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#include "linux/kernel.h"
#include "litmus/bheap.h"
void bheap_init(struct bheap* heap)
{
heap->head = NULL;
heap->min = NULL;
}
void bheap_node_init(struct bheap_node** _h, void* value)
{
struct bheap_node* h = *_h;
h->parent = NULL;
h->next = NULL;
h->child = NULL;
h->degree = NOT_IN_HEAP;
h->value = value;
h->ref = _h;
}
/* make child a subtree of root */
static void __bheap_link(struct bheap_node* root,
struct bheap_node* child)
{
child->parent = root;
child->next = root->child;
root->child = child;
root->degree++;
}
/* merge root lists */
static struct bheap_node* __bheap_merge(struct bheap_node* a,
struct bheap_node* b)
{
struct bheap_node* head = NULL;
struct bheap_node** pos = &head;
while (a && b) {
if (a->degree < b->degree) {
*pos = a;
a = a->next;
} else {
*pos = b;
b = b->next;
}
pos = &(*pos)->next;
}
if (a)
*pos = a;
else
*pos = b;
return head;
}
/* reverse a linked list of nodes. also clears parent pointer */
static struct bheap_node* __bheap_reverse(struct bheap_node* h)
{
struct bheap_node* tail = NULL;
struct bheap_node* next;
if (!h)
return h;
h->parent = NULL;
while (h->next) {
next = h->next;
h->next = tail;
tail = h;
h = next;
h->parent = NULL;
}
h->next = tail;
return h;
}
static void __bheap_min(bheap_prio_t higher_prio, struct bheap* heap,
struct bheap_node** prev, struct bheap_node** node)
{
struct bheap_node *_prev, *cur;
*prev = NULL;
if (!heap->head) {
*node = NULL;
return;
}
*node = heap->head;
_prev = heap->head;
cur = heap->head->next;
while (cur) {
if (higher_prio(cur, *node)) {
*node = cur;
*prev = _prev;
}
_prev = cur;
cur = cur->next;
}
}
static void __bheap_union(bheap_prio_t higher_prio, struct bheap* heap,
struct bheap_node* h2)
{
struct bheap_node* h1;
struct bheap_node *prev, *x, *next;
if (!h2)
return;
h1 = heap->head;
if (!h1) {
heap->head = h2;
return;
}
h1 = __bheap_merge(h1, h2);
prev = NULL;
x = h1;
next = x->next;
while (next) {
if (x->degree != next->degree ||
(next->next && next->next->degree == x->degree)) {
/* nothing to do, advance */
prev = x;
x = next;
} else if (higher_prio(x, next)) {
/* x becomes the root of next */
x->next = next->next;
__bheap_link(x, next);
} else {
/* next becomes the root of x */
if (prev)
prev->next = next;
else
h1 = next;
__bheap_link(next, x);
x = next;
}
next = x->next;
}
heap->head = h1;
}
static struct bheap_node* __bheap_extract_min(bheap_prio_t higher_prio,
struct bheap* heap)
{
struct bheap_node *prev, *node;
__bheap_min(higher_prio, heap, &prev, &node);
if (!node)
return NULL;
if (prev)
prev->next = node->next;
else
heap->head = node->next;
__bheap_union(higher_prio, heap, __bheap_reverse(node->child));
return node;
}
/* insert (and reinitialize) a node into the heap */
void bheap_insert(bheap_prio_t higher_prio, struct bheap* heap,
struct bheap_node* node)
{
struct bheap_node *min;
node->child = NULL;
node->parent = NULL;
node->next = NULL;
node->degree = 0;
if (heap->min && higher_prio(node, heap->min)) {
/* swap min cache */
min = heap->min;
min->child = NULL;
min->parent = NULL;
min->next = NULL;
min->degree = 0;
__bheap_union(higher_prio, heap, min);
heap->min = node;
} else
__bheap_union(higher_prio, heap, node);
}
void bheap_uncache_min(bheap_prio_t higher_prio, struct bheap* heap)
{
struct bheap_node* min;
if (heap->min) {
min = heap->min;
heap->min = NULL;
bheap_insert(higher_prio, heap, min);
}
}
/* merge addition into target */
void bheap_union(bheap_prio_t higher_prio,
struct bheap* target, struct bheap* addition)
{
/* first insert any cached minima, if necessary */
bheap_uncache_min(higher_prio, target);
bheap_uncache_min(higher_prio, addition);
__bheap_union(higher_prio, target, addition->head);
/* this is a destructive merge */
addition->head = NULL;
}
struct bheap_node* bheap_peek(bheap_prio_t higher_prio,
struct bheap* heap)
{
if (!heap->min)
heap->min = __bheap_extract_min(higher_prio, heap);
return heap->min;
}
struct bheap_node* bheap_take(bheap_prio_t higher_prio,
struct bheap* heap)
{
struct bheap_node *node;
if (!heap->min)
heap->min = __bheap_extract_min(higher_prio, heap);
node = heap->min;
heap->min = NULL;
if (node)
node->degree = NOT_IN_HEAP;
return node;
}
int bheap_decrease(bheap_prio_t higher_prio, struct bheap_node* node)
{
struct bheap_node *parent;
struct bheap_node** tmp_ref;
void* tmp;
/* bubble up */
parent = node->parent;
while (parent && higher_prio(node, parent)) {
/* swap parent and node */
tmp = parent->value;
parent->value = node->value;
node->value = tmp;
/* swap references */
*(parent->ref) = node;
*(node->ref) = parent;
tmp_ref = parent->ref;
parent->ref = node->ref;
node->ref = tmp_ref;
/* step up */
node = parent;
parent = node->parent;
}
return parent != NULL;
}
void bheap_delete(bheap_prio_t higher_prio, struct bheap* heap,
struct bheap_node* node)
{
struct bheap_node *parent, *prev, *pos;
struct bheap_node** tmp_ref;
void* tmp;
if (heap->min != node) {
/* bubble up */
parent = node->parent;
while (parent) {
/* swap parent and node */
tmp = parent->value;
parent->value = node->value;
node->value = tmp;
/* swap references */
*(parent->ref) = node;
*(node->ref) = parent;
tmp_ref = parent->ref;
parent->ref = node->ref;
node->ref = tmp_ref;
/* step up */
node = parent;
parent = node->parent;
}
/* now delete:
* first find prev */
prev = NULL;
pos = heap->head;
while (pos != node) {
prev = pos;
pos = pos->next;
}
/* we have prev, now remove node */
if (prev)
prev->next = node->next;
else
heap->head = node->next;
__bheap_union(higher_prio, heap, __bheap_reverse(node->child));
} else
heap->min = NULL;
node->degree = NOT_IN_HEAP;
}
/* allocate a heap node for value and insert into the heap */
int bheap_add(bheap_prio_t higher_prio, struct bheap* heap,
void* value, int gfp_flags)
{
struct bheap_node* hn = bheap_node_alloc(gfp_flags);
if (likely(hn)) {
bheap_node_init(&hn, value);
bheap_insert(higher_prio, heap, hn);
}
return hn != NULL;
}
void* bheap_take_del(bheap_prio_t higher_prio,
struct bheap* heap)
{
struct bheap_node* hn = bheap_take(higher_prio, heap);
void* ret = NULL;
if (hn) {
ret = hn->value;
bheap_node_free(hn);
}
return ret;
}
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