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  • Maximum XOR Sum 系列问题

    给定 $n$ 个两两不同的正整数 $a_1, a_2, dots, a_n$,$a_i < 2^k$ 。

    Problem 1(经典问题)

    求 $a_i xor a_j$ 的最大值,$ 1le i, j le n $ 。

    解法

    字典树

    Problem 2

    从 $n$ 个数中任选出一些数,求异或和的最大值。

    Let the length of a number be the number of digits needed to write it out in binary, excluding any leading zeros.

    Clearly, if all the input numbers had a different length, the problem would have a trivial solution: just iterate over the input numbers in decreasing order by length, choosing each number if and only if XORing it with the maximum so far increases the maximum, i.e., if and only if its leading bit is not set in the current maximum.

    The tricky part is when the input may contain multiple numbers with the same length, since then it's not obvious which of them we should choose to include in the XOR. What we'd like to do is reduce the input list into an equivalent form that doesn't contain more than one number of the same length.

    Conveniently, this is exactly what Gaussian elimination does: it transforms a list of vectors into another list of vectors which have strictly decreasing length, as defined above (that is, into a list which is in echelon form), but which spans the same linear subspace.

    The reason this linear algebra algorithm is relevant here is that binary numbers satisfy the axioms of a vector space over the finite field of two elements, a.k.a. GF(2), with the number viewed as vectors of bits, and with XOR as the vector addition operation. (We also need a scalar multiplication operation to satisfy the axioms, but that's trivial, since the only scalars in GF(2) are $1$ and $0$.)

    The linear subspace spanned by a set of bit vectors (i.e. binary numbers) over GF(2) is then simply the set of vectors obtainable by XORing a subset of them. Thus, if we can use Gaussian elimination to convert our input list into another one, which spans the same subspace, we can solve the problem using this other list and know that it gives the same solution as for the original problem.

    Thus, we need to implement Gaussian elimination over GF(2).

    // a[i] < (1LL << 60)
    long long max_xor_sum(vector<long long> a, int n) {
        long long res = 0;
        int index = 0;
        for (int column = 59; column >= 0; --column) {
            long long mask = 1LL << column;
            for (int row = index; row < n; ++row) {
                if (a[row] & mask) {
                    swap(a[row], a[index]);
                    for (int row_ = row + 1; row_ < n; ++row_) {
                        if (a[row_] & mask) {
                            a[row_] ^= a[index];
                        }
                    }
                    if ((res & mask) == 0) {
                        res ^= a[index];
                    }
                    ++index;
                    break;
                }
            }
        }
        return res;
    }
    

    References

    https://math.stackexchange.com/a/1054206/538611

    Problem 3

    AtCoder Beginner Contest 141 Task F Xor Sum 3

    Problem Statment

    We have $N$ non-negative integers: $A_1, A_2, dots, A_n$.

    Consider painting at least one and at most $N − 1$ integers among them in red, and painting the rest in blue.

    Let the beauty of the painting be the XOR of the integers painted in red, plus the XOR of the integers painted in blue.

    Find the maximum possible beauty of the painting.

    Constraints

    • All values in input are integers.
    • $2 le N le 10^5$
    • $0 le A_i < 2^{60} (1 leq i leq N)$

    解法

    此问题可转化为 Problem 2。

    若第 $i$ 个二进制位为 1 的数共有奇数个,则不论如何划分,两部分的异或和在第 $i$ 位上必然一个是 1,一个是 0。
    我们只需要考虑共有偶数个 1 的那些二进制位,在这些位上,不论如何划分,两部分的异或和一定是相等的,因此我们的目标是使这些位上的异或和最大,于是问题转化为 Problem 2。

    代码 https://atcoder.jp/contests/abc141/submissions/7551333

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  • 原文地址:https://www.cnblogs.com/Patt/p/11525004.html
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