* under the terms of the license (GNU LGPL) which comes with this package. */
#include "xbt/sysdep.h"
-#include "xbt/error.h"
+#include "xbt/log.h"
#include "heap_private.h"
-XBT_LOG_NEW_DEFAULT_SUBCATEGORY(heap, xbt, "Heap");
-/** \name Functions
- * \ingroup XBT_heap
+#include <stdio.h>
+
+
+/** @addtogroup XBT_heap
+ * \brief This section describes the API to generic heap with O(log(n)) access.
*/
-/*@{*/
+
/**
+ * @brief Creates a new heap.
* \param init_size initial size of the heap
* \param 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 xbt_heap_new(int init_size, void_f_pvoid_t const free_func)
{
xbt_heap_t H = xbt_new0(struct xbt_heap, 1);
H->size = init_size;
}
/**
- * \param H poor victim
- *
- * kilkil a heap and its content
+ * @brief kilkil a heap and its content
+ * @param H poor victim
*/
void xbt_heap_free(xbt_heap_t H)
{
int i;
if (H->free)
for (i = 0; i < H->count; i++)
- H->free(H->items[i].content);
- xbt_free(H->items);
- xbt_free(H);
+ (*(H->free))(H->items[i].content);
+ free(H->items);
+ free(H);
return;
}
/**
- * \param H the heap we're working on
- * \return the number of elements in the heap
+ * @brief returns the number of elements in the heap
+ * @param H the heap we're working on
+ * @return the number of elements in the heap
*/
int xbt_heap_size(xbt_heap_t H)
{
}
/**
+ * @brief Add an element into the heap.
* \param H the heap we're working on
* \param content the object you want to add to the heap
* \param key the key associated to this object
*
- * Add an element int the heap. The element with the smallest key is
- * automatically moved at the top of 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, double key)
{
int count = ++(H->count);
+
int size = H->size;
xbt_heapItem_t item;
+
if (count > size) {
H->size = 2 * size + 1;
- H->items =
- (void *) realloc(H->items,
- (H->size) * sizeof(struct xbt_heapItem));
+ H->items =(void *) realloc(H->items,(H->size) * sizeof(struct xbt_heapItem));
}
+
item = &(H->items[count - 1]);
item->key = key;
item->content = content;
}
/**
+ * @brief Extracts from the heap and returns the element with the smallest key.
* \param H the heap we're working on
* \return the element with the smallest key
*
if (H->count < H->size / 4 && H->size > 16) {
H->size = H->size / 2 + 1;
H->items =
- (void *) realloc(H->items,
- (H->size) * sizeof(struct xbt_heapItem));
+ (void *) realloc(H->items,
+ (H->size) * sizeof(struct xbt_heapItem));
}
return max;
}
/**
+ * @brief returns the smallest key in the heap (heap unchanged)
* \param H the heap we're working on
*
* \return the smallest key in the heap without modifying the heap.
}
/**
+ * @brief returns the value associated to the smallest key in the heap (heap unchanged)
* \param H the heap we're working on
*
* \return the value associated to the smallest key in the heap
/* <<<< private >>>>
* \param H the heap we're working on
- *
+ *
* Restores the heap property once an element has been deleted.
*/
static void xbt_heap_maxHeapify(xbt_heap_t H)
/* <<<< private >>>>
* \param H the heap we're working on
* \param i an item position in the heap
- *
+ *
* Moves up an item at position i to its correct position. Works only
* when called from xbt_heap_push. Do not use otherwise.
*/
}
return;
}
-/*@}*/