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#ifdef HAVE_CONFIG_H
# include <config.h>
#endif
#include <stdlib.h>
#include <string.h>
#include "Ecore_Data.h"
#define HEAP_INCREMENT 4096
#define PARENT(i) (i / 2)
#define LEFT(i) (2 * i)
#define RIGHT(i) (2 * i + 1)
static void _ecore_sheap_heapify(Ecore_Sheap *heap, int i);
static void _ecore_sheap_update_data(Ecore_Sheap *heap);
/**
* Allocate and initialize a new binary heap
* @param compare The function for comparing keys, NULL for direct comparison
* @param size The number of elements to allow in the heap
* @return A pointer to the newly allocated binary heap on success, NULL on
* failure.
*/
EAPI Ecore_Sheap *
ecore_sheap_new(Ecore_Compare_Cb compare, int size)
{
Ecore_Sheap *heap = NULL;
heap = (Ecore_Sheap *)malloc(sizeof(Ecore_Sheap));
if (!heap)
return NULL;
memset(heap, 0, sizeof(Ecore_Sheap));
if (!ecore_sheap_init(heap, compare, size))
{
FREE(heap);
return NULL;
}
return heap;
}
/**
* Initialize a binary heap to default values
* @param heap The heap to initialize
* @param compare The function for comparing keys, NULL for direct comparison
* @param size The number of elements to allow in the heap
* @return TRUE on success, FALSE on failure
*/
EAPI int
ecore_sheap_init(Ecore_Sheap *heap, Ecore_Compare_Cb compare, int size)
{
CHECK_PARAM_POINTER_RETURN("heap", heap, FALSE);
heap->space = size;
if (!compare)
heap->compare = ecore_direct_compare;
else
heap->compare = compare;
heap->order = ECORE_SORT_MIN;
heap->data = (void **)malloc(heap->space * sizeof(void *));
if (!heap->data)
return FALSE;
memset(heap->data, 0, heap->space * sizeof(void *));
return TRUE;
}
/**
* Free up the memory used by the heap
*
* Frees the memory used by @a heap, calls the destroy function on each data
* item if necessary.
*
* @param heap The heap to be freed
*/
EAPI void
ecore_sheap_destroy(Ecore_Sheap *heap)
{
int i;
CHECK_PARAM_POINTER("heap", heap);
/*
* Free data in heap
*/
if (heap->free_func)
for (i = 0; i < heap->size; i++)
heap->free_func(heap->data[i]);
FREE(heap->data);
FREE(heap);
}
/**
* Set the function for freeing data.
* @param heap The heap that will use this function when nodes are
* destroyed.
* @param free_func The function that will free the key data.
* @return @c TRUE on successful set, @c FALSE otherwise.
*/
EAPI int
ecore_sheap_free_cb_set(Ecore_Sheap *heap, Ecore_Free_Cb free_func)
{
CHECK_PARAM_POINTER_RETURN("heap", heap, FALSE);
heap->free_func = free_func;
return TRUE;
}
/**
* Insert new data into the heap.
* @param heap The heap to insert @a data.
* @param data The data to add to @a heap.
* @return TRUE on success, NULL on failure. Increases the size of the heap if
* it becomes larger than available space.
*/
EAPI int
ecore_sheap_insert(Ecore_Sheap *heap, void *data)
{
int i;
void *temp;
int parent;
int position;
CHECK_PARAM_POINTER_RETURN("heap", heap, FALSE);
/*
* Increase the size of the allocated data area if there isn't enough
* space available to add this data
*/
if (heap->size >= heap->space)
return FALSE;
heap->sorted = FALSE;
/*
* Place the data at the end of the heap initially. Then determine the
* parent and position in the array of it's parent.
*/
heap->data[heap->size] = data;
position = heap->size;
heap->size++;
i = heap->size;
parent = PARENT(i) - 1;
/*
* Check the order of the heap to decide where to place the inserted
* data. The loop is placed inside the if statement to reduce the
* number of branching decisions that must be predicted.
*/
if (heap->order == ECORE_SORT_MIN)
while ((position > 0) && heap->compare(heap->data[parent],
heap->data[position]) > 0)
{
/*
* Swap the data with it's parents to move it up in
* the heap.
*/
temp = heap->data[position];
heap->data[position] = heap->data[parent];
heap->data[parent] = temp;
/*
* Now determine the new position for the next
* iteration of the loop, as well as it's parents
* position.
*/
i = PARENT(i);
position = i - 1;
parent = PARENT(i) - 1;
}
else
while ((position > 0) && heap->compare(heap->data[parent],
heap->data[position]) < 0)
{
/*
* Swap the data with it's parents to move it up in
* the heap.
*/
temp = heap->data[position];
heap->data[position] = heap->data[PARENT(i) - 1];
heap->data[PARENT(i) - 1] = temp;
/*
* Now determine the new position for the next
* iteration of the loop, as well as it's parents
* position.
*/
i = PARENT(i);
position = i - 1;
parent = PARENT(i) - 1;
}
return TRUE;
}
/**
* Extract the item at the top of the heap
* @param heap The heap to remove the top item
* @return The top item of the heap on success, NULL on failure.
* @note The extract function maintains the heap properties after the
* extract.
*/
EAPI void *
ecore_sheap_extract(Ecore_Sheap *heap)
{
void *extreme;
if (heap->size < 1)
return NULL;
heap->sorted = FALSE;
extreme = heap->data[0];
heap->size--;
heap->data[0] = heap->data[heap->size];
_ecore_sheap_heapify(heap, 1);
return extreme;
}
/**
* Examine the item at the top of the heap
* @param heap The heap to examine the top item
* @return The top item of the heap on success, NULL on failure.
* @note The function does not alter the heap.
*/
EAPI void *
ecore_sheap_extreme(Ecore_Sheap *heap)
{
if (heap->size < 1)
return NULL;
return heap->data[0];
}
/**
* Change the value of the specified item in the heap
* @param heap The heap to search for the item to change
* @param item The item in the heap to change
* @param newval The new value assigned to the item in the heap
* @return TRUE on success, FALSE on failure.
* @note The heap does not free the old data since it must be passed
* in, so the caller can perform the free if desired.
*/
EAPI int
ecore_sheap_change(Ecore_Sheap *heap, void *item, void *newval)
{
int i;
CHECK_PARAM_POINTER_RETURN("heap", heap, FALSE);
for (i = 0; i < heap->size && heap->compare(heap->data[i], item); i++) ;
if (i < heap->size)
heap->data[i] = newval;
else
return FALSE;
/*
* FIXME: This is not the correct procedure when a change occurs.
*/
_ecore_sheap_heapify(heap, 1);
return TRUE;
}
/**
* Change the comparison function for the heap
* @param heap The heap to change comparison function
* @param compare The new function for comparing nodes
* @return TRUE on success, FALSE on failure.
*
* The comparison function is changed to @compare and the heap is heapified
* by the new comparison.
*/
EAPI int
ecore_sheap_compare_set(Ecore_Sheap *heap, Ecore_Compare_Cb compare)
{
CHECK_PARAM_POINTER_RETURN("heap", heap, FALSE);
if (!compare)
heap->compare = ecore_direct_compare;
else
heap->compare = compare;
_ecore_sheap_update_data(heap);
return TRUE;
}
/**
* Change the order of the heap
* @param heap The heap to change the order
* @param order The new order of the heap
*
* Changes the heap order of @heap and re-heapifies the data to this new
* order. The default order is a min heap.
*/
EAPI void
ecore_sheap_order_set(Ecore_Sheap *heap, char order)
{
CHECK_PARAM_POINTER("heap", heap);
heap->order = order;
_ecore_sheap_update_data(heap);
}
/**
* Sort the data in the heap
* @param heap The heap to be sorted
*
* Sorts the data in the heap into the order that is used for the heap's
* data.
*/
EAPI void
ecore_sheap_sort(Ecore_Sheap *heap)
{
int i = 0;
void **new_data;
CHECK_PARAM_POINTER("heap", heap);
new_data = (void **)malloc(heap->size * sizeof(void *));
/*
* Extract the heap and insert into the new data array in order.
*/
while (heap->size > 0)
new_data[i++] = ecore_sheap_extract(heap);
/*
* Free the old data array and update the heap with the new data, also
* mark as sorted.
*/
FREE(heap->data);
heap->data = new_data;
heap->size = i;
heap->sorted = TRUE;
}
/*
* Access the item at the ith position in the heap
* @param heap The heap to access the internal data
* @param i The index of the data within the heap
* @return The data located at the ith position within @heap on success,
* NULL on failure.
* @note The data is guaranteed to be in sorted order.
*/
EAPI inline void *
ecore_sheap_item(Ecore_Sheap *heap, int i)
{
if (i >= heap->size)
return NULL;
/*
* Make sure the data is sorted so we return the correct value.
*/
if (!heap->sorted)
ecore_sheap_sort(heap);
return heap->data[i];
}
/*
* Regain the heap properties starting at position i
* @param heap The heap to regain heap properties
* @param i The position to start heapifying
*/
static void
_ecore_sheap_heapify(Ecore_Sheap *heap, int i)
{
int extreme;
int left = LEFT(i);
int right = RIGHT(i);
if (heap->order == ECORE_SORT_MIN)
{
if (left <= heap->size && heap->compare(heap->data[left - 1],
heap->data[i - 1]) < 0)
extreme = left;
else
extreme = i;
if (right <= heap->size && heap->compare(heap->data[right - 1],
heap->data[extreme - 1]) < 0)
extreme = right;
}
else
{
if (left <= heap->size && heap->compare(heap->data[left - 1],
heap->data[i - 1]) > 0)
extreme = left;
else
extreme = i;
if (right <= heap->size && heap->compare(heap->data[right - 1],
heap->data[extreme - 1]) > 0)
extreme = right;
}
/*
* If the data needs to be swapped down the heap, recurse on
* heapifying it's new placement.
*/
if (extreme != i)
{
void *temp;
temp = heap->data[extreme - 1];
heap->data[extreme - 1] = heap->data[i - 1];
heap->data[i - 1] = temp;
_ecore_sheap_heapify(heap, extreme);
}
}
static void
_ecore_sheap_update_data(Ecore_Sheap *heap)
{
int i, old_size;
void **data;
/*
* Track the old values from the heap
*/
old_size = heap->size;
data = heap->data;
heap->size = 0;
heap->data = malloc(heap->space * sizeof(void *));
for (i = 0; i < old_size; i++)
ecore_sheap_insert(heap, data[i]);
FREE(data);
}
int
ecore_direct_compare(const void *key1, const void *key2)
{
unsigned long k1, k2;
k1 = (unsigned long)key1;
k2 = (unsigned long)key2;
if (k1 > k2)
return 1;
if (k1 < k2)
return -1;
return 0;
}
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