#include #include #include #include #include "sorters.h" struct array { char *base; size_t nmel; }; static void swap(char *a, char *b, size_t width) { while (width--) { char tmp = *a; *a++ = *b; *b++ = tmp; } } static void reverse(char *base, size_t nmel, size_t width) { char *last = base + (nmel - 1) * width; while (last > base) { swap(base, last, width); base += width; last -= width; } } /* rotates left */ static void rotate(char *base, size_t nmel, size_t width, size_t shift) { if (shift == 0 || shift == nmel) return; reverse(base, shift, width); reverse(base + shift * width, nmel - shift, width); reverse(base, nmel, width); } /* buf must be large enough to hold a_count elements */ static void merge_blocks(char *buf, char *base, size_t as, size_t bs, size_t width, cmpfun cmp) { char *a = buf; char *b = base + as * width; char *target = base; swap(a, base, as * width); while (as > 0 && bs > 0) { if (cmp(a, b) <= 0) { swap(target, a, width); a += width; as--; } else { swap(target, b, width); b += width; bs--; } target += width; } swap(target, a, as * width); } static char *find_min_block(char *base, size_t count, size_t bwidth, size_t width, cmpfun cmp) { char *min = base; for (base += bwidth, count--; count--; base += bwidth) { if (cmp(min + bwidth - width, base) > 0) min = base; } return min; } /* If a matching element exists, returns index of one of them. If none exists, returns index where such an element should be inserted. */ static size_t binary_search(const char *needle, char *haystack, size_t nmel, size_t width, cmpfun cmp) { size_t baseidx = 0; while (nmel) { size_t tryidx = baseidx + nmel / 2; char *try = haystack + tryidx * width; int sign = cmp(try, needle); if (!sign) return tryidx; else if (sign < 0) { baseidx = tryidx + 1; nmel -= nmel / 2 + 1; } else { nmel /= 2; } } return baseidx; } static size_t roll(struct array *a, struct array *b, size_t bwidth, size_t width, char **mina, cmpfun cmp) { size_t iters = 0; while (b->nmel && cmp(b->base , *mina + bwidth - width) < 0) { swap(a->base, b->base, bwidth); if (*mina == a->base) *mina = b->base; a->base += bwidth; b->base += bwidth; b->nmel--; iters++; } return iters; } static void distribute_buffer(char *base, size_t bufnmel, size_t sortnmel, size_t width, cmpfun cmp) { char *sorted = base + bufnmel * width; while (bufnmel) { char *last = sorted - width; size_t equals; for (equals = 1; equals < bufnmel; equals++) { if (cmp(last, last - equals * width)) break; } size_t insertpos = binary_search(last, sorted, sortnmel, width, cmp); rotate(sorted - equals * width, insertpos + equals, width, equals); bufnmel -= equals; sortnmel += equals; sorted -= equals * width; } } static const uint8_t sortnet[][2] = { /* 0: index = 0 */ /* 1: index = 0 */ /* 2: index = 0 */ {0,1}, /* 3: index = 1 */ {0,1}, {0,2}, {1,2}, /* 4: index = 4 */ {0,1}, {2,3}, {0,2}, {1,3}, {1,2}, /* 5: index = 9 */ {0,1}, {3,4}, {2,4}, {2,3}, {1,4}, {0,3}, {0,2}, {1,3}, {1,2}, /* 6: index = 18 */ {1,2}, {4,5}, {0,2}, {3,5}, {0,1}, {3,4}, {2,5}, {0,3}, {1,4}, {2,4}, {1,3}, {2,3}, /* 7: index = 30 */ {1,2}, {3,4}, {5,6}, {0,2}, {3,5}, {4,6}, {0,1}, {4,5}, {2,6}, {0,4}, {1,5}, {0,3}, {2,5}, {1,3}, {2,4}, {2,3}, /* 8: index = 46 */ {0,1}, {2,3}, {4,5}, {6,7}, {0,2}, {1,3}, {4,6}, {5,7}, {1,2}, {5,6}, {0,4}, {3,7}, {1,5}, {2,6}, {1,4}, {3,6}, {2,4}, {3,5}, {3,4}, /* 9: index = 65, if we used a sorting network this large */ }; static const uint8_t sortnet_index[] = { 0, 0, 0, 1, 4, 9, 18, 30, 46, 65 }; void wikisort(void *unsorted, size_t nmel, size_t width, cmpfun cmp) { char *base = unsorted; /* use a sorting network for small inputs */ if (nmel <= 8) { for (int i = sortnet_index[nmel]; i < sortnet_index[nmel+1]; i++) { char *elem1 = base + sortnet[i][0] * width; char *elem2 = base + sortnet[i][1] * width; if (cmp(elem1, elem2) > 0) swap(elem1, elem2, width); } return; } size_t bnmel = sqrt(nmel); /* elements in a block */ size_t bcount = nmel / bnmel; size_t bwidth = bnmel * width; /* temporary buffer is at base. carve remainder of input into a and b subarrays. * the nmels for these subarrays is specified in terms of blocks. */ size_t bufnmel = bnmel + nmel % bnmel; struct array a = { .base = base + width * bufnmel, .nmel = (bcount - 1) / 2 }; struct array b = { .base = a.base + bwidth * a.nmel, .nmel = bcount - 1 - a.nmel }; /* sort the buffer as if it were part of the a array */ wikisort( base, nmel - b.nmel * bnmel, width, cmp); wikisort(b.base, b.nmel * bnmel, width, cmp); /* if already sorted, nothing to do */ if (cmp(b.base - width, b.base) <= 0) return; /* if blocks in b are all less than those in a, just need a rotate */ if (cmp(base + (nmel - 1) * width, base) <= 0) { rotate(base, nmel, width, a.nmel * bnmel + bufnmel); return; } size_t nmel_pend_a = 0, nmel_pend_b = 0; char *mina = a.base, *penda; while (a.nmel) { size_t rolled_blocks = b.nmel ? roll(&a, &b, bwidth, width, &mina, cmp) : 0; size_t offset; /* move mina block to immediately after rolled b blocks */ if (mina != a.base) swap(mina, a.base, bwidth); /* rotate mina into correct spot in the last rolled b */ nmel_pend_b += rolled_blocks * bnmel; if (nmel_pend_b) { offset = nmel_pend_b - binary_search(a.base, a.base - nmel_pend_b * width, nmel_pend_b, width, cmp); rotate(a.base - offset * width, bnmel + offset, width, offset); /* merge any previous pending as and bs */ nmel_pend_b -= offset; if (nmel_pend_a && nmel_pend_b) { merge_blocks(base, penda, nmel_pend_a, nmel_pend_b, width, cmp); } nmel_pend_a = bnmel; nmel_pend_b = offset; } else { nmel_pend_a = 0; nmel_pend_b = 0; offset = 0; } penda = a.base - offset * width; a.base += bwidth; if (--a.nmel) { mina = find_min_block(a.base, a.nmel, bwidth, width, cmp); } } if (nmel_pend_a) { merge_blocks(base, penda, nmel_pend_a, b.nmel * bnmel + nmel_pend_b, width, cmp); } wikisort(base, bufnmel, width, cmp); distribute_buffer(base, bufnmel, nmel - bufnmel, width, cmp); }