mingw/glib2/glib/grefstring.c - kiwivm - Git at Google

 /* grefstring.c: Reference counted strings
  *
  * Copyright 2018  Emmanuele Bassi
  *
  * 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 2.1 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, see <http://www.gnu.org/licenses/>.
  */

 /**
  * SECTION:refstring
  * @Title: Reference counted strings
  * @Short_description: Strings with reference counted memory management
  *
  * Reference counted strings are normal C strings that have been augmented
  * with a reference counter to manage their resources. You allocate a new
  * reference counted string and acquire and release references as needed,
  * instead of copying the string among callers; when the last reference on
  * the string is released, the resources allocated for it are freed.
  *
  * Typically, reference counted strings can be used when parsing data from
  * files and storing them into data structures that are passed to various
  * callers:
  *
  * |[<!-- language="C" -->
  * PersonDetails *
  * person_details_from_data (const char *data)
  * {
  *   // Use g_autoptr() to simplify error cases
  *   g_autoptr(GRefString) full_name = NULL;
  *   g_autoptr(GRefString) address =  NULL;
  *   g_autoptr(GRefString) city = NULL;
  *   g_autoptr(GRefString) state = NULL;
  *   g_autoptr(GRefString) zip_code = NULL;
  *
  *   // parse_person_details() is defined elsewhere; returns refcounted strings
  *   if (!parse_person_details (data, &full_name, &address, &city, &state, &zip_code))
  *     return NULL;
  *
  *   if (!validate_zip_code (zip_code))
  *     return NULL;
  *
  *   // add_address_to_cache() and add_full_name_to_cache() are defined
  *   // elsewhere; they add strings to various caches, using refcounted
  *   // strings to avoid copying data over and over again
  *   add_address_to_cache (address, city, state, zip_code);
  *   add_full_name_to_cache (full_name);
  *
  *   // person_details_new() is defined elsewhere; it takes a reference
  *   // on each string
  *   PersonDetails *res = person_details_new (full_name,
  *                                            address,
  *                                            city,
  *                                            state,
  *                                            zip_code);
  *
  *   return res;
  * }
  * ]|
  *
  * In the example above, we have multiple functions taking the same strings
  * for different uses; with typical C strings, we'd have to copy the strings
  * every time the life time rules of the data differ from the life time of
  * the string parsed from the original buffer. With reference counted strings,
  * each caller can take a reference on the data, and keep it as long as it
  * needs to own the string.
  *
  * Reference counted strings can also be "interned" inside a global table
  * owned by GLib; while an interned string has at least a reference, creating
  * a new interned reference counted string with the same contents will return
  * a reference to the existing string instead of creating a new reference
  * counted string instance. Once the string loses its last reference, it will
  * be automatically removed from the global interned strings table.
  *
  * Since: 2.58
  */

 #include "config.h"

 #include "grefstring.h"

 #include "ghash.h"
 #include "gmessages.h"
 #include "grcbox.h"
 #include "gthread.h"

 #include <string.h>

 /* A global table of refcounted strings; the hash table does not own
  * the strings, just a pointer to them. Strings are interned as long
  * as they are alive; once their reference count drops to zero, they
  * are removed from the table
  */
 G_LOCK_DEFINE_STATIC (interned_ref_strings);
 static GHashTable *interned_ref_strings;

 /**
  * g_ref_string_new:
  * @str: (not nullable): a NUL-terminated string
  *
  * Creates a new reference counted string and copies the contents of @str
  * into it.
  *
  * Returns: (transfer full) (not nullable): the newly created reference counted string
  *
  * Since: 2.58
  */
 char *
 g_ref_string_new (const char *str)
 {
   char *res;
   gsize len;

   g_return_val_if_fail (str != NULL, NULL);

   len = strlen (str);

   res = (char *) g_atomic_rc_box_dup (sizeof (char) * len + 1, str);

   return res;
 }

 /**
  * g_ref_string_new_len:
  * @str: (not nullable): a string
  * @len: length of @str to use, or -1 if @str is nul-terminated
  *
  * Creates a new reference counted string and copies the contents of @str
  * into it, up to @len bytes.
  *
  * Since this function does not stop at nul bytes, it is the caller's
  * responsibility to ensure that @str has at least @len addressable bytes.
  *
  * Returns: (transfer full) (not nullable): the newly created reference counted string
  *
  * Since: 2.58
  */
 char *
 g_ref_string_new_len (const char *str, gssize len)
 {
   char *res;

   g_return_val_if_fail (str != NULL, NULL);

   if (len < 0)
     return g_ref_string_new (str);

   /* allocate then copy as str[len] may not be readable */
   res = (char *) g_atomic_rc_box_alloc ((gsize) len + 1);
   memcpy (res, str, len);
   res[len] = '\0';

   return res;
 }

 /* interned_str_equal: variant of g_str_equal() that compares
  * pointers as well as contents; this avoids running strcmp()
  * on arbitrarily long strings, as it's more likely to have
  * g_ref_string_new_intern() being called on the same refcounted
  * string instance, than on a different string with the same
  * contents
  */
 static gboolean
 interned_str_equal (gconstpointer v1,
                     gconstpointer v2)
 {
   const char *str1 = v1;
   const char *str2 = v2;

   if (v1 == v2)
     return TRUE;

   return strcmp (str1, str2) == 0;
 }

 /**
  * g_ref_string_new_intern:
  * @str: (not nullable): a NUL-terminated string
  *
  * Creates a new reference counted string and copies the content of @str
  * into it.
  *
  * If you call this function multiple times with the same @str, or with
  * the same contents of @str, it will return a new reference, instead of
  * creating a new string.
  *
  * Returns: (transfer full) (not nullable): the newly created reference
  *   counted string, or a new reference to an existing string
  *
  * Since: 2.58
  */
 char *
 g_ref_string_new_intern (const char *str)
 {
   char *res;

   g_return_val_if_fail (str != NULL, NULL);

   G_LOCK (interned_ref_strings);

   if (G_UNLIKELY (interned_ref_strings == NULL))
     interned_ref_strings = g_hash_table_new (g_str_hash, interned_str_equal);

   res = g_hash_table_lookup (interned_ref_strings, str);
   if (res != NULL)
     {
       /* We acquire the reference while holding the lock, to
        * avoid a potential race between releasing the lock on
        * the hash table and another thread releasing the reference
        * on the same string
        */
       g_atomic_rc_box_acquire (res);
       G_UNLOCK (interned_ref_strings);
       return res;
     }

   res = g_ref_string_new (str);
   g_hash_table_add (interned_ref_strings, res);
   G_UNLOCK (interned_ref_strings);

   return res;
 }

 /**
  * g_ref_string_acquire:
  * @str: a reference counted string
  *
  * Acquires a reference on a string.
  *
  * Returns: the given string, with its reference count increased
  *
  * Since: 2.58
  */
 char *
 g_ref_string_acquire (char *str)
 {
   g_return_val_if_fail (str != NULL, NULL);

   return g_atomic_rc_box_acquire (str);
 }

 static void
 remove_if_interned (gpointer data)
 {
   char *str = data;

   G_LOCK (interned_ref_strings);

   if (G_LIKELY (interned_ref_strings != NULL))
     {
       g_hash_table_remove (interned_ref_strings, str);

       if (g_hash_table_size (interned_ref_strings) == 0)
         g_clear_pointer (&interned_ref_strings, g_hash_table_destroy);
     }

   G_UNLOCK (interned_ref_strings);
 }

 /**
  * g_ref_string_release:
  * @str: a reference counted string
  *
  * Releases a reference on a string; if it was the last reference, the
  * resources allocated by the string are freed as well.
  *
  * Since: 2.58
  */
 void
 g_ref_string_release (char *str)
 {
   g_return_if_fail (str != NULL);

   g_atomic_rc_box_release_full (str, remove_if_interned);
 }

 /**
  * g_ref_string_length:
  * @str: a reference counted string
  *
  * Retrieves the length of @str.
  *
  * Returns: the length of the given string, in bytes
  *
  * Since: 2.58
  */
 gsize
 g_ref_string_length (char *str)
 {
   g_return_val_if_fail (str != NULL, 0);

   return g_atomic_rc_box_get_size (str) - 1;
 }
	/* grefstring.c: Reference counted strings
	*
	* Copyright 2018 Emmanuele Bassi
	*
	* 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 2.1 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, see <http://www.gnu.org/licenses/>.
	*/

	/**
	* SECTION:refstring
	* @Title: Reference counted strings
	* @Short_description: Strings with reference counted memory management
	*
	* Reference counted strings are normal C strings that have been augmented
	* with a reference counter to manage their resources. You allocate a new
	* reference counted string and acquire and release references as needed,
	* instead of copying the string among callers; when the last reference on
	* the string is released, the resources allocated for it are freed.
	*
	* Typically, reference counted strings can be used when parsing data from
	* files and storing them into data structures that are passed to various
	* callers:
	*
	* \|[<!-- language="C" -->
	* PersonDetails *
	* person_details_from_data (const char *data)
	* {
	* // Use g_autoptr() to simplify error cases
	* g_autoptr(GRefString) full_name = NULL;
	* g_autoptr(GRefString) address = NULL;
	* g_autoptr(GRefString) city = NULL;
	* g_autoptr(GRefString) state = NULL;
	* g_autoptr(GRefString) zip_code = NULL;
	*
	* // parse_person_details() is defined elsewhere; returns refcounted strings
	* if (!parse_person_details (data, &full_name, &address, &city, &state, &zip_code))
	* return NULL;
	*
	* if (!validate_zip_code (zip_code))
	* return NULL;
	*
	* // add_address_to_cache() and add_full_name_to_cache() are defined
	* // elsewhere; they add strings to various caches, using refcounted
	* // strings to avoid copying data over and over again
	* add_address_to_cache (address, city, state, zip_code);
	* add_full_name_to_cache (full_name);
	*
	* // person_details_new() is defined elsewhere; it takes a reference
	* // on each string
	* PersonDetails *res = person_details_new (full_name,
	* address,
	* city,
	* state,
	* zip_code);
	*
	* return res;
	* }
	* ]\|
	*
	* In the example above, we have multiple functions taking the same strings
	* for different uses; with typical C strings, we'd have to copy the strings
	* every time the life time rules of the data differ from the life time of
	* the string parsed from the original buffer. With reference counted strings,
	* each caller can take a reference on the data, and keep it as long as it
	* needs to own the string.
	*
	* Reference counted strings can also be "interned" inside a global table
	* owned by GLib; while an interned string has at least a reference, creating
	* a new interned reference counted string with the same contents will return
	* a reference to the existing string instead of creating a new reference
	* counted string instance. Once the string loses its last reference, it will
	* be automatically removed from the global interned strings table.
	*
	* Since: 2.58
	*/

	#include "config.h"

	#include "grefstring.h"

	#include "ghash.h"
	#include "gmessages.h"
	#include "grcbox.h"
	#include "gthread.h"

	#include <string.h>

	/* A global table of refcounted strings; the hash table does not own
	* the strings, just a pointer to them. Strings are interned as long
	* as they are alive; once their reference count drops to zero, they
	* are removed from the table
	*/
	G_LOCK_DEFINE_STATIC (interned_ref_strings);
	static GHashTable *interned_ref_strings;

	/**
	* g_ref_string_new:
	* @str: (not nullable): a NUL-terminated string
	*
	* Creates a new reference counted string and copies the contents of @str
	* into it.
	*
	* Returns: (transfer full) (not nullable): the newly created reference counted string
	*
	* Since: 2.58
	*/
	char *
	g_ref_string_new (const char *str)
	{
	char *res;
	gsize len;

	g_return_val_if_fail (str != NULL, NULL);

	len = strlen (str);

	res = (char ) g_atomic_rc_box_dup (sizeof (char) len + 1, str);

	return res;
	}

	/**
	* g_ref_string_new_len:
	* @str: (not nullable): a string
	* @len: length of @str to use, or -1 if @str is nul-terminated
	*
	* Creates a new reference counted string and copies the contents of @str
	* into it, up to @len bytes.
	*
	* Since this function does not stop at nul bytes, it is the caller's
	* responsibility to ensure that @str has at least @len addressable bytes.
	*
	* Returns: (transfer full) (not nullable): the newly created reference counted string
	*
	* Since: 2.58
	*/
	char *
	g_ref_string_new_len (const char *str, gssize len)
	{
	char *res;

	g_return_val_if_fail (str != NULL, NULL);

	if (len < 0)
	return g_ref_string_new (str);

	/* allocate then copy as str[len] may not be readable */
	res = (char *) g_atomic_rc_box_alloc ((gsize) len + 1);
	memcpy (res, str, len);
	res[len] = '\0';

	return res;
	}

	/* interned_str_equal: variant of g_str_equal() that compares
	* pointers as well as contents; this avoids running strcmp()
	* on arbitrarily long strings, as it's more likely to have
	* g_ref_string_new_intern() being called on the same refcounted
	* string instance, than on a different string with the same
	* contents
	*/
	static gboolean
	interned_str_equal (gconstpointer v1,
	gconstpointer v2)
	{
	const char *str1 = v1;
	const char *str2 = v2;

	if (v1 == v2)
	return TRUE;

	return strcmp (str1, str2) == 0;
	}

	/**
	* g_ref_string_new_intern:
	* @str: (not nullable): a NUL-terminated string
	*
	* Creates a new reference counted string and copies the content of @str
	* into it.
	*
	* If you call this function multiple times with the same @str, or with
	* the same contents of @str, it will return a new reference, instead of
	* creating a new string.
	*
	* Returns: (transfer full) (not nullable): the newly created reference
	* counted string, or a new reference to an existing string
	*
	* Since: 2.58
	*/
	char *
	g_ref_string_new_intern (const char *str)
	{
	char *res;

	g_return_val_if_fail (str != NULL, NULL);

	G_LOCK (interned_ref_strings);

	if (G_UNLIKELY (interned_ref_strings == NULL))
	interned_ref_strings = g_hash_table_new (g_str_hash, interned_str_equal);

	res = g_hash_table_lookup (interned_ref_strings, str);
	if (res != NULL)
	{
	/* We acquire the reference while holding the lock, to
	* avoid a potential race between releasing the lock on
	* the hash table and another thread releasing the reference
	* on the same string
	*/
	g_atomic_rc_box_acquire (res);
	G_UNLOCK (interned_ref_strings);
	return res;
	}

	res = g_ref_string_new (str);
	g_hash_table_add (interned_ref_strings, res);
	G_UNLOCK (interned_ref_strings);

	return res;
	}

	/**
	* g_ref_string_acquire:
	* @str: a reference counted string
	*
	* Acquires a reference on a string.
	*
	* Returns: the given string, with its reference count increased
	*
	* Since: 2.58
	*/
	char *
	g_ref_string_acquire (char *str)
	{
	g_return_val_if_fail (str != NULL, NULL);

	return g_atomic_rc_box_acquire (str);
	}

	static void
	remove_if_interned (gpointer data)
	{
	char *str = data;

	G_LOCK (interned_ref_strings);

	if (G_LIKELY (interned_ref_strings != NULL))
	{
	g_hash_table_remove (interned_ref_strings, str);

	if (g_hash_table_size (interned_ref_strings) == 0)
	g_clear_pointer (&interned_ref_strings, g_hash_table_destroy);
	}

	G_UNLOCK (interned_ref_strings);
	}

	/**
	* g_ref_string_release:
	* @str: a reference counted string
	*
	* Releases a reference on a string; if it was the last reference, the
	* resources allocated by the string are freed as well.
	*
	* Since: 2.58
	*/
	void
	g_ref_string_release (char *str)
	{
	g_return_if_fail (str != NULL);

	g_atomic_rc_box_release_full (str, remove_if_interned);
	}

	/**
	* g_ref_string_length:
	* @str: a reference counted string
	*
	* Retrieves the length of @str.
	*
	* Returns: the length of the given string, in bytes
	*
	* Since: 2.58
	*/
	gsize
	g_ref_string_length (char *str)
	{
	g_return_val_if_fail (str != NULL, 0);

	return g_atomic_rc_box_get_size (str) - 1;
	}