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/* | ||
* This software is licensed under the terms of the MIT License. | ||
* See COPYING for further information. | ||
* --- | ||
* Copyright (c) 2011-2024, Lukas Weber <laochailan@web.de>. | ||
* Copyright (c) 2012-2024, Andrei Alexeyev <akari@taisei-project.org>. | ||
*/ | ||
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// | ||
// Adapted from https://github.com/noporpoise/sort_r | ||
// | ||
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#include "sort_r.h" | ||
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/* Isaac Turner 29 April 2014 Public Domain */ | ||
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#include <stdlib.h> /* qsort_r(), qsort_s() */ | ||
#include <string.h> /* needed for memcpy() */ | ||
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/* | ||
sort_r function to be exported. | ||
Parameters: | ||
base is the array to be sorted | ||
nel is the number of elements in the array | ||
width is the size in bytes of each element of the array | ||
compar is the comparison function | ||
arg is a pointer to be passed to the comparison function | ||
void sort_r(void *base, size_t nel, size_t width, | ||
int (*compar)(const void *_a, const void *_b, void *_arg), | ||
void *arg); | ||
*/ | ||
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#if defined TAISEI_BUILDCONF_HAVE_GNU_QSORT_R | ||
# define _SORT_R_LINUX | ||
#elif defined TAISEI_BUILDCONF_HAVE_BSD_QSORT_R | ||
# define _SORT_R_BSD | ||
#elif defined TAISEI_BUILDCONF_HAVE_MICROSOFT_QSORT_S | ||
# define _SORT_R_WINDOWS | ||
#else | ||
/* Using our own recursive quicksort sort_r_simple() */ | ||
#endif | ||
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#if (defined NESTED_QSORT && NESTED_QSORT == 0) | ||
# undef NESTED_QSORT | ||
#endif | ||
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#define SORT_R_SWAP(a,b,tmp) ((tmp) = (a), (a) = (b), (b) = (tmp)) | ||
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/* swap a and b */ | ||
/* a and b must not be equal! */ | ||
static void sort_r_swap(char *restrict a, char *restrict b, size_t w) | ||
{ | ||
char tmp, *end = a+w; | ||
for(; a < end; a++, b++) { SORT_R_SWAP(*a, *b, tmp); } | ||
} | ||
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/* swap a, b iff a>b */ | ||
/* a and b must not be equal! */ | ||
/* restrict is same as restrict but better support on old machines */ | ||
static int sort_r_cmpswap( | ||
char *restrict a, | ||
char *restrict b, size_t w, | ||
int (*compar)(const void *_a, const void *_b, void *_arg), | ||
void *arg) | ||
{ | ||
if(compar(a, b, arg) > 0) { | ||
sort_r_swap(a, b, w); | ||
return 1; | ||
} | ||
return 0; | ||
} | ||
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/* | ||
Swap consecutive blocks of bytes of size na and nb starting at memory addr ptr, | ||
with the smallest swap so that the blocks are in the opposite order. Blocks may | ||
be internally re-ordered e.g. | ||
12345ab -> ab34512 | ||
123abc -> abc123 | ||
12abcde -> deabc12 | ||
*/ | ||
static void sort_r_swap_blocks(char *ptr, size_t na, size_t nb) | ||
{ | ||
if(na > 0 && nb > 0) { | ||
if(na > nb) { sort_r_swap(ptr, ptr+na, nb); } | ||
else { sort_r_swap(ptr, ptr+nb, na); } | ||
} | ||
} | ||
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/* Implement recursive quicksort ourselves */ | ||
/* Note: quicksort is not stable, equivalent values may be swapped */ | ||
void sort_r_simple( | ||
void *base, size_t nel, size_t w, | ||
int (*compar)(const void *_a, const void *_b, void *_arg), | ||
void *arg) | ||
{ | ||
char *b = (char *)base, *end = b + nel*w; | ||
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/* for(size_t i=0; i<nel; i++) {printf("%4i", *(int*)(b + i*sizeof(int)));} | ||
printf("\n"); */ | ||
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if(nel < 10) { | ||
/* Insertion sort for arbitrarily small inputs */ | ||
char *pi, *pj; | ||
for(pi = b+w; pi < end; pi += w) { | ||
for(pj = pi; pj > b && sort_r_cmpswap(pj-w,pj,w,compar,arg); pj -= w) {} | ||
} | ||
} | ||
else | ||
{ | ||
/* nel > 6; Quicksort */ | ||
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int cmp; | ||
char *pl, *ple, *pr, *pre, *pivot; | ||
char *last = b+w*(nel-1), *tmp; | ||
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/* | ||
Use median of second, middle and second-last items as pivot. | ||
First and last may have been swapped with pivot and therefore be extreme | ||
*/ | ||
char *l[3]; | ||
l[0] = b + w; | ||
l[1] = b+w*(nel/2); | ||
l[2] = last - w; | ||
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/* printf("pivots: %i, %i, %i\n", *(int*)l[0], *(int*)l[1], *(int*)l[2]); */ | ||
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if(compar(l[0],l[1],arg) > 0) { SORT_R_SWAP(l[0], l[1], tmp); } | ||
if(compar(l[1],l[2],arg) > 0) { | ||
SORT_R_SWAP(l[1], l[2], tmp); | ||
if(compar(l[0],l[1],arg) > 0) { SORT_R_SWAP(l[0], l[1], tmp); } | ||
} | ||
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/* swap mid value (l[1]), and last element to put pivot as last element */ | ||
if(l[1] != last) { sort_r_swap(l[1], last, w); } | ||
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/* | ||
pl is the next item on the left to be compared to the pivot | ||
pr is the last item on the right that was compared to the pivot | ||
ple is the left position to put the next item that equals the pivot | ||
ple is the last right position where we put an item that equals the pivot | ||
v- end (beyond the array) | ||
EEEEEELLLLLLLLuuuuuuuuGGGGGGGEEEEEEEE. | ||
^- b ^- ple ^- pl ^- pr ^- pre ^- last (where the pivot is) | ||
Pivot comparison key: | ||
E = equal, L = less than, u = unknown, G = greater than, E = equal | ||
*/ | ||
pivot = last; | ||
ple = pl = b; | ||
pre = pr = last; | ||
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/* | ||
Strategy: | ||
Loop into the list from the left and right at the same time to find: | ||
- an item on the left that is greater than the pivot | ||
- an item on the right that is less than the pivot | ||
Once found, they are swapped and the loop continues. | ||
Meanwhile items that are equal to the pivot are moved to the edges of the | ||
array. | ||
*/ | ||
while(pl < pr) { | ||
/* Move left hand items which are equal to the pivot to the far left. | ||
break when we find an item that is greater than the pivot */ | ||
for(; pl < pr; pl += w) { | ||
cmp = compar(pl, pivot, arg); | ||
if(cmp > 0) { break; } | ||
else if(cmp == 0) { | ||
if(ple < pl) { sort_r_swap(ple, pl, w); } | ||
ple += w; | ||
} | ||
} | ||
/* break if last batch of left hand items were equal to pivot */ | ||
if(pl >= pr) { break; } | ||
/* Move right hand items which are equal to the pivot to the far right. | ||
break when we find an item that is less than the pivot */ | ||
for(; pl < pr; ) { | ||
pr -= w; /* Move right pointer onto an unprocessed item */ | ||
cmp = compar(pr, pivot, arg); | ||
if(cmp == 0) { | ||
pre -= w; | ||
if(pr < pre) { sort_r_swap(pr, pre, w); } | ||
} | ||
else if(cmp < 0) { | ||
if(pl < pr) { sort_r_swap(pl, pr, w); } | ||
pl += w; | ||
break; | ||
} | ||
} | ||
} | ||
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pl = pr; /* pr may have gone below pl */ | ||
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/* | ||
Now we need to go from: EEELLLGGGGEEEE | ||
to: LLLEEEEEEEGGGG | ||
Pivot comparison key: | ||
E = equal, L = less than, u = unknown, G = greater than, E = equal | ||
*/ | ||
sort_r_swap_blocks(b, ple-b, pl-ple); | ||
sort_r_swap_blocks(pr, pre-pr, end-pre); | ||
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/*for(size_t i=0; i<nel; i++) {printf("%4i", *(int*)(b + i*sizeof(int)));} | ||
printf("\n");*/ | ||
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sort_r_simple(b, (pl-ple)/w, w, compar, arg); | ||
sort_r_simple(end-(pre-pr), (pre-pr)/w, w, compar, arg); | ||
} | ||
} | ||
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#if defined NESTED_QSORT | ||
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static void sort_r(void *base, size_t nel, size_t width, | ||
int (*compar)(const void *_a, | ||
const void *_b, | ||
void *aarg), | ||
void *arg) | ||
{ | ||
int nested_cmp(const void *a, const void *b) | ||
{ | ||
return compar(a, b, arg); | ||
} | ||
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qsort(base, nel, width, nested_cmp); | ||
} | ||
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#else /* !NESTED_QSORT */ | ||
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/* Declare structs and functions */ | ||
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#if defined _SORT_R_BSD | ||
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/* Ensure qsort_r is defined */ | ||
extern void qsort_r( | ||
void *base, size_t nel, size_t width, void *thunk, | ||
int (*compar)(void *_thunk, const void *_a, const void *_b)); | ||
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#endif | ||
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#if defined _SORT_R_BSD || defined _SORT_R_WINDOWS | ||
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/* BSD (qsort_r), Windows (qsort_s) require argument swap */ | ||
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struct sort_r_data | ||
{ | ||
void *arg; | ||
int (*compar)(const void *_a, const void *_b, void *_arg); | ||
}; | ||
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static int sort_r_arg_swap(void *s, const void *a, const void *b) | ||
{ | ||
struct sort_r_data *ss = (struct sort_r_data*)s; | ||
return (ss->compar)(a, b, ss->arg); | ||
} | ||
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#endif | ||
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#if defined _SORT_R_LINUX | ||
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typedef int(* __compar_d_fn_t)(const void *, const void *, void *); | ||
extern void (qsort_r)(void *base, size_t nel, size_t width, | ||
__compar_d_fn_t __compar, void *arg) | ||
__attribute__((nonnull (1, 4))); | ||
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#endif | ||
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/* implementation */ | ||
void sort_r( | ||
void *base, size_t nel, size_t width, | ||
int (*compar)(const void *_a, const void *_b, void *_arg), | ||
void *arg) | ||
{ | ||
#if defined _SORT_R_LINUX | ||
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qsort_r(base, nel, width, compar, arg); | ||
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#elif defined _SORT_R_BSD | ||
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struct sort_r_data tmp; | ||
tmp.arg = arg; | ||
tmp.compar = compar; | ||
qsort_r(base, nel, width, &tmp, sort_r_arg_swap); | ||
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#elif defined _SORT_R_WINDOWS | ||
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struct sort_r_data tmp; | ||
tmp.arg = arg; | ||
tmp.compar = compar; | ||
qsort_s(base, nel, width, sort_r_arg_swap, &tmp); | ||
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#else | ||
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/* Fall back to our own quicksort implementation */ | ||
sort_r_simple(base, nel, width, compar, arg); | ||
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#endif | ||
} | ||
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#endif /* !NESTED_QSORT */ |
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