docs/reference/glib/tmpl/macros_misc.sgml - third_party/glib - Git at Google

 <!-- ##### SECTION Title ##### -->
 Miscellaneous Macros

 <!-- ##### SECTION Short_Description ##### -->
 specialized macros which are not used often.

 <!-- ##### SECTION Long_Description ##### -->
 <para>
 These macros provide more specialized features which are not needed so often
 by application programmers.
 </para>

 <!-- ##### SECTION See_Also ##### -->
 <para>

 </para>

 <!-- ##### MACRO G_INLINE_FUNC ##### -->
 <para>
 Used to declare inline functions. If inline functions are not supported on
 the particular platform, the macro evaluates to the empty string.
 </para>


 <!-- ##### MACRO G_STMT_START ##### -->
 <para>
 Used within multi-statement macros so that they can be used in places where
 only one statement is expected by the compiler.
 </para>


 <!-- ##### MACRO G_STMT_END ##### -->
 <para>
 Used within multi-statement macros so that they can be used in places where
 only one statement is expected by the compiler.
 </para>


 <!-- ##### MACRO G_BEGIN_DECLS ##### -->
 <para>
 Used (along with #G_END_DECLS) to bracket header files. If the
 compiler in use is a C++ compiler, adds <literal>extern "C"</literal>
 around the header.
 </para>


 <!-- ##### MACRO G_END_DECLS ##### -->
 <para>
 Used (along with #G_BEGIN_DECLS) to bracket header files. If the
 compiler in use is a C++ compiler, adds <literal>extern "C"</literal>
 around the header.
 </para>


 <!-- ##### MACRO G_N_ELEMENTS ##### -->
 <para>
 Determines the number of elements in an array. The array must be
 declared so the compiler knows its size at compile-time; this
 macro will not work on an array allocated on the heap, only static
 arrays or arrays on the stack.
 </para>

 @arr: the array


 <!-- ##### MACRO G_VA_COPY ##### -->
 <para>
 Portable way to copy <type>va_list</type> variables.
 </para>
 <para>
 In order to use this function, you must include <filename>string.h</filename>
 yourself, because this macro may use <function>memmove()</function> and GLib
 does not include <function>string.h</function> for you.
 </para>

 <!-- # Unused Parameters # -->
 @ap1: the <type>va_list</type> variable to place a copy of @ap2 in.
 @ap2: a <type>va_list</type>.


 <!-- ##### MACRO G_STRINGIFY ##### -->
 <para>
 Accepts a macro or a string and converts it into a string.
 </para>

 @macro_or_string: a macro or a string.


 <!-- ##### MACRO G_GNUC_EXTENSION ##### -->
 <para>
 Expands to <literal>__extension__</literal> when <command>gcc</command> is
 used as the compiler.
 This simply tells <command>gcc</command> not to warn about the following non-standard code
 when compiling with the <option>-pedantic</option> option.
 </para>


 <!-- ##### MACRO G_GNUC_CONST ##### -->
 <para>
 Expands to the GNU C <literal>const</literal> function attribute if the compiler is <command>gcc</command>.
 Declaring a function as const enables better optimization of the function.
 A const function doesn't examine any values except its parameters,
 and has no effects except its return value.
 See the GNU C documentation for details.
 </para>
 <note><para>
 A function that has pointer arguments and examines the data pointed to
 must <emphasis>not</emphasis> be declared const. Likewise, a function that
 calls a non-const function usually must not be const. It doesn't make sense
 for a const function to return void.
 </para></note>


 <!-- ##### MACRO G_GNUC_DEPRECATED ##### -->
 <para>
 Expands to the GNU C <literal>deprecated</literal> attribute if the compiler
 is <command>gcc</command>.
 It can be used to mark typedefs, variables and functions as deprecated.
 When called with the <option>-Wdeprecated</option> option, the compiler will
 generate warnings when deprecated interfaces are used.
 See the GNU C documentation for details.
 </para>

 @Since: 2.2


 <!-- ##### MACRO G_GNUC_NORETURN ##### -->
 <para>
 Expands to the GNU C <literal>noreturn</literal> function attribute if the
 compiler is <command>gcc</command>.
 It is used for declaring functions which never return.
 It enables optimization of the function, and avoids possible compiler
 warnings. See the GNU C documentation for details.
 </para>


 <!-- ##### MACRO G_GNUC_UNUSED ##### -->
 <para>
 Expands to the GNU C <literal>unused</literal> function attribute if the compiler is <command>gcc</command>.
 It is used for declaring functions which may never be used.
 It avoids possible compiler warnings. See the GNU C documentation for details.
 </para>


 <!-- ##### MACRO G_GNUC_PURE ##### -->
 <para>
 Expands to the GNU C <literal>pure</literal> function attribute if the compiler is <command>gcc</command>.
 Declaring a function as pure enables better optimization of the function.
 A pure function has no effects except its return value and the return
 value depends only on the parameters and/or global variables.
 See the GNU C documentation for details.
 </para>


 <!-- ##### MACRO G_GNUC_PRINTF ##### -->
 <para>
 Expands to the GNU C <literal>format</literal> function attribute if the compiler is <command>gcc</command>.
 This is used for declaring functions which take a variable number of
 arguments, with the same syntax as <function>printf()</function>.
 It allows the compiler to type-check the arguments passed to the function.
 See the GNU C documentation for details.
 </para>
 <informalexample><programlisting>
 gint g_snprintf (gchar  *string,
                  gulong       n,
                  gchar const *format,
                  ...) G_GNUC_PRINTF (3, 4);
 </programlisting></informalexample>

 @format_idx: the index of the argument corresponding to the format string.
 (The arguments are numbered from 1).
 @arg_idx: the index of the first of the format arguments.


 <!-- ##### MACRO G_GNUC_SCANF ##### -->
 <para>
 Expands to the GNU C <literal>format</literal> function attribute if the compiler is <command>gcc</command>.
 This is used for declaring functions which take a variable number of
 arguments, with the same syntax as <function>scanf()</function>.
 It allows the compiler to type-check the arguments passed to the function.
 See the GNU C documentation for details.
 </para>

 @format_idx: the index of the argument corresponding to the format string.
 (The arguments are numbered from 1).
 @arg_idx: the index of the first of the format arguments.


 <!-- ##### MACRO G_GNUC_FORMAT ##### -->
 <para>
 Expands to the GNU C <literal>format_arg</literal> function attribute if the compiler is <command>gcc</command>.
 This function attribute specifies that a function takes a format
 string for a <function>printf()</function>, <function>scanf()</function>,
 <function>strftime()</function> or <function>strfmon()</function> style
 function and modifies it, so that the result can be passed to a
 <function>printf()</function>, <function>scanf()</function>,
 <function>strftime()</function> or <function>strfmon()</function> style
 function (with the remaining arguments to the format function the same as
 they would have been for the unmodified string).
 See the GNU C documentation for details.
 </para>
 <informalexample><programlisting>
 gchar *g_dgettext (gchar *domain_name, gchar *msgid) G_GNUC_FORMAT (2);
 </programlisting></informalexample>

 @arg_idx: the index of the argument.


 <!-- ##### MACRO G_GNUC_FUNCTION ##### -->
 <para>
 Expands to the GNU C <literal>__FUNCTION__</literal> variable if the
 compiler is <command>gcc</command>, or "" if it isn't. The GNU C
 <literal>__FUNCTION__</literal> variable contains the name of the
 current function. See the GNU C documentation for details.
 </para>


 <!-- ##### MACRO G_GNUC_PRETTY_FUNCTION ##### -->
 <para>
 Expands to the GNU C <literal>__PRETTY_FUNCTION__</literal> variable
 if the compiler is <command>gcc</command>, or "" if it isn't.
 The GNU C <literal>__PRETTY_FUNCTION__</literal> variable contains the
 name of the current function. For a C program this is the same as the
 <literal>__FUNCTION__</literal> variable but for C++ it also includes
 extra information such as the class and function prototype. See the
 GNU C documentation for details.
 </para>


 <!-- ##### MACRO G_GNUC_NO_INSTRUMENT ##### -->
 <para>
 Expands to the GNU C <literal>no_instrument_function</literal> function
 attribute if the compiler is <command>gcc</command>. Functions with this
 attribute will not be
 instrumented for profiling, when the compiler is called with the
 <option>-finstrument-functions</option> option.
 See the GNU C documentation for details.
 </para>


 <!-- ##### MACRO G_LIKELY ##### -->
 <para>
 Hints the compiler that the expression is likely to evaluate to a true
 value. The compiler may use this information for optimizations.
 </para>
 <informalexample><programlisting>
 if (G_LIKELY (random () != 1))
   g_print ("not one");
 </programlisting></informalexample>

 @expr: the expression
 @Since: 2.2


 <!-- ##### MACRO G_UNLIKELY ##### -->
 <para>
 Hints the compiler that the expression is unlikely to evaluate to a true
 value. The compiler may use this information for optimizations.
 </para>
 <informalexample><programlisting>
 if (G_UNLIKELY (random () == 1))
   g_print ("a random one");
 </programlisting></informalexample>

 @expr: the expression
 @Since: 2.2


 <!-- ##### MACRO G_STRLOC ##### -->
 <para>
 Expands to a string identifying the current code position.
 </para>


 <!-- ##### MACRO G_STRFUNC ##### -->
 <para>

 </para>


 <!-- ##### MACRO G_GINT16_MODIFIER ##### -->
 <para>
 The platform dependent length modifier for constructing printf() conversion
 specifiers for values of type #gint16. It is a string literal, but doesn't
 include the percent-sign, such that you can add precision and length
 modifiers between percent-sign and conversion specifier and append a
 conversion specifier.
 </para>

 <para>
 The following example prints "0x7b";
 <informalexample>
 <programlisting>
 gint16 value = 123;
 g_print ("%#" G_GINT16_MODIFIER "x", value);
 </programlisting>
 </informalexample>
 </para>

 @Since: 2.4


 <!-- ##### MACRO G_GINT16_FORMAT ##### -->
 <para>
 This is the platform dependent conversion specifier for scanning and
 printing values of type #gint16. It is a string literal, but doesn't
 include the percent-sign, such that you can add precision and length
 modifiers between percent-sign and conversion specifier.
 </para>

 <para>
 <informalexample>
 <programlisting>
 gint16 in;
 gint32 out;
 sscanf ("42", "%" G_GINT16_FORMAT, &amp;in)
 out = in * 1000;
 g_print ("%" G_GINT32_FORMAT, out);
 </programlisting>
 </informalexample>
 </para>


 <!-- ##### MACRO G_GUINT16_FORMAT ##### -->
 <para>
 This is the platform dependent conversion specifier for scanning and
 printing values of type #guint16. See also #G_GINT16_FORMAT.
 </para>


 <!-- ##### MACRO G_GINT32_MODIFIER ##### -->
 <para>
 The platform dependent length modifier for constructing printf() conversion
 specifiers for values of type #gint32. See also #G_GINT16_MODIFIER.
 </para>

 @Since: 2.4


 <!-- ##### MACRO G_GINT32_FORMAT ##### -->
 <para>
 This is the platform dependent conversion specifier for scanning and
 printing values of type #gint32. See also #G_GINT16_FORMAT.
 </para>


 <!-- ##### MACRO G_GUINT32_FORMAT ##### -->
 <para>
 This is the platform dependent conversion specifier for scanning and
 printing values of type #guint32. See also #G_GINT16_FORMAT.
 </para>


 <!-- ##### MACRO G_GINT64_MODIFIER ##### -->
 <para>
 The platform dependent length modifier for constructing printf() conversion
 specifiers for values of type #gint64. See also #G_GINT16_MODIFIER.
 </para>

 <note>
 <para>
 Some platforms do not support printing 64 bit integers,
 even though the types are supported. On such platforms #G_GINT64_MODIFIER
 is not defined.
 </para>
 </note>

 @Since: 2.4


 <!-- ##### MACRO G_GINT64_FORMAT ##### -->
 <para>
 This is the platform dependent conversion specifier for scanning and
 printing values of type #gint64. See also #G_GINT16_FORMAT.
 </para>

 <note>
 <para>
 Some platforms do not support scanning and printing 64 bit integers,
 even though the types are supported. On such platforms #G_GINT64_FORMAT
 is not defined. Note that scanf() may not support 64 bit integers, even
 if #G_GINT64_FORMAT is defined. Due to its weak error handling, scanf() is not
 recommended for parsing anyway; consider using g_strtoull() instead.
 </para>
 </note>


 <!-- ##### MACRO G_GUINT64_FORMAT ##### -->
 <para>
 This is the platform dependent conversion specifier for scanning and
 printing values of type #guint64. See also #G_GINT16_FORMAT.
 </para>

 <note>
 <para>
 Some platforms do not support scanning and printing 64 bit integers,
 even though the types are supported. On such platforms #G_GUINT64_FORMAT
 is not defined.  Note that scanf() may not support 64 bit integers, even
 if #G_GINT64_FORMAT is defined. Due to its weak error handling, scanf() is not
 recommended for parsing anyway; consider using g_strtoull() instead.
 </para>
 </note>


 <!-- ##### MACRO G_GSIZE_MODIFIER ##### -->
 <para>

 </para>


 <!-- ##### MACRO G_GSIZE_FORMAT ##### -->
 <para>

 </para>


 <!-- ##### MACRO G_GSSIZE_FORMAT ##### -->
 <para>

 </para>
	<!-- ##### SECTION Title ##### -->
	Miscellaneous Macros

	<!-- ##### SECTION Short_Description ##### -->
	specialized macros which are not used often.

	<!-- ##### SECTION Long_Description ##### -->
	<para>
	These macros provide more specialized features which are not needed so often
	by application programmers.
	</para>

	<!-- ##### SECTION See_Also ##### -->
	<para>

	</para>

	<!-- ##### MACRO G_INLINE_FUNC ##### -->
	<para>
	Used to declare inline functions. If inline functions are not supported on
	the particular platform, the macro evaluates to the empty string.
	</para>



	<!-- ##### MACRO G_STMT_START ##### -->
	<para>
	Used within multi-statement macros so that they can be used in places where
	only one statement is expected by the compiler.
	</para>



	<!-- ##### MACRO G_STMT_END ##### -->
	<para>
	Used within multi-statement macros so that they can be used in places where
	only one statement is expected by the compiler.
	</para>



	<!-- ##### MACRO G_BEGIN_DECLS ##### -->
	<para>
	Used (along with #G_END_DECLS) to bracket header files. If the
	compiler in use is a C++ compiler, adds <literal>extern "C"</literal>
	around the header.
	</para>



	<!-- ##### MACRO G_END_DECLS ##### -->
	<para>
	Used (along with #G_BEGIN_DECLS) to bracket header files. If the
	compiler in use is a C++ compiler, adds <literal>extern "C"</literal>
	around the header.
	</para>



	<!-- ##### MACRO G_N_ELEMENTS ##### -->
	<para>
	Determines the number of elements in an array. The array must be
	declared so the compiler knows its size at compile-time; this
	macro will not work on an array allocated on the heap, only static
	arrays or arrays on the stack.
	</para>

	@arr: the array


	<!-- ##### MACRO G_VA_COPY ##### -->
	<para>
	Portable way to copy <type>va_list</type> variables.
	</para>
	<para>
	In order to use this function, you must include <filename>string.h</filename>
	yourself, because this macro may use <function>memmove()</function> and GLib
	does not include <function>string.h</function> for you.
	</para>

	<!-- # Unused Parameters # -->
	@ap1: the <type>va_list</type> variable to place a copy of @ap2 in.
	@ap2: a <type>va_list</type>.


	<!-- ##### MACRO G_STRINGIFY ##### -->
	<para>
	Accepts a macro or a string and converts it into a string.
	</para>

	@macro_or_string: a macro or a string.


	<!-- ##### MACRO G_GNUC_EXTENSION ##### -->
	<para>
	Expands to <literal>__extension__</literal> when <command>gcc</command> is
	used as the compiler.
	This simply tells <command>gcc</command> not to warn about the following non-standard code
	when compiling with the <option>-pedantic</option> option.
	</para>



	<!-- ##### MACRO G_GNUC_CONST ##### -->
	<para>
	Expands to the GNU C <literal>const</literal> function attribute if the compiler is <command>gcc</command>.
	Declaring a function as const enables better optimization of the function.
	A const function doesn't examine any values except its parameters,
	and has no effects except its return value.
	See the GNU C documentation for details.
	</para>
	<note><para>
	A function that has pointer arguments and examines the data pointed to
	must <emphasis>not</emphasis> be declared const. Likewise, a function that
	calls a non-const function usually must not be const. It doesn't make sense
	for a const function to return void.
	</para></note>



	<!-- ##### MACRO G_GNUC_DEPRECATED ##### -->
	<para>
	Expands to the GNU C <literal>deprecated</literal> attribute if the compiler
	is <command>gcc</command>.
	It can be used to mark typedefs, variables and functions as deprecated.
	When called with the <option>-Wdeprecated</option> option, the compiler will
	generate warnings when deprecated interfaces are used.
	See the GNU C documentation for details.
	</para>

	@Since: 2.2


	<!-- ##### MACRO G_GNUC_NORETURN ##### -->
	<para>
	Expands to the GNU C <literal>noreturn</literal> function attribute if the
	compiler is <command>gcc</command>.
	It is used for declaring functions which never return.
	It enables optimization of the function, and avoids possible compiler
	warnings. See the GNU C documentation for details.
	</para>



	<!-- ##### MACRO G_GNUC_UNUSED ##### -->
	<para>
	Expands to the GNU C <literal>unused</literal> function attribute if the compiler is <command>gcc</command>.
	It is used for declaring functions which may never be used.
	It avoids possible compiler warnings. See the GNU C documentation for details.
	</para>



	<!-- ##### MACRO G_GNUC_PURE ##### -->
	<para>
	Expands to the GNU C <literal>pure</literal> function attribute if the compiler is <command>gcc</command>.
	Declaring a function as pure enables better optimization of the function.
	A pure function has no effects except its return value and the return
	value depends only on the parameters and/or global variables.
	See the GNU C documentation for details.
	</para>



	<!-- ##### MACRO G_GNUC_PRINTF ##### -->
	<para>
	Expands to the GNU C <literal>format</literal> function attribute if the compiler is <command>gcc</command>.
	This is used for declaring functions which take a variable number of
	arguments, with the same syntax as <function>printf()</function>.
	It allows the compiler to type-check the arguments passed to the function.
	See the GNU C documentation for details.
	</para>
	<informalexample><programlisting>
	gint g_snprintf (gchar *string,
	gulong n,
	gchar const *format,
	...) G_GNUC_PRINTF (3, 4);
	</programlisting></informalexample>

	@format_idx: the index of the argument corresponding to the format string.
	(The arguments are numbered from 1).
	@arg_idx: the index of the first of the format arguments.


	<!-- ##### MACRO G_GNUC_SCANF ##### -->
	<para>
	Expands to the GNU C <literal>format</literal> function attribute if the compiler is <command>gcc</command>.
	This is used for declaring functions which take a variable number of
	arguments, with the same syntax as <function>scanf()</function>.
	It allows the compiler to type-check the arguments passed to the function.
	See the GNU C documentation for details.
	</para>

	@format_idx: the index of the argument corresponding to the format string.
	(The arguments are numbered from 1).
	@arg_idx: the index of the first of the format arguments.


	<!-- ##### MACRO G_GNUC_FORMAT ##### -->
	<para>
	Expands to the GNU C <literal>format_arg</literal> function attribute if the compiler is <command>gcc</command>.
	This function attribute specifies that a function takes a format
	string for a <function>printf()</function>, <function>scanf()</function>,
	<function>strftime()</function> or <function>strfmon()</function> style
	function and modifies it, so that the result can be passed to a
	<function>printf()</function>, <function>scanf()</function>,
	<function>strftime()</function> or <function>strfmon()</function> style
	function (with the remaining arguments to the format function the same as
	they would have been for the unmodified string).
	See the GNU C documentation for details.
	</para>
	<informalexample><programlisting>
	gchar g_dgettext (gchar domain_name, gchar *msgid) G_GNUC_FORMAT (2);
	</programlisting></informalexample>

	@arg_idx: the index of the argument.


	<!-- ##### MACRO G_GNUC_FUNCTION ##### -->
	<para>
	Expands to the GNU C <literal>__FUNCTION__</literal> variable if the
	compiler is <command>gcc</command>, or "" if it isn't. The GNU C
	<literal>__FUNCTION__</literal> variable contains the name of the
	current function. See the GNU C documentation for details.
	</para>



	<!-- ##### MACRO G_GNUC_PRETTY_FUNCTION ##### -->
	<para>
	Expands to the GNU C <literal>__PRETTY_FUNCTION__</literal> variable
	if the compiler is <command>gcc</command>, or "" if it isn't.
	The GNU C <literal>__PRETTY_FUNCTION__</literal> variable contains the
	name of the current function. For a C program this is the same as the
	<literal>__FUNCTION__</literal> variable but for C++ it also includes
	extra information such as the class and function prototype. See the
	GNU C documentation for details.
	</para>



	<!-- ##### MACRO G_GNUC_NO_INSTRUMENT ##### -->
	<para>
	Expands to the GNU C <literal>no_instrument_function</literal> function
	attribute if the compiler is <command>gcc</command>. Functions with this
	attribute will not be
	instrumented for profiling, when the compiler is called with the
	<option>-finstrument-functions</option> option.
	See the GNU C documentation for details.
	</para>



	<!-- ##### MACRO G_LIKELY ##### -->
	<para>
	Hints the compiler that the expression is likely to evaluate to a true
	value. The compiler may use this information for optimizations.
	</para>
	<informalexample><programlisting>
	if (G_LIKELY (random () != 1))
	g_print ("not one");
	</programlisting></informalexample>

	@expr: the expression
	@Since: 2.2


	<!-- ##### MACRO G_UNLIKELY ##### -->
	<para>
	Hints the compiler that the expression is unlikely to evaluate to a true
	value. The compiler may use this information for optimizations.
	</para>
	<informalexample><programlisting>
	if (G_UNLIKELY (random () == 1))
	g_print ("a random one");
	</programlisting></informalexample>

	@expr: the expression
	@Since: 2.2


	<!-- ##### MACRO G_STRLOC ##### -->
	<para>
	Expands to a string identifying the current code position.
	</para>



	<!-- ##### MACRO G_STRFUNC ##### -->
	<para>

	</para>



	<!-- ##### MACRO G_GINT16_MODIFIER ##### -->
	<para>
	The platform dependent length modifier for constructing printf() conversion
	specifiers for values of type #gint16. It is a string literal, but doesn't
	include the percent-sign, such that you can add precision and length
	modifiers between percent-sign and conversion specifier and append a
	conversion specifier.
	</para>

	<para>
	The following example prints "0x7b";
	<informalexample>
	<programlisting>
	gint16 value = 123;
	g_print ("%#" G_GINT16_MODIFIER "x", value);
	</programlisting>
	</informalexample>
	</para>

	@Since: 2.4


	<!-- ##### MACRO G_GINT16_FORMAT ##### -->
	<para>
	This is the platform dependent conversion specifier for scanning and
	printing values of type #gint16. It is a string literal, but doesn't
	include the percent-sign, such that you can add precision and length
	modifiers between percent-sign and conversion specifier.
	</para>

	<para>
	<informalexample>
	<programlisting>
	gint16 in;
	gint32 out;
	sscanf ("42", "%" G_GINT16_FORMAT, &in)
	out = in * 1000;
	g_print ("%" G_GINT32_FORMAT, out);
	</programlisting>
	</informalexample>
	</para>



	<!-- ##### MACRO G_GUINT16_FORMAT ##### -->
	<para>
	This is the platform dependent conversion specifier for scanning and
	printing values of type #guint16. See also #G_GINT16_FORMAT.
	</para>



	<!-- ##### MACRO G_GINT32_MODIFIER ##### -->
	<para>
	The platform dependent length modifier for constructing printf() conversion
	specifiers for values of type #gint32. See also #G_GINT16_MODIFIER.
	</para>

	@Since: 2.4


	<!-- ##### MACRO G_GINT32_FORMAT ##### -->
	<para>
	This is the platform dependent conversion specifier for scanning and
	printing values of type #gint32. See also #G_GINT16_FORMAT.
	</para>



	<!-- ##### MACRO G_GUINT32_FORMAT ##### -->
	<para>
	This is the platform dependent conversion specifier for scanning and
	printing values of type #guint32. See also #G_GINT16_FORMAT.
	</para>



	<!-- ##### MACRO G_GINT64_MODIFIER ##### -->
	<para>
	The platform dependent length modifier for constructing printf() conversion
	specifiers for values of type #gint64. See also #G_GINT16_MODIFIER.
	</para>

	<note>
	<para>
	Some platforms do not support printing 64 bit integers,
	even though the types are supported. On such platforms #G_GINT64_MODIFIER
	is not defined.
	</para>
	</note>

	@Since: 2.4


	<!-- ##### MACRO G_GINT64_FORMAT ##### -->
	<para>
	This is the platform dependent conversion specifier for scanning and
	printing values of type #gint64. See also #G_GINT16_FORMAT.
	</para>

	<note>
	<para>
	Some platforms do not support scanning and printing 64 bit integers,
	even though the types are supported. On such platforms #G_GINT64_FORMAT
	is not defined. Note that scanf() may not support 64 bit integers, even
	if #G_GINT64_FORMAT is defined. Due to its weak error handling, scanf() is not
	recommended for parsing anyway; consider using g_strtoull() instead.
	</para>
	</note>



	<!-- ##### MACRO G_GUINT64_FORMAT ##### -->
	<para>
	This is the platform dependent conversion specifier for scanning and
	printing values of type #guint64. See also #G_GINT16_FORMAT.
	</para>

	<note>
	<para>
	Some platforms do not support scanning and printing 64 bit integers,
	even though the types are supported. On such platforms #G_GUINT64_FORMAT
	is not defined. Note that scanf() may not support 64 bit integers, even
	if #G_GINT64_FORMAT is defined. Due to its weak error handling, scanf() is not
	recommended for parsing anyway; consider using g_strtoull() instead.
	</para>
	</note>



	<!-- ##### MACRO G_GSIZE_MODIFIER ##### -->
	<para>

	</para>



	<!-- ##### MACRO G_GSIZE_FORMAT ##### -->
	<para>

	</para>



	<!-- ##### MACRO G_GSSIZE_FORMAT ##### -->
	<para>

	</para>