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quakeforge/tools/qfcc/source/set.c
Bill Currie b28ac6672b Add support for set of everything, and a lot of docs. 
Set of everything is implemented by inverting the meaning of bits in the
bitmap: 1 becomes non-member, 0 member. This means that set_size and
set_first/set_next become inverted and represent non-members as counting
members becomes impossible :)
2012-12-06 19:32:31 +09:00

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/*
set.c
Set manipulation.
Copyright (C) 2012 Bill Currie <bill@taniwha.org>
Author: Bill Currie <bill@taniwha.org>
Date: 2012/8/4
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
See the GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to:
Free Software Foundation, Inc.
59 Temple Place - Suite 330
Boston, MA 02111-1307, USA
*/
#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
#ifdef HAVE_STRING_H
# include <string.h>
#endif
#ifdef HAVE_STRINGS_H
# include <strings.h>
#endif
#include <stdlib.h>
#include "QF/dstring.h"
#include "QF/mathlib.h"
#include "qfcc.h"
#include "set.h"
#define BITS (sizeof (((set_t *) 0)->map[0]) * 8)
set_t *free_sets;
set_iter_t *free_set_iters;
static set_iter_t *
new_setiter (void)
{
set_iter_t *set_iter;
ALLOC (16, set_iter_t, set_iters, set_iter);
return set_iter;
}
static void
delete_setiter (set_iter_t *set_iter)
{
FREE (set_iters, set_iter);
}
void
set_del_iter (set_iter_t *set_iter)
{
delete_setiter (set_iter);
}
set_t *
set_new (void)
{
set_t *set;
ALLOC (16, set_t, sets, set);
set->size = sizeof (set->defmap) * 8;
set->map = set->defmap;
return set;
}
void
set_delete (set_t *set)
{
if (set->map != set->defmap)
free (set->map);
FREE (sets, set);
}
static void
set_expand (set_t *set, unsigned x)
{
unsigned *map = set->map;
size_t size;
if (x < set->size)
return;
size = (x + BITS) & ~(BITS - 1);
set->map = malloc (size / 8);
memcpy (set->map, map, set->size / 8);
memset (set->map + set->size / BITS, 0, (size - set->size) / 8);
set->size = size;
if (map != set->defmap)
free (map);
}
static inline void
_set_add (set_t *set, unsigned x)
{
if (x >= set->size)
set_expand (set, x);
set->map[x / BITS] |= 1 << (x % BITS);
}
static inline void
_set_remove (set_t *set, unsigned x)
{
if (x >= set->size)
return;
set->map[x / BITS] &= ~(1 << (x % BITS));
}
set_t *
set_add (set_t *set, unsigned x)
{
if (set->inverted)
_set_remove (set, x);
else
_set_add (set, x);
return set;
}
set_t *
set_remove (set_t *set, unsigned x)
{
if (set->inverted)
_set_add (set, x);
else
_set_remove (set, x);
return set;
}
set_t *
set_invert (set_t *set)
{
set->inverted = !set->inverted;
return set;
}
static set_t *
_set_union (set_t *dst, const set_t *src)
{
unsigned size;
unsigned i;
size = max (dst->size, src->size);
set_expand (dst, size);
for (i = 0; i < src->size / BITS; i++)
dst->map[i] |= src->map[i];
return dst;
}
static set_t *
_set_intersection (set_t *dst, const set_t *src)
{
unsigned size;
unsigned i;
size = max (dst->size, src->size);
set_expand (dst, size);
for (i = 0; i < src->size / BITS; i++)
dst->map[i] &= src->map[i];
for ( ; i < dst->size / BITS; i++)
dst->map[i] = 0;
return dst;
}
static set_t *
_set_difference (set_t *dst, const set_t *src)
{
unsigned size;
unsigned i;
size = max (dst->size, src->size);
set_expand (dst, size);
for (i = 0; i < src->size / BITS; i++)
dst->map[i] &= ~src->map[i];
return dst;
}
static set_t *
_set_reverse_difference (set_t *dst, const set_t *src)
{
unsigned size;
unsigned i;
size = max (dst->size, src->size);
set_expand (dst, size);
for (i = 0; i < src->size / BITS; i++)
dst->map[i] = ~dst->map[i] & src->map[i];
return dst;
}
set_t *
set_union (set_t *dst, const set_t *src)
{
if (dst->inverted && src->inverted) {
return _set_intersection (dst, src);
} else if (src->inverted) {
dst->inverted = 1;
return _set_difference (dst, src);
} else if (dst->inverted) {
return _set_reverse_difference (dst, src);
} else {
return _set_union (dst, src);
}
}
set_t *
set_intersection (set_t *dst, const set_t *src)
{
if (dst->inverted && src->inverted) {
return _set_union (dst, src);
} else if (src->inverted) {
return _set_difference (dst, src);
} else if (dst->inverted) {
dst->inverted = 0;
return _set_reverse_difference (dst, src);
} else {
return _set_intersection (dst, src);
}
}
set_t *
set_difference (set_t *dst, const set_t *src)
{
if (dst->inverted && src->inverted) {
dst->inverted = 0;
return _set_reverse_difference (dst, src);
} else if (src->inverted) {
return _set_intersection (dst, src);
} else if (dst->inverted) {
return _set_union (dst, src);
} else {
return _set_difference (dst, src);
}
}
set_t *
set_reverse_difference (set_t *dst, const set_t *src)
{
if (dst->inverted && src->inverted) {
dst->inverted = 0;
return _set_difference (dst, src);
} else if (src->inverted) {
dst->inverted = 1;
return _set_union (dst, src);
} else if (dst->inverted) {
dst->inverted = 0;
return _set_intersection (dst, src);
} else {
return _set_reverse_difference (dst, src);
}
}
set_t *
set_assign (set_t *dst, const set_t *src)
{
unsigned size;
unsigned i;
size = max (dst->size, src->size);
set_expand (dst, size);
dst->inverted = src->inverted;
for (i = 0; i < src->size / BITS; i++)
dst->map[i] = src->map[i];
for ( ; i < dst->size / BITS; i++)
dst->map[i] = 0;
return dst;
}
set_t *
set_empty (set_t *set)
{
unsigned i;
set->inverted = 0;
for (i = 0; i < set->size / BITS; i++)
set->map[i] = 0;
return set;
}
set_t *
set_everything (set_t *set)
{
unsigned i;
set->inverted = 1;
for (i = 0; i < set->size / BITS; i++)
set->map[i] = 0;
return set;
}
static inline int
_set_is_empty (const set_t *set)
{
unsigned i;
for (i = 0; i < set->size / BITS; i++)
if (set->map[i])
return 0;
return 1;
}
int
set_is_empty (const set_t *set)
{
if (set->inverted)
return 0;
return _set_is_empty (set);
}
int
set_is_everything (const set_t *set)
{
if (!set->inverted)
return 0;
return _set_is_empty (set);
}
typedef enum {
set_equiv,
set_intersecting,
set_disjoint,
} set_test_e;
static int
set_test_intersect_n_n (const set_t *s1, const set_t *s2)
{
unsigned i, end;
set_test_e rval = set_equiv;
end = min (s1->size, s2->size) / BITS;
for (i = 0; i < end; i++) {
if (s1->map[i] != s2->map[i]) {
if (s1->map[i] & s2->map[i])
return set_intersecting;
else
rval = set_disjoint;
}
}
return rval;
}
static int
set_test_intersect_n_i (const set_t *s1, const set_t *s2)
{
unsigned i, end;
set_test_e rval = set_equiv;
end = min (s1->size, s2->size) / BITS;
for (i = 0; i < end; i++) {
if (s1->map[i] != ~s2->map[i]) {
if (s1->map[i] & ~s2->map[i])
return set_intersecting;
else
rval = set_disjoint;
}
}
return rval;
}
static int
set_test_intersect_i_n (const set_t *s1, const set_t *s2)
{
unsigned i, end;
set_test_e rval = set_equiv;
end = min (s1->size, s2->size) / BITS;
for (i = 0; i < end; i++) {
if (~s1->map[i] != s2->map[i]) {
if (~s1->map[i] & s2->map[i])
return set_intersecting;
else
rval = set_disjoint;
}
}
return rval;
}
static int
set_test_intersect_i_i (const set_t *s1, const set_t *s2)
{
unsigned i, end;
set_test_e rval = set_equiv;
end = min (s1->size, s2->size) / BITS;
for (i = 0; i < end; i++) {
if (~s1->map[i] != ~s2->map[i]) {
if (~s1->map[i] & ~s2->map[i])
return set_intersecting;
else
rval = set_disjoint;
}
}
return rval;
}
static int
set_test (const set_t *s1, const set_t *s2)
{
unsigned i, end;
set_test_e rval = set_equiv;
if (s1->inverted && s2->inverted) {
rval = set_test_intersect_i_i (s1, s2);
} else if (s2->inverted) {
rval = set_test_intersect_n_i (s1, s2);
if (rval == set_equiv)
rval = set_disjoint;
} else if (s1->inverted) {
rval = set_test_intersect_i_n (s1, s2);
if (rval == set_equiv)
rval = set_disjoint;
} else {
rval = set_test_intersect_n_n (s1, s2);
}
if (rval == set_equiv) {
end = min (s1->size, s2->size) / BITS;
for (i = end; i < s1->size / BITS; i++)
if (s1->map[i])
return set_disjoint;
for (i = end; i < s2->size / BITS; i++)
if (s2->map[i])
return set_disjoint;
}
return rval;
}
int
set_is_disjoint (const set_t *s1, const set_t *s2)
{
return set_test (s1, s2) == set_disjoint;
}
int
set_is_intersecting (const set_t *s1, const set_t *s2)
{
return set_test (s1, s2) == set_intersecting;
}
int
set_is_equivalent (const set_t *s1, const set_t *s2)
{
return set_test (s1, s2) == set_equiv;
}
int
set_is_subset (const set_t *set, const set_t *sub)
{
unsigned i, end;
end = min (set->size, sub->size) / BITS;
if (set->inverted && sub->inverted) {
for (i = 0; i < end; i++) {
if (~sub->map[i] & set->map[i])
return 0;
}
for ( ; i < set->size / BITS; i++)
if (set->map[i])
return 0;
} else if (set->inverted) {
for (i = 0; i < end; i++) {
if (sub->map[i] & set->map[i])
return 0;
}
} else if (sub->inverted) {
// an inverted set cannot be a subset of a set that is not inverted
return 0;
} else {
for (i = 0; i < end; i++) {
if (sub->map[i] & ~set->map[i])
return 0;
}
for ( ; i < sub->size / BITS; i++)
if (sub->map[i])
return 0;
}
return 1;
}
static inline int
_set_is_member (const set_t *set, unsigned x)
{
if (x >= set->size)
return 0;
return (set->map[x / BITS] & (1 << (x % BITS))) != 0;
}
int
set_is_member (const set_t *set, unsigned x)
{
if (set->inverted)
return !_set_is_member (set, x);
return _set_is_member (set, x);
}
unsigned
set_size (const set_t *set)
{
unsigned count = 0;
unsigned i;
for (i = 0; i < set->size; i++)
if (_set_is_member (set, i))
count++;
return count;
}
set_iter_t *
set_first (const set_t *set)
{
unsigned x;
set_iter_t *set_iter;
for (x = 0; x < set->size; x++) {
if (_set_is_member (set, x)) {
set_iter = new_setiter ();
set_iter->set = set;
set_iter->member = x;
return set_iter;
}
}
return 0;
}
set_iter_t *
set_next (set_iter_t *set_iter)
{
unsigned x;
for (x = set_iter->member + 1; x < set_iter->set->size; x++) {
if (_set_is_member (set_iter->set, x)) {
set_iter->member = x;
return set_iter;
}
}
delete_setiter (set_iter);
return 0;
}
const char *
set_as_string (const set_t *set)
{
static dstring_t *str;
unsigned i;
if (!str)
str = dstring_new ();
dstring_clearstr (str);
if (set_is_empty (set)) {
dstring_copystr (str, "[empty]");
return str->str;
}
if (set_is_everything (set)) {
dstring_copystr (str, "[everythign]");
return str->str;
}
for (i = 0; i < set->size; i++) {
if (set_is_member (set, i)) {
if (str->str[0])
dasprintf (str, " %d", i);
else
dsprintf (str, "%d", i);
}
}
if (set->inverted)
dasprintf (str, "%s%d ...", str->str[0] ? " " : "", i);
return str->str;
}
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