ref: e0c19ae048ae671883fd4d27d5f617c02020bdf5
dir: /sys/src/cmd/disk/sacfs/ssort6.c/
#include <u.h> #include <libc.h> #include "ssort.h" #define pred(i, h) ((t=(i)-(h))<0? t+n: t) #define succ(i, h) ((t=(i)+(h))>=n? t-n: t) enum { BUCK = ~(~0u>>1), /* high bit */ MAXI = ~0u>>1, /* biggest int */ }; typedef int Elem; static void qsort2(Elem*, Elem*, int n); static int ssortit(int a[], int p[], int s[], int q[], int n, int h, int *pe, int nbuck); static void lift(int si, int q[], int i); int sharedlen(int i, int j, int s[], int q[]); int ssort(int a[], int s[], int n) { int i, l; int c, cc, ncc, lab, cum, nbuck; int k; int *p = 0; int result = 0; int *q = 0; int *al; int *pl; # define finish(r) if(1){result=r; goto out;}else for(k=0,i=0; i<n; i++) if(a[i] > k) k = a[i]; /* max element */ k++; if(k>n) finish(2); nbuck = 0; p = malloc(n*sizeof(int)); if(p == 0) finish(1); if(s) { /* shared lengths */ q = malloc(((n+1)>>1)*sizeof(int)); if(q == 0) finish(1); for(i=0; i<n; i++) s[i] = q[i>>1] = MAXI; q[i>>1] = MAXI; } pl = p + n - k; al = a; memset(pl, -1, k*sizeof(int)); for(i=0; i<n; i++) { /* (1) link */ l = a[i]; al[i] = pl[l]; pl[l] = i; } for(i=0; i<k; i++) /* check input - no holes */ if(pl[i]<0) finish(2); lab = 0; /* (2) create p and label a */ cum = 0; i = 0; for(c = 0; c < k; c++){ for(cc = pl[c]; cc != -1; cc = ncc){ ncc = al[cc]; al[cc] = lab; cum++; p[i++] = cc; } if(lab + 1 == cum) { i--; } else { p[i-1] |= BUCK; nbuck++; } if(s) { s[lab] = 0; lift(0, q, lab); } lab = cum; } ssortit(a, p, s, q, n, 1, p+i, nbuck); memcpy(a, p, n*sizeof(int)); out: free(p); free(q); return result; } /* * calculate the suffix array for the bytes in buf, * terminated by a unique end marker less than any character in buf * returns the index of the identity permutation, * and -1 if there was an error. */ int ssortbyte(uchar buf[], int p[], int s[], int n) { int *a, *q, buckets[256*256]; int i, last, lastc, cum, c, cc, ncc, lab, id, nbuck; a = malloc((n+1)*sizeof(int)); if(a == nil) return -1; q = nil; if(s) { /* shared lengths */ q = malloc(((n+2)>>1)*sizeof(int)); if(q == nil){ free(a); return -1; } for(i=0; i<n+1; i++) s[i] = q[i>>1] = MAXI; q[i>>1] = MAXI; } memset(buckets, -1, sizeof(buckets)); c = buf[n-1] << 8; last = c; for(i = n - 2; i >= 0; i--){ c = (buf[i] << 8) | (c >> 8); a[i] = buckets[c]; buckets[c] = i; } /* * end of string comes before anything else */ a[n] = 0; if(s) { s[0] = 0; lift(0, q, 0); } lab = 1; cum = 1; i = 0; lastc = 1; /* won't match c & 0xff00 for any c */ nbuck = 0; for(c = 0; c < 256*256; c++) { /* * last character is followed by unique end of string */ if(c == last) { a[n-1] = lab; if(s) { s[lab] = 0; lift(0, q, lab); } cum++; lab++; lastc = c & 0xff00; } for(cc = buckets[c]; cc != -1; cc = ncc) { ncc = a[cc]; a[cc] = lab; cum++; p[i++] = cc; } if(lab == cum) continue; if(lab + 1 == cum) i--; else { p[i - 1] |= BUCK; nbuck++; } if(s) { cc = (c & 0xff00) == lastc; s[lab] = cc; lift(cc, q, lab); } lastc = c & 0xff00; lab = cum; } id = ssortit(a, p, s, q, n+1, 2, p+i, nbuck); free(a); free(q); return id; } /* * can get an interval for the shared lengths from [h,3h) by recording h * rather than h + sharedlen(..) when relabelling. if so, no calls to lift are needed. */ static int ssortit(int a[], int p[], int shared[], int q[], int n, int h, int *pe, int nbuck) { int *s, *ss, *packing, *sorting; int v, sv, vv, packed, lab, t, i; for(; h < n && p < pe; h=2*h) { packing = p; nbuck = 0; for(sorting = p; sorting < pe; sorting = s){ /* * find length of stuff to sort */ lab = a[*sorting]; for(s = sorting; ; s++) { sv = *s; v = a[succ(sv & ~BUCK, h)]; if(v & BUCK) v = lab; a[sv & ~BUCK] = v | BUCK; if(sv & BUCK) break; } *s++ &= ~BUCK; nbuck++; qsort2(sorting, a, s - sorting); v = a[*sorting]; a[*sorting] = lab; packed = 0; for(ss = sorting + 1; ss < s; ss++) { sv = *ss; vv = a[sv]; if(vv == v) { *packing++ = ss[-1]; packed++; } else { if(packed) { *packing++ = ss[-1] | BUCK; } lab += packed + 1; if(shared) { v = h + sharedlen(v&~BUCK, vv&~BUCK, shared, q); shared[lab] = v; lift(v, q, lab); } packed = 0; v = vv; } a[sv] = lab; } if(packed) { *packing++ = ss[-1] | BUCK; } } pe = packing; } /* * reconstuct the permutation matrix * return index of the entire string */ v = a[0]; for(i = 0; i < n; i++) p[a[i]] = i; return v; } /* Propagate a new entry s[i], with value si, into q[]. */ static void lift(int si, int q[], int i) { for(i >>= 1; q[i] > si; i &= ~-i) /* squash the low 1-bit */ q[i] = si; } /* * Find in s[] the minimum value over the interval i<=k<=j, using * tree q[] to do logarithmic, rather than linear search */ int sharedlen(int i, int j, int s[], int q[]) { int k, v; int min = MAXI; int max = 0; if(i > j) { /* swap i & j */ i ^= j; j ^= i; i ^= j; } i++; while(i <= j && min > max) { k = i & -i; if(i & 1) v = s[i]; else v = q[i>>1]; if(i+k > j+1) { if(v > max) max = v; if(s[i] < min) min = s[i]; i++; } else { if(v < min) min = v; i += k; } } return min; } /* * qsort specialized for sorting permutations based on successors */ static void vecswap2(Elem *a, Elem *b, int n) { while (n-- > 0) { Elem t = *a; *a++ = *b; *b++ = t; } } #define swap2(a, b) { t = *(a); *(a) = *(b); *(b) = t; } #define ptr2char(i, asucc) (asucc[*(i)]) static Elem* med3(Elem *a, Elem *b, Elem *c, Elem *asucc) { Elem va, vb, vc; if ((va=ptr2char(a, asucc)) == (vb=ptr2char(b, asucc))) return a; if ((vc=ptr2char(c, asucc)) == va || vc == vb) return c; return va < vb ? (vb < vc ? b : (va < vc ? c : a)) : (vb > vc ? b : (va < vc ? a : c)); } static void inssort(Elem *a, Elem *asucc, int n) { Elem *pi, *pj, t; for (pi = a + 1; --n > 0; pi++) for (pj = pi; pj > a; pj--) { if(ptr2char(pj-1, asucc) <= ptr2char(pj, asucc)) break; swap2(pj, pj-1); } } static void qsort2(Elem *a, Elem *asucc, int n) { Elem d, r, partval; Elem *pa, *pb, *pc, *pd, *pl, *pm, *pn, t; if (n < 15) { inssort(a, asucc, n); return; } pl = a; pm = a + (n >> 1); pn = a + (n-1); if (n > 30) { /* On big arrays, pseudomedian of 9 */ d = (n >> 3); pl = med3(pl, pl+d, pl+2*d, asucc); pm = med3(pm-d, pm, pm+d, asucc); pn = med3(pn-2*d, pn-d, pn, asucc); } pm = med3(pl, pm, pn, asucc); swap2(a, pm); partval = ptr2char(a, asucc); pa = pb = a + 1; pc = pd = a + n-1; for (;;) { while (pb <= pc && (r = ptr2char(pb, asucc)-partval) <= 0) { if (r == 0) { swap2(pa, pb); pa++; } pb++; } while (pb <= pc && (r = ptr2char(pc, asucc)-partval) >= 0) { if (r == 0) { swap2(pc, pd); pd--; } pc--; } if (pb > pc) break; swap2(pb, pc); pb++; pc--; } pn = a + n; r = pa-a; if(pb-pa < r) r = pb-pa; vecswap2(a, pb-r, r); r = pn-pd-1; if(pd-pc < r) r = pd-pc; vecswap2(pb, pn-r, r); if ((r = pb-pa) > 1) qsort2(a, asucc, r); if ((r = pd-pc) > 1) qsort2(a + n-r, asucc, r); }