/* GLIB - Library of useful routines for C programming * Copyright (C) 1995-1997 Peter Mattis, Spencer Kimball and Josh MacDonald * * gdataset.c: Generic dataset mechanism, similar to GtkObject data. * Copyright (C) 1998 Tim Janik * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser 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. */ /* * Modified by the GLib Team and others 1997-2000. See the AUTHORS * file for a list of people on the GLib Team. See the ChangeLog * files for a list of changes. These files are distributed with * GLib at ftp://ftp.gtk.org/pub/gtk/. */ /* * MT safe ; except for g_data*_foreach() */ #include "config.h" #include #include "gdataset.h" #include "gbitlock.h" #include "gslice.h" #include "gdatasetprivate.h" #include "ghash.h" #include "gquark.h" #include "gstrfuncs.h" #include "gtestutils.h" #include "gthread.h" #include "glib_trace.h" /** * SECTION:datasets * @title: Datasets * @short_description: associate groups of data elements with * particular memory locations * * Datasets associate groups of data elements with particular memory * locations. These are useful if you need to associate data with a * structure returned from an external library. Since you cannot modify * the structure, you use its location in memory as the key into a * dataset, where you can associate any number of data elements with it. * * There are two forms of most of the dataset functions. The first form * uses strings to identify the data elements associated with a * location. The second form uses #GQuark identifiers, which are * created with a call to g_quark_from_string() or * g_quark_from_static_string(). The second form is quicker, since it * does not require looking up the string in the hash table of #GQuark * identifiers. * * There is no function to create a dataset. It is automatically * created as soon as you add elements to it. * * To add data elements to a dataset use g_dataset_id_set_data(), * g_dataset_id_set_data_full(), g_dataset_set_data() and * g_dataset_set_data_full(). * * To get data elements from a dataset use g_dataset_id_get_data() and * g_dataset_get_data(). * * To iterate over all data elements in a dataset use * g_dataset_foreach() (not thread-safe). * * To remove data elements from a dataset use * g_dataset_id_remove_data() and g_dataset_remove_data(). * * To destroy a dataset, use g_dataset_destroy(). **/ /** * SECTION:datalist * @title: Keyed Data Lists * @short_description: lists of data elements which are accessible by a * string or GQuark identifier * * Keyed data lists provide lists of arbitrary data elements which can * be accessed either with a string or with a #GQuark corresponding to * the string. * * The #GQuark methods are quicker, since the strings have to be * converted to #GQuarks anyway. * * Data lists are used for associating arbitrary data with #GObjects, * using g_object_set_data() and related functions. * * To create a datalist, use g_datalist_init(). * * To add data elements to a datalist use g_datalist_id_set_data(), * g_datalist_id_set_data_full(), g_datalist_set_data() and * g_datalist_set_data_full(). * * To get data elements from a datalist use g_datalist_id_get_data() * and g_datalist_get_data(). * * To iterate over all data elements in a datalist use * g_datalist_foreach() (not thread-safe). * * To remove data elements from a datalist use * g_datalist_id_remove_data() and g_datalist_remove_data(). * * To remove all data elements from a datalist, use g_datalist_clear(). **/ /** * GData: * * The #GData struct is an opaque data structure to represent a Keyed Data List. It should * only be accessed via the following functions. **/ /** * GDestroyNotify: * @data: the data element. * * Specifies the type of function which is called when a data element * is destroyed. It is passed the pointer to the data element and * should free any memory and resources allocated for it. **/ /* --- defines --- */ #define G_QUARK_BLOCK_SIZE (2048) #define G_DATALIST_FLAGS_MASK_INTERNAL 0x7 /* datalist pointer accesses have to be carried out atomically */ #define G_DATALIST_GET_POINTER(datalist) \ ((GData*) ((gsize) g_atomic_pointer_get (datalist) & ~(gsize) G_DATALIST_FLAGS_MASK_INTERNAL)) #define G_DATALIST_SET_POINTER(datalist, pointer) G_STMT_START { \ gpointer _oldv, _newv; \ do { \ _oldv = g_atomic_pointer_get (datalist); \ _newv = (gpointer) (((gsize) _oldv & G_DATALIST_FLAGS_MASK_INTERNAL) | (gsize) pointer); \ } while (!g_atomic_pointer_compare_and_exchange ((void**) datalist, _oldv, _newv)); \ } G_STMT_END /* --- structures --- */ typedef struct { GQuark key; gpointer data; GDestroyNotify destroy; } GDataElt; typedef struct _GDataset GDataset; struct _GData { guint32 len; /* Number of elements */ guint32 alloc; /* Number of allocated elements */ GDataElt data[1]; /* Flexible array */ }; struct _GDataset { gconstpointer location; GData *datalist; }; /* --- prototypes --- */ static inline GDataset* g_dataset_lookup (gconstpointer dataset_location); static inline void g_datalist_clear_i (GData **datalist); static void g_dataset_destroy_internal (GDataset *dataset); static inline gpointer g_data_set_internal (GData **datalist, GQuark key_id, gpointer data, GDestroyNotify destroy_func, GDataset *dataset); static void g_data_initialize (void); static inline GQuark g_quark_new (gchar *string); /* Locking model: * Each standalone GDataList is protected by a bitlock in the datalist pointer, * which protects that modification of the non-flags part of the datalist pointer * and the contents of the datalist. * * For GDataSet we have a global lock g_dataset_global that protects * the global dataset hash and cache, and additionally it protects the * datalist such that we can avoid to use the bit lock in a few places * where it is easy. */ /* --- variables --- */ G_LOCK_DEFINE_STATIC (g_dataset_global); static GHashTable *g_dataset_location_ht = NULL; static GDataset *g_dataset_cached = NULL; /* should this be threadspecific? */ G_LOCK_DEFINE_STATIC (g_quark_global); static GHashTable *g_quark_ht = NULL; static gchar **g_quarks = NULL; static int g_quark_seq_id = 0; /* --- functions --- */ #define DATALIST_LOCK_BIT 2 static void g_datalist_lock (GData **datalist) { g_pointer_bit_lock ((void **)datalist, DATALIST_LOCK_BIT); } static void g_datalist_unlock (GData **datalist) { g_pointer_bit_unlock ((void **)datalist, DATALIST_LOCK_BIT); } /* Called with the datalist lock held, or the dataset global * lock for dataset lists */ static void g_datalist_clear_i (GData **datalist) { GData *data; gint i; data = G_DATALIST_GET_POINTER (datalist); G_DATALIST_SET_POINTER (datalist, NULL); if (data) { G_UNLOCK (g_dataset_global); for (i = 0; i < data->len; i++) { if (data->data[i].data && data->data[i].destroy) data->data[i].destroy (data->data[i].data); } G_LOCK (g_dataset_global); g_free (data); } } /** * g_datalist_clear: * @datalist: a datalist. * * Frees all the data elements of the datalist. * The data elements' destroy functions are called * if they have been set. **/ void g_datalist_clear (GData **datalist) { GData *data; gint i; g_return_if_fail (datalist != NULL); g_datalist_lock (datalist); data = G_DATALIST_GET_POINTER (datalist); G_DATALIST_SET_POINTER (datalist, NULL); g_datalist_unlock (datalist); if (data) { for (i = 0; i < data->len; i++) { if (data->data[i].data && data->data[i].destroy) data->data[i].destroy (data->data[i].data); } g_free (data); } } /* HOLDS: g_dataset_global_lock */ static inline GDataset* g_dataset_lookup (gconstpointer dataset_location) { register GDataset *dataset; if (g_dataset_cached && g_dataset_cached->location == dataset_location) return g_dataset_cached; dataset = g_hash_table_lookup (g_dataset_location_ht, dataset_location); if (dataset) g_dataset_cached = dataset; return dataset; } /* HOLDS: g_dataset_global_lock */ static void g_dataset_destroy_internal (GDataset *dataset) { register gconstpointer dataset_location; dataset_location = dataset->location; while (dataset) { if (G_DATALIST_GET_POINTER(&dataset->datalist) == NULL) { if (dataset == g_dataset_cached) g_dataset_cached = NULL; g_hash_table_remove (g_dataset_location_ht, dataset_location); g_slice_free (GDataset, dataset); break; } g_datalist_clear_i (&dataset->datalist); dataset = g_dataset_lookup (dataset_location); } } /** * g_dataset_destroy: * @dataset_location: the location identifying the dataset. * * Destroys the dataset, freeing all memory allocated, and calling any * destroy functions set for data elements. */ void g_dataset_destroy (gconstpointer dataset_location) { g_return_if_fail (dataset_location != NULL); G_LOCK (g_dataset_global); if (g_dataset_location_ht) { register GDataset *dataset; dataset = g_dataset_lookup (dataset_location); if (dataset) g_dataset_destroy_internal (dataset); } G_UNLOCK (g_dataset_global); } /* HOLDS: g_dataset_global_lock if dataset != null */ static inline gpointer g_data_set_internal (GData **datalist, GQuark key_id, gpointer new_data, GDestroyNotify new_destroy_func, GDataset *dataset) { GData *d, *old_d; GDataElt old, *data, *data_last, *data_end; g_datalist_lock (datalist); d = G_DATALIST_GET_POINTER (datalist); if (new_data == NULL) /* remove */ { if (d) { data = d->data; data_last = data + d->len - 1; while (data <= data_last) { if (data->key == key_id) { old = *data; if (data != data_last) *data = *data_last; d->len--; /* We don't bother to shrink, but if all data are now gone * we at least free the memory */ if (d->len == 0) { G_DATALIST_SET_POINTER (datalist, NULL); g_free (d); /* the dataset destruction *must* be done * prior to invocation of the data destroy function */ if (dataset) g_dataset_destroy_internal (dataset); } g_datalist_unlock (datalist); /* We found and removed an old value * the GData struct *must* already be unlinked * when invoking the destroy function. * we use (new_data==NULL && new_destroy_func!=NULL) as * a special hint combination to "steal" * data without destroy notification */ if (old.destroy && !new_destroy_func) { if (dataset) G_UNLOCK (g_dataset_global); old.destroy (old.data); if (dataset) G_LOCK (g_dataset_global); old.data = NULL; } return old.data; } data++; } } } else { old.data = NULL; if (d) { data = d->data; data_end = data + d->len; while (data < data_end) { if (data->key == key_id) { if (!data->destroy) { data->data = new_data; data->destroy = new_destroy_func; g_datalist_unlock (datalist); } else { old = *data; data->data = new_data; data->destroy = new_destroy_func; g_datalist_unlock (datalist); /* We found and replaced an old value * the GData struct *must* already be unlinked * when invoking the destroy function. */ if (dataset) G_UNLOCK (g_dataset_global); old.destroy (old.data); if (dataset) G_LOCK (g_dataset_global); } return NULL; } data++; } } /* The key was not found, insert it */ old_d = d; if (d == NULL) { d = g_malloc (sizeof (GData)); d->len = 0; d->alloc = 1; } else if (d->len == d->alloc) { d->alloc = d->alloc * 2; d = g_realloc (d, sizeof (GData) + (d->alloc - 1) * sizeof (GDataElt)); } if (old_d != d) G_DATALIST_SET_POINTER (datalist, d); d->data[d->len].key = key_id; d->data[d->len].data = new_data; d->data[d->len].destroy = new_destroy_func; d->len++; } g_datalist_unlock (datalist); return NULL; } /** * g_dataset_id_set_data_full: * @dataset_location: the location identifying the dataset. * @key_id: the #GQuark id to identify the data element. * @data: the data element. * @destroy_func: the function to call when the data element is * removed. This function will be called with the data * element and can be used to free any memory allocated * for it. * * Sets the data element associated with the given #GQuark id, and also * the function to call when the data element is destroyed. Any * previous data with the same key is removed, and its destroy function * is called. **/ /** * g_dataset_set_data_full: * @l: the location identifying the dataset. * @k: the string to identify the data element. * @d: the data element. * @f: the function to call when the data element is removed. This * function will be called with the data element and can be used to * free any memory allocated for it. * * Sets the data corresponding to the given string identifier, and the * function to call when the data element is destroyed. **/ /** * g_dataset_id_set_data: * @l: the location identifying the dataset. * @k: the #GQuark id to identify the data element. * @d: the data element. * * Sets the data element associated with the given #GQuark id. Any * previous data with the same key is removed, and its destroy function * is called. **/ /** * g_dataset_set_data: * @l: the location identifying the dataset. * @k: the string to identify the data element. * @d: the data element. * * Sets the data corresponding to the given string identifier. **/ /** * g_dataset_id_remove_data: * @l: the location identifying the dataset. * @k: the #GQuark id identifying the data element. * * Removes a data element from a dataset. The data element's destroy * function is called if it has been set. **/ /** * g_dataset_remove_data: * @l: the location identifying the dataset. * @k: the string identifying the data element. * * Removes a data element corresponding to a string. Its destroy * function is called if it has been set. **/ void g_dataset_id_set_data_full (gconstpointer dataset_location, GQuark key_id, gpointer data, GDestroyNotify destroy_func) { register GDataset *dataset; g_return_if_fail (dataset_location != NULL); if (!data) g_return_if_fail (destroy_func == NULL); if (!key_id) { if (data) g_return_if_fail (key_id > 0); else return; } G_LOCK (g_dataset_global); if (!g_dataset_location_ht) g_data_initialize (); dataset = g_dataset_lookup (dataset_location); if (!dataset) { dataset = g_slice_new (GDataset); dataset->location = dataset_location; g_datalist_init (&dataset->datalist); g_hash_table_insert (g_dataset_location_ht, (gpointer) dataset->location, dataset); } g_data_set_internal (&dataset->datalist, key_id, data, destroy_func, dataset); G_UNLOCK (g_dataset_global); } /** * g_datalist_id_set_data_full: * @datalist: a datalist. * @key_id: the #GQuark to identify the data element. * @data: the data element or %NULL to remove any previous element * corresponding to @key_id. * @destroy_func: the function to call when the data element is * removed. This function will be called with the data * element and can be used to free any memory allocated * for it. If @data is %NULL, then @destroy_func must * also be %NULL. * * Sets the data corresponding to the given #GQuark id, and the * function to be called when the element is removed from the datalist. * Any previous data with the same key is removed, and its destroy * function is called. **/ /** * g_datalist_set_data_full: * @dl: a datalist. * @k: the string to identify the data element. * @d: the data element, or %NULL to remove any previous element * corresponding to @k. * @f: the function to call when the data element is removed. This * function will be called with the data element and can be used to * free any memory allocated for it. If @d is %NULL, then @f must * also be %NULL. * * Sets the data element corresponding to the given string identifier, * and the function to be called when the data element is removed. **/ /** * g_datalist_id_set_data: * @dl: a datalist. * @q: the #GQuark to identify the data element. * @d: the data element, or %NULL to remove any previous element * corresponding to @q. * * Sets the data corresponding to the given #GQuark id. Any previous * data with the same key is removed, and its destroy function is * called. **/ /** * g_datalist_set_data: * @dl: a datalist. * @k: the string to identify the data element. * @d: the data element, or %NULL to remove any previous element * corresponding to @k. * * Sets the data element corresponding to the given string identifier. **/ /** * g_datalist_id_remove_data: * @dl: a datalist. * @q: the #GQuark identifying the data element. * * Removes an element, using its #GQuark identifier. **/ /** * g_datalist_remove_data: * @dl: a datalist. * @k: the string identifying the data element. * * Removes an element using its string identifier. The data element's * destroy function is called if it has been set. **/ void g_datalist_id_set_data_full (GData **datalist, GQuark key_id, gpointer data, GDestroyNotify destroy_func) { g_return_if_fail (datalist != NULL); if (!data) g_return_if_fail (destroy_func == NULL); if (!key_id) { if (data) g_return_if_fail (key_id > 0); else return; } g_data_set_internal (datalist, key_id, data, destroy_func, NULL); } /** * g_dataset_id_remove_no_notify: * @dataset_location: the location identifying the dataset. * @key_id: the #GQuark ID identifying the data element. * @Returns: the data previously stored at @key_id, or %NULL if none. * * Removes an element, without calling its destroy notification * function. **/ /** * g_dataset_remove_no_notify: * @l: the location identifying the dataset. * @k: the string identifying the data element. * * Removes an element, without calling its destroy notifier. **/ gpointer g_dataset_id_remove_no_notify (gconstpointer dataset_location, GQuark key_id) { gpointer ret_data = NULL; g_return_val_if_fail (dataset_location != NULL, NULL); G_LOCK (g_dataset_global); if (key_id && g_dataset_location_ht) { GDataset *dataset; dataset = g_dataset_lookup (dataset_location); if (dataset) ret_data = g_data_set_internal (&dataset->datalist, key_id, NULL, (GDestroyNotify) 42, dataset); } G_UNLOCK (g_dataset_global); return ret_data; } /** * g_datalist_id_remove_no_notify: * @datalist: a datalist. * @key_id: the #GQuark identifying a data element. * @Returns: the data previously stored at @key_id, or %NULL if none. * * Removes an element, without calling its destroy notification * function. **/ /** * g_datalist_remove_no_notify: * @dl: a datalist. * @k: the string identifying the data element. * * Removes an element, without calling its destroy notifier. **/ gpointer g_datalist_id_remove_no_notify (GData **datalist, GQuark key_id) { gpointer ret_data = NULL; g_return_val_if_fail (datalist != NULL, NULL); if (key_id) ret_data = g_data_set_internal (datalist, key_id, NULL, (GDestroyNotify) 42, NULL); return ret_data; } /** * g_dataset_id_get_data: * @dataset_location: the location identifying the dataset. * @key_id: the #GQuark id to identify the data element. * @Returns: the data element corresponding to the #GQuark, or %NULL if * it is not found. * * Gets the data element corresponding to a #GQuark. **/ /** * g_dataset_get_data: * @l: the location identifying the dataset. * @k: the string identifying the data element. * @Returns: the data element corresponding to the string, or %NULL if * it is not found. * * Gets the data element corresponding to a string. **/ gpointer g_dataset_id_get_data (gconstpointer dataset_location, GQuark key_id) { gpointer retval = NULL; g_return_val_if_fail (dataset_location != NULL, NULL); G_LOCK (g_dataset_global); if (key_id && g_dataset_location_ht) { GDataset *dataset; dataset = g_dataset_lookup (dataset_location); if (dataset) retval = g_datalist_id_get_data (&dataset->datalist, key_id); } G_UNLOCK (g_dataset_global); return retval; } /** * g_datalist_id_get_data: * @datalist: a datalist. * @key_id: the #GQuark identifying a data element. * @Returns: the data element, or %NULL if it is not found. * * Retrieves the data element corresponding to @key_id. **/ gpointer g_datalist_id_get_data (GData **datalist, GQuark key_id) { gpointer res = NULL; g_return_val_if_fail (datalist != NULL, NULL); if (key_id) { GData *d; GDataElt *data, *data_end; g_datalist_lock (datalist); d = G_DATALIST_GET_POINTER (datalist); if (d) { data = d->data; data_end = data + d->len; while (data < data_end) { if (data->key == key_id) { res = data->data; break; } data++; } } g_datalist_unlock (datalist); } return res; } /** * g_datalist_get_data: * @datalist: a datalist. * @key: the string identifying a data element. * @Returns: the data element, or %NULL if it is not found. * * Gets a data element, using its string identifer. This is slower than * g_datalist_id_get_data() because it compares strings. **/ gpointer g_datalist_get_data (GData **datalist, const gchar *key) { gpointer res = NULL; GData *d; GDataElt *data, *data_end; g_return_val_if_fail (datalist != NULL, NULL); g_datalist_lock (datalist); d = G_DATALIST_GET_POINTER (datalist); if (d) { data = d->data; data_end = data + d->len; while (data < data_end) { if (strcmp (g_quark_to_string (data->key), key) == 0) { res = data->data; break; } data++; } } g_datalist_unlock (datalist); return res; } /** * GDataForeachFunc: * @key_id: the #GQuark id to identifying the data element. * @data: the data element. * @user_data: user data passed to g_dataset_foreach(). * * Specifies the type of function passed to g_dataset_foreach(). It is * called with each #GQuark id and associated data element, together * with the @user_data parameter supplied to g_dataset_foreach(). **/ /** * g_dataset_foreach: * @dataset_location: the location identifying the dataset. * @func: the function to call for each data element. * @user_data: user data to pass to the function. * * Calls the given function for each data element which is associated * with the given location. Note that this function is NOT thread-safe. * So unless @datalist can be protected from any modifications during * invocation of this function, it should not be called. **/ void g_dataset_foreach (gconstpointer dataset_location, GDataForeachFunc func, gpointer user_data) { register GDataset *dataset; g_return_if_fail (dataset_location != NULL); g_return_if_fail (func != NULL); G_LOCK (g_dataset_global); if (g_dataset_location_ht) { dataset = g_dataset_lookup (dataset_location); G_UNLOCK (g_dataset_global); if (dataset) g_datalist_foreach (&dataset->datalist, func, user_data); } else { G_UNLOCK (g_dataset_global); } } /** * g_datalist_foreach: * @datalist: a datalist. * @func: the function to call for each data element. * @user_data: user data to pass to the function. * * Calls the given function for each data element of the datalist. The * function is called with each data element's #GQuark id and data, * together with the given @user_data parameter. Note that this * function is NOT thread-safe. So unless @datalist can be protected * from any modifications during invocation of this function, it should * not be called. **/ void g_datalist_foreach (GData **datalist, GDataForeachFunc func, gpointer user_data) { GData *d; int i, j, len; GQuark *keys; g_return_if_fail (datalist != NULL); g_return_if_fail (func != NULL); d = G_DATALIST_GET_POINTER (datalist); if (d == NULL) return; /* We make a copy of the keys so that we can handle it changing in the callback */ len = d->len; keys = g_new (GQuark, len); for (i = 0; i < len; i++) keys[i] = d->data[i].key; for (i = 0; i < len; i++) { /* A previous callback might have removed a later item, so always check that it still exists before calling */ d = G_DATALIST_GET_POINTER (datalist); if (d == NULL) break; for (j = 0; j < d->len; j++) { if (d->data[j].key == keys[i]) { func (d->data[i].key, d->data[i].data, user_data); break; } } } g_free (keys); } /** * g_datalist_init: * @datalist: a pointer to a pointer to a datalist. * * Resets the datalist to %NULL. It does not free any memory or call * any destroy functions. **/ void g_datalist_init (GData **datalist) { g_return_if_fail (datalist != NULL); g_atomic_pointer_set (datalist, NULL); } /** * g_datalist_set_flags: * @datalist: pointer to the location that holds a list * @flags: the flags to turn on. The values of the flags are * restricted by %G_DATALIST_FLAGS_MASK (currently * 3; giving two possible boolean flags). * A value for @flags that doesn't fit within the mask is * an error. * * Turns on flag values for a data list. This function is used * to keep a small number of boolean flags in an object with * a data list without using any additional space. It is * not generally useful except in circumstances where space * is very tight. (It is used in the base #GObject type, for * example.) * * Since: 2.8 **/ void g_datalist_set_flags (GData **datalist, guint flags) { g_return_if_fail (datalist != NULL); g_return_if_fail ((flags & ~G_DATALIST_FLAGS_MASK) == 0); g_atomic_pointer_or (datalist, (gsize)flags); } /** * g_datalist_unset_flags: * @datalist: pointer to the location that holds a list * @flags: the flags to turn off. The values of the flags are * restricted by %G_DATALIST_FLAGS_MASK (currently * 3: giving two possible boolean flags). * A value for @flags that doesn't fit within the mask is * an error. * * Turns off flag values for a data list. See g_datalist_unset_flags() * * Since: 2.8 **/ void g_datalist_unset_flags (GData **datalist, guint flags) { g_return_if_fail (datalist != NULL); g_return_if_fail ((flags & ~G_DATALIST_FLAGS_MASK) == 0); g_atomic_pointer_and (datalist, ~(gsize)flags); } /** * g_datalist_get_flags: * @datalist: pointer to the location that holds a list * * Gets flags values packed in together with the datalist. * See g_datalist_set_flags(). * * Return value: the flags of the datalist * * Since: 2.8 **/ guint g_datalist_get_flags (GData **datalist) { g_return_val_if_fail (datalist != NULL, 0); return G_DATALIST_GET_FLAGS (datalist); /* atomic macro */ } /* HOLDS: g_dataset_global_lock */ static void g_data_initialize (void) { g_return_if_fail (g_dataset_location_ht == NULL); g_dataset_location_ht = g_hash_table_new (g_direct_hash, NULL); g_dataset_cached = NULL; } /** * SECTION:quarks * @title: Quarks * @short_description: a 2-way association between a string and a * unique integer identifier * * Quarks are associations between strings and integer identifiers. * Given either the string or the #GQuark identifier it is possible to * retrieve the other. * * Quarks are used for both Datasets and Keyed Data Lists. * * To create a new quark from a string, use g_quark_from_string() or * g_quark_from_static_string(). * * To find the string corresponding to a given #GQuark, use * g_quark_to_string(). * * To find the #GQuark corresponding to a given string, use * g_quark_try_string(). * * Another use for the string pool maintained for the quark functions * is string interning, using g_intern_string() or * g_intern_static_string(). An interned string is a canonical * representation for a string. One important advantage of interned * strings is that they can be compared for equality by a simple * pointer comparison, rather than using strcmp(). **/ /** * GQuark: * * A GQuark is a non-zero integer which uniquely identifies a * particular string. A GQuark value of zero is associated to %NULL. **/ /** * g_quark_try_string: * @string: (allow-none): a string. * @Returns: the #GQuark associated with the string, or 0 if @string is * %NULL or there is no #GQuark associated with it. * * Gets the #GQuark associated with the given string, or 0 if string is * %NULL or it has no associated #GQuark. * * If you want the GQuark to be created if it doesn't already exist, * use g_quark_from_string() or g_quark_from_static_string(). **/ GQuark g_quark_try_string (const gchar *string) { GQuark quark = 0; if (string == NULL) return 0; G_LOCK (g_quark_global); if (g_quark_ht) quark = GPOINTER_TO_UINT (g_hash_table_lookup (g_quark_ht, string)); G_UNLOCK (g_quark_global); return quark; } #define QUARK_STRING_BLOCK_SIZE (4096 - sizeof (gsize)) static char *quark_block = NULL; static int quark_block_offset = 0; /* HOLDS: g_quark_global_lock */ static char * quark_strdup(const gchar *string) { gchar *copy; gsize len; len = strlen (string) + 1; /* For strings longer than half the block size, fall back to strdup so that we fill our blocks at least 50%. */ if (len > QUARK_STRING_BLOCK_SIZE / 2) return g_strdup (string); if (quark_block == NULL || QUARK_STRING_BLOCK_SIZE - quark_block_offset < len) { quark_block = g_malloc (QUARK_STRING_BLOCK_SIZE); quark_block_offset = 0; } copy = quark_block + quark_block_offset; memcpy (copy, string, len); quark_block_offset += len; return copy; } /* HOLDS: g_quark_global_lock */ static inline GQuark g_quark_from_string_internal (const gchar *string, gboolean duplicate) { GQuark quark = 0; if (g_quark_ht) quark = GPOINTER_TO_UINT (g_hash_table_lookup (g_quark_ht, string)); if (!quark) { quark = g_quark_new (duplicate ? quark_strdup (string) : (gchar *)string); TRACE(GLIB_QUARK_NEW(string, quark)); } return quark; } /** * g_quark_from_string: * @string: (allow-none): a string. * @Returns: the #GQuark identifying the string, or 0 if @string is * %NULL. * * Gets the #GQuark identifying the given string. If the string does * not currently have an associated #GQuark, a new #GQuark is created, * using a copy of the string. **/ GQuark g_quark_from_string (const gchar *string) { GQuark quark; if (!string) return 0; G_LOCK (g_quark_global); quark = g_quark_from_string_internal (string, TRUE); G_UNLOCK (g_quark_global); return quark; } /** * g_quark_from_static_string: * @string: (allow-none): a string. * @Returns: the #GQuark identifying the string, or 0 if @string is * %NULL. * * Gets the #GQuark identifying the given (static) string. If the * string does not currently have an associated #GQuark, a new #GQuark * is created, linked to the given string. * * Note that this function is identical to g_quark_from_string() except * that if a new #GQuark is created the string itself is used rather * than a copy. This saves memory, but can only be used if the string * will always exist. It can be used with * statically allocated strings in the main program, but not with * statically allocated memory in dynamically loaded modules, if you * expect to ever unload the module again (e.g. do not use this * function in GTK+ theme engines). **/ GQuark g_quark_from_static_string (const gchar *string) { GQuark quark; if (!string) return 0; G_LOCK (g_quark_global); quark = g_quark_from_string_internal (string, FALSE); G_UNLOCK (g_quark_global); return quark; } /** * g_quark_to_string: * @quark: a #GQuark. * @Returns: the string associated with the #GQuark. * * Gets the string associated with the given #GQuark. **/ const gchar * g_quark_to_string (GQuark quark) { gchar* result = NULL; gchar **quarks; gint quark_seq_id; quark_seq_id = g_atomic_int_get (&g_quark_seq_id); quarks = g_atomic_pointer_get (&g_quarks); if (quark < quark_seq_id) result = quarks[quark]; return result; } /* HOLDS: g_quark_global_lock */ static inline GQuark g_quark_new (gchar *string) { GQuark quark; gchar **g_quarks_new; if (g_quark_seq_id % G_QUARK_BLOCK_SIZE == 0) { g_quarks_new = g_new (gchar*, g_quark_seq_id + G_QUARK_BLOCK_SIZE); if (g_quark_seq_id != 0) memcpy (g_quarks_new, g_quarks, sizeof (char *) * g_quark_seq_id); memset (g_quarks_new + g_quark_seq_id, 0, sizeof (char *) * G_QUARK_BLOCK_SIZE); /* This leaks the old quarks array. Its unfortunate, but it allows us to do lockless lookup of the arrays, and there shouldn't be that many quarks in an app */ g_atomic_pointer_set (&g_quarks, g_quarks_new); } if (!g_quark_ht) { g_assert (g_quark_seq_id == 0); g_quark_ht = g_hash_table_new (g_str_hash, g_str_equal); g_quarks[g_quark_seq_id] = NULL; g_atomic_int_inc (&g_quark_seq_id); } quark = g_quark_seq_id; g_atomic_pointer_set (&g_quarks[quark], string); g_hash_table_insert (g_quark_ht, string, GUINT_TO_POINTER (quark)); g_atomic_int_inc (&g_quark_seq_id); return quark; } /** * g_intern_string: * @string: (allow-none): a string * * Returns a canonical representation for @string. Interned strings can * be compared for equality by comparing the pointers, instead of using strcmp(). * * Returns: a canonical representation for the string * * Since: 2.10 */ const gchar * g_intern_string (const gchar *string) { const gchar *result; GQuark quark; if (!string) return NULL; G_LOCK (g_quark_global); quark = g_quark_from_string_internal (string, TRUE); result = g_quarks[quark]; G_UNLOCK (g_quark_global); return result; } /** * g_intern_static_string: * @string: (allow-none): a static string * * Returns a canonical representation for @string. Interned strings can * be compared for equality by comparing the pointers, instead of using strcmp(). * g_intern_static_string() does not copy the string, therefore @string must * not be freed or modified. * * Returns: a canonical representation for the string * * Since: 2.10 */ const gchar * g_intern_static_string (const gchar *string) { GQuark quark; const gchar *result; if (!string) return NULL; G_LOCK (g_quark_global); quark = g_quark_from_string_internal (string, FALSE); result = g_quarks[quark]; G_UNLOCK (g_quark_global); return result; }