/* GStreamer * Copyright (C) 1999,2000 Erik Walthinsen * 2000 Wim Taymans * * gstprops.c: Properties subsystem for generic usage * * 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. */ /* #define GST_DEBUG_ENABLED */ #include "gst_private.h" #include "gstlog.h" #include "gstprops.h" GType _gst_props_type; #define GST_PROPS_ENTRY_IS_VARIABLE(a) (((GstPropsEntry*)(a))->propstype > GST_PROPS_VAR_TYPE) struct _GstPropsEntry { GQuark propid; GstPropsType propstype; union { /* flat values */ gboolean bool_data; guint32 fourcc_data; gint int_data; gfloat float_data; /* structured values */ struct { GList *entries; } list_data; struct { gchar *string; } string_data; struct { gint min; gint max; } int_range_data; struct { gfloat min; gfloat max; } float_range_data; } data; }; static GMemChunk *_gst_props_entries_chunk; static GMutex *_gst_props_entries_chunk_lock; static GMemChunk *_gst_props_chunk; static GMutex *_gst_props_chunk_lock; static gboolean gst_props_entry_check_compatibility (GstPropsEntry *entry1, GstPropsEntry *entry2); static GList* gst_props_list_copy (GList *propslist); void _gst_props_initialize (void) { _gst_props_entries_chunk = g_mem_chunk_new ("GstPropsEntries", sizeof (GstPropsEntry), sizeof (GstPropsEntry) * 256, G_ALLOC_AND_FREE); _gst_props_entries_chunk_lock = g_mutex_new (); _gst_props_chunk = g_mem_chunk_new ("GstProps", sizeof (GstProps), sizeof (GstProps) * 256, G_ALLOC_AND_FREE); _gst_props_chunk_lock = g_mutex_new (); _gst_props_type = g_boxed_type_register_static ("GstProps", (GBoxedCopyFunc) gst_props_ref, (GBoxedFreeFunc) gst_props_unref); } static void gst_props_debug_entry (GstPropsEntry *entry) { const gchar *name = g_quark_to_string (entry->propid); switch (entry->propstype) { case GST_PROPS_INT_TYPE: GST_DEBUG (GST_CAT_PROPERTIES, "%s: int %d", name, entry->data.int_data); break; case GST_PROPS_FLOAT_TYPE: GST_DEBUG (GST_CAT_PROPERTIES, "%s: float %f", name, entry->data.float_data); break; case GST_PROPS_FOURCC_TYPE: GST_DEBUG (GST_CAT_PROPERTIES, "%s: fourcc %4.4s", name, (gchar*)&entry->data.fourcc_data); break; case GST_PROPS_BOOL_TYPE: GST_DEBUG (GST_CAT_PROPERTIES, "%s: bool %d", name, entry->data.bool_data); break; case GST_PROPS_STRING_TYPE: GST_DEBUG (GST_CAT_PROPERTIES, "%s: string %s", name, entry->data.string_data.string); break; case GST_PROPS_INT_RANGE_TYPE: GST_DEBUG (GST_CAT_PROPERTIES, "%s: int range %d-%d", name, entry->data.int_range_data.min, entry->data.int_range_data.max); break; case GST_PROPS_FLOAT_RANGE_TYPE: GST_DEBUG (GST_CAT_PROPERTIES, "%s: float range %f-%f", name, entry->data.float_range_data.min, entry->data.float_range_data.max); break; case GST_PROPS_LIST_TYPE: GST_DEBUG (GST_CAT_PROPERTIES, "[list]"); { GList *entries = entry->data.list_data.entries; while (entries) { gst_props_debug_entry ((GstPropsEntry *)entries->data); entries = g_list_next (entries); } } break; default: g_warning ("unknown property type %d", entry->propstype); break; } } static gint props_compare_func (gconstpointer a, gconstpointer b) { GstPropsEntry *entry1 = (GstPropsEntry *)a; GstPropsEntry *entry2 = (GstPropsEntry *)b; return (entry1->propid - entry2->propid); } static gint props_find_func (gconstpointer a, gconstpointer b) { GstPropsEntry *entry2 = (GstPropsEntry *)a; GQuark quark = (GQuark) GPOINTER_TO_INT (b); return (quark - entry2->propid); } /* This is implemented as a huge macro because we cannot pass * va_list variables by reference on some architectures. */ #define GST_PROPS_ENTRY_FILL(entry, var_args) \ G_STMT_START { \ entry->propstype = va_arg (var_args, GstPropsType); \ \ switch (entry->propstype) { \ case GST_PROPS_INT_TYPE: \ entry->data.int_data = va_arg (var_args, gint); \ break; \ case GST_PROPS_INT_RANGE_TYPE: \ entry->data.int_range_data.min = va_arg (var_args, gint); \ entry->data.int_range_data.max = va_arg (var_args, gint); \ break; \ case GST_PROPS_FLOAT_TYPE: \ entry->data.float_data = va_arg (var_args, gdouble); \ break; \ case GST_PROPS_FLOAT_RANGE_TYPE: \ entry->data.float_range_data.min = va_arg (var_args, gdouble); \ entry->data.float_range_data.max = va_arg (var_args, gdouble); \ break; \ case GST_PROPS_FOURCC_TYPE: \ entry->data.fourcc_data = va_arg (var_args, gulong); \ break; \ case GST_PROPS_BOOL_TYPE: \ entry->data.bool_data = va_arg (var_args, gboolean); \ break; \ case GST_PROPS_STRING_TYPE: \ entry->data.string_data.string = g_strdup (va_arg (var_args, gchar*)); \ break; \ default: \ break; \ } \ } G_STMT_END #define GST_PROPS_ENTRY_READ(entry, var_args, safe, result) \ G_STMT_START { \ \ *result = TRUE; \ \ if (safe) { \ GstPropsType propstype = va_arg (var_args, GstPropsType); \ if (propstype != entry->propstype) { \ *result = FALSE; \ } \ } \ if (*result) { \ switch (entry->propstype) { \ case GST_PROPS_INT_TYPE: \ *(va_arg (var_args, gint*)) = entry->data.int_data; \ break; \ case GST_PROPS_INT_RANGE_TYPE: \ *(va_arg (var_args, gint*)) = entry->data.int_range_data.min; \ *(va_arg (var_args, gint*)) = entry->data.int_range_data.max; \ break; \ case GST_PROPS_FLOAT_TYPE: \ *(va_arg (var_args, gfloat*)) = entry->data.float_data; \ break; \ case GST_PROPS_FLOAT_RANGE_TYPE: \ *(va_arg (var_args, gfloat*)) = entry->data.float_range_data.min; \ *(va_arg (var_args, gfloat*)) = entry->data.float_range_data.max; \ break; \ case GST_PROPS_FOURCC_TYPE: \ *(va_arg (var_args, guint32*)) = entry->data.fourcc_data; \ break; \ case GST_PROPS_BOOL_TYPE: \ *(va_arg (var_args, gboolean*)) = entry->data.bool_data; \ break; \ case GST_PROPS_STRING_TYPE: \ *(va_arg (var_args, gchar**)) = entry->data.string_data.string; \ break; \ case GST_PROPS_LIST_TYPE: \ *(va_arg (var_args, GList**)) = entry->data.list_data.entries; \ break; \ default: \ *result = FALSE; \ break; \ } \ } \ } G_STMT_END static GstPropsEntry* gst_props_alloc_entry (void) { GstPropsEntry *entry; g_mutex_lock (_gst_props_entries_chunk_lock); entry = g_mem_chunk_alloc (_gst_props_entries_chunk); g_mutex_unlock (_gst_props_entries_chunk_lock); return entry; } static void gst_props_entry_destroy (GstPropsEntry *entry) { switch (entry->propstype) { case GST_PROPS_STRING_TYPE: g_free (entry->data.string_data.string); break; case GST_PROPS_LIST_TYPE: { GList *entries = entry->data.list_data.entries; while (entries) { gst_props_entry_destroy ((GstPropsEntry *)entries->data); entries = g_list_next (entries); } g_list_free (entry->data.list_data.entries); break; } default: break; } g_mutex_lock (_gst_props_entries_chunk_lock); g_mem_chunk_free (_gst_props_entries_chunk, entry); g_mutex_unlock (_gst_props_entries_chunk_lock); } /** * gst_props_empty_new: * * Create a new empty property. * * Returns: the new property */ GstProps* gst_props_empty_new (void) { GstProps *props; g_mutex_lock (_gst_props_chunk_lock); props = g_mem_chunk_alloc (_gst_props_chunk); g_mutex_unlock (_gst_props_chunk_lock); props->properties = NULL; props->refcount = 1; props->fixed = TRUE; return props; } /** * gst_props_add_entry: * @props: the property to add the entry to * @entry: the entry to add * * Addes the given propsentry to the props */ void gst_props_add_entry (GstProps *props, GstPropsEntry *entry) { g_return_if_fail (props); g_return_if_fail (entry); if (props->fixed && GST_PROPS_ENTRY_IS_VARIABLE (entry)) { props->fixed = FALSE; } props->properties = g_list_insert_sorted (props->properties, entry, props_compare_func); } /** * gst_props_new: * @firstname: the first property name * @...: the property values * * Create a new property from the given key/value pairs * * Returns: the new property */ GstProps* gst_props_new (const gchar *firstname, ...) { GstProps *props; va_list var_args; va_start (var_args, firstname); props = gst_props_newv (firstname, var_args); va_end (var_args); return props; } /** * gst_props_debug: * @props: the props to debug * * Dump the contents of the given properties into the DEBUG log. */ void gst_props_debug (GstProps *props) { GList *propslist = props->properties; while (propslist) { GstPropsEntry *entry = (GstPropsEntry *)propslist->data; gst_props_debug_entry (entry); propslist = g_list_next (propslist); } } /** * gst_props_merge_int_entries: * @newentry: the new entry * @oldentry: an old entry * * Tries to merge oldentry into newentry, if there is a simpler single entry which represents * * Assumes that the entries are either ints or int ranges. * * Returns: TRUE if the entries were merged, FALSE otherwise. */ static gboolean gst_props_merge_int_entries(GstPropsEntry * newentry, GstPropsEntry * oldentry) { gint new_min, new_max, old_min, old_max; gboolean can_merge = FALSE; if (newentry->propstype == GST_PROPS_INT_TYPE) { new_min = newentry->data.int_data; new_max = newentry->data.int_data; } else { new_min = newentry->data.int_range_data.min; new_max = newentry->data.int_range_data.max; } if (oldentry->propstype == GST_PROPS_INT_TYPE) { old_min = oldentry->data.int_data; old_max = oldentry->data.int_data; } else { old_min = oldentry->data.int_range_data.min; old_max = oldentry->data.int_range_data.max; } /* Put range which starts lower into (new_min, new_max) */ if (old_min < new_min) { gint tmp; tmp = old_min; old_min = new_min; new_min = tmp; tmp = old_max; old_max = new_max; new_max = tmp; } /* new_min is min of either entry - second half of the following conditional */ /* is to avoid overflow problems. */ if (new_max >= old_min - 1 && old_min - 1 < old_min) { /* ranges overlap, or are adjacent. Pick biggest maximum. */ can_merge = TRUE; if (old_max > new_max) new_max = old_max; } if (can_merge) { if (new_min == new_max) { newentry->propstype = GST_PROPS_INT_TYPE; newentry->data.int_data = new_min; } else { newentry->propstype = GST_PROPS_INT_RANGE_TYPE; newentry->data.int_range_data.min = new_min; newentry->data.int_range_data.max = new_max; } } return can_merge; } /** * gst_props_add_to_int_list: * @entries: the existing list of entries * @entry: the new entry to add to the list * * Add an integer property to a list of properties, removing duplicates * and merging ranges. * * Assumes that the existing list is in simplest form, contains * only ints and int ranges, and that the new entry is an int or * an int range. * * Returns: a pointer to a list with the new entry added. */ static GList * gst_props_add_to_int_list (GList * entries, GstPropsEntry * newentry) { GList * i; i = entries; while (i) { GstPropsEntry * oldentry = (GstPropsEntry *)(i->data); gboolean merged = gst_props_merge_int_entries(newentry, oldentry); if (merged) { /* replace the existing one with the merged one */ g_mutex_lock (_gst_props_entries_chunk_lock); g_mem_chunk_free (_gst_props_entries_chunk, oldentry); g_mutex_unlock (_gst_props_entries_chunk_lock); entries = g_list_remove_link (entries, i); g_list_free_1 (i); /* start again: it's possible that this change made an earlier entry */ /* mergeable, and the pointer is now invalid anyway. */ i = entries; } i = g_list_next (i); } return g_list_prepend (entries, newentry); } static GstPropsEntry* gst_props_entry_newv (const gchar *name, va_list var_args) { GstPropsEntry *entry; entry = gst_props_alloc_entry (); entry->propid = g_quark_from_string (name); GST_PROPS_ENTRY_FILL (entry, var_args); return entry; } /** * gst_props_entry_new: * @name: the name of the props entry * @...: the value of the entry * * Create a new property entry with the given key/value. * * Returns: the new entry. */ GstPropsEntry* gst_props_entry_new (const gchar *name, ...) { va_list var_args; GstPropsEntry *entry; va_start (var_args, name); entry = gst_props_entry_newv (name, var_args); va_end (var_args); return entry; } /** * gst_props_newv: * @firstname: the first property name * @var_args: the property values * * Create a new property from the list of entries. * * Returns: the new property created from the list of entries */ GstProps* gst_props_newv (const gchar *firstname, va_list var_args) { GstProps *props; gboolean inlist = FALSE; const gchar *prop_name; GstPropsEntry *list_entry = NULL; typedef enum { GST_PROPS_LIST_T_UNSET, GST_PROPS_LIST_T_INTS, GST_PROPS_LIST_T_FLOATS, GST_PROPS_LIST_T_MISC, } list_types; /* type of the list */ list_types list_type = GST_PROPS_LIST_T_UNSET; /* type of current item */ list_types entry_type = GST_PROPS_LIST_T_UNSET; if (firstname == NULL) return NULL; props = gst_props_empty_new (); prop_name = firstname; /* properties */ while (prop_name) { GstPropsEntry *entry; entry = gst_props_alloc_entry (); entry->propid = g_quark_from_string (prop_name); GST_PROPS_ENTRY_FILL (entry, var_args); switch (entry->propstype) { case GST_PROPS_INT_TYPE: case GST_PROPS_INT_RANGE_TYPE: entry_type = GST_PROPS_LIST_T_INTS; break; case GST_PROPS_FLOAT_TYPE: case GST_PROPS_FLOAT_RANGE_TYPE: entry_type = GST_PROPS_LIST_T_FLOATS; break; case GST_PROPS_FOURCC_TYPE: case GST_PROPS_BOOL_TYPE: case GST_PROPS_STRING_TYPE: entry_type = GST_PROPS_LIST_T_MISC; break; case GST_PROPS_LIST_TYPE: g_return_val_if_fail (inlist == FALSE, NULL); inlist = TRUE; list_entry = entry; list_type = GST_PROPS_LIST_T_UNSET; list_entry->data.list_data.entries = NULL; break; case GST_PROPS_END_TYPE: g_return_val_if_fail (inlist == TRUE, NULL); /* if list was of size 1, replace the list by a the item it contains */ if (g_list_length(list_entry->data.list_data.entries) == 1) { GstPropsEntry * subentry = (GstPropsEntry *)(list_entry->data.list_data.entries->data); list_entry->propstype = subentry->propstype; list_entry->data = subentry->data; g_mutex_lock (_gst_props_entries_chunk_lock); g_mem_chunk_free (_gst_props_entries_chunk, subentry); g_mutex_unlock (_gst_props_entries_chunk_lock); } else { list_entry->data.list_data.entries = g_list_reverse (list_entry->data.list_data.entries); } g_mutex_lock (_gst_props_entries_chunk_lock); g_mem_chunk_free (_gst_props_entries_chunk, entry); g_mutex_unlock (_gst_props_entries_chunk_lock); inlist = FALSE; list_entry = NULL; prop_name = va_arg (var_args, gchar*); continue; default: g_warning ("unknown property type found %d for '%s'\n", entry->propstype, prop_name); g_mutex_lock (_gst_props_entries_chunk_lock); g_mem_chunk_free (_gst_props_entries_chunk, entry); g_mutex_unlock (_gst_props_entries_chunk_lock); break; } if (inlist && (list_entry != entry)) { if (list_type == GST_PROPS_LIST_T_UNSET) list_type = entry_type; if (list_type != entry_type) { g_warning ("property list contained incompatible entry types\n"); } else { switch (list_type) { case GST_PROPS_LIST_T_INTS: list_entry->data.list_data.entries = gst_props_add_to_int_list (list_entry->data.list_data.entries, entry); break; default: list_entry->data.list_data.entries = g_list_prepend (list_entry->data.list_data.entries, entry); break; } } } else { gst_props_add_entry (props, entry); } if (!inlist) prop_name = va_arg (var_args, gchar*); } return props; } /** * gst_props_set: * @props: the props to modify * @name: the name of the entry to modify * @...: The prop entry. * * Modifies the value of the given entry in the props struct. * For the optional args, use GST_PROPS_FOO, where FOO is INT, * STRING, etc. This macro expands to a variable number of arguments, * hence the lack of precision in the function prototype. No * terminating NULL is necessary as only one property can be changed. * * Returns: the new modified property structure. */ GstProps* gst_props_set (GstProps *props, const gchar *name, ...) { GQuark quark; GList *lentry; va_list var_args; g_return_val_if_fail (props != NULL, NULL); quark = g_quark_from_string (name); lentry = g_list_find_custom (props->properties, GINT_TO_POINTER (quark), props_find_func); if (lentry) { GstPropsEntry *entry; entry = (GstPropsEntry *)lentry->data; va_start (var_args, name); GST_PROPS_ENTRY_FILL (entry, var_args); va_end (var_args); } else { g_warning ("gstprops: no property '%s' to change\n", name); } return props; } /** * gst_props_unref: * @props: the props to unref * * Decrease the refcount of the property structure, destroying * the property if the refcount is 0. */ void gst_props_unref (GstProps *props) { if (props == NULL) return; props->refcount--; if (props->refcount == 0) gst_props_destroy (props); } /** * gst_props_ref: * @props: the props to ref * * Increase the refcount of the property structure. */ void gst_props_ref (GstProps *props) { g_return_if_fail (props != NULL); props->refcount++; } /** * gst_props_destroy: * @props: the props to destroy * * Destroy the property, freeing all the memory that * was allocated. */ void gst_props_destroy (GstProps *props) { GList *entries; if (props == NULL) return; entries = props->properties; while (entries) { gst_props_entry_destroy ((GstPropsEntry *)entries->data); entries = g_list_next (entries); } g_list_free (props->properties); g_mutex_lock (_gst_props_chunk_lock); g_mem_chunk_free (_gst_props_chunk, props); g_mutex_unlock (_gst_props_chunk_lock); } /* * copy entries */ static GstPropsEntry* gst_props_entry_copy (GstPropsEntry *entry) { GstPropsEntry *newentry; newentry = gst_props_alloc_entry (); memcpy (newentry, entry, sizeof (GstPropsEntry)); if (entry->propstype == GST_PROPS_LIST_TYPE) { newentry->data.list_data.entries = gst_props_list_copy (entry->data.list_data.entries); } else if (entry->propstype == GST_PROPS_STRING_TYPE) { newentry->data.string_data.string = g_strdup (entry->data.string_data.string); } return newentry; } static GList* gst_props_list_copy (GList *propslist) { GList *new = NULL; while (propslist) { GstPropsEntry *entry = (GstPropsEntry *)propslist->data; new = g_list_prepend (new, gst_props_entry_copy (entry)); propslist = g_list_next (propslist); } new = g_list_reverse (new); return new; } /** * gst_props_copy: * @props: the props to copy * * Copy the property structure. * * Returns: the new property that is a copy of the original * one. */ GstProps* gst_props_copy (GstProps *props) { GstProps *new; if (props == NULL) return NULL; new = gst_props_empty_new (); new->properties = gst_props_list_copy (props->properties); new->fixed = props->fixed; return new; } /** * gst_props_copy_on_write: * @props: the props to copy on write * * Copy the property structure if the refcount is >1. * * Returns: A new props that can be safely written to. */ GstProps* gst_props_copy_on_write (GstProps *props) { GstProps *new = props;; g_return_val_if_fail (props != NULL, NULL); if (props->refcount > 1) { new = gst_props_copy (props); gst_props_unref (props); } return new; } /** * gst_props_get_entry: * @props: the props to query * @name: the name of the entry to get * * Get the props entry with the geven name * * Returns: The props entry with the geven name or NULL when * the entry was not found. */ const GstPropsEntry* gst_props_get_entry (GstProps *props, const gchar *name) { GList *lentry; GQuark quark; g_return_val_if_fail (props != NULL, NULL); g_return_val_if_fail (name != NULL, NULL); quark = g_quark_from_string (name); lentry = g_list_find_custom (props->properties, GINT_TO_POINTER (quark), props_find_func); if (lentry) { GstPropsEntry *thisentry; thisentry = (GstPropsEntry *)lentry->data; return thisentry; } return NULL; } /** * gst_props_has_property: * @props: the props to check * @name: the name of the key to find * * Checks if a given props has a property with the given name. * * Returns: TRUE if the property was found, FALSE otherwise. */ gboolean gst_props_has_property (GstProps *props, const gchar *name) { return (gst_props_get_entry (props, name) != NULL); } /** * gst_props_has_property_typed: * @props: the props to check * @name: the name of the key to find * @type: the type of the required property * * Checks if a given props has a property with the given name and the given type. * * Returns: TRUE if the property was found, FALSE otherwise. */ gboolean gst_props_has_property_typed (GstProps *props, const gchar *name, GstPropsType type) { const GstPropsEntry *entry; entry = gst_props_get_entry (props, name); if (!entry) return FALSE; return (entry->propstype == type); } /** * gst_props_has_fixed_property: * @props: the props to check * @name: the name of the key to find * * Checks if a given props has a property with the given name that * is also fixed, ie. is not a list or a range. * * Returns: TRUE if the property was found, FALSE otherwise. */ gboolean gst_props_has_fixed_property (GstProps *props, const gchar *name) { const GstPropsEntry *entry; entry = gst_props_get_entry (props, name); if (!entry) return FALSE; return !GST_PROPS_ENTRY_IS_VARIABLE (entry); } /** * gst_props_entry_get_type: * @entry: the props entry to query * * Get the type of the given props entry. * * Returns: The type of the props entry. */ GstPropsType gst_props_entry_get_type (const GstPropsEntry *entry) { g_return_val_if_fail (entry != NULL, GST_PROPS_INVALID_TYPE); return entry->propstype; } /** * gst_props_entry_get_name: * @entry: the props entry to query * * Get the name of the given props entry. * * Returns: The name of the props entry. */ const gchar* gst_props_entry_get_name (const GstPropsEntry *entry) { g_return_val_if_fail (entry != NULL, NULL); return g_quark_to_string (entry->propid); } /** * gst_props_entry_is_fixed: * @entry: the props entry to query * * Checks if the props entry is fixe, ie. is not a list * or a range. * * Returns: TRUE is the props entry is fixed. */ gboolean gst_props_entry_is_fixed (const GstPropsEntry *entry) { g_return_val_if_fail (entry != NULL, FALSE); return !GST_PROPS_ENTRY_IS_VARIABLE (entry); } static gboolean gst_props_entry_getv (const GstPropsEntry *entry, gboolean safe, va_list var_args) { gboolean result; GST_PROPS_ENTRY_READ (entry, var_args, safe, &result); return result; } /** * gst_props_entry_get: * @entry: the props entry to query * @...: a pointer to a type that can hold the value. * * Gets the contents of the entry. * * Returns: TRUE is the props entry could be fetched. */ gboolean gst_props_entry_get (const GstPropsEntry *entry, ...) { gboolean result; va_list var_args; g_return_val_if_fail (entry != NULL, FALSE); va_start (var_args, entry); result = gst_props_entry_getv (entry, FALSE, var_args); va_end (var_args); return result; } static gboolean gst_props_entry_get_safe (const GstPropsEntry *entry, ...) { gboolean result; va_list var_args; g_return_val_if_fail (entry != NULL, FALSE); va_start (var_args, entry); result = gst_props_entry_getv (entry, TRUE, var_args); va_end (var_args); return result; } static gboolean gst_props_getv (GstProps *props, gboolean safe, gchar *first_name, va_list var_args) { while (first_name) { const GstPropsEntry *entry = gst_props_get_entry (props, first_name); gboolean result; if (!entry) return FALSE; GST_PROPS_ENTRY_READ (entry, var_args, FALSE, &result); if (!result) return FALSE; first_name = va_arg (var_args, gchar *); } return TRUE; } /** * gst_props_get: * @props: the props to query * @first_name: the first key * @...: a pointer to a datastructure that can hold the value. * * Gets the contents of the props into given key/value pairs. * * Returns: TRUE is the props entry could be fetched. */ gboolean gst_props_get (GstProps *props, gchar *first_name, ...) { va_list var_args; gboolean ret; va_start (var_args, first_name); ret = gst_props_getv (props, FALSE, first_name, var_args); va_end (var_args); return ret; } /** * gst_props_get_safe: * @props: the props to query * @first_name: the first key * @...: a pointer to a datastructure that can hold the value. * * Gets the contents of the props into given key/value pairs. * * Returns: TRUE is the props entry could be fetched. */ gboolean gst_props_get_safe (GstProps *props, gchar *first_name, ...) { va_list var_args; gboolean ret; va_start (var_args, first_name); ret = gst_props_getv (props, TRUE, first_name, var_args); va_end (var_args); return ret; } /** * gst_props_entry_get_int: * @entry: the props entry to query * @val: a pointer to a gint to hold the value. * * Get the contents of the entry into the given gint. * * Returns: TRUE is the value could be fetched. FALSE if the * entry is not of given type. */ gboolean gst_props_entry_get_int (const GstPropsEntry *entry, gint *val) { return gst_props_entry_get_safe (entry, GST_PROPS_INT_TYPE, val); } /** * gst_props_entry_get_float: * @entry: the props entry to query * @val: a pointer to a gfloat to hold the value. * * Get the contents of the entry into the given gfloat. * * Returns: TRUE is the value could be fetched. FALSE if the * entry is not of given type. */ gboolean gst_props_entry_get_float (const GstPropsEntry *entry, gfloat *val) { return gst_props_entry_get_safe (entry, GST_PROPS_FLOAT_TYPE, val); } /** * gst_props_entry_get_fourcc_int: * @entry: the props entry to query * @val: a pointer to a guint32 to hold the value. * * Get the contents of the entry into the given guint32. * * Returns: TRUE is the value could be fetched. FALSE if the * entry is not of given type. */ gboolean gst_props_entry_get_fourcc_int (const GstPropsEntry *entry, guint32 *val) { return gst_props_entry_get_safe (entry, GST_PROPS_FOURCC_TYPE, val); } /** * gst_props_entry_get_boolean: * @entry: the props entry to query * @val: a pointer to a gboolean to hold the value. * * Get the contents of the entry into the given gboolean. * * Returns: TRUE is the value could be fetched. FALSE if the * entry is not of given type. */ gboolean gst_props_entry_get_boolean (const GstPropsEntry *entry, gboolean *val) { return gst_props_entry_get_safe (entry, GST_PROPS_BOOL_TYPE, val); } /** * gst_props_entry_get_string: * @entry: the props entry to query * @val: a pointer to a gchar* to hold the value. * * Get the contents of the entry into the given gchar*. * * Returns: TRUE is the value could be fetched. FALSE if the * entry is not of given type. */ gboolean gst_props_entry_get_string (const GstPropsEntry *entry, const gchar **val) { return gst_props_entry_get_safe (entry, GST_PROPS_STRING_TYPE, val); } /** * gst_props_entry_get_int_range: * @entry: the props entry to query * @min: a pointer to a gint to hold the minimun value. * @max: a pointer to a gint to hold the maximum value. * * Get the contents of the entry into the given gints. * * Returns: TRUE is the value could be fetched. FALSE if the * entry is not of given type. */ gboolean gst_props_entry_get_int_range (const GstPropsEntry *entry, gint *min, gint *max) { return gst_props_entry_get_safe (entry, GST_PROPS_INT_RANGE_TYPE, min, max); } /** * gst_props_entry_get_float_range: * @entry: the props entry to query * @min: a pointer to a gfloat to hold the minimun value. * @max: a pointer to a gfloat to hold the maximum value. * * Get the contents of the entry into the given gfloats. * * Returns: TRUE is the value could be fetched. FALSE if the * entry is not of given type. */ gboolean gst_props_entry_get_float_range (const GstPropsEntry *entry, gfloat *min, gfloat *max) { return gst_props_entry_get_safe (entry, GST_PROPS_FLOAT_RANGE_TYPE, min, max); } /** * gst_props_entry_get_list: * @entry: the props entry to query * @val: a pointer to a GList to hold the value. * * Get the contents of the entry into the given GList. * * Returns: TRUE is the value could be fetched. FALSE if the * entry is not of given type. */ gboolean gst_props_entry_get_list (const GstPropsEntry *entry, const GList **val) { return gst_props_entry_get_safe (entry, GST_PROPS_LIST_TYPE, val); } /** * gst_props_merge: * @props: the property to merge into * @tomerge: the property to merge * * Merge the properties of tomerge into props. * * Returns: the new merged property */ GstProps* gst_props_merge (GstProps *props, GstProps *tomerge) { GList *merge_props; g_return_val_if_fail (props != NULL, NULL); g_return_val_if_fail (tomerge != NULL, NULL); merge_props = tomerge->properties; /* FIXME do proper merging here... */ while (merge_props) { GstPropsEntry *entry = (GstPropsEntry *)merge_props->data; gst_props_add_entry (props, entry); merge_props = g_list_next (merge_props); } return props; } /* entry2 is always a list, entry1 never is */ static gboolean gst_props_entry_check_list_compatibility (GstPropsEntry *entry1, GstPropsEntry *entry2) { GList *entrylist = entry2->data.list_data.entries; gboolean found = FALSE; while (entrylist && !found) { GstPropsEntry *entry = (GstPropsEntry *) entrylist->data; found |= gst_props_entry_check_compatibility (entry1, entry); entrylist = g_list_next (entrylist); } return found; } static gboolean gst_props_entry_check_compatibility (GstPropsEntry *entry1, GstPropsEntry *entry2) { GST_DEBUG (GST_CAT_PROPERTIES,"compare: %s %s", g_quark_to_string (entry1->propid), g_quark_to_string (entry2->propid)); if (entry2->propstype == GST_PROPS_LIST_TYPE && entry1->propstype != GST_PROPS_LIST_TYPE) { return gst_props_entry_check_list_compatibility (entry1, entry2); } switch (entry1->propstype) { case GST_PROPS_LIST_TYPE: { GList *entrylist = entry1->data.list_data.entries; gboolean valid = TRUE; /* innocent until proven guilty */ while (entrylist && valid) { GstPropsEntry *entry = (GstPropsEntry *) entrylist->data; valid &= gst_props_entry_check_compatibility (entry, entry2); entrylist = g_list_next (entrylist); } return valid; } case GST_PROPS_INT_RANGE_TYPE: switch (entry2->propstype) { /* a - b <---> a - c */ case GST_PROPS_INT_RANGE_TYPE: return (entry2->data.int_range_data.min <= entry1->data.int_range_data.min && entry2->data.int_range_data.max >= entry1->data.int_range_data.max); default: break; } break; case GST_PROPS_FLOAT_RANGE_TYPE: switch (entry2->propstype) { /* a - b <---> a - c */ case GST_PROPS_FLOAT_RANGE_TYPE: return (entry2->data.float_range_data.min <= entry1->data.float_range_data.min && entry2->data.float_range_data.max >= entry1->data.float_range_data.max); default: break; } break; case GST_PROPS_FOURCC_TYPE: switch (entry2->propstype) { /* b <---> a */ case GST_PROPS_FOURCC_TYPE: GST_DEBUG(GST_CAT_PROPERTIES,"\"%4.4s\" <--> \"%4.4s\" ?", (char*) &entry2->data.fourcc_data, (char*) &entry1->data.fourcc_data); return (entry2->data.fourcc_data == entry1->data.fourcc_data); default: break; } break; case GST_PROPS_INT_TYPE: switch (entry2->propstype) { /* b <---> a - d */ case GST_PROPS_INT_RANGE_TYPE: GST_DEBUG(GST_CAT_PROPERTIES,"%d <= %d <= %d ?",entry2->data.int_range_data.min, entry1->data.int_data,entry2->data.int_range_data.max); return (entry2->data.int_range_data.min <= entry1->data.int_data && entry2->data.int_range_data.max >= entry1->data.int_data); /* b <---> a */ case GST_PROPS_INT_TYPE: GST_DEBUG(GST_CAT_PROPERTIES,"%d == %d ?",entry1->data.int_data,entry2->data.int_data); return (entry2->data.int_data == entry1->data.int_data); default: break; } break; case GST_PROPS_FLOAT_TYPE: switch (entry2->propstype) { /* b <---> a - d */ case GST_PROPS_FLOAT_RANGE_TYPE: return (entry2->data.float_range_data.min <= entry1->data.float_data && entry2->data.float_range_data.max >= entry1->data.float_data); /* b <---> a */ case GST_PROPS_FLOAT_TYPE: return (entry2->data.float_data == entry1->data.float_data); default: break; } break; case GST_PROPS_BOOL_TYPE: switch (entry2->propstype) { /* t <---> t */ case GST_PROPS_BOOL_TYPE: return (entry2->data.bool_data == entry1->data.bool_data); default: break; } case GST_PROPS_STRING_TYPE: switch (entry2->propstype) { /* t <---> t */ case GST_PROPS_STRING_TYPE: GST_DEBUG(GST_CAT_PROPERTIES,"\"%s\" <--> \"%s\" ?", entry2->data.string_data.string, entry1->data.string_data.string); return (!strcmp (entry2->data.string_data.string, entry1->data.string_data.string)); default: break; } default: break; } return FALSE; } /** * gst_props_check_compatibility: * @fromprops: a property * @toprops: a property * * Checks whether two capabilities are compatible. * * Returns: TRUE if compatible, FALSE otherwise */ gboolean gst_props_check_compatibility (GstProps *fromprops, GstProps *toprops) { GList *sourcelist; GList *sinklist; gint missing = 0; gint more = 0; gboolean compatible = TRUE; g_return_val_if_fail (fromprops != NULL, FALSE); g_return_val_if_fail (toprops != NULL, FALSE); sourcelist = fromprops->properties; sinklist = toprops->properties; while (sourcelist && sinklist && compatible) { GstPropsEntry *entry1; GstPropsEntry *entry2; entry1 = (GstPropsEntry *)sourcelist->data; entry2 = (GstPropsEntry *)sinklist->data; while (entry1->propid < entry2->propid) { more++; sourcelist = g_list_next (sourcelist); if (sourcelist) entry1 = (GstPropsEntry *)sourcelist->data; else goto end; } while (entry1->propid > entry2->propid) { missing++; sinklist = g_list_next (sinklist); if (sinklist) entry2 = (GstPropsEntry *)sinklist->data; else goto end; } if (!gst_props_entry_check_compatibility (entry1, entry2)) { compatible = FALSE; GST_DEBUG (GST_CAT_PROPERTIES, "%s are not compatible: ", g_quark_to_string (entry1->propid)); } sourcelist = g_list_next (sourcelist); sinklist = g_list_next (sinklist); } if (sinklist && compatible) { GstPropsEntry *entry2; entry2 = (GstPropsEntry *)sinklist->data; missing++; } end: if (missing) return FALSE; return compatible; } static GstPropsEntry* gst_props_entry_intersect (GstPropsEntry *entry1, GstPropsEntry *entry2) { GstPropsEntry *result = NULL; /* try to move the ranges and lists first */ switch (entry2->propstype) { case GST_PROPS_INT_RANGE_TYPE: case GST_PROPS_FLOAT_RANGE_TYPE: case GST_PROPS_LIST_TYPE: { GstPropsEntry *temp; temp = entry1; entry1 = entry2; entry2 = temp; } default: break; } switch (entry1->propstype) { case GST_PROPS_LIST_TYPE: { GList *entrylist = entry1->data.list_data.entries; GList *intersection = NULL; while (entrylist) { GstPropsEntry *entry = (GstPropsEntry *) entrylist->data; GstPropsEntry *intersectentry; intersectentry = gst_props_entry_intersect (entry2, entry); if (intersectentry) { if (intersectentry->propstype == GST_PROPS_LIST_TYPE) { intersection = g_list_concat (intersection, g_list_copy (intersectentry->data.list_data.entries)); /* set the list to NULL because the entries are concatenated to the above * list and we don't want to free them */ intersectentry->data.list_data.entries = NULL; gst_props_entry_destroy (intersectentry); } else { intersection = g_list_prepend (intersection, intersectentry); } } entrylist = g_list_next (entrylist); } if (intersection) { /* check if the list only contains 1 element, if so, we can just copy it */ if (g_list_next (intersection) == NULL) { result = (GstPropsEntry *) (intersection->data); g_list_free (intersection); } /* else we need to create a new entry to hold the list */ else { result = gst_props_alloc_entry (); result->propid = entry1->propid; result->propstype = GST_PROPS_LIST_TYPE; result->data.list_data.entries = g_list_reverse (intersection); } } return result; } case GST_PROPS_INT_RANGE_TYPE: switch (entry2->propstype) { /* a - b <---> a - c */ case GST_PROPS_INT_RANGE_TYPE: { gint lower = MAX (entry1->data.int_range_data.min, entry2->data.int_range_data.min); gint upper = MIN (entry1->data.int_range_data.max, entry2->data.int_range_data.max); if (lower <= upper) { result = gst_props_alloc_entry (); result->propid = entry1->propid; if (lower == upper) { result->propstype = GST_PROPS_INT_TYPE; result->data.int_data = lower; } else { result->propstype = GST_PROPS_INT_RANGE_TYPE; result->data.int_range_data.min = lower; result->data.int_range_data.max = upper; } } break; } case GST_PROPS_LIST_TYPE: { GList *entries = entry2->data.list_data.entries; result = gst_props_alloc_entry (); result->propid = entry1->propid; result->propstype = GST_PROPS_LIST_TYPE; result->data.list_data.entries = NULL; while (entries) { GstPropsEntry * this = (GstPropsEntry *)entries->data; if (this->propstype != GST_PROPS_INT_TYPE) { /* no hope, this list doesn't even contain ints! */ gst_props_entry_destroy (result); result = NULL; break; } if (this->data.int_data >= entry1->data.int_range_data.min && this->data.int_data <= entry1->data.int_range_data.max) { result->data.list_data.entries = g_list_append (result->data.list_data.entries, gst_props_entry_copy (this)); } entries = g_list_next (entries); } break; } case GST_PROPS_INT_TYPE: { if (entry1->data.int_range_data.min <= entry2->data.int_data && entry1->data.int_range_data.max >= entry2->data.int_data) { result = gst_props_entry_copy (entry2); } break; } default: break; } break; case GST_PROPS_FLOAT_RANGE_TYPE: switch (entry2->propstype) { /* a - b <---> a - c */ case GST_PROPS_FLOAT_RANGE_TYPE: { gfloat lower = MAX (entry1->data.float_range_data.min, entry2->data.float_range_data.min); gfloat upper = MIN (entry1->data.float_range_data.max, entry2->data.float_range_data.max); if (lower <= upper) { result = gst_props_alloc_entry (); result->propid = entry1->propid; if (lower == upper) { result->propstype = GST_PROPS_FLOAT_TYPE; result->data.float_data = lower; } else { result->propstype = GST_PROPS_FLOAT_RANGE_TYPE; result->data.float_range_data.min = lower; result->data.float_range_data.max = upper; } } break; } case GST_PROPS_FLOAT_TYPE: if (entry1->data.float_range_data.min <= entry2->data.float_data && entry1->data.float_range_data.max >= entry2->data.float_data) { result = gst_props_entry_copy (entry2); } default: break; } break; case GST_PROPS_FOURCC_TYPE: switch (entry2->propstype) { /* b <---> a */ case GST_PROPS_FOURCC_TYPE: if (entry1->data.fourcc_data == entry2->data.fourcc_data) result = gst_props_entry_copy (entry1); default: break; } break; case GST_PROPS_INT_TYPE: switch (entry2->propstype) { /* b <---> a */ case GST_PROPS_INT_TYPE: if (entry1->data.int_data == entry2->data.int_data) result = gst_props_entry_copy (entry1); default: break; } break; case GST_PROPS_FLOAT_TYPE: switch (entry2->propstype) { /* b <---> a */ case GST_PROPS_FLOAT_TYPE: if (entry1->data.float_data == entry2->data.float_data) result = gst_props_entry_copy (entry1); default: break; } break; case GST_PROPS_BOOL_TYPE: switch (entry2->propstype) { /* t <---> t */ case GST_PROPS_BOOL_TYPE: if (entry1->data.bool_data == entry2->data.bool_data) result = gst_props_entry_copy (entry1); default: break; } case GST_PROPS_STRING_TYPE: switch (entry2->propstype) { /* t <---> t */ case GST_PROPS_STRING_TYPE: if (!strcmp (entry1->data.string_data.string, entry2->data.string_data.string)) result = gst_props_entry_copy (entry1); default: break; } default: break; } return result; } /** * gst_props_intersect: * @props1: a property * @props2: another property * * Calculates the intersection bewteen two GstProps. * * Returns: a GstProps with the intersection or NULL if the * intersection is empty. */ GstProps* gst_props_intersect (GstProps *props1, GstProps *props2) { GList *props1list; GList *props2list; GstProps *intersection; GList *leftovers; GstPropsEntry *iprops = NULL; intersection = gst_props_empty_new (); intersection->fixed = TRUE; g_return_val_if_fail (props1 != NULL, NULL); g_return_val_if_fail (props2 != NULL, NULL); props1list = props1->properties; props2list = props2->properties; while (props1list && props2list) { GstPropsEntry *entry1; GstPropsEntry *entry2; entry1 = (GstPropsEntry *)props1list->data; entry2 = (GstPropsEntry *)props2list->data; while (entry1->propid < entry2->propid) { GstPropsEntry *toadd; GST_DEBUG (GST_CAT_PROPERTIES,"source is more specific in \"%s\"", g_quark_to_string (entry1->propid)); toadd = gst_props_entry_copy (entry1); if (GST_PROPS_ENTRY_IS_VARIABLE (toadd)) intersection->fixed = FALSE; intersection->properties = g_list_prepend (intersection->properties, toadd); props1list = g_list_next (props1list); if (props1list) entry1 = (GstPropsEntry *)props1list->data; else goto end; } while (entry1->propid > entry2->propid) { GstPropsEntry *toadd; toadd = gst_props_entry_copy (entry2); if (GST_PROPS_ENTRY_IS_VARIABLE (toadd)) intersection->fixed = FALSE; intersection->properties = g_list_prepend (intersection->properties, toadd); props2list = g_list_next (props2list); if (props2list) entry2 = (GstPropsEntry *)props2list->data; else goto end; } /* at this point we are talking about the same property */ iprops = gst_props_entry_intersect (entry1, entry2); if (iprops) { if (GST_PROPS_ENTRY_IS_VARIABLE (iprops)) intersection->fixed = FALSE; intersection->properties = g_list_prepend (intersection->properties, iprops); } else { gst_props_unref (intersection); return NULL; } props1list = g_list_next (props1list); props2list = g_list_next (props2list); } end: /* at this point one of the lists could contain leftover properties */ if (props1list) leftovers = props1list; else if (props2list) leftovers = props2list; else leftovers = NULL; while (leftovers) { GstPropsEntry *entry; entry = (GstPropsEntry *) leftovers->data; if (GST_PROPS_ENTRY_IS_VARIABLE (entry)) intersection->fixed = FALSE; intersection->properties = g_list_prepend (intersection->properties, gst_props_entry_copy (entry)); leftovers = g_list_next (leftovers); } intersection->properties = g_list_reverse (intersection->properties); return intersection; } /** * gst_props_normalize: * @props: a property * * Unrolls all lists in the given GstProps. This is usefull if you * want to loop over the props. * * Returns: A GList with the unrolled props entries. */ GList* gst_props_normalize (GstProps *props) { GList *entries; GList *result = NULL; if (!props) return NULL; entries = props->properties; while (entries) { GstPropsEntry *entry = (GstPropsEntry *) entries->data; if (entry->propstype == GST_PROPS_LIST_TYPE) { GList *list_entries = entry->data.list_data.entries; while (list_entries) { GstPropsEntry *list_entry = (GstPropsEntry *) list_entries->data; GstPropsEntry *new_entry; GstProps *newprops; GList *lentry; newprops = gst_props_empty_new (); newprops->properties = gst_props_list_copy (props->properties); lentry = g_list_find_custom (newprops->properties, GINT_TO_POINTER (list_entry->propid), props_find_func); if (lentry) { GList *new_list = NULL; new_entry = (GstPropsEntry *) lentry->data; memcpy (new_entry, list_entry, sizeof (GstPropsEntry)); new_list = gst_props_normalize (newprops); result = g_list_concat (new_list, result); } else { result = g_list_append (result, newprops); } list_entries = g_list_next (list_entries); } /* we break out of the loop because the other lists are * unrolled in the recursive call */ break; } entries = g_list_next (entries); } if (!result) { result = g_list_prepend (result, props); } else { result = g_list_reverse (result); gst_props_unref (props); } return result; } #ifndef GST_DISABLE_LOADSAVE_REGISTRY static xmlNodePtr gst_props_save_thyself_func (GstPropsEntry *entry, xmlNodePtr parent) { xmlNodePtr subtree; gchar *str; switch (entry->propstype) { case GST_PROPS_INT_TYPE: subtree = xmlNewChild (parent, NULL, "int", NULL); xmlNewProp (subtree, "name", g_quark_to_string (entry->propid)); str = g_strdup_printf ("%d", entry->data.int_data); xmlNewProp (subtree, "value", str); g_free(str); break; case GST_PROPS_INT_RANGE_TYPE: subtree = xmlNewChild (parent, NULL, "range", NULL); xmlNewProp (subtree, "name", g_quark_to_string (entry->propid)); str = g_strdup_printf ("%d", entry->data.int_range_data.min); xmlNewProp (subtree, "min", str); g_free(str); str = g_strdup_printf ("%d", entry->data.int_range_data.max); xmlNewProp (subtree, "max", str); g_free(str); break; case GST_PROPS_FLOAT_TYPE: subtree = xmlNewChild (parent, NULL, "float", NULL); xmlNewProp (subtree, "name", g_quark_to_string (entry->propid)); str = g_strdup_printf ("%f", entry->data.float_data); xmlNewProp (subtree, "value", str); g_free(str); break; case GST_PROPS_FLOAT_RANGE_TYPE: subtree = xmlNewChild (parent, NULL, "floatrange", NULL); xmlNewProp (subtree, "name", g_quark_to_string (entry->propid)); str = g_strdup_printf ("%f", entry->data.float_range_data.min); xmlNewProp (subtree, "min", str); g_free(str); str = g_strdup_printf ("%f", entry->data.float_range_data.max); xmlNewProp (subtree, "max", str); g_free(str); break; case GST_PROPS_FOURCC_TYPE: str = g_strdup_printf ("%4.4s", (gchar *)&entry->data.fourcc_data); xmlAddChild (parent, xmlNewComment (str)); g_free(str); subtree = xmlNewChild (parent, NULL, "fourcc", NULL); xmlNewProp (subtree, "name", g_quark_to_string (entry->propid)); str = g_strdup_printf ("%08x", entry->data.fourcc_data); xmlNewProp (subtree, "hexvalue", str); g_free(str); break; case GST_PROPS_BOOL_TYPE: subtree = xmlNewChild (parent, NULL, "boolean", NULL); xmlNewProp (subtree, "name", g_quark_to_string (entry->propid)); xmlNewProp (subtree, "value", (entry->data.bool_data ? "true" : "false")); break; case GST_PROPS_STRING_TYPE: subtree = xmlNewChild (parent, NULL, "string", NULL); xmlNewProp (subtree, "name", g_quark_to_string (entry->propid)); xmlNewProp (subtree, "value", entry->data.string_data.string); break; default: g_warning ("trying to save unknown property type %d", entry->propstype); break; } return parent; } /** * gst_props_save_thyself: * @props: a property to save * @parent: the parent XML tree * * Saves the property into an XML representation. * * Returns: the new XML tree */ xmlNodePtr gst_props_save_thyself (GstProps *props, xmlNodePtr parent) { GList *proplist; xmlNodePtr subtree; g_return_val_if_fail (props != NULL, NULL); proplist = props->properties; while (proplist) { GstPropsEntry *entry = (GstPropsEntry *) proplist->data; switch (entry->propstype) { case GST_PROPS_LIST_TYPE: subtree = xmlNewChild (parent, NULL, "list", NULL); xmlNewProp (subtree, "name", g_quark_to_string (entry->propid)); g_list_foreach (entry->data.list_data.entries, (GFunc) gst_props_save_thyself_func, subtree); break; default: gst_props_save_thyself_func (entry, parent); } proplist = g_list_next (proplist); } return parent; } static GstPropsEntry* gst_props_load_thyself_func (xmlNodePtr field) { GstPropsEntry *entry; gchar *prop; entry = gst_props_alloc_entry (); if (!strcmp(field->name, "int")) { entry->propstype = GST_PROPS_INT_TYPE; prop = xmlGetProp(field, "name"); entry->propid = g_quark_from_string (prop); g_free (prop); prop = xmlGetProp(field, "value"); sscanf (prop, "%d", &entry->data.int_data); g_free (prop); } else if (!strcmp(field->name, "range")) { entry->propstype = GST_PROPS_INT_RANGE_TYPE; prop = xmlGetProp(field, "name"); entry->propid = g_quark_from_string (prop); g_free (prop); prop = xmlGetProp (field, "min"); sscanf (prop, "%d", &entry->data.int_range_data.min); g_free (prop); prop = xmlGetProp (field, "max"); sscanf (prop, "%d", &entry->data.int_range_data.max); g_free (prop); } else if (!strcmp(field->name, "float")) { entry->propstype = GST_PROPS_FLOAT_TYPE; prop = xmlGetProp(field, "name"); entry->propid = g_quark_from_string (prop); g_free (prop); prop = xmlGetProp(field, "value"); sscanf (prop, "%f", &entry->data.float_data); g_free (prop); } else if (!strcmp(field->name, "floatrange")) { entry->propstype = GST_PROPS_FLOAT_RANGE_TYPE; prop = xmlGetProp(field, "name"); entry->propid = g_quark_from_string (prop); g_free (prop); prop = xmlGetProp (field, "min"); sscanf (prop, "%f", &entry->data.float_range_data.min); g_free (prop); prop = xmlGetProp (field, "max"); sscanf (prop, "%f", &entry->data.float_range_data.max); g_free (prop); } else if (!strcmp(field->name, "boolean")) { entry->propstype = GST_PROPS_BOOL_TYPE; prop = xmlGetProp(field, "name"); entry->propid = g_quark_from_string (prop); g_free (prop); prop = xmlGetProp (field, "value"); if (!strcmp (prop, "false")) entry->data.bool_data = 0; else entry->data.bool_data = 1; g_free (prop); } else if (!strcmp(field->name, "fourcc")) { entry->propstype = GST_PROPS_FOURCC_TYPE; prop = xmlGetProp(field, "name"); entry->propid = g_quark_from_string (prop); g_free (prop); prop = xmlGetProp (field, "hexvalue"); sscanf (prop, "%08x", &entry->data.fourcc_data); g_free (prop); } else if (!strcmp(field->name, "string")) { entry->propstype = GST_PROPS_STRING_TYPE; prop = xmlGetProp(field, "name"); entry->propid = g_quark_from_string (prop); g_free (prop); entry->data.string_data.string = xmlGetProp (field, "value"); } else { g_mutex_lock (_gst_props_entries_chunk_lock); g_mem_chunk_free (_gst_props_entries_chunk, entry); g_mutex_unlock (_gst_props_entries_chunk_lock); entry = NULL; } return entry; } /** * gst_props_load_thyself: * @parent: the XML tree to load from * * Creates a new property out of an XML tree. * * Returns: the new property */ GstProps* gst_props_load_thyself (xmlNodePtr parent) { GstProps *props; xmlNodePtr field = parent->xmlChildrenNode; gchar *prop; props = gst_props_empty_new (); while (field) { if (!strcmp (field->name, "list")) { GstPropsEntry *entry; xmlNodePtr subfield = field->xmlChildrenNode; entry = gst_props_alloc_entry (); prop = xmlGetProp (field, "name"); entry->propid = g_quark_from_string (prop); g_free (prop); entry->propstype = GST_PROPS_LIST_TYPE; entry->data.list_data.entries = NULL; while (subfield) { GstPropsEntry *subentry = gst_props_load_thyself_func (subfield); if (subentry) entry->data.list_data.entries = g_list_prepend (entry->data.list_data.entries, subentry); subfield = subfield->next; } entry->data.list_data.entries = g_list_reverse (entry->data.list_data.entries); gst_props_add_entry (props, entry); } else { GstPropsEntry *entry; entry = gst_props_load_thyself_func (field); if (entry) gst_props_add_entry (props, entry); } field = field->next; } return props; } #endif /* GST_DISABLE_LOADSAVE_REGISTRY */