println();
    }

    public FastPrintStream println(java.lang.String s) {
        return print(s).println();
    }

    public FastPrintStream println(char[] s) {
        return print(s).println();
    }

    public FastPrintStream println(char c) {
        return print(c).println();
    }

    public FastPrintStream println(int x) {
        return print(x).println();
    }

    public FastPrintStream println(long x) {
        return print(x).println();
    }

    public FastPrintStream println(double d, int precision) {
        return print(d, precision).println();
    }

    public FastPrintStream println(double d) {
        return print(d).println();
    }

    private FastPrintStream print(byte[] bytes) {
        int n = bytes.length;
        if (ptr + n > BUF_SIZE) {
            internalFlush();
            try {
                out.write(bytes);
            } catch (java.io.IOException e) {
                throw new java.io.UncheckedIOException(e);
            }
        } else {
            System.arraycopy(bytes, 0, buf, ptr, n);
            ptr += n;
        }
        return this;
    }

    public FastPrintStream print(java.lang.Object o) {
        return print(o.toString());
    }

    public FastPrintStream print(java.lang.String s) {
        if (strField == null) {
            return print(s.getBytes());
        } else {
            try {
                Object value = strField.get(s);
                if (value instanceof byte[]) {
                    return print((byte[]) value);
                } else {
                    return print((char[]) value);
                }
            } catch (IllegalAccessException e) {
                return print(s.getBytes());
            }
        }
    }

    public FastPrintStream print(char[] s) {
        try {
            return print(encoder.encode(java.nio.CharBuffer.wrap(s)).array());
        } catch (java.nio.charset.CharacterCodingException e) {
            byte[] bytes = new byte[s.length];
            for (int i = 0; i < s.length; i++) {
                bytes[i] = (byte) s[i];
            }
            return print(bytes);
        }
    }

    public FastPrintStream print(char c) {
        if (ptr == BUF_SIZE) internalFlush();
        buf[ptr++] = (byte) c;
        return this;
    }

    public FastPrintStream print(int x) {
        if (ptr > BUF_SIZE_MINUS_INT_MAX_LEN) internalFlush();
        if (-10 < x && x < 10) {
            if (x < 0) {
                buf[ptr++] = '-';
                x = -x;
            }
            buf[ptr++] = (byte) ('0' + x);
            return this;
        }
        int d;
        if (x < 0) {
            if (x == Integer.MIN_VALUE) {
                buf[ptr++] = '-'; buf[ptr++] = '2'; buf[ptr++] = '1'; buf[ptr++] = '4';
                buf[ptr++] = '7'; buf[ptr++] = '4'; buf[ptr++] = '8'; buf[ptr++] = '3';
                buf[ptr++] = '6'; buf[ptr++] = '4'; buf[ptr++] = '8';
                return this;
            }
            d = len(x = -x);
            buf[ptr++] = '-';
        } else {
            d = len(x);
        }
        int j = ptr += d; 
        while (x > 0) {
            buf[--j] = (byte) ('0' + (x % 10));
            x /= 10;
        }
        return this;
    }

    public FastPrintStream print(long x) {
        if ((int) x == x) return print((int) x);
        if (ptr > BUF_SIZE_MINUS_LONG_MAX_LEN) internalFlush();
        int d;
        if (x < 0) {
            if (x == Long.MIN_VALUE) {
                buf[ptr++] = '-'; buf[ptr++] = '9'; buf[ptr++] = '2'; buf[ptr++] = '2';
                buf[ptr++] = '3'; buf[ptr++] = '3'; buf[ptr++] = '7'; buf[ptr++] = '2';
                buf[ptr++] = '0'; buf[ptr++] = '3'; buf[ptr++] = '6'; buf[ptr++] = '8';
                buf[ptr++] = '5'; buf[ptr++] = '4'; buf[ptr++] = '7'; buf[ptr++] = '7';
                buf[ptr++] = '5'; buf[ptr++] = '8'; buf[ptr++] = '0'; buf[ptr++] = '8';
                return this;
            }
            d = len(x = -x);
            buf[ptr++] = '-';
        } else {
            d = len(x);
        }
        int j = ptr += d; 
        while (x > 0) {
            buf[--j] = (byte) ('0' + (x % 10));
            x /= 10;
        }
        return this;
    }

    public FastPrintStream print(double d, int precision) {
        if (d < 0) {
            print('-');
            d = -d;
        }
        d += Math.pow(10, -precision) / 2;
        print((long) d).print('.');
        d -= (long) d;
        for(int i = 0; i < precision; i++){
            d *= 10;
            print((int) d);
            d -= (int) d;
        }
        return this;
    }

    public FastPrintStream print(double d) {
        return print(d, precision);
    }

    public void setPrecision(int precision) {
        this.precision = precision;
    }

    private void internalFlush() {
        try {
            out.write(buf, 0, ptr);
            ptr = 0;
        } catch (java.io.IOException e) {
            throw new java.io.UncheckedIOException(e);
        }
    }

    public void flush() {
        try {
            out.write(buf, 0, ptr);
            out.flush();
            ptr = 0;
        } catch (java.io.IOException e) {
            throw new java.io.UncheckedIOException(e);
        }
    }

    public void close() {
        try {
            out.close();
        } catch (java.io.IOException e) {
            throw new java.io.UncheckedIOException(e);
        }
    }

    private static int len(int x) {
        return
            x >= 1000000000 ? 10 :
            x >= 100000000  ?  9 :
            x >= 10000000   ?  8 :
            x >= 1000000    ?  7 :
            x >= 100000     ?  6 :
            x >= 10000      ?  5 :
            x >= 1000       ?  4 :
            x >= 100        ?  3 :
            x >= 10         ?  2 : 1;
    }

    private static int len(long x) {
        return
            x >= 1000000000000000000l ? 19 :
            x >= 100000000000000000l  ? 18 :
            x >= 10000000000000000l   ? 17 :
            x >= 1000000000000000l    ? 16 :
            x >= 100000000000000l     ? 15 :
            x >= 10000000000000l      ? 14 :
            x >= 1000000000000l       ? 13 :
            x >= 100000000000l        ? 12 :
            x >= 10000000000l         ? 11 : 10;
    }
}

/**
 * @author https://atcoder.jp/users/suisen
 */
final class BitUtil {
    private static final int[] INT_MASK = {
        0x0000_0000,
        0x0000_0001, 0x0000_0003, 0x0000_0007, 0x0000_000f,
        0x0000_001f, 0x0000_003f, 0x0000_007f, 0x0000_00ff,
        0x0000_01ff, 0x0000_03ff, 0x0000_07ff, 0x0000_0fff,
        0x0000_1fff, 0x0000_3fff, 0x0000_7fff, 0x0000_ffff,
        0x0001_ffff, 0x0003_ffff, 0x0007_ffff, 0x000f_ffff,
        0x001f_ffff, 0x003f_ffff, 0x007f_ffff, 0x00ff_ffff,
        0x01ff_ffff, 0x03ff_ffff, 0x07ff_ffff, 0x0fff_ffff,
        0x1fff_ffff, 0x3fff_ffff, 0x7fff_ffff, 0xffff_ffff
    };
    private static final long[] LONG_MASK = {
        0x0000_0000_0000_0000l,
        0x0000_0000_0000_0001l, 0x0000_0000_0000_0003l, 0x0000_0000_0000_0007l, 0x0000_0000_0000_000fl, 
        0x0000_0000_0000_001fl, 0x0000_0000_0000_003fl, 0x0000_0000_0000_007fl, 0x0000_0000_0000_00ffl, 
        0x0000_0000_0000_01ffl, 0x0000_0000_0000_03ffl, 0x0000_0000_0000_07ffl, 0x0000_0000_0000_0fffl,
        0x0000_0000_0000_1fffl, 0x0000_0000_0000_3fffl, 0x0000_0000_0000_7fffl, 0x0000_0000_0000_ffffl, 
        0x0000_0000_0001_ffffl, 0x0000_0000_0003_ffffl, 0x0000_0000_0007_ffffl, 0x0000_0000_000f_ffffl, 
        0x0000_0000_001f_ffffl, 0x0000_0000_003f_ffffl, 0x0000_0000_007f_ffffl, 0x0000_0000_00ff_ffffl, 
        0x0000_0000_01ff_ffffl, 0x0000_0000_03ff_ffffl, 0x0000_0000_07ff_ffffl, 0x0000_0000_0fff_ffffl, 
        0x0000_0000_1fff_ffffl, 0x0000_0000_3fff_ffffl, 0x0000_0000_7fff_ffffl, 0x0000_0000_ffff_ffffl,
        0x0000_0001_ffff_ffffl, 0x0000_0003_ffff_ffffl, 0x0000_0007_ffff_ffffl, 0x0000_000f_ffff_ffffl, 
        0x0000_001f_ffff_ffffl, 0x0000_003f_ffff_ffffl, 0x0000_007f_ffff_ffffl, 0x0000_00ff_ffff_ffffl, 
        0x0000_01ff_ffff_ffffl, 0x0000_03ff_ffff_ffffl, 0x0000_07ff_ffff_ffffl, 0x0000_0fff_ffff_ffffl,
        0x0000_1fff_ffff_ffffl, 0x0000_3fff_ffff_ffffl, 0x0000_7fff_ffff_ffffl, 0x0000_ffff_ffff_ffffl, 
        0x0001_ffff_ffff_ffffl, 0x0003_ffff_ffff_ffffl, 0x0007_ffff_ffff_ffffl, 0x000f_ffff_ffff_ffffl, 
        0x001f_ffff_ffff_ffffl, 0x003f_ffff_ffff_ffffl, 0x007f_ffff_ffff_ffffl, 0x00ff_ffff_ffff_ffffl, 
        0x01ff_ffff_ffff_ffffl, 0x03ff_ffff_ffff_ffffl, 0x07ff_ffff_ffff_ffffl, 0x0fff_ffff_ffff_ffffl, 
        0x1fff_ffff_ffff_ffffl, 0x3fff_ffff_ffff_ffffl, 0x7fff_ffff_ffff_ffffl, 0xffff_ffff_ffff_ffffl
    };
    private BitUtil(){}
    public static boolean test (long n, int bit) {return (n & (1l << bit)) != 0;}
    public static boolean test (int  n, int bit) {return (n & (1  << bit)) != 0;}

    public static int     get  (long n, int bit) {return (n & (1l << bit)) == 0 ? 1 : 0;}
    public static int     get  (int  n, int bit) {return (n & (1  << bit)) == 0 ? 1 : 0;}

    public static long    set  (long n, int bit)             {return n | (1l << bit);}
    public static int     set  (int  n, int bit)             {return n | (1  << bit);}
    public static long    set  (long n, int from, int to)    {return n | (LONG_MASK[to - from] << from);}
    public static int     set  (int  n, int from, int to)    {return n | (INT_MASK [to - from] << from);}
    public static long    set  (long n, int bit,  boolean b) {return b ? n | (1l << bit) : n & ~(1l << bit);}
    public static int     set  (int  n, int bit,  boolean b) {return b ? n | (1  << bit) : n & ~(1  << bit);}
    public static long    set  (long n, int from, int to, boolean b) {return b ? n | (LONG_MASK[to - from] << from) : n & ~(LONG_MASK[to - from] << from);}
    public static int     set  (int  n, int from, int to, boolean b) {return b ? n | (INT_MASK [to - from] << from) : n & ~(INT_MASK [to - from] << from);}

    public static long    clear(long n, int bit)          {return n & ~(1l << bit);}
    public static int     clear(int  n, int bit)          {return n & ~(1  << bit);}
    public static long    clear(long n, int from, int to) {return n & ~(LONG_MASK[to - from] << from);}
    public static int     clear(int  n, int from, int to) {return n & ~(INT_MASK [to - from] << from);}

    public static long    flip (long n, int bit)          {return n ^ (1l << bit);}
    public static int     flip (int  n, int bit)          {return n ^ (1  << bit);}
    public static long    flip (long n, int from, int to) {return n ^ (LONG_MASK[to - from] << from);}
    public static int     flip (int  n, int from, int to) {return n ^ (INT_MASK [to - from] << from);}

    public static long    mask (long n, int bit)          {return n & (1l << bit);}
    public static int     mask (int  n, int bit)          {return n & (1  << bit);}
    public static long    mask (long n, int from, int to) {return n & (LONG_MASK[to - from] << from);}
    public static int     mask (int  n, int from, int to) {return n & (INT_MASK [to - from] << from);}

    public static int     bsr  (long n) {return 63 - Long   .numberOfLeadingZeros(n);}
    public static int     bsr  (int  n) {return 31 - Integer.numberOfLeadingZeros(n);}

    public static int[] toArray(int length, int bits) {
        int[] res = new int[length];
        for (int i = 0; i < length; i++) {
            res[i] = (bits >> i) & 1;
        }
        return res;
    }

    public static int[] toArray(int length, long bits) {
        int[] res = new int[length];
        for (int i = 0; i < length; i++) {
            res[i] = (int) ((bits >> i) & 1);
        }
        return res;
    }
}

Submission Info

Submission Time
Task G - Mixture Drug
User suisen
Language Java (OpenJDK 11.0.6)
Score 600
Code Size 24744 Byte
Status AC
Exec Time 361 ms
Memory 109988 KB

Judge Result

Set Name Sample All
Score / Max Score 0 / 0 600 / 600
Status
AC × 3
AC × 51
Set Name Test Cases
Sample sample_01.txt, sample_02.txt, sample_03.txt
All sample_01.txt, sample_02.txt, sample_03.txt, subtask_1_1.txt, subtask_1_10.txt, subtask_1_11.txt, subtask_1_12.txt, subtask_1_13.txt, subtask_1_14.txt, subtask_1_15.txt, subtask_1_16.txt, subtask_1_17.txt, subtask_1_18.txt, subtask_1_19.txt, subtask_1_2.txt, subtask_1_20.txt, subtask_1_21.txt, subtask_1_22.txt, subtask_1_23.txt, subtask_1_24.txt, subtask_1_25.txt, subtask_1_26.txt, subtask_1_27.txt, subtask_1_28.txt, subtask_1_29.txt, subtask_1_3.txt, subtask_1_30.txt, subtask_1_31.txt, subtask_1_32.txt, subtask_1_33.txt, subtask_1_34.txt, subtask_1_35.txt, subtask_1_36.txt, subtask_1_37.txt, subtask_1_38.txt, subtask_1_39.txt, subtask_1_4.txt, subtask_1_40.txt, subtask_1_41.txt, subtask_1_42.txt, subtask_1_43.txt, subtask_1_44.txt, subtask_1_45.txt, subtask_1_46.txt, subtask_1_47.txt, subtask_1_48.txt, subtask_1_5.txt, subtask_1_6.txt, subtask_1_7.txt, subtask_1_8.txt, subtask_1_9.txt
Case Name Status Exec Time Memory
sample_01.txt AC 81 ms 33928 KB
sample_02.txt AC 82 ms 33900 KB
sample_03.txt AC 85 ms 34072 KB
subtask_1_1.txt AC 74 ms 33736 KB
subtask_1_10.txt AC 361 ms 109644 KB
subtask_1_11.txt AC 84 ms 33988 KB
subtask_1_12.txt AC 323 ms 109752 KB
subtask_1_13.txt AC 309 ms 107176 KB
subtask_1_14.txt AC 333 ms 109644 KB
subtask_1_15.txt AC 84 ms 33928 KB
subtask_1_16.txt AC 356 ms 109656 KB
subtask_1_17.txt AC 340 ms 109572 KB
subtask_1_18.txt AC 327 ms 109396 KB
subtask_1_19.txt AC 94 ms 34816 KB
subtask_1_2.txt AC 340 ms 109580 KB
subtask_1_20.txt AC 334 ms 109652 KB
subtask_1_21.txt AC 326 ms 109600 KB
subtask_1_22.txt AC 323 ms 109664 KB
subtask_1_23.txt AC 82 ms 33912 KB
subtask_1_24.txt AC 149 ms 39408 KB
subtask_1_25.txt AC 321 ms 109620 KB
subtask_1_26.txt AC 357 ms 109988 KB
subtask_1_27.txt AC 329 ms 109372 KB
subtask_1_28.txt AC 345 ms 109444 KB
subtask_1_29.txt AC 327 ms 109752 KB
subtask_1_3.txt AC 208 ms 67232 KB
subtask_1_30.txt AC 85 ms 34068 KB
subtask_1_31.txt AC 86 ms 34132 KB
subtask_1_32.txt AC 96 ms 34756 KB
subtask_1_33.txt AC 115 ms 39052 KB
subtask_1_34.txt AC 351 ms 109592 KB
subtask_1_35.txt AC 328 ms 109752 KB
subtask_1_36.txt AC 328 ms 109744 KB
subtask_1_37.txt AC 343 ms 109544 KB
subtask_1_38.txt AC 343 ms 109868 KB
subtask_1_39.txt AC 359 ms 109744 KB
subtask_1_4.txt AC 339 ms 109648 KB
subtask_1_40.txt AC 330 ms 109484 KB
subtask_1_41.txt AC 343 ms 109568 KB
subtask_1_42.txt AC 320 ms 109832 KB
subtask_1_43.txt AC 330 ms 109888 KB
subtask_1_44.txt AC 328 ms 109520 KB
subtask_1_45.txt AC 328 ms 109720 KB
subtask_1_46.txt AC 329 ms 109724 KB
subtask_1_47.txt AC 346 ms 109980 KB
subtask_1_48.txt AC 333 ms 109624 KB
subtask_1_5.txt AC 211 ms 67416 KB
subtask_1_6.txt AC 317 ms 109488 KB
subtask_1_7.txt AC 258 ms 85268 KB
subtask_1_8.txt AC 330 ms 109724 KB
subtask_1_9.txt AC 255 ms 85224 KB