示例#1
0
void SelectionSort(SortArray& A)
{
    volatile ssize_t jMin = 0;
    A.watch(&jMin, 3);

    for (size_t i = 0; i < A.size()-1; ++i)
    {
        jMin = i;

        for (size_t j = i+1; j < A.size(); ++j)
        {
            if (A[j] < A[jMin]) {
                A.mark_swap(j, jMin);
                jMin = j;
            }
        }

        A.swap(i, jMin);

        // mark the last good element
        if (i > 0) A.unmark(i-1);
        A.mark(i);
    }
    A.unwatch_all();
}
示例#2
0
std::pair<ssize_t,ssize_t> PartitionTernaryLL(SortArray& A, ssize_t lo, ssize_t hi)
{
    // pick pivot and swap to back
    ssize_t p = QuickSortSelectPivot(A, lo, hi);

    value_type pivot = A[p];
    A.swap(p, hi-1);
    A.mark(hi-1);

    volatile ssize_t i = lo, k = hi-1;
    A.watch(&i, 3);

    for (ssize_t j = lo; j < k; ++j)
    {
        int cmp = A[j].cmp(pivot); // ternary comparison
        if (cmp == 0) {
            A.swap(--k, j);
            --j; // reclassify A[j]
            A.mark(k,4);
        }
        else if (cmp < 0) {
            A.swap(i++, j);
        }
    }

    // unwatch i, because the pivot is swapped there
    // in the first step of the following swap loop.
    A.unwatch_all();

    ssize_t j = i + (hi-k);

    for (ssize_t s = 0; s < hi-k; ++s) {
        A.swap(i+s, hi-1-s);
        A.mark_swap(i+s, hi-1-s);
    }
    A.unmark_all();

    return std::make_pair(i,j);
}
示例#3
0
void QuickSortTernaryLR(SortArray& A, ssize_t lo, ssize_t hi)
{
    if (hi <= lo) return;

    int cmp;

    // pick pivot and swap to back
    ssize_t piv = QuickSortSelectPivot(A, lo, hi+1);
    A.swap(piv, hi);
    A.mark(hi);

    const value_type& pivot = A[hi];

    // schema: |p ===  |i <<< | ??? |j >>> |q === |piv
    volatile ssize_t i = lo, j = hi-1;
    volatile ssize_t p = lo, q = hi-1;

    A.watch(&i, 3);
    A.watch(&j, 3);

    for (;;)
    {
        // partition on left
        while (i <= j && (cmp = A[i].cmp(pivot)) <= 0)
        {
            if (cmp == 0) {
                A.mark(p,4);
                A.swap(i, p++);
            }
            ++i;
        }

        // partition on right
        while (i <= j && (cmp = A[j].cmp(pivot)) >= 0)
        {
            if (cmp == 0) {
                A.mark(q,4);
                A.swap(j, q--);
            }
            --j;
        }

        if (i > j) break;

        // swap item between < > regions
        A.swap(i++, j--);
    }

    // swap pivot to right place
    A.swap(i,hi);
    A.mark_swap(i,hi);

    ssize_t num_less = i - p;
    ssize_t num_greater = q - j;

    // swap equal ranges into center, but avoid swapping equal elements
    j = i-1; i = i+1;

    ssize_t pe = lo + std::min(p-lo, num_less);
    for (ssize_t k = lo; k < pe; k++, j--) {
        A.swap(k,j);
        A.mark_swap(k,j);
    }

    ssize_t qe = hi-1 - std::min(hi-1-q, num_greater-1); // one already greater at end
    for (ssize_t k = hi-1; k > qe; k--, i++) {
        A.swap(i,k);
        A.mark_swap(i,k);
    }

    A.unwatch_all();
    A.unmark_all();

    QuickSortTernaryLR(A, lo, lo + num_less - 1);
    QuickSortTernaryLR(A, hi - num_greater + 1, hi);
}