+/* $Id$ */
+
/* a generic and efficient heap */
-/* Authors: Arnaud Legrand */
+/* Copyright (c) 2004 Arnaud Legrand. All rights reserved. */
/* This program is free software; you can redistribute it and/or modify it
- under the terms of the license (GNU LGPL) which comes with this package. */
+ * under the terms of the license (GNU LGPL) which comes with this package. */
-#include "xbt_heap_private.h"
+#include "xbt/sysdep.h"
+#include "xbt/error.h"
+#include "heap_private.h"
+XBT_LOG_NEW_DEFAULT_SUBCATEGORY(heap, xbt, "Heap");
/**
* xbt_heap_new:
* @init_size: initial size of the heap
- * @free_func: function to call on each element when you want to free the whole heap (or NULL if nothing to do).
+ * @free_func: function to call on each element when you want to free
+ * the whole heap (or NULL if nothing to do).
*
* Creates a new heap.
*/
xbt_heap_t xbt_heap_new(int init_size, void_f_pvoid_t * const free_func)
{
- xbt_heap_t H = calloc(1, sizeof(struct xbt_heap));
- H->size = init_size;
+ xbt_heap_t H = xbt_new0(struct xbt_heap, 1);
+ H->size = init_size;
H->count = 0;
- H->items = (xbt_heapItem_t) calloc(init_size, sizeof(struct xbt_heapItem));
- H->free = free;
+ H->items = (xbt_heapItem_t) xbt_new0(struct xbt_heapItem, init_size);
+ H->free = free_func;
return H;
}
*/
void xbt_heap_free(xbt_heap_t H)
{
- int i ;
- if(H->free)
- for(i=0;i < H->size;i++)
+ int i;
+ if (H->free)
+ for (i = 0; i < H->count; i++)
H->free(H->items[i].content);
- free(H->items);
- free(H);
+ xbt_free(H->items);
+ xbt_free(H);
return;
}
+/**
+ * xbt_heap_size:
+ * @H: the heap we're working on
+ *
+ * returns the number of elements in the heap
+ */
+int xbt_heap_size(xbt_heap_t H)
+{
+ return (H->count);
+}
+
/**
* xbt_heap_push:
* @H: the heap we're working on
* Add an element int the heap. The element with the smallest key is
* automatically moved at the top of the heap.
*/
-void xbt_heap_push(xbt_heap_t H, void *content, xbt_heap_float_t key)
+void xbt_heap_push(xbt_heap_t H, void *content, double key)
{
int count = ++(H->count);
int size = H->size;
*/
void *xbt_heap_pop(xbt_heap_t H)
{
- void *max = CONTENT(H, 0);
+ void *max;
+
+ if (H->count == 0)
+ return NULL;
+
+ max = CONTENT(H, 0);
+
H->items[0] = H->items[(H->count) - 1];
(H->count)--;
xbt_heap_maxHeapify(H);
*
* Returns the smallest key in the heap without modifying the heap.
*/
-xbt_heap_float_t xbt_heap_maxkey(xbt_heap_t H)
+double xbt_heap_maxkey(xbt_heap_t H)
{
+ xbt_assert0(H->count != 0,"Empty heap");
return KEY(H, 0);
}
*/
void *xbt_heap_maxcontent(xbt_heap_t H)
{
+ xbt_assert0(H->count != 0,"Empty heap");
return CONTENT(H, 0);
}
*
* Restores the heap property once an element has been deleted.
*/
-void xbt_heap_maxHeapify(xbt_heap_t H)
+static void xbt_heap_maxHeapify(xbt_heap_t H)
{
- int i=0;
- while(1) {
+ int i = 0;
+ while (1) {
int greatest = i;
int l = LEFT(i);
int r = RIGHT(i);
struct xbt_heapItem tmp = H->items[i];
H->items[i] = H->items[greatest];
H->items[greatest] = tmp;
- i=greatest;
- } else return;
+ i = greatest;
+ } else
+ return;
}
}
* Moves up an item at position i to its correct position. Works only
* when called from xbt_heap_push. Do not use otherwise.
*/
-void xbt_heap_increaseKey(xbt_heap_t H, int i)
+static void xbt_heap_increaseKey(xbt_heap_t H, int i)
{
while (i > 0 && KEY(H, PARENT(i)) > KEY(H, i)) {
struct xbt_heapItem tmp = H->items[i];
