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authorRuslan Kovalev <ruslan.a.kovalev@gmail.com>2022-02-10 16:46:44 +0300
committerDaniil Cherednik <dcherednik@yandex-team.ru>2022-02-10 16:46:44 +0300
commit59e19371de37995fcb36beb16cd6ec030af960bc (patch)
treefa68e36093ebff8b805462e9e6d331fe9d348214 /contrib/libs/zstd/lib/dictBuilder
parent89db6fe2fe2c32d2a832ddfeb04e8d078e301084 (diff)
downloadydb-59e19371de37995fcb36beb16cd6ec030af960bc.tar.gz
Restoring authorship annotation for Ruslan Kovalev <ruslan.a.kovalev@gmail.com>. Commit 1 of 2.
Diffstat (limited to 'contrib/libs/zstd/lib/dictBuilder')
-rw-r--r--contrib/libs/zstd/lib/dictBuilder/divsufsort.c3818
-rw-r--r--contrib/libs/zstd/lib/dictBuilder/divsufsort.h124
-rw-r--r--contrib/libs/zstd/lib/dictBuilder/zdict.c1446
3 files changed, 2694 insertions, 2694 deletions
diff --git a/contrib/libs/zstd/lib/dictBuilder/divsufsort.c b/contrib/libs/zstd/lib/dictBuilder/divsufsort.c
index a2870fb3ba..86b83095f6 100644
--- a/contrib/libs/zstd/lib/dictBuilder/divsufsort.c
+++ b/contrib/libs/zstd/lib/dictBuilder/divsufsort.c
@@ -1,1913 +1,1913 @@
-/*
- * divsufsort.c for libdivsufsort-lite
- * Copyright (c) 2003-2008 Yuta Mori All Rights Reserved.
- *
- * Permission is hereby granted, free of charge, to any person
- * obtaining a copy of this software and associated documentation
- * files (the "Software"), to deal in the Software without
- * restriction, including without limitation the rights to use,
- * copy, modify, merge, publish, distribute, sublicense, and/or sell
- * copies of the Software, and to permit persons to whom the
- * Software is furnished to do so, subject to the following
- * conditions:
- *
- * The above copyright notice and this permission notice shall be
- * included in all copies or substantial portions of the Software.
- *
- * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
- * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
- * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
- * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
- * HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
- * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
- * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
- * OTHER DEALINGS IN THE SOFTWARE.
- */
-
-/*- Compiler specifics -*/
-#ifdef __clang__
-#pragma clang diagnostic ignored "-Wshorten-64-to-32"
-#endif
-
-#if defined(_MSC_VER)
-# pragma warning(disable : 4244)
-# pragma warning(disable : 4127) /* C4127 : Condition expression is constant */
-#endif
-
-
-/*- Dependencies -*/
-#include <assert.h>
-#include <stdio.h>
-#include <stdlib.h>
-
-#include "divsufsort.h"
-
-/*- Constants -*/
-#if defined(INLINE)
-# undef INLINE
-#endif
-#if !defined(INLINE)
-# define INLINE __inline
-#endif
-#if defined(ALPHABET_SIZE) && (ALPHABET_SIZE < 1)
-# undef ALPHABET_SIZE
-#endif
-#if !defined(ALPHABET_SIZE)
-# define ALPHABET_SIZE (256)
-#endif
-#define BUCKET_A_SIZE (ALPHABET_SIZE)
-#define BUCKET_B_SIZE (ALPHABET_SIZE * ALPHABET_SIZE)
-#if defined(SS_INSERTIONSORT_THRESHOLD)
-# if SS_INSERTIONSORT_THRESHOLD < 1
-# undef SS_INSERTIONSORT_THRESHOLD
-# define SS_INSERTIONSORT_THRESHOLD (1)
-# endif
-#else
-# define SS_INSERTIONSORT_THRESHOLD (8)
-#endif
-#if defined(SS_BLOCKSIZE)
-# if SS_BLOCKSIZE < 0
-# undef SS_BLOCKSIZE
-# define SS_BLOCKSIZE (0)
-# elif 32768 <= SS_BLOCKSIZE
-# undef SS_BLOCKSIZE
-# define SS_BLOCKSIZE (32767)
-# endif
-#else
-# define SS_BLOCKSIZE (1024)
-#endif
-/* minstacksize = log(SS_BLOCKSIZE) / log(3) * 2 */
-#if SS_BLOCKSIZE == 0
-# define SS_MISORT_STACKSIZE (96)
-#elif SS_BLOCKSIZE <= 4096
-# define SS_MISORT_STACKSIZE (16)
-#else
-# define SS_MISORT_STACKSIZE (24)
-#endif
-#define SS_SMERGE_STACKSIZE (32)
-#define TR_INSERTIONSORT_THRESHOLD (8)
-#define TR_STACKSIZE (64)
-
-
-/*- Macros -*/
-#ifndef SWAP
-# define SWAP(_a, _b) do { t = (_a); (_a) = (_b); (_b) = t; } while(0)
-#endif /* SWAP */
-#ifndef MIN
-# define MIN(_a, _b) (((_a) < (_b)) ? (_a) : (_b))
-#endif /* MIN */
-#ifndef MAX
-# define MAX(_a, _b) (((_a) > (_b)) ? (_a) : (_b))
-#endif /* MAX */
-#define STACK_PUSH(_a, _b, _c, _d)\
- do {\
- assert(ssize < STACK_SIZE);\
- stack[ssize].a = (_a), stack[ssize].b = (_b),\
- stack[ssize].c = (_c), stack[ssize++].d = (_d);\
- } while(0)
-#define STACK_PUSH5(_a, _b, _c, _d, _e)\
- do {\
- assert(ssize < STACK_SIZE);\
- stack[ssize].a = (_a), stack[ssize].b = (_b),\
- stack[ssize].c = (_c), stack[ssize].d = (_d), stack[ssize++].e = (_e);\
- } while(0)
-#define STACK_POP(_a, _b, _c, _d)\
- do {\
- assert(0 <= ssize);\
- if(ssize == 0) { return; }\
- (_a) = stack[--ssize].a, (_b) = stack[ssize].b,\
- (_c) = stack[ssize].c, (_d) = stack[ssize].d;\
- } while(0)
-#define STACK_POP5(_a, _b, _c, _d, _e)\
- do {\
- assert(0 <= ssize);\
- if(ssize == 0) { return; }\
- (_a) = stack[--ssize].a, (_b) = stack[ssize].b,\
- (_c) = stack[ssize].c, (_d) = stack[ssize].d, (_e) = stack[ssize].e;\
- } while(0)
-#define BUCKET_A(_c0) bucket_A[(_c0)]
-#if ALPHABET_SIZE == 256
-#define BUCKET_B(_c0, _c1) (bucket_B[((_c1) << 8) | (_c0)])
-#define BUCKET_BSTAR(_c0, _c1) (bucket_B[((_c0) << 8) | (_c1)])
-#else
-#define BUCKET_B(_c0, _c1) (bucket_B[(_c1) * ALPHABET_SIZE + (_c0)])
-#define BUCKET_BSTAR(_c0, _c1) (bucket_B[(_c0) * ALPHABET_SIZE + (_c1)])
-#endif
-
-
-/*- Private Functions -*/
-
-static const int lg_table[256]= {
- -1,0,1,1,2,2,2,2,3,3,3,3,3,3,3,3,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
- 5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,
- 6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,
- 6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,
- 7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,
- 7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,
- 7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,
- 7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7
-};
-
-#if (SS_BLOCKSIZE == 0) || (SS_INSERTIONSORT_THRESHOLD < SS_BLOCKSIZE)
-
-static INLINE
-int
-ss_ilg(int n) {
-#if SS_BLOCKSIZE == 0
- return (n & 0xffff0000) ?
- ((n & 0xff000000) ?
- 24 + lg_table[(n >> 24) & 0xff] :
- 16 + lg_table[(n >> 16) & 0xff]) :
- ((n & 0x0000ff00) ?
- 8 + lg_table[(n >> 8) & 0xff] :
- 0 + lg_table[(n >> 0) & 0xff]);
-#elif SS_BLOCKSIZE < 256
- return lg_table[n];
-#else
- return (n & 0xff00) ?
- 8 + lg_table[(n >> 8) & 0xff] :
- 0 + lg_table[(n >> 0) & 0xff];
-#endif
-}
-
-#endif /* (SS_BLOCKSIZE == 0) || (SS_INSERTIONSORT_THRESHOLD < SS_BLOCKSIZE) */
-
-#if SS_BLOCKSIZE != 0
-
-static const int sqq_table[256] = {
- 0, 16, 22, 27, 32, 35, 39, 42, 45, 48, 50, 53, 55, 57, 59, 61,
- 64, 65, 67, 69, 71, 73, 75, 76, 78, 80, 81, 83, 84, 86, 87, 89,
- 90, 91, 93, 94, 96, 97, 98, 99, 101, 102, 103, 104, 106, 107, 108, 109,
-110, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126,
-128, 128, 129, 130, 131, 132, 133, 134, 135, 136, 137, 138, 139, 140, 141, 142,
-143, 144, 144, 145, 146, 147, 148, 149, 150, 150, 151, 152, 153, 154, 155, 155,
-156, 157, 158, 159, 160, 160, 161, 162, 163, 163, 164, 165, 166, 167, 167, 168,
-169, 170, 170, 171, 172, 173, 173, 174, 175, 176, 176, 177, 178, 178, 179, 180,
-181, 181, 182, 183, 183, 184, 185, 185, 186, 187, 187, 188, 189, 189, 190, 191,
-192, 192, 193, 193, 194, 195, 195, 196, 197, 197, 198, 199, 199, 200, 201, 201,
-202, 203, 203, 204, 204, 205, 206, 206, 207, 208, 208, 209, 209, 210, 211, 211,
-212, 212, 213, 214, 214, 215, 215, 216, 217, 217, 218, 218, 219, 219, 220, 221,
-221, 222, 222, 223, 224, 224, 225, 225, 226, 226, 227, 227, 228, 229, 229, 230,
-230, 231, 231, 232, 232, 233, 234, 234, 235, 235, 236, 236, 237, 237, 238, 238,
-239, 240, 240, 241, 241, 242, 242, 243, 243, 244, 244, 245, 245, 246, 246, 247,
-247, 248, 248, 249, 249, 250, 250, 251, 251, 252, 252, 253, 253, 254, 254, 255
-};
-
-static INLINE
-int
-ss_isqrt(int x) {
- int y, e;
-
- if(x >= (SS_BLOCKSIZE * SS_BLOCKSIZE)) { return SS_BLOCKSIZE; }
- e = (x & 0xffff0000) ?
- ((x & 0xff000000) ?
- 24 + lg_table[(x >> 24) & 0xff] :
- 16 + lg_table[(x >> 16) & 0xff]) :
- ((x & 0x0000ff00) ?
- 8 + lg_table[(x >> 8) & 0xff] :
- 0 + lg_table[(x >> 0) & 0xff]);
-
- if(e >= 16) {
- y = sqq_table[x >> ((e - 6) - (e & 1))] << ((e >> 1) - 7);
- if(e >= 24) { y = (y + 1 + x / y) >> 1; }
- y = (y + 1 + x / y) >> 1;
- } else if(e >= 8) {
- y = (sqq_table[x >> ((e - 6) - (e & 1))] >> (7 - (e >> 1))) + 1;
- } else {
- return sqq_table[x] >> 4;
- }
-
- return (x < (y * y)) ? y - 1 : y;
-}
-
-#endif /* SS_BLOCKSIZE != 0 */
-
-
-/*---------------------------------------------------------------------------*/
-
-/* Compares two suffixes. */
-static INLINE
-int
-ss_compare(const unsigned char *T,
- const int *p1, const int *p2,
- int depth) {
- const unsigned char *U1, *U2, *U1n, *U2n;
-
- for(U1 = T + depth + *p1,
- U2 = T + depth + *p2,
- U1n = T + *(p1 + 1) + 2,
- U2n = T + *(p2 + 1) + 2;
- (U1 < U1n) && (U2 < U2n) && (*U1 == *U2);
- ++U1, ++U2) {
- }
-
- return U1 < U1n ?
- (U2 < U2n ? *U1 - *U2 : 1) :
- (U2 < U2n ? -1 : 0);
-}
-
-
-/*---------------------------------------------------------------------------*/
-
-#if (SS_BLOCKSIZE != 1) && (SS_INSERTIONSORT_THRESHOLD != 1)
-
-/* Insertionsort for small size groups */
-static
-void
-ss_insertionsort(const unsigned char *T, const int *PA,
- int *first, int *last, int depth) {
- int *i, *j;
- int t;
- int r;
-
- for(i = last - 2; first <= i; --i) {
- for(t = *i, j = i + 1; 0 < (r = ss_compare(T, PA + t, PA + *j, depth));) {
- do { *(j - 1) = *j; } while((++j < last) && (*j < 0));
- if(last <= j) { break; }
- }
- if(r == 0) { *j = ~*j; }
- *(j - 1) = t;
- }
-}
-
-#endif /* (SS_BLOCKSIZE != 1) && (SS_INSERTIONSORT_THRESHOLD != 1) */
-
-
-/*---------------------------------------------------------------------------*/
-
-#if (SS_BLOCKSIZE == 0) || (SS_INSERTIONSORT_THRESHOLD < SS_BLOCKSIZE)
-
-static INLINE
-void
-ss_fixdown(const unsigned char *Td, const int *PA,
- int *SA, int i, int size) {
- int j, k;
- int v;
- int c, d, e;
-
- for(v = SA[i], c = Td[PA[v]]; (j = 2 * i + 1) < size; SA[i] = SA[k], i = k) {
- d = Td[PA[SA[k = j++]]];
- if(d < (e = Td[PA[SA[j]]])) { k = j; d = e; }
- if(d <= c) { break; }
- }
- SA[i] = v;
-}
-
-/* Simple top-down heapsort. */
-static
-void
-ss_heapsort(const unsigned char *Td, const int *PA, int *SA, int size) {
- int i, m;
- int t;
-
- m = size;
- if((size % 2) == 0) {
- m--;
- if(Td[PA[SA[m / 2]]] < Td[PA[SA[m]]]) { SWAP(SA[m], SA[m / 2]); }
- }
-
- for(i = m / 2 - 1; 0 <= i; --i) { ss_fixdown(Td, PA, SA, i, m); }
- if((size % 2) == 0) { SWAP(SA[0], SA[m]); ss_fixdown(Td, PA, SA, 0, m); }
- for(i = m - 1; 0 < i; --i) {
- t = SA[0], SA[0] = SA[i];
- ss_fixdown(Td, PA, SA, 0, i);
- SA[i] = t;
- }
-}
-
-
-/*---------------------------------------------------------------------------*/
-
-/* Returns the median of three elements. */
-static INLINE
-int *
-ss_median3(const unsigned char *Td, const int *PA,
- int *v1, int *v2, int *v3) {
- int *t;
- if(Td[PA[*v1]] > Td[PA[*v2]]) { SWAP(v1, v2); }
- if(Td[PA[*v2]] > Td[PA[*v3]]) {
- if(Td[PA[*v1]] > Td[PA[*v3]]) { return v1; }
- else { return v3; }
- }
- return v2;
-}
-
-/* Returns the median of five elements. */
-static INLINE
-int *
-ss_median5(const unsigned char *Td, const int *PA,
- int *v1, int *v2, int *v3, int *v4, int *v5) {
- int *t;
- if(Td[PA[*v2]] > Td[PA[*v3]]) { SWAP(v2, v3); }
- if(Td[PA[*v4]] > Td[PA[*v5]]) { SWAP(v4, v5); }
- if(Td[PA[*v2]] > Td[PA[*v4]]) { SWAP(v2, v4); SWAP(v3, v5); }
- if(Td[PA[*v1]] > Td[PA[*v3]]) { SWAP(v1, v3); }
- if(Td[PA[*v1]] > Td[PA[*v4]]) { SWAP(v1, v4); SWAP(v3, v5); }
- if(Td[PA[*v3]] > Td[PA[*v4]]) { return v4; }
- return v3;
-}
-
-/* Returns the pivot element. */
-static INLINE
-int *
-ss_pivot(const unsigned char *Td, const int *PA, int *first, int *last) {
- int *middle;
- int t;
-
- t = last - first;
- middle = first + t / 2;
-
- if(t <= 512) {
- if(t <= 32) {
- return ss_median3(Td, PA, first, middle, last - 1);
- } else {
- t >>= 2;
- return ss_median5(Td, PA, first, first + t, middle, last - 1 - t, last - 1);
- }
- }
- t >>= 3;
- first = ss_median3(Td, PA, first, first + t, first + (t << 1));
- middle = ss_median3(Td, PA, middle - t, middle, middle + t);
- last = ss_median3(Td, PA, last - 1 - (t << 1), last - 1 - t, last - 1);
- return ss_median3(Td, PA, first, middle, last);
-}
-
-
-/*---------------------------------------------------------------------------*/
-
-/* Binary partition for substrings. */
-static INLINE
-int *
-ss_partition(const int *PA,
- int *first, int *last, int depth) {
- int *a, *b;
- int t;
- for(a = first - 1, b = last;;) {
- for(; (++a < b) && ((PA[*a] + depth) >= (PA[*a + 1] + 1));) { *a = ~*a; }
- for(; (a < --b) && ((PA[*b] + depth) < (PA[*b + 1] + 1));) { }
- if(b <= a) { break; }
- t = ~*b;
- *b = *a;
- *a = t;
- }
- if(first < a) { *first = ~*first; }
- return a;
-}
-
-/* Multikey introsort for medium size groups. */
-static
-void
-ss_mintrosort(const unsigned char *T, const int *PA,
- int *first, int *last,
- int depth) {
-#define STACK_SIZE SS_MISORT_STACKSIZE
- struct { int *a, *b, c; int d; } stack[STACK_SIZE];
- const unsigned char *Td;
- int *a, *b, *c, *d, *e, *f;
- int s, t;
- int ssize;
- int limit;
- int v, x = 0;
-
- for(ssize = 0, limit = ss_ilg(last - first);;) {
-
- if((last - first) <= SS_INSERTIONSORT_THRESHOLD) {
-#if 1 < SS_INSERTIONSORT_THRESHOLD
- if(1 < (last - first)) { ss_insertionsort(T, PA, first, last, depth); }
-#endif
- STACK_POP(first, last, depth, limit);
- continue;
- }
-
- Td = T + depth;
- if(limit-- == 0) { ss_heapsort(Td, PA, first, last - first); }
- if(limit < 0) {
- for(a = first + 1, v = Td[PA[*first]]; a < last; ++a) {
- if((x = Td[PA[*a]]) != v) {
- if(1 < (a - first)) { break; }
- v = x;
- first = a;
- }
- }
- if(Td[PA[*first] - 1] < v) {
- first = ss_partition(PA, first, a, depth);
- }
- if((a - first) <= (last - a)) {
- if(1 < (a - first)) {
- STACK_PUSH(a, last, depth, -1);
- last = a, depth += 1, limit = ss_ilg(a - first);
- } else {
- first = a, limit = -1;
- }
- } else {
- if(1 < (last - a)) {
- STACK_PUSH(first, a, depth + 1, ss_ilg(a - first));
- first = a, limit = -1;
- } else {
- last = a, depth += 1, limit = ss_ilg(a - first);
- }
- }
- continue;
- }
-
- /* choose pivot */
- a = ss_pivot(Td, PA, first, last);
- v = Td[PA[*a]];
- SWAP(*first, *a);
-
- /* partition */
- for(b = first; (++b < last) && ((x = Td[PA[*b]]) == v);) { }
- if(((a = b) < last) && (x < v)) {
- for(; (++b < last) && ((x = Td[PA[*b]]) <= v);) {
- if(x == v) { SWAP(*b, *a); ++a; }
- }
- }
- for(c = last; (b < --c) && ((x = Td[PA[*c]]) == v);) { }
- if((b < (d = c)) && (x > v)) {
- for(; (b < --c) && ((x = Td[PA[*c]]) >= v);) {
- if(x == v) { SWAP(*c, *d); --d; }
- }
- }
- for(; b < c;) {
- SWAP(*b, *c);
- for(; (++b < c) && ((x = Td[PA[*b]]) <= v);) {
- if(x == v) { SWAP(*b, *a); ++a; }
- }
- for(; (b < --c) && ((x = Td[PA[*c]]) >= v);) {
- if(x == v) { SWAP(*c, *d); --d; }
- }
- }
-
- if(a <= d) {
- c = b - 1;
-
- if((s = a - first) > (t = b - a)) { s = t; }
- for(e = first, f = b - s; 0 < s; --s, ++e, ++f) { SWAP(*e, *f); }
- if((s = d - c) > (t = last - d - 1)) { s = t; }
- for(e = b, f = last - s; 0 < s; --s, ++e, ++f) { SWAP(*e, *f); }
-
- a = first + (b - a), c = last - (d - c);
- b = (v <= Td[PA[*a] - 1]) ? a : ss_partition(PA, a, c, depth);
-
- if((a - first) <= (last - c)) {
- if((last - c) <= (c - b)) {
- STACK_PUSH(b, c, depth + 1, ss_ilg(c - b));
- STACK_PUSH(c, last, depth, limit);
- last = a;
- } else if((a - first) <= (c - b)) {
- STACK_PUSH(c, last, depth, limit);
- STACK_PUSH(b, c, depth + 1, ss_ilg(c - b));
- last = a;
- } else {
- STACK_PUSH(c, last, depth, limit);
- STACK_PUSH(first, a, depth, limit);
- first = b, last = c, depth += 1, limit = ss_ilg(c - b);
- }
- } else {
- if((a - first) <= (c - b)) {
- STACK_PUSH(b, c, depth + 1, ss_ilg(c - b));
- STACK_PUSH(first, a, depth, limit);
- first = c;
- } else if((last - c) <= (c - b)) {
- STACK_PUSH(first, a, depth, limit);
- STACK_PUSH(b, c, depth + 1, ss_ilg(c - b));
- first = c;
- } else {
- STACK_PUSH(first, a, depth, limit);
- STACK_PUSH(c, last, depth, limit);
- first = b, last = c, depth += 1, limit = ss_ilg(c - b);
- }
- }
- } else {
- limit += 1;
- if(Td[PA[*first] - 1] < v) {
- first = ss_partition(PA, first, last, depth);
- limit = ss_ilg(last - first);
- }
- depth += 1;
- }
- }
-#undef STACK_SIZE
-}
-
-#endif /* (SS_BLOCKSIZE == 0) || (SS_INSERTIONSORT_THRESHOLD < SS_BLOCKSIZE) */
-
-
-/*---------------------------------------------------------------------------*/
-
-#if SS_BLOCKSIZE != 0
-
-static INLINE
-void
-ss_blockswap(int *a, int *b, int n) {
- int t;
- for(; 0 < n; --n, ++a, ++b) {
- t = *a, *a = *b, *b = t;
- }
-}
-
-static INLINE
-void
-ss_rotate(int *first, int *middle, int *last) {
- int *a, *b, t;
- int l, r;
- l = middle - first, r = last - middle;
- for(; (0 < l) && (0 < r);) {
- if(l == r) { ss_blockswap(first, middle, l); break; }
- if(l < r) {
- a = last - 1, b = middle - 1;
- t = *a;
- do {
- *a-- = *b, *b-- = *a;
- if(b < first) {
- *a = t;
- last = a;
- if((r -= l + 1) <= l) { break; }
- a -= 1, b = middle - 1;
- t = *a;
- }
- } while(1);
- } else {
- a = first, b = middle;
- t = *a;
- do {
- *a++ = *b, *b++ = *a;
- if(last <= b) {
- *a = t;
- first = a + 1;
- if((l -= r + 1) <= r) { break; }
- a += 1, b = middle;
- t = *a;
- }
- } while(1);
- }
- }
-}
-
-
-/*---------------------------------------------------------------------------*/
-
-static
-void
-ss_inplacemerge(const unsigned char *T, const int *PA,
- int *first, int *middle, int *last,
- int depth) {
- const int *p;
- int *a, *b;
- int len, half;
- int q, r;
- int x;
-
- for(;;) {
- if(*(last - 1) < 0) { x = 1; p = PA + ~*(last - 1); }
- else { x = 0; p = PA + *(last - 1); }
- for(a = first, len = middle - first, half = len >> 1, r = -1;
- 0 < len;
- len = half, half >>= 1) {
- b = a + half;
- q = ss_compare(T, PA + ((0 <= *b) ? *b : ~*b), p, depth);
- if(q < 0) {
- a = b + 1;
- half -= (len & 1) ^ 1;
- } else {
- r = q;
- }
- }
- if(a < middle) {
- if(r == 0) { *a = ~*a; }
- ss_rotate(a, middle, last);
- last -= middle - a;
- middle = a;
- if(first == middle) { break; }
- }
- --last;
- if(x != 0) { while(*--last < 0) { } }
- if(middle == last) { break; }
- }
-}
-
-
-/*---------------------------------------------------------------------------*/
-
-/* Merge-forward with internal buffer. */
-static
-void
-ss_mergeforward(const unsigned char *T, const int *PA,
- int *first, int *middle, int *last,
- int *buf, int depth) {
- int *a, *b, *c, *bufend;
- int t;
- int r;
-
- bufend = buf + (middle - first) - 1;
- ss_blockswap(buf, first, middle - first);
-
- for(t = *(a = first), b = buf, c = middle;;) {
- r = ss_compare(T, PA + *b, PA + *c, depth);
- if(r < 0) {
- do {
- *a++ = *b;
- if(bufend <= b) { *bufend = t; return; }
- *b++ = *a;
- } while(*b < 0);
- } else if(r > 0) {
- do {
- *a++ = *c, *c++ = *a;
- if(last <= c) {
- while(b < bufend) { *a++ = *b, *b++ = *a; }
- *a = *b, *b = t;
- return;
- }
- } while(*c < 0);
- } else {
- *c = ~*c;
- do {
- *a++ = *b;
- if(bufend <= b) { *bufend = t; return; }
- *b++ = *a;
- } while(*b < 0);
-
- do {
- *a++ = *c, *c++ = *a;
- if(last <= c) {
- while(b < bufend) { *a++ = *b, *b++ = *a; }
- *a = *b, *b = t;
- return;
- }
- } while(*c < 0);
- }
- }
-}
-
-/* Merge-backward with internal buffer. */
-static
-void
-ss_mergebackward(const unsigned char *T, const int *PA,
- int *first, int *middle, int *last,
- int *buf, int depth) {
- const int *p1, *p2;
- int *a, *b, *c, *bufend;
- int t;
- int r;
- int x;
-
- bufend = buf + (last - middle) - 1;
- ss_blockswap(buf, middle, last - middle);
-
- x = 0;
- if(*bufend < 0) { p1 = PA + ~*bufend; x |= 1; }
- else { p1 = PA + *bufend; }
- if(*(middle - 1) < 0) { p2 = PA + ~*(middle - 1); x |= 2; }
- else { p2 = PA + *(middle - 1); }
- for(t = *(a = last - 1), b = bufend, c = middle - 1;;) {
- r = ss_compare(T, p1, p2, depth);
- if(0 < r) {
- if(x & 1) { do { *a-- = *b, *b-- = *a; } while(*b < 0); x ^= 1; }
- *a-- = *b;
- if(b <= buf) { *buf = t; break; }
- *b-- = *a;
- if(*b < 0) { p1 = PA + ~*b; x |= 1; }
- else { p1 = PA + *b; }
- } else if(r < 0) {
- if(x & 2) { do { *a-- = *c, *c-- = *a; } while(*c < 0); x ^= 2; }
- *a-- = *c, *c-- = *a;
- if(c < first) {
- while(buf < b) { *a-- = *b, *b-- = *a; }
- *a = *b, *b = t;
- break;
- }
- if(*c < 0) { p2 = PA + ~*c; x |= 2; }
- else { p2 = PA + *c; }
- } else {
- if(x & 1) { do { *a-- = *b, *b-- = *a; } while(*b < 0); x ^= 1; }
- *a-- = ~*b;
- if(b <= buf) { *buf = t; break; }
- *b-- = *a;
- if(x & 2) { do { *a-- = *c, *c-- = *a; } while(*c < 0); x ^= 2; }
- *a-- = *c, *c-- = *a;
- if(c < first) {
- while(buf < b) { *a-- = *b, *b-- = *a; }
- *a = *b, *b = t;
- break;
- }
- if(*b < 0) { p1 = PA + ~*b; x |= 1; }
- else { p1 = PA + *b; }
- if(*c < 0) { p2 = PA + ~*c; x |= 2; }
- else { p2 = PA + *c; }
- }
- }
-}
-
-/* D&C based merge. */
-static
-void
-ss_swapmerge(const unsigned char *T, const int *PA,
- int *first, int *middle, int *last,
- int *buf, int bufsize, int depth) {
-#define STACK_SIZE SS_SMERGE_STACKSIZE
-#define GETIDX(a) ((0 <= (a)) ? (a) : (~(a)))
-#define MERGE_CHECK(a, b, c)\
- do {\
- if(((c) & 1) ||\
- (((c) & 2) && (ss_compare(T, PA + GETIDX(*((a) - 1)), PA + *(a), depth) == 0))) {\
- *(a) = ~*(a);\
- }\
- if(((c) & 4) && ((ss_compare(T, PA + GETIDX(*((b) - 1)), PA + *(b), depth) == 0))) {\
- *(b) = ~*(b);\
- }\
- } while(0)
- struct { int *a, *b, *c; int d; } stack[STACK_SIZE];
- int *l, *r, *lm, *rm;
- int m, len, half;
- int ssize;
- int check, next;
-
- for(check = 0, ssize = 0;;) {
- if((last - middle) <= bufsize) {
- if((first < middle) && (middle < last)) {
- ss_mergebackward(T, PA, first, middle, last, buf, depth);
- }
- MERGE_CHECK(first, last, check);
- STACK_POP(first, middle, last, check);
- continue;
- }
-
- if((middle - first) <= bufsize) {
- if(first < middle) {
- ss_mergeforward(T, PA, first, middle, last, buf, depth);
- }
- MERGE_CHECK(first, last, check);
- STACK_POP(first, middle, last, check);
- continue;
- }
-
- for(m = 0, len = MIN(middle - first, last - middle), half = len >> 1;
- 0 < len;
- len = half, half >>= 1) {
- if(ss_compare(T, PA + GETIDX(*(middle + m + half)),
- PA + GETIDX(*(middle - m - half - 1)), depth) < 0) {
- m += half + 1;
- half -= (len & 1) ^ 1;
- }
- }
-
- if(0 < m) {
- lm = middle - m, rm = middle + m;
- ss_blockswap(lm, middle, m);
- l = r = middle, next = 0;
- if(rm < last) {
- if(*rm < 0) {
- *rm = ~*rm;
- if(first < lm) { for(; *--l < 0;) { } next |= 4; }
- next |= 1;
- } else if(first < lm) {
- for(; *r < 0; ++r) { }
- next |= 2;
- }
- }
-
- if((l - first) <= (last - r)) {
- STACK_PUSH(r, rm, last, (next & 3) | (check & 4));
- middle = lm, last = l, check = (check & 3) | (next & 4);
- } else {
- if((next & 2) && (r == middle)) { next ^= 6; }
- STACK_PUSH(first, lm, l, (check & 3) | (next & 4));
- first = r, middle = rm, check = (next & 3) | (check & 4);
- }
- } else {
- if(ss_compare(T, PA + GETIDX(*(middle - 1)), PA + *middle, depth) == 0) {
- *middle = ~*middle;
- }
- MERGE_CHECK(first, last, check);
- STACK_POP(first, middle, last, check);
- }
- }
-#undef STACK_SIZE
-}
-
-#endif /* SS_BLOCKSIZE != 0 */
-
-
-/*---------------------------------------------------------------------------*/
-
-/* Substring sort */
-static
-void
-sssort(const unsigned char *T, const int *PA,
- int *first, int *last,
- int *buf, int bufsize,
- int depth, int n, int lastsuffix) {
- int *a;
-#if SS_BLOCKSIZE != 0
- int *b, *middle, *curbuf;
- int j, k, curbufsize, limit;
-#endif
- int i;
-
- if(lastsuffix != 0) { ++first; }
-
-#if SS_BLOCKSIZE == 0
- ss_mintrosort(T, PA, first, last, depth);
-#else
- if((bufsize < SS_BLOCKSIZE) &&
- (bufsize < (last - first)) &&
- (bufsize < (limit = ss_isqrt(last - first)))) {
- if(SS_BLOCKSIZE < limit) { limit = SS_BLOCKSIZE; }
- buf = middle = last - limit, bufsize = limit;
- } else {
- middle = last, limit = 0;
- }
- for(a = first, i = 0; SS_BLOCKSIZE < (middle - a); a += SS_BLOCKSIZE, ++i) {
-#if SS_INSERTIONSORT_THRESHOLD < SS_BLOCKSIZE
- ss_mintrosort(T, PA, a, a + SS_BLOCKSIZE, depth);
-#elif 1 < SS_BLOCKSIZE
- ss_insertionsort(T, PA, a, a + SS_BLOCKSIZE, depth);
-#endif
- curbufsize = last - (a + SS_BLOCKSIZE);
- curbuf = a + SS_BLOCKSIZE;
- if(curbufsize <= bufsize) { curbufsize = bufsize, curbuf = buf; }
- for(b = a, k = SS_BLOCKSIZE, j = i; j & 1; b -= k, k <<= 1, j >>= 1) {
- ss_swapmerge(T, PA, b - k, b, b + k, curbuf, curbufsize, depth);
- }
- }
-#if SS_INSERTIONSORT_THRESHOLD < SS_BLOCKSIZE
- ss_mintrosort(T, PA, a, middle, depth);
-#elif 1 < SS_BLOCKSIZE
- ss_insertionsort(T, PA, a, middle, depth);
-#endif
- for(k = SS_BLOCKSIZE; i != 0; k <<= 1, i >>= 1) {
- if(i & 1) {
- ss_swapmerge(T, PA, a - k, a, middle, buf, bufsize, depth);
- a -= k;
- }
- }
- if(limit != 0) {
-#if SS_INSERTIONSORT_THRESHOLD < SS_BLOCKSIZE
- ss_mintrosort(T, PA, middle, last, depth);
-#elif 1 < SS_BLOCKSIZE
- ss_insertionsort(T, PA, middle, last, depth);
-#endif
- ss_inplacemerge(T, PA, first, middle, last, depth);
- }
-#endif
-
- if(lastsuffix != 0) {
- /* Insert last type B* suffix. */
- int PAi[2]; PAi[0] = PA[*(first - 1)], PAi[1] = n - 2;
- for(a = first, i = *(first - 1);
- (a < last) && ((*a < 0) || (0 < ss_compare(T, &(PAi[0]), PA + *a, depth)));
- ++a) {
- *(a - 1) = *a;
- }
- *(a - 1) = i;
- }
-}
-
-
-/*---------------------------------------------------------------------------*/
-
-static INLINE
-int
-tr_ilg(int n) {
- return (n & 0xffff0000) ?
- ((n & 0xff000000) ?
- 24 + lg_table[(n >> 24) & 0xff] :
- 16 + lg_table[(n >> 16) & 0xff]) :
- ((n & 0x0000ff00) ?
- 8 + lg_table[(n >> 8) & 0xff] :
- 0 + lg_table[(n >> 0) & 0xff]);
-}
-
-
-/*---------------------------------------------------------------------------*/
-
-/* Simple insertionsort for small size groups. */
-static
-void
-tr_insertionsort(const int *ISAd, int *first, int *last) {
- int *a, *b;
- int t, r;
-
- for(a = first + 1; a < last; ++a) {
- for(t = *a, b = a - 1; 0 > (r = ISAd[t] - ISAd[*b]);) {
- do { *(b + 1) = *b; } while((first <= --b) && (*b < 0));
- if(b < first) { break; }
- }
- if(r == 0) { *b = ~*b; }
- *(b + 1) = t;
- }
-}
-
-
-/*---------------------------------------------------------------------------*/
-
-static INLINE
-void
-tr_fixdown(const int *ISAd, int *SA, int i, int size) {
- int j, k;
- int v;
- int c, d, e;
-
- for(v = SA[i], c = ISAd[v]; (j = 2 * i + 1) < size; SA[i] = SA[k], i = k) {
- d = ISAd[SA[k = j++]];
- if(d < (e = ISAd[SA[j]])) { k = j; d = e; }
- if(d <= c) { break; }
- }
- SA[i] = v;
-}
-
-/* Simple top-down heapsort. */
-static
-void
-tr_heapsort(const int *ISAd, int *SA, int size) {
- int i, m;
- int t;
-
- m = size;
- if((size % 2) == 0) {
- m--;
- if(ISAd[SA[m / 2]] < ISAd[SA[m]]) { SWAP(SA[m], SA[m / 2]); }
- }
-
- for(i = m / 2 - 1; 0 <= i; --i) { tr_fixdown(ISAd, SA, i, m); }
- if((size % 2) == 0) { SWAP(SA[0], SA[m]); tr_fixdown(ISAd, SA, 0, m); }
- for(i = m - 1; 0 < i; --i) {
- t = SA[0], SA[0] = SA[i];
- tr_fixdown(ISAd, SA, 0, i);
- SA[i] = t;
- }
-}
-
-
-/*---------------------------------------------------------------------------*/
-
-/* Returns the median of three elements. */
-static INLINE
-int *
-tr_median3(const int *ISAd, int *v1, int *v2, int *v3) {
- int *t;
- if(ISAd[*v1] > ISAd[*v2]) { SWAP(v1, v2); }
- if(ISAd[*v2] > ISAd[*v3]) {
- if(ISAd[*v1] > ISAd[*v3]) { return v1; }
- else { return v3; }
- }
- return v2;
-}
-
-/* Returns the median of five elements. */
-static INLINE
-int *
-tr_median5(const int *ISAd,
- int *v1, int *v2, int *v3, int *v4, int *v5) {
- int *t;
- if(ISAd[*v2] > ISAd[*v3]) { SWAP(v2, v3); }
- if(ISAd[*v4] > ISAd[*v5]) { SWAP(v4, v5); }
- if(ISAd[*v2] > ISAd[*v4]) { SWAP(v2, v4); SWAP(v3, v5); }
- if(ISAd[*v1] > ISAd[*v3]) { SWAP(v1, v3); }
- if(ISAd[*v1] > ISAd[*v4]) { SWAP(v1, v4); SWAP(v3, v5); }
- if(ISAd[*v3] > ISAd[*v4]) { return v4; }
- return v3;
-}
-
-/* Returns the pivot element. */
-static INLINE
-int *
-tr_pivot(const int *ISAd, int *first, int *last) {
- int *middle;
- int t;
-
- t = last - first;
- middle = first + t / 2;
-
- if(t <= 512) {
- if(t <= 32) {
- return tr_median3(ISAd, first, middle, last - 1);
- } else {
- t >>= 2;
- return tr_median5(ISAd, first, first + t, middle, last - 1 - t, last - 1);
- }
- }
- t >>= 3;
- first = tr_median3(ISAd, first, first + t, first + (t << 1));
- middle = tr_median3(ISAd, middle - t, middle, middle + t);
- last = tr_median3(ISAd, last - 1 - (t << 1), last - 1 - t, last - 1);
- return tr_median3(ISAd, first, middle, last);
-}
-
-
-/*---------------------------------------------------------------------------*/
-
-typedef struct _trbudget_t trbudget_t;
-struct _trbudget_t {
- int chance;
- int remain;
- int incval;
- int count;
-};
-
-static INLINE
-void
-trbudget_init(trbudget_t *budget, int chance, int incval) {
- budget->chance = chance;
- budget->remain = budget->incval = incval;
-}
-
-static INLINE
-int
-trbudget_check(trbudget_t *budget, int size) {
- if(size <= budget->remain) { budget->remain -= size; return 1; }
- if(budget->chance == 0) { budget->count += size; return 0; }
- budget->remain += budget->incval - size;
- budget->chance -= 1;
- return 1;
-}
-
-
-/*---------------------------------------------------------------------------*/
-
-static INLINE
-void
-tr_partition(const int *ISAd,
- int *first, int *middle, int *last,
- int **pa, int **pb, int v) {
- int *a, *b, *c, *d, *e, *f;
- int t, s;
- int x = 0;
-
- for(b = middle - 1; (++b < last) && ((x = ISAd[*b]) == v);) { }
- if(((a = b) < last) && (x < v)) {
- for(; (++b < last) && ((x = ISAd[*b]) <= v);) {
- if(x == v) { SWAP(*b, *a); ++a; }
- }
- }
- for(c = last; (b < --c) && ((x = ISAd[*c]) == v);) { }
- if((b < (d = c)) && (x > v)) {
- for(; (b < --c) && ((x = ISAd[*c]) >= v);) {
- if(x == v) { SWAP(*c, *d); --d; }
- }
- }
- for(; b < c;) {
- SWAP(*b, *c);
- for(; (++b < c) && ((x = ISAd[*b]) <= v);) {
- if(x == v) { SWAP(*b, *a); ++a; }
- }
- for(; (b < --c) && ((x = ISAd[*c]) >= v);) {
- if(x == v) { SWAP(*c, *d); --d; }
- }
- }
-
- if(a <= d) {
- c = b - 1;
- if((s = a - first) > (t = b - a)) { s = t; }
- for(e = first, f = b - s; 0 < s; --s, ++e, ++f) { SWAP(*e, *f); }
- if((s = d - c) > (t = last - d - 1)) { s = t; }
- for(e = b, f = last - s; 0 < s; --s, ++e, ++f) { SWAP(*e, *f); }
- first += (b - a), last -= (d - c);
- }
- *pa = first, *pb = last;
-}
-
-static
-void
-tr_copy(int *ISA, const int *SA,
- int *first, int *a, int *b, int *last,
- int depth) {
- /* sort suffixes of middle partition
- by using sorted order of suffixes of left and right partition. */
- int *c, *d, *e;
- int s, v;
-
- v = b - SA - 1;
- for(c = first, d = a - 1; c <= d; ++c) {
- if((0 <= (s = *c - depth)) && (ISA[s] == v)) {
- *++d = s;
- ISA[s] = d - SA;
- }
- }
- for(c = last - 1, e = d + 1, d = b; e < d; --c) {
- if((0 <= (s = *c - depth)) && (ISA[s] == v)) {
- *--d = s;
- ISA[s] = d - SA;
- }
- }
-}
-
-static
-void
-tr_partialcopy(int *ISA, const int *SA,
- int *first, int *a, int *b, int *last,
- int depth) {
- int *c, *d, *e;
- int s, v;
- int rank, lastrank, newrank = -1;
-
- v = b - SA - 1;
- lastrank = -1;
- for(c = first, d = a - 1; c <= d; ++c) {
- if((0 <= (s = *c - depth)) && (ISA[s] == v)) {
- *++d = s;
- rank = ISA[s + depth];
- if(lastrank != rank) { lastrank = rank; newrank = d - SA; }
- ISA[s] = newrank;
- }
- }
-
- lastrank = -1;
- for(e = d; first <= e; --e) {
- rank = ISA[*e];
- if(lastrank != rank) { lastrank = rank; newrank = e - SA; }
- if(newrank != rank) { ISA[*e] = newrank; }
- }
-
- lastrank = -1;
- for(c = last - 1, e = d + 1, d = b; e < d; --c) {
- if((0 <= (s = *c - depth)) && (ISA[s] == v)) {
- *--d = s;
- rank = ISA[s + depth];
- if(lastrank != rank) { lastrank = rank; newrank = d - SA; }
- ISA[s] = newrank;
- }
- }
-}
-
-static
-void
-tr_introsort(int *ISA, const int *ISAd,
- int *SA, int *first, int *last,
- trbudget_t *budget) {
-#define STACK_SIZE TR_STACKSIZE
- struct { const int *a; int *b, *c; int d, e; }stack[STACK_SIZE];
- int *a, *b, *c;
- int t;
- int v, x = 0;
- int incr = ISAd - ISA;
- int limit, next;
- int ssize, trlink = -1;
-
- for(ssize = 0, limit = tr_ilg(last - first);;) {
-
- if(limit < 0) {
- if(limit == -1) {
- /* tandem repeat partition */
- tr_partition(ISAd - incr, first, first, last, &a, &b, last - SA - 1);
-
- /* update ranks */
- if(a < last) {
- for(c = first, v = a - SA - 1; c < a; ++c) { ISA[*c] = v; }
- }
- if(b < last) {
- for(c = a, v = b - SA - 1; c < b; ++c) { ISA[*c] = v; }
- }
-
- /* push */
- if(1 < (b - a)) {
- STACK_PUSH5(NULL, a, b, 0, 0);
- STACK_PUSH5(ISAd - incr, first, last, -2, trlink);
- trlink = ssize - 2;
- }
- if((a - first) <= (last - b)) {
- if(1 < (a - first)) {
- STACK_PUSH5(ISAd, b, last, tr_ilg(last - b), trlink);
- last = a, limit = tr_ilg(a - first);
- } else if(1 < (last - b)) {
- first = b, limit = tr_ilg(last - b);
- } else {
- STACK_POP5(ISAd, first, last, limit, trlink);
- }
- } else {
- if(1 < (last - b)) {
- STACK_PUSH5(ISAd, first, a, tr_ilg(a - first), trlink);
- first = b, limit = tr_ilg(last - b);
- } else if(1 < (a - first)) {
- last = a, limit = tr_ilg(a - first);
- } else {
- STACK_POP5(ISAd, first, last, limit, trlink);
- }
- }
- } else if(limit == -2) {
- /* tandem repeat copy */
- a = stack[--ssize].b, b = stack[ssize].c;
- if(stack[ssize].d == 0) {
- tr_copy(ISA, SA, first, a, b, last, ISAd - ISA);
- } else {
- if(0 <= trlink) { stack[trlink].d = -1; }
- tr_partialcopy(ISA, SA, first, a, b, last, ISAd - ISA);
- }
- STACK_POP5(ISAd, first, last, limit, trlink);
- } else {
- /* sorted partition */
- if(0 <= *first) {
- a = first;
- do { ISA[*a] = a - SA; } while((++a < last) && (0 <= *a));
- first = a;
- }
- if(first < last) {
- a = first; do { *a = ~*a; } while(*++a < 0);
- next = (ISA[*a] != ISAd[*a]) ? tr_ilg(a - first + 1) : -1;
- if(++a < last) { for(b = first, v = a - SA - 1; b < a; ++b) { ISA[*b] = v; } }
-
- /* push */
- if(trbudget_check(budget, a - first)) {
- if((a - first) <= (last - a)) {
- STACK_PUSH5(ISAd, a, last, -3, trlink);
- ISAd += incr, last = a, limit = next;
- } else {
- if(1 < (last - a)) {
- STACK_PUSH5(ISAd + incr, first, a, next, trlink);
- first = a, limit = -3;
- } else {
- ISAd += incr, last = a, limit = next;
- }
- }
- } else {
- if(0 <= trlink) { stack[trlink].d = -1; }
- if(1 < (last - a)) {
- first = a, limit = -3;
- } else {
- STACK_POP5(ISAd, first, last, limit, trlink);
- }
- }
- } else {
- STACK_POP5(ISAd, first, last, limit, trlink);
- }
- }
- continue;
- }
-
- if((last - first) <= TR_INSERTIONSORT_THRESHOLD) {
- tr_insertionsort(ISAd, first, last);
- limit = -3;
- continue;
- }
-
- if(limit-- == 0) {
- tr_heapsort(ISAd, first, last - first);
- for(a = last - 1; first < a; a = b) {
- for(x = ISAd[*a], b = a - 1; (first <= b) && (ISAd[*b] == x); --b) { *b = ~*b; }
- }
- limit = -3;
- continue;
- }
-
- /* choose pivot */
- a = tr_pivot(ISAd, first, last);
- SWAP(*first, *a);
- v = ISAd[*first];
-
- /* partition */
- tr_partition(ISAd, first, first + 1, last, &a, &b, v);
- if((last - first) != (b - a)) {
- next = (ISA[*a] != v) ? tr_ilg(b - a) : -1;
-
- /* update ranks */
- for(c = first, v = a - SA - 1; c < a; ++c) { ISA[*c] = v; }
- if(b < last) { for(c = a, v = b - SA - 1; c < b; ++c) { ISA[*c] = v; } }
-
- /* push */
- if((1 < (b - a)) && (trbudget_check(budget, b - a))) {
- if((a - first) <= (last - b)) {
- if((last - b) <= (b - a)) {
- if(1 < (a - first)) {
- STACK_PUSH5(ISAd + incr, a, b, next, trlink);
- STACK_PUSH5(ISAd, b, last, limit, trlink);
- last = a;
- } else if(1 < (last - b)) {
- STACK_PUSH5(ISAd + incr, a, b, next, trlink);
- first = b;
- } else {
- ISAd += incr, first = a, last = b, limit = next;
- }
- } else if((a - first) <= (b - a)) {
- if(1 < (a - first)) {
- STACK_PUSH5(ISAd, b, last, limit, trlink);
- STACK_PUSH5(ISAd + incr, a, b, next, trlink);
- last = a;
- } else {
- STACK_PUSH5(ISAd, b, last, limit, trlink);
- ISAd += incr, first = a, last = b, limit = next;
- }
- } else {
- STACK_PUSH5(ISAd, b, last, limit, trlink);
- STACK_PUSH5(ISAd, first, a, limit, trlink);
- ISAd += incr, first = a, last = b, limit = next;
- }
- } else {
- if((a - first) <= (b - a)) {
- if(1 < (last - b)) {
- STACK_PUSH5(ISAd + incr, a, b, next, trlink);
- STACK_PUSH5(ISAd, first, a, limit, trlink);
- first = b;
- } else if(1 < (a - first)) {
- STACK_PUSH5(ISAd + incr, a, b, next, trlink);
- last = a;
- } else {
- ISAd += incr, first = a, last = b, limit = next;
- }
- } else if((last - b) <= (b - a)) {
- if(1 < (last - b)) {
- STACK_PUSH5(ISAd, first, a, limit, trlink);
- STACK_PUSH5(ISAd + incr, a, b, next, trlink);
- first = b;
- } else {
- STACK_PUSH5(ISAd, first, a, limit, trlink);
- ISAd += incr, first = a, last = b, limit = next;
- }
- } else {
- STACK_PUSH5(ISAd, first, a, limit, trlink);
- STACK_PUSH5(ISAd, b, last, limit, trlink);
- ISAd += incr, first = a, last = b, limit = next;
- }
- }
- } else {
- if((1 < (b - a)) && (0 <= trlink)) { stack[trlink].d = -1; }
- if((a - first) <= (last - b)) {
- if(1 < (a - first)) {
- STACK_PUSH5(ISAd, b, last, limit, trlink);
- last = a;
- } else if(1 < (last - b)) {
- first = b;
- } else {
- STACK_POP5(ISAd, first, last, limit, trlink);
- }
- } else {
- if(1 < (last - b)) {
- STACK_PUSH5(ISAd, first, a, limit, trlink);
- first = b;
- } else if(1 < (a - first)) {
- last = a;
- } else {
- STACK_POP5(ISAd, first, last, limit, trlink);
- }
- }
- }
- } else {
- if(trbudget_check(budget, last - first)) {
- limit = tr_ilg(last - first), ISAd += incr;
- } else {
- if(0 <= trlink) { stack[trlink].d = -1; }
- STACK_POP5(ISAd, first, last, limit, trlink);
- }
- }
- }
-#undef STACK_SIZE
-}
-
-
-
-/*---------------------------------------------------------------------------*/
-
-/* Tandem repeat sort */
-static
-void
-trsort(int *ISA, int *SA, int n, int depth) {
- int *ISAd;
- int *first, *last;
- trbudget_t budget;
- int t, skip, unsorted;
-
- trbudget_init(&budget, tr_ilg(n) * 2 / 3, n);
-/* trbudget_init(&budget, tr_ilg(n) * 3 / 4, n); */
- for(ISAd = ISA + depth; -n < *SA; ISAd += ISAd - ISA) {
- first = SA;
- skip = 0;
- unsorted = 0;
- do {
- if((t = *first) < 0) { first -= t; skip += t; }
- else {
- if(skip != 0) { *(first + skip) = skip; skip = 0; }
- last = SA + ISA[t] + 1;
- if(1 < (last - first)) {
- budget.count = 0;
- tr_introsort(ISA, ISAd, SA, first, last, &budget);
- if(budget.count != 0) { unsorted += budget.count; }
- else { skip = first - last; }
- } else if((last - first) == 1) {
- skip = -1;
- }
- first = last;
- }
- } while(first < (SA + n));
- if(skip != 0) { *(first + skip) = skip; }
- if(unsorted == 0) { break; }
- }
-}
-
-
-/*---------------------------------------------------------------------------*/
-
-/* Sorts suffixes of type B*. */
-static
-int
-sort_typeBstar(const unsigned char *T, int *SA,
- int *bucket_A, int *bucket_B,
- int n, int openMP) {
- int *PAb, *ISAb, *buf;
-#ifdef LIBBSC_OPENMP
- int *curbuf;
- int l;
-#endif
- int i, j, k, t, m, bufsize;
- int c0, c1;
-#ifdef LIBBSC_OPENMP
- int d0, d1;
-#endif
- (void)openMP;
-
- /* Initialize bucket arrays. */
- for(i = 0; i < BUCKET_A_SIZE; ++i) { bucket_A[i] = 0; }
- for(i = 0; i < BUCKET_B_SIZE; ++i) { bucket_B[i] = 0; }
-
- /* Count the number of occurrences of the first one or two characters of each
- type A, B and B* suffix. Moreover, store the beginning position of all
- type B* suffixes into the array SA. */
- for(i = n - 1, m = n, c0 = T[n - 1]; 0 <= i;) {
- /* type A suffix. */
- do { ++BUCKET_A(c1 = c0); } while((0 <= --i) && ((c0 = T[i]) >= c1));
- if(0 <= i) {
- /* type B* suffix. */
- ++BUCKET_BSTAR(c0, c1);
- SA[--m] = i;
- /* type B suffix. */
- for(--i, c1 = c0; (0 <= i) && ((c0 = T[i]) <= c1); --i, c1 = c0) {
- ++BUCKET_B(c0, c1);
- }
- }
- }
- m = n - m;
-/*
-note:
- A type B* suffix is lexicographically smaller than a type B suffix that
- begins with the same first two characters.
-*/
-
- /* Calculate the index of start/end point of each bucket. */
- for(c0 = 0, i = 0, j = 0; c0 < ALPHABET_SIZE; ++c0) {
- t = i + BUCKET_A(c0);
- BUCKET_A(c0) = i + j; /* start point */
- i = t + BUCKET_B(c0, c0);
- for(c1 = c0 + 1; c1 < ALPHABET_SIZE; ++c1) {
- j += BUCKET_BSTAR(c0, c1);
- BUCKET_BSTAR(c0, c1) = j; /* end point */
- i += BUCKET_B(c0, c1);
- }
- }
-
- if(0 < m) {
- /* Sort the type B* suffixes by their first two characters. */
- PAb = SA + n - m; ISAb = SA + m;
- for(i = m - 2; 0 <= i; --i) {
- t = PAb[i], c0 = T[t], c1 = T[t + 1];
- SA[--BUCKET_BSTAR(c0, c1)] = i;
- }
- t = PAb[m - 1], c0 = T[t], c1 = T[t + 1];
- SA[--BUCKET_BSTAR(c0, c1)] = m - 1;
-
- /* Sort the type B* substrings using sssort. */
-#ifdef LIBBSC_OPENMP
- if (openMP)
- {
- buf = SA + m;
- c0 = ALPHABET_SIZE - 2, c1 = ALPHABET_SIZE - 1, j = m;
-#pragma omp parallel default(shared) private(bufsize, curbuf, k, l, d0, d1)
- {
- bufsize = (n - (2 * m)) / omp_get_num_threads();
- curbuf = buf + omp_get_thread_num() * bufsize;
- k = 0;
- for(;;) {
- #pragma omp critical(sssort_lock)
- {
- if(0 < (l = j)) {
- d0 = c0, d1 = c1;
- do {
- k = BUCKET_BSTAR(d0, d1);
- if(--d1 <= d0) {
- d1 = ALPHABET_SIZE - 1;
- if(--d0 < 0) { break; }
- }
- } while(((l - k) <= 1) && (0 < (l = k)));
- c0 = d0, c1 = d1, j = k;
- }
- }
- if(l == 0) { break; }
- sssort(T, PAb, SA + k, SA + l,
- curbuf, bufsize, 2, n, *(SA + k) == (m - 1));
- }
- }
- }
- else
- {
- buf = SA + m, bufsize = n - (2 * m);
- for(c0 = ALPHABET_SIZE - 2, j = m; 0 < j; --c0) {
- for(c1 = ALPHABET_SIZE - 1; c0 < c1; j = i, --c1) {
- i = BUCKET_BSTAR(c0, c1);
- if(1 < (j - i)) {
- sssort(T, PAb, SA + i, SA + j,
- buf, bufsize, 2, n, *(SA + i) == (m - 1));
- }
- }
- }
- }
-#else
- buf = SA + m, bufsize = n - (2 * m);
- for(c0 = ALPHABET_SIZE - 2, j = m; 0 < j; --c0) {
- for(c1 = ALPHABET_SIZE - 1; c0 < c1; j = i, --c1) {
- i = BUCKET_BSTAR(c0, c1);
- if(1 < (j - i)) {
- sssort(T, PAb, SA + i, SA + j,
- buf, bufsize, 2, n, *(SA + i) == (m - 1));
- }
- }
- }
-#endif
-
- /* Compute ranks of type B* substrings. */
- for(i = m - 1; 0 <= i; --i) {
- if(0 <= SA[i]) {
- j = i;
- do { ISAb[SA[i]] = i; } while((0 <= --i) && (0 <= SA[i]));
- SA[i + 1] = i - j;
- if(i <= 0) { break; }
- }
- j = i;
- do { ISAb[SA[i] = ~SA[i]] = j; } while(SA[--i] < 0);
- ISAb[SA[i]] = j;
- }
-
- /* Construct the inverse suffix array of type B* suffixes using trsort. */
- trsort(ISAb, SA, m, 1);
-
+/*
+ * divsufsort.c for libdivsufsort-lite
+ * Copyright (c) 2003-2008 Yuta Mori All Rights Reserved.
+ *
+ * Permission is hereby granted, free of charge, to any person
+ * obtaining a copy of this software and associated documentation
+ * files (the "Software"), to deal in the Software without
+ * restriction, including without limitation the rights to use,
+ * copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the
+ * Software is furnished to do so, subject to the following
+ * conditions:
+ *
+ * The above copyright notice and this permission notice shall be
+ * included in all copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
+ * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
+ * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
+ * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
+ * HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
+ * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
+ * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
+ * OTHER DEALINGS IN THE SOFTWARE.
+ */
+
+/*- Compiler specifics -*/
+#ifdef __clang__
+#pragma clang diagnostic ignored "-Wshorten-64-to-32"
+#endif
+
+#if defined(_MSC_VER)
+# pragma warning(disable : 4244)
+# pragma warning(disable : 4127) /* C4127 : Condition expression is constant */
+#endif
+
+
+/*- Dependencies -*/
+#include <assert.h>
+#include <stdio.h>
+#include <stdlib.h>
+
+#include "divsufsort.h"
+
+/*- Constants -*/
+#if defined(INLINE)
+# undef INLINE
+#endif
+#if !defined(INLINE)
+# define INLINE __inline
+#endif
+#if defined(ALPHABET_SIZE) && (ALPHABET_SIZE < 1)
+# undef ALPHABET_SIZE
+#endif
+#if !defined(ALPHABET_SIZE)
+# define ALPHABET_SIZE (256)
+#endif
+#define BUCKET_A_SIZE (ALPHABET_SIZE)
+#define BUCKET_B_SIZE (ALPHABET_SIZE * ALPHABET_SIZE)
+#if defined(SS_INSERTIONSORT_THRESHOLD)
+# if SS_INSERTIONSORT_THRESHOLD < 1
+# undef SS_INSERTIONSORT_THRESHOLD
+# define SS_INSERTIONSORT_THRESHOLD (1)
+# endif
+#else
+# define SS_INSERTIONSORT_THRESHOLD (8)
+#endif
+#if defined(SS_BLOCKSIZE)
+# if SS_BLOCKSIZE < 0
+# undef SS_BLOCKSIZE
+# define SS_BLOCKSIZE (0)
+# elif 32768 <= SS_BLOCKSIZE
+# undef SS_BLOCKSIZE
+# define SS_BLOCKSIZE (32767)
+# endif
+#else
+# define SS_BLOCKSIZE (1024)
+#endif
+/* minstacksize = log(SS_BLOCKSIZE) / log(3) * 2 */
+#if SS_BLOCKSIZE == 0
+# define SS_MISORT_STACKSIZE (96)
+#elif SS_BLOCKSIZE <= 4096
+# define SS_MISORT_STACKSIZE (16)
+#else
+# define SS_MISORT_STACKSIZE (24)
+#endif
+#define SS_SMERGE_STACKSIZE (32)
+#define TR_INSERTIONSORT_THRESHOLD (8)
+#define TR_STACKSIZE (64)
+
+
+/*- Macros -*/
+#ifndef SWAP
+# define SWAP(_a, _b) do { t = (_a); (_a) = (_b); (_b) = t; } while(0)
+#endif /* SWAP */
+#ifndef MIN
+# define MIN(_a, _b) (((_a) < (_b)) ? (_a) : (_b))
+#endif /* MIN */
+#ifndef MAX
+# define MAX(_a, _b) (((_a) > (_b)) ? (_a) : (_b))
+#endif /* MAX */
+#define STACK_PUSH(_a, _b, _c, _d)\
+ do {\
+ assert(ssize < STACK_SIZE);\
+ stack[ssize].a = (_a), stack[ssize].b = (_b),\
+ stack[ssize].c = (_c), stack[ssize++].d = (_d);\
+ } while(0)
+#define STACK_PUSH5(_a, _b, _c, _d, _e)\
+ do {\
+ assert(ssize < STACK_SIZE);\
+ stack[ssize].a = (_a), stack[ssize].b = (_b),\
+ stack[ssize].c = (_c), stack[ssize].d = (_d), stack[ssize++].e = (_e);\
+ } while(0)
+#define STACK_POP(_a, _b, _c, _d)\
+ do {\
+ assert(0 <= ssize);\
+ if(ssize == 0) { return; }\
+ (_a) = stack[--ssize].a, (_b) = stack[ssize].b,\
+ (_c) = stack[ssize].c, (_d) = stack[ssize].d;\
+ } while(0)
+#define STACK_POP5(_a, _b, _c, _d, _e)\
+ do {\
+ assert(0 <= ssize);\
+ if(ssize == 0) { return; }\
+ (_a) = stack[--ssize].a, (_b) = stack[ssize].b,\
+ (_c) = stack[ssize].c, (_d) = stack[ssize].d, (_e) = stack[ssize].e;\
+ } while(0)
+#define BUCKET_A(_c0) bucket_A[(_c0)]
+#if ALPHABET_SIZE == 256
+#define BUCKET_B(_c0, _c1) (bucket_B[((_c1) << 8) | (_c0)])
+#define BUCKET_BSTAR(_c0, _c1) (bucket_B[((_c0) << 8) | (_c1)])
+#else
+#define BUCKET_B(_c0, _c1) (bucket_B[(_c1) * ALPHABET_SIZE + (_c0)])
+#define BUCKET_BSTAR(_c0, _c1) (bucket_B[(_c0) * ALPHABET_SIZE + (_c1)])
+#endif
+
+
+/*- Private Functions -*/
+
+static const int lg_table[256]= {
+ -1,0,1,1,2,2,2,2,3,3,3,3,3,3,3,3,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
+ 5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,
+ 6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,
+ 6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,
+ 7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,
+ 7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,
+ 7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,
+ 7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7
+};
+
+#if (SS_BLOCKSIZE == 0) || (SS_INSERTIONSORT_THRESHOLD < SS_BLOCKSIZE)
+
+static INLINE
+int
+ss_ilg(int n) {
+#if SS_BLOCKSIZE == 0
+ return (n & 0xffff0000) ?
+ ((n & 0xff000000) ?
+ 24 + lg_table[(n >> 24) & 0xff] :
+ 16 + lg_table[(n >> 16) & 0xff]) :
+ ((n & 0x0000ff00) ?
+ 8 + lg_table[(n >> 8) & 0xff] :
+ 0 + lg_table[(n >> 0) & 0xff]);
+#elif SS_BLOCKSIZE < 256
+ return lg_table[n];
+#else
+ return (n & 0xff00) ?
+ 8 + lg_table[(n >> 8) & 0xff] :
+ 0 + lg_table[(n >> 0) & 0xff];
+#endif
+}
+
+#endif /* (SS_BLOCKSIZE == 0) || (SS_INSERTIONSORT_THRESHOLD < SS_BLOCKSIZE) */
+
+#if SS_BLOCKSIZE != 0
+
+static const int sqq_table[256] = {
+ 0, 16, 22, 27, 32, 35, 39, 42, 45, 48, 50, 53, 55, 57, 59, 61,
+ 64, 65, 67, 69, 71, 73, 75, 76, 78, 80, 81, 83, 84, 86, 87, 89,
+ 90, 91, 93, 94, 96, 97, 98, 99, 101, 102, 103, 104, 106, 107, 108, 109,
+110, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126,
+128, 128, 129, 130, 131, 132, 133, 134, 135, 136, 137, 138, 139, 140, 141, 142,
+143, 144, 144, 145, 146, 147, 148, 149, 150, 150, 151, 152, 153, 154, 155, 155,
+156, 157, 158, 159, 160, 160, 161, 162, 163, 163, 164, 165, 166, 167, 167, 168,
+169, 170, 170, 171, 172, 173, 173, 174, 175, 176, 176, 177, 178, 178, 179, 180,
+181, 181, 182, 183, 183, 184, 185, 185, 186, 187, 187, 188, 189, 189, 190, 191,
+192, 192, 193, 193, 194, 195, 195, 196, 197, 197, 198, 199, 199, 200, 201, 201,
+202, 203, 203, 204, 204, 205, 206, 206, 207, 208, 208, 209, 209, 210, 211, 211,
+212, 212, 213, 214, 214, 215, 215, 216, 217, 217, 218, 218, 219, 219, 220, 221,
+221, 222, 222, 223, 224, 224, 225, 225, 226, 226, 227, 227, 228, 229, 229, 230,
+230, 231, 231, 232, 232, 233, 234, 234, 235, 235, 236, 236, 237, 237, 238, 238,
+239, 240, 240, 241, 241, 242, 242, 243, 243, 244, 244, 245, 245, 246, 246, 247,
+247, 248, 248, 249, 249, 250, 250, 251, 251, 252, 252, 253, 253, 254, 254, 255
+};
+
+static INLINE
+int
+ss_isqrt(int x) {
+ int y, e;
+
+ if(x >= (SS_BLOCKSIZE * SS_BLOCKSIZE)) { return SS_BLOCKSIZE; }
+ e = (x & 0xffff0000) ?
+ ((x & 0xff000000) ?
+ 24 + lg_table[(x >> 24) & 0xff] :
+ 16 + lg_table[(x >> 16) & 0xff]) :
+ ((x & 0x0000ff00) ?
+ 8 + lg_table[(x >> 8) & 0xff] :
+ 0 + lg_table[(x >> 0) & 0xff]);
+
+ if(e >= 16) {
+ y = sqq_table[x >> ((e - 6) - (e & 1))] << ((e >> 1) - 7);
+ if(e >= 24) { y = (y + 1 + x / y) >> 1; }
+ y = (y + 1 + x / y) >> 1;
+ } else if(e >= 8) {
+ y = (sqq_table[x >> ((e - 6) - (e & 1))] >> (7 - (e >> 1))) + 1;
+ } else {
+ return sqq_table[x] >> 4;
+ }
+
+ return (x < (y * y)) ? y - 1 : y;
+}
+
+#endif /* SS_BLOCKSIZE != 0 */
+
+
+/*---------------------------------------------------------------------------*/
+
+/* Compares two suffixes. */
+static INLINE
+int
+ss_compare(const unsigned char *T,
+ const int *p1, const int *p2,
+ int depth) {
+ const unsigned char *U1, *U2, *U1n, *U2n;
+
+ for(U1 = T + depth + *p1,
+ U2 = T + depth + *p2,
+ U1n = T + *(p1 + 1) + 2,
+ U2n = T + *(p2 + 1) + 2;
+ (U1 < U1n) && (U2 < U2n) && (*U1 == *U2);
+ ++U1, ++U2) {
+ }
+
+ return U1 < U1n ?
+ (U2 < U2n ? *U1 - *U2 : 1) :
+ (U2 < U2n ? -1 : 0);
+}
+
+
+/*---------------------------------------------------------------------------*/
+
+#if (SS_BLOCKSIZE != 1) && (SS_INSERTIONSORT_THRESHOLD != 1)
+
+/* Insertionsort for small size groups */
+static
+void
+ss_insertionsort(const unsigned char *T, const int *PA,
+ int *first, int *last, int depth) {
+ int *i, *j;
+ int t;
+ int r;
+
+ for(i = last - 2; first <= i; --i) {
+ for(t = *i, j = i + 1; 0 < (r = ss_compare(T, PA + t, PA + *j, depth));) {
+ do { *(j - 1) = *j; } while((++j < last) && (*j < 0));
+ if(last <= j) { break; }
+ }
+ if(r == 0) { *j = ~*j; }
+ *(j - 1) = t;
+ }
+}
+
+#endif /* (SS_BLOCKSIZE != 1) && (SS_INSERTIONSORT_THRESHOLD != 1) */
+
+
+/*---------------------------------------------------------------------------*/
+
+#if (SS_BLOCKSIZE == 0) || (SS_INSERTIONSORT_THRESHOLD < SS_BLOCKSIZE)
+
+static INLINE
+void
+ss_fixdown(const unsigned char *Td, const int *PA,
+ int *SA, int i, int size) {
+ int j, k;
+ int v;
+ int c, d, e;
+
+ for(v = SA[i], c = Td[PA[v]]; (j = 2 * i + 1) < size; SA[i] = SA[k], i = k) {
+ d = Td[PA[SA[k = j++]]];
+ if(d < (e = Td[PA[SA[j]]])) { k = j; d = e; }
+ if(d <= c) { break; }
+ }
+ SA[i] = v;
+}
+
+/* Simple top-down heapsort. */
+static
+void
+ss_heapsort(const unsigned char *Td, const int *PA, int *SA, int size) {
+ int i, m;
+ int t;
+
+ m = size;
+ if((size % 2) == 0) {
+ m--;
+ if(Td[PA[SA[m / 2]]] < Td[PA[SA[m]]]) { SWAP(SA[m], SA[m / 2]); }
+ }
+
+ for(i = m / 2 - 1; 0 <= i; --i) { ss_fixdown(Td, PA, SA, i, m); }
+ if((size % 2) == 0) { SWAP(SA[0], SA[m]); ss_fixdown(Td, PA, SA, 0, m); }
+ for(i = m - 1; 0 < i; --i) {
+ t = SA[0], SA[0] = SA[i];
+ ss_fixdown(Td, PA, SA, 0, i);
+ SA[i] = t;
+ }
+}
+
+
+/*---------------------------------------------------------------------------*/
+
+/* Returns the median of three elements. */
+static INLINE
+int *
+ss_median3(const unsigned char *Td, const int *PA,
+ int *v1, int *v2, int *v3) {
+ int *t;
+ if(Td[PA[*v1]] > Td[PA[*v2]]) { SWAP(v1, v2); }
+ if(Td[PA[*v2]] > Td[PA[*v3]]) {
+ if(Td[PA[*v1]] > Td[PA[*v3]]) { return v1; }
+ else { return v3; }
+ }
+ return v2;
+}
+
+/* Returns the median of five elements. */
+static INLINE
+int *
+ss_median5(const unsigned char *Td, const int *PA,
+ int *v1, int *v2, int *v3, int *v4, int *v5) {
+ int *t;
+ if(Td[PA[*v2]] > Td[PA[*v3]]) { SWAP(v2, v3); }
+ if(Td[PA[*v4]] > Td[PA[*v5]]) { SWAP(v4, v5); }
+ if(Td[PA[*v2]] > Td[PA[*v4]]) { SWAP(v2, v4); SWAP(v3, v5); }
+ if(Td[PA[*v1]] > Td[PA[*v3]]) { SWAP(v1, v3); }
+ if(Td[PA[*v1]] > Td[PA[*v4]]) { SWAP(v1, v4); SWAP(v3, v5); }
+ if(Td[PA[*v3]] > Td[PA[*v4]]) { return v4; }
+ return v3;
+}
+
+/* Returns the pivot element. */
+static INLINE
+int *
+ss_pivot(const unsigned char *Td, const int *PA, int *first, int *last) {
+ int *middle;
+ int t;
+
+ t = last - first;
+ middle = first + t / 2;
+
+ if(t <= 512) {
+ if(t <= 32) {
+ return ss_median3(Td, PA, first, middle, last - 1);
+ } else {
+ t >>= 2;
+ return ss_median5(Td, PA, first, first + t, middle, last - 1 - t, last - 1);
+ }
+ }
+ t >>= 3;
+ first = ss_median3(Td, PA, first, first + t, first + (t << 1));
+ middle = ss_median3(Td, PA, middle - t, middle, middle + t);
+ last = ss_median3(Td, PA, last - 1 - (t << 1), last - 1 - t, last - 1);
+ return ss_median3(Td, PA, first, middle, last);
+}
+
+
+/*---------------------------------------------------------------------------*/
+
+/* Binary partition for substrings. */
+static INLINE
+int *
+ss_partition(const int *PA,
+ int *first, int *last, int depth) {
+ int *a, *b;
+ int t;
+ for(a = first - 1, b = last;;) {
+ for(; (++a < b) && ((PA[*a] + depth) >= (PA[*a + 1] + 1));) { *a = ~*a; }
+ for(; (a < --b) && ((PA[*b] + depth) < (PA[*b + 1] + 1));) { }
+ if(b <= a) { break; }
+ t = ~*b;
+ *b = *a;
+ *a = t;
+ }
+ if(first < a) { *first = ~*first; }
+ return a;
+}
+
+/* Multikey introsort for medium size groups. */
+static
+void
+ss_mintrosort(const unsigned char *T, const int *PA,
+ int *first, int *last,
+ int depth) {
+#define STACK_SIZE SS_MISORT_STACKSIZE
+ struct { int *a, *b, c; int d; } stack[STACK_SIZE];
+ const unsigned char *Td;
+ int *a, *b, *c, *d, *e, *f;
+ int s, t;
+ int ssize;
+ int limit;
+ int v, x = 0;
+
+ for(ssize = 0, limit = ss_ilg(last - first);;) {
+
+ if((last - first) <= SS_INSERTIONSORT_THRESHOLD) {
+#if 1 < SS_INSERTIONSORT_THRESHOLD
+ if(1 < (last - first)) { ss_insertionsort(T, PA, first, last, depth); }
+#endif
+ STACK_POP(first, last, depth, limit);
+ continue;
+ }
+
+ Td = T + depth;
+ if(limit-- == 0) { ss_heapsort(Td, PA, first, last - first); }
+ if(limit < 0) {
+ for(a = first + 1, v = Td[PA[*first]]; a < last; ++a) {
+ if((x = Td[PA[*a]]) != v) {
+ if(1 < (a - first)) { break; }
+ v = x;
+ first = a;
+ }
+ }
+ if(Td[PA[*first] - 1] < v) {
+ first = ss_partition(PA, first, a, depth);
+ }
+ if((a - first) <= (last - a)) {
+ if(1 < (a - first)) {
+ STACK_PUSH(a, last, depth, -1);
+ last = a, depth += 1, limit = ss_ilg(a - first);
+ } else {
+ first = a, limit = -1;
+ }
+ } else {
+ if(1 < (last - a)) {
+ STACK_PUSH(first, a, depth + 1, ss_ilg(a - first));
+ first = a, limit = -1;
+ } else {
+ last = a, depth += 1, limit = ss_ilg(a - first);
+ }
+ }
+ continue;
+ }
+
+ /* choose pivot */
+ a = ss_pivot(Td, PA, first, last);
+ v = Td[PA[*a]];
+ SWAP(*first, *a);
+
+ /* partition */
+ for(b = first; (++b < last) && ((x = Td[PA[*b]]) == v);) { }
+ if(((a = b) < last) && (x < v)) {
+ for(; (++b < last) && ((x = Td[PA[*b]]) <= v);) {
+ if(x == v) { SWAP(*b, *a); ++a; }
+ }
+ }
+ for(c = last; (b < --c) && ((x = Td[PA[*c]]) == v);) { }
+ if((b < (d = c)) && (x > v)) {
+ for(; (b < --c) && ((x = Td[PA[*c]]) >= v);) {
+ if(x == v) { SWAP(*c, *d); --d; }
+ }
+ }
+ for(; b < c;) {
+ SWAP(*b, *c);
+ for(; (++b < c) && ((x = Td[PA[*b]]) <= v);) {
+ if(x == v) { SWAP(*b, *a); ++a; }
+ }
+ for(; (b < --c) && ((x = Td[PA[*c]]) >= v);) {
+ if(x == v) { SWAP(*c, *d); --d; }
+ }
+ }
+
+ if(a <= d) {
+ c = b - 1;
+
+ if((s = a - first) > (t = b - a)) { s = t; }
+ for(e = first, f = b - s; 0 < s; --s, ++e, ++f) { SWAP(*e, *f); }
+ if((s = d - c) > (t = last - d - 1)) { s = t; }
+ for(e = b, f = last - s; 0 < s; --s, ++e, ++f) { SWAP(*e, *f); }
+
+ a = first + (b - a), c = last - (d - c);
+ b = (v <= Td[PA[*a] - 1]) ? a : ss_partition(PA, a, c, depth);
+
+ if((a - first) <= (last - c)) {
+ if((last - c) <= (c - b)) {
+ STACK_PUSH(b, c, depth + 1, ss_ilg(c - b));
+ STACK_PUSH(c, last, depth, limit);
+ last = a;
+ } else if((a - first) <= (c - b)) {
+ STACK_PUSH(c, last, depth, limit);
+ STACK_PUSH(b, c, depth + 1, ss_ilg(c - b));
+ last = a;
+ } else {
+ STACK_PUSH(c, last, depth, limit);
+ STACK_PUSH(first, a, depth, limit);
+ first = b, last = c, depth += 1, limit = ss_ilg(c - b);
+ }
+ } else {
+ if((a - first) <= (c - b)) {
+ STACK_PUSH(b, c, depth + 1, ss_ilg(c - b));
+ STACK_PUSH(first, a, depth, limit);
+ first = c;
+ } else if((last - c) <= (c - b)) {
+ STACK_PUSH(first, a, depth, limit);
+ STACK_PUSH(b, c, depth + 1, ss_ilg(c - b));
+ first = c;
+ } else {
+ STACK_PUSH(first, a, depth, limit);
+ STACK_PUSH(c, last, depth, limit);
+ first = b, last = c, depth += 1, limit = ss_ilg(c - b);
+ }
+ }
+ } else {
+ limit += 1;
+ if(Td[PA[*first] - 1] < v) {
+ first = ss_partition(PA, first, last, depth);
+ limit = ss_ilg(last - first);
+ }
+ depth += 1;
+ }
+ }
+#undef STACK_SIZE
+}
+
+#endif /* (SS_BLOCKSIZE == 0) || (SS_INSERTIONSORT_THRESHOLD < SS_BLOCKSIZE) */
+
+
+/*---------------------------------------------------------------------------*/
+
+#if SS_BLOCKSIZE != 0
+
+static INLINE
+void
+ss_blockswap(int *a, int *b, int n) {
+ int t;
+ for(; 0 < n; --n, ++a, ++b) {
+ t = *a, *a = *b, *b = t;
+ }
+}
+
+static INLINE
+void
+ss_rotate(int *first, int *middle, int *last) {
+ int *a, *b, t;
+ int l, r;
+ l = middle - first, r = last - middle;
+ for(; (0 < l) && (0 < r);) {
+ if(l == r) { ss_blockswap(first, middle, l); break; }
+ if(l < r) {
+ a = last - 1, b = middle - 1;
+ t = *a;
+ do {
+ *a-- = *b, *b-- = *a;
+ if(b < first) {
+ *a = t;
+ last = a;
+ if((r -= l + 1) <= l) { break; }
+ a -= 1, b = middle - 1;
+ t = *a;
+ }
+ } while(1);
+ } else {
+ a = first, b = middle;
+ t = *a;
+ do {
+ *a++ = *b, *b++ = *a;
+ if(last <= b) {
+ *a = t;
+ first = a + 1;
+ if((l -= r + 1) <= r) { break; }
+ a += 1, b = middle;
+ t = *a;
+ }
+ } while(1);
+ }
+ }
+}
+
+
+/*---------------------------------------------------------------------------*/
+
+static
+void
+ss_inplacemerge(const unsigned char *T, const int *PA,
+ int *first, int *middle, int *last,
+ int depth) {
+ const int *p;
+ int *a, *b;
+ int len, half;
+ int q, r;
+ int x;
+
+ for(;;) {
+ if(*(last - 1) < 0) { x = 1; p = PA + ~*(last - 1); }
+ else { x = 0; p = PA + *(last - 1); }
+ for(a = first, len = middle - first, half = len >> 1, r = -1;
+ 0 < len;
+ len = half, half >>= 1) {
+ b = a + half;
+ q = ss_compare(T, PA + ((0 <= *b) ? *b : ~*b), p, depth);
+ if(q < 0) {
+ a = b + 1;
+ half -= (len & 1) ^ 1;
+ } else {
+ r = q;
+ }
+ }
+ if(a < middle) {
+ if(r == 0) { *a = ~*a; }
+ ss_rotate(a, middle, last);
+ last -= middle - a;
+ middle = a;
+ if(first == middle) { break; }
+ }
+ --last;
+ if(x != 0) { while(*--last < 0) { } }
+ if(middle == last) { break; }
+ }
+}
+
+
+/*---------------------------------------------------------------------------*/
+
+/* Merge-forward with internal buffer. */
+static
+void
+ss_mergeforward(const unsigned char *T, const int *PA,
+ int *first, int *middle, int *last,
+ int *buf, int depth) {
+ int *a, *b, *c, *bufend;
+ int t;
+ int r;
+
+ bufend = buf + (middle - first) - 1;
+ ss_blockswap(buf, first, middle - first);
+
+ for(t = *(a = first), b = buf, c = middle;;) {
+ r = ss_compare(T, PA + *b, PA + *c, depth);
+ if(r < 0) {
+ do {
+ *a++ = *b;
+ if(bufend <= b) { *bufend = t; return; }
+ *b++ = *a;
+ } while(*b < 0);
+ } else if(r > 0) {
+ do {
+ *a++ = *c, *c++ = *a;
+ if(last <= c) {
+ while(b < bufend) { *a++ = *b, *b++ = *a; }
+ *a = *b, *b = t;
+ return;
+ }
+ } while(*c < 0);
+ } else {
+ *c = ~*c;
+ do {
+ *a++ = *b;
+ if(bufend <= b) { *bufend = t; return; }
+ *b++ = *a;
+ } while(*b < 0);
+
+ do {
+ *a++ = *c, *c++ = *a;
+ if(last <= c) {
+ while(b < bufend) { *a++ = *b, *b++ = *a; }
+ *a = *b, *b = t;
+ return;
+ }
+ } while(*c < 0);
+ }
+ }
+}
+
+/* Merge-backward with internal buffer. */
+static
+void
+ss_mergebackward(const unsigned char *T, const int *PA,
+ int *first, int *middle, int *last,
+ int *buf, int depth) {
+ const int *p1, *p2;
+ int *a, *b, *c, *bufend;
+ int t;
+ int r;
+ int x;
+
+ bufend = buf + (last - middle) - 1;
+ ss_blockswap(buf, middle, last - middle);
+
+ x = 0;
+ if(*bufend < 0) { p1 = PA + ~*bufend; x |= 1; }
+ else { p1 = PA + *bufend; }
+ if(*(middle - 1) < 0) { p2 = PA + ~*(middle - 1); x |= 2; }
+ else { p2 = PA + *(middle - 1); }
+ for(t = *(a = last - 1), b = bufend, c = middle - 1;;) {
+ r = ss_compare(T, p1, p2, depth);
+ if(0 < r) {
+ if(x & 1) { do { *a-- = *b, *b-- = *a; } while(*b < 0); x ^= 1; }
+ *a-- = *b;
+ if(b <= buf) { *buf = t; break; }
+ *b-- = *a;
+ if(*b < 0) { p1 = PA + ~*b; x |= 1; }
+ else { p1 = PA + *b; }
+ } else if(r < 0) {
+ if(x & 2) { do { *a-- = *c, *c-- = *a; } while(*c < 0); x ^= 2; }
+ *a-- = *c, *c-- = *a;
+ if(c < first) {
+ while(buf < b) { *a-- = *b, *b-- = *a; }
+ *a = *b, *b = t;
+ break;
+ }
+ if(*c < 0) { p2 = PA + ~*c; x |= 2; }
+ else { p2 = PA + *c; }
+ } else {
+ if(x & 1) { do { *a-- = *b, *b-- = *a; } while(*b < 0); x ^= 1; }
+ *a-- = ~*b;
+ if(b <= buf) { *buf = t; break; }
+ *b-- = *a;
+ if(x & 2) { do { *a-- = *c, *c-- = *a; } while(*c < 0); x ^= 2; }
+ *a-- = *c, *c-- = *a;
+ if(c < first) {
+ while(buf < b) { *a-- = *b, *b-- = *a; }
+ *a = *b, *b = t;
+ break;
+ }
+ if(*b < 0) { p1 = PA + ~*b; x |= 1; }
+ else { p1 = PA + *b; }
+ if(*c < 0) { p2 = PA + ~*c; x |= 2; }
+ else { p2 = PA + *c; }
+ }
+ }
+}
+
+/* D&C based merge. */
+static
+void
+ss_swapmerge(const unsigned char *T, const int *PA,
+ int *first, int *middle, int *last,
+ int *buf, int bufsize, int depth) {
+#define STACK_SIZE SS_SMERGE_STACKSIZE
+#define GETIDX(a) ((0 <= (a)) ? (a) : (~(a)))
+#define MERGE_CHECK(a, b, c)\
+ do {\
+ if(((c) & 1) ||\
+ (((c) & 2) && (ss_compare(T, PA + GETIDX(*((a) - 1)), PA + *(a), depth) == 0))) {\
+ *(a) = ~*(a);\
+ }\
+ if(((c) & 4) && ((ss_compare(T, PA + GETIDX(*((b) - 1)), PA + *(b), depth) == 0))) {\
+ *(b) = ~*(b);\
+ }\
+ } while(0)
+ struct { int *a, *b, *c; int d; } stack[STACK_SIZE];
+ int *l, *r, *lm, *rm;
+ int m, len, half;
+ int ssize;
+ int check, next;
+
+ for(check = 0, ssize = 0;;) {
+ if((last - middle) <= bufsize) {
+ if((first < middle) && (middle < last)) {
+ ss_mergebackward(T, PA, first, middle, last, buf, depth);
+ }
+ MERGE_CHECK(first, last, check);
+ STACK_POP(first, middle, last, check);
+ continue;
+ }
+
+ if((middle - first) <= bufsize) {
+ if(first < middle) {
+ ss_mergeforward(T, PA, first, middle, last, buf, depth);
+ }
+ MERGE_CHECK(first, last, check);
+ STACK_POP(first, middle, last, check);
+ continue;
+ }
+
+ for(m = 0, len = MIN(middle - first, last - middle), half = len >> 1;
+ 0 < len;
+ len = half, half >>= 1) {
+ if(ss_compare(T, PA + GETIDX(*(middle + m + half)),
+ PA + GETIDX(*(middle - m - half - 1)), depth) < 0) {
+ m += half + 1;
+ half -= (len & 1) ^ 1;
+ }
+ }
+
+ if(0 < m) {
+ lm = middle - m, rm = middle + m;
+ ss_blockswap(lm, middle, m);
+ l = r = middle, next = 0;
+ if(rm < last) {
+ if(*rm < 0) {
+ *rm = ~*rm;
+ if(first < lm) { for(; *--l < 0;) { } next |= 4; }
+ next |= 1;
+ } else if(first < lm) {
+ for(; *r < 0; ++r) { }
+ next |= 2;
+ }
+ }
+
+ if((l - first) <= (last - r)) {
+ STACK_PUSH(r, rm, last, (next & 3) | (check & 4));
+ middle = lm, last = l, check = (check & 3) | (next & 4);
+ } else {
+ if((next & 2) && (r == middle)) { next ^= 6; }
+ STACK_PUSH(first, lm, l, (check & 3) | (next & 4));
+ first = r, middle = rm, check = (next & 3) | (check & 4);
+ }
+ } else {
+ if(ss_compare(T, PA + GETIDX(*(middle - 1)), PA + *middle, depth) == 0) {
+ *middle = ~*middle;
+ }
+ MERGE_CHECK(first, last, check);
+ STACK_POP(first, middle, last, check);
+ }
+ }
+#undef STACK_SIZE
+}
+
+#endif /* SS_BLOCKSIZE != 0 */
+
+
+/*---------------------------------------------------------------------------*/
+
+/* Substring sort */
+static
+void
+sssort(const unsigned char *T, const int *PA,
+ int *first, int *last,
+ int *buf, int bufsize,
+ int depth, int n, int lastsuffix) {
+ int *a;
+#if SS_BLOCKSIZE != 0
+ int *b, *middle, *curbuf;
+ int j, k, curbufsize, limit;
+#endif
+ int i;
+
+ if(lastsuffix != 0) { ++first; }
+
+#if SS_BLOCKSIZE == 0
+ ss_mintrosort(T, PA, first, last, depth);
+#else
+ if((bufsize < SS_BLOCKSIZE) &&
+ (bufsize < (last - first)) &&
+ (bufsize < (limit = ss_isqrt(last - first)))) {
+ if(SS_BLOCKSIZE < limit) { limit = SS_BLOCKSIZE; }
+ buf = middle = last - limit, bufsize = limit;
+ } else {
+ middle = last, limit = 0;
+ }
+ for(a = first, i = 0; SS_BLOCKSIZE < (middle - a); a += SS_BLOCKSIZE, ++i) {
+#if SS_INSERTIONSORT_THRESHOLD < SS_BLOCKSIZE
+ ss_mintrosort(T, PA, a, a + SS_BLOCKSIZE, depth);
+#elif 1 < SS_BLOCKSIZE
+ ss_insertionsort(T, PA, a, a + SS_BLOCKSIZE, depth);
+#endif
+ curbufsize = last - (a + SS_BLOCKSIZE);
+ curbuf = a + SS_BLOCKSIZE;
+ if(curbufsize <= bufsize) { curbufsize = bufsize, curbuf = buf; }
+ for(b = a, k = SS_BLOCKSIZE, j = i; j & 1; b -= k, k <<= 1, j >>= 1) {
+ ss_swapmerge(T, PA, b - k, b, b + k, curbuf, curbufsize, depth);
+ }
+ }
+#if SS_INSERTIONSORT_THRESHOLD < SS_BLOCKSIZE
+ ss_mintrosort(T, PA, a, middle, depth);
+#elif 1 < SS_BLOCKSIZE
+ ss_insertionsort(T, PA, a, middle, depth);
+#endif
+ for(k = SS_BLOCKSIZE; i != 0; k <<= 1, i >>= 1) {
+ if(i & 1) {
+ ss_swapmerge(T, PA, a - k, a, middle, buf, bufsize, depth);
+ a -= k;
+ }
+ }
+ if(limit != 0) {
+#if SS_INSERTIONSORT_THRESHOLD < SS_BLOCKSIZE
+ ss_mintrosort(T, PA, middle, last, depth);
+#elif 1 < SS_BLOCKSIZE
+ ss_insertionsort(T, PA, middle, last, depth);
+#endif
+ ss_inplacemerge(T, PA, first, middle, last, depth);
+ }
+#endif
+
+ if(lastsuffix != 0) {
+ /* Insert last type B* suffix. */
+ int PAi[2]; PAi[0] = PA[*(first - 1)], PAi[1] = n - 2;
+ for(a = first, i = *(first - 1);
+ (a < last) && ((*a < 0) || (0 < ss_compare(T, &(PAi[0]), PA + *a, depth)));
+ ++a) {
+ *(a - 1) = *a;
+ }
+ *(a - 1) = i;
+ }
+}
+
+
+/*---------------------------------------------------------------------------*/
+
+static INLINE
+int
+tr_ilg(int n) {
+ return (n & 0xffff0000) ?
+ ((n & 0xff000000) ?
+ 24 + lg_table[(n >> 24) & 0xff] :
+ 16 + lg_table[(n >> 16) & 0xff]) :
+ ((n & 0x0000ff00) ?
+ 8 + lg_table[(n >> 8) & 0xff] :
+ 0 + lg_table[(n >> 0) & 0xff]);
+}
+
+
+/*---------------------------------------------------------------------------*/
+
+/* Simple insertionsort for small size groups. */
+static
+void
+tr_insertionsort(const int *ISAd, int *first, int *last) {
+ int *a, *b;
+ int t, r;
+
+ for(a = first + 1; a < last; ++a) {
+ for(t = *a, b = a - 1; 0 > (r = ISAd[t] - ISAd[*b]);) {
+ do { *(b + 1) = *b; } while((first <= --b) && (*b < 0));
+ if(b < first) { break; }
+ }
+ if(r == 0) { *b = ~*b; }
+ *(b + 1) = t;
+ }
+}
+
+
+/*---------------------------------------------------------------------------*/
+
+static INLINE
+void
+tr_fixdown(const int *ISAd, int *SA, int i, int size) {
+ int j, k;
+ int v;
+ int c, d, e;
+
+ for(v = SA[i], c = ISAd[v]; (j = 2 * i + 1) < size; SA[i] = SA[k], i = k) {
+ d = ISAd[SA[k = j++]];
+ if(d < (e = ISAd[SA[j]])) { k = j; d = e; }
+ if(d <= c) { break; }
+ }
+ SA[i] = v;
+}
+
+/* Simple top-down heapsort. */
+static
+void
+tr_heapsort(const int *ISAd, int *SA, int size) {
+ int i, m;
+ int t;
+
+ m = size;
+ if((size % 2) == 0) {
+ m--;
+ if(ISAd[SA[m / 2]] < ISAd[SA[m]]) { SWAP(SA[m], SA[m / 2]); }
+ }
+
+ for(i = m / 2 - 1; 0 <= i; --i) { tr_fixdown(ISAd, SA, i, m); }
+ if((size % 2) == 0) { SWAP(SA[0], SA[m]); tr_fixdown(ISAd, SA, 0, m); }
+ for(i = m - 1; 0 < i; --i) {
+ t = SA[0], SA[0] = SA[i];
+ tr_fixdown(ISAd, SA, 0, i);
+ SA[i] = t;
+ }
+}
+
+
+/*---------------------------------------------------------------------------*/
+
+/* Returns the median of three elements. */
+static INLINE
+int *
+tr_median3(const int *ISAd, int *v1, int *v2, int *v3) {
+ int *t;
+ if(ISAd[*v1] > ISAd[*v2]) { SWAP(v1, v2); }
+ if(ISAd[*v2] > ISAd[*v3]) {
+ if(ISAd[*v1] > ISAd[*v3]) { return v1; }
+ else { return v3; }
+ }
+ return v2;
+}
+
+/* Returns the median of five elements. */
+static INLINE
+int *
+tr_median5(const int *ISAd,
+ int *v1, int *v2, int *v3, int *v4, int *v5) {
+ int *t;
+ if(ISAd[*v2] > ISAd[*v3]) { SWAP(v2, v3); }
+ if(ISAd[*v4] > ISAd[*v5]) { SWAP(v4, v5); }
+ if(ISAd[*v2] > ISAd[*v4]) { SWAP(v2, v4); SWAP(v3, v5); }
+ if(ISAd[*v1] > ISAd[*v3]) { SWAP(v1, v3); }
+ if(ISAd[*v1] > ISAd[*v4]) { SWAP(v1, v4); SWAP(v3, v5); }
+ if(ISAd[*v3] > ISAd[*v4]) { return v4; }
+ return v3;
+}
+
+/* Returns the pivot element. */
+static INLINE
+int *
+tr_pivot(const int *ISAd, int *first, int *last) {
+ int *middle;
+ int t;
+
+ t = last - first;
+ middle = first + t / 2;
+
+ if(t <= 512) {
+ if(t <= 32) {
+ return tr_median3(ISAd, first, middle, last - 1);
+ } else {
+ t >>= 2;
+ return tr_median5(ISAd, first, first + t, middle, last - 1 - t, last - 1);
+ }
+ }
+ t >>= 3;
+ first = tr_median3(ISAd, first, first + t, first + (t << 1));
+ middle = tr_median3(ISAd, middle - t, middle, middle + t);
+ last = tr_median3(ISAd, last - 1 - (t << 1), last - 1 - t, last - 1);
+ return tr_median3(ISAd, first, middle, last);
+}
+
+
+/*---------------------------------------------------------------------------*/
+
+typedef struct _trbudget_t trbudget_t;
+struct _trbudget_t {
+ int chance;
+ int remain;
+ int incval;
+ int count;
+};
+
+static INLINE
+void
+trbudget_init(trbudget_t *budget, int chance, int incval) {
+ budget->chance = chance;
+ budget->remain = budget->incval = incval;
+}
+
+static INLINE
+int
+trbudget_check(trbudget_t *budget, int size) {
+ if(size <= budget->remain) { budget->remain -= size; return 1; }
+ if(budget->chance == 0) { budget->count += size; return 0; }
+ budget->remain += budget->incval - size;
+ budget->chance -= 1;
+ return 1;
+}
+
+
+/*---------------------------------------------------------------------------*/
+
+static INLINE
+void
+tr_partition(const int *ISAd,
+ int *first, int *middle, int *last,
+ int **pa, int **pb, int v) {
+ int *a, *b, *c, *d, *e, *f;
+ int t, s;
+ int x = 0;
+
+ for(b = middle - 1; (++b < last) && ((x = ISAd[*b]) == v);) { }
+ if(((a = b) < last) && (x < v)) {
+ for(; (++b < last) && ((x = ISAd[*b]) <= v);) {
+ if(x == v) { SWAP(*b, *a); ++a; }
+ }
+ }
+ for(c = last; (b < --c) && ((x = ISAd[*c]) == v);) { }
+ if((b < (d = c)) && (x > v)) {
+ for(; (b < --c) && ((x = ISAd[*c]) >= v);) {
+ if(x == v) { SWAP(*c, *d); --d; }
+ }
+ }
+ for(; b < c;) {
+ SWAP(*b, *c);
+ for(; (++b < c) && ((x = ISAd[*b]) <= v);) {
+ if(x == v) { SWAP(*b, *a); ++a; }
+ }
+ for(; (b < --c) && ((x = ISAd[*c]) >= v);) {
+ if(x == v) { SWAP(*c, *d); --d; }
+ }
+ }
+
+ if(a <= d) {
+ c = b - 1;
+ if((s = a - first) > (t = b - a)) { s = t; }
+ for(e = first, f = b - s; 0 < s; --s, ++e, ++f) { SWAP(*e, *f); }
+ if((s = d - c) > (t = last - d - 1)) { s = t; }
+ for(e = b, f = last - s; 0 < s; --s, ++e, ++f) { SWAP(*e, *f); }
+ first += (b - a), last -= (d - c);
+ }
+ *pa = first, *pb = last;
+}
+
+static
+void
+tr_copy(int *ISA, const int *SA,
+ int *first, int *a, int *b, int *last,
+ int depth) {
+ /* sort suffixes of middle partition
+ by using sorted order of suffixes of left and right partition. */
+ int *c, *d, *e;
+ int s, v;
+
+ v = b - SA - 1;
+ for(c = first, d = a - 1; c <= d; ++c) {
+ if((0 <= (s = *c - depth)) && (ISA[s] == v)) {
+ *++d = s;
+ ISA[s] = d - SA;
+ }
+ }
+ for(c = last - 1, e = d + 1, d = b; e < d; --c) {
+ if((0 <= (s = *c - depth)) && (ISA[s] == v)) {
+ *--d = s;
+ ISA[s] = d - SA;
+ }
+ }
+}
+
+static
+void
+tr_partialcopy(int *ISA, const int *SA,
+ int *first, int *a, int *b, int *last,
+ int depth) {
+ int *c, *d, *e;
+ int s, v;
+ int rank, lastrank, newrank = -1;
+
+ v = b - SA - 1;
+ lastrank = -1;
+ for(c = first, d = a - 1; c <= d; ++c) {
+ if((0 <= (s = *c - depth)) && (ISA[s] == v)) {
+ *++d = s;
+ rank = ISA[s + depth];
+ if(lastrank != rank) { lastrank = rank; newrank = d - SA; }
+ ISA[s] = newrank;
+ }
+ }
+
+ lastrank = -1;
+ for(e = d; first <= e; --e) {
+ rank = ISA[*e];
+ if(lastrank != rank) { lastrank = rank; newrank = e - SA; }
+ if(newrank != rank) { ISA[*e] = newrank; }
+ }
+
+ lastrank = -1;
+ for(c = last - 1, e = d + 1, d = b; e < d; --c) {
+ if((0 <= (s = *c - depth)) && (ISA[s] == v)) {
+ *--d = s;
+ rank = ISA[s + depth];
+ if(lastrank != rank) { lastrank = rank; newrank = d - SA; }
+ ISA[s] = newrank;
+ }
+ }
+}
+
+static
+void
+tr_introsort(int *ISA, const int *ISAd,
+ int *SA, int *first, int *last,
+ trbudget_t *budget) {
+#define STACK_SIZE TR_STACKSIZE
+ struct { const int *a; int *b, *c; int d, e; }stack[STACK_SIZE];
+ int *a, *b, *c;
+ int t;
+ int v, x = 0;
+ int incr = ISAd - ISA;
+ int limit, next;
+ int ssize, trlink = -1;
+
+ for(ssize = 0, limit = tr_ilg(last - first);;) {
+
+ if(limit < 0) {
+ if(limit == -1) {
+ /* tandem repeat partition */
+ tr_partition(ISAd - incr, first, first, last, &a, &b, last - SA - 1);
+
+ /* update ranks */
+ if(a < last) {
+ for(c = first, v = a - SA - 1; c < a; ++c) { ISA[*c] = v; }
+ }
+ if(b < last) {
+ for(c = a, v = b - SA - 1; c < b; ++c) { ISA[*c] = v; }
+ }
+
+ /* push */
+ if(1 < (b - a)) {
+ STACK_PUSH5(NULL, a, b, 0, 0);
+ STACK_PUSH5(ISAd - incr, first, last, -2, trlink);
+ trlink = ssize - 2;
+ }
+ if((a - first) <= (last - b)) {
+ if(1 < (a - first)) {
+ STACK_PUSH5(ISAd, b, last, tr_ilg(last - b), trlink);
+ last = a, limit = tr_ilg(a - first);
+ } else if(1 < (last - b)) {
+ first = b, limit = tr_ilg(last - b);
+ } else {
+ STACK_POP5(ISAd, first, last, limit, trlink);
+ }
+ } else {
+ if(1 < (last - b)) {
+ STACK_PUSH5(ISAd, first, a, tr_ilg(a - first), trlink);
+ first = b, limit = tr_ilg(last - b);
+ } else if(1 < (a - first)) {
+ last = a, limit = tr_ilg(a - first);
+ } else {
+ STACK_POP5(ISAd, first, last, limit, trlink);
+ }
+ }
+ } else if(limit == -2) {
+ /* tandem repeat copy */
+ a = stack[--ssize].b, b = stack[ssize].c;
+ if(stack[ssize].d == 0) {
+ tr_copy(ISA, SA, first, a, b, last, ISAd - ISA);
+ } else {
+ if(0 <= trlink) { stack[trlink].d = -1; }
+ tr_partialcopy(ISA, SA, first, a, b, last, ISAd - ISA);
+ }
+ STACK_POP5(ISAd, first, last, limit, trlink);
+ } else {
+ /* sorted partition */
+ if(0 <= *first) {
+ a = first;
+ do { ISA[*a] = a - SA; } while((++a < last) && (0 <= *a));
+ first = a;
+ }
+ if(first < last) {
+ a = first; do { *a = ~*a; } while(*++a < 0);
+ next = (ISA[*a] != ISAd[*a]) ? tr_ilg(a - first + 1) : -1;
+ if(++a < last) { for(b = first, v = a - SA - 1; b < a; ++b) { ISA[*b] = v; } }
+
+ /* push */
+ if(trbudget_check(budget, a - first)) {
+ if((a - first) <= (last - a)) {
+ STACK_PUSH5(ISAd, a, last, -3, trlink);
+ ISAd += incr, last = a, limit = next;
+ } else {
+ if(1 < (last - a)) {
+ STACK_PUSH5(ISAd + incr, first, a, next, trlink);
+ first = a, limit = -3;
+ } else {
+ ISAd += incr, last = a, limit = next;
+ }
+ }
+ } else {
+ if(0 <= trlink) { stack[trlink].d = -1; }
+ if(1 < (last - a)) {
+ first = a, limit = -3;
+ } else {
+ STACK_POP5(ISAd, first, last, limit, trlink);
+ }
+ }
+ } else {
+ STACK_POP5(ISAd, first, last, limit, trlink);
+ }
+ }
+ continue;
+ }
+
+ if((last - first) <= TR_INSERTIONSORT_THRESHOLD) {
+ tr_insertionsort(ISAd, first, last);
+ limit = -3;
+ continue;
+ }
+
+ if(limit-- == 0) {
+ tr_heapsort(ISAd, first, last - first);
+ for(a = last - 1; first < a; a = b) {
+ for(x = ISAd[*a], b = a - 1; (first <= b) && (ISAd[*b] == x); --b) { *b = ~*b; }
+ }
+ limit = -3;
+ continue;
+ }
+
+ /* choose pivot */
+ a = tr_pivot(ISAd, first, last);
+ SWAP(*first, *a);
+ v = ISAd[*first];
+
+ /* partition */
+ tr_partition(ISAd, first, first + 1, last, &a, &b, v);
+ if((last - first) != (b - a)) {
+ next = (ISA[*a] != v) ? tr_ilg(b - a) : -1;
+
+ /* update ranks */
+ for(c = first, v = a - SA - 1; c < a; ++c) { ISA[*c] = v; }
+ if(b < last) { for(c = a, v = b - SA - 1; c < b; ++c) { ISA[*c] = v; } }
+
+ /* push */
+ if((1 < (b - a)) && (trbudget_check(budget, b - a))) {
+ if((a - first) <= (last - b)) {
+ if((last - b) <= (b - a)) {
+ if(1 < (a - first)) {
+ STACK_PUSH5(ISAd + incr, a, b, next, trlink);
+ STACK_PUSH5(ISAd, b, last, limit, trlink);
+ last = a;
+ } else if(1 < (last - b)) {
+ STACK_PUSH5(ISAd + incr, a, b, next, trlink);
+ first = b;
+ } else {
+ ISAd += incr, first = a, last = b, limit = next;
+ }
+ } else if((a - first) <= (b - a)) {
+ if(1 < (a - first)) {
+ STACK_PUSH5(ISAd, b, last, limit, trlink);
+ STACK_PUSH5(ISAd + incr, a, b, next, trlink);
+ last = a;
+ } else {
+ STACK_PUSH5(ISAd, b, last, limit, trlink);
+ ISAd += incr, first = a, last = b, limit = next;
+ }
+ } else {
+ STACK_PUSH5(ISAd, b, last, limit, trlink);
+ STACK_PUSH5(ISAd, first, a, limit, trlink);
+ ISAd += incr, first = a, last = b, limit = next;
+ }
+ } else {
+ if((a - first) <= (b - a)) {
+ if(1 < (last - b)) {
+ STACK_PUSH5(ISAd + incr, a, b, next, trlink);
+ STACK_PUSH5(ISAd, first, a, limit, trlink);
+ first = b;
+ } else if(1 < (a - first)) {
+ STACK_PUSH5(ISAd + incr, a, b, next, trlink);
+ last = a;
+ } else {
+ ISAd += incr, first = a, last = b, limit = next;
+ }
+ } else if((last - b) <= (b - a)) {
+ if(1 < (last - b)) {
+ STACK_PUSH5(ISAd, first, a, limit, trlink);
+ STACK_PUSH5(ISAd + incr, a, b, next, trlink);
+ first = b;
+ } else {
+ STACK_PUSH5(ISAd, first, a, limit, trlink);
+ ISAd += incr, first = a, last = b, limit = next;
+ }
+ } else {
+ STACK_PUSH5(ISAd, first, a, limit, trlink);
+ STACK_PUSH5(ISAd, b, last, limit, trlink);
+ ISAd += incr, first = a, last = b, limit = next;
+ }
+ }
+ } else {
+ if((1 < (b - a)) && (0 <= trlink)) { stack[trlink].d = -1; }
+ if((a - first) <= (last - b)) {
+ if(1 < (a - first)) {
+ STACK_PUSH5(ISAd, b, last, limit, trlink);
+ last = a;
+ } else if(1 < (last - b)) {
+ first = b;
+ } else {
+ STACK_POP5(ISAd, first, last, limit, trlink);
+ }
+ } else {
+ if(1 < (last - b)) {
+ STACK_PUSH5(ISAd, first, a, limit, trlink);
+ first = b;
+ } else if(1 < (a - first)) {
+ last = a;
+ } else {
+ STACK_POP5(ISAd, first, last, limit, trlink);
+ }
+ }
+ }
+ } else {
+ if(trbudget_check(budget, last - first)) {
+ limit = tr_ilg(last - first), ISAd += incr;
+ } else {
+ if(0 <= trlink) { stack[trlink].d = -1; }
+ STACK_POP5(ISAd, first, last, limit, trlink);
+ }
+ }
+ }
+#undef STACK_SIZE
+}
+
+
+
+/*---------------------------------------------------------------------------*/
+
+/* Tandem repeat sort */
+static
+void
+trsort(int *ISA, int *SA, int n, int depth) {
+ int *ISAd;
+ int *first, *last;
+ trbudget_t budget;
+ int t, skip, unsorted;
+
+ trbudget_init(&budget, tr_ilg(n) * 2 / 3, n);
+/* trbudget_init(&budget, tr_ilg(n) * 3 / 4, n); */
+ for(ISAd = ISA + depth; -n < *SA; ISAd += ISAd - ISA) {
+ first = SA;
+ skip = 0;
+ unsorted = 0;
+ do {
+ if((t = *first) < 0) { first -= t; skip += t; }
+ else {
+ if(skip != 0) { *(first + skip) = skip; skip = 0; }
+ last = SA + ISA[t] + 1;
+ if(1 < (last - first)) {
+ budget.count = 0;
+ tr_introsort(ISA, ISAd, SA, first, last, &budget);
+ if(budget.count != 0) { unsorted += budget.count; }
+ else { skip = first - last; }
+ } else if((last - first) == 1) {
+ skip = -1;
+ }
+ first = last;
+ }
+ } while(first < (SA + n));
+ if(skip != 0) { *(first + skip) = skip; }
+ if(unsorted == 0) { break; }
+ }
+}
+
+
+/*---------------------------------------------------------------------------*/
+
+/* Sorts suffixes of type B*. */
+static
+int
+sort_typeBstar(const unsigned char *T, int *SA,
+ int *bucket_A, int *bucket_B,
+ int n, int openMP) {
+ int *PAb, *ISAb, *buf;
+#ifdef LIBBSC_OPENMP
+ int *curbuf;
+ int l;
+#endif
+ int i, j, k, t, m, bufsize;
+ int c0, c1;
+#ifdef LIBBSC_OPENMP
+ int d0, d1;
+#endif
+ (void)openMP;
+
+ /* Initialize bucket arrays. */
+ for(i = 0; i < BUCKET_A_SIZE; ++i) { bucket_A[i] = 0; }
+ for(i = 0; i < BUCKET_B_SIZE; ++i) { bucket_B[i] = 0; }
+
+ /* Count the number of occurrences of the first one or two characters of each
+ type A, B and B* suffix. Moreover, store the beginning position of all
+ type B* suffixes into the array SA. */
+ for(i = n - 1, m = n, c0 = T[n - 1]; 0 <= i;) {
+ /* type A suffix. */
+ do { ++BUCKET_A(c1 = c0); } while((0 <= --i) && ((c0 = T[i]) >= c1));
+ if(0 <= i) {
+ /* type B* suffix. */
+ ++BUCKET_BSTAR(c0, c1);
+ SA[--m] = i;
+ /* type B suffix. */
+ for(--i, c1 = c0; (0 <= i) && ((c0 = T[i]) <= c1); --i, c1 = c0) {
+ ++BUCKET_B(c0, c1);
+ }
+ }
+ }
+ m = n - m;
+/*
+note:
+ A type B* suffix is lexicographically smaller than a type B suffix that
+ begins with the same first two characters.
+*/
+
+ /* Calculate the index of start/end point of each bucket. */
+ for(c0 = 0, i = 0, j = 0; c0 < ALPHABET_SIZE; ++c0) {
+ t = i + BUCKET_A(c0);
+ BUCKET_A(c0) = i + j; /* start point */
+ i = t + BUCKET_B(c0, c0);
+ for(c1 = c0 + 1; c1 < ALPHABET_SIZE; ++c1) {
+ j += BUCKET_BSTAR(c0, c1);
+ BUCKET_BSTAR(c0, c1) = j; /* end point */
+ i += BUCKET_B(c0, c1);
+ }
+ }
+
+ if(0 < m) {
+ /* Sort the type B* suffixes by their first two characters. */
+ PAb = SA + n - m; ISAb = SA + m;
+ for(i = m - 2; 0 <= i; --i) {
+ t = PAb[i], c0 = T[t], c1 = T[t + 1];
+ SA[--BUCKET_BSTAR(c0, c1)] = i;
+ }
+ t = PAb[m - 1], c0 = T[t], c1 = T[t + 1];
+ SA[--BUCKET_BSTAR(c0, c1)] = m - 1;
+
+ /* Sort the type B* substrings using sssort. */
+#ifdef LIBBSC_OPENMP
+ if (openMP)
+ {
+ buf = SA + m;
+ c0 = ALPHABET_SIZE - 2, c1 = ALPHABET_SIZE - 1, j = m;
+#pragma omp parallel default(shared) private(bufsize, curbuf, k, l, d0, d1)
+ {
+ bufsize = (n - (2 * m)) / omp_get_num_threads();
+ curbuf = buf + omp_get_thread_num() * bufsize;
+ k = 0;
+ for(;;) {
+ #pragma omp critical(sssort_lock)
+ {
+ if(0 < (l = j)) {
+ d0 = c0, d1 = c1;
+ do {
+ k = BUCKET_BSTAR(d0, d1);
+ if(--d1 <= d0) {
+ d1 = ALPHABET_SIZE - 1;
+ if(--d0 < 0) { break; }
+ }
+ } while(((l - k) <= 1) && (0 < (l = k)));
+ c0 = d0, c1 = d1, j = k;
+ }
+ }
+ if(l == 0) { break; }
+ sssort(T, PAb, SA + k, SA + l,
+ curbuf, bufsize, 2, n, *(SA + k) == (m - 1));
+ }
+ }
+ }
+ else
+ {
+ buf = SA + m, bufsize = n - (2 * m);
+ for(c0 = ALPHABET_SIZE - 2, j = m; 0 < j; --c0) {
+ for(c1 = ALPHABET_SIZE - 1; c0 < c1; j = i, --c1) {
+ i = BUCKET_BSTAR(c0, c1);
+ if(1 < (j - i)) {
+ sssort(T, PAb, SA + i, SA + j,
+ buf, bufsize, 2, n, *(SA + i) == (m - 1));
+ }
+ }
+ }
+ }
+#else
+ buf = SA + m, bufsize = n - (2 * m);
+ for(c0 = ALPHABET_SIZE - 2, j = m; 0 < j; --c0) {
+ for(c1 = ALPHABET_SIZE - 1; c0 < c1; j = i, --c1) {
+ i = BUCKET_BSTAR(c0, c1);
+ if(1 < (j - i)) {
+ sssort(T, PAb, SA + i, SA + j,
+ buf, bufsize, 2, n, *(SA + i) == (m - 1));
+ }
+ }
+ }
+#endif
+
+ /* Compute ranks of type B* substrings. */
+ for(i = m - 1; 0 <= i; --i) {
+ if(0 <= SA[i]) {
+ j = i;
+ do { ISAb[SA[i]] = i; } while((0 <= --i) && (0 <= SA[i]));
+ SA[i + 1] = i - j;
+ if(i <= 0) { break; }
+ }
+ j = i;
+ do { ISAb[SA[i] = ~SA[i]] = j; } while(SA[--i] < 0);
+ ISAb[SA[i]] = j;
+ }
+
+ /* Construct the inverse suffix array of type B* suffixes using trsort. */
+ trsort(ISAb, SA, m, 1);
+
/* Set the sorted order of type B* suffixes. */
- for(i = n - 1, j = m, c0 = T[n - 1]; 0 <= i;) {
- for(--i, c1 = c0; (0 <= i) && ((c0 = T[i]) >= c1); --i, c1 = c0) { }
- if(0 <= i) {
- t = i;
- for(--i, c1 = c0; (0 <= i) && ((c0 = T[i]) <= c1); --i, c1 = c0) { }
- SA[ISAb[--j]] = ((t == 0) || (1 < (t - i))) ? t : ~t;
- }
- }
-
- /* Calculate the index of start/end point of each bucket. */
- BUCKET_B(ALPHABET_SIZE - 1, ALPHABET_SIZE - 1) = n; /* end point */
- for(c0 = ALPHABET_SIZE - 2, k = m - 1; 0 <= c0; --c0) {
- i = BUCKET_A(c0 + 1) - 1;
- for(c1 = ALPHABET_SIZE - 1; c0 < c1; --c1) {
- t = i - BUCKET_B(c0, c1);
- BUCKET_B(c0, c1) = i; /* end point */
-
- /* Move all type B* suffixes to the correct position. */
- for(i = t, j = BUCKET_BSTAR(c0, c1);
- j <= k;
- --i, --k) { SA[i] = SA[k]; }
- }
- BUCKET_BSTAR(c0, c0 + 1) = i - BUCKET_B(c0, c0) + 1; /* start point */
- BUCKET_B(c0, c0) = i; /* end point */
- }
- }
-
- return m;
-}
-
-/* Constructs the suffix array by using the sorted order of type B* suffixes. */
-static
-void
-construct_SA(const unsigned char *T, int *SA,
- int *bucket_A, int *bucket_B,
- int n, int m) {
- int *i, *j, *k;
- int s;
- int c0, c1, c2;
-
- if(0 < m) {
- /* Construct the sorted order of type B suffixes by using
- the sorted order of type B* suffixes. */
- for(c1 = ALPHABET_SIZE - 2; 0 <= c1; --c1) {
- /* Scan the suffix array from right to left. */
- for(i = SA + BUCKET_BSTAR(c1, c1 + 1),
- j = SA + BUCKET_A(c1 + 1) - 1, k = NULL, c2 = -1;
- i <= j;
- --j) {
- if(0 < (s = *j)) {
- assert(T[s] == c1);
- assert(((s + 1) < n) && (T[s] <= T[s + 1]));
- assert(T[s - 1] <= T[s]);
- *j = ~s;
- c0 = T[--s];
- if((0 < s) && (T[s - 1] > c0)) { s = ~s; }
- if(c0 != c2) {
- if(0 <= c2) { BUCKET_B(c2, c1) = k - SA; }
- k = SA + BUCKET_B(c2 = c0, c1);
- }
+ for(i = n - 1, j = m, c0 = T[n - 1]; 0 <= i;) {
+ for(--i, c1 = c0; (0 <= i) && ((c0 = T[i]) >= c1); --i, c1 = c0) { }
+ if(0 <= i) {
+ t = i;
+ for(--i, c1 = c0; (0 <= i) && ((c0 = T[i]) <= c1); --i, c1 = c0) { }
+ SA[ISAb[--j]] = ((t == 0) || (1 < (t - i))) ? t : ~t;
+ }
+ }
+
+ /* Calculate the index of start/end point of each bucket. */
+ BUCKET_B(ALPHABET_SIZE - 1, ALPHABET_SIZE - 1) = n; /* end point */
+ for(c0 = ALPHABET_SIZE - 2, k = m - 1; 0 <= c0; --c0) {
+ i = BUCKET_A(c0 + 1) - 1;
+ for(c1 = ALPHABET_SIZE - 1; c0 < c1; --c1) {
+ t = i - BUCKET_B(c0, c1);
+ BUCKET_B(c0, c1) = i; /* end point */
+
+ /* Move all type B* suffixes to the correct position. */
+ for(i = t, j = BUCKET_BSTAR(c0, c1);
+ j <= k;
+ --i, --k) { SA[i] = SA[k]; }
+ }
+ BUCKET_BSTAR(c0, c0 + 1) = i - BUCKET_B(c0, c0) + 1; /* start point */
+ BUCKET_B(c0, c0) = i; /* end point */
+ }
+ }
+
+ return m;
+}
+
+/* Constructs the suffix array by using the sorted order of type B* suffixes. */
+static
+void
+construct_SA(const unsigned char *T, int *SA,
+ int *bucket_A, int *bucket_B,
+ int n, int m) {
+ int *i, *j, *k;
+ int s;
+ int c0, c1, c2;
+
+ if(0 < m) {
+ /* Construct the sorted order of type B suffixes by using
+ the sorted order of type B* suffixes. */
+ for(c1 = ALPHABET_SIZE - 2; 0 <= c1; --c1) {
+ /* Scan the suffix array from right to left. */
+ for(i = SA + BUCKET_BSTAR(c1, c1 + 1),
+ j = SA + BUCKET_A(c1 + 1) - 1, k = NULL, c2 = -1;
+ i <= j;
+ --j) {
+ if(0 < (s = *j)) {
+ assert(T[s] == c1);
+ assert(((s + 1) < n) && (T[s] <= T[s + 1]));
+ assert(T[s - 1] <= T[s]);
+ *j = ~s;
+ c0 = T[--s];
+ if((0 < s) && (T[s - 1] > c0)) { s = ~s; }
+ if(c0 != c2) {
+ if(0 <= c2) { BUCKET_B(c2, c1) = k - SA; }
+ k = SA + BUCKET_B(c2 = c0, c1);
+ }
assert(k < j); assert(k != NULL);
- *k-- = s;
- } else {
- assert(((s == 0) && (T[s] == c1)) || (s < 0));
- *j = ~s;
- }
- }
- }
- }
-
- /* Construct the suffix array by using
- the sorted order of type B suffixes. */
- k = SA + BUCKET_A(c2 = T[n - 1]);
- *k++ = (T[n - 2] < c2) ? ~(n - 1) : (n - 1);
- /* Scan the suffix array from left to right. */
- for(i = SA, j = SA + n; i < j; ++i) {
- if(0 < (s = *i)) {
- assert(T[s - 1] >= T[s]);
- c0 = T[--s];
- if((s == 0) || (T[s - 1] < c0)) { s = ~s; }
- if(c0 != c2) {
- BUCKET_A(c2) = k - SA;
- k = SA + BUCKET_A(c2 = c0);
- }
- assert(i < k);
- *k++ = s;
- } else {
- assert(s < 0);
- *i = ~s;
- }
- }
-}
-
-/* Constructs the burrows-wheeler transformed string directly
- by using the sorted order of type B* suffixes. */
-static
-int
-construct_BWT(const unsigned char *T, int *SA,
- int *bucket_A, int *bucket_B,
- int n, int m) {
- int *i, *j, *k, *orig;
- int s;
- int c0, c1, c2;
-
- if(0 < m) {
- /* Construct the sorted order of type B suffixes by using
- the sorted order of type B* suffixes. */
- for(c1 = ALPHABET_SIZE - 2; 0 <= c1; --c1) {
- /* Scan the suffix array from right to left. */
- for(i = SA + BUCKET_BSTAR(c1, c1 + 1),
- j = SA + BUCKET_A(c1 + 1) - 1, k = NULL, c2 = -1;
- i <= j;
- --j) {
- if(0 < (s = *j)) {
- assert(T[s] == c1);
- assert(((s + 1) < n) && (T[s] <= T[s + 1]));
- assert(T[s - 1] <= T[s]);
- c0 = T[--s];
- *j = ~((int)c0);
- if((0 < s) && (T[s - 1] > c0)) { s = ~s; }
- if(c0 != c2) {
- if(0 <= c2) { BUCKET_B(c2, c1) = k - SA; }
- k = SA + BUCKET_B(c2 = c0, c1);
- }
+ *k-- = s;
+ } else {
+ assert(((s == 0) && (T[s] == c1)) || (s < 0));
+ *j = ~s;
+ }
+ }
+ }
+ }
+
+ /* Construct the suffix array by using
+ the sorted order of type B suffixes. */
+ k = SA + BUCKET_A(c2 = T[n - 1]);
+ *k++ = (T[n - 2] < c2) ? ~(n - 1) : (n - 1);
+ /* Scan the suffix array from left to right. */
+ for(i = SA, j = SA + n; i < j; ++i) {
+ if(0 < (s = *i)) {
+ assert(T[s - 1] >= T[s]);
+ c0 = T[--s];
+ if((s == 0) || (T[s - 1] < c0)) { s = ~s; }
+ if(c0 != c2) {
+ BUCKET_A(c2) = k - SA;
+ k = SA + BUCKET_A(c2 = c0);
+ }
+ assert(i < k);
+ *k++ = s;
+ } else {
+ assert(s < 0);
+ *i = ~s;
+ }
+ }
+}
+
+/* Constructs the burrows-wheeler transformed string directly
+ by using the sorted order of type B* suffixes. */
+static
+int
+construct_BWT(const unsigned char *T, int *SA,
+ int *bucket_A, int *bucket_B,
+ int n, int m) {
+ int *i, *j, *k, *orig;
+ int s;
+ int c0, c1, c2;
+
+ if(0 < m) {
+ /* Construct the sorted order of type B suffixes by using
+ the sorted order of type B* suffixes. */
+ for(c1 = ALPHABET_SIZE - 2; 0 <= c1; --c1) {
+ /* Scan the suffix array from right to left. */
+ for(i = SA + BUCKET_BSTAR(c1, c1 + 1),
+ j = SA + BUCKET_A(c1 + 1) - 1, k = NULL, c2 = -1;
+ i <= j;
+ --j) {
+ if(0 < (s = *j)) {
+ assert(T[s] == c1);
+ assert(((s + 1) < n) && (T[s] <= T[s + 1]));
+ assert(T[s - 1] <= T[s]);
+ c0 = T[--s];
+ *j = ~((int)c0);
+ if((0 < s) && (T[s - 1] > c0)) { s = ~s; }
+ if(c0 != c2) {
+ if(0 <= c2) { BUCKET_B(c2, c1) = k - SA; }
+ k = SA + BUCKET_B(c2 = c0, c1);
+ }
assert(k < j); assert(k != NULL);
- *k-- = s;
- } else if(s != 0) {
- *j = ~s;
-#ifndef NDEBUG
- } else {
- assert(T[s] == c1);
-#endif
- }
- }
- }
- }
-
- /* Construct the BWTed string by using
- the sorted order of type B suffixes. */
- k = SA + BUCKET_A(c2 = T[n - 1]);
- *k++ = (T[n - 2] < c2) ? ~((int)T[n - 2]) : (n - 1);
- /* Scan the suffix array from left to right. */
- for(i = SA, j = SA + n, orig = SA; i < j; ++i) {
- if(0 < (s = *i)) {
- assert(T[s - 1] >= T[s]);
- c0 = T[--s];
- *i = c0;
- if((0 < s) && (T[s - 1] < c0)) { s = ~((int)T[s - 1]); }
- if(c0 != c2) {
- BUCKET_A(c2) = k - SA;
- k = SA + BUCKET_A(c2 = c0);
- }
- assert(i < k);
- *k++ = s;
- } else if(s != 0) {
- *i = ~s;
- } else {
- orig = i;
- }
- }
-
- return orig - SA;
-}
-
-/* Constructs the burrows-wheeler transformed string directly
- by using the sorted order of type B* suffixes. */
-static
-int
-construct_BWT_indexes(const unsigned char *T, int *SA,
- int *bucket_A, int *bucket_B,
- int n, int m,
- unsigned char * num_indexes, int * indexes) {
- int *i, *j, *k, *orig;
- int s;
- int c0, c1, c2;
-
- int mod = n / 8;
- {
- mod |= mod >> 1; mod |= mod >> 2;
- mod |= mod >> 4; mod |= mod >> 8;
- mod |= mod >> 16; mod >>= 1;
-
- *num_indexes = (unsigned char)((n - 1) / (mod + 1));
- }
-
- if(0 < m) {
- /* Construct the sorted order of type B suffixes by using
- the sorted order of type B* suffixes. */
- for(c1 = ALPHABET_SIZE - 2; 0 <= c1; --c1) {
- /* Scan the suffix array from right to left. */
- for(i = SA + BUCKET_BSTAR(c1, c1 + 1),
- j = SA + BUCKET_A(c1 + 1) - 1, k = NULL, c2 = -1;
- i <= j;
- --j) {
- if(0 < (s = *j)) {
- assert(T[s] == c1);
- assert(((s + 1) < n) && (T[s] <= T[s + 1]));
- assert(T[s - 1] <= T[s]);
-
- if ((s & mod) == 0) indexes[s / (mod + 1) - 1] = j - SA;
-
- c0 = T[--s];
- *j = ~((int)c0);
- if((0 < s) && (T[s - 1] > c0)) { s = ~s; }
- if(c0 != c2) {
- if(0 <= c2) { BUCKET_B(c2, c1) = k - SA; }
- k = SA + BUCKET_B(c2 = c0, c1);
- }
+ *k-- = s;
+ } else if(s != 0) {
+ *j = ~s;
+#ifndef NDEBUG
+ } else {
+ assert(T[s] == c1);
+#endif
+ }
+ }
+ }
+ }
+
+ /* Construct the BWTed string by using
+ the sorted order of type B suffixes. */
+ k = SA + BUCKET_A(c2 = T[n - 1]);
+ *k++ = (T[n - 2] < c2) ? ~((int)T[n - 2]) : (n - 1);
+ /* Scan the suffix array from left to right. */
+ for(i = SA, j = SA + n, orig = SA; i < j; ++i) {
+ if(0 < (s = *i)) {
+ assert(T[s - 1] >= T[s]);
+ c0 = T[--s];
+ *i = c0;
+ if((0 < s) && (T[s - 1] < c0)) { s = ~((int)T[s - 1]); }
+ if(c0 != c2) {
+ BUCKET_A(c2) = k - SA;
+ k = SA + BUCKET_A(c2 = c0);
+ }
+ assert(i < k);
+ *k++ = s;
+ } else if(s != 0) {
+ *i = ~s;
+ } else {
+ orig = i;
+ }
+ }
+
+ return orig - SA;
+}
+
+/* Constructs the burrows-wheeler transformed string directly
+ by using the sorted order of type B* suffixes. */
+static
+int
+construct_BWT_indexes(const unsigned char *T, int *SA,
+ int *bucket_A, int *bucket_B,
+ int n, int m,
+ unsigned char * num_indexes, int * indexes) {
+ int *i, *j, *k, *orig;
+ int s;
+ int c0, c1, c2;
+
+ int mod = n / 8;
+ {
+ mod |= mod >> 1; mod |= mod >> 2;
+ mod |= mod >> 4; mod |= mod >> 8;
+ mod |= mod >> 16; mod >>= 1;
+
+ *num_indexes = (unsigned char)((n - 1) / (mod + 1));
+ }
+
+ if(0 < m) {
+ /* Construct the sorted order of type B suffixes by using
+ the sorted order of type B* suffixes. */
+ for(c1 = ALPHABET_SIZE - 2; 0 <= c1; --c1) {
+ /* Scan the suffix array from right to left. */
+ for(i = SA + BUCKET_BSTAR(c1, c1 + 1),
+ j = SA + BUCKET_A(c1 + 1) - 1, k = NULL, c2 = -1;
+ i <= j;
+ --j) {
+ if(0 < (s = *j)) {
+ assert(T[s] == c1);
+ assert(((s + 1) < n) && (T[s] <= T[s + 1]));
+ assert(T[s - 1] <= T[s]);
+
+ if ((s & mod) == 0) indexes[s / (mod + 1) - 1] = j - SA;
+
+ c0 = T[--s];
+ *j = ~((int)c0);
+ if((0 < s) && (T[s - 1] > c0)) { s = ~s; }
+ if(c0 != c2) {
+ if(0 <= c2) { BUCKET_B(c2, c1) = k - SA; }
+ k = SA + BUCKET_B(c2 = c0, c1);
+ }
assert(k < j); assert(k != NULL);
- *k-- = s;
- } else if(s != 0) {
- *j = ~s;
-#ifndef NDEBUG
- } else {
- assert(T[s] == c1);
-#endif
- }
- }
- }
- }
-
- /* Construct the BWTed string by using
- the sorted order of type B suffixes. */
- k = SA + BUCKET_A(c2 = T[n - 1]);
- if (T[n - 2] < c2) {
- if (((n - 1) & mod) == 0) indexes[(n - 1) / (mod + 1) - 1] = k - SA;
- *k++ = ~((int)T[n - 2]);
- }
- else {
- *k++ = n - 1;
- }
-
- /* Scan the suffix array from left to right. */
- for(i = SA, j = SA + n, orig = SA; i < j; ++i) {
- if(0 < (s = *i)) {
- assert(T[s - 1] >= T[s]);
-
- if ((s & mod) == 0) indexes[s / (mod + 1) - 1] = i - SA;
-
- c0 = T[--s];
- *i = c0;
- if(c0 != c2) {
- BUCKET_A(c2) = k - SA;
- k = SA + BUCKET_A(c2 = c0);
- }
- assert(i < k);
- if((0 < s) && (T[s - 1] < c0)) {
- if ((s & mod) == 0) indexes[s / (mod + 1) - 1] = k - SA;
- *k++ = ~((int)T[s - 1]);
- } else
- *k++ = s;
- } else if(s != 0) {
- *i = ~s;
- } else {
- orig = i;
- }
- }
-
- return orig - SA;
-}
-
-
-/*---------------------------------------------------------------------------*/
-
-/*- Function -*/
-
-int
-divsufsort(const unsigned char *T, int *SA, int n, int openMP) {
- int *bucket_A, *bucket_B;
- int m;
- int err = 0;
-
- /* Check arguments. */
- if((T == NULL) || (SA == NULL) || (n < 0)) { return -1; }
- else if(n == 0) { return 0; }
- else if(n == 1) { SA[0] = 0; return 0; }
- else if(n == 2) { m = (T[0] < T[1]); SA[m ^ 1] = 0, SA[m] = 1; return 0; }
-
- bucket_A = (int *)malloc(BUCKET_A_SIZE * sizeof(int));
- bucket_B = (int *)malloc(BUCKET_B_SIZE * sizeof(int));
-
- /* Suffixsort. */
- if((bucket_A != NULL) && (bucket_B != NULL)) {
- m = sort_typeBstar(T, SA, bucket_A, bucket_B, n, openMP);
- construct_SA(T, SA, bucket_A, bucket_B, n, m);
- } else {
- err = -2;
- }
-
- free(bucket_B);
- free(bucket_A);
-
- return err;
-}
-
-int
-divbwt(const unsigned char *T, unsigned char *U, int *A, int n, unsigned char * num_indexes, int * indexes, int openMP) {
- int *B;
- int *bucket_A, *bucket_B;
- int m, pidx, i;
-
- /* Check arguments. */
- if((T == NULL) || (U == NULL) || (n < 0)) { return -1; }
- else if(n <= 1) { if(n == 1) { U[0] = T[0]; } return n; }
-
- if((B = A) == NULL) { B = (int *)malloc((size_t)(n + 1) * sizeof(int)); }
- bucket_A = (int *)malloc(BUCKET_A_SIZE * sizeof(int));
- bucket_B = (int *)malloc(BUCKET_B_SIZE * sizeof(int));
-
- /* Burrows-Wheeler Transform. */
- if((B != NULL) && (bucket_A != NULL) && (bucket_B != NULL)) {
- m = sort_typeBstar(T, B, bucket_A, bucket_B, n, openMP);
-
- if (num_indexes == NULL || indexes == NULL) {
- pidx = construct_BWT(T, B, bucket_A, bucket_B, n, m);
- } else {
- pidx = construct_BWT_indexes(T, B, bucket_A, bucket_B, n, m, num_indexes, indexes);
- }
-
- /* Copy to output string. */
- U[0] = T[n - 1];
- for(i = 0; i < pidx; ++i) { U[i + 1] = (unsigned char)B[i]; }
- for(i += 1; i < n; ++i) { U[i] = (unsigned char)B[i]; }
- pidx += 1;
- } else {
- pidx = -2;
- }
-
- free(bucket_B);
- free(bucket_A);
- if(A == NULL) { free(B); }
-
- return pidx;
-}
+ *k-- = s;
+ } else if(s != 0) {
+ *j = ~s;
+#ifndef NDEBUG
+ } else {
+ assert(T[s] == c1);
+#endif
+ }
+ }
+ }
+ }
+
+ /* Construct the BWTed string by using
+ the sorted order of type B suffixes. */
+ k = SA + BUCKET_A(c2 = T[n - 1]);
+ if (T[n - 2] < c2) {
+ if (((n - 1) & mod) == 0) indexes[(n - 1) / (mod + 1) - 1] = k - SA;
+ *k++ = ~((int)T[n - 2]);
+ }
+ else {
+ *k++ = n - 1;
+ }
+
+ /* Scan the suffix array from left to right. */
+ for(i = SA, j = SA + n, orig = SA; i < j; ++i) {
+ if(0 < (s = *i)) {
+ assert(T[s - 1] >= T[s]);
+
+ if ((s & mod) == 0) indexes[s / (mod + 1) - 1] = i - SA;
+
+ c0 = T[--s];
+ *i = c0;
+ if(c0 != c2) {
+ BUCKET_A(c2) = k - SA;
+ k = SA + BUCKET_A(c2 = c0);
+ }
+ assert(i < k);
+ if((0 < s) && (T[s - 1] < c0)) {
+ if ((s & mod) == 0) indexes[s / (mod + 1) - 1] = k - SA;
+ *k++ = ~((int)T[s - 1]);
+ } else
+ *k++ = s;
+ } else if(s != 0) {
+ *i = ~s;
+ } else {
+ orig = i;
+ }
+ }
+
+ return orig - SA;
+}
+
+
+/*---------------------------------------------------------------------------*/
+
+/*- Function -*/
+
+int
+divsufsort(const unsigned char *T, int *SA, int n, int openMP) {
+ int *bucket_A, *bucket_B;
+ int m;
+ int err = 0;
+
+ /* Check arguments. */
+ if((T == NULL) || (SA == NULL) || (n < 0)) { return -1; }
+ else if(n == 0) { return 0; }
+ else if(n == 1) { SA[0] = 0; return 0; }
+ else if(n == 2) { m = (T[0] < T[1]); SA[m ^ 1] = 0, SA[m] = 1; return 0; }
+
+ bucket_A = (int *)malloc(BUCKET_A_SIZE * sizeof(int));
+ bucket_B = (int *)malloc(BUCKET_B_SIZE * sizeof(int));
+
+ /* Suffixsort. */
+ if((bucket_A != NULL) && (bucket_B != NULL)) {
+ m = sort_typeBstar(T, SA, bucket_A, bucket_B, n, openMP);
+ construct_SA(T, SA, bucket_A, bucket_B, n, m);
+ } else {
+ err = -2;
+ }
+
+ free(bucket_B);
+ free(bucket_A);
+
+ return err;
+}
+
+int
+divbwt(const unsigned char *T, unsigned char *U, int *A, int n, unsigned char * num_indexes, int * indexes, int openMP) {
+ int *B;
+ int *bucket_A, *bucket_B;
+ int m, pidx, i;
+
+ /* Check arguments. */
+ if((T == NULL) || (U == NULL) || (n < 0)) { return -1; }
+ else if(n <= 1) { if(n == 1) { U[0] = T[0]; } return n; }
+
+ if((B = A) == NULL) { B = (int *)malloc((size_t)(n + 1) * sizeof(int)); }
+ bucket_A = (int *)malloc(BUCKET_A_SIZE * sizeof(int));
+ bucket_B = (int *)malloc(BUCKET_B_SIZE * sizeof(int));
+
+ /* Burrows-Wheeler Transform. */
+ if((B != NULL) && (bucket_A != NULL) && (bucket_B != NULL)) {
+ m = sort_typeBstar(T, B, bucket_A, bucket_B, n, openMP);
+
+ if (num_indexes == NULL || indexes == NULL) {
+ pidx = construct_BWT(T, B, bucket_A, bucket_B, n, m);
+ } else {
+ pidx = construct_BWT_indexes(T, B, bucket_A, bucket_B, n, m, num_indexes, indexes);
+ }
+
+ /* Copy to output string. */
+ U[0] = T[n - 1];
+ for(i = 0; i < pidx; ++i) { U[i + 1] = (unsigned char)B[i]; }
+ for(i += 1; i < n; ++i) { U[i] = (unsigned char)B[i]; }
+ pidx += 1;
+ } else {
+ pidx = -2;
+ }
+
+ free(bucket_B);
+ free(bucket_A);
+ if(A == NULL) { free(B); }
+
+ return pidx;
+}
diff --git a/contrib/libs/zstd/lib/dictBuilder/divsufsort.h b/contrib/libs/zstd/lib/dictBuilder/divsufsort.h
index 5440994af1..cf2a5203cc 100644
--- a/contrib/libs/zstd/lib/dictBuilder/divsufsort.h
+++ b/contrib/libs/zstd/lib/dictBuilder/divsufsort.h
@@ -1,67 +1,67 @@
-/*
- * divsufsort.h for libdivsufsort-lite
- * Copyright (c) 2003-2008 Yuta Mori All Rights Reserved.
- *
- * Permission is hereby granted, free of charge, to any person
- * obtaining a copy of this software and associated documentation
- * files (the "Software"), to deal in the Software without
- * restriction, including without limitation the rights to use,
- * copy, modify, merge, publish, distribute, sublicense, and/or sell
- * copies of the Software, and to permit persons to whom the
- * Software is furnished to do so, subject to the following
- * conditions:
- *
- * The above copyright notice and this permission notice shall be
- * included in all copies or substantial portions of the Software.
- *
- * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
- * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
- * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
- * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
- * HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
- * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
- * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
- * OTHER DEALINGS IN THE SOFTWARE.
- */
-
-#ifndef _DIVSUFSORT_H
-#define _DIVSUFSORT_H 1
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-
-/*- Prototypes -*/
-
-/**
- * Constructs the suffix array of a given string.
+/*
+ * divsufsort.h for libdivsufsort-lite
+ * Copyright (c) 2003-2008 Yuta Mori All Rights Reserved.
+ *
+ * Permission is hereby granted, free of charge, to any person
+ * obtaining a copy of this software and associated documentation
+ * files (the "Software"), to deal in the Software without
+ * restriction, including without limitation the rights to use,
+ * copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the
+ * Software is furnished to do so, subject to the following
+ * conditions:
+ *
+ * The above copyright notice and this permission notice shall be
+ * included in all copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
+ * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
+ * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
+ * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
+ * HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
+ * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
+ * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
+ * OTHER DEALINGS IN THE SOFTWARE.
+ */
+
+#ifndef _DIVSUFSORT_H
+#define _DIVSUFSORT_H 1
+
+#ifdef __cplusplus
+extern "C" {
+#endif /* __cplusplus */
+
+
+/*- Prototypes -*/
+
+/**
+ * Constructs the suffix array of a given string.
* @param T [0..n-1] The input string.
* @param SA [0..n-1] The output array of suffixes.
- * @param n The length of the given string.
- * @param openMP enables OpenMP optimization.
- * @return 0 if no error occurred, -1 or -2 otherwise.
- */
-int
-divsufsort(const unsigned char *T, int *SA, int n, int openMP);
-
-/**
- * Constructs the burrows-wheeler transformed string of a given string.
+ * @param n The length of the given string.
+ * @param openMP enables OpenMP optimization.
+ * @return 0 if no error occurred, -1 or -2 otherwise.
+ */
+int
+divsufsort(const unsigned char *T, int *SA, int n, int openMP);
+
+/**
+ * Constructs the burrows-wheeler transformed string of a given string.
* @param T [0..n-1] The input string.
* @param U [0..n-1] The output string. (can be T)
* @param A [0..n-1] The temporary array. (can be NULL)
- * @param n The length of the given string.
- * @param num_indexes The length of secondary indexes array. (can be NULL)
- * @param indexes The secondary indexes array. (can be NULL)
- * @param openMP enables OpenMP optimization.
- * @return The primary index if no error occurred, -1 or -2 otherwise.
- */
-int
-divbwt(const unsigned char *T, unsigned char *U, int *A, int n, unsigned char * num_indexes, int * indexes, int openMP);
-
-
-#ifdef __cplusplus
-} /* extern "C" */
-#endif /* __cplusplus */
-
-#endif /* _DIVSUFSORT_H */
+ * @param n The length of the given string.
+ * @param num_indexes The length of secondary indexes array. (can be NULL)
+ * @param indexes The secondary indexes array. (can be NULL)
+ * @param openMP enables OpenMP optimization.
+ * @return The primary index if no error occurred, -1 or -2 otherwise.
+ */
+int
+divbwt(const unsigned char *T, unsigned char *U, int *A, int n, unsigned char * num_indexes, int * indexes, int openMP);
+
+
+#ifdef __cplusplus
+} /* extern "C" */
+#endif /* __cplusplus */
+
+#endif /* _DIVSUFSORT_H */
diff --git a/contrib/libs/zstd/lib/dictBuilder/zdict.c b/contrib/libs/zstd/lib/dictBuilder/zdict.c
index 587df6b861..bbb23bf8b7 100644
--- a/contrib/libs/zstd/lib/dictBuilder/zdict.c
+++ b/contrib/libs/zstd/lib/dictBuilder/zdict.c
@@ -7,40 +7,40 @@
* in the COPYING file in the root directory of this source tree).
* You may select, at your option, one of the above-listed licenses.
*/
-
-
-/*-**************************************
-* Tuning parameters
-****************************************/
+
+
+/*-**************************************
+* Tuning parameters
+****************************************/
#define MINRATIO 4 /* minimum nb of apparition to be selected in dictionary */
-#define ZDICT_MAX_SAMPLES_SIZE (2000U << 20)
+#define ZDICT_MAX_SAMPLES_SIZE (2000U << 20)
#define ZDICT_MIN_SAMPLES_SIZE (ZDICT_CONTENTSIZE_MIN * MINRATIO)
-
-
-/*-**************************************
-* Compiler Options
-****************************************/
-/* Unix Large Files support (>4GB) */
-#define _FILE_OFFSET_BITS 64
-#if (defined(__sun__) && (!defined(__LP64__))) /* Sun Solaris 32-bits requires specific definitions */
+
+
+/*-**************************************
+* Compiler Options
+****************************************/
+/* Unix Large Files support (>4GB) */
+#define _FILE_OFFSET_BITS 64
+#if (defined(__sun__) && (!defined(__LP64__))) /* Sun Solaris 32-bits requires specific definitions */
# ifndef _LARGEFILE_SOURCE
-# define _LARGEFILE_SOURCE
+# define _LARGEFILE_SOURCE
# endif
-#elif ! defined(__LP64__) /* No point defining Large file for 64 bit */
+#elif ! defined(__LP64__) /* No point defining Large file for 64 bit */
# ifndef _LARGEFILE64_SOURCE
-# define _LARGEFILE64_SOURCE
+# define _LARGEFILE64_SOURCE
# endif
-#endif
-
-
-/*-*************************************
-* Dependencies
-***************************************/
-#include <stdlib.h> /* malloc, free */
-#include <string.h> /* memset */
-#include <stdio.h> /* fprintf, fopen, ftello64 */
-#include <time.h> /* clock */
-
+#endif
+
+
+/*-*************************************
+* Dependencies
+***************************************/
+#include <stdlib.h> /* malloc, free */
+#include <string.h> /* memset */
+#include <stdio.h> /* fprintf, fopen, ftello64 */
+#include <time.h> /* clock */
+
#ifndef ZDICT_STATIC_LINKING_ONLY
# define ZDICT_STATIC_LINKING_ONLY
#endif
@@ -53,59 +53,59 @@
#include <contrib/libs/xxhash/xxhash.h> /* XXH64 */
#include "../compress/zstd_compress_internal.h" /* ZSTD_loadCEntropy() */
#include "../zdict.h"
-#include "divsufsort.h"
-
-
-/*-*************************************
-* Constants
-***************************************/
-#define KB *(1 <<10)
-#define MB *(1 <<20)
-#define GB *(1U<<30)
-
+#include "divsufsort.h"
+
+
+/*-*************************************
+* Constants
+***************************************/
+#define KB *(1 <<10)
+#define MB *(1 <<20)
+#define GB *(1U<<30)
+
#define DICTLISTSIZE_DEFAULT 10000
-
-#define NOISELENGTH 32
-
-static const U32 g_selectivity_default = 9;
-
-
-/*-*************************************
-* Console display
-***************************************/
+
+#define NOISELENGTH 32
+
+static const U32 g_selectivity_default = 9;
+
+
+/*-*************************************
+* Console display
+***************************************/
#undef DISPLAY
-#define DISPLAY(...) { fprintf(stderr, __VA_ARGS__); fflush( stderr ); }
+#define DISPLAY(...) { fprintf(stderr, __VA_ARGS__); fflush( stderr ); }
#undef DISPLAYLEVEL
#define DISPLAYLEVEL(l, ...) if (notificationLevel>=l) { DISPLAY(__VA_ARGS__); } /* 0 : no display; 1: errors; 2: default; 3: details; 4: debug */
-
-static clock_t ZDICT_clockSpan(clock_t nPrevious) { return clock() - nPrevious; }
-
+
+static clock_t ZDICT_clockSpan(clock_t nPrevious) { return clock() - nPrevious; }
+
static void ZDICT_printHex(const void* ptr, size_t length)
-{
- const BYTE* const b = (const BYTE*)ptr;
- size_t u;
- for (u=0; u<length; u++) {
- BYTE c = b[u];
- if (c<32 || c>126) c = '.'; /* non-printable char */
+{
+ const BYTE* const b = (const BYTE*)ptr;
+ size_t u;
+ for (u=0; u<length; u++) {
+ BYTE c = b[u];
+ if (c<32 || c>126) c = '.'; /* non-printable char */
DISPLAY("%c", c);
- }
-}
-
-
-/*-********************************************************
-* Helper functions
-**********************************************************/
-unsigned ZDICT_isError(size_t errorCode) { return ERR_isError(errorCode); }
-
-const char* ZDICT_getErrorName(size_t errorCode) { return ERR_getErrorName(errorCode); }
-
+ }
+}
+
+
+/*-********************************************************
+* Helper functions
+**********************************************************/
+unsigned ZDICT_isError(size_t errorCode) { return ERR_isError(errorCode); }
+
+const char* ZDICT_getErrorName(size_t errorCode) { return ERR_getErrorName(errorCode); }
+
unsigned ZDICT_getDictID(const void* dictBuffer, size_t dictSize)
{
if (dictSize < 8) return 0;
if (MEM_readLE32(dictBuffer) != ZSTD_MAGIC_DICTIONARY) return 0;
return MEM_readLE32((const char*)dictBuffer + 4);
}
-
+
size_t ZDICT_getDictHeaderSize(const void* dictBuffer, size_t dictSize)
{
size_t headerSize;
@@ -127,14 +127,14 @@ size_t ZDICT_getDictHeaderSize(const void* dictBuffer, size_t dictSize)
return headerSize;
}
-/*-********************************************************
-* Dictionary training functions
-**********************************************************/
+/*-********************************************************
+* Dictionary training functions
+**********************************************************/
static unsigned ZDICT_NbCommonBytes (size_t val)
-{
- if (MEM_isLittleEndian()) {
- if (MEM_64bits()) {
-# if defined(_MSC_VER) && defined(_WIN64)
+{
+ if (MEM_isLittleEndian()) {
+ if (MEM_64bits()) {
+# if defined(_MSC_VER) && defined(_WIN64)
if (val != 0) {
unsigned long r;
_BitScanForward64(&r, (U64)val);
@@ -143,14 +143,14 @@ static unsigned ZDICT_NbCommonBytes (size_t val)
/* Should not reach this code path */
__assume(0);
}
-# elif defined(__GNUC__) && (__GNUC__ >= 3)
+# elif defined(__GNUC__) && (__GNUC__ >= 3)
return (unsigned)(__builtin_ctzll((U64)val) >> 3);
-# else
- static const int DeBruijnBytePos[64] = { 0, 0, 0, 0, 0, 1, 1, 2, 0, 3, 1, 3, 1, 4, 2, 7, 0, 2, 3, 6, 1, 5, 3, 5, 1, 3, 4, 4, 2, 5, 6, 7, 7, 0, 1, 2, 3, 3, 4, 6, 2, 6, 5, 5, 3, 4, 5, 6, 7, 1, 2, 4, 6, 4, 4, 5, 7, 2, 6, 5, 7, 6, 7, 7 };
- return DeBruijnBytePos[((U64)((val & -(long long)val) * 0x0218A392CDABBD3FULL)) >> 58];
-# endif
- } else { /* 32 bits */
-# if defined(_MSC_VER)
+# else
+ static const int DeBruijnBytePos[64] = { 0, 0, 0, 0, 0, 1, 1, 2, 0, 3, 1, 3, 1, 4, 2, 7, 0, 2, 3, 6, 1, 5, 3, 5, 1, 3, 4, 4, 2, 5, 6, 7, 7, 0, 1, 2, 3, 3, 4, 6, 2, 6, 5, 5, 3, 4, 5, 6, 7, 1, 2, 4, 6, 4, 4, 5, 7, 2, 6, 5, 7, 6, 7, 7 };
+ return DeBruijnBytePos[((U64)((val & -(long long)val) * 0x0218A392CDABBD3FULL)) >> 58];
+# endif
+ } else { /* 32 bits */
+# if defined(_MSC_VER)
if (val != 0) {
unsigned long r;
_BitScanForward(&r, (U32)val);
@@ -159,16 +159,16 @@ static unsigned ZDICT_NbCommonBytes (size_t val)
/* Should not reach this code path */
__assume(0);
}
-# elif defined(__GNUC__) && (__GNUC__ >= 3)
+# elif defined(__GNUC__) && (__GNUC__ >= 3)
return (unsigned)(__builtin_ctz((U32)val) >> 3);
-# else
- static const int DeBruijnBytePos[32] = { 0, 0, 3, 0, 3, 1, 3, 0, 3, 2, 2, 1, 3, 2, 0, 1, 3, 3, 1, 2, 2, 2, 2, 0, 3, 1, 2, 0, 1, 0, 1, 1 };
- return DeBruijnBytePos[((U32)((val & -(S32)val) * 0x077CB531U)) >> 27];
-# endif
- }
- } else { /* Big Endian CPU */
- if (MEM_64bits()) {
-# if defined(_MSC_VER) && defined(_WIN64)
+# else
+ static const int DeBruijnBytePos[32] = { 0, 0, 3, 0, 3, 1, 3, 0, 3, 2, 2, 1, 3, 2, 0, 1, 3, 3, 1, 2, 2, 2, 2, 0, 3, 1, 2, 0, 1, 0, 1, 1 };
+ return DeBruijnBytePos[((U32)((val & -(S32)val) * 0x077CB531U)) >> 27];
+# endif
+ }
+ } else { /* Big Endian CPU */
+ if (MEM_64bits()) {
+# if defined(_MSC_VER) && defined(_WIN64)
if (val != 0) {
unsigned long r;
_BitScanReverse64(&r, val);
@@ -177,18 +177,18 @@ static unsigned ZDICT_NbCommonBytes (size_t val)
/* Should not reach this code path */
__assume(0);
}
-# elif defined(__GNUC__) && (__GNUC__ >= 3)
+# elif defined(__GNUC__) && (__GNUC__ >= 3)
return (unsigned)(__builtin_clzll(val) >> 3);
-# else
- unsigned r;
- const unsigned n32 = sizeof(size_t)*4; /* calculate this way due to compiler complaining in 32-bits mode */
- if (!(val>>n32)) { r=4; } else { r=0; val>>=n32; }
- if (!(val>>16)) { r+=2; val>>=8; } else { val>>=24; }
- r += (!val);
- return r;
-# endif
- } else { /* 32 bits */
-# if defined(_MSC_VER)
+# else
+ unsigned r;
+ const unsigned n32 = sizeof(size_t)*4; /* calculate this way due to compiler complaining in 32-bits mode */
+ if (!(val>>n32)) { r=4; } else { r=0; val>>=n32; }
+ if (!(val>>16)) { r+=2; val>>=8; } else { val>>=24; }
+ r += (!val);
+ return r;
+# endif
+ } else { /* 32 bits */
+# if defined(_MSC_VER)
if (val != 0) {
unsigned long r;
_BitScanReverse(&r, (unsigned long)val);
@@ -197,156 +197,156 @@ static unsigned ZDICT_NbCommonBytes (size_t val)
/* Should not reach this code path */
__assume(0);
}
-# elif defined(__GNUC__) && (__GNUC__ >= 3)
+# elif defined(__GNUC__) && (__GNUC__ >= 3)
return (unsigned)(__builtin_clz((U32)val) >> 3);
-# else
- unsigned r;
- if (!(val>>16)) { r=2; val>>=8; } else { r=0; val>>=24; }
- r += (!val);
- return r;
-# endif
- } }
-}
-
-
-/*! ZDICT_count() :
- Count the nb of common bytes between 2 pointers.
- Note : this function presumes end of buffer followed by noisy guard band.
-*/
-static size_t ZDICT_count(const void* pIn, const void* pMatch)
-{
- const char* const pStart = (const char*)pIn;
- for (;;) {
- size_t const diff = MEM_readST(pMatch) ^ MEM_readST(pIn);
- if (!diff) {
- pIn = (const char*)pIn+sizeof(size_t);
- pMatch = (const char*)pMatch+sizeof(size_t);
- continue;
- }
- pIn = (const char*)pIn+ZDICT_NbCommonBytes(diff);
- return (size_t)((const char*)pIn - pStart);
- }
-}
-
-
-typedef struct {
- U32 pos;
- U32 length;
- U32 savings;
-} dictItem;
-
-static void ZDICT_initDictItem(dictItem* d)
-{
- d->pos = 1;
- d->length = 0;
- d->savings = (U32)(-1);
-}
-
-
-#define LLIMIT 64 /* heuristic determined experimentally */
-#define MINMATCHLENGTH 7 /* heuristic determined experimentally */
-static dictItem ZDICT_analyzePos(
- BYTE* doneMarks,
- const int* suffix, U32 start,
+# else
+ unsigned r;
+ if (!(val>>16)) { r=2; val>>=8; } else { r=0; val>>=24; }
+ r += (!val);
+ return r;
+# endif
+ } }
+}
+
+
+/*! ZDICT_count() :
+ Count the nb of common bytes between 2 pointers.
+ Note : this function presumes end of buffer followed by noisy guard band.
+*/
+static size_t ZDICT_count(const void* pIn, const void* pMatch)
+{
+ const char* const pStart = (const char*)pIn;
+ for (;;) {
+ size_t const diff = MEM_readST(pMatch) ^ MEM_readST(pIn);
+ if (!diff) {
+ pIn = (const char*)pIn+sizeof(size_t);
+ pMatch = (const char*)pMatch+sizeof(size_t);
+ continue;
+ }
+ pIn = (const char*)pIn+ZDICT_NbCommonBytes(diff);
+ return (size_t)((const char*)pIn - pStart);
+ }
+}
+
+
+typedef struct {
+ U32 pos;
+ U32 length;
+ U32 savings;
+} dictItem;
+
+static void ZDICT_initDictItem(dictItem* d)
+{
+ d->pos = 1;
+ d->length = 0;
+ d->savings = (U32)(-1);
+}
+
+
+#define LLIMIT 64 /* heuristic determined experimentally */
+#define MINMATCHLENGTH 7 /* heuristic determined experimentally */
+static dictItem ZDICT_analyzePos(
+ BYTE* doneMarks,
+ const int* suffix, U32 start,
const void* buffer, U32 minRatio, U32 notificationLevel)
-{
- U32 lengthList[LLIMIT] = {0};
- U32 cumulLength[LLIMIT] = {0};
- U32 savings[LLIMIT] = {0};
- const BYTE* b = (const BYTE*)buffer;
- size_t maxLength = LLIMIT;
+{
+ U32 lengthList[LLIMIT] = {0};
+ U32 cumulLength[LLIMIT] = {0};
+ U32 savings[LLIMIT] = {0};
+ const BYTE* b = (const BYTE*)buffer;
+ size_t maxLength = LLIMIT;
size_t pos = (size_t)suffix[start];
- U32 end = start;
- dictItem solution;
-
- /* init */
- memset(&solution, 0, sizeof(solution));
- doneMarks[pos] = 1;
-
- /* trivial repetition cases */
- if ( (MEM_read16(b+pos+0) == MEM_read16(b+pos+2))
- ||(MEM_read16(b+pos+1) == MEM_read16(b+pos+3))
- ||(MEM_read16(b+pos+2) == MEM_read16(b+pos+4)) ) {
- /* skip and mark segment */
+ U32 end = start;
+ dictItem solution;
+
+ /* init */
+ memset(&solution, 0, sizeof(solution));
+ doneMarks[pos] = 1;
+
+ /* trivial repetition cases */
+ if ( (MEM_read16(b+pos+0) == MEM_read16(b+pos+2))
+ ||(MEM_read16(b+pos+1) == MEM_read16(b+pos+3))
+ ||(MEM_read16(b+pos+2) == MEM_read16(b+pos+4)) ) {
+ /* skip and mark segment */
U16 const pattern16 = MEM_read16(b+pos+4);
U32 u, patternEnd = 6;
while (MEM_read16(b+pos+patternEnd) == pattern16) patternEnd+=2 ;
if (b[pos+patternEnd] == b[pos+patternEnd-1]) patternEnd++;
for (u=1; u<patternEnd; u++)
- doneMarks[pos+u] = 1;
- return solution;
- }
-
- /* look forward */
+ doneMarks[pos+u] = 1;
+ return solution;
+ }
+
+ /* look forward */
{ size_t length;
do {
end++;
length = ZDICT_count(b + pos, b + suffix[end]);
} while (length >= MINMATCHLENGTH);
}
-
- /* look backward */
+
+ /* look backward */
{ size_t length;
do {
length = ZDICT_count(b + pos, b + *(suffix+start-1));
if (length >=MINMATCHLENGTH) start--;
} while(length >= MINMATCHLENGTH);
}
-
- /* exit if not found a minimum nb of repetitions */
- if (end-start < minRatio) {
- U32 idx;
- for(idx=start; idx<end; idx++)
- doneMarks[suffix[idx]] = 1;
- return solution;
- }
-
- { int i;
+
+ /* exit if not found a minimum nb of repetitions */
+ if (end-start < minRatio) {
+ U32 idx;
+ for(idx=start; idx<end; idx++)
+ doneMarks[suffix[idx]] = 1;
+ return solution;
+ }
+
+ { int i;
U32 mml;
- U32 refinedStart = start;
- U32 refinedEnd = end;
-
- DISPLAYLEVEL(4, "\n");
+ U32 refinedStart = start;
+ U32 refinedEnd = end;
+
+ DISPLAYLEVEL(4, "\n");
DISPLAYLEVEL(4, "found %3u matches of length >= %i at pos %7u ", (unsigned)(end-start), MINMATCHLENGTH, (unsigned)pos);
- DISPLAYLEVEL(4, "\n");
-
+ DISPLAYLEVEL(4, "\n");
+
for (mml = MINMATCHLENGTH ; ; mml++) {
- BYTE currentChar = 0;
- U32 currentCount = 0;
- U32 currentID = refinedStart;
- U32 id;
- U32 selectedCount = 0;
- U32 selectedID = currentID;
- for (id =refinedStart; id < refinedEnd; id++) {
+ BYTE currentChar = 0;
+ U32 currentCount = 0;
+ U32 currentID = refinedStart;
+ U32 id;
+ U32 selectedCount = 0;
+ U32 selectedID = currentID;
+ for (id =refinedStart; id < refinedEnd; id++) {
if (b[suffix[id] + mml] != currentChar) {
- if (currentCount > selectedCount) {
- selectedCount = currentCount;
- selectedID = currentID;
- }
- currentID = id;
+ if (currentCount > selectedCount) {
+ selectedCount = currentCount;
+ selectedID = currentID;
+ }
+ currentID = id;
currentChar = b[ suffix[id] + mml];
- currentCount = 0;
- }
- currentCount ++;
- }
- if (currentCount > selectedCount) { /* for last */
- selectedCount = currentCount;
- selectedID = currentID;
- }
-
- if (selectedCount < minRatio)
- break;
- refinedStart = selectedID;
- refinedEnd = refinedStart + selectedCount;
- }
-
+ currentCount = 0;
+ }
+ currentCount ++;
+ }
+ if (currentCount > selectedCount) { /* for last */
+ selectedCount = currentCount;
+ selectedID = currentID;
+ }
+
+ if (selectedCount < minRatio)
+ break;
+ refinedStart = selectedID;
+ refinedEnd = refinedStart + selectedCount;
+ }
+
/* evaluate gain based on new dict */
- start = refinedStart;
- pos = suffix[refinedStart];
- end = start;
- memset(lengthList, 0, sizeof(lengthList));
-
- /* look forward */
+ start = refinedStart;
+ pos = suffix[refinedStart];
+ end = start;
+ memset(lengthList, 0, sizeof(lengthList));
+
+ /* look forward */
{ size_t length;
do {
end++;
@@ -355,8 +355,8 @@ static dictItem ZDICT_analyzePos(
lengthList[length]++;
} while (length >=MINMATCHLENGTH);
}
-
- /* look backward */
+
+ /* look backward */
{ size_t length = MINMATCHLENGTH;
while ((length >= MINMATCHLENGTH) & (start > 0)) {
length = ZDICT_count(b + pos, b + suffix[start - 1]);
@@ -365,56 +365,56 @@ static dictItem ZDICT_analyzePos(
if (length >= MINMATCHLENGTH) start--;
}
}
-
- /* largest useful length */
- memset(cumulLength, 0, sizeof(cumulLength));
- cumulLength[maxLength-1] = lengthList[maxLength-1];
- for (i=(int)(maxLength-2); i>=0; i--)
- cumulLength[i] = cumulLength[i+1] + lengthList[i];
-
- for (i=LLIMIT-1; i>=MINMATCHLENGTH; i--) if (cumulLength[i]>=minRatio) break;
- maxLength = i;
-
- /* reduce maxLength in case of final into repetitive data */
- { U32 l = (U32)maxLength;
- BYTE const c = b[pos + maxLength-1];
- while (b[pos+l-2]==c) l--;
- maxLength = l;
- }
- if (maxLength < MINMATCHLENGTH) return solution; /* skip : no long-enough solution */
-
- /* calculate savings */
- savings[5] = 0;
- for (i=MINMATCHLENGTH; i<=(int)maxLength; i++)
- savings[i] = savings[i-1] + (lengthList[i] * (i-3));
-
+
+ /* largest useful length */
+ memset(cumulLength, 0, sizeof(cumulLength));
+ cumulLength[maxLength-1] = lengthList[maxLength-1];
+ for (i=(int)(maxLength-2); i>=0; i--)
+ cumulLength[i] = cumulLength[i+1] + lengthList[i];
+
+ for (i=LLIMIT-1; i>=MINMATCHLENGTH; i--) if (cumulLength[i]>=minRatio) break;
+ maxLength = i;
+
+ /* reduce maxLength in case of final into repetitive data */
+ { U32 l = (U32)maxLength;
+ BYTE const c = b[pos + maxLength-1];
+ while (b[pos+l-2]==c) l--;
+ maxLength = l;
+ }
+ if (maxLength < MINMATCHLENGTH) return solution; /* skip : no long-enough solution */
+
+ /* calculate savings */
+ savings[5] = 0;
+ for (i=MINMATCHLENGTH; i<=(int)maxLength; i++)
+ savings[i] = savings[i-1] + (lengthList[i] * (i-3));
+
DISPLAYLEVEL(4, "Selected dict at position %u, of length %u : saves %u (ratio: %.2f) \n",
(unsigned)pos, (unsigned)maxLength, (unsigned)savings[maxLength], (double)savings[maxLength] / (double)maxLength);
-
- solution.pos = (U32)pos;
- solution.length = (U32)maxLength;
- solution.savings = savings[maxLength];
-
- /* mark positions done */
- { U32 id;
- for (id=start; id<end; id++) {
+
+ solution.pos = (U32)pos;
+ solution.length = (U32)maxLength;
+ solution.savings = savings[maxLength];
+
+ /* mark positions done */
+ { U32 id;
+ for (id=start; id<end; id++) {
U32 p, pEnd, length;
U32 const testedPos = (U32)suffix[id];
- if (testedPos == pos)
- length = solution.length;
- else {
+ if (testedPos == pos)
+ length = solution.length;
+ else {
length = (U32)ZDICT_count(b+pos, b+testedPos);
- if (length > solution.length) length = solution.length;
- }
- pEnd = (U32)(testedPos + length);
- for (p=testedPos; p<pEnd; p++)
- doneMarks[p] = 1;
- } } }
-
- return solution;
-}
-
-
+ if (length > solution.length) length = solution.length;
+ }
+ pEnd = (U32)(testedPos + length);
+ for (p=testedPos; p<pEnd; p++)
+ doneMarks[p] = 1;
+ } } }
+
+ return solution;
+}
+
+
static int isIncluded(const void* in, const void* container, size_t length)
{
const char* const ip = (const char*) in;
@@ -429,53 +429,53 @@ static int isIncluded(const void* in, const void* container, size_t length)
}
/*! ZDICT_tryMerge() :
- check if dictItem can be merged, do it if possible
- @return : id of destination elt, 0 if not merged
-*/
+ check if dictItem can be merged, do it if possible
+ @return : id of destination elt, 0 if not merged
+*/
static U32 ZDICT_tryMerge(dictItem* table, dictItem elt, U32 eltNbToSkip, const void* buffer)
-{
- const U32 tableSize = table->pos;
+{
+ const U32 tableSize = table->pos;
const U32 eltEnd = elt.pos + elt.length;
const char* const buf = (const char*) buffer;
-
- /* tail overlap */
- U32 u; for (u=1; u<tableSize; u++) {
- if (u==eltNbToSkip) continue;
+
+ /* tail overlap */
+ U32 u; for (u=1; u<tableSize; u++) {
+ if (u==eltNbToSkip) continue;
if ((table[u].pos > elt.pos) && (table[u].pos <= eltEnd)) { /* overlap, existing > new */
- /* append */
+ /* append */
U32 const addedLength = table[u].pos - elt.pos;
- table[u].length += addedLength;
- table[u].pos = elt.pos;
- table[u].savings += elt.savings * addedLength / elt.length; /* rough approx */
+ table[u].length += addedLength;
+ table[u].pos = elt.pos;
+ table[u].savings += elt.savings * addedLength / elt.length; /* rough approx */
table[u].savings += elt.length / 8; /* rough approx bonus */
- elt = table[u];
+ elt = table[u];
/* sort : improve rank */
- while ((u>1) && (table[u-1].savings < elt.savings))
+ while ((u>1) && (table[u-1].savings < elt.savings))
table[u] = table[u-1], u--;
- table[u] = elt;
- return u;
- } }
-
- /* front overlap */
- for (u=1; u<tableSize; u++) {
- if (u==eltNbToSkip) continue;
+ table[u] = elt;
+ return u;
+ } }
+
+ /* front overlap */
+ for (u=1; u<tableSize; u++) {
+ if (u==eltNbToSkip) continue;
if ((table[u].pos + table[u].length >= elt.pos) && (table[u].pos < elt.pos)) { /* overlap, existing < new */
- /* append */
+ /* append */
int const addedLength = (int)eltEnd - (int)(table[u].pos + table[u].length);
table[u].savings += elt.length / 8; /* rough approx bonus */
if (addedLength > 0) { /* otherwise, elt fully included into existing */
- table[u].length += addedLength;
- table[u].savings += elt.savings * addedLength / elt.length; /* rough approx */
- }
+ table[u].length += addedLength;
+ table[u].savings += elt.savings * addedLength / elt.length; /* rough approx */
+ }
/* sort : improve rank */
- elt = table[u];
- while ((u>1) && (table[u-1].savings < elt.savings))
- table[u] = table[u-1], u--;
- table[u] = elt;
- return u;
+ elt = table[u];
+ while ((u>1) && (table[u-1].savings < elt.savings))
+ table[u] = table[u-1], u--;
+ table[u] = elt;
+ return u;
}
-
+
if (MEM_read64(buf + table[u].pos) == MEM_read64(buf + elt.pos + 1)) {
if (isIncluded(buf + table[u].pos, buf + elt.pos + 1, table[u].length)) {
size_t const addedLength = MAX( (int)elt.length - (int)table[u].length , 1 );
@@ -487,234 +487,234 @@ static U32 ZDICT_tryMerge(dictItem* table, dictItem elt, U32 eltNbToSkip, const
}
}
- return 0;
-}
-
-
-static void ZDICT_removeDictItem(dictItem* table, U32 id)
-{
+ return 0;
+}
+
+
+static void ZDICT_removeDictItem(dictItem* table, U32 id)
+{
/* convention : table[0].pos stores nb of elts */
U32 const max = table[0].pos;
- U32 u;
- if (!id) return; /* protection, should never happen */
- for (u=id; u<max-1; u++)
- table[u] = table[u+1];
- table->pos--;
-}
-
-
+ U32 u;
+ if (!id) return; /* protection, should never happen */
+ for (u=id; u<max-1; u++)
+ table[u] = table[u+1];
+ table->pos--;
+}
+
+
static void ZDICT_insertDictItem(dictItem* table, U32 maxSize, dictItem elt, const void* buffer)
-{
- /* merge if possible */
+{
+ /* merge if possible */
U32 mergeId = ZDICT_tryMerge(table, elt, 0, buffer);
- if (mergeId) {
- U32 newMerge = 1;
- while (newMerge) {
+ if (mergeId) {
+ U32 newMerge = 1;
+ while (newMerge) {
newMerge = ZDICT_tryMerge(table, table[mergeId], mergeId, buffer);
- if (newMerge) ZDICT_removeDictItem(table, mergeId);
- mergeId = newMerge;
- }
- return;
- }
-
- /* insert */
- { U32 current;
- U32 nextElt = table->pos;
- if (nextElt >= maxSize) nextElt = maxSize-1;
- current = nextElt-1;
- while (table[current].savings < elt.savings) {
- table[current+1] = table[current];
- current--;
- }
- table[current+1] = elt;
- table->pos = nextElt+1;
- }
-}
-
-
-static U32 ZDICT_dictSize(const dictItem* dictList)
-{
- U32 u, dictSize = 0;
- for (u=1; u<dictList[0].pos; u++)
- dictSize += dictList[u].length;
- return dictSize;
-}
-
-
+ if (newMerge) ZDICT_removeDictItem(table, mergeId);
+ mergeId = newMerge;
+ }
+ return;
+ }
+
+ /* insert */
+ { U32 current;
+ U32 nextElt = table->pos;
+ if (nextElt >= maxSize) nextElt = maxSize-1;
+ current = nextElt-1;
+ while (table[current].savings < elt.savings) {
+ table[current+1] = table[current];
+ current--;
+ }
+ table[current+1] = elt;
+ table->pos = nextElt+1;
+ }
+}
+
+
+static U32 ZDICT_dictSize(const dictItem* dictList)
+{
+ U32 u, dictSize = 0;
+ for (u=1; u<dictList[0].pos; u++)
+ dictSize += dictList[u].length;
+ return dictSize;
+}
+
+
static size_t ZDICT_trainBuffer_legacy(dictItem* dictList, U32 dictListSize,
- const void* const buffer, size_t bufferSize, /* buffer must end with noisy guard band */
- const size_t* fileSizes, unsigned nbFiles,
+ const void* const buffer, size_t bufferSize, /* buffer must end with noisy guard band */
+ const size_t* fileSizes, unsigned nbFiles,
unsigned minRatio, U32 notificationLevel)
-{
- int* const suffix0 = (int*)malloc((bufferSize+2)*sizeof(*suffix0));
- int* const suffix = suffix0+1;
- U32* reverseSuffix = (U32*)malloc((bufferSize)*sizeof(*reverseSuffix));
- BYTE* doneMarks = (BYTE*)malloc((bufferSize+16)*sizeof(*doneMarks)); /* +16 for overflow security */
- U32* filePos = (U32*)malloc(nbFiles * sizeof(*filePos));
- size_t result = 0;
+{
+ int* const suffix0 = (int*)malloc((bufferSize+2)*sizeof(*suffix0));
+ int* const suffix = suffix0+1;
+ U32* reverseSuffix = (U32*)malloc((bufferSize)*sizeof(*reverseSuffix));
+ BYTE* doneMarks = (BYTE*)malloc((bufferSize+16)*sizeof(*doneMarks)); /* +16 for overflow security */
+ U32* filePos = (U32*)malloc(nbFiles * sizeof(*filePos));
+ size_t result = 0;
clock_t displayClock = 0;
clock_t const refreshRate = CLOCKS_PER_SEC * 3 / 10;
-
+
# undef DISPLAYUPDATE
# define DISPLAYUPDATE(l, ...) if (notificationLevel>=l) { \
if (ZDICT_clockSpan(displayClock) > refreshRate) \
{ displayClock = clock(); DISPLAY(__VA_ARGS__); \
if (notificationLevel>=4) fflush(stderr); } }
- /* init */
- DISPLAYLEVEL(2, "\r%70s\r", ""); /* clean display line */
- if (!suffix0 || !reverseSuffix || !doneMarks || !filePos) {
- result = ERROR(memory_allocation);
- goto _cleanup;
- }
- if (minRatio < MINRATIO) minRatio = MINRATIO;
- memset(doneMarks, 0, bufferSize+16);
-
- /* limit sample set size (divsufsort limitation)*/
+ /* init */
+ DISPLAYLEVEL(2, "\r%70s\r", ""); /* clean display line */
+ if (!suffix0 || !reverseSuffix || !doneMarks || !filePos) {
+ result = ERROR(memory_allocation);
+ goto _cleanup;
+ }
+ if (minRatio < MINRATIO) minRatio = MINRATIO;
+ memset(doneMarks, 0, bufferSize+16);
+
+ /* limit sample set size (divsufsort limitation)*/
if (bufferSize > ZDICT_MAX_SAMPLES_SIZE) DISPLAYLEVEL(3, "sample set too large : reduced to %u MB ...\n", (unsigned)(ZDICT_MAX_SAMPLES_SIZE>>20));
- while (bufferSize > ZDICT_MAX_SAMPLES_SIZE) bufferSize -= fileSizes[--nbFiles];
-
- /* sort */
+ while (bufferSize > ZDICT_MAX_SAMPLES_SIZE) bufferSize -= fileSizes[--nbFiles];
+
+ /* sort */
DISPLAYLEVEL(2, "sorting %u files of total size %u MB ...\n", nbFiles, (unsigned)(bufferSize>>20));
- { int const divSuftSortResult = divsufsort((const unsigned char*)buffer, suffix, (int)bufferSize, 0);
- if (divSuftSortResult != 0) { result = ERROR(GENERIC); goto _cleanup; }
- }
- suffix[bufferSize] = (int)bufferSize; /* leads into noise */
- suffix0[0] = (int)bufferSize; /* leads into noise */
- /* build reverse suffix sort */
- { size_t pos;
- for (pos=0; pos < bufferSize; pos++)
- reverseSuffix[suffix[pos]] = (U32)pos;
+ { int const divSuftSortResult = divsufsort((const unsigned char*)buffer, suffix, (int)bufferSize, 0);
+ if (divSuftSortResult != 0) { result = ERROR(GENERIC); goto _cleanup; }
+ }
+ suffix[bufferSize] = (int)bufferSize; /* leads into noise */
+ suffix0[0] = (int)bufferSize; /* leads into noise */
+ /* build reverse suffix sort */
+ { size_t pos;
+ for (pos=0; pos < bufferSize; pos++)
+ reverseSuffix[suffix[pos]] = (U32)pos;
/* note filePos tracks borders between samples.
It's not used at this stage, but planned to become useful in a later update */
- filePos[0] = 0;
- for (pos=1; pos<nbFiles; pos++)
- filePos[pos] = (U32)(filePos[pos-1] + fileSizes[pos-1]);
- }
-
- DISPLAYLEVEL(2, "finding patterns ... \n");
- DISPLAYLEVEL(3, "minimum ratio : %u \n", minRatio);
-
- { U32 cursor; for (cursor=0; cursor < bufferSize; ) {
- dictItem solution;
- if (doneMarks[cursor]) { cursor++; continue; }
+ filePos[0] = 0;
+ for (pos=1; pos<nbFiles; pos++)
+ filePos[pos] = (U32)(filePos[pos-1] + fileSizes[pos-1]);
+ }
+
+ DISPLAYLEVEL(2, "finding patterns ... \n");
+ DISPLAYLEVEL(3, "minimum ratio : %u \n", minRatio);
+
+ { U32 cursor; for (cursor=0; cursor < bufferSize; ) {
+ dictItem solution;
+ if (doneMarks[cursor]) { cursor++; continue; }
solution = ZDICT_analyzePos(doneMarks, suffix, reverseSuffix[cursor], buffer, minRatio, notificationLevel);
- if (solution.length==0) { cursor++; continue; }
+ if (solution.length==0) { cursor++; continue; }
ZDICT_insertDictItem(dictList, dictListSize, solution, buffer);
- cursor += solution.length;
- DISPLAYUPDATE(2, "\r%4.2f %% \r", (double)cursor / bufferSize * 100);
- } }
-
-_cleanup:
- free(suffix0);
- free(reverseSuffix);
- free(doneMarks);
- free(filePos);
- return result;
-}
-
-
-static void ZDICT_fillNoise(void* buffer, size_t length)
-{
+ cursor += solution.length;
+ DISPLAYUPDATE(2, "\r%4.2f %% \r", (double)cursor / bufferSize * 100);
+ } }
+
+_cleanup:
+ free(suffix0);
+ free(reverseSuffix);
+ free(doneMarks);
+ free(filePos);
+ return result;
+}
+
+
+static void ZDICT_fillNoise(void* buffer, size_t length)
+{
unsigned const prime1 = 2654435761U;
unsigned const prime2 = 2246822519U;
unsigned acc = prime1;
size_t p=0;
- for (p=0; p<length; p++) {
+ for (p=0; p<length; p++) {
acc *= prime2;
- ((unsigned char*)buffer)[p] = (unsigned char)(acc >> 21);
- }
-}
-
-
-typedef struct
-{
+ ((unsigned char*)buffer)[p] = (unsigned char)(acc >> 21);
+ }
+}
+
+
+typedef struct
+{
ZSTD_CDict* dict; /* dictionary */
ZSTD_CCtx* zc; /* working context */
void* workPlace; /* must be ZSTD_BLOCKSIZE_MAX allocated */
-} EStats_ress_t;
-
-#define MAXREPOFFSET 1024
-
+} EStats_ress_t;
+
+#define MAXREPOFFSET 1024
+
static void ZDICT_countEStats(EStats_ress_t esr, const ZSTD_parameters* params,
unsigned* countLit, unsigned* offsetcodeCount, unsigned* matchlengthCount, unsigned* litlengthCount, U32* repOffsets,
const void* src, size_t srcSize,
U32 notificationLevel)
-{
+{
size_t const blockSizeMax = MIN (ZSTD_BLOCKSIZE_MAX, 1 << params->cParams.windowLog);
- size_t cSize;
-
- if (srcSize > blockSizeMax) srcSize = blockSizeMax; /* protection vs large samples */
+ size_t cSize;
+
+ if (srcSize > blockSizeMax) srcSize = blockSizeMax; /* protection vs large samples */
{ size_t const errorCode = ZSTD_compressBegin_usingCDict(esr.zc, esr.dict);
if (ZSTD_isError(errorCode)) { DISPLAYLEVEL(1, "warning : ZSTD_compressBegin_usingCDict failed \n"); return; }
}
cSize = ZSTD_compressBlock(esr.zc, esr.workPlace, ZSTD_BLOCKSIZE_MAX, src, srcSize);
if (ZSTD_isError(cSize)) { DISPLAYLEVEL(3, "warning : could not compress sample size %u \n", (unsigned)srcSize); return; }
-
- if (cSize) { /* if == 0; block is not compressible */
+
+ if (cSize) { /* if == 0; block is not compressible */
const seqStore_t* const seqStorePtr = ZSTD_getSeqStore(esr.zc);
-
- /* literals stats */
- { const BYTE* bytePtr;
- for(bytePtr = seqStorePtr->litStart; bytePtr < seqStorePtr->lit; bytePtr++)
- countLit[*bytePtr]++;
- }
-
- /* seqStats */
- { U32 const nbSeq = (U32)(seqStorePtr->sequences - seqStorePtr->sequencesStart);
- ZSTD_seqToCodes(seqStorePtr);
-
- { const BYTE* codePtr = seqStorePtr->ofCode;
- U32 u;
- for (u=0; u<nbSeq; u++) offsetcodeCount[codePtr[u]]++;
- }
-
- { const BYTE* codePtr = seqStorePtr->mlCode;
- U32 u;
- for (u=0; u<nbSeq; u++) matchlengthCount[codePtr[u]]++;
- }
-
- { const BYTE* codePtr = seqStorePtr->llCode;
- U32 u;
- for (u=0; u<nbSeq; u++) litlengthCount[codePtr[u]]++;
- }
-
- if (nbSeq >= 2) { /* rep offsets */
- const seqDef* const seq = seqStorePtr->sequencesStart;
+
+ /* literals stats */
+ { const BYTE* bytePtr;
+ for(bytePtr = seqStorePtr->litStart; bytePtr < seqStorePtr->lit; bytePtr++)
+ countLit[*bytePtr]++;
+ }
+
+ /* seqStats */
+ { U32 const nbSeq = (U32)(seqStorePtr->sequences - seqStorePtr->sequencesStart);
+ ZSTD_seqToCodes(seqStorePtr);
+
+ { const BYTE* codePtr = seqStorePtr->ofCode;
+ U32 u;
+ for (u=0; u<nbSeq; u++) offsetcodeCount[codePtr[u]]++;
+ }
+
+ { const BYTE* codePtr = seqStorePtr->mlCode;
+ U32 u;
+ for (u=0; u<nbSeq; u++) matchlengthCount[codePtr[u]]++;
+ }
+
+ { const BYTE* codePtr = seqStorePtr->llCode;
+ U32 u;
+ for (u=0; u<nbSeq; u++) litlengthCount[codePtr[u]]++;
+ }
+
+ if (nbSeq >= 2) { /* rep offsets */
+ const seqDef* const seq = seqStorePtr->sequencesStart;
U32 offset1 = seq[0].offBase - ZSTD_REP_NUM;
U32 offset2 = seq[1].offBase - ZSTD_REP_NUM;
- if (offset1 >= MAXREPOFFSET) offset1 = 0;
- if (offset2 >= MAXREPOFFSET) offset2 = 0;
- repOffsets[offset1] += 3;
- repOffsets[offset2] += 1;
- } } }
-}
-
-static size_t ZDICT_totalSampleSize(const size_t* fileSizes, unsigned nbFiles)
-{
- size_t total=0;
- unsigned u;
- for (u=0; u<nbFiles; u++) total += fileSizes[u];
- return total;
-}
-
-typedef struct { U32 offset; U32 count; } offsetCount_t;
-
-static void ZDICT_insertSortCount(offsetCount_t table[ZSTD_REP_NUM+1], U32 val, U32 count)
-{
- U32 u;
- table[ZSTD_REP_NUM].offset = val;
- table[ZSTD_REP_NUM].count = count;
- for (u=ZSTD_REP_NUM; u>0; u--) {
- offsetCount_t tmp;
- if (table[u-1].count >= table[u].count) break;
- tmp = table[u-1];
- table[u-1] = table[u];
- table[u] = tmp;
- }
-}
-
+ if (offset1 >= MAXREPOFFSET) offset1 = 0;
+ if (offset2 >= MAXREPOFFSET) offset2 = 0;
+ repOffsets[offset1] += 3;
+ repOffsets[offset2] += 1;
+ } } }
+}
+
+static size_t ZDICT_totalSampleSize(const size_t* fileSizes, unsigned nbFiles)
+{
+ size_t total=0;
+ unsigned u;
+ for (u=0; u<nbFiles; u++) total += fileSizes[u];
+ return total;
+}
+
+typedef struct { U32 offset; U32 count; } offsetCount_t;
+
+static void ZDICT_insertSortCount(offsetCount_t table[ZSTD_REP_NUM+1], U32 val, U32 count)
+{
+ U32 u;
+ table[ZSTD_REP_NUM].offset = val;
+ table[ZSTD_REP_NUM].count = count;
+ for (u=ZSTD_REP_NUM; u>0; u--) {
+ offsetCount_t tmp;
+ if (table[u-1].count >= table[u].count) break;
+ tmp = table[u-1];
+ table[u-1] = table[u];
+ table[u] = tmp;
+ }
+}
+
/* ZDICT_flatLit() :
* rewrite `countLit` to contain a mostly flat but still compressible distribution of literals.
* necessary to avoid generating a non-compressible distribution that HUF_writeCTable() cannot encode.
@@ -727,47 +727,47 @@ static void ZDICT_flatLit(unsigned* countLit)
countLit[253] = 1;
countLit[254] = 1;
}
-
-#define OFFCODE_MAX 30 /* only applicable to first block */
-static size_t ZDICT_analyzeEntropy(void* dstBuffer, size_t maxDstSize,
+
+#define OFFCODE_MAX 30 /* only applicable to first block */
+static size_t ZDICT_analyzeEntropy(void* dstBuffer, size_t maxDstSize,
int compressionLevel,
const void* srcBuffer, const size_t* fileSizes, unsigned nbFiles,
const void* dictBuffer, size_t dictBufferSize,
unsigned notificationLevel)
-{
+{
unsigned countLit[256];
- HUF_CREATE_STATIC_CTABLE(hufTable, 255);
+ HUF_CREATE_STATIC_CTABLE(hufTable, 255);
unsigned offcodeCount[OFFCODE_MAX+1];
- short offcodeNCount[OFFCODE_MAX+1];
- U32 offcodeMax = ZSTD_highbit32((U32)(dictBufferSize + 128 KB));
+ short offcodeNCount[OFFCODE_MAX+1];
+ U32 offcodeMax = ZSTD_highbit32((U32)(dictBufferSize + 128 KB));
unsigned matchLengthCount[MaxML+1];
- short matchLengthNCount[MaxML+1];
+ short matchLengthNCount[MaxML+1];
unsigned litLengthCount[MaxLL+1];
- short litLengthNCount[MaxLL+1];
- U32 repOffset[MAXREPOFFSET];
- offsetCount_t bestRepOffset[ZSTD_REP_NUM+1];
+ short litLengthNCount[MaxLL+1];
+ U32 repOffset[MAXREPOFFSET];
+ offsetCount_t bestRepOffset[ZSTD_REP_NUM+1];
EStats_ress_t esr = { NULL, NULL, NULL };
- ZSTD_parameters params;
- U32 u, huffLog = 11, Offlog = OffFSELog, mlLog = MLFSELog, llLog = LLFSELog, total;
- size_t pos = 0, errorCode;
- size_t eSize = 0;
- size_t const totalSrcSize = ZDICT_totalSampleSize(fileSizes, nbFiles);
+ ZSTD_parameters params;
+ U32 u, huffLog = 11, Offlog = OffFSELog, mlLog = MLFSELog, llLog = LLFSELog, total;
+ size_t pos = 0, errorCode;
+ size_t eSize = 0;
+ size_t const totalSrcSize = ZDICT_totalSampleSize(fileSizes, nbFiles);
size_t const averageSampleSize = totalSrcSize / (nbFiles + !nbFiles);
- BYTE* dstPtr = (BYTE*)dstBuffer;
-
- /* init */
+ BYTE* dstPtr = (BYTE*)dstBuffer;
+
+ /* init */
DEBUGLOG(4, "ZDICT_analyzeEntropy");
if (offcodeMax>OFFCODE_MAX) { eSize = ERROR(dictionaryCreation_failed); goto _cleanup; } /* too large dictionary */
for (u=0; u<256; u++) countLit[u] = 1; /* any character must be described */
for (u=0; u<=offcodeMax; u++) offcodeCount[u] = 1;
for (u=0; u<=MaxML; u++) matchLengthCount[u] = 1;
for (u=0; u<=MaxLL; u++) litLengthCount[u] = 1;
- memset(repOffset, 0, sizeof(repOffset));
- repOffset[1] = repOffset[4] = repOffset[8] = 1;
- memset(bestRepOffset, 0, sizeof(bestRepOffset));
+ memset(repOffset, 0, sizeof(repOffset));
+ repOffset[1] = repOffset[4] = repOffset[8] = 1;
+ memset(bestRepOffset, 0, sizeof(bestRepOffset));
if (compressionLevel==0) compressionLevel = ZSTD_CLEVEL_DEFAULT;
- params = ZSTD_getParams(compressionLevel, averageSampleSize, dictBufferSize);
-
+ params = ZSTD_getParams(compressionLevel, averageSampleSize, dictBufferSize);
+
esr.dict = ZSTD_createCDict_advanced(dictBuffer, dictBufferSize, ZSTD_dlm_byRef, ZSTD_dct_rawContent, params.cParams, ZSTD_defaultCMem);
esr.zc = ZSTD_createCCtx();
esr.workPlace = malloc(ZSTD_BLOCKSIZE_MAX);
@@ -778,14 +778,14 @@ static size_t ZDICT_analyzeEntropy(void* dstBuffer, size_t maxDstSize,
}
/* collect stats on all samples */
- for (u=0; u<nbFiles; u++) {
+ for (u=0; u<nbFiles; u++) {
ZDICT_countEStats(esr, &params,
countLit, offcodeCount, matchLengthCount, litLengthCount, repOffset,
(const char*)srcBuffer + pos, fileSizes[u],
notificationLevel);
- pos += fileSizes[u];
- }
-
+ pos += fileSizes[u];
+ }
+
if (notificationLevel >= 4) {
/* writeStats */
DISPLAYLEVEL(4, "Offset Code Frequencies : \n");
@@ -807,114 +807,114 @@ static size_t ZDICT_analyzeEntropy(void* dstBuffer, size_t maxDstSize,
assert(maxNbBits==9);
}
huffLog = (U32)maxNbBits;
- }
-
- /* looking for most common first offsets */
- { U32 offset;
- for (offset=1; offset<MAXREPOFFSET; offset++)
- ZDICT_insertSortCount(bestRepOffset, offset, repOffset[offset]);
- }
- /* note : the result of this phase should be used to better appreciate the impact on statistics */
-
- total=0; for (u=0; u<=offcodeMax; u++) total+=offcodeCount[u];
+ }
+
+ /* looking for most common first offsets */
+ { U32 offset;
+ for (offset=1; offset<MAXREPOFFSET; offset++)
+ ZDICT_insertSortCount(bestRepOffset, offset, repOffset[offset]);
+ }
+ /* note : the result of this phase should be used to better appreciate the impact on statistics */
+
+ total=0; for (u=0; u<=offcodeMax; u++) total+=offcodeCount[u];
errorCode = FSE_normalizeCount(offcodeNCount, Offlog, offcodeCount, total, offcodeMax, /* useLowProbCount */ 1);
- if (FSE_isError(errorCode)) {
+ if (FSE_isError(errorCode)) {
eSize = errorCode;
DISPLAYLEVEL(1, "FSE_normalizeCount error with offcodeCount \n");
- goto _cleanup;
- }
- Offlog = (U32)errorCode;
-
- total=0; for (u=0; u<=MaxML; u++) total+=matchLengthCount[u];
+ goto _cleanup;
+ }
+ Offlog = (U32)errorCode;
+
+ total=0; for (u=0; u<=MaxML; u++) total+=matchLengthCount[u];
errorCode = FSE_normalizeCount(matchLengthNCount, mlLog, matchLengthCount, total, MaxML, /* useLowProbCount */ 1);
- if (FSE_isError(errorCode)) {
+ if (FSE_isError(errorCode)) {
eSize = errorCode;
DISPLAYLEVEL(1, "FSE_normalizeCount error with matchLengthCount \n");
- goto _cleanup;
- }
- mlLog = (U32)errorCode;
-
- total=0; for (u=0; u<=MaxLL; u++) total+=litLengthCount[u];
+ goto _cleanup;
+ }
+ mlLog = (U32)errorCode;
+
+ total=0; for (u=0; u<=MaxLL; u++) total+=litLengthCount[u];
errorCode = FSE_normalizeCount(litLengthNCount, llLog, litLengthCount, total, MaxLL, /* useLowProbCount */ 1);
- if (FSE_isError(errorCode)) {
+ if (FSE_isError(errorCode)) {
eSize = errorCode;
DISPLAYLEVEL(1, "FSE_normalizeCount error with litLengthCount \n");
- goto _cleanup;
- }
- llLog = (U32)errorCode;
-
- /* write result to buffer */
- { size_t const hhSize = HUF_writeCTable(dstPtr, maxDstSize, hufTable, 255, huffLog);
- if (HUF_isError(hhSize)) {
+ goto _cleanup;
+ }
+ llLog = (U32)errorCode;
+
+ /* write result to buffer */
+ { size_t const hhSize = HUF_writeCTable(dstPtr, maxDstSize, hufTable, 255, huffLog);
+ if (HUF_isError(hhSize)) {
eSize = hhSize;
DISPLAYLEVEL(1, "HUF_writeCTable error \n");
- goto _cleanup;
- }
- dstPtr += hhSize;
- maxDstSize -= hhSize;
- eSize += hhSize;
- }
-
- { size_t const ohSize = FSE_writeNCount(dstPtr, maxDstSize, offcodeNCount, OFFCODE_MAX, Offlog);
- if (FSE_isError(ohSize)) {
+ goto _cleanup;
+ }
+ dstPtr += hhSize;
+ maxDstSize -= hhSize;
+ eSize += hhSize;
+ }
+
+ { size_t const ohSize = FSE_writeNCount(dstPtr, maxDstSize, offcodeNCount, OFFCODE_MAX, Offlog);
+ if (FSE_isError(ohSize)) {
eSize = ohSize;
DISPLAYLEVEL(1, "FSE_writeNCount error with offcodeNCount \n");
- goto _cleanup;
- }
- dstPtr += ohSize;
- maxDstSize -= ohSize;
- eSize += ohSize;
- }
-
- { size_t const mhSize = FSE_writeNCount(dstPtr, maxDstSize, matchLengthNCount, MaxML, mlLog);
- if (FSE_isError(mhSize)) {
+ goto _cleanup;
+ }
+ dstPtr += ohSize;
+ maxDstSize -= ohSize;
+ eSize += ohSize;
+ }
+
+ { size_t const mhSize = FSE_writeNCount(dstPtr, maxDstSize, matchLengthNCount, MaxML, mlLog);
+ if (FSE_isError(mhSize)) {
eSize = mhSize;
DISPLAYLEVEL(1, "FSE_writeNCount error with matchLengthNCount \n");
- goto _cleanup;
- }
- dstPtr += mhSize;
- maxDstSize -= mhSize;
- eSize += mhSize;
- }
-
- { size_t const lhSize = FSE_writeNCount(dstPtr, maxDstSize, litLengthNCount, MaxLL, llLog);
- if (FSE_isError(lhSize)) {
+ goto _cleanup;
+ }
+ dstPtr += mhSize;
+ maxDstSize -= mhSize;
+ eSize += mhSize;
+ }
+
+ { size_t const lhSize = FSE_writeNCount(dstPtr, maxDstSize, litLengthNCount, MaxLL, llLog);
+ if (FSE_isError(lhSize)) {
eSize = lhSize;
DISPLAYLEVEL(1, "FSE_writeNCount error with litlengthNCount \n");
- goto _cleanup;
- }
- dstPtr += lhSize;
- maxDstSize -= lhSize;
- eSize += lhSize;
- }
-
- if (maxDstSize<12) {
+ goto _cleanup;
+ }
+ dstPtr += lhSize;
+ maxDstSize -= lhSize;
+ eSize += lhSize;
+ }
+
+ if (maxDstSize<12) {
eSize = ERROR(dstSize_tooSmall);
DISPLAYLEVEL(1, "not enough space to write RepOffsets \n");
- goto _cleanup;
- }
-# if 0
- MEM_writeLE32(dstPtr+0, bestRepOffset[0].offset);
- MEM_writeLE32(dstPtr+4, bestRepOffset[1].offset);
- MEM_writeLE32(dstPtr+8, bestRepOffset[2].offset);
-#else
- /* at this stage, we don't use the result of "most common first offset",
+ goto _cleanup;
+ }
+# if 0
+ MEM_writeLE32(dstPtr+0, bestRepOffset[0].offset);
+ MEM_writeLE32(dstPtr+4, bestRepOffset[1].offset);
+ MEM_writeLE32(dstPtr+8, bestRepOffset[2].offset);
+#else
+ /* at this stage, we don't use the result of "most common first offset",
* as the impact of statistics is not properly evaluated */
- MEM_writeLE32(dstPtr+0, repStartValue[0]);
- MEM_writeLE32(dstPtr+4, repStartValue[1]);
- MEM_writeLE32(dstPtr+8, repStartValue[2]);
-#endif
- eSize += 12;
-
-_cleanup:
+ MEM_writeLE32(dstPtr+0, repStartValue[0]);
+ MEM_writeLE32(dstPtr+4, repStartValue[1]);
+ MEM_writeLE32(dstPtr+8, repStartValue[2]);
+#endif
+ eSize += 12;
+
+_cleanup:
ZSTD_freeCDict(esr.dict);
- ZSTD_freeCCtx(esr.zc);
- free(esr.workPlace);
-
- return eSize;
-}
-
-
+ ZSTD_freeCCtx(esr.zc);
+ free(esr.workPlace);
+
+ return eSize;
+}
+
+
/**
* @returns the maximum repcode value
*/
@@ -931,8 +931,8 @@ size_t ZDICT_finalizeDictionary(void* dictBuffer, size_t dictBufferCapacity,
const void* customDictContent, size_t dictContentSize,
const void* samplesBuffer, const size_t* samplesSizes,
unsigned nbSamples, ZDICT_params_t params)
-{
- size_t hSize;
+{
+ size_t hSize;
#define HBUFFSIZE 256 /* should prove large enough for all entropy headers */
BYTE header[HBUFFSIZE];
int const compressionLevel = (params.compressionLevel == 0) ? ZSTD_CLEVEL_DEFAULT : params.compressionLevel;
@@ -940,24 +940,24 @@ size_t ZDICT_finalizeDictionary(void* dictBuffer, size_t dictBufferCapacity,
/* The final dictionary content must be at least as large as the largest repcode */
size_t const minContentSize = (size_t)ZDICT_maxRep(repStartValue);
size_t paddingSize;
-
+
/* check conditions */
DEBUGLOG(4, "ZDICT_finalizeDictionary");
if (dictBufferCapacity < dictContentSize) return ERROR(dstSize_tooSmall);
if (dictBufferCapacity < ZDICT_DICTSIZE_MIN) return ERROR(dstSize_tooSmall);
- /* dictionary header */
+ /* dictionary header */
MEM_writeLE32(header, ZSTD_MAGIC_DICTIONARY);
{ U64 const randomID = XXH64(customDictContent, dictContentSize, 0);
- U32 const compliantID = (randomID % ((1U<<31)-32768)) + 32768;
- U32 const dictID = params.dictID ? params.dictID : compliantID;
+ U32 const compliantID = (randomID % ((1U<<31)-32768)) + 32768;
+ U32 const dictID = params.dictID ? params.dictID : compliantID;
MEM_writeLE32(header+4, dictID);
- }
- hSize = 8;
-
- /* entropy tables */
- DISPLAYLEVEL(2, "\r%70s\r", ""); /* clean display line */
- DISPLAYLEVEL(2, "statistics ... \n");
+ }
+ hSize = 8;
+
+ /* entropy tables */
+ DISPLAYLEVEL(2, "\r%70s\r", ""); /* clean display line */
+ DISPLAYLEVEL(2, "statistics ... \n");
{ size_t const eSize = ZDICT_analyzeEntropy(header+hSize, HBUFFSIZE-hSize,
compressionLevel,
samplesBuffer, samplesSizes, nbSamples,
@@ -1022,14 +1022,14 @@ static size_t ZDICT_addEntropyTablesFromBuffer_advanced(
DISPLAYLEVEL(2, "\r%70s\r", ""); /* clean display line */
DISPLAYLEVEL(2, "statistics ... \n");
{ size_t const eSize = ZDICT_analyzeEntropy((char*)dictBuffer+hSize, dictBufferCapacity-hSize,
- compressionLevel,
- samplesBuffer, samplesSizes, nbSamples,
+ compressionLevel,
+ samplesBuffer, samplesSizes, nbSamples,
(char*)dictBuffer + dictBufferCapacity - dictContentSize, dictContentSize,
notificationLevel);
if (ZDICT_isError(eSize)) return eSize;
hSize += eSize;
}
-
+
/* add dictionary header (after entropy tables) */
MEM_writeLE32(dictBuffer, ZSTD_MAGIC_DICTIONARY);
{ U64 const randomID = XXH64((char*)dictBuffer + dictBufferCapacity - dictContentSize, dictContentSize, 0);
@@ -1038,44 +1038,44 @@ static size_t ZDICT_addEntropyTablesFromBuffer_advanced(
MEM_writeLE32((char*)dictBuffer+4, dictID);
}
- if (hSize + dictContentSize < dictBufferCapacity)
- memmove((char*)dictBuffer + hSize, (char*)dictBuffer + dictBufferCapacity - dictContentSize, dictContentSize);
- return MIN(dictBufferCapacity, hSize+dictContentSize);
-}
-
+ if (hSize + dictContentSize < dictBufferCapacity)
+ memmove((char*)dictBuffer + hSize, (char*)dictBuffer + dictBufferCapacity - dictContentSize, dictContentSize);
+ return MIN(dictBufferCapacity, hSize+dictContentSize);
+}
+
/*! ZDICT_trainFromBuffer_unsafe_legacy() :
* Warning : `samplesBuffer` must be followed by noisy guard band !!!
-* @return : size of dictionary, or an error code which can be tested with ZDICT_isError()
-*/
+* @return : size of dictionary, or an error code which can be tested with ZDICT_isError()
+*/
static size_t ZDICT_trainFromBuffer_unsafe_legacy(
- void* dictBuffer, size_t maxDictSize,
- const void* samplesBuffer, const size_t* samplesSizes, unsigned nbSamples,
+ void* dictBuffer, size_t maxDictSize,
+ const void* samplesBuffer, const size_t* samplesSizes, unsigned nbSamples,
ZDICT_legacy_params_t params)
-{
+{
U32 const dictListSize = MAX(MAX(DICTLISTSIZE_DEFAULT, nbSamples), (U32)(maxDictSize/16));
- dictItem* const dictList = (dictItem*)malloc(dictListSize * sizeof(*dictList));
- unsigned const selectivity = params.selectivityLevel == 0 ? g_selectivity_default : params.selectivityLevel;
- unsigned const minRep = (selectivity > 30) ? MINRATIO : nbSamples >> selectivity;
- size_t const targetDictSize = maxDictSize;
- size_t const samplesBuffSize = ZDICT_totalSampleSize(samplesSizes, nbSamples);
- size_t dictSize = 0;
+ dictItem* const dictList = (dictItem*)malloc(dictListSize * sizeof(*dictList));
+ unsigned const selectivity = params.selectivityLevel == 0 ? g_selectivity_default : params.selectivityLevel;
+ unsigned const minRep = (selectivity > 30) ? MINRATIO : nbSamples >> selectivity;
+ size_t const targetDictSize = maxDictSize;
+ size_t const samplesBuffSize = ZDICT_totalSampleSize(samplesSizes, nbSamples);
+ size_t dictSize = 0;
U32 const notificationLevel = params.zParams.notificationLevel;
-
- /* checks */
- if (!dictList) return ERROR(memory_allocation);
+
+ /* checks */
+ if (!dictList) return ERROR(memory_allocation);
if (maxDictSize < ZDICT_DICTSIZE_MIN) { free(dictList); return ERROR(dstSize_tooSmall); } /* requested dictionary size is too small */
if (samplesBuffSize < ZDICT_MIN_SAMPLES_SIZE) { free(dictList); return ERROR(dictionaryCreation_failed); } /* not enough source to create dictionary */
-
- /* init */
- ZDICT_initDictItem(dictList);
-
- /* build dictionary */
+
+ /* init */
+ ZDICT_initDictItem(dictList);
+
+ /* build dictionary */
ZDICT_trainBuffer_legacy(dictList, dictListSize,
samplesBuffer, samplesBuffSize,
samplesSizes, nbSamples,
minRep, notificationLevel);
-
- /* display best matches */
+
+ /* display best matches */
if (params.zParams.notificationLevel>= 3) {
unsigned const nb = MIN(25, dictList[0].pos);
unsigned const dictContentSize = ZDICT_dictSize(dictList);
@@ -1090,98 +1090,98 @@ static size_t ZDICT_trainFromBuffer_unsafe_legacy(
free(dictList);
return ERROR(GENERIC); /* should never happen */
}
- DISPLAYLEVEL(3, "%3u:%3u bytes at pos %8u, savings %7u bytes |",
+ DISPLAYLEVEL(3, "%3u:%3u bytes at pos %8u, savings %7u bytes |",
u, length, pos, (unsigned)dictList[u].savings);
ZDICT_printHex((const char*)samplesBuffer+pos, printedLength);
- DISPLAYLEVEL(3, "| \n");
- } }
-
-
- /* create dictionary */
+ DISPLAYLEVEL(3, "| \n");
+ } }
+
+
+ /* create dictionary */
{ unsigned dictContentSize = ZDICT_dictSize(dictList);
if (dictContentSize < ZDICT_CONTENTSIZE_MIN) { free(dictList); return ERROR(dictionaryCreation_failed); } /* dictionary content too small */
if (dictContentSize < targetDictSize/4) {
DISPLAYLEVEL(2, "! warning : selected content significantly smaller than requested (%u < %u) \n", dictContentSize, (unsigned)maxDictSize);
if (samplesBuffSize < 10 * targetDictSize)
DISPLAYLEVEL(2, "! consider increasing the number of samples (total size : %u MB)\n", (unsigned)(samplesBuffSize>>20));
- if (minRep > MINRATIO) {
- DISPLAYLEVEL(2, "! consider increasing selectivity to produce larger dictionary (-s%u) \n", selectivity+1);
- DISPLAYLEVEL(2, "! note : larger dictionaries are not necessarily better, test its efficiency on samples \n");
- }
- }
-
+ if (minRep > MINRATIO) {
+ DISPLAYLEVEL(2, "! consider increasing selectivity to produce larger dictionary (-s%u) \n", selectivity+1);
+ DISPLAYLEVEL(2, "! note : larger dictionaries are not necessarily better, test its efficiency on samples \n");
+ }
+ }
+
if ((dictContentSize > targetDictSize*3) && (nbSamples > 2*MINRATIO) && (selectivity>1)) {
unsigned proposedSelectivity = selectivity-1;
- while ((nbSamples >> proposedSelectivity) <= MINRATIO) { proposedSelectivity--; }
+ while ((nbSamples >> proposedSelectivity) <= MINRATIO) { proposedSelectivity--; }
DISPLAYLEVEL(2, "! note : calculated dictionary significantly larger than requested (%u > %u) \n", dictContentSize, (unsigned)maxDictSize);
DISPLAYLEVEL(2, "! consider increasing dictionary size, or produce denser dictionary (-s%u) \n", proposedSelectivity);
DISPLAYLEVEL(2, "! always test dictionary efficiency on real samples \n");
- }
-
- /* limit dictionary size */
- { U32 const max = dictList->pos; /* convention : nb of useful elts within dictList */
- U32 currentSize = 0;
- U32 n; for (n=1; n<max; n++) {
- currentSize += dictList[n].length;
- if (currentSize > targetDictSize) { currentSize -= dictList[n].length; break; }
- }
- dictList->pos = n;
- dictContentSize = currentSize;
- }
-
- /* build dict content */
- { U32 u;
- BYTE* ptr = (BYTE*)dictBuffer + maxDictSize;
- for (u=1; u<dictList->pos; u++) {
- U32 l = dictList[u].length;
- ptr -= l;
- if (ptr<(BYTE*)dictBuffer) { free(dictList); return ERROR(GENERIC); } /* should not happen */
- memcpy(ptr, (const char*)samplesBuffer+dictList[u].pos, l);
- } }
-
- dictSize = ZDICT_addEntropyTablesFromBuffer_advanced(dictBuffer, dictContentSize, maxDictSize,
- samplesBuffer, samplesSizes, nbSamples,
+ }
+
+ /* limit dictionary size */
+ { U32 const max = dictList->pos; /* convention : nb of useful elts within dictList */
+ U32 currentSize = 0;
+ U32 n; for (n=1; n<max; n++) {
+ currentSize += dictList[n].length;
+ if (currentSize > targetDictSize) { currentSize -= dictList[n].length; break; }
+ }
+ dictList->pos = n;
+ dictContentSize = currentSize;
+ }
+
+ /* build dict content */
+ { U32 u;
+ BYTE* ptr = (BYTE*)dictBuffer + maxDictSize;
+ for (u=1; u<dictList->pos; u++) {
+ U32 l = dictList[u].length;
+ ptr -= l;
+ if (ptr<(BYTE*)dictBuffer) { free(dictList); return ERROR(GENERIC); } /* should not happen */
+ memcpy(ptr, (const char*)samplesBuffer+dictList[u].pos, l);
+ } }
+
+ dictSize = ZDICT_addEntropyTablesFromBuffer_advanced(dictBuffer, dictContentSize, maxDictSize,
+ samplesBuffer, samplesSizes, nbSamples,
params.zParams);
- }
-
- /* clean up */
- free(dictList);
- return dictSize;
-}
-
-
+ }
+
+ /* clean up */
+ free(dictList);
+ return dictSize;
+}
+
+
/* ZDICT_trainFromBuffer_legacy() :
* issue : samplesBuffer need to be followed by a noisy guard band.
* work around : duplicate the buffer, and add the noise */
size_t ZDICT_trainFromBuffer_legacy(void* dictBuffer, size_t dictBufferCapacity,
const void* samplesBuffer, const size_t* samplesSizes, unsigned nbSamples,
ZDICT_legacy_params_t params)
-{
- size_t result;
- void* newBuff;
- size_t const sBuffSize = ZDICT_totalSampleSize(samplesSizes, nbSamples);
+{
+ size_t result;
+ void* newBuff;
+ size_t const sBuffSize = ZDICT_totalSampleSize(samplesSizes, nbSamples);
if (sBuffSize < ZDICT_MIN_SAMPLES_SIZE) return 0; /* not enough content => no dictionary */
-
- newBuff = malloc(sBuffSize + NOISELENGTH);
- if (!newBuff) return ERROR(memory_allocation);
-
- memcpy(newBuff, samplesBuffer, sBuffSize);
- ZDICT_fillNoise((char*)newBuff + sBuffSize, NOISELENGTH); /* guard band, for end of buffer condition */
-
+
+ newBuff = malloc(sBuffSize + NOISELENGTH);
+ if (!newBuff) return ERROR(memory_allocation);
+
+ memcpy(newBuff, samplesBuffer, sBuffSize);
+ ZDICT_fillNoise((char*)newBuff + sBuffSize, NOISELENGTH); /* guard band, for end of buffer condition */
+
result =
ZDICT_trainFromBuffer_unsafe_legacy(dictBuffer, dictBufferCapacity, newBuff,
samplesSizes, nbSamples, params);
- free(newBuff);
- return result;
-}
-
-
-size_t ZDICT_trainFromBuffer(void* dictBuffer, size_t dictBufferCapacity,
- const void* samplesBuffer, const size_t* samplesSizes, unsigned nbSamples)
-{
+ free(newBuff);
+ return result;
+}
+
+
+size_t ZDICT_trainFromBuffer(void* dictBuffer, size_t dictBufferCapacity,
+ const void* samplesBuffer, const size_t* samplesSizes, unsigned nbSamples)
+{
ZDICT_fastCover_params_t params;
DEBUGLOG(3, "ZDICT_trainFromBuffer");
- memset(&params, 0, sizeof(params));
+ memset(&params, 0, sizeof(params));
params.d = 8;
params.steps = 4;
/* Use default level since no compression level information is available */
@@ -1192,14 +1192,14 @@ size_t ZDICT_trainFromBuffer(void* dictBuffer, size_t dictBufferCapacity,
return ZDICT_optimizeTrainFromBuffer_fastCover(dictBuffer, dictBufferCapacity,
samplesBuffer, samplesSizes, nbSamples,
&params);
-}
-
-size_t ZDICT_addEntropyTablesFromBuffer(void* dictBuffer, size_t dictContentSize, size_t dictBufferCapacity,
+}
+
+size_t ZDICT_addEntropyTablesFromBuffer(void* dictBuffer, size_t dictContentSize, size_t dictBufferCapacity,
const void* samplesBuffer, const size_t* samplesSizes, unsigned nbSamples)
-{
- ZDICT_params_t params;
- memset(&params, 0, sizeof(params));
- return ZDICT_addEntropyTablesFromBuffer_advanced(dictBuffer, dictContentSize, dictBufferCapacity,
- samplesBuffer, samplesSizes, nbSamples,
- params);
-}
+{
+ ZDICT_params_t params;
+ memset(&params, 0, sizeof(params));
+ return ZDICT_addEntropyTablesFromBuffer_advanced(dictBuffer, dictContentSize, dictBufferCapacity,
+ samplesBuffer, samplesSizes, nbSamples,
+ params);
+}