Thu Apr 28 2011 17:16:06

Asterisk developer's documentation


heap.h File Reference

Max Heap data structure. More...

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Typedefs

typedef int(* ast_heap_cmp_fn )(void *elm1, void *elm2)
 Function type for comparing nodes in a heap.

Functions

struct ast_heapast_heap_create (unsigned int init_height, ast_heap_cmp_fn cmp_fn, ssize_t index_offset)
 Create a max heap.
struct ast_heapast_heap_destroy (struct ast_heap *h)
 Destroy a max heap.
void * ast_heap_peek (struct ast_heap *h, unsigned int index)
 Peek at an element on a heap.
void * ast_heap_pop (struct ast_heap *h)
 Pop the max element off of the heap.
int ast_heap_push (struct ast_heap *h, void *elm)
 Push an element on to a heap.
int ast_heap_rdlock (struct ast_heap *h)
 Read-Lock a heap.
void * ast_heap_remove (struct ast_heap *h, void *elm)
 Remove a specific element from a heap.
size_t ast_heap_size (struct ast_heap *h)
 Get the current size of a heap.
int ast_heap_unlock (struct ast_heap *h)
 Unlock a heap.
int ast_heap_verify (struct ast_heap *h)
 Verify that a heap has been properly constructed.
int ast_heap_wrlock (struct ast_heap *h)
 Write-Lock a heap.

Detailed Description

Max Heap data structure.

Author:
Russell Bryant <russell@digium.com>

Definition in file heap.h.


Typedef Documentation

typedef int(* ast_heap_cmp_fn)(void *elm1, void *elm2)

Function type for comparing nodes in a heap.

Parameters:
elm1the first element
elm2the second element
Return values:
negativeif elm1 < elm2
0if elm1 == elm2
positiveif elm1 > elm2
Note:
This implementation is of a max heap. However, if a min heap is desired, simply swap the return values of this function.
Since:
1.6.1

Definition at line 55 of file heap.h.


Function Documentation

struct ast_heap* ast_heap_create ( unsigned int  init_height,
ast_heap_cmp_fn  cmp_fn,
ssize_t  index_offset 
) [read]

Create a max heap.

Parameters:
init_heightThe initial height of the heap to allocate space for. To start out, there will be room for (2 ^ init_height) - 1 entries. However, the heap will grow as needed.
cmp_fnThe function that should be used to compare elements in the heap.
index_offsetThis parameter is optional, but must be provided to be able to use ast_heap_remove(). This is the number of bytes into the element where an ssize_t has been made available for the heap's internal use. The heap will use this field to keep track of the element's current position in the heap. The offsetof() macro is useful for providing a proper value for this argument. If ast_heap_remove() will not be used, then a negative value can be provided to indicate that no field for an offset has been allocated.

Example Usage:

 struct myobj {
    int foo;
    int bar;
    char stuff[8];
    char things[8];
    ssize_t __heap_index;
 };

 ...

 static int myobj_cmp(void *obj1, void *obj2);

 ...

 struct ast_heap *h;

 h = ast_heap_create(8, myobj_cmp, offsetof(struct myobj, __heap_index));
Returns:
An instance of a max heap
Since:
1.6.1

Definition at line 114 of file heap.c.

References __ast_calloc(), ast_calloc, ast_free, ast_log(), ast_rwlock_init(), ast_heap::avail_len, ast_heap::cmp_fn, ast_heap::heap, ast_heap::index_offset, ast_heap::lock, and LOG_ERROR.

Referenced by ast_timing_init(), load_resource_list(), and sched_context_create().

{
   struct ast_heap *h;

   if (!cmp_fn) {
      ast_log(LOG_ERROR, "A comparison function must be provided\n");
      return NULL;
   }

   if (!init_height) {
      init_height = 8;
   }

   if (!(h =
#ifdef MALLOC_DEBUG
         __ast_calloc(1, sizeof(*h), file, lineno, func)
#else
         ast_calloc(1, sizeof(*h))
#endif
      )) {
      return NULL;
   }

   h->cmp_fn = cmp_fn;
   h->index_offset = index_offset;
   h->avail_len = (1 << init_height) - 1;

   if (!(h->heap =
#ifdef MALLOC_DEBUG
         __ast_calloc(1, h->avail_len * sizeof(void *), file, lineno, func)
#else
         ast_calloc(1, h->avail_len * sizeof(void *))
#endif
      )) {
      ast_free(h);
      return NULL;
   }

   ast_rwlock_init(&h->lock);

   return h;
}
struct ast_heap* ast_heap_destroy ( struct ast_heap h) [read]

Destroy a max heap.

Parameters:
hthe heap to destroy
Returns:
NULL for convenience
Since:
1.6.1

Definition at line 159 of file heap.c.

References ast_free, ast_rwlock_destroy(), ast_heap::heap, and ast_heap::lock.

Referenced by load_resource_list(), and sched_context_destroy().

{
   ast_free(h->heap);
   h->heap = NULL;

   ast_rwlock_destroy(&h->lock);

   ast_free(h);

   return NULL;
}
void* ast_heap_peek ( struct ast_heap h,
unsigned int  index 
)

Peek at an element on a heap.

Parameters:
hthe heap
indexindex of the element to return. The first element is at index 1, and the last element is at the index == the size of the heap.
Returns:
an element at the specified index on the heap. This element will not be removed before being returned.
Note:
If this function is being used in combination with ast_heap_size() for purposes of traversing the heap, the heap must be locked for the entire duration of the traversal.

Example code for a traversal:

 struct ast_heap *h;

 ...

 size_t size, i;
 void *cur_obj;

 ast_heap_rdlock(h);

 size = ast_heap_size(h);

 for (i = 1; i <= size && (cur_obj = ast_heap_peek(h, i)); i++) {
     ... Do stuff with cur_obj ...
 }

 ast_heap_unlock(h);
Since:
1.6.1

Definition at line 295 of file heap.c.

References ast_heap::cur_len, and heap_get().

Referenced by ast_sched_dump(), ast_sched_report(), ast_sched_runq(), ast_sched_wait(), and ast_timer_open().

{
   if (!h->cur_len || !index || index > h->cur_len) {
      return NULL;
   }

   return heap_get(h, index);
}
void* ast_heap_pop ( struct ast_heap h)

Pop the max element off of the heap.

Parameters:
hthe heap
Returns:
this will return the element on the top of the heap, which has the largest value according to the element comparison function that was provided when the heap was created. The element will be removed before being returned.
Since:
1.6.1

Definition at line 290 of file heap.c.

References _ast_heap_remove().

Referenced by ast_sched_runq(), load_resource_list(), and sched_context_destroy().

{
   return _ast_heap_remove(h, 1);
}
int ast_heap_push ( struct ast_heap h,
void *  elm 
)

Push an element on to a heap.

Parameters:
hthe heap being added to
elmthe element being put on the heap
Return values:
0success
non-zerofailure
Since:
1.6.1

Definition at line 245 of file heap.c.

References ast_heap::avail_len, bubble_up(), ast_heap::cur_len, grow_heap(), and heap_set().

Referenced by _ast_register_timing_interface(), load_resource(), and schedule().

{
   if (h->cur_len == h->avail_len && grow_heap(h
#ifdef MALLOC_DEBUG
      , file, lineno, func
#endif
      )) {
      return -1;
   }

   heap_set(h, ++(h->cur_len), elm);

   bubble_up(h, h->cur_len);

   return 0;
}
int ast_heap_rdlock ( struct ast_heap h)

Read-Lock a heap.

Parameters:
hthe heap

A lock is provided for convenience. It can be assumed that none of the ast_heap API calls are thread safe. This lock does not have to be used if another one is already available to protect the heap.

Returns:
see the documentation for pthread_rwlock_rdlock()
Since:
1.6.1

Definition at line 316 of file heap.c.

References ast_rwlock_rdlock(), and ast_heap::lock.

Referenced by ast_timer_open().

{
   return ast_rwlock_rdlock(&h->lock);
}
void* ast_heap_remove ( struct ast_heap h,
void *  elm 
)

Remove a specific element from a heap.

Parameters:
hthe heap to remove from
elmthe element to remove
Returns:
elm, if the removal was successful, or NULL if it failed
Note:
the index_offset parameter to ast_heap_create() is required to be able to use this function.
Since:
1.6.1

Definition at line 279 of file heap.c.

References _ast_heap_remove(), and get_index().

Referenced by ast_sched_del(), and ast_unregister_timing_interface().

{
   ssize_t i = get_index(h, elm);

   if (i == -1) {
      return NULL;
   }

   return _ast_heap_remove(h, i);
}
size_t ast_heap_size ( struct ast_heap h)

Get the current size of a heap.

Parameters:
hthe heap
Returns:
the number of elements currently in the heap
Since:
1.6.1

Definition at line 304 of file heap.c.

References ast_heap::cur_len.

Referenced by ast_sched_dump(), and ast_sched_report().

{
   return h->cur_len;
}
int ast_heap_unlock ( struct ast_heap h)

Unlock a heap.

Parameters:
hthe heap
Returns:
see the documentation for pthread_rwlock_unlock()
Since:
1.6.1

Definition at line 321 of file heap.c.

References ast_rwlock_unlock(), and ast_heap::lock.

Referenced by _ast_register_timing_interface(), ast_timer_open(), and ast_unregister_timing_interface().

{
   return ast_rwlock_unlock(&h->lock);
}
int ast_heap_verify ( struct ast_heap h)

Verify that a heap has been properly constructed.

Parameters:
ha heap
Return values:
0success
non-zerofailure
Note:
This function is mostly for debugging purposes. It traverses an existing heap and verifies that every node is properly placed relative to its children.
Since:
1.6.1

Definition at line 86 of file heap.c.

References ast_heap::cmp_fn, ast_heap::cur_len, heap_get(), left_node(), and right_node().

{
   unsigned int i;

   for (i = 1; i <= (h->cur_len / 2); i++) {
      int l = left_node(i);
      int r = right_node(i);

      if (l <= h->cur_len) {
         if (h->cmp_fn(heap_get(h, i), heap_get(h, l)) < 0) {
            return -1;
         }
      }

      if (r <= h->cur_len) {
         if (h->cmp_fn(heap_get(h, i), heap_get(h, r)) < 0) {
            return -1;
         }
      }
   }

   return 0;
}
int ast_heap_wrlock ( struct ast_heap h)

Write-Lock a heap.

Parameters:
hthe heap

A lock is provided for convenience. It can be assumed that none of the ast_heap API calls are thread safe. This lock does not have to be used if another one is already available to protect the heap.

Returns:
see the documentation for pthread_rwlock_wrlock()
Since:
1.6.1

Definition at line 311 of file heap.c.

References ast_rwlock_wrlock(), and ast_heap::lock.

Referenced by _ast_register_timing_interface(), and ast_unregister_timing_interface().

{
   return ast_rwlock_wrlock(&h->lock);
}