tupperware: vector: add heap management functions

This commit is contained in:
Bruno BELANYI 2020-11-25 23:51:46 +01:00
parent 6f04d4b9df
commit 3436d30a04
2 changed files with 132 additions and 0 deletions

View file

@ -31,4 +31,13 @@ bool vector_insert_at(struct vector *v, void *elem, size_t i);
bool vector_pop_back(struct vector *v, void *output);
bool vector_pop_at(struct vector *v, void *output, size_t i);
typedef int (*vector_cmp_f)(const void *lhs, const void *rhs, void *cookie);
bool vector_is_max_heap(struct vector *v, vector_cmp_f cmp, void *cookie);
bool vector_make_heap(struct vector *v, vector_cmp_f cmp, void *cookie);
bool vector_push_heap(struct vector *v,
void *elem, vector_cmp_f cmp, void *cookie);
bool vector_pop_heap(struct vector *v,
void *output, vector_cmp_f cmp, void *cookie);
#endif /* !TUPPERWARE_VECTOR_H */

View file

@ -146,3 +146,126 @@ bool vector_pop_at(struct vector *v, void *output, size_t i) {
return true;
}
bool vector_is_max_heap_helper(struct vector *v,
size_t n, vector_cmp_f cmp, void *cookie) {
size_t l = n * 2 + 1;
size_t r = n * 2 + 2;
if (l < v->nmemb) {
if (cmp(VEC_AT(v, n), VEC_AT(v, l), cookie) < 0)
return false;
if (!vector_is_max_heap_helper(v, l, cmp, cookie))
return false;
}
if (r < v->nmemb) {
if (cmp(VEC_AT(v, n), VEC_AT(v, r), cookie) < 0)
return false;
if (!vector_is_max_heap_helper(v, r, cmp, cookie))
return false;
}
return true;
}
bool vector_is_max_heap(struct vector *v, vector_cmp_f cmp, void *cookie) {
if (!v || !v->nmemb)
return true;
return vector_is_max_heap_helper(v, 0, cmp, cookie);
}
static void swap_using(struct vector *v, size_t lhs, size_t rhs, void *buffer) {
memmove(buffer, VEC_AT(v, lhs), v->size);
memmove(VEC_AT(v, lhs), VEC_AT(v, rhs), v->size);
memmove(VEC_AT(v, rhs), buffer, v->size);
}
static void sift_down(struct vector *v,
size_t pos, vector_cmp_f cmp, void *cookie, void *buffer) {
size_t l = 2 * pos + 1;
size_t r = 2 * pos + 2;
size_t max = pos;
if (l < v->nmemb && cmp(VEC_AT(v, max), VEC_AT(v, l), cookie) < 0)
max = l;
if (r < v->nmemb && cmp(VEC_AT(v, max), VEC_AT(v, r), cookie) < 0)
max = r;
if (max != pos) {
swap_using(v, max, pos, buffer);
sift_down(v, max, cmp, cookie, buffer);
}
}
static void sift_up(struct vector *v,
size_t pos, vector_cmp_f cmp, void *cookie, void *buffer) {
if (!pos)
return;
size_t parent = (pos - 1) / 2;
if (cmp(VEC_AT(v, parent), VEC_AT(v, pos), cookie) < 0) {
swap_using(v, pos, parent, buffer);
sift_up(v, parent, cmp, cookie, buffer);
}
}
bool vector_make_heap(struct vector *v, vector_cmp_f cmp, void *cookie) {
if (!v || !v->nmemb)
return false;
void *buffer = malloc(v->size);
if (!buffer)
return false;
size_t i = v->nmemb / 2;
do
{
sift_down(v, i, cmp, cookie, buffer);
} while (i-- != 0);
free(buffer);
return true;
}
bool vector_push_heap(struct vector *v,
void *elem, vector_cmp_f cmp, void *cookie) {
if (!v || !elem)
return false;
void *buffer = malloc(v->size);
if (!buffer)
return false;
if (!vector_push_back(v, elem))
return false;
sift_up(v, v->nmemb - 1, cmp, cookie, buffer);
free(buffer);
return true;
}
bool vector_pop_heap(struct vector *v,
void *output, vector_cmp_f cmp, void *cookie) {
if (!v || !v->nmemb)
return false;
// The swap would take care of putting it at the end of the array
if (output && output != VEC_AT(v, v->nmemb - 1))
memmove(output, VEC_AT(v, 0), v->size);
if (v->nmemb == 1) {
v->nmemb -= 1;
return true;
}
swap_at_end(v, 0, v->nmemb - 1);
v->nmemb -= 1;
sift_down(v, 0, cmp, cookie);
return true;
}