/* GStreamer * Copyright (C) 2004 Wim Taymans * * gstiterator.h: Base class for iterating datastructures. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ /** * SECTION:gstiterator * @short_description: Object to retrieve multiple elements in a threadsafe * way. * @see_also: #GstElement, #GstBin * * A GstIterator is used to retrieve multiple objects from another object in * a threadsafe way. * * Various GStreamer objects provide access to their internal structures using * an iterator. * * In general, whenever calling a GstIterator function results in your code * receiving a refcounted object, the refcount for that object will have been * increased. Your code is responsible for unrefing that object after use. * * The basic use pattern of an iterator is as follows: * * * Using an iterator * * it = _get_iterator(object); * done = FALSE; * while (!done) { * switch (gst_iterator_next (it, &item)) { * case GST_ITERATOR_OK: * ... use/change item here... * gst_object_unref (item); * break; * case GST_ITERATOR_RESYNC: * ...rollback changes to items... * gst_iterator_resync (it); * break; * case GST_ITERATOR_ERROR: * ...wrong parameters were given... * done = TRUE; * break; * case GST_ITERATOR_DONE: * done = TRUE; * break; * } * } * gst_iterator_free (it); * * * * Last reviewed on 2009-06-16 (0.10.24) */ #include "gst_private.h" #include /* FIXME 0.11: Store the size inside the iterator, use GSlice for allocation * and let gst_iterator_free() free the memory while the free-func only frees * additional resources (maybe call it finalize?). */ static void gst_iterator_init (GstIterator * it, GType type, GMutex * lock, guint32 * master_cookie, GstIteratorNextFunction next, GstIteratorItemFunction item, GstIteratorResyncFunction resync, GstIteratorFreeFunction free) { it->type = type; it->lock = lock; it->master_cookie = master_cookie; it->cookie = *master_cookie; it->next = next; it->item = item; it->resync = resync; it->free = free; it->pushed = NULL; } /** * gst_iterator_new: * @size: the size of the iterator structure * @type: #GType of children * @lock: pointer to a #GMutex. * @master_cookie: pointer to a guint32 that is changed when the items in the * iterator changed. * @next: function to get next item * @item: function to call on each item retrieved * @resync: function to resync the iterator * @free: function to free the iterator * * Create a new iterator. This function is mainly used for objects * implementing the next/resync/free function to iterate a data structure. * * For each item retrieved, the @item function is called with the lock * held. The @free function is called when the iterator is freed. * * Returns: the new #GstIterator. * * MT safe. */ GstIterator * gst_iterator_new (guint size, GType type, GMutex * lock, guint32 * master_cookie, GstIteratorNextFunction next, GstIteratorItemFunction item, GstIteratorResyncFunction resync, GstIteratorFreeFunction free) { GstIterator *result; g_return_val_if_fail (size >= sizeof (GstIterator), NULL); g_return_val_if_fail (g_type_qname (type) != 0, NULL); g_return_val_if_fail (master_cookie != NULL, NULL); g_return_val_if_fail (next != NULL, NULL); g_return_val_if_fail (resync != NULL, NULL); g_return_val_if_fail (free != NULL, NULL); result = g_malloc (size); gst_iterator_init (result, type, lock, master_cookie, next, item, resync, free); return result; } /* * list iterator */ typedef struct _GstListIterator { GstIterator iterator; gpointer owner; GList **orig; GList *list; /* pointer in list */ GstIteratorDisposeFunction freefunc; } GstListIterator; static GstIteratorResult gst_list_iterator_next (GstListIterator * it, gpointer * elem) { if (it->list == NULL) return GST_ITERATOR_DONE; *elem = it->list->data; it->list = g_list_next (it->list); return GST_ITERATOR_OK; } static void gst_list_iterator_resync (GstListIterator * it) { it->list = *it->orig; } static void gst_list_iterator_free (GstListIterator * it) { if (it->freefunc) { it->freefunc (it->owner); } g_free (it); } /** * gst_iterator_new_list: * @type: #GType of elements * @lock: pointer to a #GMutex protecting the list. * @master_cookie: pointer to a guint32 that is incremented when the list * is changed. * @list: pointer to the list * @owner: object owning the list * @item: function to call for each item * @free: function to call when the iterator is freed * * Create a new iterator designed for iterating @list. * * The list you iterate is usually part of a data structure @owner and is * protected with @lock. * * The iterator will use @lock to retrieve the next item of the list and it * will then call the @item function before releasing @lock again. * * The @item function usualy makes sure that the item remains alive while * @lock is released and the application is using the item. The application is * responsible for freeing/unreffing the item after usage as explained in * gst_iterator_next(). * * When a concurrent update to the list is performed, usually by @owner while * holding @lock, @master_cookie will be updated. The iterator implementation * will notice the update of the cookie and will return %GST_ITERATOR_RESYNC to * the user of the iterator in the next call to gst_iterator_next(). * * @owner will be passed to the @free function when the iterator is freed. * * Returns: the new #GstIterator for @list. * * MT safe. */ GstIterator * gst_iterator_new_list (GType type, GMutex * lock, guint32 * master_cookie, GList ** list, gpointer owner, GstIteratorItemFunction item, GstIteratorDisposeFunction free) { GstListIterator *result; /* no need to lock, nothing can change here */ result = (GstListIterator *) gst_iterator_new (sizeof (GstListIterator), type, lock, master_cookie, (GstIteratorNextFunction) gst_list_iterator_next, (GstIteratorItemFunction) item, (GstIteratorResyncFunction) gst_list_iterator_resync, (GstIteratorFreeFunction) gst_list_iterator_free); result->owner = owner; result->orig = list; result->list = *list; result->freefunc = free; return GST_ITERATOR (result); } static void gst_iterator_pop (GstIterator * it) { if (it->pushed) { gst_iterator_free (it->pushed); it->pushed = NULL; } } /** * gst_iterator_next: * @it: The #GstIterator to iterate * @elem: pointer to hold next element * * Get the next item from the iterator in @elem. * * Only when this function returns %GST_ITERATOR_OK, @elem will contain a valid * value. For iterators that return refcounted objects, the returned object * will have its refcount increased and should therefore be unreffed after * usage. * * When this function returns %GST_ITERATOR_DONE, no more elements can be * retrieved from @it. * * A return value of %GST_ITERATOR_RESYNC indicates that the element list was * concurrently updated. The user of @it should call gst_iterator_resync() to * get the newly updated list. * * A return value of %GST_ITERATOR_ERROR indicates an unrecoverable fatal error. * * Returns: The result of the iteration. Unref @elem after usage if this * is a refcounted object. * * MT safe. */ GstIteratorResult gst_iterator_next (GstIterator * it, gpointer * elem) { GstIteratorResult result; g_return_val_if_fail (it != NULL, GST_ITERATOR_ERROR); g_return_val_if_fail (elem != NULL, GST_ITERATOR_ERROR); restart: if (it->pushed) { result = gst_iterator_next (it->pushed, elem); if (result == GST_ITERATOR_DONE) { /* we are done with this iterator, pop it and * fallthrough iterating the main iterator again. */ gst_iterator_pop (it); } else { return result; } } if (G_LIKELY (it->lock)) g_mutex_lock (it->lock); if (G_UNLIKELY (*it->master_cookie != it->cookie)) { result = GST_ITERATOR_RESYNC; goto done; } result = it->next (it, elem); if (result == GST_ITERATOR_OK && it->item) { GstIteratorItem itemres; itemres = it->item (it, *elem); switch (itemres) { case GST_ITERATOR_ITEM_SKIP: if (G_LIKELY (it->lock)) g_mutex_unlock (it->lock); goto restart; case GST_ITERATOR_ITEM_END: result = GST_ITERATOR_DONE; break; case GST_ITERATOR_ITEM_PASS: break; } } done: if (G_LIKELY (it->lock)) g_mutex_unlock (it->lock); return result; } /** * gst_iterator_resync: * @it: The #GstIterator to resync * * Resync the iterator. this function is mostly called * after gst_iterator_next() returned %GST_ITERATOR_RESYNC. * * When an iterator was pushed on @it, it will automatically be popped again * with this function. * * MT safe. */ void gst_iterator_resync (GstIterator * it) { g_return_if_fail (it != NULL); gst_iterator_pop (it); if (G_LIKELY (it->lock)) g_mutex_lock (it->lock); it->resync (it); it->cookie = *it->master_cookie; if (G_LIKELY (it->lock)) g_mutex_unlock (it->lock); } /** * gst_iterator_free: * @it: The #GstIterator to free * * Free the iterator. * * MT safe. */ void gst_iterator_free (GstIterator * it) { g_return_if_fail (it != NULL); gst_iterator_pop (it); it->free (it); } /** * gst_iterator_push: * @it: The #GstIterator to use * @other: The #GstIterator to push * * Pushes @other iterator onto @it. All calls performed on @it are * forwarded to @other. If @other returns %GST_ITERATOR_DONE, it is * popped again and calls are handled by @it again. * * This function is mainly used by objects implementing the iterator * next function to recurse into substructures. * * When gst_iterator_resync() is called on @it, @other will automatically be * popped. * * MT safe. */ void gst_iterator_push (GstIterator * it, GstIterator * other) { g_return_if_fail (it != NULL); g_return_if_fail (other != NULL); it->pushed = other; } typedef struct _GstIteratorFilter { GstIterator iterator; GstIterator *slave; GCompareFunc func; gpointer user_data; } GstIteratorFilter; static GstIteratorResult filter_next (GstIteratorFilter * it, gpointer * elem) { GstIteratorResult result = GST_ITERATOR_ERROR; gboolean done = FALSE; *elem = NULL; while (G_LIKELY (!done)) { gpointer item; result = gst_iterator_next (it->slave, &item); switch (result) { case GST_ITERATOR_OK: if (G_LIKELY (GST_ITERATOR (it)->lock)) g_mutex_unlock (GST_ITERATOR (it)->lock); if (it->func (item, it->user_data) == 0) { *elem = item; done = TRUE; } if (G_LIKELY (GST_ITERATOR (it)->lock)) g_mutex_lock (GST_ITERATOR (it)->lock); break; case GST_ITERATOR_RESYNC: case GST_ITERATOR_DONE: done = TRUE; break; default: g_assert_not_reached (); break; } } return result; } static void filter_resync (GstIteratorFilter * it) { gst_iterator_resync (it->slave); } static void filter_uninit (GstIteratorFilter * it) { it->slave->lock = GST_ITERATOR (it)->lock; } static void filter_free (GstIteratorFilter * it) { filter_uninit (it); gst_iterator_free (it->slave); g_free (it); } /** * gst_iterator_filter: * @it: The #GstIterator to filter * @func: the compare function to select elements * @user_data: user data passed to the compare function * * Create a new iterator from an existing iterator. The new iterator * will only return those elements that match the given compare function @func. * @func should return 0 for elements that should be included * in the iterator. * * When this iterator is freed, @it will also be freed. * * Returns: a new #GstIterator. * * MT safe. */ GstIterator * gst_iterator_filter (GstIterator * it, GCompareFunc func, gpointer user_data) { GstIteratorFilter *result; g_return_val_if_fail (it != NULL, NULL); g_return_val_if_fail (func != NULL, NULL); result = (GstIteratorFilter *) gst_iterator_new (sizeof (GstIteratorFilter), it->type, it->lock, it->master_cookie, (GstIteratorNextFunction) filter_next, (GstIteratorItemFunction) NULL, (GstIteratorResyncFunction) filter_resync, (GstIteratorFreeFunction) filter_free); it->lock = NULL; result->func = func; result->user_data = user_data; result->slave = it; return GST_ITERATOR (result); } /** * gst_iterator_fold: * @it: The #GstIterator to fold over * @func: the fold function * @ret: the seed value passed to the fold function * @user_data: user data passed to the fold function * * Folds @func over the elements of @iter. That is to say, @func will be called * as @func (object, @ret, @user_data) for each object in @it. The normal use * of this procedure is to accumulate the results of operating on the objects in * @ret. If object is a refcounted object its refcount will be increased * before @func is called, and it should be unrefed after use in @func. * * This procedure can be used (and is used internally) to implement the * gst_iterator_foreach() and gst_iterator_find_custom() operations. * * The fold will proceed as long as @func returns TRUE. When the iterator has no * more arguments, %GST_ITERATOR_DONE will be returned. If @func returns FALSE, * the fold will stop, and %GST_ITERATOR_OK will be returned. Errors or resyncs * will cause fold to return %GST_ITERATOR_ERROR or %GST_ITERATOR_RESYNC as * appropriate. * * The iterator will not be freed. * * Returns: A #GstIteratorResult, as described above. * * MT safe. */ GstIteratorResult gst_iterator_fold (GstIterator * it, GstIteratorFoldFunction func, GValue * ret, gpointer user_data) { gpointer item; GstIteratorResult result; while (1) { result = gst_iterator_next (it, &item); switch (result) { case GST_ITERATOR_OK: /* FIXME: is there a way to ref/unref items? */ if (!func (item, ret, user_data)) goto fold_done; else break; case GST_ITERATOR_RESYNC: case GST_ITERATOR_ERROR: goto fold_done; case GST_ITERATOR_DONE: goto fold_done; } } fold_done: return result; } typedef struct { GFunc func; gpointer user_data; } ForeachFoldData; static gboolean foreach_fold_func (gpointer item, GValue * unused, ForeachFoldData * data) { data->func (item, data->user_data); return TRUE; } /** * gst_iterator_foreach: * @it: The #GstIterator to iterate * @func: the function to call for each element. * @user_data: user data passed to the function * * Iterate over all element of @it and call the given function @func for * each element. As in gst_iterator_fold(), the refcount of a refcounted * object will be increased before @func is called, and should be unrefed * after use. * * Returns: the result call to gst_iterator_fold(). The iterator will not be * freed. * * MT safe. */ GstIteratorResult gst_iterator_foreach (GstIterator * it, GFunc func, gpointer user_data) { ForeachFoldData data; data.func = func; data.user_data = user_data; return gst_iterator_fold (it, (GstIteratorFoldFunction) foreach_fold_func, NULL, &data); } typedef struct { GCompareFunc func; gpointer user_data; } FindCustomFoldData; static gboolean find_custom_fold_func (gpointer item, GValue * ret, FindCustomFoldData * data) { if (data->func (item, data->user_data) == 0) { g_value_set_pointer (ret, item); return FALSE; } else { return TRUE; } } /** * gst_iterator_find_custom: * @it: The #GstIterator to iterate * @func: the compare function to use * @user_data: user data passed to the compare function * * Find the first element in @it that matches the compare function @func. * @func should return 0 when the element is found. As in gst_iterator_fold(), * the refcount of a refcounted object will be increased before @func is * called, and should be unrefed after use. * * The iterator will not be freed. * * This function will return NULL if an error or resync happened to * the iterator. * * Returns: The element in the iterator that matches the compare * function or NULL when no element matched. * * MT safe. */ gpointer gst_iterator_find_custom (GstIterator * it, GCompareFunc func, gpointer user_data) { GValue ret = { 0, }; GstIteratorResult res; FindCustomFoldData data; g_value_init (&ret, G_TYPE_POINTER); data.func = func; data.user_data = user_data; /* FIXME, we totally ignore RESYNC and return NULL so that the * app does not know if the element was not found or a resync happened */ res = gst_iterator_fold (it, (GstIteratorFoldFunction) find_custom_fold_func, &ret, &data); /* no need to unset, it's just a pointer */ return g_value_get_pointer (&ret); } typedef struct { GstIterator parent; gpointer object; GstCopyFunction copy; GFreeFunc free; gboolean visited; } GstSingleObjectIterator; static guint32 _single_object_dummy_cookie = 0; static GstIteratorResult gst_single_object_iterator_iterator_next (GstSingleObjectIterator * it, gpointer * result) { if (it->visited || !it->object) { *result = NULL; return GST_ITERATOR_DONE; } *result = it->copy (it->object); it->visited = TRUE; return GST_ITERATOR_OK; } static void gst_single_object_iterator_resync (GstSingleObjectIterator * it) { it->visited = FALSE; } static void gst_single_object_iterator_free (GstSingleObjectIterator * it) { if (it->object) it->free (it->object); g_free (it); } /** * gst_iterator_new_single: * @type: #GType of the passed object * @object: object that this iterator should return * @copy: Function that returns a copy of @object or increases its refcount * @free: Function to be called for freeing @object * * This #GstIterator is a convenient iterator for the common * case where a #GstIterator needs to be returned but only * a single object has to be considered. This happens often * for the #GstPadIterIntLinkFunction. * * Returns: the new #GstIterator for @object. * * Since: 0.10.25 */ GstIterator * gst_iterator_new_single (GType type, gpointer object, GstCopyFunction copy, GFreeFunc free) { GstSingleObjectIterator *result; g_return_val_if_fail (copy != NULL, NULL); g_return_val_if_fail (free != NULL, NULL); result = (GstSingleObjectIterator *) gst_iterator_new (sizeof (GstSingleObjectIterator), type, NULL, &_single_object_dummy_cookie, (GstIteratorNextFunction) gst_single_object_iterator_iterator_next, NULL, (GstIteratorResyncFunction) gst_single_object_iterator_resync, (GstIteratorFreeFunction) gst_single_object_iterator_free); result->object = (object) ? copy (object) : NULL; result->copy = copy; result->free = free; result->visited = FALSE; return (GstIterator *) result; }